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Home My WebLink AboutTB Packet 2019-01-28 Meeting of the Ithaca Town Board Study Session Monday, January 28, 2019 1. Discuss and consider approval of an MOU with the Greater Tompkins County Municipal Health Insurance Consortium for Employer of Record services 2. Discuss and consider authorization for the Supervisor to sign contract agreements associated with the NYS Watershed Grant 3. Update on the draft Form Based Zoning 4. Discuss and consider authorization for an application to the DEC for a Deer Management Permit and associated SEQR 5. Continue discussion regarding the South Hill and West Hill Water Study 6. Committee Reports a. Planning • Chainworks draft PDZ b. Personnel and Organization c. Public Works d. Codes & Ordinances e. Budget f. Ad Hoc and Others 7. Consent a. Town of Ithaca Abstract b. Appoint Chelsea Benson to the JYC gE,'ir1K'1,3 IItE,ir IC�o, 1 MEETING OF THE ITHACA TOWN BOARD Monday, January 28, 2019 TB Resolution 2019-xxx: Authorizing the Supervisor to Sign the Memorandum of Understanding with Greater Tompkins County Municipal Health Insurance Consortium to Act as Employer of Record and Provide Payroll and Benefits Services Whereas, the Greater Tompkins County Municipal Health Insurance Consortium (Consortium) is a municipal cooperative formed under Article 5-G of the New York State General Municipal Law ("GML") created for the purpose of establishing a joint body to administer a self-insured municipal cooperative health plan pursuant to Article 47 of the New York Insurance Law; and Whereas, the Town, among other municipalities, is a party to a certain Municipal Cooperative Agreement, effective on the 1st day of October, 2010, and most recently amended as of June, 2015 (the "MCA"), that governs the operation of the Consortium, whose purpose is to furnish health benefits (medical, surgical, hospital, prescription drug, dental, and/or vision) to the enrollees of each participating municipality via a self- insured municipal cooperative health plan; and Whereas, the Consortium, is in need of support staff to assist in its administration of the provision of services for which it was created and to carry out its duties and obligations under the MCA, and Whereas, Pursuant to Section 119-o (2)(b) of the GML, the Consortium and the Town are permitted to contract with each other in the manner set forth herein to designate that certain staff of the Consortium "be deemed [that] of a specified participating corporation," namely the Town, and that such personnel be assigned to Consortium but "shall possess the same powers, duties, immunities and privileges they would ordinarily possess (1) if they performed their duties only in the corporation or district by which they are employed or (2) if they were employed by the corporation or district in which they are required to perform their duties"; and Whereas, Pursuant to Section E(1) of the MCA, the Consortium is authorized to contract with its participants in the furnishing goods and services reasonably needed in the efficient operation and administration of the Consortium; and Whereas, The Town, as a participating municipal corporation under the MCA, has agreed to deem certain support staff of the Consortium as employees of the Town, as permitted by Section 119-o (2)(b) of the GML, subject to the terms and conditions set forth herein; now, therefore, be it Resolved, that the Town Board of the Town of Ithaca hereby authorizes the supervisor to sign the Memorandum of Understanding with Greater Tompkins County Municipal Health Insurance Consortium to Act as Employer of Record and provide Payroll, Benefits and Human Resource Services, subject to the approval of the attorney for the town. Moved: Seconded: Vote: Ayes: MEMORANDUM OF UNDERSTANDING This MEMORANDUM OF UNDERSTANDING (this "Agreement") is made this 1st day of February, 2019 by and between the Greater Tompkins County Municipal Health Insurance Consortium (the "Consortium"), a municipal cooperative created under Article 5-G of the New York State General Municipal Law with an address at 125 E. Court St., Ithaca, New York 14850; and Town of Ithaca (the "Town"), a municipal corporation with an address at 215 N. Tioga St., Ithaca, New York 14850. WHEREAS: A. The Consortium is a municipal cooperative formed under Article 5-G of the New York State General Municipal Law ("GML") created for the purpose of establishing a joint body to administer a self-insured municipal cooperative health plan pursuant to Article 47 of the New York Insurance Law. B. The Town, among other municipalities, is a party to a certain Municipal Cooperation Agreement, effective on the 1st day of October, 2010, and most recently amended as of October, 2015 (the "MCA"), that governs the operation of the Consortium, whose purpose is to furnish health benefits (medical, surgical, hospital, prescription drug, dental, and/or vision) to the enrollees of each participating municipality via a self-insured municipal cooperative health plan. C. As a constituent participating member of the Consortium, the Town, and its employees, retirees, and their family members, are served by, and benefit from, the efficiencies created through the joint provision of health benefits provided by and through the Consortium. D. The Consortium, in turn, is in need of support staff to assist in its administration of the provision of services for which it was created and to carry out its duties and obligations under the MCA. E. Pursuant to Section 119-o (2)(b) of the GML, the Consortium and the Town are permitted to contract with each other in the manner set forth herein to designate that certain staff of the Consortium "be deemed [that] of a specified participating corporation," namely the Town, and that such personnel be assigned to Consortium but "shall possess the same powers, duties, immunities and privileges they would ordinarily possess (1)if they performed their duties only in the corporation or district by which they are employed or (2) if they were employed by the corporation or district in which they are required to perform their duties." F. Pursuant to Section E(1) of the MCA, the Board of Directors of the Consortium is authorized to contract with Consortium participants in the furnishing of goods and services reasonably needed in the efficient operation and administration of the Consortium. G. The Town, as a participating municipal corporation under the MCA, has agreed to deem certain support staff of the Consortium as employees of the Town, as permitted by Section 119-o (2)(b) of the GML, subject to the terms and conditions set forth herein. {H3525825.1} 1 NOW THEREFORE, the parties agree as follows: 1. PERSONNEL. The Town agrees to provide to the Consortium such personnel as approved by the Consortium (the "Staff') who shall be assigned to, and under the supervision of, the Executive Director and/or Board of Directors of the Consortium. 2. EMPLOYER. The Town shall at all times be deemed the employer for the Staff, responsible, in the first instances, for all costs associated with such Staff including, inter alia, payroll, FICA, workers' compensation premiums, insurance benefits, if any, retirement benefits and miscellaneous items such as photocopies, mailings and insurance claims. ("Employee Costs"), and shall compensate the Staff in accordance with its normal payroll practices. The Staff shall have the same benefits as Town non-collectively bargained staffs are eligible for (for example, paid time off, health insurance) unless and until any collective bargaining agreement applicable to the Staff becomes effective. The Town shall comply with all laws applicable to it as the employer of the Staff, shall maintain all employment records, and shall provide all human resource services as needed ("Human Resource Services"). Upon notice from the Consortium or through other means of any disciplinary, performance, or personnel related concerns regarding any Staff, the Town will cooperate and consult with the Consortium relative to the Town's implementation of any necessary civil service and personnel related actions, which are subject to the provisions in Section 4 below. 3. REIMBURSEMENT; ADMINISTRATIVE FEE. The Consortium shall reimburse the Town for all Employee Costs incurred by the Town with respect to the Staff. Additionally, the Consortium shall pay a monthly administrative fee in the amount of Five Hundred Dollars ($500.00), as payment for the administration of all Employee Costs and Human Resource Services ("Administrative Fee" and together with Employee Costs, collectively, the "Fees"). The Town shall remit monthly invoices to the Consortium on or before the 15th of each month, setting forth all Employee Costs and requesting reimbursement. The Consortium shall pay all Fees within thirty (30) days of receipt of an invoice. 4. RESPONSIBILITIES OF CONSORTIUM. The Consortium Executive Director and/or Board of Directors shall be responsible for the recruitment, and providing the provision of day- to-day supervision and oversight, including periodic evaluation, of any Staff designated to serve the Consortium. The Consortium will also be responsible for enforcing all applicable personnel policies including time, attendance, sick time, leave, vacation. The Consortium shall promptly notify the Town of any disciplinary, performance, or personnel related concerns regarding any Staff and shall be entitled to make recommendations to the Town with respect to hiring, promotion, pay increases, bonuses, discipline, termination, etc., which shall, where the Town determines the proposed action is reasonable, be implemented. 5. INSURANCE. The Town and the Consortium shall each provide commercial and liability coverage, including employment practices insurance, under which the Staff shall be covered and shall maintain such policies in full force and effect at all times. The Town and the Consortium may each designate the other as a co-insured on one or more such policies if in the judgment of its insurance agent such designation is warranted. The Consortium shall bear the {H3525825.1} 2 cost of D&O liability, E&O, and employment practices liability insurance coverage on behalf of the Staff. 6. TERMINATION. The Town or the Consortium may terminate this Agreement immediately upon the giving of ninety (90) days written notice to the other party. Upon termination of this Agreement, the rights and obligations of the parties hereto shall terminate, except that such termination shall not relieve any party of its payment obligations incurred prior to such termination. Upon any such termination, all Staff shall become, and be thereafter deemed, employees of the Consortium. 7. INDEMNIFICATION AND LIMITATION OF LIABILITIES. (a) The Consortium and the Town shall defend, indemnify and hold harmless each other, and each's elected officials, officers, directors, employees, trustees and agents, against any claims, cause of action, loss, liability, damage, cost, or expense (including reasonable attorneys' fees and costs) of any nature whatsoever, whether accrued, absolute, contingent or otherwise, and whether or not involving a third party claim, based upon or arising out of any act or omission committed by the other party, or its agents or representatives, springing from their respective responsibilities set forth in this Agreement. The Consortium shall defend, indemnify and hold harmless the Town for any claims, cause of action, loss, liability, damage, cost, or expense (including reasonable attorneys' fees and costs) of any nature whatsoever, whether accrued, absolute, contingent or otherwise, and whether or not involving a third party claim, based upon or arising out of the acts,performance, or non-performance of the Staff. (b) Neither party shall be liable to the other or to any third party, for any loss of special, indirect, incidental or consequential damages. (c) The provisions of this Section shall survive termination of this Agreement. 8. GENERAL. (a) Assignment. Neither party shall assign this Agreement without the prior written consent of the other. (b) Entire Agreement;Amendments. This Agreement constitutes the entire agreement between the parties pertaining to the subject matter hereof and supersedes all prior and contemporaneous agreements, understandings, negotiations and discussions, whether oral or written, of the parties, and there are no warranties, representations,promises, or other agreements between the parties in connection with the subject matter hereof except as specifically set forth herein. This Agreement may only be amended by the parties by an instrument in writing that is duly executed by the Town and Consortium. (c) Notices. All notices or other communications hereunder by any party to any other party shall be in writing and shall be addressed to the Executive Director, on behalf of the Consortium, or the Human Resources Manager, on behalf of the Town, and shall be delivered to the address set forth on the first page of this Agreement. Notices are effective upon the date {H3525825.1} 3 receipt. Either party may change the address to which notices are sent by giving notice of such change in the manner set forth above to the other party. (d) Counterparts. This Agreement may be executed in any number of counterparts, each of which shall be deemed an original, but all of which together shall constitute one and the same Agreement. (e) Severability. The provisions of this Agreement are severable, and in the event that any one or more provisions are deemed illegal or unenforceable, the remaining provisions shall remain in force and effect as if this Agreement had been executed with the illegal or unenforceable portion(s) thereof eliminated. (f) No Obligation to Third Parties. None of the obligations and duties of either party under this Agreement shall in any way or in any manner be deemed to create any obligation of such party to, or any rights in, any person or entity not a party to this Agreement. (g) Governing Law and Disputes. The terms of this Agreement shall be governed by the laws of the State of New York and the venue for any action to interpret or enforce this Agreement shall be in a court of competent jurisdiction located in Tompkins County, New York. (h) Term of and Revisiting the Agreement. This agreement shall be effective from February 1, 2019 through December 31, 2020. This Agreement will be revisited by the parties no later than November 1, 2020, and extended as necessary. [Signature Page Follows] {H3525825.1} 4 IN WITNESS WHEREOF, the parties hereto have executed this Agreement as of the date first above written. TOWN OF ITHACA By: William D. Goodman, Town Supervisor THE GREATER TOMPKINS MUNICIPAL HEALTH INSURANCE CONSORTIUM By: Rordon Hart,Vice Chair {H3525825.1} gE,'ir][('1,3IItE,ir IC�o, MEETING OF THE ITHACA TOWN BOARD Monday, January 28, 2019 TB Resolution 2019-xxx: Authorization for the Town Supervisor to sign an Independent Contractor Agreement for the Cayuga Lake Watershed Intermunicipal Organization (IO) Whereas the IO is administering the Cayuga Lake Watershed Plan Intermunicipal Organization and Implementation grant which requires third party contracts with CNY Regional Planning and Development Board for $73,500 and the Cayuga Lake Watershed Network for $33,000 for tasks detailed in the grant, now therefore be it Resolved that the Town Supervisor is authorized to sign said contract agreements as stated above on behalf of the town for work associated with the Cayuga Lake Watershed Plan Intermunicipal Organization and Implementation grant. Moved: Seconded: Vote: Cayuga Lake Watershed Network, Inc. POB 348 170 Main Street 212 Stratton Hall, Wells College Aurora NY 13026 AND TOWN OF ITHACA 215 North Tioga Street Ithaca, New York, 14850 ARTICLE 1: PARTIES: The parties to this Agreement are the Cayuga Lake Watershed Network, Inc. POB 348 170 Main Street, 212 Stratton Hall, Wells College Aurora NY 13026 and the Town of Ithaca (Contractor), 215 North Tioga Street, Ithaca NY 14850. ARTICLE 2: PURPOSE: To provide professional technical consulting services associated with the completion of the Cayuga Lake Watershed Plan Intermunicipal Organization and Implementation. This project is being funded, in part, by a grant that has been awarded to the Town of Ithaca through the New York State Department of State, Local Waterfront Revitalization Program. ARTICLE 3: DOCUMENTS FORMING AGREEMENT: This Agreement consists of Articles 1 through 18, and Appendix A. ARTICLE 4: TIME OF PERFORMANCE: The duration of this Agreement will be from through , or as extended or modified by the parties under the terms of this Agreement. ARTICLE 5: SCOPE OF SERVICES: The Consultant shall provide services according to the Scope of Services attached to this Agreement as Appendix A. ARTICLE 6: PAYMENT FOR SERVICE: The total costs for the completion of all work performed by the Consultant under this Agreement is $33,000.00 ($3000 of which is travel expense). $15,000 of these costs will be covered by matching funds from private foundation grants received by the CLWN ($5000 per year over the three-year life of the grant). Any obligation to make any payments to the Consultant shall be subject to the Consultant completing the work in a manner that is satisfactory to the Town of Ithaca and in accordance with the schedule provided for in this Agreement. In order to receive payment, the Consultant must submit to the Town of Ithaca a quarterly progress report and an invoice. All invoices shall set forth the total project costs incurred for the applicable quarterly period and the amount to be reimbursed by the Town of Ithaca. All payments for invoices submitted by the Consultant and accepted by the Town of Ithaca will be made in a timely manner following receipt of said invoice and grant funds from the New York State Department of State. 1 ARTICLE 7: INDEPENDENT CONTRACTOR: For the purposes of this Agreement, the Consultant shall be considered an independent contractor and hereby covenants and agrees to act in accordance with that status; and the employees and agents of the Consultant shall neither hold themselves out as nor claim to be officers or employees of the Town of Ithaca, and shall make no claim for, nor shall be entitled to, wages, workers compensation coverage, medical and unemployment benefits, social security, retirement membership, or any other benefits from the Town of Ithaca. ARTICLE 8: AGREEMENT TERMINATION: It is agreed by both parties that either party can terminate this Agreement at any time by giving written notice at least 30 days before the effective termination date of the Agreement. Such notice shall specify the reason for terminating the Agreement. In such event, all finished or unfinished documents and reports prepared by the Consultant for this project will become the property of the Town of Ithaca. The Consultant shall be entitled to receive just and equitable compensation for all work completed, accepted, and approved by the Town of Ithaca up to the date of termination. ARTICLE 9: AGREEMENT MODIFICATIONS: This Agreement represents the entire and integrated Agreement between the Consultant and the Town of Ithaca and supersedes all prior negotiations, representations or agreements either written or oral. This Agreement may be amended only by written instrument signed by both the Consultant and the Town of Ithaca. ARTICLE 10: HOLD HARMLESS AND INDEMNIFICATION: The Consultant and its subcontractors assumes all risk in performing their work and services under this Agreement and shall be solely responsible and answerable in damages for all accidents or injuries to person or tangible real property. The Consultant hereby covenants and agrees to indemnify and save harmless the Town of Ithaca and its officers and employees from any and all claims, suits, losses, damages for death or bodily injuries to person or tangible real property whether direct or indirect, arising out of any actions of the Consultant or any of the Consultant's subcontractors, agents or employees, in connection with the performance of any services under this Agreement, which responsibility shall not be limited by reason of any insurance coverage the Consultant may provide. ARTICLE 11: COMPLIANCE WITH REGULATIONS: In acceptance of this Agreement, the Consultant covenants and agrees to comply in all respects with all federal, state, and local laws and regulations which pertain hereto, including, but not limited to, workers compensation and employers liability insurance, hours of employment, wages, and civil rights. ARTICLE 12: LICENSES AND PERMITS: The Consultant hereby agrees that it and any of its subcontractors will obtain at their own expense all licenses, permits and/or owner permission for all work performed under this Agreement prior to the commencement of such work. ARTICLE 13: CERTIFICATION: The Consultant hereby certifies that the Consultant is not debarred or suspended from any federal, state, or local municipal government 2 contracts and provides the same certification for any subcontractors retained by the Consultant to work on this Agreement. ARTICLE 14: CONFLICT OF INTEREST: The parties hereby stipulate and certify that there is no member, officer, or employee forbidden by the law to be interested in this Agreement, directly or indirectly, who will benefit there from or who is party thereto. ARTICLE 1S: ASSIGNMENT: The Consultant agrees that it shall not assign transfer, convey, subcontract, or otherwise dispose of this Agreement or its rights under this Agreement, title or interest in and/or to the same nor any part thereof nor the power to execute such Agreement to any other person, company or corporation without the prior express written consent of the Town of Ithaca. ARTICLE 16: EXECUTORY CLAUSE: It is understood by and between the parties hereto that this Agreement shall be deemed executory only to the extent of monies appropriated and made available by New York State Department of State for the purpose of this Agreement and no liability on account thereof shall be incurred by the Town of Ithaca beyond monies actually appropriated and made available for the purpose hereof. ARTICLE 17: SEVERABILITY CLAUSE: If any term or provision of this Agreement shall be held invalid or unenforceable, the remainder of this Agreement shall not be affected thereby and every other term and provision of this Agreement shall be valid and enforced to the fullest extent permitted by law. This Agreement will be interpreted under the laws of the State of New York. ARTICLE 18: CLAUSES REQUIRED BY LAW: The parties hereto understand and agree that each and every provision of law and clause required by law to be inserted in this Agreement shall be deemed to have been inserted herein, and if through mistake or inadvertence such provision is not inserted, said clause shall be deemed to have been inserted and shall have the full force and effect of law. BY: Cayuga Lake Watershed Network Hilary Lambert, Executive Director Date BY: Town of Ithaca William D. Goodman, Supervisor Date 3 STATE OF NEW YORK, COUNTY OF ss: On this day of , 2018, before me personally appeared to me personally known and who acknowledged that he/she is the of the the organization described herein. Notary Public STATE OF NEW YORK, COUNTY OF ss: On this day of , 2018, before me personally appeared to me personally known and who acknowledged that he/she is the of the the organization described herein. Notary Public 4 APPENDIX A Scope of Services The Cayuga Lake Watershed Network (CLWN), in consultation with the Cayuga Lake Watershed Intermunicipal Organization (10), the Project Advisory Committee, and the Central New York Regional Planning &, Development Board (CNY RPDB), will complete the following scope of work: Task 1: Project Kick-Off Meeting 'FasklPirqjec t Kick-Ofr Meet ing The Coniractoir,the Department, project partnem,,and wv other appropiriale entities ball hold a prxjeo kick- off nicefing to review the project scoj)e, projedo schediale,proJect requireinctits, rotas and responsibilities,of pro.lco partners, the selection proce!ss for procuring consultant servicics t(,)r thC PTOj,CCt,,State Enviromnental Quality Revicw,Act(SEQRA)conipliance requircitienisr, %I WBE requirem-ents, the nturtx-r ol"public rnee6ngs and teduflques lot public involvernent projx),sed for the project as pail,of (.ommunily Oiutj'erict,i/l)i,iirticipaiio�ii Plan and my offier information which would assist in 1,noject catnipletion, In addition,the mcichanisin of forniation for,and tire corrittosition ofa Nvaterslied whisory cointrittee,shall be discus.sed during prt)ject kick-offniecting, I'lic(,ontractor,or a designated prqjcct patiner,shalt Prepare and distribute to all projeci Imaners a brichnecting suminary dearly indicating the rcached at the mecting Work on subsequent tasks shall not pro cod I)rilor to Departy ncnt approval of the prop,tsed approach as outlined in the nrecting suniniary, I'miucts'. P'r(.,)ject kick-off tneeting held widt approl),ri,ate tmrties,, Written rrueeting sumirary outlining ap;rce!rncnts�'k,iiidler.itatitiinfir reached. Finalized project scbeiduk CLWN will attend the Kick-Off Meeting and contribute to written meeting summary. Task 2: Project Advisory Committee I as k 1: Project Advisory Committee 'In consultation with the Depm1ment,the Contractor,"ith wher projccl partners, shal I cstaNish a proJect advisory,cominittee to facilitate communication,anJ cooperatioln of thc involved local governments,, Statc agendes,and offier stakeholders essential to prepanition,and implementation of the%vatershed plati, The committee will 110r)filcus the rflanning rrocess,assist in reviewing consultant prolx)sal s,interact with the project administrator(ifone is identified)and revicw work products,1be clonimittee shall be mpresort wive of Project stakeholders, including representatives of State,county and rnmicipal agencies with jurisdiction over project activities or the projca area,and non-governmental and community based organizations. A. dnift list of 1)rop(,6&d crienibers sha:11 be circulawd to dic I)cpartment for rieviov and approval lirior to cstablisp ment ofthe coinaii1lee. Produem 1)raft and firui,J fist of prorwied rnernbers of%,atershed advisory conitnillee. Project advisory committee establishcd, CLWN will assist in the establishment of the Project Advisory Committee. 5 Task 3: Request for Proposals - Contractor "'ragk' 1Request for Iaroposals The Contractor shall draft a Request for Pwposals(R,I'-P)including a coinplete project dic-scription with site condifions,expected final re,,ititts,a S'chicidulc hear COMPIclion,MWBF r"juirements,an,d criteria for gelecting a jim(erred proposal,, The Contractair shall submit the RF P mi the Departrnent f review,cuid arliroval prior to releasc for sc4icitadon ofproposah. Consultant services reipAit-sted shall include all applicable tasks,, activities and resrot)nsibiliiiies owfined in the, 'Trojcct Components"section of this work program, Products: Approved lel II released thmitigh advertisement in lmal papers, the New Yu '.irk State Onitract Reporter,and other appropriate incans, Task 4: Consultant Selection and Compliance with Procurement Requirements - Contractor Task 4: Consultant Selection,and Coinpliance with 1,11rocurcinent Riccluirements [it consultation with the Depiinmcrut,the Contractor and an appropriate review committec shall review all proposals reoarea as a rendt ofthe 8111, At a minimum, the following,criteria are suggested for usc in evaluating consultant reipons-es� • Quality and conipleteness of the resp onae c. • LJnderstanding of the proposed scopeof woA,', • Applicability of propowd alternafives os,enhaticetnonts to irtfbmmiation requo-ted. • Cost-effeclivencss of the proposal. • Qualifications,and relevant experience with resptvt to the tasks to be perforrned. • Reputmion artiong previous clients. • Ability,to coriplete all prqject taskaa within the allotted ti mu*and budgct, • Ability to satisfy MWEIE' requirenients, ItIODrnplete proposals that do not address all of dw reqtwsled coinponents should not be-accepted for revilm E1111d consideration. For ptcparation)certification of fini)l designs wd construction documents, and for supervision of consiniction,as licensed pro4'eski;i(nuil enginicer, architect or landscape architect ficenscd tan per oicticein New Yorl;, State is required. The n1unicipal attorney,chief legal(Micer or financial administrator of the n1unicipality shall certify in %Titing to the Deparitnient,thal applicable provisions gut'(jencTaal Municipal Law were fully complied with. Th c Contractor's ptocurernent record and consailtant selection is subject to,approval by,thc DepajlmenL Products: Consitiliant(s) selected and approved by the Dq.w,rtment, Written coification ofcompliance with procutement procedures, 6 Task 5: Subcontract Preparation and Execution T'ask 5: SuIxontract Prepaniflon and F,'xecutian I'he Contractor shall prepare the draft,subcontract(s)to conduct pr(�Icet work,Nvith the weectedBortsultant(s),, ]'he subcontract(s)shall conw,in as detailed work plan with adequate opportunity for review at appropriate slages o(prodmi complesion,a paymern schedule with psynienus tied to rcrceipl of prcducts,and,project cosis. nic subcontracl(s)shall specify the comjx)sition of the entire consultant ticam,including flinn narric avid area of responsibility, rinn expertise,and those profnsionals from the consultant team of Consulting finn that wiH Ix directly invtflved in specilk project tasks,hicluding how the identified N4WBE Vpals will be satisfied 'I'he ''ontract(:)t shall submit the drutl son Libctract(s) to the Departnw ivit for revieof the subcona sitcwork ork plan for alignment with the appropriate tasks of the worlr plan as set fonh in Anachment C of"this conitract, 'I"he Contractor shall inoorporate the Npartment's commufts on the subcontract work, plall, or sc(,,)Pc of'scrvices,Prior to execution of the final subcantract(s). 17hc Contractor rentals responsible for the ICgjILNuA)I6CnCY art the subcontract in accordance with the requirmicnts,irt the NUstumor Grant Contract and Alutchnient A-1, I't(AU43S.- Draft and final,executed consultant subcontracts, CLWN will work with the Contractor to finalize the subcontract. Task 6: Second Project Meeting fat la 6ect,)nd Pr(t�icct Meeting Ini consultation with the N-partnictit,the Contractor shall hold a second pr(uw ect mwing, including the consultant(s),and othier prqject partners as appropriate,to review prcliecl rcquirenrients,site conditions,and roles,and responsibilities, identify new informaflon needs and next sieps„ and transCer any infonnation to the consultant(s)which would assist in completion Of tilt,prqjea '11tc consultant(s)shAll prepare and distributic as bric f meet ing surnmary C JCafly ind,ical ing the agreernents/understand i ngs reached at the tneeting, Workware subsequem uisks shall not proceed,prior to,Dcpartnicat approval of the pro;xned approach as outlined in tile rneeling summary, prcOucts: Mecting held Nvith,appropriate partic& Written reaming sunninary outlining reache& CLWN will help prepare and distribute a summary indicating agreements/understandings reached at the meeting. Task 7: [Left blank in DOS workplan] 7 Task 8: Preparation of Community Outreach/Participation Plan Task 8: 11reparalJon of Community Ontrcach/participation Plan The Contractor or its consultant(s), in cooperationwith the watershed advisory committec,and,other ptarIners,as appropriate, shall ptcpare as inethod and process to encourage cortununity participation in the plaimi rig process, 'Ybeoulimach plan willl identify key individuals,organizration s, aoral entiticsto be involved, and will identify the visianing prociesi and thpow es and responsibilitie-.z,in coordinating the cntirc cmircach pnxess, logistics,and the proposed schedule of public inceling4. At a minimum,the Outreach pr(w,css shall include at least thrcc public%,,orkshops to be conducied as part of the waterf'ront,visioning and consensus-building process. All public mectingsshall lastublicimd in the curninunity through press releases, announconents, individLtal trutilingi,and any other appropTiale nicans, A !-siammary ofeach public outreach session shall be made available iii written form and,through other appropriate nicaris, such as web"Siles, The outreach plan anid all comrKments, such as,press releases,arc subjiect to review and approval by thic Dcpartrnicnta I>rodtwl: COM ITHIrlil Y O'Ll treach p I an SLIbITI i It Cd to the [)epartmen I fin revicw and approval, CLWN will work with the Contractor, Project Advisory Committee [not Watershed Advisory Committee as stated above], and other partners to encourage community participation via Community Outreach and a Participation Plan. As discussed and amended in the November 15, 2018 project kick off meeting, two (2) public workshops will be conducted. The first of these two meetings was conducted on April 9, 2018. The second and final public meeting shall be publicized in the community through press releases, announcements, individual mailings, and any other appropriate means, as described above. Task 9. Develop and Establish Operational Structure Task 91: Develop and Estriblish,Operational SnUoure llic Contractor,lar its Consultants, will define a sustainable structure for the Interniurticipal Organizalio n(10), Organizational stractures will be researched turd analyzed for the rn(nt appropriate iI1IPlCn'MIUdi0n for the 10, Feedback Nvill be solicited, from the Project Advisory CornmiUcc and 10, I)raf,1,gowmanec docutncnts wil I he dcveloIxd biased on f" ed back, In add it ion, the 21010 1 Mentorandurn ol'Agrccment(MOA),will be revisited. It"appropriate.the(NIGA)or other instrument that describes the purIx)scs and responsibilities of the watcmhed advisory committee and iLs,partners Shall he executed. Products: Draft and (Inal draft governance documents and five O, ifnecessary. CLWN's responsibilities for Task 9: 1. CLWN will research watershed governance models and select up to 5 successful models. Report will be compiled by CLWN and sent to the Town Clerk who will distribute report to 10 members, compile any comments, and make copies for 10 meeting. 8 2. CLWN will present the 5 examples of governance at a regularly scheduled IO meeting. The group will discuss the pros and cons of the models and select three for further discussion and consideration. 3. CLWN will present the selected watershed governance models at an Interagency Committee Meeting convened by CNY RPDB. 4. CLWN will schedule and conduct a joint interagency and IO meeting to receive input from Interagency Committee members on the regional work-ability of the selected models. S. CLWN will work with CNY RPDB, Interagency Task Force, and IO in the selection process of a new governance model, its adoption by the IO, and notification of the Dept. of State of these outcomes. Task 10. Prioritization Criteria Development "f"aaaala 10: larar.rritiiaatarnru Criteria Developn cnt Bawd d on the 2017 update of the Cayuga Ulaar Watershed Restoration and Protection Plan(funded through Previous f,"Pl"funding)amid the characterization ant fhe watctbAy and,its vvattu„rNhed,the Contractor or it, consultant(s)will develop criteria to prioritize r urrannrntendal ions to pnr tco and restore the tvsotirces offhe waaterinandy and its watershed, The prianritlaraatio n process rnna y rrnv lud +� 1,vanivaatprn naminvwutvr lnud.v according to iranpnaatnnnn ntv and,/or direatS W water quality and habitat, • [doitifying tnrioritics within subwatcr hinds l'lrr tarewwd non saint source p,')Iq'uuuiaarn avinsa an:unanrnt action, aw Ranking rargtat and,actions within each subwatershed according to anticipated reduction to rno nfaaagrtt sourcv p ollutinari or protection ofunimpaired pamrred resou ices, 11(,rtcnlial ranking factors mnnu)s include,hm vvvuI4 not necessarfly tv I4nnited,to: o waurrshcd goals.subwatcrshcd pnriodty,aaand v+'ttlmnvra°alni@nth+, o pnanilutaarnt ra:dtnawtiamndlprantection afforded,water resources and/or haalnilant value o cost,pv rnrarttmn „„and maintenance o land ow n r cooperation,public aac,eeesat and visibility o Inaartrnaar iravunlvaµrane nt and innovation Pranduatra Draft and final prioritization criteria. CLWN's responsibilities for Task 10: 1. Review of RPP recommendations: CLWN will present the Recommendations from the 2017 Cayuga Lake Watershed Restoration and Protection Plan ("II. Recommendations for Action and Next Steps", pp. 18-24) to the IO and CNY RPBD. 2. CLWN will work with CNY RPDB, IO and Interagency Committee as a recommendations prioritization process takes place, led by the CNY RPDB. Once this process is complete, a joint meeting of the IO and Interagency Committee will be scheduled for presentation of criteria and prioritized recommendations. Document 9 preparation will be provided by the Town Clerk; CNY RPDB will lead discussion about turning recommendations into project ideas. 3. CLWN will work with and support CNY RPDB, the 10, and the Interagency Committee as the 10 adopts/accepts criteria and prioritized recommendations via the regular 10 meeting process, assisted by the Town Clerk. Task 11 Public/Intermunicipal Participation/Outreach Meeting 'Fask 11: Ntblic./Wennuni6pal Moctijig In consu�tation �%Jth Elie I)cpartment,a swmd puNic oureach/parlicipatitiii itietting all be coinductcd to allow 1"or liublic mview aml commew(m the Watershed Nlariagcmiem Recarnrriowdatiojis,anid Prioritization. Nvritten surnitury of p0lic iiiina obtairicd at this mectirig shall be prcpared and providc(l,to the Mparlum-it fin rc%,icNv marcid c(,wri,inmit, INblic ini-na shall be iiicorpur-ated into,the F"inal Wawnhcd Maiiagemera Plari,to the saifsf4ciionof Lhc Depart merit prior to fifaalizalion,and/oi-poblication of the plan. Prodixts: Ilublic infor�mation meclings held, Nlimaes,(Suiumary of mast tams CLWN will work with the Contractor, Project Advisory Committee, and other partners to provide the second of two public outreach/participation meetings for review and comment on the prioritized recommendations. Meeting summary will be submitted to the Department for review and comment, and incorporated into final project documents [note: Not "Watershed Management Plan" as described above]. 10 Task 12 Task 11 Prioriti 7ation of"Projects,and Dcvcl opnient of Impletneri tal i on S trategy and Schedule Based on the priorifi4vion cirAcria,the, (.,ontractor or its consuhant(s) shall dvv,clop a,prioritized list of reconiniendadowns, with suppartingjustificafion,and finked to rnaps arki should include photographs showing proJect locations and conditions, The Con(ructor or its consuhant(s)shall prepare as strategy and schedule to, intpleawnt the idenfified watcrshcd rrianagenient pracliecs and approarfies,incluiding the specific prqjeicts and other actions Our were identificd througli analysis and public participation. (71carly articulate priorities, measurable objectives and steps,to iniplement the identified Prowtion and restoration strategies Include Cost cStifnates" Potential funding sources,and as phasing,schedule noting lead/involved organi7ation,s fin each action. Inchide at schedule for periodically updating theplan. ArlicuNle the ongoing role.of the watershed advis(iry cornmittee, The Irnplenlentation Strategy "I It include a mrtfrix of'priorilizcd protect s and other actions lor adArancing [Ile imrilcmClItation of the goals and obiectivcs of the wawrshed plan, including steps needed w irnplernent the specific projecis(c.g,, Feasitality,design,permitting,cc),nsiiruction),tiniefrartic for irnp1cmentation, short ternri(e g., ininrediate it) I ),eat),rnedium tenn(e.g,,grealcr than I year, up to 5 yr,$),or hyng-temi(c,g,, greater tharl 5 years),,Cost estialates,pcntenlial funding wurces,rcgulaloq, approN,als needed,and likcl)�, Project Sponsor(agency Or Organiaition krul)and project partners.1"be Contriulor shall sublinit the draft finpIcnicritati(ni Strategy so(lie DeparinxTst for review and apprco,yal,and shall incorrwrate the Depatlinent's wininents in the fin.ai Irnplementation Strategy, PsAucts: Draft and Final lrnpletacntafion Strateg)+ and Schedule Rcliort The CNY RPDB is the lead for Task 12. CLWN's responsibilities: 1. CLWN will schedule a joint meeting of the Interagency committee and 10 to identify projects that meet the prioritized recommendations, with support by Town Clerk. CLWN will participate in the CNY RPDB-led presentation and discussion of building project partnerships, with input from the Interagency Council, that mesh with agency priorities and capabilities. 2. CLWN will work with the other participants in the CNY RPDB-led process to identify feasible projects. CLWN will assist in reaching out to potential project partners to identify between 3 and 5 projects for further action. Town Clerk to assist with document preparation and sharing. 3. CLWN will work with partners to select and approve a list of proposed projects for further action, when CNY RPDB presents the potential projects to the 10 at a regular meeting, with assistance from the Town Clerk. Task 13 `1`w,,,,k 13: Pfloirit.y Project Profiles, flie Contractor or its consultanti(s)shrfll idetatify the 1,opi 5.6 prqjects to prepare project profiles for select priority,recorrimictidatiotts, Proliles will include project scoix,cost estiniates,conceptual designs(if necessary),pert'nit twalysis(if necessary , ),and fanding structure. tic Contractor shall subrnil the draft Priority Project 11tortles to the Depailment Isar review and approval, and shaH incarliorate the 1,X-;:Nirtrnesit's comments in the final Pnlject Profislics finplerylentation Strategy. Pr(,,)id;jcm, Draft and Hnal Project I'lans, CLWN to support CNY RPDB, the lead for this phase: 1. CLWN will assist in presenting project ideas and partnerships that further the prioritized recommendations from the 2017 Cayuga Lake Restoration and Protection Plan to the 10 for their consideration at a regular monthly meeting. 2. CLWN will provide input as CNY RPDB, Town Clerk and 10 develop project plans and cost estimates; identify funding match, engage funding agencies, and finalize applications for submittal of grant applications. Task 14: MWBE reporting — Contractor (Town of Ithaca). Task 15: T'ask 15, Projcct Status Reporivs The Contractor or its consuh=4,$)i shall stibrnit project stalus,reporlsserni-annually(every June 30,and December 3,1,j on the 1,"orm providicid, including at descril)tion of the w(,,)rk acconiplished, the status ofall (asks in this work plan, schedule oficompIction of remaining tasks,and art explanation(�tif tiny problerns, crico untered, Products: Conipletield projiect,statute reports stibirincd toff during the, life of the contract, CLWN will submit information as required for the Project Status Reports. Task 16: Task 1 16. Final Pro''Ject S'tirninary Repart and Measurable Restilts forins, The('01'ametor Or its constfliant(s) shall i with the Departe nent lirrrjccl nianager to,cornplete the Final 11'r(,)Jcc,t Sinninary Rerxm and Nileasurable Results fonns,, Final payniierat shall ni,)l beaufliorized tintilthesic f6rn-is hiwc biecri conililicted and filicid with project dcliverablics. Noditicts: ('ornpletied FInal Prtjeci Suinniary Rerwri and Meastar alfle Results fbinns submitted to 1)0& As part of the Project Team, CLWN will assist in preparing the Final Project Summary Report and Measurable Results forms for submission to DOS. 12 CONTRACT AGREEMENT CENTRAL NEW YORK REGIONAL PLANNING AND DEVELOPMENT BOARD 126 N. Salina Street, Suite 200 Syracuse,New York 13202 AND TOWN OF ITHACA 215 North Street Ithaca,New York, 14850 ARTICLE 1: PARTIES: The parties to this Agreement are the Central New York Regional Planning and Development Board (Consultant), 126 North Salina Street, Syracuse, New York, 13202 and the Town of Ithaca(Town), 215 North Street, Ithaca,New York, 14850. ARTICLE 2: PURPOSE: To provide professional technical consulting services associated with the completion of the Cayuga Lake Watershed Plan Intermunicipal Organization and Implementation project. This project is being funded, in part,by a grant that has been awarded to the Town of Ithaca through the New York State Department of State Local Waterfront Revitalization Program, and partly through the Cayuga Lake Watershed Intermunicipal Organization. ARTICLE 3: DOCUMENTS FORMING AGREEMENT: This Agreement consists of Articles 1 through 19, Appendix A, and Appendix B. ARTICLE 4: TIME OF PERFORMANCE: The duration of this Agreement will be from November 1, 2018 through March 31, 2023, or as extended or modified by the parties under the terms of this Agreement. ARTICLE 5: SCOPE OF SERVICES: The Consultant shall provide services according to the Scope of Services attached to this Agreement as Appendix A. ARTICLE 6: PAYMENT FOR SERVICE: The total costs for the completion of all work performed by the Consultant under this Agreement is $73,500. Any obligation to make any payments to the Consultant shall be subject to the Consultant completing the work in a manner that is satisfactory to the Town and in accordance with the schedule provided for in this Agreement. In order to receive payment, the Consultant must submit to the Town a progress report, task deliverables, and an invoice. All invoices shall set forth the total project costs incurred for the completion of each task and the amount which will be reimbursed by the Town. All invoices must be accompanied by the submission of appropriate documentation as required by the Town All payments for invoices submitted by the Consultant and accepted by the Town will be made in a timely manner following receipt of said invoice and grant funds from the New York State Department of State and the Cayuga Lake Intermunicipal Organization. ARTICLE 7: INDEPENDENT CONTRACTOR: For the purposes of this Agreement, the Consultant shall be considered an independent contractor and hereby covenants and agrees to act in accordance with that status; and the employees and agents of the Consultant shall neither hold themselves out as nor claim to be officers or employees of the Town, and shall make no claim for, nor shall be entitled to, wages, workers compensation coverage, medical and unemployment benefits, social security, retirement membership, or any other benefits from the Town. ARTICLE 8: AGREEMENT TERMINATION: It is agreed by both parties that either party can terminate this Agreement at any time by giving written notice at least 30 days before the effective termination date of the Agreement. Such notice shall specify the reason for terminating the Agreement. In such event, all finished or unfinished documents and reports prepared by the Consultant for this project will become the property of the Town. The Consultant shall be entitled to receive just and equitable compensation for all work completed, accepted, and approved by the Town up to the date of termination. ARTICLE 9: AGREEMENT MODIFICATIONS: This Agreement represents the entire and integrated Agreement between the Consultant and the Town and supersedes all prior negotiations, representations or agreements either written or oral. This Agreement may be amended only by written instrument signed by both the Consultant and the Town. The Consultant shall comply with all applicable terms and conditions contained in the Agreement between the Town and Department of State(C0000945)which is attached hereto. In the event of a conflict between this agreement and the State assistance agreement,the terms of the State assistance agreement shall control. ARTICLE 10: HOLDHARMLESS AND INDEMNIFICATION: The Consultant and its subcontractors assumes all risk in performing their work and services under this Agreement and shall be solely responsible and answerable in damages for all accidents or injuries to person or tangible real property. The Consultant hereby covenants and agrees to indemnify and save harmless the Town and its officers and employees from any and all claims, suits, losses, damages for death or bodily injuries to person or tangible real property whether direct or indirect, arising out of any actions of the Consultant or any of the Consultant's subcontractors,agents or employees, in connection with the performance of any services under this Agreement, which responsibility shall not be limited by reason of any insurance coverage the Consultant may provide. ARTICLE 11: INSURANCE: The Consultant shall maintain insurance of the types and coverage set forth below, written on an occurrence basis, which shall provide primary liability coverage to the Consultant for claims which may arise out of or result from the Consultant's operations and actions under this Agreement, including without limitation, (1) claims because of bodily injury, occupational sickness or disease, or death, whether to the Consultant, or Consultant's employees, Consultant's sub-consultants,or others,and whether or not under a workers' compensation or other similar act or law for the benefit of employees; and (2) claims because of injury to or destruction of tangible property,including loss of use resulting there from. The Town and each of its directors, officers,employees, agents and representatives shall be listed as additional insured and certificate holders, on a primary and non-participatory basis, on said liability policies. 1. Commercial general liability insurance providing both bodily injury (including death) and property damage insurance with a limit not less than One Million Dollars ($1,000,000) per occurrence, Two Million ($2,000,000) aggregate. 2. Automobile liability insurance with a limit of not less than $1,000,000 combined single limit for bodily injury and property damage. 3. Statutory Worker's Compensation Insurance coverage. Proof of insurance must be submitted on an affidavit signed by the Worker's Compensation Board. All policies shall provide that should the policy be cancelled before the expiration date thereof, notice will be delivered to the Town in accordance with the policy provisions at least (30) days prior to the effective date of the cancellation. Certificates of insurance from the carrier, or their authorized agent, with the appropriate endorsement attached showing the Town as an additional insured and certificate holder for General Liability and Automobile Liability insurance, and stating the limits of liability, coverage period, and expiration date, must be filed with and accepted by the Town before this Agreement is fully executed. ARTICLE 12: COMPLIANCE WITH REGULATIONS: In acceptance of this Agreement, the Consultant covenants and agrees to comply in all respects with all federal, state, and local laws and regulations which pertain hereto, including, but not limited to, workers' compensation and employers liability insurance, hours of employment,wages, and civil rights. ARTICLE 13: LICENSES AND PERMITS: The Consultant hereby agrees that it and any of its subcontractors will obtain at their own expense all licenses, permits and/or owner permission for all work performed under this Agreement prior to the commencement of such work. ARTICLE 14: CERTIFICATION: The Consultant hereby certifies that the Consultant is not debarred or suspended from any federal, state, or local municipal government contracts and provides the same certification for any subcontractors retained by the Consultant to work on this Agreement. ARTICLE 15: CONFLICT OF INTEREST: The parties hereby stipulate and certify that there is no member,officer, or employee forbidden by the law to be interested in this Agreement, directly or indirectly,who will benefit there from or who is party thereto. ARTICLE 16: ASSIGNMENT: The Consultant agrees that it shall not assign transfer, convey, subcontract, or otherwise dispose of this Agreement or its rights under this Agreement, title or interest in and/or to the same nor any part thereof nor the power to execute such Agreement to any other person, company or corporation without the prior express written consent of the Town. ARTICLE 17: EXECUTORY CLAUSE: It is understood by and between the parties hereto that this Agreement shall be deemed executory only to the extent of monies appropriated and made available by the New York State Department of State and the Cayuga Lake Intermunicipal Organization for the purpose of this Agreement and no liability on account thereof shall be incurred by the Town beyond monies actually appropriated and made available for the purpose hereof. ARTICLE 18: SEVERABILITY CLAUSE: If any term or provision of this Agreement shall be held invalid or unenforceable, the remainder of this Agreement shall not be affected thereby and every other term and provision of this Agreement shall be valid and enforced to the fullest extent permitted by law. This Agreement will be interpreted under the laws of the State of New York. ARTICLE 19• CLAUSES REQUIRED BY LAW: The parties hereto understand and agree that each and every provision of law and clause required by law to be inserted in this Agreement shall be deemed to have been inserted herein, and if through mistake or inadvertence such provision is not inserted, said clause shall be deemed to have been inserted and shall have the full force and effect of law. BY: Central New York Regional Planning and Development Board David V. Bottar,Executive Director Date BY: Town of Ithaca William D. Goodman,Supervisor Date STATE OF NEW YORK, COUNTY OF ss: On this day of , 2018, before me personally appeared to me personally known and who acknowledged that he/she is the of the the organization described herein. Notary Public STATE OF NEW YORK, COUNTY OF ss: On this day of , 2018, before me personally appeared to me personally known and who acknowledged that he/she is the of the the organization described herein. Notary Public APPENDIX A Scope of Services The Central New York Regional Planning & Development Board (CNY RPDB) will complete the following scope of work: Task 1:Project Kick-Off Meeting(NYS DOS Task 1.) CNY RPDB will participate in a project kick-off meeting with the Town of Ithaca(Contractor), the Department, project partners and any other appropriate entities to review the project scope, project schedule, project requirements, roles and responsibilities of project partners, the selection process for procuring consultant services for the project, State Environmental Quality Review Act (SEQRA) compliance requirements, MWBE requirements, the number of public meetings and techniques for public involvement proposed for the project as part of a Community Outreach/Participation Plan and any other information which would assist in project completion. In addition, the mechanism of formation for, and the composition of a watershed advisory committee, shall be discussed during project kick-off meeting. The Contractor,or a designated project partner, shall prepare and distribute to all project partners a brief meeting summary clearly indicating the agreements/understandings reached at the meeting. Work on subsequent tasks shall not proceed prior to Department approval of the proposed approach as outlined in the meeting summary. Products: Project kick-off meeting field with appropriate parties. Written meeting summary outlining agreements/understandings reached. Finalized project schedule. Task 2. Project Advisory Committee (NYS DOS Task 2.) In consultation with the Department,the Town,and with other project partners,CNY RPDB Will assist in the establishment of the Project Advisory Committee. To facilitate communication and cooperation of the involved local governments,State agencies,and other stakeholders essential to preparation and implementation of the watershed plan. The committee will help focus the planning process, assist in reviewing consultant proposals, interact with the project administrator and review work projects. The committee shall be representative of project stakeholders, including representatives of State, county and municipal agencies with jurisdiction over project activities or the project area, and non- governmental and community based organizations. A draft list of proposed members shall be circulated to the Department for review and approval prior to establishment of the Committee. Products:Draft and final list of proposed members of watershed advisory committee. Project advisory committee established. Task 3. Second Project Meeting(NYS DOS Task 6.) CNY RPDB will participate in a second project meeting with the Department,the Town of Ithaca, the Network and other project partners as appropriate, to review project requirements, site conditions and roles and responsibilities; identify new information needs and next steps;and transfer any information to consultants which would assist in completion of the project. The CNY RPDB will prepare and distribute a brief meeting summary clearly indicating the agreements/understandings reached at the meeting.Work on subsequent tasks shall not proceed prior to Department approval of the proposed approach as outlined in the meeting summary. Products: Meeting held with appropriate parties. Written meeting summary outlining agreements/understandings reached. Task 4. Participation in the Preparation of Community Outreach/Participation Plan (NYS DOS Task 8.) In cooperation with the watershed advisory committee, and other partners as appropriate, the CNY RPDB will support the efforts of the Contractor and its subcontractor(s), to prepare a method and process to encourage community participation in the planning process. The outreach plan will identify key individuals, organizations, and entities to be involved, and will identify the visioning and consensus building process. As discussed and amended in the project kick off meeting two (2) public workshops will be conducted as part of the waterfront visioning and consensus building process. The first of these meetings was conducted on April 9, 2018. The second and final public meeting shall be publicized in the community through press releases, announcements, individual mailings, and any other appropriate means. A summary of each pubic outreach session shall be made available in written form and through other appropriate means, such as websites. The outreach plan and all components, such as press releases, are subject to review and approval by the Department. Products: Documentation of requested and provided input, meeting and discussion dates, and comments provided. Task 5. Develop and Establish Operational Structure (NYS DOS Task 9.) CNY RPDB will support the efforts of the Town and the Cayuga Lake Watershed Network to assess and define a sustainable operational/organizational for the Intermunicipal Organization. Support will include review and feedback on alternative governance structures, draft governing document including, if needed, a revised Memorandum of Agreement, and/other instruments describing the purposes and responsibilities of the Intermunicipal Organization. Products: Documentation of input and meeting attendance. Task 6: Prioritization Criteria Development(NYS DOS Task 10.) The CNY RPDB will work with the Project Advisory Committee to develop criteria to prioritize project recommendations identified in the 2017 Cayuga Lake Watershed Restoration and Protection Plan. Potential ranking factors may include, but would not necessarily be limited to: • watershed goals, subwatershed priority, and vulnerability • pollutant reduction/protection afforded, water resources and/or habitat value • cost, permitting, and maintenance • land owner cooperation, public access and visibility • partner involvement and innovation Products: Draft and final project prioritization criteria. Task 7. Public/Intermunicipal Participation/Outreach Meeting(NYS DOS Task 11.) CNY RPDB will participate in a second of two public outreach/participation meetings which shall be conducted in consultation with the Department to allow for public review and comment on the Watershed Management Recommendations and Prioritization. A written summary of public input obtained at this meeting shall be prepared and provided to the Department for review and comment. Public input shall be incorporated into the Final Watershed Management Plan to the satisfaction of the Department prior to finalization and/or publication of the plan. Products: Documentation of support services provided and meeting attendance. Task 8:Prioritization of Projects and Development of Implementation Strategy and Schedule(NYS DOS Task 12.) Based on the prioritization criteria,the CNY RPDB in conjunction with the Contractor, the watershed advisory committee and other project partners as appropriate, shall develop a prioritized list of recommendations and supporting justification. The prioritization process may include: • Evaluating subwatersheds according to impairments and/or threats to water quality and habitat. • Identifying priorities within subwatersheds for focused nonpoint source pollution management action. • Ranking projects and actions within each subwatershed according to anticipated reduction in nonpoint source pollution or protection of unimpaired resources. Priority projects will be linked to maps and will include photographs showing project locations and conditions. The CNY RPDB shall prepare a strategy and schedule to implement the identified watershed management practices and approaches, including the specific projects and other actions that were identified through analysis and public participation. The strategy shall: • Clearly articulate priorities, measurable objectives and steps to implement the identified protection and restoration strategies. • Include cost estimates, potential funding sources, and a phasing schedule noting lead/involved organizations for each action. • Include a schedule for periodically updating the plan. • Articulate the ongoing role of the watershed advisory committee. The Implementation Strategy will include a matrix of prioritized projects and other actions for advancing the implementation of the goals and objectives of the watershed plan, including steps needed to implement the specific projects (e.g., feasibility, design, permitting, construction), timeframe for implementation; short term (e.g., immediate to 1 year), medium term (e.g., greater than 1 year, up to 5 years), or long-term (e.g., greater than 5 years), cost estimates, potential funding sources, regulatory approvals needed, and likely project sponsor (agency or organization lead) and project partners. The CNY RPDB shall submit the draft Implementation Strategy to the Department for review and approval, and shall incorporate the Department's comments in the final Implementation Strategy. Products: Draft and Final Implementation Strategy and Schedule Report Task 9 : Priority Project Profiles (NYS DOS Task 13.) The CNY RPDB shall identify the top 5-6 projects to prepare project profiles for select priority recommendations. Profiles will include project scope,cost estimates,conceptual designs(if necessary), permit analysis (if necessary),and funding structure. The CNY RPDB shall prepare the draft Priority Project Profiles for submittal to the Department for review and approval, and shall incorporate the Department's comments in the final Project Profiles Implementation Strategy. Products: Draft and Final Project Profiles Task 1 0 : Project Status Reports (NYS DOS Task 15.) The CNY RPDB shall submit quarterly project status reports (every December 31, March 31, June 30 and September 30) on the form provided, including a description of the work for which the CNY RPDB was responsible for was accomplished, the status of all tasks for which the CNY RPDB is directly responsible for as outlined in this work plan, schedule of completion of remaining tasks for which CNY RPDB is directly responsible for, and an explanation of any problems encountered. Products: Completed project status reports submitted to the Town during the life of the contract. Task 1 1 : Final Project Summary Report and Measurable Results forms (NYS DOS Task 16.) The CNY RPDB shall work with the Town of Ithaca and the Department project manager to complete the Final Project Summary Report and Measurable Results forms for all tasks that CNY RPDB was responsible for completing as part of the contracted work plan. Products: Completed, task specific Final Project Summary Report and Measurable Results forms. APPENDIX B New York State Assistance Agreement between New York State Department of State and Town of Ithaca (00000945) gE,'ir][('1,3Ill::,ur IC�o, 4, MEETING OF THE ITHACA TOWN BOARD Monday, January 28, 2019 TB Resolution 2019-xxx: SEQR: Establishment of a Town of Ithaca Deer Management Program and Authorization to Submit Annual Deer Damage Permit Applications to the NYS Department of Environmental Conservation Whereas, this action is the establishment of a Town of Ithaca Deer Management Program and authorization to submit annual Deer Damage Permit (DDP) applications to the NYS Department of Environmental Conservation; and Whereas, this an Unlisted Action for which the Town of Ithaca Town Board is acting as lead agency in an uncoordinated environmental review with respect to this action; and Whereas, the Town Board, at a meeting held on January 28, 2019, has reviewed and accepted as adequate the Short Environmental Assessment Form (SEAF), Parts 1, 2 and 3, for this action, prepared by Town Planning staff, Now, therefore, be it Resolved, that the Town Board of the Town of Ithaca hereby makes a negative determination of environmental significance in accordance with Article 8 of the Environmental Conservation Law, 6 NYCRR Part 617 New York State Environmental Quality Review, and Chapter 148 Environmental Quality Review of the Town of Ithaca Code for the above-referenced action as proposed, based on the information in the EAF Part 1 and for the reasons set forth in the EAF Parts 2 and 3, and, therefore, a Draft Environmental Impact Statement will not be required. Moved: Seconded: Vote: MEETING OF THE ITHACA TOWN BOARD Monday, January 28, 2019 TB Resolution 2019-xxx: Establishment of a Town of Ithaca Deer Management Program and Authorization to Submit a Deer Damage Permit Application to the NYS Department of Environmental Conservation Whereas, in May 2017, the Town of Ithaca Conservation Board presented a report(titled"Deer Management: Recommended Actions for the Town of Ithaca") to the Ithaca Town Board regarding the overabundance of White-tailed deer in the Town of Ithaca; and Whereas, this report outlined the history and justification of deer management (health and human safety, ecological, agricultural losses, car-deer collisions,NYSDEC Deer Management Focus Area),provided a review of local deer management programs in Tompkins County (Village of Trumansburg, Cornell University, Village of Cayuga Heights, Village of Lansing), and provided recommendations for a potential Town of Ithaca deer management program (form sub- committee, utilize NYSDEC Deer Damage Permits for a Town program, measure impacts of deer to asses effectiveness of program, coordinate efforts with adjacent municipalities and Cornell University, etc.); and Whereas,in September 2017 the Ithaca Town Board established a Deer Management Committee which met several times in spring and summer 2018; and Whereas, the Deer Management Committee held a public meeting in May 2018 seeking feedback on the report and the potential of starting a deer management program, with the feedback received being very positive; and Whereas,pursuant to the New York State Environmental Quality Review Act("SEQRA") and its implementing regulations at 6 NYCRR Part 617, the establishment of this Deer Management Program and submission of annual Deer Damage Permit applications is an Unlisted Action for which the Town of Ithaca Town Board, acting as lead agency in an uncoordinated environmental review with respect to these actions, has, on January 28, 2019 , made a negative environmental determination of significance, after having reviewed and accepted as adequate a Short Environmental Assessment Form Parts 1, 2 and 3; Now, therefore, be it Resolved, that the Town Board of the Town of Ithaca hereby authorizes the establishment of the Town of Ithaca Deer Management Program as outlined in the"Deer Management Program Proposal" (dated January 16, 2019) and other related documents, and it is further Resolved, that William Goodman, as Supervisor of the Town of Ithaca, is hereby authorized and directed to file a Deer Damage Permit application with NYS Department of Environmental Conservation, including any associated future documents, forms or reports. Moved: Seconded: Vote: PLANNING DEPARTMENT MEMORANDUM TO: TOWN BOARD MEMBERS FROM: MICHAEL SMITH, SENIOR PLANNER DATE: JANUARY 23, 2019 RE: DEER MANAGEMENT PROGRAM - ESTABLISHMENT OF DEER MANAGEMENT PROGRAM - AUTHORIZATION TO SUBMIT DEER DAMAGE PERMIT APPLICATION Please find attached material related to the establishment of the Town of Ithaca's Deer Management Program and for the authorization to submit a Deer Damage Permit (DDP) application to NYS Department of Environmental Conservation. The DDP application is requesting to start implementing the program this year on approximately 7 properties during February and March. Listed below are the various documents that are attached. Many of the documents apply to both the establishment of the Deer Management Program and the submission of the DDP application. A draft of the DDP application has been provided to NYSDEC to obtain initial feedback and allow for modifications to address their concerns prior to the formal submission. Attached: • Short Environmental Assessment Form, Parts 1, 2 and 3 • Draft resolutions for the SEAR determination and authorization of the Town's program and the DDP application • "Town of Ithaca - Deer Management Program Proposal" (detailed description of how the program will operate) • Deer Damage Permit application form • Attachment to the DDP: "Justification for use of Deer Damage Permits" • "NYSDEC Deer Damage Permit Application — Parcels where Activities will Occur" Map • "Vehicle Collisions with Deer 2012—2016" map I have not attached a copy of the Conservation Board's 2017 report ("Deer Management: Recommended Actions for the Town of Ithaca") that was previously provided to the Town Board. If you would like a copy, it is available at http://www.town.ithaca.ny.us/conservation- board or let me know and I can get a paper version to you. Please contact me if you have any questions prior to the January 28th Town Board meeting. Short Environmental Assessment Form Part I - Project Information Instructions for Completing Part 1—Project Information. The applicant or project sponsor is responsible for the completion of Part 1. Responses become part of the application for approval or funding,are subject to public review,and may be subject to further verification. Complete Part 1 based on information currently available. If additional research or investigation would be needed to fully respond to any item,please answer as thoroughly as possible based on current information. Complete all items in Part 1.You may also provide any additional information which you believe will be needed by or useful to the lead agency; attach additional pages as necessary to supplement any item. Part 1–Project and Sponsor Information Name of Action or Project: Town of Ithaca Deer Management Program Project Location(describe,and attach a location map): Located on multiple parcels throughout the Town of Ithaca Brief Description of Proposed Action: The Town of Ithaca proposes to establish a program to engage in deer population control by culling deer living within the Town of Ithaca boundary. This program,once fully implemented,is designed to initially reduce the size of the deer population over the first few years,and then provide stability in population numbers thereafter. The Town would apply annually to NYSDEC for Deer Damage Permits(DDP)-also known as nuisance permits-to reduce the deer numbers. This approach is not considered regular hunting and the Town program proposes to use archers(including crossbows)at baited locations. Firearms could also be used at selected sites in the rural and agricultural areas of the Town. All healthy deer venison culled will either be consumed by the participants and landowners,or donated through the Venison Donation Coalition Inc. See attached"Town of Ithaca-Deer Management Program Proposal"for detailed information about the program. Name of Applicant or Sponsor: Telephone:p 607-273-1721 Town of Ithaca E-Mail: bgoodman@town.ithaca.ny.us Address: 215 North Tioga Street City/PO: State: Zip Code: Ithaca NY 14850 1. Does the proposed action only involve the legislative adoption of a plan,local law,ordinance, NO YES administrative rule,or regulation? If Yes,attach a narrative description of the intent of the proposed action and the environmental resources that may be affected in the municipality and proceed to Part 2. If no,continue to question 2. 2. Does the proposed action require a permit,approval or funding from any other government Agency? NO YES If Yes,list agency(s)name and permit or approval: NYS Department of Environmental Conservation Deer Damage Permit ii—I Z 3. a.Total acreage of the site of the proposed action? 19,392 acres Town-wide b.Total acreage to be physically disturbed? 0 acres c.Total acreage(project site and any contiguous properties)owned or controlled by the applicant or project sponsor? N/A acres 4. Check all land uses that occur on,are adjoining or near the proposed action: 5. m Urban Rural(non-agriculture) Industrial Commercial m Residential(suburban) R1 Forest Agriculture Aquatic ❑ Other(Specify): m Parkland Page I of 3 SEAF 2019 5. Is the proposed action, NO YES N/A a. A permitted use under the zoning regulations? ❑ ❑ ❑✓ b. Consistent with the adopted comprehensive plan? ❑ ✓❑ ❑ NO YES 6. Is the proposed action consistent with the predominant character of the existing built or natural landscape? NUA ❑ ❑ 7. Is the site of the proposed action located in,or does it adjoin,a state listed Critical Environmental Area? NO YES The program could occur within the Coy Glen Critical Environmental Area. If Yes,identify: ❑ NO YES 8. a. Will the proposed action result in a substantial increase in traffic above present levels? ✓❑ ❑ b. Are public transportation services available at or near the site of the proposed action? NUA 11 0_ c. Are any pedestrian accommodations or bicycle routes available on or near the site of the proposed action? �w�� ❑ ❑ 9. Does the proposed action meet or exceed the state energy code requirements? NO YES If the proposed action will exceed requirements,describe design features and technologies: NU The proposed action does not involve the construction of any permanent structures,only very small temporary ground blinds(tents) El 1:1will potentially be installed. 10. Will the proposed action connect to an existing public/private water supply? NO YES If No,describe method for providing potable water: The proposed action does not involve the construction of any permanent structures and will not require any new utilities. Only very EZI ❑ small temporary ground blinds(tents)will potentially be installed. 11. Will the proposed action connect to existing wastewater utilities? NO YES If No,describe method for providing wastewater treatment: The proposed action does not involve the construction of any permanent structures and will not require any new utilities. Only very W1 ❑ small temporary ground blinds(tents)will potentially be installed. 12. a.Does the project site contain,or is it substantially contiguous to,abuilding,archaeological site,or district NO YES which is listed on the National or State Register of Historic Places,or that has been determined by the Commissioner of the NYS Office of Parks,Recreation and Historic Preservation to be eligible for listing on the NUN ❑ ❑ State Register of Historic Places? The proposed action is Town-wide. Locations could occur on properties that contain historic or archaeological resources. b.Is the project site,or any portion of it,located in or adjacent to an area designated as sensitive for NUA ❑ ❑ archaeological sites on the NY State Historic Preservation Office(SHPO)archaeological site inventory? 13. a. Does any portion of the site of the proposed action,or lands adjoining the proposed action,contain NO YES wetlands or other waterbodies regulated by a federal,state or local agency? NUA ❑ ❑ b. Would the proposed action physically alter,or encroach into,any existing wetland or waterbody? ❑ ❑ If Yes,identify the wetland or waterbody and extent of alterations in square feet or acres: The proposed action is Town-wide. Locations could occur on properties that contain wetlands,streams or other waterbodies. Mage 2 of 3 14. Identify the typical habitat types that occur on,or are likely to be found on the project site. Check all that apply: ❑Shoreline m Forest m Agricultural/grasslands m Early mid-successional R]Wetland 2] Urban 2] Suburban 15. Does the site of the proposed action contain any species of animal,or associated habitats,listed by the State or NO YES Federal government as threatened or endangered? El 1:1The proposed action is Town-wide.Locations could occur on properties that contain animals or habitat listed as threatened or endangered. Tq U 16. Is the project site located in the 100-year flood plan? NO YES The proposed action is Town-wide. Locations could occur on properties that are located within the 100-year floodplain. T°wJ/ ❑ ❑ 17. Will the proposed action create storm water discharge,either from point or non-point sources? NO YES If Yes, ❑-7 ❑ a. Will storm water discharges flow to adjacent properties? ❑ ❑ b. Will storm water discharges be directed to established conveyance systems(runoff and storm drains)? ❑ ❑ If Yes,briefly describe: 18. Does the proposed action include construction or other activities that would result in the impoundment of water NO YES or other liquids(e.g.,retention pond,waste lagoon,dam)? If Yes,explain the purpose and size of the impoundment: ❑ ❑ -19. Has the site of the proposed action or an adjoining property been the location of an active or closed solid waste NO YES management facility? If Yes,describe: ❑ ❑ 20.Has the site of the proposed action or an adjoining property been the subject of remediation(ongoing or NO YES completed) for hazardous waste? If Yes,describe: ❑ ❑ I CERTIFY THAT THE INFORMATION PROVIDED ABOVE IS TRUE AND ACCURATE TO THE BEST OF MY KNOWLEDGE Applicant/sponsor/name: Town of Ithaca/William Goodman Date: Signature: Title:Town Supervisor PRINT FORM Page 3 of 3 Agency Use Only [If applicable] Project: Ithaca Deer Management Program Date: January 28,2019 Short Environmental Assessment Form Part 2 -Impact Assessment Part 2 is to be completed by the Lead Agency. Answer all of the following questions in Part 2 using the information contained in Part 1 and other materials submitted by the project sponsor or otherwise available to the reviewer. When answering the questions the reviewer should be guided by the concept"Have my responses been reasonable considering the scale and context of the proposed action?" No,or Moderate small to large impact impact may may occur occur 1. Will the proposed action create a material conflict with an adopted land use plan or zoning regulations? Z El 2. Will the proposed action result in a change in the use or intensity of use of land? ✓❑ ❑ 3. Will the proposed action impair the character or quality of the existing community? ✓❑ ❑ 4. Will the proposed action have an impact on the environmental characteristics that caused the establishment of a Critical Environmental Area(CEA)? 5. Will the proposed action result in an adverse change in the existing level of traffic or affect existing infrastructure for mass transit,biking or walkway? 6. Will the proposed action cause an increase in the use of energy and it fails to incorporate reasonably available energy conservation or renewable energy opportunities? 7. Will the proposed action impact existing: a.public/private water supplies? Z El b.public/private wastewater treatment utilities? ✓❑ ❑ 8. Will the proposed action impair the character or quality of important historic,archaeological, architectural or aesthetic resources? Z El 9. Will the proposed action result in an adverse change to natural resources(e.g.,wetlands, waterbodies,groundwater, air quality,flora and fauna)? 10. Will the proposed action result in an increase in the potential for erosion,flooding or drainage problems? 11. Will the proposed action create a hazard to environmental resources or human health? ✓❑ ❑ PRINT FORM Paget of 2 SEAF 2019 Agency Use Only[If applicable] Project: Ithaca Deer Management Program Date: January 28,2019 Short Environmental Assessment Form Part 3 Determination of Significance For every question in Part 2 that was answered"moderate to large impact may occur",or if there is a need to explain why a particular element of the proposed action may or will not result in a significant adverse environmental impact,please complete Part 3.Part 3 should,in sufficient detail,identify the impact,including any measures or design elements that have been included by the project sponsor to avoid or reduce impacts. Part 3 should also explain how the lead agency determined that the impact may or will not be significant.Each potential impact should be assessed considering its setting, probability of occurring,duration,irreversibility,geographic scope and magnitude. Also consider the potential for short- term,long-term and cumulative impacts. There are no anticipated negative environmental impacts related to the proposed deer management program. As outlined in the May 2017 report (Deer Management: Recommended Actions for the Town of Ithaca)from the Town of Ithaca Conservation Board, the Town is proposing to address the overpopulation of deer by pursuing a culling program. The Town program would apply to NYS Department of Environmental Conservation for Deer Damage Permits (DDP)and use proficient volunteer archers (firearms could also be used at select sites in the rural and agricultural areas of the Town)at baited locations. Locations for the baited sites will be scattered throughout the Town, and could include residential properties, cemeteries, farms, and in natural areas. Detailed information about the proposed program can be found in the attached document titled "Town of Ithaca - Deer Management Program Proposal". The existing overpopulation of deer are creating a significant ecological impact (deer forage of native vegetation, little forest regeneration), health and human safety issues (ticks/Lyme disease), agricultural losses (crop damage, diseases and parasites transmitted to animals), and vehicle/deer collisions. Deer overpopulation is a product of the ideal food and shelter offered by the urban and suburban landscape, inadequate predation pressure, and protection from hunting in some areas. Deer management efforts by adjacent municipalities and Cornell University have made modest gains towards their goals, but the addition of a similar program in the Town would enhance their efforts. Based on the experience of Cornell and other local municipalities, deer management programs are safe, and support public health and the environment. All healthy deer venison culled will either be consumed by the participants or donated through the Venison Donation Coalition Inc. While the program may operate with locations in a CEA, in or near wetlands, streams or floodplains, or in or near areas containing threatened or endangered species, the program will not alter or damage any of these resources and the reduction in deer numbers should benefit these resources. Check this box if you have determined,based on the information and analysis above,and any supporting documentation, that the proposed action may result in one or more potentially large or significant adverse impacts and an environmental impact statement is required. Check this box if you have determined,based on the information and analysis above,and any supporting documentation, that the proposed action will not result in any significant adverse environmental impacts. Town of Ithaca Town Board Name of Lead Agency Date William Goodman Town Supervisor Print or Type Name of Responsible Officer in Lead Agency Title of Responsible Officer Signature of Responsible Officer in Lead Agency Signature of Preparer(if different from Responsible Officer) PRINT FORM Page 2 of 2 January 16,2019 Town of Ithaca Deer Management Program Proposal February 1"through March 31s' 2019 Approved by the Town of Ithaca Town Board on Ithaca Town Board Resolution No. In May 2017, the Town of Ithaca Conservation Board presented a report (Deer Management: Recommended Actions for the Town of Ithaca) to the Ithaca Town Board regarding the overabundance of White-tailed deer in the Town of Ithaca. This report outlined the history and justification of deer management (health and human safety, ecological, agricultural losses, car-deer collisions, NYSDEC Deer Management Focus Area), a review of local deer management programs in Tompkins County (Village of Trumansburg, Cornell University, Village of Cayuga Heights, Village of Lansing), and provided recommendations for a potential Town of Ithaca deer management program (form sub-committee, utilize NYSDEC Deer Damage Permits for a Town program, measure impacts of deer to assess effectiveness of program, coordinate efforts with adjacent municipalities and Cornell University, etc.). The Ithaca Town Board reviewed and discussed this report and in September 2017, formally established a Deer Management Committee. This Committee met several times in the spring and summer of 2018 and held a public meeting in May 2018 seeking feedback on the report and the potential of a deer management program. The public feedback received was very positive regarding deer management in the Town and the Town Board agreed to move forward with establishing a program. The Town Board designated $4,000 in the 2019 Town budget for this program. Based on input from the Town's Conservation Board, the Town's former Deer Management Committee, representatives from Cornell University and other local municipal deer management programs, and the new Town Deer Management Oversight Committee, the use of New York State Department of Environmental Conservation (NYSDEC) approved Deer Damage Permits (DDP) — also known as nuisance permits — is recommended to reduce deer numbers. This approach is not considered regular hunting and for the Town of Ithaca program it proposes to use proficient archers (including crossbows) at baited locations as the preferred low cost method. Firearms could also be used at selected sites in the rural and agricultural areas of the Town. What follows is believed to be the best approach to significantly reduce the deer population and negative impacts of the high deer level in the Town of Ithaca. It is anticipated that for this initial year, 10 or less properties will be used. The Town program, once fully implemented, is designed to initially reduce the size of the deer population over the first few years, and then provide stability in population numbers thereafter. It is proposed (pending DEC approval) that implementation of the deer management program will start on February 1, 2019 and continue until March 31, 2019 at the latest. Once the final list of sites is determined, a map showing the locations will be available at Town Hall and will be posted on the Town of Ithaca's website (http://www.town.ithaca.ny.us/Deer). The Deer Management Oversight Committee will continue to review properties across the Town that are ideal locations given their size, expected deer traffic, and availability of trees and cover for this first year. The following is detailed information on the Town of Ithaca deer management program. 1. Activities are proposed to occur from February 1, 2019 to March 31, 2019. The Town's Deer Management Oversight Committee will review the success of the program and will reduce or 1 January 16,2019 expand activities as needed based on deer harvests and assessment on ecological and other indicators. All landowners will be kept informed about management activities (including who the participants are on their property) in regular updates. 2. Tree stands will be placed (no screw insteps, ladder stands are preferred) at landowner approved locations prior to February 1St. A few branches may need to be trimmed to improve shooting lanes. Shooting from elevated positions directs arrows/bullets into the ground after passing through a deer. Trail monitoring cameras may be installed to capture deer activity. If needed, locations may need to be shifted slightly or abandoned. Each landowner will be informed about any activities on their properties, as indicated by landowner preferences. If an elevated position cannot be used and the area is found to hold deer, the use of a ground blind can be implemented. 3. The Town would seek a small group of proficient participants. Participants will be selected and approved by the Deer Management Oversight Committee. A demonstration of archery or firearm marksmanship may be required. A background check through the Tompkins County Sherriff's Department may also be required. Participants will primarily be using compound bows or cross bows, but could potentially use a firearm in selected locations in the rural and agricultural areas of the Town. The activities are coordinated by Michael Smith, Senior Planner, Town of Ithaca, and he is assisted by members of the Town of Ithaca Deer Management Oversight Committee. 4. Activities will occur as needed to allow for variations in weather conditions, deer movement patterns and participants' availability. There will be the use of supplemental lights after dark that will allow for safe, highly accurate shots at very close range. All of the participants are experienced in using this approach and any new ones will be trained. Deer use patterns at bait will be monitored using infrared trail cameras to target the best possible times to utilize locations. 5. All participants are required to follow all Town rules and laws, NYS laws, and any expressed landowner preferences. It is the right of each landowner, if so desired, to select individuals among approved participants who may be permitted access to their property, the times or dates participants are allowed on properties, stand locations, parking locations, or access routes as desired. The agreement to use properties can be terminated by landowners at any time by notifying Michael Smith, Senior Planner,Town of Ithaca (msmith@town.ithaca.ny.us). 6. Which days and stands will be used cannot be predicted in advance, as this will depend on individual time schedules, wind direction, weather, and previous use of stand locations. To prevent overuse, the use of resting periods of 1-2 weeks between activity periods will allow deer to fall back into their usual use patterns. Baiting will continue during the resting periods. 7. Participants will be in trees using camouflage and will use flashlights to locate shot deer or to walk in or out of the woods; therefore landowners may notice a slow moving flashlight. If deer can't be readily retrieved due to poor blood trails, approved tracking dogs are available to help in locating the wounded deer. In very rare circumstances, tracking may occur the next morning with better light. Landowners will be alerted to any of these possibilities and will have access to cell phone numbers of participants. 2 January 16,2019 8. Occasionally a mortally wounded deer may run beyond property boundaries. All participants will have information about property boundaries when in the field. This information will include phone numbers of landowners and neighbors who need to be notified if a search extends beyond the approved properties. If necessary, the participant or member of the Deer Management Oversight Committee will call and ask permission to retrieve a deer, unless pre- authorization to retrieve deer from a property exists. An attempt will be made to inform all immediate neighbors on these activities, regardless of whether a deer ever leaves an approved property. 9. Participants will keep track of and report all shots (arrows/bullets) using a secure website (Qualtrics website). Arrows usually pass through deer and fall close to the spot where a deer was hit, but occasionally will remain in the deer. Every effort will be made to retrieve arrows (they are expensive), aided with the help of a metal detector when needed. 10. All shot deer will be removed discretely and not be field dressed on properties, unless previously approved by the landowner. 11. All harvested deer will be consumed by participants, landowners, or donated. As many deer as possible will be dropped off to an approved venison donation processor for distribution to local food banks and pantries for families that can benefit from the meat. 12. In most instances, landowners and neighbors will not notice activities or the killing of a deer, since it happens fast. However, despite all precautions and skills, deer may be wounded, may not expire immediately, collapse on neighboring properties or may not be found. Every effort will be made (including the use of a trained dog) to recover all animals or assure that they will be fine (superficial arrow wounds heal quickly). 13. The Town Deer Management Oversight Committee will review activities and success in regular intervals and determine if activities should continue or be terminated based on activities and number of deer harvested. 14. The Deer Management Oversight Committee will provide regular updates to the Town Board, including the number of deer harvested, which will also be posted on the Town's website (http://www.town.ithaca.ny.us/Deer). 15. The goal of the program is to reduce deer numbers to levels where forest regeneration and survival of browse sensitive plants within the Town of Ithaca is once again possible. In addition, the program seeks to reduce deer tick populations to levels where Lyme disease risks are minimized, reduce vehicle collusions with deer, and reduce agricultural crop damage. With assistance from the Town of Ithaca Conservation Board, the ecological success of deer reductions in the Town may be assessed using oak sentinels or other plants. 16. Given the high deer densities and the articulated ecological and health goals, the program will aim to target both antlered and antlerless deer. This requires approval by the NYSDEC. Participants shooting bucks will be required to saw off antlers and antlers will be delivered to the NYSDEC by the Town. 3 January 16,2019 Town of Ithaca Contacts: William Goodman,Town Supervisor Email: bgoodman@town.ithaca.ny.us Office Phone: 607-273-1721 Cell Phone: 607-229-8142 Michael Smith, Senior Planner Email: msmith@town.ithaca.ny.us Office Phone: 607-273-1747(ext. 123) 4 NEWlf"ORK Department of New York State Department of Environmental Conservation STATE PPORT F OPPi]FETUNJI1fX Environmental Division of Fish and Wildlife Conservation. Bureau of Wildlife DEER DAMAGE PERMIT APPLICATION Reg.Year Rec. Number Regional Wildlife Office: Cortland-Region 7 Landowner/Lessee/Organization Representative Name: Organization/Business Name(if applicable): William Goodman, Town Supervisor Town of Ithaca Street Address: Daytime Phone: 215 North Tioga Street 607-273-1721 City/State/Zip: E-mail address: Ithaca, NY 14850 bgoodman@town.ithaca.ny.us Location Where Damage Is Occurring: County: Tompkins Town: Ithaca Village/City(if applicable): N/A WMU:711S/71 Physical address/location:various-please see attached map for parcels where activities will occur Type Of Damage Occurring (check all that apply): X Agriculture Tree Farm/Orchard/Nursery Community/Residential Park/Preserve Other: damage occuring Town-wide Estimated Annual Damages: $ unknown #of Acres Affected: 19,370 Description of Most Significant Damage: see attached Damage Abatement Methods Tried (check all that apply): ❑� Fence ❑� Repellent ❑Visual or Auditory Scare Device ❑Alternate Plantings ffl Dog ❑Non-lethal Shot ❑Other Do you allow deer hunting on this property? Yes ❑ No If no, why not? hunting is permitted throughout the Town Do you use DMAP on this property? ❑� Yes ❑ No If no, why not? some landowners may be using DMAP in the Town Approximately how many deer were taken on this property last year? 135 in Ithaca 2 years ago? 157 in Ithaca 3 years ago? 183 in Ithaca Permit Implementation: Principal Proposed Permit Agent(if other than applicant): Street Address: Michael Smith, Senior Planner 215 North Tioga Street Daytime Phone: City/State/Zip: 607-273-1747 / msmith@town.ithaca.ny.us Ithaca, NY 14850 Tax Map ID#s for all parcels where permit activities will occur(or attach map identifying parcels):please see attached map for parcels where activities will occur Will shooting occur within 500' (firearm), 250' (crossbow) or 150' (vertical bow) of homes other than yours? ❑ Yes 8 No If yes, do you have permission from the owners of those homes? ❑ Yes ❑ No APPLICANT AGREEMENT/CERTIFICATION I affirm by the signature below,under penalty of perjury,that the information in this application is true to the best of my knowledge and belief. lam aware that false statements made herein are punishable as Class A misdemeanors under Penal Law 210.45. 1 further understand that,upon filing of this application with the New York State Department of Environmental Conservation(DEC),DEC has the right to inspect any property listed on this application at any time up until the permit expiration date in order to confirm the information provided. Any findings of false statements may lead to immediate permit revocation.1 have read and fully understand the permit conditions and agree to abide by them. Applicant signature: Date: -------------------------------------------------------------*NYS DEC USE ONLY*------------------------------------------------------------------- Actions Taken: 0 Information and education 0 Field visit 0 Recommended DMPs/DMAP 0 DDP issued 0 Repeat Complaint 0 Applicant failed to comply with previous DDP conditions: 0 Enforcement action taken: Field Inspector: Date: Notes: Application Reviewer: Date: Notes: January 10,2019 Town of Ithaca Deer Management Program Justification for use of Deer Damage Permits February & March 2019 In May 2017, the Town of Ithaca Conservation Board presented a report ("Deer Management: Recommended Actions for the Town of Ithaca") to the Ithaca Town Board regarding the overabundance of White-tailed deer in the Town of Ithaca. This report outlined the history and justification of deer management (health and human safety, ecological, agricultural losses, car-deer collisions, NYSDEC Deer Management Focus Area), a review of local deer management programs in Tompkins County (Village of Trumansburg, Cornell University, Village of Cayuga Heights, Village of Lansing), and provided recommendations for a potential Town of Ithaca deer management program (form sub-committee, utilize NYSDEC Deer Damage Permits for a Town program, measure impacts of deer to asses effectiveness of program, coordinate efforts with adjacent municipalities and Cornell University, etc.). The Ithaca Town Board reviewed and discussed this report and in September 2017, established a Deer Management Committee.This Committee met several times in the spring and summer of 2018 and held a public meeting in May 2018 seeking feedback on the report and the potential of a deer management program. The public feedback received was very positive regarding deer management in the Town and the Town Board agreed to move forward with establishing a program. The Town Board designated $4,000 in the 2019 Town budget for this program. The Town of Ithaca is proposing to address the overpopulation of deer by pursuing a culling program. The Town program would use proficient volunteer archers (firearms could also be used at select sites in the rural and agricultural areas of the Town) at baited locations. Locations for the baited sites will be scattered throughout the Town, and could include residential properties, cemeteries, farms, and in natural areas. The Town has obtained interest from seven landowners to host bait locations on their property for the initial 2019 program. Five of the landowners have stated that they already have hunters on their property, and that they want those individuals they know to be the participant on their property. The proposed Town program, once fully implemented, is designed to initially reduce the size of the deer population over the first few years, and then provide stability in population numbers thereafter. Detailed information about the proposed program can be found in the attached document titled "Town of Ithaca - Deer Management Program Proposal". The existing overpopulation of deer in the Town are creating a significant ecological impact (deer forage of native vegetation, little forest regeneration), health and human safety issues (ticks / Lyme disease), agricultural losses (crop damage, diseases and parasites transmitted to animals), ornamental landscape damage, and vehicle/deer collisions (see attached map showing "Vehicle Collisions with Deer") as further described below. • Ecological Impact— Deer suppress not only the perennial herbaceous layer of the forest through grazing the understory, they also alter the succession trajectories of forests via browsing. Native plants, including tree species, are disappearing from the Town landscape only to be replaced by unpalatable non-native and invasive plants. In a series of 2017 ecological assessments for the Town of Ithaca parks and preserves, Newleaf Environmental LLC consistently documented that tree regeneration is very low (less than 100 seedlings per acre) with heavy deer pressure and competition from invasive shrubs impeding young tree growth. The photo below is from the 1 January 10,2019 Finger Lakes Land Trust's Sweedler Preserve at Lick Brook (located in the Town of Ithaca on Townline Rd) taken in 2017 of a deer exclosure they have been maintaining for several years. �r o. a • Health and Human Safety Issues— Deer serve as the primary host for the adult blacklegged tick, the vector for Lyme disease. In a pivotal Connecticut study, the rates of Lyme disease in a community were tracked over 13 years in conjunction with the implementation of a deer management program. There was a strong correlation between deer population reduction and decreased incidence of the disease. In Tompkins County, the incidence of Lyme disease has increased by 50% since 2011. The Town of Ithaca has posted signs at the entrances to most the Town parks and trails as a warning about the possibility that ticks are present and how to avoid them. • Agricultural Losses —The Town of Ithaca contains approximately 3,412 acres of active farmland associated with approximately 25 farms. The 25 farms in the town represent a diversity of enterprises ranging from small-scale fruit and vegetable producers, livestock farms, and ornamental horticultural businesses to a few farmers engaged in larger-scale dairy and commodity field-crop production. In early 2018, the Town asked farmers about their experiences with deer through email and at Town Agricultural Committee meetings, with all of the responses (including seven email responses) experiencing some level of damage to their crops (fruit trees, vegetables, nursery plants, field crops, etc.) and expenses related to deer. Town farms that raise sheep and goats are especially impacted by deer, since they are vector for barber pole worm. The equestrian operations in the Town are concerned with tick-borne viruses, which affect their horses and can very costly to diagnose and treat. The farms that contain fruit trees, vegetables and nursery stock have resorted to installing 8 foot tall deer fencing around large areas or tree guards around individual trees. • Ornamental Landscape Damage — In the residential and higher density areas of the Town, the overpopulation of deer are negatively impacting the ornamental landscapes and gardens at residences, business, college campuses and cemeteries. The deer are causing damage by heavy browsing and rubbing their antlers on ornamentals throughout the year. Since there is limited opportunity for regular hunting in these high density areas, there are limited options to eliminating deer in these areas. Some private landowners have installed fencing or used repellents, but that is only helpful for those individual properties. 2 January 10,2019 • Vehicle / Deer Collisions—According to data obtained from the Ithaca Tompkins Transportation Council (crash data from NYSDOT Accident Location Information System) for the years 2012 through 2016, 439 accidents involved deer in the Town of Ithaca. This database utilizes all crashes reported to the Department of Motor Vehicles. The attached map, "Vehicle Collisions with Deer— 2012 — 2016", shows the approximate location of any accidents that involved deer and is broken down by each year. While some deer hunting is occurring in the rural and agricultural areas of the Town and there is the Tompkins County Deer Management Focus Area hunting available throughout the Town, the issues above are still occurring. Deer management efforts by adjacent municipalities (Villages of Lansing and Cayuga Heights) and Cornell University have made some gains towards their goals, but the addition of a similar program in the Town would enhance their efforts. We respectfully request approval of the Town of Ithaca's DDP application, starting as early as possible after February 1, 2019 and continuing to March 31, 2019. We request the ability to take deer of either sex (with any antlers delivered to the NYSDEC every 10 days), using archery, crossbows or firearms, with shooting over bait during a 24 hour period. The specific parcels where activity will occur are shown on the attached map ("NYSDEC Deer Damage Permit Application — Parcels where Activities will Occur", dated January 14, 2019). The Town has established a Deer Management Oversight Committee to help implement this program. Attached: - "NYSDEC Deer Damage Permit Application—Parcels where Activities will Occur" Map (January 14, 2019) - "Town of Ithaca—Deer Management Program Proposal" (January 16, 2019) - "Vehicle Collisions with Deer 2012—2016" Map (February 2018) - "Deer Management: Recommended Actions for the Town of Ithaca"Town of Ithaca Conservation Board (May 2017) 3 NYSDEC Deer Damage Permit Application Parcels where Activities will Occur Town of Ithaca January 14, 2019 r� i, I 11 11 i I I Hayts Rd 1 Hanshaw Rd 1 � � Mecklenburg Rd �'�'� n J �X O y r r , 9 � Em St Ext I oa �a 47. -3.11 E eeiaFall Ra F�r� 47.-z-,'. 5 N S PF dTA Miles F E 0 0.5 1 2 S PPoNTKEY OWNERS LOCADDR ACRES 16.-2-5 Lake View Cemetery 605 EAST SHORE DR 15.59 24.-1-41.92 Suw inski,Jan H.&Suw inski,Susan J. SHEFFIELD RD 4T94 28.-1-1.3 Ferguson,Gary&Ferguson,Lisa SHEFFIELD RD 42.35 28.-1-10.42 Tregas kis,Sharon R 1407 NECKLENBURG RD 39.45 33.-1-2 Teeter,Alan J ENFIELD FALLS RD 89.62 33.-1-27.2 Teeter,Alan J 296 ENFIELD FALLS RD 49"i4 33.-1-7.2 Whkt Christianne MclAllan 812 ELRRA RD 145.7 47.-2-3.1 Baptist,Edward E&Baptist,Donnette E CODDINGTONRD 30.8 47mmm-2-3m2..mmmmmmmmMMBaptist,... ardmmEm&mmBaptist,mDonnattemmE.mmmmmmmm915�CCDDINGTONmRDmmmmmmmmmmmmmmmmmm25..32 Map Prepared by Town of Ithaca Planning Department Data from Tompkins County GIS Division Aerial Image Taken Spring 2018 Vehicle Collisions with Deer bi 2012 - 2016 Town of Ithaca, New York i i I /; 1II III 1. 1 U I f t, ', �'i' ��a.J.�.I i;1 ,f.„ i L.. i k r r , r L.� I i.�..�......� ,.J� as t i / F t � 1 .... a i 439 accidents involving deer in the Town of Ithaca 3,106 accidents involving deer .. / in Tompkins County Y s Map Prepared February 2018 by Town of Ithaca Planning Department Data from Tompkins County GIS Division and Tompkins County ITCTC N1- gE,'ir][('1,3 IItE,ir IC�o, 5 MEETING OF THE ITHACA TOWN BOARD Monday, January 28, 2019 TB Resolution 2019-xxx: Accepting the findings by GHD Consulting, Inc. regarding the South and West Hill Water System Improvements Whereas, the Town Board of the Town of Ithaca agreed to conduct a study of potential South and West Hill Water System Improvements; and Whereas, the Town Board entered into a contract with GHD Consulting, Inc. to provide such services to assist the Town in determining water system improvements in the South and West Hill area of the Town of Ithaca that will increase customer service and system operation; and Whereas, GHD Consulting, Inc. has prepared a model of the water system, analyzed existing conditions and made recommendations in the form of findings about potential system improvement changes and upgrades; and Whereas, The Public Works Committee met on February 20, 2018, received a presentation by GHD Consulting, Inc. about its findings, reviewed the findings and has recommended acceptance of the findings by the Town Board; and Whereas, the Town Board met on February 26, 2018 received a presentation by GHD Consulting, Inc. about its findings, and reviewed the findings; now therefore be it Resolved, that the Town Board of the Town of Ithaca hereby accepts the findings by GHD Consulting, Inc. regarding recommended system changes and upgrades, which findings are reflected in the forthcoming final report by GHD Consulting, Inc. Moved: Seconded: Vote: MEETING OF THE ITHACA TOWN BOARD MONDAY, FEBRUARY 24, 2014 TB Resolution No. 2014-034: Accepting the Findings by GHD Consulting, Inc. Re2ardin2 the Northeast Water System Improvements Whereas, the Town Board of the Town of Ithaca agreed to conduct a study of potential Northeast Water System Improvements; and Whereas, the Town Board entered into a contract with GHD Consulting, Inc. to provide such services to assist the Town in determining water system improvements in the Northeast area of the Town of Ithaca that will increase customer service and system operation; and Whereas, GHD Consulting, Inc. has prepared a model of the water system, analyzed existing conditions and made recommendations in the form of findings about potential system improvement changes and upgrades; and Whereas, The Public Works Committee met on February 24, 2014,received a presentation by GHD Consulting, Inc. about its findings, reviewed the findings and has recommended acceptance of the findings by the Town Board; and Whereas, the Town Board met on February 24, 2014 received a presentation by GHD Consulting, Inc. about its findings, and reviewed the findings; now therefore be it Resolved, that the Town Board of the Town of Ithaca hereby accepts the findings by GHD Consulting, Inc. regarding recommended system changes and upgrades, which findings will be reflected in the forthcoming final report by GHD Consulting, Inc. Moved: Tee Ann Hunter Seconded: Rich DePaolo Vote: Ayes - Hunter, DePaolo, Engman, Goodman, Leary, Levine and Howe Agenda Itern No. 5 �1 r South Hill and West Hill Water Systems Improvements /. Town of Ithaca, New York t ti. r r� GHI: SOUTH HILL AND WEST HILL WATER SYSTEMS IMPROVEMENTS TOWN OF ITHACA, NEW YORK Prepared for TOWN OF ITHACA, NEW YORK Prepared by GHD CONSULTING SERVICES INC. One Remington Park Drive Cazenovia, NY 13035 October 2018 Project No. 11144172 aaN1P(1 JSI(1K W.4 pp tuu��, Table of Contents 1. Introduction..........................................................................................................................................1 1.1 Purpose of Study ......................................................................................................................1 1.2 Scope of Services.....................................................................................................................1 2. Existing Conditions..............................................................................................................................3 2.1 Overview...................................................................................................................................3 2.2 System Description, South Hill .................................................................................................3 2.3 System Description, West Hill...................................................................................................6 3. Data Collection....................................................................................................................................9 3.1 Record Documents ...................................................................................................................9 3.2 Hydrant Flow and Pipe Condition Tests, South Hill..................................................................9 3.3 Hydrant Flow and Pipe Condition Tests, West Hill.................................................................11 4. Model Development..........................................................................................................................13 4.1 Software Selection..................................................................................................................13 4.2 Model Inputs and Boundary Conditions..................................................................................13 4.3 Evaluation of Demand Data....................................................................................................17 5. Model Calibration ..............................................................................................................................20 5.1 Calibration Methodology.........................................................................................................20 5.2 Pipe Age and Internal Roughness..........................................................................................20 5.3 Calibration Summary, South Hill.............................................................................................20 5.4 Calibration Summary, West Hill..............................................................................................22 6. System Analysis, South Hill ..............................................................................................................24 6.1 Capacity and Fire Flow Analysis of the Existing System........................................................24 6.2 Evaluation of Existing Water Storage .....................................................................................27 7. System Analysis, West Hill................................................................................................................31 7.1 Capacity and Fire Flow Analysis of the Existing System........................................................31 7.2 Evaluation of Existing Water Storage.....................................................................................34 8. Future Demands ...............................................................................................................................38 8.1 Future Water Demands, South Hill.........................................................................................38 8.2 Water System Analysis, Future Demands, South Hill ............................................................40 8.3 Future Water Demands, West Hill ..........................................................................................44 8.4 Water System Analysis, Future Demands, West Hill..............................................................46 9. Improvement Alternatives, South Hill................................................................................................52 9.1 Northview/Danby Pressure Zone............................................................................................52 GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 1 i aaN1P�JSI(1K i�am,� �� pp 9.2 Troy Road Pressure Zone.......................................................................................................53 9.3 Ridgecrest Pressure Zone......................................................................................................57 9.4 South Hill System Additional Recommendations ...................................................................62 10. Improvement Alternatives, West Hill.................................................................................................63 10.1 Bostwick Road Pressure Zone ...............................................................................................63 10.2 West Hill Pressure Zone.........................................................................................................66 10.3 Trumansburg Road Pressure Zone........................................................................................69 10.4 West Hill System Additional Recommendations.....................................................................73 Tables Table 2-1 South Hill Water System Storage Table 2-2 South Hill Water System Pipe Summary Table 2-3 West Hill Water System Storage Table 2-4 West Hill Water System Pipe Summary Table 3-1 South Hill Hydrant Flow Tests (Performed September 7, 2017 and January 18, 2018) Table 3-2 South Hill Pipe Condition Tests (Performed September 7, 2017) Table 3-3 West Hill Hydrant Flow Tests (Performed September 5, 2017) Table 3-4 West Hill Pipe Condition Tests (Performed September 5, 2017) Table 4-1 Pump Data, Coddington Road Pumps (Two Total) Table 4-2 Pump Data, Troy Road Pumps (Two Total) Table 4-3 Pump Data, Coy Glen Pumps (Two Total) Table 4-4 Pump Data, Woolf Lane Pumps (Three Total) Table 4-5 South Hill Average Daily Demands (May 2015-May 2016) Table 4-6 West Hill Average Daily Demands (May 2015-May 2016) Table 4-7 South Hill Summary of Modeled Demands Table 4-8 West Hill Summary of Modeled Demands Table 5-1 South Hill Steady-State Calibration Summary Table 5-2 West Hill Steady-State Calibration Summary Table 6-1 South Hill Existing Distribution System Pressures (Model Estimate) Table 6-2 South Hill Fire Flow Analysis of Existing System (Maximum Day Demand) Table 6-3 South Hill Required Water Storage Volume, Existing Demands Table 7-1 West Hill Existing Distribution System Pressures (Model Estimate) Table 7-2 West Hill Fire Flow Analysis of Existing System (Maximum Day Demand) Table 7-3 West Hill Required Water Storage Volume, Existing Demands Table 8-1 South Hill Additional Future Water Demands Table 8-2 South Hill Summary of Modeled Demands, Future Conditions Table 8-3 South Hill Distribution System Pressures, Future Demands (Model Estimate) Table 8-4 South Hill Fire Flow Analysis (Future Maximum Day Demands) Table 8-5 South Hill Required Water Storage Volume, Future Demands Table 8-6 South Hill Summary of Findings, Goals Met by Existing Water System Table 8-7 West Hill Inlet Valley Mixed Use Demand Summary Table 8-8 West Hill Additional Future Water Demands Table 8-9 West Hill Summary of Modeled Demands, Future Conditions GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 ii aaN1P�JSI(1K i�am, � pp Table 8-10 West Hill Distribution System Pressures, Future Demands (Model Estimate) Table 8-11 West Hill Fire Flow Analysis (Future Maximum Day Demands) Table 8-12 West Hill Required Water Storage Volume, Future Demands Table 8-13 West Hill Summary of Findings, Goals Met by Existing Water System Table 9-1 South Hill Improvement Alternatives, Opinion of Probable Project Cost Table 10-1 West Hill Improvement Alternatives, Opinion of Probable Project Cost Figures Figure 2-1 South Hill Water System Map Figure 2-2 West Hill Water System Map Figure 2-3 South Hill Water System Hydrant Retest Locations Figure 4-1 South Hill Model Schematic Figure 4-2 West Hill Model Schematic Figure 6-1 South Hill System Pressure, Existing Average Daily Demand Figure 6-2 South Hill System Pressure, Existing Maximum Day Demand Figure 6-3 South Hill System Pressure, Existing Peak Hour Demand Figure 6-4 South Hill Estimated Available Fire Flow, Existing Maximum Day Demand Figure 7-1 West Hill System Pressure, Existing Average Daily Demand Figure 7-2 West Hill System Pressure, Existing Maximum Day Demand Figure 7-3 West Hill System Pressure, Existing Peak Hour Demand Figure 7-4 West Hill Estimate Available Fire Flow, Existing Maximum Day Demand Figure 8-1 South Hill System Pressure, Future Average Daily Demand Figure 8-2 South Hill System Pressure, Future Peak Hour Demand Figure 8-3 South Hill Estimated Available Fire Flow, Future Maximum Day Demand Figure 8-4 West Hill System Pressure, Future Average Daily Demand Figure 8-5 West Hill System Pressure, Future Peak Hour Demand Figure 8-6 West Hill Estimated Available Fire Flow, Future Maximum Day Demand Figure 9-1 South Hill System, Northview/Danby Improvement Locations Figure 9-2 South Hill Estimated Available Fire Flow, Existing Maximum Day Demand, Northview/Danby Improvements Figure 9-3 South Hill Estimated Available Fire Flow, Future Maximum Day Demand, Northview/Danby Improvements Figure 9-4 South Hill System, Troy Road Improvement Locations Figure 9-5 South Hill Estimated Available Fire Flow, Existing Maximum Day Demand, Troy Road Improvements 1 &2A Figure 9-6 South Hill Estimated Available Fire Flow, Existing Maximum Day Demand, Troy Road Improvements 1 &2B Figure 9-7 South Hill Estimated Available Fire Flow, Future Maximum Day Demand, Troy Road Improvements 1 &2A Figure 9-8 South Hill Estimated Available Fire Flow, Future Maximum Day Demand, Troy Road Improvements 1 &2B Figure 9-9 South Hill System Pressure, Future Peak Hour Demand, Troy Road Improvements 1 &2A Figure 9-10 South Hill System Pressure, Future Peak Hour Demand, Troy Road Improvements 1 &2B Figure 9-11 South Hill System, Ridgecrest Improvement Locations Figure 9-12 South Hill Estimated Available Fire Flow, Existing Maximum Day Demand, Ridgecrest Improvements 1A, 2, 3, &4A GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.11 iii aaN1P(1 JSI(1K W.4 pp tuu��, Figure 9-13 South Hill Estimated Available Fire Flow, Existing Maximum Day Demand, Ridgecrest Improvements 1A, 2, 3, &4B Figure 9-14 South Hill Estimated Available Fire Flow, Existing Maximum Day Demand, Ridgecrest Improvements 1 B, 2, 3, &4A Figure 9-15 South Hill Estimated Available Fire Flow, Existing Maximum Day Demand, Ridgecrest Improvements 1 B, 2, 3, &4B Figure 9-16 South Hill System Pressure, Existing Peak Hour Demand, Ridgecrest Improvements 1 B, 2, 3, &4A Figure 9-17 South Hill Estimated Available Fire Flow, Future Maximum Day Demand, Ridgecrest Improvements 1A, 2, 3, &4A Figure 9-18 South Hill Estimated Available Fire Flow, Future Maximum Day Demand, Ridgecrest Improvements 1A, 2, 3, &4B Figure 9-19 South Hill Estimated Available Fire Flow, Future Maximum Day Demand, Ridgecrest Improvements 1 B, 2, 3, &4A Figure 9-20 South Hill Estimated Available Fire Flow, Future Maximum Day Demand, Ridgecrest Improvements 1 B, 2, 3, &4B Figure 9-21 South Hill System Pressure, Future Peak Hour Demand, Ridgecrest Improvements 1 B, 2, 3, &4A Figure 10-1 West Hill System, Bostwick Road Improvement Locations Figure 10-2 West Hill Estimated Available Fire Flow, Existing Maximum Day Demand, Bostwick Road Improvements Figure 10-3 West Hill Estimated Available Fire Flow, Future Maximum Day Demand, Bostwick Road Improvements Figure 10-4 West Hill System, West Hill Improvement Locations Figure 10-5 West Hill Estimated Available Fire Flow, Existing Maximum Day Demand, West Hill Improvements Figure 10-6 West Hill System Pressure, Existing Peak Hour Demand, West Hill Improvements Figure 10-7 West Hill Estimated Available Fire Flow, Future Maximum Day Demand, West Hill Improvements Figure 10-8 West Hill System Pressure, Future Peak Hour Demand, West Hill Improvements Figure 10-9 West Hill System, Trumansburg Road Improvement Locations Figure 10-10 West Hill Estimated Available Fire Flow, Existing Maximum Day Demand, Trumansburg Road Improvements Figure 10-11 West Hill System Pressure, Existing Peak Hour Demand, Trumansburg Road Improvements Figure 10-12 West Hill Estimated Available Fire Flow, Future Maximum Day Demand, Trumansburg Road Improvements Figure 10-13 West Hill System Pressure, Future Peak Hour Demand, Trumansburg Road Improvements Appendices Appendix A Breakdown of Opinion of Probable Project Costs for South Hill Improvement Alternatives Appendix B Breakdown of Opinion of Probable Project Costs for West Hill Improvement Alternatives GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 1 iv P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 1 . Introduction The South Hill water system is located in the south portion of the Town of Ithaca, NY and represents only a portion of the Town's overall water system. The system supplies a total of 958 water services and has an average daily demand of 650,000 gallons per day (gpd). The system is supplied from the Southern Cayuga Lake Intermunicipal Water Commission (SCLIWC) transmission main from the Pearsall Place control valve/pressure reducing valve (CV/PRV) connection. The South Hill water system consists of three water service zones: North view/Danby, Troy Road, and Ridgecrest. The Northview/Danby service zone has two water storage tanks and the Troy Road and Ridgecrest service zones each have one tank. The Danby Road, Northview, Troy Road, and Ridgecrest water storage tanks were constructed in 2013, 2012, 1991, and 1968, respectively. The West Hill water system is located in the west portion of the Town of Ithaca, NY and also represents only a portion of the Town's overall water system. The system supplies a total of 537 water services and has an average daily demand of 260,000 gpd. The system is supplied from the South Hill water system through the Stone Quarry CV/PRV connection. The West Hill water system consists of three water service zones: Bostwick Road, West Hill, and Trumansburg Road, each with one water storage tank. The Bostwick Road, West Hill, and Trumansburg Road water storage tanks were constructed in 2001, 2003, and 2016, respectively. The Town desires an analysis of the existing South and West Hill water systems using hydraulic models so they can plan improvements as part of the Town's Capital Improvement Program. 1.1 Purpose For the study, separate computer-based hydraulic models were developed and calibrated to perform a hydraulic analysis of the South Hill and West Hill water systems to determine their performance under varying demand conditions and fire flow conditions. The hydraulic analysis assisted in evaluating the adequacy of the existing water storage tanks, locating aging facilities, and determining the adequacy of the distribution system under existing and future conditions with estimated additional development. The models were used to identify ways to improve system pressures and increase fire flow. They also identified and evaluated potential improvements to the water systems which would correct system deficiencies, increase capacity for future development, and address aging facilities. 1.2 Scope of Services GHD Consulting Services Inc. was retained to develop computer-based hydraulic models and capital improvement alternatives for the South Hill and West Hill water systems. The models were used to evaluate the existing water storage tanks and overall system hydraulic capacity under existing conditions; evaluate water storage and hydraulic capacity under future conditions; assess system adequacy; and develop alternatives for water system improvements. The scope of services is as follows: GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 11 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 1. Data review of information provided by the Town. 2. Perform 2 pipe condition tests and 11 hydrant fire flow tests at strategic locations in the South Hill distribution system to assist in calibrating the model. 3. Perform two pipe condition tests and six hydrant fire flow tests at strategic locations in the West Hill distribution system to assist in calibrating the model. 4. Development of separate computer-based hydraulic models of the South Hill and West Hill water distribution systems. 5. Calibration of the models based on data provided by the Town and collected in the field. 6. Evaluation of the adequacy of the South Hill and West Hill distribution systems and water storage tanks under existing conditions and future demands. 7. Identification and evaluation of distribution system deficiencies. 8. Development and analysis of alternatives for water storage tank replacement and water system improvements. 9. Development of opinions of cost for construction of the improvement alternatives. 10. Delivery of the calibrated water system model to the Town. Before delivery to the Town, the South and West Hill models were combined into a single model. 11. Presentations of GHD's findings and identified improvement alternatives to the Town's Public Works Staff, Public Works Committee, and Town Board. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 12 P,�aamlP(11i1I11pF W.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 2. Existing Conditions 2.1 Overview The Town of Ithaca, NY is a member of the SCLIWC, five communities formed to create a jointly owned water supply to serve each of the member communities. Member communities include the Towns of Ithaca, Dryden, and Lansing, and the Villages of Lansing and Cayuga Heights. The SCLIWC water system is also commonly referred to as the Bolton Point water system (which is the convention this report will use). The Bolton Point water supply consists of a lake supply from Cayuga Lake, a water treatment plant, and transmission mains to each member community. Each community owns and operates its own water distribution system within its municipal boundaries. The South Hill water system is located in the southern portion of the Town of Ithaca and is bordered by the City of Ithaca (City)to the north and the Towns of Danby and Newfield to the south. Ithaca College is supplied from, and located within, the South Hill service area, but maintains its own separate water system. The South Hill system serves a total of 958 water services and is supplied from the Bolton Point transmission main from the Pearsall Place CV/PRV connection (see Figure 2-1). The West Hill Water system is located in the west part of the Town of Ithaca and borders the City to the west and the Town of Ulysses to the north. The West Hill service area serves a total of 537 water services and is supplied from the Stone Quarry CV/PRV connection (see Figure 2-2). 2.2 Systemri ti , South Hill The South Hill system consists of three service zones. The Northview/Danby area serves the lower elevation; the Troy Road and Ridgecrest areas serve the higher elevations. The South Hill system was originally constructed in the early 1950s and has been expanded and improved since then. 2.2.1 Northview/Danby Service Area The Northview service area is supplied by the Pearsall Place CV/PRV station located on Pearsall Place. The Pearsall Place CV/PRV is supplied by Bolton Point's transmission main and South Hill tank (through the 16-inch Bolton Point transmission main). The CV/PRV supplies water into the Northview distribution system via a series of 6-, 8-, 10-, and 12-inch water mains which fill the Northview and Danby tanks. The Northview and Danby tanks are both 500,000-gallon glass-lined, bolted steel, ground level water storage tanks; they each have the same base elevation and float off of one another. The Northview/Danby service area supplies approximately 220 water services at an average daily demand of 130,000 gpd. The Pearsall Place CV/PRV is automatically controlled based on the water level in the Northview and Danby tanks. The CV/PRV opens and closes based on high and low level setpoints for the tank. The CV/PRV remains closed until the tank drops to its low level setpoint. At the tank low level setpoint, the valve opens to fill the Northview and Danby tanks. The PRV features of the valve GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 13 amlP(11i1I11pF M.4II ��fluVflll IIIIIIIIIIV�I WUM�' reduce the pressure from the Bolton Point transmission main to prevent the distribution system from being overpressurized while the tanks are filling. 2.2.2 Troy Road Service Area The Troy Road service area is supplied by the Coddington Road Pump Station which pumps directly into the Troy Road water storage tank. The Troy Road tank is a 120,000-gallon glass-lined bolted steel ground level water storage tank which supplies water to the entire Troy Road service area. The Coddington Road Pump Station pumps water out of the Northview/Danby service area (near the Northview tank) into the Troy Road tank. The Coddington Road Pump Station is controlled automatically based on low and high water level setpoints for the Troy Road tank. The Troy Road service area supplies approximately 168 water services at an average daily water demand of 27,100 gpd. The Coddington Road Pump Station contains two 25 HP horizontal end suction centrifugal pumps with a capacity of about 340 gpm each. 2.2.3 Ridgecrest Service Area The Ridgecrest Service area is primarily supplied by the Troy Road Pump Station, which pumps into the Ridgecrest water storage tank. The Ridgecrest tank is a 500,000-gallon welded steel water storage tank which supplies water to the Ridgecrest service area. The Troy Road Pump Station pumps water out of the Troy Road service area and into the water storage tank. The pump station is controlled automatically based on low and high water level setpoints for the Ridgecrest tank. The Troy Road Pump Station contains two vertical multistage pumps (one 25 HP pump and one 40 HP pump)with a capacity of about 230 gpm and 450 gpm, respectively. The Ridgecrest service area supplies approximately 570 water services at an average daily water demand of 134,400 gallons. Table 2-1 provides statistics on the water storage tanks in the South Hill service areas. Table 2-1 Southill Water SystemStorage :, ,,r ,rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr �� 1 r�,/r///� �r rrrrrrrr��rrrrrrrrrrr��rrrrrrrrrrr��rrrrrrrrrrr��rrrrrrrrrrr��rrrrrrrrrrr��rrrrrrrrrrr��rrrrrrrrrrr��rrrrrrrrrrr��rrrrrrrrrrr��rrrrrrrrrrr��rrrrrrrrrr�� /jj/�;r " /�";r�/� " " " //'; ��rrrrrrrrrrrrrrrrrrrrrrrrr/�rrrrrrrrrrrrrr/�rrrrrrrrrrrrrr/�rrrrrrrrrrrrrr/�rrrrrrrrrrrrrr� „r rrrr„ r rrrrrrrrr rrr,,, r rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr, r r / ;,,,,,,,,,; �%/i r rrrrr/�/��i iiia,//r/�/:..o.r/rrrrrrrrrrrrrrrrrrrrrrrr��rrrrrrrrrrrrrrrrrrrrrrrrrrrrrr��rrrrrrrrrrrrrrrrrrrrrrrrrrrrrr��rrrrrrrrrrrrrrrrrrrrrrrrrrrrrr��rrrrrrrrrrrrrrrrrrrrrrrrrrrrrr //// ✓ /o /ilii ,r rr/r// r,rrr, / ter„ r rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr,, r r GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 14 amlP(11i1I11pF M.4II ��fluVflll IIIIIIIIIIV�I WUM�' €: /i:,,o� /i If The South Hill water system consists of about 23 miles of predominantly cast iron and ductile iron water main and contains 194 hydrants. The majority of the existing pipe network is constructed of ductile iron with a predominant diameter of 8 inches. Table 2-2 summarizes the diameter and approximate total length of each type of pipe in the system, as obtained from Town records. Table 2-2 Southill Water Systemi (1) Pipe lengths are according to GIS data supplied by the Town. Pipe materials are based on available construction and record drawings. (2) Based on conversations with Town, it is believed piping with uncertain material is predominantly cast iron or ductile iron material. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 15 P,aamlP(11i1I11pF M.4II �fluVflll IIIIIIIIIIV�I WUM�' 2®3 System Description, West Hill The West Hill system consists of three service zones. The Bostwick Road area serves the lower elevation; the West Hill and Trumansburg Road areas serve the higher elevation. The West Hill system was originally constructed in the early 1980s and has been expanded and improved since that time. 2.3.1 Bostwick Road Service Area The Bostwick Road service area is supplied by the Stone Quarry CV/PRV connection located on Stone Quarry Road, near the intersection with Spencer Road. The Stone Quarry CV/PRV is supplied by the Northview/Danby service area in the South Hill water system. A 16- and 12-inch water main is routed directly from the Pearsall Place CV/PRV, which supplies the Northview/Danby service area, to the Stone Quarry CV/PRV. The Stone Quarry CV/PRV supplies water into the Bostwick Road distribution system via a series of 6-, 8-, 10-, and 12-inch water mains which fill the Bostwick Road tank. The Bostwick Road tank is a 208,000-gallon glass-lined, bolted steel, ground level water storage tank which provides storage for the entire Bostwick Road service area. The Bostwick Road service area supplies approximately 159 water services at an average daily demand of 56,000 gpd. The Stone Quarry CV/PRV is automatically controlled based on the water level in the Bostwick Road tank. The CV/PRV opens and closes based on high and low level setpoints for the tank. 2.3.2 West Hill Service Area The West Hill service area is primarily supplied by the Coy Glen Pump Station which pumps directly to the West Hill water storage tank. The West Hill tank is a 1,000,000-gallon concrete ground level tank which supplies water to the entire West Hill service area. The West Hill service area supplies approximately 157 water services at an average daily demand of 65,800 gpd. The Coy Glen Pump Station is automatically controlled based on low and high water level setpoints for the West Hill tank. The pump station contains two 75 HP centrifugal pumps with a capacity of about 750 gpm each. 2.3.3 Trumansburg Road Service Area The Trumansburg service area is primarily supplied by the Trumansburg Road CV/PRV, which controls the filling of the Trumansburg Road water storage tank. The Trumansburg Road tank is a 500,000-gallon glass-lined, bolted steel, ground level water storage tank which provides storage for the entire Trumansburg Road service area. The Trumansburg Road service area supplies approximately 221 water services at an average daily demand of 140,400 gpd. The Trumansburg Road CV/PRV is automatically controlled based on the water level in the Trumansburg Road tank. The CV/PRV opens and closes based on high and low level setpoints for the tank. Table 2-3 provides statistics on the water storage tanks in the West Hill service areas. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 16 amlP(11iSII1NIIM.4 ��fluVflll IIIIIIIIIIV�I WUM�' Table 2-3 West Hill Water System Storage ,,, ,rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr, rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr, i�'i��aaaaaaa�aaaaaaaaaaaaaaa�aaaaaaaaaaaaaaa�aaaaaaaaaaaaaaa�aaaaaaaaaaaaaaa�aaaaaaaaaaaaa� r rrr„,i��/��,, ��o� ,��/�// / /rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr rr , ,,,,,,,,,, ail c i,.. ,,,, o.. iii rim" ooi o0000000000000000000000000000000000000000000000i. The West Hill water system consists of about 31 miles of predominantly ductile iron and cast iron water main and contains 243 hydrants. The majority of the existing pipe network is constructed of ductile iron with a predominant diameter of 8 inches. Table 2-4 summarizes the diameter and approximate total length of each type of pipe in the system, as obtained from Town records. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 17 P,�aamlP(11i1I11pF M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' Table 2-4 West Hill Water System pipe Summery ��/r �//,//rrrrrrrrrrrrrrr/////rrrrrrrrrrrrrrrrrrrrrrrrrrr////,, .,,, ///r �� /r r,, rrrrrrrrrrrrrrrr////rrrrrrrrrrrrrrrrrrrrrrrrrrr////,, //r/rr/////rrrrrrrrrrrrrrrrrrrrrrrrrrr/////rrrrrrrrrrrrrrrrrrrrrrrrr,,,,,,,,,,,, /r�,�/r„////rrrr aaaaaaaaaaaaaaaaaaaaaaaaaaaaa ;;,,,; ; ,,,rr;;, ,,,,,,,,,, ,,,rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr, (1) Pipe lengths are according to GIS data supplied by the Town. 2.3.4 Van Dorns/Ulysses Service Area The Town of Ulysses pumps water out of the Trumansburg service area using the Woolf Lane Pump Station. The Woolf Lane Pump Station fills the Town of Ulysses' Iradel tank,which supplies the Van Dorns/Ulysses distribution system. The Van Dorns/Ulysses service area was not part of this study. The Van Dorns/Ulysses service area reportedly supplies an average of 38,000 gpd. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 18 ��fluVflll IIIIIIIIIIV�I IIWV��' 3. Data Collection The first task in the study was the collection of information on the existing water distribution system. Sources of information included record documents provided by the Town, field testing, and meetings with Town personnel to clarify any outstanding questions or uncertain items from the record documents. 3.1 Record Documents The Town maintains numerous records of the water system which were combined with field testing data to create the water system model. The following records were provided by the Town and were used in this study: 1. Pipe sizes, locations, and age. 2. Locations of valves and hydrants, valve status. and pressure settings. 3. Record drawings for portions of the water system installation. 4. Average water consumption for each tank zone from 2014 to 2017. 5. Pump station data and pump curves. 6. Master meter data for water entering each service area. 3.2 Hydrant Flow and PipeCondition Tests, South Hill The Town assisted in conducting 11 hydrant flow tests and 2 pipe condition tests at strategic locations in the South Hill system. Locations of the hydrant flow tests were selected to provide a distribution across the system. Five of the hydrant flow tests and the pipe condition tests were performed on September 7, 2017, and six of the hydrant flow tests were performed on January 18, 2018. The larger West King Road PRV had a mechanical fault during the hydrant tests performed on September 7 which likely impacted the results of the hydrant tests; therefore, calibration of the Troy Road and Ridgecrest service zones was unsuccessful using results of the hydrant flow tests performed on that date. Calibration is further discussed in Section 5. Maps of the hydrant flow test and pipe condition test locations performed on September 7, 2017 and January 18, 2018 are provided in Figures 2-1 and 2-3, respectively. Each hydrant flow test was conducted using two adjacent hydrants. One hydrant was used as the flowing hydrant (fully open), and the static pressure and residual pressure was measured at the second hydrant. The hydrant flow rate was measured at the flowing hydrant using a diffuser with an integral pitot tube and gauge. Personnel from the Town of Ithaca and Bolton Point were present and operated the hydrants for each test. The status of all pumps, CVs, PRVs, and water levels in each of the five water storage tanks was monitored and recorded during these tests for later use in the model. The results of the hydrant flow tests performed in the Northview/Danby service zone on September 7, 2017 and the results of the hydrant flow tests performed in the Troy Road and Ridgecrest service zones on January 18, 2018 are presented in Table 3-1. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 19 amlP(11i1I11pF M.4II ��fluVflll IIIIIIIIIIV�I WUM�' Table 3-1 South Hill Hydrant Flow Tests (performed September 7, 2017 and January 18, 2018) MMM1111111` MEMMIE ;, ,rrrrrrr„ , rrrrrrr ,,,, //0/1 , „ �j/[ ��! ,,,,;s, a/i , /jjjj[;;;/ ;;, ; oil ooiooi / r1 or o/i/�ii��ii//IM/ 121 //// O/��//��/ /0 ///;,,,,r ;,;, , ,,,,,,�� rrrrrrrr, ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, / �� /moi �/ =ca//oi/ of r o0000000000000000000000000000000io c%a/�0000i rr , 1/1"10// //� / /ca�� r/ // oilr ,�/i% ;'%/ a; ////// 1/,////////,/ :, '%/ % i/a / „,/i ,< ' !„ �rrrrrrrrrrr�� %/%%/%/� rrrrrrrr� rrrrrrrr�rrrrrrr�. /%/%///iiiiiiiiioiiiiiiiiiiiiiioiiiiiii:�%/%/ /%%%%%%/i':-�%/%/%/%%%%%/ �� /%/ /%%%%%%..//�iiioiooiiii % A pipe condition test is similar to a hydrant flow test, except the residual pressure is measured across two or three adjacent hydrants and flow is restricted to one direction. The result is a measurement of the pressure drop through a particular section of water main, which can then be used to estimate the C-value roughness coefficient for that section of water main. To provide an accurate measurement of flow, the test must be performed on an isolated section of pipe such that water can only flow through the section of pipe from one source, in one direction. If the pipe is part of a loop, one of the ends of the loop must be isolated. The locations of the two pipe condition tests were selected because of their close representation of the two larger pressure zones (Ridgecrest and Northview). An isolation valve was closed for both pipe condition tests in the South Hill water system. No pipe condition test was conducted in the Troy Road service area, as most of the water mains have been replaced since the late 1980s/early 1990s; therefore, C-value can be estimated based on age. The two pipe condition tests were performed on Kendall Avenue/Pennsylvania Avenue and Danby Road. The results of the pipe condition tests are presented in Table 3-2. We believe there is an error in the data for the pipe condition test on Danby Road because the results are not realistic. The water main on which the Danby Road pipe condition was conducted is downstream of a dual PRV station. The two PRVs have different setpoints which likely skewed the results of the pipe condition test. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 110 amlP(11i1I11pF M.4II ��fluVflll IIIIIIIIIIV�I WUM�' Table 3-2 South Hill pipe Condition Tests (performed September 7, 2017) Mmmlimmmmml ;,,,,,, (1) This test was performed during the PRV mechanical fault. The results of this test are unreliable. 3.3 Hydrant Flow and PipeCondition Tests, West Hill The Town assisted in conducting six hydrant flow tests and two pipe condition tests at strategic locations in the West Hill system. Locations of the hydrant flow tests were selected to provide a distribution across the system. A map of the hydrant flow test and pipe condition test locations is provided on Figure 2-2. Each hydrant flow test was conducted using two adjacent hydrants. One hydrant was used as the flowing hydrant (fully open), and the static pressure and residual pressure was measured at the second hydrant. The hydrant flow rate was measured at the flowing hydrant using a diffuser with an integral pitot tube and gauge. Personnel from the Town of Ithaca and Bolton Point were present and operated the hydrants for each test. The status of all pumps, CVs, PRVs, and water levels in each of the three water storage tanks was monitored and recorded during these tests for later use in the model. The results of the hydrant flow tests are presented in Table 3-3. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 111 amlP(11i1I11pF W.4II ��fluVflll IIIIIIIIIIV�I WUM�' Table 3-3 Vest Hill Hydrant Flow Tests (performed September 5, 2017) OMMMMMMM r / /// ////,/// / rill ��T ////////////////////////, 1-2`10 . Am� The locations of the two pipe condition tests were selected because of their close representation of two pressure zones (Bostwick Road and West Hill). No pipe condition test was conducted in the Trumansburg Road service area, as most of the water mains have been replaced since 1987 and therefore C-value can be estimated based on age. The two pipe condition tests were performed on Seven Mile Drive and West Haven Road. For both pipe condition tests in the West Hill water system, the existing piping already restricted the flow of water to one direction, so it was not necessary to close any valves for the test. The results of the pipe condition tests are presented in Table 3-4. Table 3-4 West Hill Pipe ConditionTests (Performed September ) /rrrrr/rrrrr, ��/ rrrrrrrr;jjjj;rrrrrrrrrrrrrrrrrr,;�rrr/rr,,,rrr,;�;;/, rrrrrrr, ��iiiiiiiii/ ✓/rrr rrQQ�rrrrr,„/jr rr,,rrrrrrrr,,:/jjjj r/irrrrrr��r rrrrrrr,.,/rr��i��,,:/r rr�rrrrrr�:;:/j//////////i / i �iiii�..�� iiiiiii ..�jjji,�ir//iiiiiiiiiiiiiii�.,j� �iiiiiiiiiii., �� iiiiii ..�j/�%/////////. ,,,,,,,;;,,,,,,,,,• r, / i, ,,,,,,,,,,,,,,,,, , / �'/ iii �� rrrrrrrr, ��rr� �� rrrrrrr��_ ;rrrrr r , ,rrr, r, ��/ rrrrrrrr,;jjjj r rr,rrrrr/rrrrrrrr,,��rrrrr///////�;;�r;rr r ��iiiiiiiii/ ;;;�,rrrrr rrrrr, ;��/rrrrrrrrrrrr;jjjj rrrrrrrr;,,,,,,,,,;,;�� r/rrrrrrrr,,�,r/„rrrrrrr,:;��iiiiiiiii�„ GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 112 ��fluVflll IIIIIIIIIIV�I IIWV��' 4. Model Development A water distribution system model is used to mathematically simulate hydraulic conditions in pipe networks. The hydraulic analysis was performed using WaterGEMS Version V8i, designed and distributed by Bentley Systems, Inc. Figures 4-1 and 4-2 provide a schematic of the existing water distribution system in the model for the South Hill and West Hill systems, respectively. A steady-state simulation was performed for the existing network. This analysis is based on constant demand and boundary conditions. To establish boundary conditions, the models include distribution pipe information, customer demand data, pump performance curves, and storage tank level data. The model of each system includes the following: 1. Three pressure zones (water service areas). 2. All water distribution mains sized 4 inches in diameter and larger. 3. Four ground level water storage tanks for the South Hill system model and three ground level water storage tanks for the West Hill system model. 4. Two pump stations. 5. Existing average daily water demands and estimated maximum daily and peak hour demands for each customer. 6. Projections for future water demand increases. 7. Elevations based on Town-supplied GIS contour data. 8. Pressure reducing and control valves. 4.1 Softwareti WaterGEMS Version V8i software by Bentley Systems was selected as the preferred modeling software. WaterGEMS allows for simultaneous integration and use of geospatial software. Since the Town currently utilizes WaterCAD, WaterGEMS was selected based on ease of opening the model in both WaterGEMS and WaterCAD. Also, due to the majority of the data being GIS centered, WaterGEMS was selected based on its ability to provide a hydraulically calibrated model for system analysis while being fully integrated with GIS data. 4.2 Model InputsConditions Model inputs were based on imported data from the GIS map developed using ArcGIS. The model incorporated all hydraulic features and relevant asset fields from the GIS map as a basis. The GIS data was then supplemented with any additional data required for model analysis using available Town records. Additional model inputs are summarized below. 4.2.1 System Pipe Network Distribution pipes 4 inches in diameter and larger were included in the model. Pipes smaller than 4 inches are generally individual water services and do not have a significant impact on system GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 113 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' capacity. The general layout of the system pipe network was interpreted from hydraulic GIS data provided by the Town (as discussed in Section 3). Pipe diameters were based on GIS information, record drawings, and other input from Town personnel. 4.2.2 Hydrants All known hydrants in each service area were provided in the form of GIS data and included in the model. Hydrants were numbered using the WaterGEMS numbering system. The modeling software was used to assign elevations to the hydrants based on contour GIS data provided by the Town. 4.2.3 Hydrant Branches Hydrant branches were included in the Town-supplied GIS data and were therefore included in the model. Hydrant branch sizes were obtained from the Town's GIS data and record drawings. 4.2.4 Mainline Valves All of the Town's mainline valves, which were provided by the Town in the form of GIS data, were included in the model. Valves were numbered based on the WaterGEMS numbering system. Valve elevations were determined from the same contour data used for the hydrants. All valves were modeled open except for those that separate the two pressure zones. 4.2.5 Junction Nodes Junction nodes were developed automatically by the modeling software at major pipe bends, pipe intersections, and all hydrant branches. Water demands were allocated to junctions (Section 4.3). 4.2.6 Coddington Road Pump Station, South Hill In order to model the Coddington Road Pump Station pumps, multiple sources were reviewed, including equipment data sheets and daily pump station readings. Physical elevations and pump manufacturer's performance curves were entered into the model for the pump station. Table 4-1 is a summary of additional pump details. Table 4-1 Pump Data, i t s (Two Total) (1) Based on model analysis, with Troy Road tank at lead pump start level with a single pump running. (2) Based on model analysis, with Troy Road tank at lag pump start level with both pumps running. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 114 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 4.2.7 Troy Road Pump Station, South Hill The Troy Road Pump Station pumps were modeled based on equipment data sheets and daily pump station readings. Physical elevations and pump manufacturer's performance curve were entered for the modeled pump station. Table 4-2 is a summary of additional pump details. Table 4-2 Pump Data, y Road Pumps ( t ) / 1 (d Vit ; ,Part F�u�ffrt (1) Based on model analysis, with Ridgecrest tank at pump start level with a single pump running. (2) Based on model analysis, with Ridgecrest tank at lag pump start level with both pumps running. 4.2.8 Coy Glen Pump Station, West Hill In order to model the Goy Glen Pump Station pumps, numerous sources were reviewed including equipment data sheets and daily pump station readings. Physical elevations and pump manufacturer's performance curves were entered into the model for the pump station. Table 4-3 is a summary of additional pump details. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 115 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' Table 4-3 pump Data, Coy (algin pumps (Two Total) r (1) Based on model analysis,with West Hill tank at lead pump start level with a single pump running. (2) Based on model analysis, with West Hill tank at lag pump start level with both pumps running. 4.2.9 Woolf Lane Pump Station, West Hill The Woolf Lane Pump Station pumps were modeled based on equipment data sheets and daily pump station readings. Physical elevations and pump manufacturer's performance curve were entered for the modeled pump station. Table 4-4 is a summary of additional pump details. Table 4-4 Pump Data, s (Three Total) � rrrrrrrr,,,,,,,,,,,,,rrrrrrrr ,rrrrrrrrrrrr , � „/,r/,,,, r rrrrrrrrrrrrrr, ;;, rrr/r r ,r //r/rr ///rrrrrrrr„ rrrr ////r/ rr r r rrrrrrr////////rrrrrrrrrrrrrrrrrrrrrrr/////////rrrrrrrrrrrrrrrrrrrrrrr/////////rrrrrrrrrrrrrrrrrrrrrrr/////////rrrrrrrrrrrrrrrrrrrrrrr/////////rrrrrrrrrrrrrrrrrrrrrrrrrr/// �/r r��'' „�;,,,; ,,,,,,,r� ��iaaaiiaaaaiiaaaaaaaaaaaaaaaaaaaaiiaaaaaaaaaaaaaaaaiiaaaaiaaaaaaaaaaaaaaaiaaaaiiaaaaaaaaaaaaaaaaiiaaa (1) Based on model analysis, with Van Dorris tank at low level with a single pump running. (2) Based on model analysis, with Van Dorris tank at low level with two pumps running. (3) Based on model analysis, with Van Dorris tank at low level with all three pumps running. 4.2.10 Water Storage Tanks The configuration and geometry of the tanks and piping arrangement at the tank site were based on record drawings and GIS data provided by the Town. Further details on the existing water storage tanks are provided in Section 2.3. 4.2.11 Water Supply and CV/PRVs, South Hill The South Hill service areas are supplied by the Bolton Point transmission main and the East Hill tank, through the Pearsall Place CV/PRV connection. This transmission main and the East Hill tank GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 116 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' are supplied by Bolton Point's Oakcrest Pump Station. The PRV was modeled and the downstream pressure of each PRV was set based on the following Town-supplied setpoints: • Pearsall Place CV/PRV Open — Northview/Danby tanks at 28 feet • Pearsall Place CV/PRV Close—Northview/Danby tanks at 32 feet • Downstream pressure setting when open—156 psi The East Hill tank was modeled as a reservoir (water storage with infinite supply)to the Pearsall Place CV/PRV. The East Hill tank was modeled with a water elevation of 1,180 feet (equivalent to 20 feet of water in tank or 10 feet below overflow). 4.2.12 Water Supply and CV/PRVs, West Hill The West Hill service areas are supplied by the Town's transmission main, through the Stone Quarry CV/PRV connection. This transmission main is supplied by the Northview/Danby service area, which is supplied by the Pearsall Place CV/PRV. The Stone Quarry CV/PRV was modeled and the downstream pressure of each PRV was set based on the following Town-supplied setpoints: • Stone Quarry CV/PRV Open — Bostwick Road tank at 26 feet • Stone Quarry CV/PRV Close— Bostwick Road tank at 35 feet • Downstream pressure setting when open—95 psi The Trumansburg Road service area is supplied by the Trumansburg Road tank, through the Trumansburg Road CV/PRV. The Trumansburg Road CV/PRV was modeled and the downstream pressure of each PRV was set based on the following Town-supplied setpoints: • Trumansburg Road CV/PRV Open—Trumansburg Road tank at 33 feet • Trumansburg Road CV/PRV Close—Trumansburg Road tank at 36 feet • Downstream pressure setting when open— 16 psi 4.3 Evaluationt Once the model was constructed in WaterGEMS, demand data was allocated throughout the system to simulate actual conditions. Individual customer meter demands were added to the model according to the address/tax parcel on the account. Average daily water demands were then allocated to water main nodes in the model based on the closest node to the meter, unless Town records suggested otherwise. 4.3.1 Average Daily Demand, South Hill The average daily demands for the water system were determined over the period of May 2014 through May 2017 from quarterly water billing accounts recorded by Bolton Point and flow meter readings at the control valve and pump stations. The average daily demands were calculated for each 12-month period as the sum of total water delivered for 12 months divided by 365 days (366 days for the period encompassing 2016). The highest water demand for the three 12-month GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 117 �,aamlP��SI(�1N�oa �fluVflll IIIIIIIIIIV�I IIWUa�' periods was used in the model. The period of May 2015-May 2016 provided the highest average daily water demands for the South Hill service areas. The demands from this period are summarized in Table 4-5. Table4-5 South Hill Average Daily Demands (May y ) 1111111111111111111 ��,,,,,1111,1 p e PPP r r (1) Determined from the control valve and pump station meters that supply water into the zone. (2) Determined as the sum of all customer water meters in the service area. (3) Determined as the sum of water meters for the Coddington Road Pump Station and Stone Quarry CV/PRV. (4) Determined as the sum of the Troy Road Pump Station water meter. 4.3.2 Average Daily Demand, West Hill The average daily demands for the water system were determined over the period of May 2014 through May 2017 from quarterly water billing accounts recorded by Bolton Point and flow meter readings at the control valve and pump stations. The average daily demands were calculated for each 12-month period as the sum of total water delivered for 12 months divided by 365 days (366 days for the period encompassing 2016). The period of May 2015-May 2016 was used in the model. This period did not provide the highest water demand for the three 12-month periods, but was used to be consistent with the data used for the South Hill model. The demands from this period are summarized in Table 4-6. Table 4-6 Westill Average Daily Demands (May y ) (1) Determined from the control valve and pump station meters that supply water into the zone. (2) Determined as the sum of all customer water meters in the service area. (3) Determined as the sum of the Coy Glen Pump Station meter. (4) Determined as the sum of the Trumansburg Road CV/PRV meter. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 118 P,�aamlP�1i1I11pF W.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' (5) Determined as the sum of the Woolf Lane Pump Station meter. 4.3.3 Demand Allocation The water demands were distributed throughout the piping network based on GIS parcel data provided by the Town. The model incorporates both metered water and unaccounted-for water. This was accomplished by allocating actual meter demands to parcels throughout the distribution system using tax ID information. The unaccounted-for water was then evenly distributed throughout the model to each parcel. This distributes the water demand across the system in a way which best represents the demand conditions in the Town. 4.3.4 Demand Conditions The maximum day and peak hour demands were estimated by applying commonly used peaking factors to average daily demands. The maximum day demand factor used was 1.7 times the average daily demand. The peak hour demand factor was 2.0 times the maximum day demand. These maximum day and peak hour factors were used to create the demands in the model. Tables 4-7 and 4-8 summarize the modeled average daily, maximum day, and peak hour demands in the South Hill and West Hill water models, respectively. Table -7 South Hill Summary of Modeleds0) }} i I,Ilpni n,;,,, V,.. � m �. }®ty ;�� .�� 1, � �•m m I' 1 (1) Demands are based on water used as measured by the master meters for each service area (includes metered water and unaccounted-for water). Table 4-8 West Hill Summary of Modeleds0) (1) Demands are based on water used as measured by the master meters for each service area (includes metered water and unaccounted-for water). GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 119 P,�aamlP(11i1I11pF W.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 5. Model Calibration 5.1 Calibration Methodology After the model was constructed and demand was allocated to appropriate meters in the model, the model was calibrated based on field-obtained test data. Hydrant flow tests and pipe condition tests, performed as discussed in Section 3, were used to compare the model output versus actual system conditions. This data was used to calibrate the model based on static and residual pressures. Calibration was performed by adjusting model parameters until model outputs generally agreed with field-measured information. The model was calibrated for a steady-state scenario, which models a single point in time and is used to check static and residual pressures in the water system. Both demand and SCADA records received from the Town were used as criteria for the steady-state calibration. The calibration goal used for the model was to be within ±10 percent of the static and residual pressures from field tests for pressures above 50 psi and ±5 psi for pressures less than 50 psi. 5.2 Pipet r I Roughness An important parameter in calibrating the system model is the Hazen-Williams roughness coefficient, or C-value. This factor represents the roughness of the pipe interior and the pipe's resistance to flow. A lower C-value represents more friction and greater resistance to flow. The C-value tends to decrease with pipe age due to corrosion and deposition inside the pipe, although studies have shown that cement-lined piping can maintain a higher C-value for longer when compared to unlined piping.' The C-value for new cement-lined ductile iron pipe is typically 130. As the pipe ages, this value could potentially decrease, resulting in greater resistance to flow and reduction in system capacity. In general, the greater the pipe age, the lower the modeled C-value. 5.3 Calibration , South Hill The calibration used the results of two hydrant flow tests and two pipe condition tests performed on September 7, 2017 and six hydrant flow tests performed on January 18, 2018. Hydrant flows measured in the field were simulated in WaterCAD using modeled hydrants corresponding to field- tested hydrants. Model parameters were adjusted to achieve simulated hydrant flow test results within the goal of±10 percent of field test data for steady-state model calibration. The model was calibrated based on the average daily demand condition. First, the water storage tank level information at the time of field testing was entered from SCADA monitored data. Following static calibration, the second calibration effort used residual pressure data from fire flow testing to calibrate the model under the field-recorded fire flow (see Table 3-1). The Hazen-Williams' C-values were modified as needed across the system to correlate model residual pressures with those observed in the field. ' Ductile Iron Pipe Research Association (DIPRA). 2016. Cement-Mortar Linings for Ductile Iron Pipe. Golden, CO. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 120 P,�aamlP(11iSI(1N W.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' Table 5-1 presents the results from final model calibration and a comparison of model values with fire flow test results. All of the modeled static and residual pressures are within the ±10 percent goal for steady-state model calibration. Table 5-1 Southill Steady-State Cali ti EM MHEM M11110MMIMOM r - - - rrr,//r I rr//i/iii/ i/i /iA a%iiiiiiaii i r%%%% „/ij / /,,% /„a 111 , ✓ilii €' ✓ //iiiir rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr ;,,,,,, rrrrrr,,,,, ,,rrrr r rrr rrrrrrrrrrr�; rr r,„ ,rrr... err ; % % ,,,r /rrr, /, r / rrrrrrrr rrr ��///// �i�� i� �� i ��i , , / "",'!//i //ir%rrr.. ,,,,,,,, Tr 1 / Ii/ii i iiiiiiiiiiiiiiiiiiiii /%%%%%jjjj/.,jjjj/ /�j //jj/, /�jjjjjjj/.,;`;jjjj/ /jjjj. �jjj/ � �� ... jjjjjjjji,..�i ��i,..�j.,j�j..��jjjjjj/..i ��.��ji,..� ��j (1) Field-measured residual pressures are±1 psi. Model calibration was undertaken separately in each pressure zone. The typical C-value used in the model was 130; the maximum C-value used was 150, which was considered reasonable based on literature published by the Ductile Iron Pipe Research Association.' For the East King Road (West King PRV) hydrant test, the model initially predicted a significantly lower residual pressure than measured in the field. After additional hydrant testing to confirm these results, the pipe size for the water main on the portion of East King Road between Ridgecrest Road to the east and Hydrant No. Q0930 to the west was increased from 8-to 10-inch. With an 8-inch pipe size, the modeled residual pressure for this test was lower than the field measured data by 39 percent. With a 10-inch pipe size, the modeled residual pressure for this test is higher than the field measured data by 3 percent. For the Coddington Road hydrant test, the model initially predicted a significantly lower residual pressure than measured in the field. As a result, the pipe size for the water main on the portion of Coddington Road between Troy Road to the north and East King Road to the south was increased from 8-to 10-inch. With an 8-inch pipe size, the modeled residual pressure for this test was lower GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 121 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' than the field measured data by 42 percent. With a 10-inch pipe size, the modeled residual pressure for this test is higher than the field measured data by 2 percent. Additional hydrant tests were performed to confirm these results. For both the Coddington Road and East King Road pipes, Town records indicate the pipe sizes are 8-inch diameter. Site investigations were unable to confirm the presence of 10-inch diameter piping or any other conditions that might cause the discrepancy between the model and field data. To increase the accuracy of the modeled hydraulic results, it was decided to configure the model to match field test conditions. With hydraulic models, there are inaccuracies in pressure gauges, variations in field measurements, and variations in the distribution system that cannot be easily quantified, making it impractical to achieve an accuracy of 100 percent in all cases. Based on the results presented in Table 5-1, the model was deemed calibrated and adequate for completing further analysis on the South Hill water system. 5.4 Calibration , West Hill The calibration used the results of the six hydrant flow tests and two pipe condition tests performed on September 5, 2017. Hydrant flows measured in the field were simulated in WaterCAD using modeled hydrants corresponding to field-tested hydrants. Model parameters were adjusted to achieve simulated hydrant flow test results within the goal of±10 percent of field test data for steady-state model calibration. The model was calibrated based on the average daily demand condition. First, the water storage tank level information at the time of field testing was entered from SCADA monitored data. Following static calibration, the second calibration effort used residual pressure data from fire flow testing to calibrate the model under the field-recorded fire flow (see Table 3-3). The Hazen- Williams' C-values were modified as needed across the system to correlate model residual pressures with those observed in the field. Table 5-2 presents the results from final model calibration and a comparison of model values with hydrant flow test results. All except one of the six modeled static and residual pressures are within the ±10 percent goal for steady-state model calibration. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 122 ��fluVflll IIIIIIIIIIV�I IIWV��' Table 5-2 West Hill Steady-State Calibration Summary - 11;11 / ///// ////// /////////////////////// ;"' // //„ C, li,///ii ////aaai ///ilii/iii i a , 1111 /oai /% i €r1111 1111,,„ ��,,,,,,,,,,:,1111,, /%� �i�� iii .. ce �ii %/////%%/ //%/% // .......... //// ,�>� ,<, cjjj,;j/�jjjjjj/ ,...�j ��j,,.ii��jjjjj/i, „!�� ;i�ZLO%/////%///',,,;”,%!%%!i ////////////%%%// i;,i/%///%//a //ioiii iia ri i„ %Tel l / ONE,, // gv 1111,,,; iiiiiic ,,,,, ,,,,,,,; A %% °, c; [1111;; /�,, ,1111.�� ;/ Ili/ 11 11;;.;�/, ,.�� €1111.;%�/ 11/4/ ,,j/ �.. (1) Field-measured residual pressures are±1 psi. Model calibration was undertaken separately in each pressure zone. The typical C-value used for new ductile iron pipes is 130. For the Trumansburg Road hydrant test, the model initially predicted a higher residual pressure than measured in the field. As a result, the C-value for the water main on the portion of Trumansburg Road between Hayts Road (County Road 139)to the north and Hillcrest Drive to the south was decreased to 110. This is reasonable because rocks and debris were flushed out of the water main during the hydrant test, increasing the headloss in the pipe. With a C-value of 130, the modeled residual pressure for this test was higher than the field-measured data by 12 percent. With a C-value of 110, the modeled residual pressure for this test is higher than the field-measured data by 8 percent. This resulted in the model outputs for all tested hydrants performing within 10 percent of the field-measured data with the exception of one hydrant discussed below. Using a C-value lower than 110 for the water main was considered to be unreasonable based on the pipe age and material, so no further changes were made to the model. The remainder of the Trumansburg service area did not require changing of the pipe C-values from the original 130. The Woolf Lane Pump Station and Iradel tank were included in the model to account for the demand of the Woolf Lane Pump Station on the Trumansburg tank area. A hydrant test was performed on the Iradel tank zone, the results of which are presented in Table 3-3. The Iradel tank is located in the Van Dorns service area in the Town of Ulysses,just north of the Trumansburg Road service area, and was not included in the scope of the calibration and analysis. For the reasons provided in Section 5.3, it is impractical to achieve an accuracy of 100 percent in all cases. Based on the results presented in Table 5-2, the model was deemed calibrated and adequate for completing further analysis on the West Hill water system. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 123 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 6. System Analysis, South Hill Once the South Hill model was deemed to be calibrated, it was utilized to analyze the existing water system and identify areas of improvement. The calibrated model was used to analyze overall water system capacities and pressures, fire flow capacities, and suitability of the existing water storage tanks. The analysis for the South Hill water system is discussed in more detail below. 6.1 Capacityit i the ExistingSystem The model was used to simulate the existing water system under average daily, maximum day, and peak hour demand conditions. It was then evaluated based on system pressure and available fire flow for each of these demand conditions. The distribution system was evaluated against the following criteria: Pressure Evaluation Criteria • Minimum of 35 psi at all customer connections in the distribution system, under normal operating conditions. • Minimum of 20 psi at all points in the distribution system, under fire flow conditions. • Maximum of 100 psi at all points in the distribution system, or pressure reducing valves for any homes over 100 psi, under all operating conditions. • These pressures are in accordance with the Recommended Standards for Water Works (Ten-States Standards, 2012). Fire Flow Evaluation Criteria • Minimum fire flow of 500 gpm at all hydrants in accordance with Insurance Services Office (ISO)guidelines and Ten-States Standards. • Minimum fire flow of 1,500 gpm at all hydrants, as requested by the Town. It should be noted that ISO provides a general guideline that all hydrants provide a minimum fire flow of 500 gpm; however, ISO is able to perform a more detailed evaluation of the distribution system to determine location-specific "needed fire flows"for individual hydrants. Often the ISO's location-specific needed fire flows are greater than 500 gpm. An ISO evaluation of the South Hill water system was not available at the time of this report. The evaluation of the existing system and improvement alternatives discussed in the next section will be based on the fire flow criteria listed above. It is recommended the Town request an ISO evaluation of the South Hill water system in order to obtain specific needed fire flow criteria for these areas. 6.1.1 Water Distribution System Pressures Based on the calibrated model, few areas of low pressure exist and are generally located in the vicinity of the tank in the Northview/Danby, Troy Road, and Ridgecrest pressure zones. These three pressure zones each have areas with high pressures reaching over 100 psi. Figures 6-1, 6-2, and GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 124 ��fluVflll IIIIIIIIIIV�I IIWV��' 6-3 show the existing pressures across the distribution system under average daily, maximum day, and peak hour demand conditions, respectively. As can be seen in the figures, the Coddington Road and Troy Road Pump Stations are off, the Pearsall Place PRV/CV is closed; the larger PRVs (West King 2, Stone Quarry 1 B, Stone Quarry 2B, Stone Quarry 3B) are closed; and the smaller PRVs (West King 1, Stone Quarry 1A, Stone Quarry 2A, Stone Quarry 3A)are active. Based on this analysis, the following observations have been made: 1. The Northview/Danby service area has no customers with pressures below 35 psi under normal conditions, maximum day demand conditions, or peak hour demand conditions. There are some pipes adjacent to the Northview and Danby tanks with less than 20 psi of pressure, but these water mains do not serve any customers. 2. The Northview/Danby service area has several areas that exceed 100 psi, predominately located in the northern portion of the service area. 3. The Troy Road service area has no customers with pressures below 35 psi under normal conditions, maximum day demand conditions, or peak hour demand conditions. There are some pipes adjacent to the Troy Road tank with less than 35 psi of pressure, but these water mains do not serve any customers. 4. The Troy Road service area has several areas that exceed 100 psi throughout the service area. 5. There are five customers in the Ridgecrest service area with pressures below 20 psi and seven customers with pressures below 35 psi under normal conditions. There is one additional customer with pressures below 35 psi under peak hour demand conditions. These customers (13 total) are served by water mains adjacent to the Ridgecrest tank. There are some additional pipes adjacent to and downstream of the West King PRVs with less than 35 psi of pressure, but these water mains do not serve any customers. 6. The Ridgecrest service area has several areas that exceed 100 psi, predominately located in the southern portions of the area. 7. The distribution system pressures do not vary significantly from average daily demands up to peak hour demands. This suggests that the water main capacity is not the limiting factor causing low system pressures. The low system pressures are a result of the elevations of the existing tanks with respect to the customers they serve. Table 6-1 summarizes the maximum and minimum distribution system pressures observed in the model. Pressures are reported under their worst case demand conditions (i.e., minimum pressures under peak hour demand and maximum pressures under average demands). However, as noted above, the majority of pressures do not vary significantly from average to peak demands. Maximum static pressures are also provided, since static conditions can be achieved at night when demands are at their minimum. Pressures exceeding 100 psi have been shown to result in a greater occurrence of breaks in water mains and residential water services. Pressures over 100 psi can also cause damage to water heaters and pipes in residences. For this reason, the Town of Ithaca requires customers with high GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 125 P,�aamlP(11i1I11pF W.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' pressures to install PRVs on their water service connections in accordance with the Ten-States Standards. These individual PRVs can mitigate potential damage to the customer's water piping, but they do not reduce the risk of breaks in the water distribution mains serving these areas. In some cases, it is not feasible to reduce system pressures to below 100 psi due the elevation change and layout of the distribution system. Where possible, it is recommended to reduce system pressures to below 100 psi. Table 6-1 Southill Existing DistributionSystem ss (Model Estimate) � nnntinMEE= .,,,,/��/ilii /�� /iii %ii/� 6.1.2 Available Fire Flow The model is able to separately estimate the available fire flow at each hydrant in the system. Available fire flows were estimated during the maximum day demand. The analysis does not model the duration of each fire flow with respect to distribution system capacity. The duration of available fire flow is impacted more by the volume of water storage than by the pipe capacity. An analysis of the fire flow duration is discussed in greater detail in Section 6.2. The maximum available fire flows were estimated in the model based on maintaining a minimum pressure of 20 psi at all points in the distribution system, in accordance with Ten-States Standards. The available fire flows are also estimated with the Pearsall Place PRV/CV closed; the Coddington Road and Troy Road Pump Stations off; the larger PRVs (West King 2, Stone Quarry 1 B, Stone Quarry 2B, Stone Quarry 3B)active; and the smaller PRVs (West King 1, Stone Quarry 1 A, Stone Quarry 2A, Stone Quarry 3A) closed. Figure 6-4 provides a map of the distribution system hydrants, color coded based on their available fire flow. Table 6-2 is a summary of the available fire flows in the three service areas. Table 6-2 Southill Fire Flow Analysis of ExistingSystem (Maximum y ) d I j&V/, / %%%%%%%%%%%%%%%%%%%%%%%///i ,,,, �, The majority of hydrants in the Northview/Danby provide fire flows greater than 1,500 gpm. The majority of hydrants in the Troy Road and Ridgecrest pressure zones provide fire flows less than GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 126 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 1,500 gpm. Fifty-five percent of the hydrants in the Northview/Danby zone provide fire flows greater than 1,500 gpm, while no hydrants in the Troy Road or Ridgecrest zones provide more than 1,500 gpm. Twelve hydrants provide less than 500 gpm fire flow--two in the Northview/Danby pressure zone, six hydrants in the Troy Road pressure zone, and four hydrants in the Ridgecrest pressure zone. The two hydrants in the Northview/Danby pressure zone are located adjacent to the water storage tanks where water pressure is low. The six hydrants in the Troy Road pressure zone are located on Southwoods Drive and Eldridge Circle. The four hydrants in the Ridgecrest pressure zone are located adjacent to the water storage tank where water pressure is low. Alternatives to increase fire flow in the Northview/Danby, Troy Road, and Ridgecrest service areas are discussed in Section 9. Evaluation of the existing fire flows in this report is based on the criteria noted above. The report does not provide recommendations for what the minimum fire flows should be in the distribution system. It is common to reference the ISO's indication of needed fire flow rates as a baseline for comparing water system performance. ISO recommends needed fire flow rates based on building size, construction materials, and use in the area. For one-and two-family residences, ISO's needed fire flows are typically within a range of 500 to 1,500 gpm, but can be significantly higher for other building types and uses. As noted in Section 6.1, it is recommended the Town obtain an ISO evaluation of the Northview/Danby, Troy Road, and Ridgecrest zones for the purpose of comparing ISO's needed fire flows to existing fire flows. 6.2 EvaluationExisting t r Storage Water storage in the distribution system must meet two basic requirements: (1) provide adequate pressure to all water services; and (2) provide an adequate volume of water to meet worst case demands. The pressure requirements for the distribution system are defined in Section 6.1. These requirements dictate the minimum and maximum water elevations for water storage. The volume of water storage necessary to meet Ten-States Standards is based on supplying fire flow and maximum day demands concurrently without interruption of supply to water services. The distribution system must meet these demands without dropping below 20 psi at any point in the system. The Town also desires to provide three days of water storage for all of their water storage tanks. These criteria were used to evaluate the existing water storage tanks in the three pressure zones. The minimum required storage volume is equal to the higher value of either three days of storage or the volume needed to meet water and fire demands. The minimum storage volume for each tank to meet water and fire demands, as defined by Ten- States Standards, is calculated based on the combined fire flow and maximum day water system demands. For the Northview/Danby, Troy Road, and Ridgecrest pressure zones, this calculation will be based on the following assumptions: 1. The fire flow rate is equal to 1,500 gpm, as desired by the Town. 2. The duration of the fire flow is 2 hours (this is the duration selected by ISO for fire flow rates up to 2,500 gpm). GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 127 ��fluVflll IIIIIIIIIIV�I IIWV��' 3. The water demand during a fire is at the maximum day rate (the analysis also assumes that one hour of the fire occurs during the peak hour demand of the maximum day). 4. The maximum and peak hour demands for Northview/Danby do not include Ithaca College, as the college has their own tank for fire protection. 5. When calculating the volume for Northview/Danby, we assume the Pearsall Place CV/PRV is open for the entire duration of a fire, supplying water to the tanks. 6. When calculating the volume for Northview/Danby, we assume the Coddington Road Pump Station is running both pumps (pumping out of the Northview and Danby tanks)for the entire duration of a fire. This is an added demand on the Northview and Danby tanks. 7. When calculating the volume for Northview/Danby, the demand necessary to fill the Bostwick Road tank is included. The Bostwick Road tank is filled from the Stone Quarry CV/PRV. Since it takes less than 2 hours for the Stone Quarry CV/PRV to fill the Bostwick Road tank, and the minimum storage volume calculations are based on a 2-hour period, the Bostwick demand is based on the volume required to fill the Bostwick tank, as opposed to using the Stone Quarry CV/PRV demand over a period of 2 hours. 8. When calculating the volume for Troy Road, we assume the Coddington Road Pump Station is running both pumps for the entire duration of a fire, supplying water to the tank. 9. When calculating the volume for Troy Road, we assume the Troy Road Pump Station is running both pumps (pumping out of the Troy Road tank)for the entire duration of a fire. This is an added demand on the Troy Road tank. 10. When calculating the volume for Ridgecrest, we assume the Troy Road Pump Station is running both pumps for the entire duration of a fire, supplying water to the tank. 11. The water storage tanks start at their maximum water level. Once the total required water storage volume is calculated, it must be compared to the actual usable volume in the existing water storage tanks. As noted above, the pressure in the distribution system must not drop below 20 psi during a fire. The usable water storage in a tank is based on providing this 20 psi minimum pressure to all customers. For the Northview, Danby, and Troy Road tanks, at least 20 psi of pressure is provided to all customers when the water level is at the bottom of the tank, so the entire storage volume is usable in these tanks. For practicality, we have calculated the usable water storage volume as the water above 1 foot from the bottom of the tank. In other words, the bottom 1 foot of water was subtracted from the usable storage volume. For the Ridgecrest tank, there are customers with less than 20 psi of pressure under normal conditions. For this reason, customers (13 total) adjacent to the Ridgecrest tank with less than 35 psi when the tank level is at the pump setpoint (35 feet of water in the tank) under normal and peak hour conditions are not included in determining the usable water storage volume. A primary recommendation to the Town (discussed later) is to provide a booster pump system to increase the pressure to these customers. The water storage analysis herein assumes that the booster system has been provided. Excluding these customers, at least 20 psi of pressure is provided to all other GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 128 pp ! ��fluVflll IIIIIIIIIIV�I IIWUM�' customers when the water level is 1 foot above the bottom of the tank, meaning the usable water storage volume in the Ridgecrest tank is the water above 1 foot from the bottom of the tank. Table 6-3 summarizes the water storage required for each pressure zone, based on water and fire demands and providing three days of storage. The table also shows the usable water storage available in the existing tanks. Table 6-3 Southill Required WatertExisting Demands %��;,,/r;;; ; >rrrrrrrrrrrrr„rrrrrrrrrrrrrr„rrrrrrrrrrrrrr„rrrrrrrrrrrrrr„rrrrrrrrrrrrrr„rrrrrrrrrrrrrr„rrrrrrrrrrrrr;,;r rrrrrrra:. / ; ;,,,,, rrrrrrrrrrrrrrrrrrrrrrrrrrrrrr;;;; ///%%/,✓i�/o//////%,,,,,; %%/////iii” /% � ...... a;, rni rrrrrrrrrrrrr��rrrrrrrrrrrrrr��rrrrrrrrrrrrrr��rrrrrrrrrrrrrr��rrrrrrrrrrrrrr��rrrrrrrrrrrrrr��rrrrrrrrrrrrr;�;r (1) Fire Flow - 1,500 gpm for 2 hours. (2) Coddington Road Pump Station -592 gpm for 2 hours, based on model with both pumps on. (3) Volume of water necessary to fill the Bostwick Road tank from the low level setpoint to the high level setpoint. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 129 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' (4) PRV flows estimated in model. (5) Under average daily demand conditions, not including Ithaca College demand. (6) Storage available with 1 foot of water remaining in the Northview and Danby tanks. (7) Troy Road Pump Station -443 gpm for 2 hours, based on model with one pump on. (8) Storage available with 1 foot of water remaining in the Troy Road tank. (9) Storage available with 1 foot of water remaining in the Ridgecrest tanks. The existing Northview/Danby and Ridgecrest tanks provide enough storage to meet current water and fire demands with the PRV and pumps operational. The estimated water storage for the Northview/Danby and Ridgecrest tanks under these conditions is 152,600 and 155,400 gallons, respectively. The existing Troy Road tank does not provide sufficient storage to meet current water and fire demands with the pumps operational. The estimated water storage for the Troy Road tank under these conditions is 168,000 gallons and the usable storage available is 124,400 gallons. The Town also seeks to provide three days of storage in each tank under average daily demand conditions, in the event of a large power failure. During a power failure, the pumps and PRVs will not operate normally to fill the tanks. Having three days of storage provides the Town time to fill the tanks under emergency operations. The minimum water storage volume required for the Northview/Danby pressure zone to provide three days of storage is 390,000 gallons. The existing tanks provide a usable volume of 1,015,200 gallons; therefore, the Northview/Danby tanks have sufficient storage volume to meet the Town's desired storage capacity. The minimum water storage volume required for the Troy Road pressure zone to provide three days of storage is 81,300 gallons. The existing tank provides a usable volume of 124,400 gallons; therefore, the Troy Road tank has sufficient storage volume to meet the Town's desired storage capacity. The minimum water storage volume required for the Ridgecrest pressure zone to provide three days of storage is 403,200 gallons. The existing tank provides a usable volume of 489,200 gallons; therefore, the Ridgecrest tank has sufficient storage volume to meet the Town's desired storage capacity. The Town should consider providing additional storage for the Troy Road service area to meet current water and fire demands. Since pressures in the Troy Road service areas are adequate, the new storage can use the same elevations as the existing Troy Road tank. Section 8 provides an evaluation of the South Hill system under projected future water demands, and improvement alternatives are discussed in more detail in Section 9. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 130 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 7. System Analysis, West Hill Once the West Hill model was deemed to be calibrated, it was utilized to analyze the existing water system and identify areas of improvement. The calibrated model was used to analyze overall water system capacities and pressures, fire flow capacities, and suitability of the existing water storage tanks. The analysis for the West Hill water system is discussed in more detail below. 7.1 Capacityit i the ExistingSystem The model was used to simulate the existing water system under average daily, maximum day, and peak hour demand conditions. The water system was then evaluated based on system pressure and available fire flow for each of these demand conditions. The distribution system was evaluated against the following criteria: Pressure Evaluation Criteria • Minimum of 35 psi at all customer connections in the distribution system, under normal operating conditions. • Minimum of 20 psi at all points in the distribution system, under fire flow conditions. • Maximum of 100 psi at all points in the distribution system, or pressure reducing valves for any homes over 100 psi, under all operating conditions. • These pressures are in accordance with the Recommended Standards for Water Works (Ten-States Standards, 2012). Fire Flow Evaluation Criteria • Minimum fire flow of 500 gpm at all hydrants in accordance with ISO guidelines and Ten- States Standards. • Minimum fire flow of 1,500 gpm at all hydrants, as requested by the Town. As stated in Section 6, ISO provides a general guideline that all hydrants provide a minimum fire flow of 500 gpm; however, ISO is able to perform a more detailed evaluation of the distribution system to determine location-specific "needed fire flows"for individual hydrants. Often the ISO's location-specific needed fire flows are greater than 500 gpm. An ISO evaluation of the West Hill water system was not available at the time of this report. The evaluation of the existing system and improvement alternatives discussed in the next section will be based on the fire flow criteria listed above. It is recommended the Town request an ISO evaluation of the West Hill water system in order to obtain specific needed fire flow criteria for these areas. 7.1.1 Water Distribution System Pressures Tanks Draining(Pumps Off and Control Valves Closed) Based on the calibrated model, few areas of low pressure exist and are generally located in the vicinity of the tank in the Bostwick Road, West Hill, and Trumansburg Road pressure zones. These GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 131 amlP(11i1I11pF M.4II ��fluVflll IIIIIIIIIIV�I WUM�' three pressure zones each have areas with high pressures reaching over 100 psi. Figures 7-1, 7-2, and 7-3 show the existing pressures across the distribution system when all CV/PRVs are closed and pump stations are off under average daily, maximum day, and peak hour demand conditions, respectively. Based on this analysis, the following observations have been made: 1. The Bostwick Road service area has no customers with pressures below 35 psi under normal conditions. There are some pipes adjacent to the Bostwick Road tank with less than 35 psi of pressure, but these water mains do not serve any customers. 2. The Bostwick Road service area has several areas that exceed 100 psi, predominately located in the eastern portion of the service area. 3. There are six customers in the West Hill service area with pressures below 35 psi under normal conditions. In addition, the water main that serves the Ithaca Ecovillage has less than 35 psi of pressure but the Ecovillage is not included as one of the six customers stated above since the Ecovillage has its own pump station (not shown in model). 4. The West Hill service area has few areas that exceed 100 psi, predominately located in the southernmost portion of the service area. 5. There is one customer in the Trumansburg Road service area with pressure below 35 psi under normal conditions. 6. The Trumansburg Road service area has several areas that exceed 100 psi, predominately located in the northern and southern portions of the service area. 7. The distribution system pressures do not vary significantly from average daily demands up to peak hour demands. This suggests the water main capacity is not the limiting factor causing lower system pressures. The low system pressures are a result of the elevations of the existing tanks with respect to the customers they serve. Tanks Filling(Pumps On and Control Valves Open) Typically when pumps/control valves are on/open, the storage tanks are filling and system pressures are higher than when the pumps and control valves are off/closed. However, as discussed below, that is not always the case for the West Hill service area. The following observations have been made under average daily demand conditions with the smaller Stone Quarry control valve active (not closed), the larger Stone Quarry control valve closed, the Coy Glen Pump Station with one pump on, the larger Trumansburg control valve active (not closed), the smaller Trumansburg control valve closed, and the Woolf Lane Pump Station with one pump on: 1. The number of customers with pressures below 35 psi does not change in the Bostwick Road and Trumansburg Road service areas. 2. The number of customers with pressures below 35 psi increases from 6 customers to 11 customers in the West Hill service area. Under these conditions, there is approximately 580 gpm of flow out of the Coy Glen Pump Station and approximately 990 gpm of flow through the Trumansburg PRV. Based on this, flow out of the West Hill tank is greater than GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 132 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' flow into the West Hill tank, causing the water level in the tank to drop and the number of customers with less than 35 psi to increase. 3. When the Trumansburg CV/PRV is open, the high flow rate it draws decreases the pressures in the West Hill service area. Discussion Table 7-1 summarizes the maximum and minimum distribution system pressures observed in the model with CV/PRVs closed and pump stations off. Pressures are reported under their worst case demand conditions (i.e., minimum pressures under peak hour demand and maximum pressures under average demands). However, as noted above, the pressures do not vary significantly from average to peak demands. Maximum static pressures are also provided, since static conditions can be achieved at night when demands are at their minimum. Pressures exceeding 100 psi have been shown to result in a greater occurrence of breaks in water mains and residential water services. Pressures over 100 psi can also cause damage to water heaters and pipes in residences. The Town of Ithaca requires customers with high pressures to install PRVs on their water service connections in accordance with the Ten-States Standards. These individual PRVs can mitigate potential damage to the customer's water piping, but they do not reduce the risk of breaks in the water distribution mains serving these areas. In some cases, it is not feasible to reduce system pressures to below 100 psi, due the elevation change and layout of the distribution system. Where possible, it is recommended to reduce system pressures to below 100 psi. Table 7-1 West Hill Existing DistributionSystem ss (Model Estimate) /; % ,,> is /i ///// ��i////////////////////////,:: �� / A�� , �. / / iok/Mirir iii/, o ,mo /i� /i% //�� o d, „ . / i/ / /iiiiiiiiiiiiiiiiiiiiiiiiiii:a/��j /////////////////////////// 7.1.2 Available Fire Flow The model is able to separately estimate the available fire flow at each hydrant in the system. Available fire flows were estimated during the maximum day demand. The analysis does not model the duration of each fire flow with respect to distribution system capacity. The duration of available fire flow is impacted more by the volume of water storage than by pipe capacity. An analysis of the fire flow duration is discussed in greater detail in Section 7.2. The maximum available fire flows were estimated in the model based on maintaining a minimum pressure of 20 psi at all points in the distribution system, in accordance with Ten-States Standards. The available fire flows are also estimated with the Stone Quarry PRV/CV closed, the Coy Glen and GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 133 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' Woolf Lane Pump Stations off, and the Trumansburg control valve closed. Figure 7-4 provides a map of the distribution system hydrant, color coded based on their available fire flow. Table 7-2 is a summary of the available fire flows in these two service areas. Table 7-2 West Hill Fire Flow Analysis of ExistingSystem (Maximum y ) % %%////�////////// """""': [`3z/WMII�///////////////////////i[`3z %/% AF%/%��//r/ //� ............................. „ VE91,/ The majority of hydrants in the Bostwick Road, West Hill, and Trumansburg Road pressure zones do not provide fire flows greater than 1,500 gpm. Twenty-six percent of the hydrants in the Bostwick Road zone provide fire flows greater than 1,500 gpm; 6 percent of the West Hill hydrants provide more than 1,500 gpm, and no hydrants in the Trumansburg Road zone provide more than 1,500 gpm. Seven hydrants provide less than 500 gpm: one hydrant in the Bostwick Road pressure zone, four hydrants in the West Hill pressure zone, and two hydrants in the Trumansburg Road pressure zone. All hydrants that provide less than 500 gpm are located adjacent to the water storage tank in the pressure zone, where water pressure is low. Alternatives to increase the fire flow in the Bostwick Road, West Hill, and Trumansburg Road service are discussed in Section 10. Evaluation of the existing fire flows in this report is based on the criteria noted above. The report does not provide recommendations for what the minimum fire flows should be in the distribution system. It is common to reference the ISO's indication of needed fire flow rates as a baseline for comparing water system performance. ISO recommends needed fire flow rates based on building size, construction materials, and use in the area. For one- and two-family residences, ISO's needed fire flows are typically within a range of 500 to 1,500 gpm, but can be significantly higher for other building types and uses. As noted in Section 7.1, it is recommended the Town obtain an ISO evaluation of the Bostwick Road, West Hill, and Trumansburg Road zones for the purpose of comparing ISO's needed fire flows to existing fire flows. 7.2 EvaluationExisting t r Storage Water storage in the distribution system must meet two basic requirements: (1) provide adequate pressure to all water services; and (2) provide an adequate volume of water to meet worst case demands. The pressure requirements for the distribution system are defined in Section 7.1. These requirements dictate the minimum and maximum water elevations for the water storage. The volume of water storage necessary to meet Ten-States Standards is based on supplying fire flow and maximum day demands concurrently without interruption of supply to water services. The distribution system must meet these demands without dropping below 20 psi at any point in the system. The Town also desires to provide three days of water storage for all of their water storage GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 134 �fluVflll IIIIIIIIIIV�I IIWV�' tanks. These criteria were used to evaluate the existing water storage tanks in both pressure zones. The minimum required storage volume is equal to the higher value of either three days of storage or the volume needed to meet water and fire demands. The minimum storage volume for each tank to meet water and fire demands, as defined by Ten- States Standards, is calculated based on the combined fire flow and maximum day water system demands. For the Bostwick Road, West Hill, and Trumansburg Road pressure zones, this calculation will be based on the following assumptions: 1. The fire flow rate is equal to 1,500 gpm, as desired by the Town. 2. The duration of the fire flow is 2 hours (this is the duration selected by ISO for fire flow rates up to 2,500 gpm). 3. The water demand during a fire is at the maximum day rate (the analysis also assumes that one hour of the fire occurs during the peak hour demand of the maximum day). 4. When calculating the volume for Bostwick Road, we assume the smaller Stone Quarry CV/PRV is open for the entire duration of a fire, supplying water to the tank. It is assumed the smaller CV/PRV is open because the modeled pressure downstream of the CV/PRVs is not low enough to result in the opening of the larger Stone Quarry CV/PRV. Based on the SCADA data provided by Bolton Point, the large Stone Quarry CV/PRV never opened during the period of July, August, and September 2017. 5. When calculating the volume for the Bostwick Road tank, we assume the Coy Glen Pump Station is running one pump (pumping out of the Bostwick Road tank)for the entire duration of a fire. This is an added demand on the Bostwick Road tank. 6. When calculating the volume for West Hill, we assume the Coy Glen Pump Station is running one pump for the entire duration of a fire, supplying water to the tank. 7. When calculating the volume for West Hill, we assume the Trumansburg Road CV/PRV is open (drawing out of the West Hill tank)for the entire duration of a fire. This is an added demand on the Bostwick Road tank. 8. When calculating the volume for Trumansburg Road, we assume the Trumansburg Road CV/PRV is open for the entire duration of a fire, supplying water to the tank. 9. When calculating the volume for Trumansburg Road, we assume the Woolf Lane Pump Station is running one pump (pumping out of the Trumansburg Road tank)for the entire duration of a fire. This is an added demand on the Trumansburg Road tank. 10. The water storage tanks start at their maximum water level. Once the total required water storage volume is calculated, it must be compared to the actual usable volume in the existing water storage tanks. As noted above, the pressure in the distribution system must not drop below 20 psi during a fire. The usable water storage in a tank is based on providing this 20 psi minimum pressure to all customers. There is at least 20 psi of pressure provided to all customers when the water level is at the bottom of the Bostwick Road and West Hill tanks, and 12 feet above the bottom of the Trumansburg Road tank. For practicality, we have GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 135 ��fluVflll IIIIIIIIIIV�I IIWV��' calculated the usable water storage volume in the Bostwick Road and West Hill tanks as 1 foot above the bottom of the tank. Table 7-3 summarizes the water storage required for each pressure zone, based on water and fire demands and providing three days of storage. The table also shows the usable water storage available in the existing tanks. Table 7-3 West Hill Required WatertExisting Demands ,r rrr,/r , ,,;,,, ,rr ,/ .,/rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr, :r r r rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr, , rr„ ,r/////rrrr, rr .,rrrr///,,,,, rrrrrrrrr //rrrrr / ,/ rrrrrrrrrrrrrr////rrrrrrrrrrrrrrrrrrrrrrrrrrrr ,4 ,,,,,, ,,.;o, /rrrrrr�r r / r r," rrr rrrrr ,r r rrriiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiii, ,,,,,,,,..: ///c,„,,,•o riiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiii: %%//// /i,%/%//////!"'!i!i% r%/ii!/i///%/%/////%%//// ""!✓ ,,,,/,,,,"/// ,,,,,///%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%/ ///i/ifii//rrrr // /rrr / rrr/ /'� / /, /,,,,,,, ////// r" ,,,/ rrrrrrrrrrrrrr////rrrrrrrrrrrrrrrrrrrrrrrrrrrr ,rrrrrr„ r r <" ,/rrrrrr r rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr/rrrrrrrrrrrrrrrrrrrrrrrrrrrrrr ,,,,,,, r ,, ,r, rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr, ,rr aioi aaoiaa iiiaii , ///////..�. ,,,,,, rr,r„rr /rrrrrr rrr ,,r rrrrrrrrr ,rrrrr,/, /%”//iii////oi/////////i,"//, ,�!//%//%///%%///////�///%////////�,,,,,� %/ �%//%%/,„✓/,/%//i//„ ;. ,; """""" //////i/,///" /,/////,,,/�%%%%%%%%%%%%%%%%%%%%%%/, /rrr/ „rr/////r ////„ r „ / r �, ///r r, r�, rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr rrrrr„ r,rrr, r, (1) Fire Flow- 1,500 gpm for 2 hours. (2) PRV flows estimated in model. (3) Coy Glen Pump Station - 597 gpm for 2 hours, based on model with one pump on. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 136 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' (4) Under average daily demand conditions. (5) Storage available with 1 foot of water remaining in Bostwick Road tank. (6) Storage available with 1 foot of water remaining in West Hill tank. (7) Woolf Lane Pump Station —436 gpm for 2 hours, based on model with one pump on. (8) Storage available with 12 feet of water remaining in Trumansburg Road tank. The existing Bostwick Road tank does not provide enough storage to meet current water and fire demands with the pump and PRVs operational. The estimated water storage for the Bostwick Road tank under these conditions is 207,300 gallons. The usable storage available in the Bostwick Road tank is 190,400 gallons. The existing West Hill and Trumansburg Road tanks provide enough storage to meet current water and fire demands with the pump and PRV operational. The estimated water storage for the West Hill and Trumansburg Road tanks under these conditions is 239,300 and 145,300 gallons, respectively. The Town also seeks to provide three days of storage in each tank under average daily demand conditions, in the event of a large power failure. During a power failure, the pumps and PRV will not operate normally to fill the tanks. Having three days of storage provides the Town time to fill the tanks under emergency operations. The minimum water storage volume required for the Bostwick Road pressure zone to provide three days of storage is 168,000 gallons. The existing tank provides a usable volume of 190,400 gallons; therefore, the Bostwick Road tank has sufficient storage volume to meet the Town's desired storage capacity under existing demands. The minimum water storage volume required for the West Hill pressure zone to provide three days of storage is 197,400 gallons. The existing tank provides a usable volume of 958,500 gallons; therefore, the West Hill tank has sufficient storage volume to meet the Town's desired storage capacity. The minimum water storage volume required for the Trumansburg Road pressure zone to provide three days of storage is 421,200 gallons. The existing tank provides a usable volume of 381,900 gallons; therefore, the Trumansburg Road tank does not have sufficient storage volume to meet the Town's desired storage capacity. The Town should consider providing additional storage for the Bostwick Road service area to meet current water and fire demands and additional storage for the Trumansburg Road service area to meet the Town's desired storage capacity. Section 8 provides an evaluation of the West Hill system under projected future water demands, and improvement alternatives are discussed in more detail in Section 10. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 137 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 8. Future Demands The Town anticipates additional development in the South Hill and West Hill water systems. The additional water demands from these potential developments were estimated and added to the calibrated models. The models were then used to analyze overall water system capacity and pressures, fire flow capacity, and suitability of the existing water storage tanks under the future demand conditions. The anticipated developments, calculated additional water demands, and analysis of the water systems under these higher water demands are discussed in more detail below. Future demands were determined based on two sources of information: (1) current development proposals under review by the Town, and (2) using the Town's Comprehensive Plan. The Town's Comprehensive Plan was used to determine how much development could occur in the undeveloped portions of the water service areas. Tax parcel data was used to establish lands that are already developed (if a tax parcel exists, it was assumed the land was already developed). Undeveloped lands were then compared with the existing water storage tank elevations to determine whether the undeveloped areas could be served by the existing tanks (at a minimum pressure of 35 psi). There is an area of land in the western portion of the West Hill service area that was not included in this analysis because it is above the elevation that can be served by the West Hill tank.Any undeveloped land that could be served by the existing tanks was then matched with the future land use designations in the Comprehensive Plan to establish the type of development that could occur. The total acreage of undeveloped land for each land use was calculated and then matched with the average development densities identified in the Town's Comprehensive Plan. The majority of the undeveloped land is designated for residential use, so this analysis provided a quantity of potential new residences that could be developed in each service area. In locations where commercial development was identified, the Town provided quantities for potential new commercial developments. Once quantities of new residential and commercial development were established, additional water demands were determined (discussed below) and were input into the model for analysis. Figures 8-1 and 8-2 show the undeveloped lands included in this analysis. It should be noted that this analysis for the quantity of future development is conservative, as it assumes that all undeveloped lands will be developed at the average densities identified in the Comprehensive Plan. Actual future development may be less. Many pieces of water infrastructure remain in service for 25 to 50 years. Therefore, it is important for municipalities to consider and balance short-term and potential long-term needs when designing and constructing water infrastructure. The hydraulic analysis provided herein under these future conditions, combined with the analysis under existing conditions (discussed in Sections 6 and 7)allows the Town to compare a range of demand conditions when planning for capital improvements. 8.1 Futurer Demands, South Hill The following potential additional developments were identified: GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 138 �fluVflll IIIIIIIIIIV�I IIWV�' 1. Chain Works District (CWD). This is envisioned as a mixed used development area, including residential and office uses, in the Northview/Danby service zone. It is anticipated the development in this area will include 471 apartments and 1 office. 2. 58 residential homes in the Northview/Danby service zone. 3. 466 residential homes in the Troy Road service zone. 4. 2,193 residential homes in the Ridgecrest service zone. Water demands were assigned to the CWD based on information provided by the Town. For the apartments and office in the CWD, an average daily water usage of 220 gpd per dwelling and 1,600 gpd per office were used. The CWD demand data provided by the Town included a peaking factor of 8 on the average day demands of 220 gpd and 1,600 gpd. The peaking factor of 8 was not included in the CWD additional demand. For consistency, a peaking factor of 1.7 was used for additional maximum day demand, and a peaking factor of 3.4 (two times maximum day demand) was used for additional peaking hour demand (see Table 8-2). Water demands were assigned to residential homes based on the latest industry studies on water usage. For single-family residences, an average daily water usage of 180 gpd per dwelling was used. This is based on the results of the latest Water Research Foundation report on water usage in North America.2 The procedure used to extract this average daily water usage is discussed in the previous modeling report by GHD, "East Hill Water System Improvements,"dated February 2017. Since water usage can vary significantly with geography and climate, the average water usage for four utilities from the study, located in the Northeastern U.S., was considered (Philadelphia, PA; New Haven, CT; Waterloo, Ontario; and Peel, Ontario). To determine an average water usage for the South Hill water system, the daily household water usage for the four utilities, which equaled 179 gpd per household and was rounded to 180 gpd, was averaged. On a per capita basis, the average water usage for the entire study was 95 gpd per capita and the average for the four Northeastern utilities was 65 gpd per capita. Table 8-1 summarizes the water usage for each development. Table 8-1 Southill Additional FutureWater EMEMEMEMEMMEMMMM „' k�; a ,i, r . ,,,,,,,..: iii,,,,, :. l MP 11 ,, ,,00 1 2 Water Research Foundation, (2016). Residential End Uses of Water, Version 2. Denver: Water Research Foundation. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 139 amlP(11i1I11pF W.4II �"IfluVflll IIIIIIIIIIV�I WVv�' ®2 Water System Analysis, Futures Demands, South Hill The future additional demands were added to the model at their respective locations in the distribution system. The resulting total water demands for the North view/Da nby, Troy Road, and Ridgecrest service areas are presented in Table 8-2. The model was then used to simulate the water system under the future average daily, maximum day, and peak hour demand conditions. The water system was evaluated based on system pressure and available fire flow for each of these demand conditions. The same evaluation criteria discussed in Section 6 was used to evaluate the system under future demand conditions. Table 8-2 Southill Summary of Modeled Demands, FutureConditions „ ' drt ;> t t � �1 8.2.1 Water Distribution System Pressures, Future Demands In the Northview/Danby service area, the additional demands had a negligible impact on water system pressures during average day conditions. Under peak hour conditions, there were some reductions in system pressures, but they remained above 35 psi for all customers in this service area. In the Troy Road service area, the additional demands caused some reductions in system pressures under average day conditions, but pressures remained above 35 psi for all customers. Under peak hour conditions, there were some additional reductions in system pressures in this service area. Pressures reduced below 35 psi for four customers. In the Ridgecrest service area, the additional demands caused some reductions in system pressure under average day conditions, but the number of customers with less than 35 psi of pressure did not increase. As discussed in Section 6.1.1, there are five customers in the Ridgecrest service area with pressures below 20 psi and seven customers with pressures below 35 psi under existing average day demands. Under peak hour conditions, there were additional reductions in system pressures in this service area. Pressures reduced below 35 psi for over 56 customers under future peak hour conditions in addition to the customers with pressures below 35 psi under existing demand conditions. Table 8-3 provides a summary of the system pressures under future demands. Figures 8-1 and 8-2 show the pressures across the distribution system under future average daily and future peak hour demand conditions, respectively. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 140 amlP(11i1I11pF W.4II ��fluVflll IIIIIIIIIIV�I WUM�' Table 8-3 South Hill Distribution System Pressures, Future Demands (Model Estimate) M=ffi=M=1= 8.2.2 Available Fire Flow, Future Demands Similar to the analysis performed on the existing water system, the maximum available fire flows under future demands were estimated in the model based on maintaining a minimum pressure of 20 psi at all points in the distribution system. Figure 8-3 provides a map of the distribution system hydrants, color coded based on their available fire flow. Table 8-6 is a summary of the available fire flows in the Northview/Danby, Troy Road, and Ridgecrest service areas. Table 8-4 Southill Fire Flow Analysis (Future xi y s) �iiiiiiiiiiiiii/ii / /iiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiii iiiiiiii �� ,„ /iii of/iii:�� d /,. i„is ,,,,,,,, ,,,,,,,. Under future demand conditions, there is not a significant drop in available fire flows in the Northview/Danby service area. The number of hydrants in the Northview/Danby pressure zone that provide fire flows less than 500 gpm and the number of hydrants that provide fire flows greater than 1,500 gpm under future demand conditions are the same as existing demand conditions. There is a drop in available fire flows in the southwestern portion of the Troy Road service area under future demand conditions. Similar to existing demand conditions, there are no hydrants in the Troy Road pressure zone that provide fire flows greater than 1,500 gpm under future demand conditions. There are 16 additional hydrants, located in the southern portion of the Troy Road pressure zone that provide less than 500 gpm of fire flow under future demand conditions. Under future demand conditions, there is a slight drop in available fire flows throughout the Ridgecrest service area. Similar to existing demand conditions, there are no hydrants in the Ridgecrest pressure zone that provide fire flows greater than 1,500 gpm under future demand conditions. There is one additional hydrant located in the southeastern portion of the Ridgecrest pressure zone that provides less than 500 gpm of fire flow under future demand conditions. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 141 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 8.2.3 Evaluation of Existing Water Storage The minimum required water storage for the Northview/Danby, Troy Road, and Ridgecrest service area was calculated using the future water demands and the same criteria discussed in Section 6. Table 8-5 summarizes the water storage required for each pressure zone, based on water and fire demands and providing three days of storage. The table also shows the usable water storage available in the existing tanks. The existing Northview/Danby and Ridgecrest tanks provide enough storage to meet future water and fire demands with the PRV and pumps operational. The estimated water storage for the Northview/Danby and Ridgecrest tanks under these conditions is 167,600 and 238,100 gallons, respectively. The existing Troy Road tank does not provide enough storage to meet future water and fire demands with the pumps operational. The estimated water storage for the Troy Road tank under these conditions is 186,700 gallons and the usable storage available is 124,400 gallons. As stated previously, the Town also seeks to provide three days of storage in each tank under average daily demand conditions. The minimum water storage volume required for the Northview/Danby pressure zone to provide three days of storage under future average day demand conditions is 737,000 gallons. The existing tanks provide a usable volume of 1,015,200 gallons; therefore, the Northview/Danby tanks have sufficient storage volume to meet the Town's desired storage capacity. The minimum water storage volume required for the Troy Road pressure zone to provide three days of storage under future average day demand conditions is 332,900 gallons. The existing tank provides a usable volume of 124,400 gallons; therefore, the Troy Road tank does not have sufficient storage volume to meet the Town's desired storage capacity. The minimum water storage volume required for the Ridgecrest pressure zone to provide three days of storage under future average day demand conditions is 1,587,400 gallons. The existing tank provides a usable volume of 489,200 gallons; therefore, the Ridgecrest tank does not have sufficient storage volume to meet the Town's desired storage capacity. In summary, additional storage is needed to meet future water and fire demands in the Troy Road service area and to meet the Town's desired storage capacity in the Troy Road and Ridgecrest service areas. Improvement alternatives are discussed in more detail in Section 9. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 142 Table 8-5 South Hill Required Water Storage Volume, Future Demands ""AM .......................... M/a/m/a/m/a/m/a/ ............... ............ (1) Fire Flow- 1,500 gpm for 2 hours. (2) Coddington Road Pump Station - 595 gpm for 2 hours, based on model with both pumps on. (3) Volume of water necessary to fill the Bostwick Road tank from the low level setpoint to the high level setpoint. (4) PRV flows estimated in model. (5) Under future average daily demand conditions, not including Ithaca College demand. (6) Storage available with 1 foot of water remaining in the Northview and Danby tanks. (7) Troy Road Pump Station -453 gpm for 2 hours, based on model with one pump on. (8) Storage available with 1 foot of water remaining in the Troy Road tank. (9) Storage available with 1 foot of water remaining in the Ridgecrest tanks. GHID I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 143 amlP(11i1I11pP W.4II ��fluVflll IIIIIIIIIIV�I WUM�' 8.2.4 Summary of Findings Table 8-6 provides a summary of the critical water system goals that were met for the existing Northview/Danby, Troy Road, and Ridgecrest water systems under existing and future demands. Section 9 discusses improvement alternatives to meet the needs of the existing and future water demands in the South Hill water system. Table 8-6 Southill Summary of Findings, Goals Met by Existing WaterSystem ;< �j r AW/AN (1) There are more than four customers with less than 35 psi of water pressure. (2) There are five customers with less than 20 psi of water pressure and eight customers with less than 35 psi of water pressure. (3) There are 7 customers with less than 20 psi of water pressure and more than 62 customers with less than 35 psi of water pressure. (4) Calculated while maintaining a minimum pressure of 20 psi at all points in the distribution system in accordance with Ten-States Standards. 8.3 Futurer Demands, West Hill The Town identified the following locations where additional development could occur: 1. Inlet Valley Corridor (IVC). Envisioned as a mixed-use development area in the Bostwick service zone, including a hotel, office, recreational, and retail uses. It is anticipated the near- term commercial development in this area will include 70 hotel rooms and approximately 10 mixed-use units (office, recreational, and retail). 2. 645 residential homes in the Bostwick Road service zone. 3. 1,906 residential homes in the West Hill service zone. 4. 68 senior housing units in Cayuga Meadows in the West Hill service zone. 5. 353 residential homes in the Trumansburg Road service zone. 6. 105 townhomes in the Trumansburg Road service zone (241 beds). GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 144 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' Water demands of 31 gpd per room were assigned to the hotel rooms in the IVC based on the average daily demand of the Rodeway Inn &Suites located on Elmira Road in the Bostwick Road service zone. Water demands were assigned to the IVC mixed-use units based on recommendations of the Inlet Valley Ithaca Plan provided by the Town. An average daily water usage of 830 gpd per unit was used for the mixed-use units in the IVC. Table 8-7 presents the information provided by the Town and how the average daily water usage for the mixed-use units in the IVC was determined. Table 8-7 West Hill Inlet Valley Mixed-Use UnitMixed-Us Demand Summary rrr��rr rrr��rr rrr��rr rrr��rr r ;��a� ��'�r�rrr,�� ,,,rrrr, ��`�� ;�; ;,rrrrrrrrrrrrrrrrrrrrr;;;;rrrrrrrrrrrrrrrrrrrrrrrrrrrr;;;;rrrrrrrrrrrrrrrrrrrrrrrrrrrr;;;;rrrrrrrrrrrrrrrrrrrrrrrrrrrr;;;;rrrrrr, (1) Information provided by the Town. (2) Average day demand estimated by GHD using demand data provided by the Town, unless otherwise noted. (3) Estimated 55 gpd per campsite per the requirements of NYSDOH Part 7, Subpart 7-3 Campground, 7-3.13(e)(1). (4) Estimate 11 gpd per employee3 (5) In order to estimate average demand, Six Mile Creek Vineyard's demand was rounded to 500 gpd and used once. As discussed in Section 8.1, an average daily water usage of 180 gpd per dwelling was assigned to residential homes. Water demands of 165 gpd per dwelling were assigned to the Cayuga Meadows senior housing units based on the average day demand provided in the developer's Department of Health application for the apartments. Water demands were assigned to the townhomes based on 3 Tchobanoglous, G., & Burton, F. L. (1991). Wastewater Engineering, Treatment, Disposal, and Reuse(Third ed.). McGraw-Hill. Metcalf& Eddy. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 145 amlP(11iSII1NIIW.4 ��fluVflll IIIIIIIIIIV�I WUM�' the number of beds. It is anticipated the townhomes will include 9, 1-bedroom apartments, 56, 2-bedroom apartments, and 40, 3-bedroom apartments. A demand value of 75 gpd per bed was assigned to the townhomes. Table 8-8 summarizes the water usage for each development. Table 8-8 West Hill Additional FutureWater ;;,,, /i, ,,,,,, /,, / /;;,,,/i�//aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaai �%%%%%%%///i 8.4 Water System Analysis, Future Demands, West Hill The future additional demands were added to the model at their respective locations in the distribution system. The resulting total water demands for the Bostwick Road, West Hill, and Trumansburg Road service areas are presented in Table 8-9. The model was then used to simulate the water system under future average daily, maximum day, and peak hour demand conditions. The water system was evaluated based on system pressure and available fire flow for each of these demand conditions. The same evaluation criteria discussed in Section 7 was used to evaluate the system under future demand conditions. Table 8-9 West Hill Summary of Modeled Demands, Future Conditions GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 146 amlP(11i1I11pF W.4II ��fluVflll IIIIIIIIIIV�I WUM�' 8.4.1 Water Distribution System Pressures, Future Demands In the Bostwick Road service area, the additional demands had negligible impact on water system pressures during average day conditions. Under peak hour conditions, there were some reductions in system pressures, but the pressures remained above 35 psi for all customers in the Bostwick Road service area. In the West Hill service area, the additional demands resulted in some reductions in system pressures under average day conditions and peak hour conditions. As discussed in Section 7.1.1, there are six customers in the West Hill service area with pressures below 35 psi under existing average day and peak hour demands. Pressures reduced below 35 psi for over 12 customers under future peak hour conditions in addition to the customers with pressures below 35 psi under existing demand conditions. In the Trumansburg Road service area, the additional demands had negligible impact on water system pressures during average day conditions. Under peak hour conditions, there were some reductions in system pressures, but the number of customers with less than 35 psi of pressure did not increase. As discussed in Section 7.1.1, there is one customer in the Trumansburg service area with pressure below 35 psi under existing average day and peak hour demands. Table 8-10 provides a summary of the system pressures under future demands. Figures 8-4 and 8-5 show the pressures across the distribution system under future average daily and future peak hour demand conditions, respectively. Table 8-10 West Hill Distribution SystemssFuture Demands (Model Estimate) mmommifflEl= ;,,,iiiiiii o�iii/iiiiiii /ii �� o/i iiiiiiii �� /�� /iiiiiiiiiiiiiiiiiiiiiiiiiiiiii /��i I:I ��j /////////////////////////////i �� ////////////////////////i /iiiiii „ ,,,,,,,;, // �i �/ ////////////////////„�� iii 8.4.2 Available Fire Flow, Future Demands Similar to the analysis performed on the existing water system, maximum available fire flows under future demands were estimated in the model based on maintaining a minimum pressure of 20 psi at all points in the distribution system. Figure 8-6 provides a map of the distribution system hydrants, color coded based on their available fire flow. Table 8-11 is a summary of the available fire flows in the Bostwick Road, West Hill, and Trumansburg Road service areas. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 147 ��fluVflll IIIIIIIIIIV�I IIWV��' Table 8-11 West Hill Fire Flow Analysis (Future Maximum Day Demands) Under future demand conditions, there is a drop in available fire flows in the southwestern portion of the Bostwick Road service area. The number of hydrants in the Bostwick Road service area that provide fire flows less than 500 gpm is the same under future demand conditions as existing demand conditions. The number of hydrants that provide fire flows greater than 1,500 gpm decreased from 22 hydrants under existing maximum day demand conditions to 9 hydrants under future maximum day demand conditions. There is a drop in available fire flows throughout the West Hill service area under future demand conditions. The number of hydrants in the West Hill service area that provide fire flows less than 500 gpm is the same under future demand conditions as existing demand conditions. The number of hydrants that provide fire flows greater than 1,500 gpm decreased from five hydrants under existing maximum day demand conditions to no hydrants under future maximum day demand conditions. Under future demand conditions, there is a slight drop in available fire flows in the Trumansburg Road service area. The number of hydrants in the Trumansburg Road pressure zone that provide fire flows less than 500 gpm and the number of hydrants that provide fire flows greater than 1,500 gpm under future demand conditions are the same as existing demand conditions. 8.4.3 Evaluation of Existing Water Storage The minimum required water storage for the Bostwick Road, West Hill, and Trumansburg Road service areas was calculated using the future water demands and the same criteria discussed in Section 7. Table 8-12 summarizes the water storage required for each pressure zone, based on water and fire demands and providing three days of storage. The table also shows the usable water storage available in the existing tanks. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 148 �fluVflll IIIIIIIIIIV�I IIWV�' Table 8-12 West Hill Required Water Storage Volume, Future Demands /,%✓!!//,,,,iii,,/%//ii ;,/%/%/%//„i%,,,,////% %////��%ii0/i s; %/ // ,;;; -; /iiiiiii ,,,,,, ,,,,,,, ,, paaaaaaaaaaaaaaaaaaaaaaiaaaaaaaaaaaaa ;,,,,,,, ;;; �E (1) Fire Flow- 1,500 gpm for 2 hours. (2) PRV flows estimated in model. (3) Coy Glen Pump Station - 583 gpm for 2 hours, based on model with one pump on. (4) Under average daily demand conditions. (5) Storage available with 1 foot of water remaining in Bostwick Road tank. (6) Storage available with 1 foot of water remaining in West Hill tank. (7) Woolf Lane Pump Station —434 gpm for 2 hours, based on model with one pump on. (8) Storage available with 12 feet of water remaining in Trumansburg Road tank. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 149 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' The existing Bostwick Road tank does not provide enough storage to meet current water and fire demands with the pump and PRVs operational. Estimated water storage for the Bostwick Road tank under these conditions is 253,500 gallons. The usable storage available in the tank is 190,400 gallons. The existing West Hill and Trumansburg Road tanks provide enough storage to meet current water and fire demands with the pump and PRV operational. The estimated water storage for the West Hill and Trumansburg Road tanks under these conditions is 302,000 gallons and 176,700 gallons, respectively. As stated previously, the Town also seeks to provide three days of storage in each tank under average daily demand conditions. The minimum water storage volume required for the Bostwick Road pressure zone to provide three days of storage is 547,700 gallons. The existing tank provides a usable volume of 190,400 gallons; therefore, the Bostwick Road tank does not have sufficient storage volume to meet the Town's desired storage capacity under existing demands. The minimum water storage volume required for the West Hill pressure zone to provide three days of storage is 1,260,300 gallons. The existing tank provides a usable volume of 958,500 gallons; therefore, the West Hill tank does not have sufficient storage volume to meet the Town's desired storage capacity. The minimum water storage volume required for the Trumansburg Road pressure zone to provide three days of storage is 666,000 gallons. The existing tank provides a usable volume of 381,900 gallons; therefore, the Trumansburg Road tank does not have sufficient storage volume to meet the Town's desired storage capacity. Additional storage is needed to meet future water and fire demands in the Bostwick Road and West Hill service areas and to meet the Town's desired storage capacity in the Bostwick Road, West Hill, and Trumansburg Road service areas. Improvement alternatives are discussed in more detail in Section 10. 8.4.4 Summary of Findings Table 8-13 provides a summary of which critical water system goals were met for the existing Bostwick Road, West Hill, and Trumansburg Road water systems under existing and future demands. Section 10 discusses improvement alternatives to meet the needs of the existing and future water demands in the West Hill water system. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 150 amlP(11iSII1NIIW.4 ��fluVflll IIIIIIIIIIV�I WUM�' Table 3-13 West Hill Summary of Findings, (coals Met by Existing Water System j��jji �j�j ------ (1) There are six customers with less than 35 psi of water pressure. (2) There are more than 12 customers with less than 35 psi of water pressure. (3) There is one customer with less than 35 psi of water pressure. (4) Calculated while maintaining a minimum pressure of 20 psi at all points in the distribution system in accordance with Ten-States Standards. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 151 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 9. Improvement Alternatives, South Hill Capital improvements were identified based on analysis results of the existing system and the future system. Based on existing and future conditions in the system, improvements are suggested to ensure the following goals are met: 1. Provide a minimum pressure of 35 psi to customers in the Ridgecrest pressure zone under existing and future demands and to customers in the Troy Road pressure zone under future demands. 2. Provide a minimum available fire flow of 500 gpm for the Northview/Danby, Troy Road, and Ridgecrest pressure zones under existing and future demands. 3. Increase available fire flow to the minimum recommended 1,500 gpm for the maximum practical number of Town hydrants in the Northview/Danby, Troy Road, and Ridgecrest pressure zones under existing and future demands. 4. Increase the usable water storage in the Troy Road pressure zone to meet the minimum storage requirements under existing and future conditions and in the Ridgecrest pressure zone to meet the minimum storage requirements under future conditions. As noted in Section 8, the future demands used for this analysis are conservative. Improvement recommendations have been provided to meet the Town's water system goals under these conservative future demand conditions. When planning capital improvements for future demands, the Town should consider the amount of development actually anticipated over a time horizon that is appropriate for the infrastructure under consideration. Improvements were added to the water system model and their effects on the distribution system were evaluated and are discussed in the following sections. Improvement alternatives are prioritized based on the magnitude of their impact to the distribution system and meeting Department of Health requirements. Improvements are assigned a high, medium, or low priority. High priority improvements are required to meet minimum Department of Health standards or result in widespread improvements under existing conditions; medium priority improvements result in moderate improvements under existing conditions; and low priority improvements result in localized improvements or are improvements that are based on future demand. 9.1 Northview/DanbyPressure Under existing and future conditions, the Northview/Danby zone is able to meet minimum pressure requirements of 35 psi to all customers. Twenty-two hydrants provide more than 1,500 gpm of fire flow and 18 hydrants provide less than 1,500 gpm of fire flow, 2 of which provide less than 500 gpm. These two hydrants are located adjacent to the water storage tanks. 9.1.1 Northview/Danby Fire Flow Improvements (Existing Conditions) Fire flow is limited in the Northview/Danby pressure zone due to the size of the existing water mains. To improve fire flows in this pressure zone, Improvement Nos. 1 and 2 are presented for the GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 152 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' Town's consideration. In addition, the Town should consider removing the unused altitude valve on the water main from the Northview water storage tank. The locations of Improvement Nos. 1 and 2 are shown on Figure 9-1. Figure 9-2 presents the fire flow under existing conditions resulting from Improvement Nos. 1 and 2. As shown in Figure 9-2, Improvement Nos. 1 and 2 result in three hydrants providing less than 1,500 gpm of fire flow, one hydrant providing less than 1,000 gpm of fire flow, and no hydrants providing less than 500 gpm of fire flow. It is not practical for these four hydrants to provide more than 1,500 gpm of fire flow, and hydrants adjacent to these four hydrants provide sufficient fire flow. Improvement No. 1 This improvement includes switching the water mains on Northview Road from the Northview/ Danby pressure zone to the Troy Road pressure zone. This would be done by disconnecting the water main on Northview Road from the water main in the Northview/Danby pressure zone on Coddington Road, and installing a new 8-inch diameter water main (approximately 100 linear feet of pipe)to connect the water main on Northview Road to the water main in the Troy Road pressure zone on Coddington Road. This results in fire flow improvements along Northview Road. Since the impacts of this improvement are more localized than widespread, it is a medium priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. Improvement No. 2 This improvement consists of replacing the existing 6-inch water main in the Pennsylvania Avenue and Kendall Avenue neighborhoods with an 8-inch diameter water main (approximately 6,100 linear feet of pipe), which will result in fire flow improvements along Pennsylvania Avenue and Kendall Avenue. Since the impacts of this improvement are more localized than widespread, it is a medium priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. 9.1.2 Northview/Danby Improvements (Future Conditions) Under future conditions, with Improvement Nos. 1 and 2, there are three hydrants providing less than 1,500 gpm of fire flow, one hydrant providing less than 1,000 gpm of fire flow, and no hydrants providing less than 500 gpm of fire flow. Similar to existing conditions, it is not practical for these hydrants to provide more than 1,500 gpm of fire flow. For these reasons, no additional improvements are recommended for future conditions. Figure 9-3 presents the fire flows under future conditions resulting from Improvement Nos. 1 and 2. 9.2 TroyPressure Under existing conditions, the Troy Road zone is able to meet minimum pressure requirements of 35 psi to all customers. All hydrants provide less than 1,500 gpm of fire flow and six hydrants GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 153 P,�aamlP(11iSII�1N M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' provide less than 500 gpm of fire flow. The usable volume in the Troy Road water storage tank is sufficient to provide three days of storage under average daily demand conditions; however, it is not sufficient to meet current water and fire demands. The estimated volume to meet current water and fire demands for the Troy Road tank is 184,100 gallons and the usable volume available is 124,400 gallons. Under future conditions, there are more than four customers with less than 35 psi of pressure. All hydrants provide less than 1,500 gpm of fire flow and 22 hydrants provide less than 500 gpm of fire flow. The usable volume available in the Troy Road water storage tank is 124,400 gallons and is not sufficient to provide three days of storage under future average daily demand conditions or to meet future water and fire demands. The estimated volume to provide three days of storage under future average daily demand conditions and to meet future current water and fire demands is 332,900 and 206,900 gallons, respectively. 9.2.1 Troy Road Improvements (Existing Conditions) Fire Flow Improvements Fire flow is limited throughout the Troy Road pressure zone for the following reasons: 1. The existing water main from the Troy Road water storage tank is 8 inches in diameter. 2. The elevation of hydrants on Southwoods Drive, Eldridge Circle, and Old Gorge Road in relation to the elevation of the Troy Road water storage tank. Water pressures in this area are just above 35 psi of pressure and fire flows elsewhere in the Troy Road pressure zone cause these pressures to drop lower. The following is offered for the Town's consideration for improving fire flows throughout the Troy Road pressure zone. Figure 9-4 presents the locations of Improvement Nos. 1, 2A, and 2B. Figure 9-5 presents the fire flows under existing conditions resulting from Improvement Nos. 1 and 2A. Figure 9-6 presents the fire flows under existing conditions resulting from Improvement Nos. 1 and 2B. As shown in Figure 9-5, Improvement Nos. 1 and 2A result in two hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. As shown in Figure 9-6, Improvement Nos. 1 and 2B result in six hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. It is not practical for the hydrants noted above to provide more than 1,500 gpm of fire flow under these improvement alternatives. Improvement No. 1 This improvement includes switching the water mains on Southwoods Drive, Eldridge Circle, and Old Gorge Road from the Troy Road pressure zone to the Ridgecrest pressure zone since this neighborhood is the first to drop to an available pressure of 20 psi when there are fire flows in other parts of the Troy Road zone. This would be done by installing a new 8-inch diameter water main (approximately 1,800 linear feet of pipe)on East King Road between Southwoods Drive and Troy Road. Supplying this neighborhood from the Ridgecrest tank elevation would result in water pressures of over 150 psi along Southwoods Drive, Eldridge Circle, and Old GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 154 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' Gorge. This improvement subsequently includes installing a new PRV along the new 8-inch diameter water main. A PRV with a 60 psi setpoint would reduce water pressures in the neighborhood to below 100 psi of pressure. Fire flow and pressure improve along Southwoods Drive, Eldridge Circle, Old Gorge Road and along the south end of Coddington Road with this option. Since the existing fire flow is less than 500 gpm of fire flow, some customers in this neighborhood have low pressures (just above 35 psi of pressure), limiting fire flow in the rest of the zone and making it a high priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. Improvement No. 2A This improvement includes replacing the existing 8-inch diameter water main between the Troy Road water storage tank and Troy Road and the existing 8-inch diameter water main along Troy Road between the water main from the water storage tank and Coddington Road with a 12-inch diameter water main (approximately 5,000 linear feet of pipe). Increasing the size of these water mains results in widespread fire flow improvements in the Troy Road pressure zone. For this reason, it is a high priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. Improvement No. 2 This improvement includes replacing the existing 8-inch diameter water main between the Troy Road water storage tank and Troy Road with a 12-inch diameter water main (approximately 2,000 linear feet of pipe)and installing a PRV along the existing 8-inch diameter water main on East King Road between Southwoods Drive and Coddington Road. This is a modification and expansion of Improvement No. 1. This option results in widespread fire flow improvements in the Troy Road pressure zone and is a high priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. Water Storage Improvements The existing Troy Road water storage tank does not have sufficient storage to meet current water and fire demands. The estimated volume to meet current water and fire demands is 184,100 gallons and the usable volume available is 124,400 gallons. Improvement No. 3 for increasing water storage in the Troy Road pressure zone is presented below for the Town's consideration. Improvement No. 3 This improvement includes installing a manual PRV in the Troy Road Pump Station. Since the Ridgecrest pressure zone has surplus storage, the manual PRV would be utilized to backfeed GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 155 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' water from the Ridgecrest pressure zone to the Troy Road pressure zone when necessary. This improvement would provide the Troy Road service area with sufficient storage to meet the current water and fire demands as defined by the Ten-States Standards. For this reason, it is a high priority improvement. The location of Improvement No. 3 is shown on Figure 9-4. An opinion of probable cost is presented in Table 9-1. A detailed breakdown of costs is provided in Appendix A. 9.2.2 Troy Road Improvements (Future Conditions) Fire Flow Improvements Under future conditions with Improvement Nos. 1 and 2A, there are four hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. Under future conditions with Improvement Nos. 1 and 2B, there are six hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. Similar to existing conditions, it is not practical for the hydrants noted above to provide more than 1,500 gpm of fire flow. For these reasons, no additional improvements are recommended for future conditions. Figure 9-7 presents the fire flows under future conditions resulting from Improvement Nos. 1 and 2A, and Figure 9-8 presents the fire flows under future conditions resulting from Improvement Nos. 1 and 2B. Pressure Improvements Under future peak hour demand with Improvement Nos. 1 and 2A and Improvement Nos. 1 and 2B, there are no customers in the Troy Road service area with less than 35 psi of pressure. For this reason, no additional improvements are recommended for future conditions. Figure 9-9 presents water system pressures under future peak hour demand conditions resulting from Improvement Nos. 1 and 2A, and Figure 9-10 presents water system pressures under future peak hour demand conditions resulting from Improvement Nos. 1 and 2B. Water Storage Improvements If all of the development discussed in Section 8 were to occur, the usable volume in the Troy Road water storage tank would not be sufficient to provide three days of storage under future average daily demand conditions or to meet future water and fire demands. The estimated volume to provide three days of storage under future average daily demand conditions and to meet future water and fire demands is 332,900 and 206,900 gallons, respectively. The usable volume available in the Troy Road tank is 124,400 gallons. Since pressures under existing conditions in the Troy Road service area are adequate, new storage for the area can use the same elevations as the existing Troy Road tank. If all future development described in Section 8 were constructed in the Troy Road zone, an additional 209,000 gallons of water storage would be required. However, the Town should select a storage volume that is based on the actual amount of development anticipated. Alternatives for increasing water storage in the Troy Road pressure zone are presented below for the Town's consideration and are based on the development discussed in Section 8. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 156 amlP(11i1I11pF W.4II ��fluVflll IIIIIIIIIIV�I WUM�' Improvement No. 4A This improvement includes installing a new water storage tank adjacent to the existing Troy Road water storage tank. The new tank would need to meet the following criteria: • Minimum water level under normal conditions - 1,912.50 feet • Minimum usable water storage above elevation 1,913.50 feet-209,000 gallons • Overflow elevation -As needed to meet the above two criteria This improvement would provide the Troy Road service area with sufficient storage to meet future water and fire demands as defined by the Ten-States Standards. It is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. Improvement No. 4 This improvement includes replacing the existing Troy Road water storage tank. The new water storage tank would need to meet the following criteria: • Minimum water level under normal conditions - 1,912.50 feet • Minimum usable water storage above elevation 1,913.50 feet-333,000 gallons This improvement would provide the Troy Road service area with sufficient storage to meet future water and fire demands and to provide three days of storage under future average daily demand conditions. It is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. 9.3 RidgecrestPressure Under existing peak hour conditions, there are five customers with less than 20 psi of pressure and eight customers with less than 35 psi of pressure, all located adjacent to the Ridgecrest water storage tank. All hydrants provide less than 1,500 gpm of fire flow and four hydrants provide less than 500 gpm of fire flow. The four hydrants are located adjacent to the water storage tank. The usable volume in the Ridgecrest water storage tank (excluding customers adjacent to the water storage tank) is sufficient to provide three days of storage under existing average daily demand conditions and to meet current water and fire demands. Under future conditions, there are 7 customers with less than 20 psi and more than 62 customers with less than 35 psi. All hydrants provide less than 1,500 gpm of fire flow and five hydrants provide less than 500 gpm of fire flow. Four of the hydrants are located adjacent to the water storage tank and one hydrant is located at a dead end on Chase Lane. The usable volume in the Ridgecrest water storage tank (excluding customers adjacent to the water storage tank) is sufficient to meet future water and fire demands but is not sufficient to provide three days of storage under future average daily demand conditions. The estimate volume to provide three days of storage under GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 157 P,�aamlP(11iSII�1N M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' future average daily demand conditions is 1,587,400 gallons and the usable volume available in the Ridgecrest water storage tank is 489,200 gallons. 9.3.1 Ridgecrest Improvements (Existing Conditions) Fire Flow Improvements Fire flow is limited throughout the Ridgecrest pressure zone due to water main size and the elevation of hydrants with respect to the Ridgecrest water storage tank. The following is offered for the Town's consideration for improving fire flow throughout the Ridgecrest pressure zone. Figure 9-11 presents the locations of Improvement Nos. 1A, 1 B, 2, 3, 4A, and 4B. Figures 9-12 through 9-15 present the fire flows under existing conditions resulting from the following Improvements: • Figure 9-12: Improvement Nos. 1A, 2, 3, and 4A • Figure 9-13: Improvement Nos. 1A, 2, 3, and 4B • Figure 9-14: Improvement Nos. 1 B, 2, 3, and 4A • Figure 9-15: Improvement Nos. 1 B, 2, 3, and 4B The four hydrants with less than 500 gpm adjacent to the Ridgecrest water storage tank are excluded from the fire flow analysis in Figures 9-12 through 9-15. Since there is less than 20 psi at these hydrant locations, it is assumed the customers near these hydrants will be removed from the pressure zone and connected to a separate booster pump. As shown in Figure 9-12, Improvement Nos. 1A, 2, 3, and 4A result in six hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. As shown in Figure 9-13, Improvement Nos. 1A, 2, 3, and 4B result in six hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. As shown in Figure 9-14, Improvement Nos. 1 B, 2, 3, and 4A result in three hydrants providing less than 1,500 gpm of fire flow, one hydrant providing less than 1,000 gpm of fire flow, and no hydrants providing less than 500 gpm of fire flow.As shown in Figure 9-15, Improvement Nos. 1 B, 2, 3, and 4B result in six hydrants providing less than 1,500 gpm of fire flow, one hydrant providing less than 1,000 gpm of fire flow, and no hydrants providing less than 500 gpm of fire flow. It is not practical for the hydrants noted above to provide more than 1,500 gpm of fire flow under these improvement alternatives. Improvement No. 1A This improvement includes replacing the existing 8-inch diameter water main on Ridgecrest Road between the Ridgecrest water storage tank and East King Road with a 12-inch diameter water main (approximately 3,000 linear feet of pipe). This would result in widespread fire flow improvements in the Ridgecrest pressure zone upstream of the West King PRVs. For this reason, it is a high priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 158 amlP(11iSII1NIIM.4 ��fluVflll IIIIIIIIIIV�I WUM�' Improvement No. 1 B This improvement includes installing a new 10-inch diameter water main between the Ridgecrest water storage tank and the water main on Chase Lane (approximately 1,800 linear feet of pipe). This would result in widespread fire flow improvements in the Ridgecrest pressure zone upstream of the West King PRVs, and for this reason, is a high priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. Improvement No. 2 This improvement includes installing a new 8-inch diameter water main on Troy Road between the existing 8-inch diameter water main on Troy Road and the existing 8-inch diameter water main on East King Road (approximately 1,500 linear feet of pipe). This would result in fire flow improvements on Troy Road, to the east of the Ridgecrest water storage tank. Since the impacts of this improvement are more localized than widespread, it is a medium priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. Improvement No. 3 This improvement includes replacing the following 8-inch diameter water mains with a 10-inch diameter water main (approximately 6,100 linear feet of pipe): • Existing water main on East King Road between Danby Road and the West King PRVs • Existing water main on Danby Road between East King Road and College Circle • Existing water main on College Circle This would result in widespread fire flow improvements along Danby Road, north of East King Road. For this reason, it is a medium priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. Improvement No. 4A This improvement includes installing a new 8-inch diameter water main between the existing water main on Larisa Lane and the existing water main on East King Road (approximately 2,300 linear feet of pipe). Installing this new water main would result in widespread fire flow improvements along Danby Road, south of East King Road. For this reason, it is a medium priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 159 P,�aamlP(11i1I11pF M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' Improvement No. 4B There is potential future development between Larisa Lane and East King Road which could necessitate installing the new water main described in Improvement No. 4A. If the Town plans to install this new water main in the near future, Improvement No. 4B is not recommended. However, if the water main proposed in Improvement No. 4A may not be installed for an extended period of time, Improvement No. 4B is an alternative that can provide similar improvement in fire flows. This improvement includes replacing the existing 8-inch diameter water mains on East King Road between Danby Road and the West King PRVs and on Danby Road between East King Road and approximately 750 feet north of Schickle Road with a 12-inch diameter water main (approximately 3,000 linear feet of pipe). Replacing these water mains would result in widespread fire flow improvements along Danby Road, south of East King Road and along Larisa Lane. For this reason, it is a medium priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. Pressure Improvements Improvement Nos. 1 A through 4B do not have a significant impact on pressure. With the improvements, there are still five customers with less than 20 psi of pressure and eight customers with less than 35 psi of pressure. Figure 9-16 presents the system pressures under existing peak hour demand resulting from Improvement Nos. 1 B, 2, 3, and 4A. To improve pressure to these customers, Improvement No. 5 is offered below for the Town's consideration. Figure 9-11 presents the location of Improvement No. 5. Improvement No. 5 This improvement includes installing a booster pump station for the customers adjacent to the Ridgecrest water storage tank. This would involve a small pump station, hydropneumatic tank, and water main to connect each of the customers. These customers have less than 35 psi of pressure. For this reason, this is a high priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. 9.3.2 Ridgecrest Improvements (Future Conditions) Fire Flow Improvements Figures 9-17 through 9-20 present the fire flows under future conditions resulting from the following improvements: • Figure 9-17: Improvement Nos. 1A, 2, 3, and 4A • Figure 9-18: Improvement Nos. 1A, 2, 3, and 4B • Figure 9-19: Improvement Nos.1 B, 2, 3, and 4A GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 160 ��fluVflll IIIIIIIIIIV�I IIWV��' • Figure 9-20: Improvement Nos.1 B, 2, 3, and 4B As shown in Figure 9-17, Improvement Nos. 1A, 2, 3, and 4A result in seven hydrants providing less than 1,500 gpm of fire flow, one hydrant providing less than 1,000 gpm of fire flow, and no hydrants providing less than 500 gpm of fire flow. As shown in Figure 9-18, Improvement Nos. 1A, 2, 3, and 4B result in 12 hydrants providing less than 1,500 gpm of fire flow, 1 hydrant providing less than 1,000 gpm of fire flow, and no hydrants providing less than 500 gpm of fire flow. As shown in Figure 9-19, Improvements Nos. 1 B, 2, 3, and 4A result in four hydrants providing less than 1,500 gpm of fire flow, one hydrant providing less than 1,000 gpm of fire flow, and no hydrants providing less than 500 gpm of fire flow.As shown in Figure 9-20, Improvements Nos. 1 B, 2, 3, and 4B result in nine hydrants providing less than 1,500 gpm of fire flow, one hydrant providing less than 1,000 gpm of fire flow, and no hydrants providing less than 500 gpm of fire flow. Similar to existing conditions, it is not practical for the hydrants noted above to provide more than 1,500 gpm of fire flow. For this reason, no additional improvements are recommended for future conditions. Pressure Improvements Under future peak hour demands with Improvement No. 5, there are no customers in the Ridgecrest service area with less than 35 psi of pressure. For this reason, no additional improvements are recommended for future conditions. Figure 9-21 presents the system pressures under future peak hour demand resulting from Improvement Nos. 1 B, 2, 3, and 4A. Water Storage Improvements If all of the development discussed in Section 8 were to occur, the existing Ridgecrest water storage tank would not have sufficient volume to provide three days of storage under future average daily demand conditions. The estimated volume to provide three days of storage under future average daily demand conditions is 1,587,400 gallons and the usable volume available in the Ridgecrest water storage tank is 489,200 gallons. Since the pressures under future conditions in the Ridgecrest service area with the above improvements are adequate, new storage for the Ridgecrest service area can use the same elevations as the existing Ridgecrest tank. If all future development described in Section 8 were constructed in the Ridgecrest zone, an additional 1,100,000 gallons of water storage would be required. However, the Town should select a storage volume that is based on the actual amount of development anticipated. Improvement No. 6 for increasing water storage in the Ridgecrest pressure zone is presented below for the Towns consideration and is based on the development discussed in Section 8. Improvement No. 6 This improvement includes installing a new water storage tank adjacent to the existing Ridgecrest water storage tank. The new tank would need to meet the following criteria: • Minimum water level under normal conditions - 1,416.50 feet • Minimum usable water storage above elevation 1,398 feet- 1,100,000 gallons • Overflow elevation -As needed to meet the above two criteria GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 161 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' This improvement would provide the Ridgecrest service area with sufficient storage to provide three days of storage under future average daily demand conditions. For this reason, it is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 9-1. A detailed breakdown of these costs is provided in Appendix A. 9.4 Southill System Additional Recommendations Under existing conditions and with the above improvements, there are several areas throughout the South Hill water system with high pressures (greater than 100 psi of pressure). To prevent these pressures from reaching the customer, all customer service lines are required to be equipped with PRVs. The presence of these valves ensures pressures within customers' plumbing are within accepted ranges according to Ten-States Standards. It is also recommended the Town obtain an ISO water system evaluation to determine the ISO needed fire flows specific to the South Hill water system to assist in prioritizing future water main replacements. Table 9-1 Southill Improvement Alternatives, Opinion of Probable Project Cost :.IA ,,,,,,,..: 1/,////////, ,,,,,,,,..: i' iii .:Diol 000000iior 0000,, r 00000000000 „rrr :, ,,, ,,,/,//rrrrrrrrrrrrrrrr wk ,rrrrrrrrrrrrrrrrrrrrrr „��rrrrrrrrrrrrrrrrrrrrrrrr, M�� t ,,,,,, r rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr,;Ar r , rrrrrrrrrrrrrrrrrrr, t ,,,,,,,, rr„rr,, rrrrrrrrrrrrrrrr ,,,,,,,,,> rrrrrrrrrrrrrrrrrr;;; r //rrrrrrrr , rrrrrrrrrrrrrrrrrrr „,r,rrrrrrr, iiiiiii , ” ..,: o000000000rr t ��/� t rrrrrr rr r/r/,, ,/rrrrrrrrrrrrrrrrrrr ��r rrrrrrrrrrrrrrrrrrrrr ��,,,,�,,,,,,,,,,,,,,,; t „ ,,,,:, ,r r rrrrrrrrrrrrrrrr, r rr, � r rrrrrrrrrrrrrrrrrrr� ,,,<, t GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 162 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 10. Improvement Alternatives, West Hill Capital improvements were identified based on analysis results of the existing system and the future system. Based on existing and future conditions in the system, improvements are suggested to ensure the following goals are met: 1. Provide a minimum pressure of 35 psi to customers in the West Hill and Trumansburg Road pressure zones under existing and future demands. 2. Provide a minimum available fire flow of 500 gpm for the Bostwick Road, West Hill, and Trumansburg Road pressure zones under existing and future demands. 3. Increase available fire flow to the minimum recommended 1,500 gpm for the maximum practical number of Town hydrants in the Bostwick Road, West Hill, and Trumansburg Road pressure zones under existing and future demands. 4. Increase the usable water storage in the Bostwick Road, West Hill, and Trumansburg Road pressure zones to meet the minimum storage requirements under existing and future conditions. As noted in Section 8, the future demands used for this analysis are conservative. Improvement recommendations have been provided to meet the Town's water system goals under these future demand conditions. When planning capital improvements for future demands, the Town should consider the amount of development actually anticipated over a time horizon that is appropriate for the infrastructure under consideration. Improvements were added to the water system model and their effects on the distribution system were evaluated and are discussed in the following sections. Improvement alternatives are prioritized based on the magnitude of their impact to the distribution system and meeting Department of Health requirements. Improvements are assigned a high, medium, or low priority. High priority improvements are required to meet minimum Department of Health standards or result in widespread improvements under existing conditions, medium priority improvements result in moderate improvements under existing conditions, and low priority improvements result in localized improvements or are improvements that are based on future demand. 10.1 BostwickPressure Under existing and future conditions, the Bostwick Road zone is able to meet minimum pressure requirements of 35 psi to all customers. Under existing and future conditions, the majority of hydrants provide less than 1,500 gpm of fire flow (but greater than 1,000 gpm of fire flow); one hydrant, located adjacent to the water storage tank, provides less than 500 gpm of fire flow. The usable volume in the Bostwick Road water storage tank is sufficient to provide three days of storage under existing average daily demand conditions but is not sufficient to meet current water and fire demands. The estimated volume to meet current water and fire demands is 207,300 gallons and the usable volume available in the Bostwick Road water storage tank is 190,400 gallons. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 163 P,�aamlP(11iSII�1N W.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' The usable volume in the Bostwick Road water storage tank is not sufficient to meet future water and fire demands or to provide three days of storage under future average daily demand conditions. The estimated volume to meet future water and fire demands and to provide three days of storage under future average daily demand conditions is 253,500 and 547,700 gallons, respectively. The usable volume available in the Bostwick Road water storage tank is 190,400 gallons. 10.1.1 Bostwick Road Improvements (Existing Conditions) Fire Flow Improvements Fire flow is limited throughout the Bostwick Road pressure zone due to the size of some existing water mains. To improve fire flows, improvements are offered below for the Town's consideration. The locations of Improvement Nos. 1 and 2 are shown on Figure 10-1. Figure 10-2 presents the fire flows under existing conditions resulting from these improvements. As shown in Figure 10-2, Improvement Nos. 1 and 2 result in five hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. It is not practical for these hydrants to provide more than 1,500 gpm of fire flow. Improvement No. 1 This improvement includes replacing the existing 8-inch diameter water main on Bostwick Road between the Bostwick Road water storage tank and Seven Mile Drive with a 10-inch diameter water main (approximately 1,200 linear feet of pipe). Increasing the size of this water main results in widespread fire flow improvements throughout the Bostwick Road pressure zone. Existing fire flows are not substantially below 1,500 gpm, however, and only moderate improvements are needed. For this reason, it is a medium priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1 (found at the end of Section 10). A detailed breakdown of these costs is provided in Appendix B. Improvement No. 2 This improvement includes replacing the existing 8-inch diameter water main on Seven Mile Drive between Elmira Road and Bostwick Road with a 10-inch diameter water main (approximately 5,500 linear feet of pipe). Increasing the size of this water main results in fire flow improvements in the southwestern portion of the Bostwick Road pressure zone. Since the impacts of this improvement are more localized than widespread, it is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is provided in Appendix B. Water Storage Improvements The existing Bostwick Road water storage tank does not have sufficient volume to meet current water and fire demands. The estimated volume to meet current water and fire demands for the Bostwick Road tank is 207,300 gallons and the usable volume available in the tank is GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 164 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 190,400 gallons. Improvement No. 3 for increasing water storage in the Bostwick Road pressure zone is presented for the Town's consideration. Improvement No. 3 This improvement includes utilizing the existing Stone Quarry CV/PRV to feed water from the Northview/Danby pressure zone to the Bostwick Road pressure zone when necessary. The Bostwick Road tank requires an additional 16,900 gallons of water to meet current water and fire demands. Under existing water and fire demands, the Northview/Danby pressure zone has 862,600 gallons of excess storage. Utilizing the existing Stone Quarry CV/PRV would provide the Bostwick Road service area with sufficient storage to meet the current water and fire demands as defined by the Ten-States Standards. For this reason, it is a high priority improvement. This improvement involves operation of the existing system and does not require construction; therefore, it is considered a no cost improvement. 10.1.2 Bostwick Road Improvements (Future Conditions) Fire Flow Improvements Figure 10-3 presents the fire flows under future conditions resulting from Improvement Nos. 1 and 2. As shown in Figure 10-3, these improvements result in nine hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. It is not practical for these hydrants to provide more than 1,500 gpm of fire flow. For this reason, no additional improvements are recommended for future conditions. Water Storage Improvements If all of the development discussed in Section 8 were to occur, the usable volume in the Bostwick Road water storage tank would not be sufficient to meet future water and fire demands or to provide three days of storage under future average daily demand conditions. The estimated volume to meet future water and fire demands and to provide three days of storage under future average daily demand conditions is 253,500 and 547,700 gallons, respectively. The usable volume available in the Bostwick Road water storage tank is 190,400 gallons. Improvement No. 4 for increasing water storage in the Bostwick Road pressure zone is presented for the Town's consideration. Improvement No. 4 This improvement includes utilizing the existing Stone Quarry CV/PRV to feed water from the Northview/Danby pressure zone to the Bostwick Road pressure zone when necessary. If all future development described in Section 8 were constructed in the Bostwick Road zone, an additional 358,000 gallons of water storage would be required. Under future water and fire demands, the Northview/Danby pressure zone has 847,600 gallons of excess storage. Utilizing the existing Stone Quarry CV/PRV would provide the Bostwick Road service area with sufficient storage to meet the future water and fire demands as defined by the Ten-States Standards. For this reason, it is a low priority improvement. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 165 ��fluVflll IIIIIIIIIIV�I IIWV��' This improvement involves operation of the existing system and does not require construction; therefore, it is considered a no cost improvement. 10.2 West Hill Pressure Under existing conditions, there are six customers with less than 35 psi of pressure. The majority of hydrants provide less than 1,500 gpm of fire flow and four hydrants provide less than 500 gpm of fire flow; however, these four hydrants are located adjacent to the water storage tank. The usable volume in the West Hill water storage tank is sufficient to provide three days of storage under average daily demand conditions and to meet current water and fire demands. Under future conditions, there are more than 12 customers with less than 35 psi of pressure. All hydrants provide less than 1,500 gpm of fire flow and four hydrants provide less than 500 gpm of fire flow; however, these four hydrants are located adjacent to the water storage tank. The usable water volume in the West Hill water storage tank is sufficient to meet future water and fire demands but is not sufficient to provide three days of storage under future average daily demand conditions. The estimated volume to provide three days of storage under future average daily demand conditions is 1,260,300 gallons. The usable volume available in the West Hill water storage tank is 958,500 gallons. 10.2.1 West Hill Improvements (Existing Conditions) Fire Flow Improvements Fire flow is limited throughout the West Hill pressure zone due to the size of the existing water mains and customers with low water pressures under normal conditions. To improve fire flows throughout the West Hill pressure zone, improvements are offered below for the Town's consideration. The locations of Improvement Nos. 1 through 6 are shown on Figure 10-4. Figure 10-5 presents the fire flows under existing conditions resulting from these improvements. As shown in Figure 10-5, Improvement Nos. 1 through 6 result in 16 hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. It is not practical for these hydrants to provide more than 1,500 gpm of fire flow. For this reason, Improvement No. 6 provides sufficient fire flow to a portion of the area in which the 16 hydrants are located. Improvement No. 1 This improvement consists of replacing the existing 10-inch diameter water main between the West Hill water storage tank and the water main on West Haven Road with 14-inch diameter water main (approximately 1,750 linear feet of pipe). Increasing the size of this water main results in widespread fire flow improvements in the West Hill pressure zone. For this reason, it is a high priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is presented in Appendix B. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 166 ��fluVflll IIIIIIIIIIV�I IIWV��' Improvement No. 2 This improvement includes installing a booster pump station for the two customers located at the northern end of Valley View Road. These customers have less than 35 psi of pressure and less than 500 gpm of available fire flow under existing conditions. For this reason, this is a high priority improvement. If a new pressure zone were implemented west of the West Hill system to serve future development, the customers located at the northern end of the Valley View Road could be included in the new zone. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is presented in Appendix B. Improvement No. 3 This improvement includes installing a new PRV along the existing 8-inch diameter water main between Conifer Circle and Hector Street in addition to the existing Oakwood PRV off Oakwood Lane. The new PRV should have a 90 psi setpoint. Installing a new PRV results in fire flow improvements throughout the eastern portion of the West Hill pressure zone (hydrants located in the City). Since the impacts of these improvements are widespread in the eastern portion of the pressure zone, it is a high priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is presented in Appendix B. Improvement No. 4 This improvement consists of switching three existing hydrants on Trumansburg Road between Candlewyck Drive and Brookfield Road from the West Hill pressure zone to the Trumansburg Road pressure zone by opening and closing existing isolation valves. Switching the pressure zone of these hydrants improves fire flow in the three hydrants. Since the impacts of this improvement are more localized than widespread, it is a low priority improvement. This improvement involves operation of the existing system and does not require construction; therefore, it is considered a no cost improvement. Improvement No. 5 This improvement consists of replacing the existing 6-inch diameter water main on Trumansburg Road between Candlewyck Drive and Brookfield Road with an 8-inch diameter water main (approximately 2,200 linear feet of pipe). Increasing the size of this water main improves fire flow to two hydrants in the eastern portion of the West Hill pressure zone (hydrants located in the City). Since the impacts of this improvement are more localized than widespread, it is a low priority improvement. Improvement No. 6 This improvement includes installing a new hydrant on the existing water main on Hayts Road (County Road 139) northwest of West Hill Circle. The hydrant would be installed in the Trumansburg Road pressure zone on the existing water main between the Trumansburg Road GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 167 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' water storage tank and Trumansburg Road. The hydrant could be utilized to provide fire flow to the West Hill Circle neighborhood (it is not practical for hydrants in this neighborhood which are served off of the West Hill tank to provide greater than 1,500 gpm of fire flow). Since the impacts of this improvement are more localized than widespread, it is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is presented in Appendix B. Pressure Improvements Improvement Nos. 1 and 2 result in all customers in the West Hill pressure zone having at least 35 psi of pressure under existing conditions. For this reason, no additional improvements are recommended. Figure 10-6 presents the system pressures under existing peak hour demand resulting from Improvement Nos. 1 through 6. 10.2.2 West Hill Improvements (Future Conditions) Fire Flow Improvements Under future conditions with Improvement Nos. 1 through 6, there are 16 hydrants providing less than 1,500 gpm of fire flow and no hydrants providing less than 500 gpm of fire flow. Due to their elevation and location, it is not practical for these hydrants to provide more than 1,500 gpm of fire flow. For this reason, no additional improvements are recommended for future conditions. Figure 10-7 presents the fire flows under future conditions resulting from Improvement Nos. 1 through 6. Pressure Improvements Under future peak hour demand with Improvement Nos. 1 through 6, there are more than eight customers in the West Hill service area with less than 35 psi of pressure. To improve pressure to these customers, water storage improvements are provided below for the Town's consideration. Figure 10-8 presents the system pressures under future peak hour demand resulting from Improvement Nos. 1 through 6. Water Storage Improvements If all of the development discussed in Section 8 were to occur, then the existing West Hill water storage tank would not have sufficient storage to provide three days of storage under future average daily demand conditions. The estimated volume to provide three days of storage under future average daily demand conditions is 1,260,300 gallons and the usable volume available in the West Hill water storage tank is 958,500 gallons. Since pressures under future conditions in the West Hill service area are not adequate, new storage for the West Hill service area should use a greater elevation than the existing West Hill water storage tank. If all future development described in Section 8 were constructed in the West Hill zone, an additional 302,000 gallons of water storage would be required. However, the Town should GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 168 P,�aamlP(11i1I11pF W.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' select a storage volume that is based on the actual amount of development anticipated. Alternatives for increasing water storage in the West Hill pressure zone are presented below for the Town's consideration and are based on the development discussed in Section 8. Improvement No. 7A This improvement includes installing a new water storage tank adjacent to the existing West Hill water storage tank. The new water storage tank would need to meet the following criteria: • Minimum water level under normal conditions - 1,080 feet • Minimum usable water storage above elevation 1,081 feet- 302,000 gallons • Overflow elevation -As needed to meet the above two criteria This improvement would provide the West Hill service area with sufficient storage to meet the future water and fire demands as defined by the Ten-States Standards. For this reason, it is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is provided in Appendix B. Improvement No. 7 This improvement includes replacing the existing West Hill water storage tank. The new tank would need to meet the following criterial • Minimum water level under normal conditions - 1,080 feet • Minimum usable water storage above elevation 1,081 feet- 1,300,000 gallons • Overflow elevation -As needed to meet the above two criteria This improvement would provide the West Hill service area with sufficient storage to meet the future water and fire demands as defined by the Ten-States Standards. For this reason, it is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is provided in Appendix B. 10.3 Trumansburg Road Pressure Zone Under existing and future conditions, there is one customer with less than 35 psi of pressure. All hydrants provide less than 1,500 gpm of fire flow and two hydrants provide less than 500 gpm of fire flow; however, these two hydrants are located adjacent to the water storage tank. The usable volume in the Trumansburg Road water storage tank is sufficient to meet current water and fire demands but is not sufficient to provide three days of storage under existing average daily demand conditions. The estimated volume to provide three days of storage under existing average daily demand conditions is 421,200 gallons and the usable volume available in the Trumansburg Road water storage tank is 337,800 gallons. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 169 P,�aamlP(11i1I11pF M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' The usable volume in the Trumansburg Road water storage tank is sufficient to meet future water and fire demands but is not sufficient to provide three days of storage under future average daily demand conditions. The estimated volume to provide three days of storage under existing future daily demand conditions is 666,000 gallons and the usable volume available in the Trumansburg Road water storage tank is 337,800 gallons. 10.3.1 Trumansburg Road Improvements (Existing Conditions) Fire Flow Improvements Fire flow is limited throughout the Trumansburg Road pressure zone due to the size of the existing water mains. To improve fire flows throughout the Trumansburg Road pressure zone, improvements are offered below for the Town's consideration. The locations of Improvement Nos. 1 and 2 are shown on Figure 10-9. Figure 10-10 presents the fire flows under existing conditions from these improvements. As shown in Figure 10-10, Improvement Nos. 1 and 2 result in no hydrants with less than 1,500 gpm of fire flow. Improvement No. 1 This improvement consists of replacing the existing 10-inch diameter water main along Hayts Road (County Road 139) between the Trumansburg Road storage tank and Trumansburg Road with 12-inch diameter water main (approximately 1,300 linear feet of pipe). Increasing the size of this water main results in widespread fire flow improvements in the Trumansburg Road pressure zone. However, existing fire flows are not substantially below 1,500 gpm of fire flow and only moderate improvements are needed. For this reason, it is a medium priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is presented in Appendix B. Improvement No. 2 This improvement consists of replacing the existing 8-inch diameter water main along Dubois Road between Trumansburg Road and Woolf Lane with 10-inch diameter water main (approximately 3,700 linear feet of pipe). Increasing the size of this water main results in fire flow improvements in the northern portion of the Trumansburg Road pressure zone. Since the impacts of this improvements are localized in the northern portion of the pressure zone, it is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is presented in Appendix B. Pressure Improvements Under existing peak hour demands, there is one customer with less than 35 psi of pressure. To improve pressure to this customer, Improvement No. 3 is offered below for the Town's consideration. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 170 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' The location of Improvement No. 3 is shown in Figure 10-9. Figure 10-11 presents the system pressures under current peak hour demands resulting from Improvement Nos. 1 through 3. Improvement No. 3 This improvement consists of switching one customer on Trumansburg Road just south of Dubois Road from the Trumansburg Road pressure zone to the Van Dorns pressure zone by opening and closing existing isolation valves, installing a new isolation valve, and installing approximately 500 linear feet of new 10-inch diameter water main. Switching the pressure zone of this customer provides greater than 35 psi of pressure. Since the existing customer has less than 35 psi of pressure, it is a high priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is presented in Appendix B. Water Storage Improvements The existing Trumansburg Road water storage tank does not have sufficient volume to provide three days of storage under existing average daily demand conditions. The estimated volume to provide three days of storage under existing average daily demand conditions is 421,200 gallons and the usable volume available in the Trumansburg Road water storage tank is 337,800 gallons. Improvement No. 4 for increasing water storage in the Trumansburg Road pressure zone is presented below for the Town's consideration. Improvement No. 4 This improvement includes using the existing Trumansburg Road PRV to feed water from the West Hill pressure zone to the Trumansburg Road pressure zone when necessary. This improvement would provide the Trumansburg Road service area with sufficient storage to meet the current water and fire demands as defined by the Ten-States Standards. For this reason, it is a high priority improvement. This improvement utilizes the existing system and does not require construction; therefore, it is considered a no cost improvement. 10.3.2 Trumansburg Improvements (Future Conditions) Fire Flow Improvements Under future conditions with Improvement Nos. 1 through 3, there are no hydrants providing less than 1,500 gpm of fire flow. For this reason, no additional improvements are recommended for future conditions. Figure 10-12 presents the fire flows under future conditions resulting from Improvement Nos. 1 through 3. Pressure Improvements Under future peak hour demands with Improvement Nos. 1 through 3, there are no customers in the Trumansburg Road service area with less than 35 psi of pressure. For this reason, no additional GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 171 P,�aamlP(11i1I110 m.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' improvements are recommended for future conditions. Figure 10-13 presents system pressures under future peak hour demand resulting from Improvement Nos. 1 through 3. Water Storage Improvements The usable volume in the Trumansburg Road water storage tank is not sufficient to provide three days of storage under future average daily demand conditions. The estimated volume to provide three days of storage under existing future daily demand conditions is 666,000 gallons and the usable volume available in the Trumansburg Road water storage tank is 337,800 gallons. Since pressures under existing conditions in the Trumansburg Road service area are adequate with Improvement No. 3 described above, new storage for the Trumansburg Road service area can use the same elevations as the existing Trumansburg Road tank. If all future development described in Section 8 were constructed in the Trumansburg Road zone, an additional 330,000 gallons of water storage would be required. However, the Town should select a storage volume that is based on the actual amount of development anticipated. Alternatives for increasing water storage in the West Hill pressure zone are presented below for the Town's consideration and are based on the development discussed in Section 8. Improvement No. 5A This improvement includes installing a new water storage tank adjacent to the existing Trumansburg Road water storage tank. The new water storage tank would need to meet the following criteria: • Minimum water level under normal conditions - 1,003.00 feet • Minimum usable water storage above elevation 1,015.00 feet-330,000 gallons • Overflow elevation -As needed to meet the above two criteria This improvement would provide the Trumansburg Road service area with sufficient storage to provide three days of storage under future average daily demand conditions. For this reason, it is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is provided in Appendix B. Improvement No. This improvement includes replacing the existing Trumansburg Road water storage tank. The new tank would need to meet the following criteria: • Minimum water level under normal conditions - 1,003.00 feet • Minimum usable water storage above elevation 1,015.00 feet-670,000 gallons This improvement would provide the Trumansburg Road service area with sufficient storage to provide three days of storage under future average daily demand conditions. For this reason, it is a low priority improvement. An opinion of probable cost for this improvement is presented in Table 10-1. A detailed breakdown of these costs is provided in Appendix B. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 172 P,�aamlP(11i1I110 M.4 ��fluVflll IIIIIIIIIIV�I IIWUM�' 10.4 West Hill System Additional Recommendations In addition to the above improvements, it is recommended that all 4-inch diameter water mains in the West Hill water system be replaced with 8-inch diameter water mains. An opinion of probable cost is presented in Table 10-1. A detailed breakdown of these costs is provided in Appendix B. Under existing conditions and with the above improvements, there are several areas throughout the West Hill water system with high pressures (greater than 100 psi of pressure). To prevent these pressures from reaching the customer, all customer service lines are required to be equipped with PRVs. The presence of these valves ensures pressures within customers' plumbing are within accepted ranges according to Ten-States Standards. It is also recommended the Town obtain an ISO water system evaluation to determine the ISO needed fire flows specific to the West Hill water system to assist in prioritizing future water main replacements. GHD I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 173 P1R111n1�11pF!11q1W.4 Table '10-1 West Hill Improvement Alternatives, Opinion of Probable Project Cost .......... .............. It I ....... 1'51 1 MENEM .......... GHID I South Hill and West Hill Water Systems Improvements,Town of Ithaca, NY- 11144172.1 174 Coddington Road Tank(City Owned) rn"d�hter` Rk� ,� ,. ' Danby Tank N ifs s NO'Y 0'" .., ;tP°` d r'y t" u i p�I .� 8113 a �� ;/� yp.oaNQ'If1�.�North�new Tank m�� 1xw. o �a'.J"' `s r m uzr ",,. 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LET RD p o (o BOSTWICK RD m rw ," Y�.�''' ❑ ,�� {{ �^. m p m K Z K O �gpti qw,� ,1 ,✓y9G o Pp- „�,n,Y o o <q w nNFtP 1C, z r R0520 �, L` W KING RD GRAY RD �u I fi Rq S RD t 20(00) P?� T h� 2 PARK LA PARK LA PaPar spa nr✓s n LEGEND 0 Pipe Condition Test Location 0 Hydrant Flow Test Location N Y Hydrant Tank Service Area Town of Ithaca 0 1,500 3,000 pRV Bostwick doe r✓kmear 11144272 4 uy South and West Hill Water Models RaPsok n Feet �, f'S...Pump Station Trumansburg 44L,Vudk�u�l oma 29 dak zona .� Control Valve ,a ^,9e3 Roads Ulysses(Van Doms) West Hill Water System Map Ord NAD 1983Ibne wYorkCeU UPS 3,DZFee ^^-W , ater Main r,ITown Boundary West Hill Figure 2-2 „a Ra a, F,315 679 sem ea�aucen aom ww s aom Ove D(a„a nm)m kUd �,aka�eaa„,aka a,aaa�,k��maa,D� �k ,„ �a)rosts es de ndlor a„F9 �,aao,o a ,�aldaa90i�w��a,ao, abe„a„a a as a a,a�anor,ka aeaaP9ham°Ufa;�mmwa�ao°'aqua'ela�'aa„v°�`va°d"�o,'awtaa0 .�Coddington Road Tank(City Owned)„� 9A, ff isTM”yud'J� a " DanbyInk P �, SO cC ,w.. WewTank, 4 Q0187� 4" 8 R ca College Tank d N4jdn;0 i Ithaca.,. ,,. Wrc a,C'flfl4fl +a a T4 I,1, �> 1, Troy Rd Tank W 0 911�ff f 5 �i TSan. �^ ra 1&S YT27 r i f A m C10110 Q0930 �o a„ l� u 9 F104900 vgw Ck0080 C.w r , Ridgecrest Tank h Job Number 11144172 rapers2e nNse LEGEND o Hydrant 'J Tank Tank Zone Town Boundary ru — �,� . Town of Ithaca Revson I n 0 0.255 0.5 J 1,ai PRV J_ Pump Station Northview/Danby '+�y Hydrant Flow Test Location r�U �� South and West Hill Water Models Date 21 dan 2111 „,� µ4 lU Mile g South Hill Water Systems tea,°a Ma,alo, ("�"�� Control Valve Water Main Rid ecrest ,aNA41P433N1aPanaNawroPl'a'nctaaFFP53112Faa Roads Troy Hydrant Retest Locations Figure 2-3 o�ea—,O-Pan:DnPeNV 13035 USA 713150795800 rials 0795801 e--1@0nd— W—endmon, N w N I W II. N I. W. II W N N II. II W Pavicv , � 4„ oNa `♦ im'WO` �eP°P�'� `♦ srGNEGugaav � of �+"cP ` `an I' � NORTHVIEWNANBY ,�� ONEGNARRV I sERVICEAREA I ♦` I r—J �♦ 1 ♦ PRV I I ` PUN sr e ePav v GAN' Y—FTANK I-------- IIDDN'GNEGugaav -♦ f ti ♦ GNEGUARRV '� �, ♦♦ Sr „ p ze Pav Po L-------1 "." TRov Rono `♦ —FST GNEGugaav 1 sERVICEAREA 1 1 GNEGUARRV sr �eaav r—J 1 1 1 1 1 I 1 I 1 I 1 1 1 I 1 I 1 1 ° '`°m 1 1 T—R— "�iy�b",.,-.,NL��,.� PumPSTAnaN TI Er W NNG I PRv t I 1 RlocECREsr ♦♦� sERVICEAREA IARISALN 0.1GGECREST iMIK `�� _____ —--�-- T_OWN OFITHAG ----------�---- -- ----------��~--------------- _TOWN OF OANBY PLAN 16 INGH —E 4X 81c 1- TOWN OF ITHACA,NEW YORKProject Na. 111-44172 r.OomoNz.LOEruLON nroo i. EMENTS REPORT FOR SOUTH HILL WATER SYSTEM IMPROVEMENTS Repod Na. 1 ELscnEnrv.Tlc. ��pnrm9M��H�10Vm„ Date OS-2018 "��uuNgp��flNNNNiN�� MODEL SCHEMATIC ��Illllllllimmmll Figure 4-1 N 44� VAN DCRNSTANK .",„„„,5,„ ,»E^cuMas`•rAr�.....:.�. ..... �T•oWN0 F RHAca...,..... ..., .........m.....P,r IrlowrlcreEErc rec � ��`c�...,........m...............,�,�...,.......... SERVICEAREA s s N rvwo ` �E N r-- �,`,,,,, JNh� n .. .m...........m..,.............................. r u. TaurmNseuac au TANK ' W ` III v .... '` B RD II &,,• iRHMANSBHRG ROAD µ A SERVICEAREA I µ 16 # µ II VILIAGEOFOAYUGAHEIGIRS W IIP Y OF I HAC R µ mom..,. ..µ 1 II. II. Wa� 1 I ✓\” 1 IW II V ........�` 1 µ WEETHILL ',....... ....> .�,.....d SERVICEAREA I� 1 µ W I 1 I =W 1 W LLII I II 311 1 II W I R 1 µ 1 I IQ 1 W —Hu a 0 o Rv 1 IIz o co c� s vcL[-rvau 5 II S' MPSTAnav�♦'0v 1 µ I 1 BOSTWICK ROAD 16 �♦ SERVICEAREA ♦ � C II ♦ 'e g Ar II ♦ ^�0W 1 � "Mp' µ �1v � � sroNFaunaavcviPav /p V'w.""'� IM1 / off"^ IW B—ICKau TANK / 1 'Doo II ♦ � 1 6 � 1 i♦ SROM SOUTH HILL `' � WATER SYSTEM W � I SOUTH HILL µ � WATER SYSTEM I � W � I j � I µ I � WATER SERVICE µ � ; AREA BOl1NORY I � µ I � I µ , I II. ♦ � I II i♦ I TTOWN OFFN EW FI EILD.,,.......m..,.,Lm.................. UNINGH 11INUH PLAN 16 INGH —LE TOWN OF ITHACA,NEW YORK Project Na. 111-44172 i. ME NTS aEDYOT Foa WEST HILL WATER SYSTEM IMPROVEMENTS Report Na. 1 ruono SM L c. rm91 M��H 10Vm„ MODEL SCHEMATIC � Date 05-2018 uuN gp��flN NNhaH ��IIIIIIIIII Figure 4-2 Figure 6-1 South Hill System Pressure Existing Average Day Demand Pearsaill pump station Pearsall Place PRV/QV jr Cobr Coding Legend ,tuncticn•Pressure(psi) Flu ,.., <= 20 Stene Quarry 3B PRV Ithace College Tank rt ii Itltude Valve irug �_ 34 tme Quarry 3A PRV Ithaca Q�Ileg P� 1 Tank � 0 c= rita Stene Quarry 2B PRV Cadding:tcan Rd pump stab n Stone Quarry2A PRV $'0 Danby Rd Tank r= 100 I r_ 1 lif7 Sterne Quarry1 B PRV rfu �= 165 Stone Quarry 1A PRV Tray Rd Tank .,. 4 Other u W Kung 2 PRV W King 1 P'R ' Troy Rd pump station i Ridgecrest Tank Bentley WaterCAD V8i(SELECTseries 6) 02-12-18 Rev.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 6-2 South Hill System Pressure Existing Maximum Day Demand Pear aill purnp,staticurn ... .W Pearsall Place PRVu''CVJ Cobr CadUng Legend Junction:Pressure(psi) Stone Quarry 313 PRV N rt ii Ititudaa ltJ've = 20 Uthace College Tank, Sterne Quarry3A PRV �m `` 34 Utl-�aca Cc�Uleg ,,PS 1� Stone Quarry 213 PRV INom1Ulview Tank 60 ca, CearBr�ingtran Rd Pu�P stab n Stone Quarr80 y 2A PRV �� 10 Danby Rd Tank 166 U 150 Stone Quarry1 B PRV I troy Rd 1 ank rr �- 165 Stone Quarry1A PRV Other ...mo 46" King ing 2 PRV W Using 1 P'RV TroyRd rare Station P P tion lip .. . Ai I +luw Ridgecrest Tank Bentley WaterCAD V8i(SELECTseries 6) 02-12-18 Rev.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 6-3 South Hill System Pressure Existing Peak Hour Demand Pear aill purnp,station �... .W 1P 4§1- Pearsall Place PRW'CVJ 06 Cobr Lading Legend Junction:Pressure(psi) Stone Quarry 313 PRVN rt ii Ititudaa ltJ've = 20 Uthace College Tank, Sterne Quarry3A PRV �m `` 34 Utl-�aca Cc�Ulegd�,PS Stone Quarry 213 PRV INom1Ulviewv Tank <= 60 ca, Coddingtran Rd pump static n 80 Stone Quarry 2A PRVB7anlay Rd Tank 10 166 U �= 150 Stone Q uarry 1 B PRV I Stone Quarr y troy f"�d 1 arak rr �- 165 1A PRV it Other W King 2 PRV W King 1 P'RV B Troy Rd Prare p Station lip 0 41 A I Ridgecrest Tank Bentley WaterCAD V8i(SELECTseries 6) 02-12-18 Rev.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 6-4 South Hill Available Fire Flow Existing Maximum Day Demand ..„�•.,.� Csalna'Gddrnq G.�ysrrnt t:W�it d Irl IPY I ,r+kp 1yd,z I Irud Fia.tTwvagOAWt 4gpm+ „ , III - IIIearsall Place PRV/CV III stag III III III III ,.., ', „`:.,n Ec 1•A90 ' ' umm�d�o�IW <= 1.,750 t� '2,500 +' II 1. c 3,000 I Slone Quarry 313 PRV t, � � �j- <� 3,500 Ithaca College Tarnk. AI'imu�teVadva S�Vclrre R�u�arry 3A PRV o 9 ��8� �� +1,5CMSJ es ��" Ithaca C,otlega ..,.,.� s 1 Nlorthvlew Tarrlk nba Slolne Quarry 213 PRV lF WI .. a1 .• a III iYPoYu ut Coddngtoln Rd purnp station SEolne ,ar 2A PRV 40 D�v � l Stone Quarry 118 PRV r, Sdolne Quarryto PRV p alnk y m VIII N��liu Troy Rd [ W King 2 PRV W King'1 PRV �IIIU ��luu .� Troy Rrtl purnrp 54a6malln� mo luu VV t ,III •••' III I I .. P 111115�� IIII 111111 IIII I°h IUX � uX IIIII� IUX' �u�� io VIII uu ...° IIIIt�W, IIII�W� Ridge,,., ank Bentley WaterCAD V8i(SELECTseries 6) 02-12-18 Rev.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 10/11/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 7-1 West Hill System Pressure Existing Average Day Demand Woolf Lane pump station Color Coding Legend —" Junction:Pressure(psi,) '`miluu Trumansburg Rd Tank 1 Trurnansburg Rd PRV <= 20 s Sulu <= 34 r Oakwood PRV = 60 ` �akwaad PRV 2 _ 0 <= 150 West Hill Tank 4), <= 210 Other West Hill IPRV I� —urrNN� i Cray Glen Rd pump station Bostwick Rd Tank Stone Quarry PRV/CV GtoneQuarmy PIRVECV 2 I �r Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 7-2 West Hill System Pressure Existing Maximum Day Demand Woolf Lane pump station Color Coding Legend s v —` Junokim Pressure(psi) Trumansburg Rd Tank I Trumansburcg Rd PRV 0 <" 2C 0 <= 3 �= 40 Oakwood PRV <= 60 akwood PRV 2 - k <= 80 <= 100 _ <= 150 West Hill Tank 1L• ,r' i 216 I Y tither West Hill PRV —raw I Coy Glen Rd pump station Bostwick Rd Tank Mone Quarry PRV/CV i/ toneQuarry P,RVfQV 2 I Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 7-3 West Hill System Pressure Existing Peak Hour Demand Woolf Lane pump station s Color Coding Legend —` Junokim Pressure(psi) NK Trumansburg Rd Tank I Trumansburcg Rd PRV 0 <= C 0 <= 3 �= 40 Oakwood PRV <= 60 akwood PRV 2 - k <= 80 V <= 100 _ <= 150 West Hill Tank Ll <" 216' I tither M West Hill PRV —raw I Coy Glen Rd pump station Bostwick Rd Tank Mone Quarry PRV/CV i/ toneQuarry P,RVfQV 2 I Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 7-4 West Hill Available Fire Flow Existing Maximum Day Demand Woolf Lane pump station Color Coding Legend Hydrant: Fire Flow(Available)(gpm) Trumansburg Rd Tank Trumansburg Rd PRV <= 500 1 t000 1,500 Oakwood PRV '50akwood PRV 2 e= 2,500 > <= 3,000 <= 3,500 1101 West Hill Tank <= 4,000 Other West Hill PRV 117'0 Coy Glen Rd pump s,tatior Bostwick Rd Tank Stone Quarry P,RV/CV StoneQuarry PRV/CV 2 Ctone Quarry P1 Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/13/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 8-1 South Hill System Pressure Future Average Day Demand Pear aill purnp,station �... .W Pearsall Place PRVu''CVJ Cobr CadUng Legend Junction:Pressure(psi) Stone Quarry 313 PRV N rt ii Ititudaa ltJ've = 20 Uthace College Tank, Sterne Quarry3A PRV �m `` 34 Utl-�aca Cc�Uleg �,PS 1� Stone Quarry 213 PRV INom1Ulview Tank 60 ca, Cearr�ingtran Rd Pu�P stab n Stone Quarr80 y 2A PRV �� 10 Danby Rd Tank 166 U �= 150 Stone Q uarry 1 B PRV I y troy Rd 1 ank rr �- 165 Stone Quarr 1A PRV it Other W King 2 PRV W King 1 P'RV ` Troyrare sta P P tion �w 0 41 A E Ridgecrest Tank Bentley WaterCAD V8i(SELECTseries 6) 02-12-18 Rev.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 8-2 South Hill System Pressure Future Peak Hour Demand Pear aill purnp,statiurn ... .W 1P 4§1- Pearsall Place PRW'CVJ 06 Cobr Codang Legend Junction:Pressure(psi) Stone Quarry 313 PRV N rt ii Ititude ltaJ've = 20 Ithace College Tank, Sterne Quarry3A PRV �m ``" 3A Ithaca Cc�Ileg �,PS Stone Quarry 2B PRV INor hiviewv Tank � � 6a ca, CearBrJingtran Rd purnga stab n Stone Quarry 2A PRV �� 80 Danby Rd Tank - 100 � s.-. 150 Stone Quarry 1 B PRV I .,. _ troy Rd 1 ank rr � 165 Stone Quarry 1A PRV ether ..., u W King 2 PRV 'v+y King 1 P'RV Troy Rd purn Station w I as swoop �w Ridgecrest Tank Bentley WaterCAD V8i(SELECTseries 6) 02-12-18 Rev.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 8-3 South Hill Available Fire Flow Future Maximum Day Demand arsall Pl�ace PRV/CV '777 Color God Ing Legonc 4`1 Hydianl:Fire F low(Available)(gpm) 4101 500 Stone Quarry 3B PRV 40 <= 1,000 Itheici Coflege Tank 00�,w t4lude Valve tone Q j a rry 3A PRV Ithara Colleg6'p."; 1 1,750 Nort h v iew Ta n k Stne Quarry 28 PRV Coldlington Rd pump stalfion <= 2,500 Ston e Q j a tl nry 2A PRV Da n bly Rd I ank 3,000 <= TWO Stone Quarry 18 PRV 11 roy Hd I ank Uftr Stone Q va nry 1A PRV ♦ IN King 2 PRV Troy Rd pa sta ibn W King 1 PRV .......... 4 lop, Ilk, I+, It Jill 111411 Ridgecrest Tank Bentley WaterCAD V8i(SELECTseries 6) 02-12-18 Rev.wtg Bentley Systems,Inc. Hal Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 8-4 West Hill System Pressure Future Average Daily Demand Woolf Lane pump station Color Coding Legend s v —` Junokim Pressure(psi) Trumansburg Rd Tank I Trumansburcg Rd PRV 0 <= C u — 0 <= 3 �= 40 Oakwood PRV <= 60 akwood PRV 2 - k0 C= 80 V0 <= 100 _ <= 150 West Hill Tank Ll 4), <" 216' I tither M West Hill PRV —raw I Coy Glen Rd pump station Bostwick Rd Tank Mone Quarry PRV/CV i/ toneQuarry P,RVfQV 2 I Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 8-5 West Hill System Pressure Future Peak Hour Demand Woolf Lane pump station Color Coding Legend , —` Junokim Pressure(psi) NK Trumansburg Rd Tank I Trumansburcg Rd PRV 0 <" 2C u — 0 <= 3 �= 40 Oakwood PRV <= 60 akwood PRV 2 <= 80 �V C= 150 West Hill Tank �� 4), <= 216' Y tither West Hill PRV I Coy Glen Rd pump station Bostwick Rd Tank Mone Quarry PRV/CV toneQuarry P'RVfQV 2 I Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 2/19/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 8-6 West Hill Available Fire Flow Future Maximum Day Demand Woolf Lane pump station Color Coding Legend Hydrant: Fire Flow(Available)(gpm) Trumansburg Rd Tank Iii Trumansburg Rd PRV 500 1,000 Oakwood PRV 100 alkwood PRV 2 + 1,,750 2,500 3,000 mjl 3,500 I I.....I......I 0�r 11111 + 4000 I 1 , West H�ill Tank i I,, 'mi Other West Hill PRV Coy Glen Rd pump station IVB Bostwick Rd Tank Stone Quarry PRWCV StoneQuarry PRV/CV 2 Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/13/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 N 00 _Xo S, PEARSALL_LL PLACE I TOWN OF ITHACA 4e, PIPE SIZE LEGEND �pw 4-INCH ................................................. DALL,/E IMPROVEMENT No,2 6-INCH ................................................. 8 -INCH 10-INCH 12-INCH 41*N 16-INCH J NEW 8-INCH NEW 10-INCH................................................... NEW12-INCH NOTE I DIFFER TO SOUTH HILL WATER SYSTEM IMPRO EMENTSREPORT FOR ADDITIONAL DETAIL ON MODEL SCHEMATIC REMOVE ALTITUDE 'FEEL" ITHACA COLLEGE TANK VALVE VAULT NEW 8 PIPE ITHACA COLLEGE PUMPSTATION NORTHVIEWTANK IMPROVEMENT DANBY ROAD TANK No,l 0 400 800 1200 1600' coowldGTON ROAD SCALE V=800'ATORIGINALSIZE PUMP STATION - TOWN OF ITHACA,NEW YORK SOUTH HILL WATER SYSTEM IMPROVEMENTS NORTHVIEW I DANBY ZONE IMPROVEMENT LOCATIONS Figure 9-1 Figure 9-2 South Hill Available Fire Flow Existing Maximum Day Demand Northview/Danby Improvements ��err� � arj rs P a ._ . BVI Place PRVECV Hydrant Fne FW IA,,,da Ile)(gpC) r, %j 3,r tQQ F�UGpmc 5,000 Utl�der Ithaca IPege Tank Ithaca CtafVaga P5 hVarthvVevr Tarulk Coddin,gton Pd pump station Danby Rd Tank South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/26/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-3 South Hill Available Fire Flow Future Maximum Day Demand Northview/Danby Improvements Flea*aN ,Lako,'] earsatli Place PRVd4".V WrTr codong u,eu�ew,d Nyd,ant R,r Fdow(Aua pb�(qp.a „ 500 9„PpQ Uffier 0 thaca;11,g, ank , Ithaca dolVege PS hJ'artl1vbew I anik , og Uu' U:oddington fid pump station DanbyRd Tank South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/26/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 N MW7CHLINE(SEE FIG.0 1) IMPROVEMENT cOaa Na.2A oy 9Q N PIPE SIZE LEGEND. 0 TROY ROANTANK Npl 'o N 4-INCH 6-INCH INSTALL MANUAL PRV, 8_1 NCH IMPROVEMENT Nps IMPROVEMENT Na.B 10-INCH .................................... Na.26 TROY ROAD 12-INCH .............................. PUMPSTATION 16-INCH NEW 8-INCH NEW 10-INCH m00000000000000000000000n NEWPRV NEW 12-INCH ............................................................ KTN�RO•` eJ�c`' g� so IMPROVEMENT dry Oa Na.26 aR �N Ro NOTE IMPROVEMENT CLOSE EXISTING VALVE, Na.1 IMPROVEMENT No.1 1. OFFER TO SOUTH HILL WATER SYSTEM IMPROVEIVENTS REPORT FOR ADDITIONAL DETAIL ON MODEL SCHEMATIC. 0 400 800 1200 1600' SCALE V=800'ATORIGINALSIZE uuuu uuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuua xnnnmum um0000uu xnrvrvollllllllllllllllllllm0000llllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllll»»»»»»»i»»»»»»»»»»»»»»»»»»»»»»»»»»»»»»»nnuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuux uuuouuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu mm000uuuuuuuuuuuuuuuuuuumum0000muuuuuuuuuuuuuuuuuuum»mwniuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu - TOWN OF ITHACA,NEW YORK ®IIQIII�WIII� °� =SOUTH HILLWATERSYSTEM IMPROVEMENTS �IMNOidol� TROY ROAD ZONE IMPROVEMENT LOCATIONS �IIIIIII� Figure 9-4 ••�-. ..`•�`• ,..,. ,..., �N�raa w .�,,. as exmi" AN51 B Figure 9-5 South Hill Available Fire Flow Existing Maximum Day Demand Troy Road Improvements I & 2A Color Coding LIapend Coddinglon Rd pump station I tydrant Ne Flow(Avaflablo)(gpm) 500 mmo a= 1,000 1,900 2,500 Troy Rd Tank 11140 uao + <= 3'sao "'rr y Rd pump station East King 11 P'R!V South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +11-203-755-11666 Figure 9-6 South Hill Available Fire Flow Existing Maximum Day Demand Troy Road Improvements I & 213 Golof CodOq Legend Coddington Rd pump station �fydlwl;Hire F low(Availlable)(gpma 500 1,000 <z 1,499 1,750 ;I1" N/1" 2,500 3,000 Troy Rd Tank % <2 3,500 IN/d, 5,000 11� y Rd purnp statior 'd East King 1 PIRV East King 2 PRV South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-7 South Hill Available Fire Flow Future Maximum Day Demand Troy Road Improvements I & 2A Color Coding LIapend Coddinglon Rd pump station I tydrant Ne Flow(Avaflablo)(gpm) 500 mmo a= 1,000 1,900 7F)c 2,500 Troy Rd Tank 11140 uao + <= 3'sao r y Rd pump station East King 11 P'R!V South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +11-203-755-11666 Figure 9-8 South Hill Available Fire Flow Future Maximum Day Demand Troy Road Improvements I & 213 Golof CodOq Legend Coddington Rd pump station �fydlwl;Hire F low(Availlable)(gpma 500 1,000 <z 1,499 1,750 ;I1" N/1" 2,500 3,000 Troy Rd Tank % <2 3,500 IN/d, 5,000 11� y Rd purnp statior East King 1 PIRV East King 2 PRV South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-9 South Hill System Pressure Future Peak Hour Demand Troy Road Improvements I & 2A Coddington Rdl pump station Color Coftg Legend Junction:Pressure(psi) 20 <= 34 40 <= 60 80 Troy Rd Taink 100 150 <;; 165 Other 0 Tr y Rd pump station East King 1 PRV South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-10 South Hill System Pressure Future Peak Hour Demand Troy Road Improvements I & 213 Coddinglon Rd purrip station Color Coding Legend Junction:Pressure(psi) <= 20 34 <= 40 <= 60 Troy Rd Taink 10C 15C <= 165 Other T 'y Rd puimp,station East King 1 PRV East King 2 PRV South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 MATCHLINE A'HISFIG) N ............... STONE QUARRY '�'yF, 1A PRV � SF ♦Fc m,C9 STONE QUARRY STONE QUARRY 3A PRV 23 PRV y F P iw a STONEQUARRY 3B PRV STONE QUARRY to PRV m�� MATCHLI EA STONE QUARRY PIPE SIZE LEGEND. JS PRV iy IMPROVEMENT 4-INCH ................................................. Hp o 6-INCH ................................................. W KING 2 PRV S-INCH 0-INCH 12-INCH .............................. ro "—' 16-INCH a, .... ..... W KING PRV LL; NEWBINCH TI BE DR NEW 10-INCH m00000000000000000000000n NEW 12-INCH ......... IMPROVEMENT Na.46 IMPROVEMENT g Na.4A .... a `. . cm AN o IMPROVEMENT IMPROVEMENT LARISALN Na.1A No,2 IMPROVEMENT Na.1B 0 500 1000 1500 2000 NOTE SCALE V=1000'ATORIGINALSIZE 1. REFER TO SOUTH HILL WATER SYSTEM IMPROVEIVENTSREPORT FOR ADDITIONAL DETAIL ON MODEL SCHEMATIC RIDGECREST TANK I NEW BOOSTER STATION IMPROVEMENT No.5 uuuu uuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuum ennnmum um0000uu arvrvoollllllllllllllllllllm0000llllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllll»»»»»»»i»»»»»»»»»»»»»»»»»»»»»»»»»»»»»»»nnuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuux uuuouuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu mm000uuuuuuuuuuuuuuuuuuumum0000muuuuuuuuuuuuuuuuuuum»mwniuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu - TOWN OF ITHACA,NEW YORK ®IIQIIm�'IOpp� °� =SOUTH HILL WATER SYSTEM IMPROVEMENTS �IMNOIdoI� RIDGECRESTZONE IMPROVEMENT LOCATIONS �IIIIIII� 11141- Figure 9-11 ••�-. ..`•�`• ,..,. ,..., �N�raa w .�,,. as exmi" AN51 B Figure 9-12 South Hill Available Fire Flow Existing Maximum Day Demand Ridgecrest Improvements (1A & 4A) Stone Quarry 3A PRV Stone Quarry 3B PRV Stone Quarry 2A PRV Stone Quarry 2B PRV Stone Quarry 1A PRV Stone Quarry 1B PRV nodiog Legand W King 1 PRV It',"I Hydrant Fire w(Av,100W)(9pn)) W King 2 PRV <= 500 um �uu <= 1,000 <= 1,49'9 uu <= 1,750 A, 2,50C <= 3,000 c= 3,500 <= 5,000 Ridgecrest Tank Other South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-13 South Hill Available Fire Flow Existing Maximum Day Demand Ridgecrest Improvements (1A & 413) Stone Quarry 3A P,RV Stone Quarry 38 PRV Stone Qua"2A P,RV Stone Quarry 2B P,RV Stone Quarry 1A P,RV Stone Qua"1B PPV CoW Coding Legond W King 1 PPV HydranL Firo,Flow Avail aWo)(9prn) . ....... W King 2 PPV 111+ 500 t4 + 1,000 „rt y 1,499 1,750 p�b an <= 3,DOC + 1= 3,50C <= 5'GOC Ridgecrost Tank South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +11-203-755-1666 Figure 9-14 South Hill Available Fire Flow Existing Maximum Day Demand Ridgecrest Improvements (I B & 4A) Stone Qua"3A P,RV Stone Qua"38 PRV Stone Quarry 2A P,RV Stone Quarry 28 PIRV Stone Quarry 1A P,RV Stone Quarry 1B P,RV Collor CodingILegend W King 1 PRVI"."(_ W King 2 PRV Hydraft Fire,Flow(AvaflaUo) gpm) 1114111 <= 500 1,00C + 1,499 <= 1,758 2,500 3,500 Ridgecrest Tank Othor South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-15 South Hill Available Fire Flow Existing Maximum Day Demand Ridgecrest Improvements (I B & 413) N# Stone Qua"3A P'RV Stone Qua"38 P'RV Stone Quarry 2A P'RV Stone Quarry 28 P,RV IN Stone Qua"1A P,RV Stone Quarry 1B P,RV Collor Coding e,Beare W Kng 1 P,RV Hydraft Fire,Flow(AvaflaUo)WPM) W KinIg 2 PRV IIImt= 50c Vi 1,000 1,499 <= 1,750 IN IN Aafil/,"' 2,500 N+ <= 3,000 <; 3,500 5,000 RWgocrost Tank South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-16 South Hill System Pressure Existing Peak Hour Demand Ridgecrest Improvements (1 B & 4A) Stene Quarry 3A PRV Stene Qua"38 P'RV Stene Quarry 2A P'PV Stene Qua"28 P'PV 1, Stene Quarry 1A P'RV Stene Quarry 1'8 P'RV W King 1 PP V Color Coding Legend W King 2 PHV l Junction:Pressure(psi) <= 34 — 40 60 4 c_ 80 < 1410 I iV ill c 1541 Gln ' y 165 Ridge t Tank. Other Pressure addressed by Improvement No. 5 South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-17 South Hill Available Fire Flow Future Maximum Day Demand Ridgecrest Improvements (1A & 4A) Stone Quarry 3A P,RV Stone Quarry 38 PPV Stone Qua"2A P,RV Stone Qua"28 P,RV 4t Stone Quarry 1A P,RV Stone Quarry 1B PPV Ok CoW Coding Lege.nd W KKing 1 PPV ..................+ W ing 2 P HydranL FiFaceFlow(AvaflaWo)]9P°n1 RV 500 1,000 1,499 ,lot <= 2,500 mi in <= 3,DOC 1= 3,50C uuxr <= 5'GOC Ridgecrest Tank South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-18 South Hill Available Fire Flow Future Maximum Day Demand Ridgecrest Improvements (1A & 413) Stone Quarry 3A P,RV Stone Quarry 38 PPV Stone Qua"2A P,RV Stone Quarry 28 P,RV Stone Quarry 1A P,RV Stone Qua"1B PPV CoW Coding Lege.nd W King 1 PPV HydranL Firo,Flow(AvaflaWo)(9prn) . ....... W King 2 PPV 111+ K. 500 + 1,000 <= 1,499 +,.,.I,.1,, mi 1,750 <= 2,500 A/ 6. <= 3,DOC + 3,50C 1111+ 5'GOC Ridgecrost Tank South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-19 South Hill Available Fire Flow Future Maximum Day Demand Ridgecrest Improvements (I B & 4A) Stone Qua"3A P,RV Stone Qua"38 PRV Stone Quarry 2A P,RV Stone Quarry 28 PlRV Stone Quarry 1A P,RV Stone Quarry 1B P,RV CollOr Coding ILegend W King 1 P,RV Hydraft Fire,Flow(AvaflaUo)(gpm) W King 2 PRV m of <= 500 1,00C 1,499 <= 1,75C 2,500 <_ 3,DOO 3,500 RidgecreSt Tank Othor South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-20 South Hill Available Fire Flow Future Maximum Day Demand Ridgecrest Improvements (I B & 413) N# Stone Qua"3A P'RV Stone Qua"38 P'RV Stone Quarry 2A P'RV Stone Quarry 28 P'RV IN Stone Qua"1A P'RV Stone Quarry 1B P'RV 1. N+, Collor Coding ILegrnd W King 1 P,RV Hydraft Fire,Flow(AvaflaUo)(qpm) W King 2 PRV III+ 50c 1,000 mo^ NI 1,499 N+ L. <= 1,750 2,500 3,500 5,000 RWgocrost Tank Ckhler South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 9-21 South Hill System Pressure Future Peak Hour Demand Ridgecrest Improvements (1 B & 4A) Stene Quarry 3A PRV Stene Qua"38 P'RV i Stene Quarry 2A P'PV Stene Qua"28 P'PV Stene Quarry to P'RV Stene Quarry 1'8'P'HV ��;�.--tlllllull W King 1 PP V Color Coding Legend W King 2 PHV i Junction:Pressure(psi) .... <= 34 — 40 4CI cam. S < 100 I iV ill c 150 ' y 165 Rdg Tank. Other Pressure addressed by Improvement No. 5 South Hill Improvement Alternatives Existing Conditions 04-25- Bentley WaterCAD V8i(SELECTseries 6) 18.wtg Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 I COY GLEN PUMPSTATION 'All INSTALL MANUAL PRY, STONEOUARRYPRVICV j IMPROVEMENT Na.3 "-� BOSl1NICK RU TANK Q2 w STGNE QUARRY PRV I CV 2 IMPROVEMENT PIPE SIZE LEGEND. "T", 4-INCH .................................................. ``�'� �. NDRTHVIEW/DANBY 6-INCH ................................................. SERVICE AREA a-INCH 10-INCH .................................... 12-INCH ............................... IMPROVEMENT16-INCH ..................................... Na.2 NEW 8-INCH P1 NEW 10-INCH m00000000000000000000000n I NEW 12-INCH uuuuuuuuuuuuuuuuuuuuuuuuuuuumr. w NEW 14-INCH................................................... �¢g NOTE 1. REFER TO WEST HILL WATER SYSTEM IMPROVEMENTS REPORT FOR ADDITIONAL DETAIL ON MODEL SCHEMATIC. 0 750 1500 2250 3000' SCALE V=1500'ATORIGINALSIZE uuuu uvuuunnuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu nnnnuuuuu uuuuuuum uuuuuuuuuuuuum xnnmuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu nnnnnuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuum nnnnuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuum�PPPPPPPPPPPPPPPPPPPPPPPPPl nnnnuuuuuuuuuuuuuuuuuuuuuum nnnnuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu TOWN OF ITHACA,NEW YORK WEST HILL WATER SYSTEM IMPROVEMENTS �Illlliimll�l - '° BOSTWICK ROAD ZONE IMPROVEMENT LOCATIONS Figure 10-1 .�..`•�" � .,, �N�raaw =rt=e asexmi" AN51B Figure 10-2 West Hill Available Fire Flow Existing Maximum Day Demand Bostwick Road Improvements Coy Glen Flet Pump s'tat'ion teneQvarry PRVIC7V2 Stone Quarry P'R'VICrV' Bostwick RdTarI�N�. CobrCodIng Legend Hydrant:Fire Flow(Avadable)(gprrO m 5= 500 Vur: c= 1,000 �= 1,499 �= 1,'750 = 2,500 m S= 3,000 �= 3,500 4„000 Oaler 1- Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/10/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 10-3 West Hill Available Fire Flow Future Maximum Day Demand Bostwick Road Improvements Cray Glen Fief pump station StoneQvarry PRV/CV 2 Stone Quarry P'R'VICV' E3�astwic0<,RdTarte, fj Cobr Coding Legend Hydrant:Fire Flow(Avadalble)(gpniO = 5'Of1 = 1,750 s= 2,500 3,000 <= 3,500 r S= 4,000 Other Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/10/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 MATCHLINE(SEE FIG 10 0)- TRUMANBBURG RD TANK 1 TRUMANBBURG RD PV !"? INSTALL NEW HYDRANT, IMPROVEMENT NO.6 BUNDY RD CN SWITCH HYDRANTS TO TRUMANSBURG ROAD ZONE,IMPROVEMENT N0.4 PIPE SIZE LEGEND'. 4-INCH ................................................. ... ..... '........ 6-INCH ................................................. S-INCH 10-INCH ..................................... IMPROVEMENT NO.1 12- INCH III NEW PRV,IMPROVEMENT Na.3 16-INCH r Q NEW 8-INCH ...,....,....,....,... o NEW 10-INCH .. WEST HILLTANK III iuuuuuliuuuuuliuuuuuliuuuuuliuuuu. 3 NEW 12-INCH o NEW 14-INCH w NEW BOOSTER STATION, IMPROVEMENT N0.2 WEST HILL PRV O NOTE ------ 1. REFER TO WEST HILLWATER SYSTEM IMPROVEMENTS REPORT H{ FOR ADDITIONAL DETAIL ON MODEL SCHEMATIC. cPL�1 1/ 0 750 1500 2250 3000' orF, SCALE 1"=1500'ATORIGINALSIZE N »»»»»»»»»»»»»»»»»»»»»»»»»»nn ' TOWN OF ITHACA,NEW YORK WEST HILL WATER SYSTEM IMPROVEMENTS illlliimll�l - '° WEST HILL ZONE IMPROVEMENT LOCATIONS 11141- Figure 10-4 .�..`•�" , .,, °N�r:m.., =rt=e asexmi" AN51B Figure 10-5 West Hill Available Fire Flow Existing Maximum Day Demand West Hill Improvements Trrumansburg Rd Tank p� Tnurnansburg Rd PIRV 1 i ColonCodiog Legond hydrant:Phto 8'ow(Avak)blld,)('qpm! <= 500 ''two, <= 1,000 Oakwood PRV o <= 1,750 aikwt7od PRV 2 [= 2,50C 3,000 a= 3,50a <= 4,50C „ "yk±'est,Hill PRV 2 Olher West Hl 111 Tan ik uq q, IWeM Hill PRV Ut,y Glen Rd paam,p c'at's an Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/10/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 10-6 West Hill System Pressure Existing Peak Hour Demand West Hill Improvements Trumanslburg Rd Tank 1 Trumansburg Rd PRV U taobr Co&g Legend J unctnom Pressure(Iasi) • 20 N 1114 w 34 0 wor od PRV 40 Oakw od PRV 2 �l t • c� f0 � �NNNf� c 80 �iii� f • c= 100 c 15,0 Ugh 1 r 210 eSt Hi I1 FRV 2 • otfuer West Hill Tank �i 40 P Pressure addressed by ��4 f Improvement No. 2 t� West Hull IF H,V -�— �IIttlNtlhi� I Coy Glen Rd pump station Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 4/18/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 10-7 West Hill Available Fire Flow Future Maximum Day Demand West Hill Improvements Trumansburg Rd Tank Trurnansburg Rd PIRV Color Codiog Leqond hydrant HIM 8'OW (qpm! <= 500 ''two, <= 1,000 Oakwood PRV <= 1,7a1,750 Aikwood PRV 2 <= 2,50C <= 3,000 <= 3,50a <= 4,50C West Hill PRV 2 Other West Hilll Tank Wee Hill PRV Coy Glen Rd pkimp station Bentley Watei-CAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/10/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 10-8 West Hill System Pressure Future Peak Hour Demand West Hill Improvements 1 ruansburg Rd I anR I I rurnansburg Rd PRV Color Coding Legend Junction,Pressure(psi) Pressure addressed by ® 20 � R� Improvement 7A/713 uiw � 34 Oak ood PRV = 40 Oakwo d PRV 260 \ RRt = 80 V IVu = lou <= 150 v, �= 210 West Hil RV L Other West Hill Tank I ou iu Y" 6 1 W Pressure addressed by Improvement No. 2 West Hull PRV I Coy Olen Rd pump stati0n Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 4/18/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 N WOOLFIFAN P UMPSTATION IMPROVEMENT No,2 PIPE SIZE LEGEND 4 ................................................ ................................................. 6NCH SWITCH CUSTOMER TO VAN CORNS ZONE, NCH IMPROVEMENT No.3 T" 8-INCH ....... 10-INCH ........................... IMPROVEMENT 2 No'l NCH 16-INCH NEW 8-INCH li7 NEW 10-INCH .................................................I . uuuuuuuuuuuuuuuuum ......... NEW 12-INCH uuuuuuuuuuuu NEW 14-INCH.................................................. NOTE I REFER TO WEST HILL WATER SYSTEM IMPROVEMENTS REPORT FOR ADDITIONAL DETAIL ON MODEL SCHEMATIC BUNOY RD s( 0 500 1000 1500 2000' SCALE V=1000'ATORIGINALSIZE ITHACA,NEW YORK WEST HILL WATER SYSTEM IMPROVEMENTS TRUMANSBURG ROAD ZONE IMPROVEMENT LOCATIONS .... Figure 10-9 .. .... Figure 10-10 West Hill Available Fire Flow Existing Maximum Day Demand Trumansburg Road Improvements Cobrr Coding Legend Hydrant:Fire,Flow(Available)(gpm) Woolf Lane pump station u 'goo umuu C= 1,000 o = 1,499 c= 1,750 2,500 = 3,000 <= 3,500 4,500 otiherr 11 rrurnansburrg Hd bank Trumansburg Rd PIHV 1 Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/10/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 10-11 West Hill System Pressure Existing Peak Hour Demand Trumansburg Road Improvements Color Coding Legend Woolf Vane puunnp station Junction Presssuire(psi) �U <= 20 34 \ <= 40 �u \ <= 60 <= '80 <= 1,......0 <= 150 ANN <= 210 Other Trrurnansburrg Rd Tank WP II murnansburq Rd PIHV V"NHh �1e �II��UIY Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 4/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 10-12 West Hill Available Fire Flow Future Maximum Day Demand Trumansburg Road Improvements Cobrr Coding Legend Hydrant:Fire,Flow(Available)(gpm) Woolf Lane pump station u 'goo umuu C= 1,000 o = 1,499 c= 1,750 2,500 = 3,000 <= 3,500 4,500 otiherr 11 rrurnansburrg Hd bank Trumansburg Rd PIHV 1 Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 9/10/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Figure 10-13 West Hill System Pressure Future Peak Hour Demand Trumansburg Road Improvements Calor Ceding Legend Junction:Pressure(psi) Woolf(Lane pump sWiorn i �IIU 24 1t = 34 40 \ = 60 1610 = 160 u 1� 210 lfrrurnansburrg Rd TaTankOther II Trurnansburrg Rd PIRV 1 Np� Bentley WaterCAD V8i(SELECTseries 6) West Hill System Model Bentley Systems,Inc. Haestad Methods Solution Center [08.11.06.113] 4/25/2018 27 Siemon Company Drive Suite 200 W Watertown,CT 06795 Page 1 of 1 USA +1-203-755-1666 Appendix A - Breakdown of Opinion of Probable Project Costs for South Hill Improvement Alternatives m�� I�IIIIII�llllll�u�um�� `�m1NIIIIIII�IVtVNNiaNu�� Appendix A - Breakdown of Opinion of Probable Project Costs for South Hill Improvement Alternatives NORTHVIEW/DANBY ZONE Improvement Switching ter Mains on Northviewiv the Northview/Danby Pressure Zone to the Troy Road Pressure �,.� rrrr ,rrrrrrrrrrrrrrr�,. oo, //rr/ /ii of/i / //iiiiiii Dili ilii / //, i.° /i/ i _./ ✓o ///ooiiiiiiiiiiioo/ ria�o a,oo ,iii// oil aaiiioiii /oa��o /ia�� oiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiiio ,,,,,,, �„/oil Doli.. /��1JJ� 1��;,rrrrrrrrr„rrrrrrr,,,,„,,rrrr,,,,�r, rrrrrrr,,,,,,,�,rrrrrrr,,,,,,,�,,,,,,�,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,„,,,,,,,,,,,,,,,,,,,,,,,,,,,,, /��, rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr,��rrrrrrrrrrr�rrrrrrrrrrrrr��r„rrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrr, �� r rrrrrrrr ,,, ...,rrrrr ,rrrrrrrr ,rrrrrrrr ,rrrrrrrr ,rrrrrrrr ,rrrrrrrr ,�r/iia/ a r r ,,,,,,,' .rrrr rim rrrrrrrr a;^j%%� %�%/% riiicccc riiccccc riccccccccccc ccccccccc ccccccccc ccccccccc ccccccccc ccccccccciio an��i��ol2�iiiiiiiiccccc2iiiiiii,. 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GHD I South Hill and West Hill Water System Improvements,Town of Ithaca, NY—11144172.1 1 B-7 i 3' s, MEETING OF THE ITHACA TOWN BOARD Monday, January 28, 2019 TB Resolution No. 2019-XXX: Town of Ithaca Abstract No. 1 for FY-2019 Whereas the following numbered vouchers have been presented to the Ithaca Town Board for approval of payment; and Whereas the said vouchers have been audited for payment by the said Town Board; now therefore be it Resolved that the governing Town Board hereby authorizes the payment of the said vouchers in total for the amounts indicated. VOUCHER NOS. 35 - 135 General Fund Town Wide 144,448.03 General Fund Part-Town 36,477.06 Highway Fund Town Wide DA 73,174.39 Highway Fund Part Town DB 46,525.46 Water Fund 34,911.06 Sewer Fund 263,482.49 Gateway Trail—H8 State Route 96b Sidewalk—H7 1,135.86 Park Lane Water Main Improv—Hl 1 1,445.00 Sapsucker Woods Water Main—H12 1,355.00 Christopher Circle Water Main—H13 1,070.00 Ellis Hollow Water Tank—H10 6,361.73 Trumansburg Water Tank Replace—H9 2,055.00 Risk Retention Fund Fire Protection Fund Forest Home Lighting District 54.33 Glenside Lighting District 16.26 Renwick Heights Lighting District 27.12 Eastwood Commons Lighting District 37.97 Clover Lane Lighting District 5.04 Winner's Circle Lighting District 7.56 Burleigh Drive Lighting District 17.70 West Haven Road Lighting District 70.23 Coddington Road Lighting District 40.80 Trust and Agency Debt Service TOTAL 612,718.09 Moved: Seconded: Vote: gE,'ir][('1,3 IItE,ir IC�o, (I MEETING OF THE ITHACA TOWN BOARD Monday, January 28, 2019 TB Resolution 2019-xxxd: Appointment to the Joint Youth Commission Resolved, that the Town Board hereby appoints Chelsea Benson to serve on the Tompkins County Joint Youth Commission for a five-year term from January 28, 2019 to December 31, 2024. Moved: Seconded: Vote: OFIp _ TOWN OF ITHACA 18 2' 215 N. Tioga Street, Ithaca, N.Y. 14850 www.town.ithacamy.us Board / Committee Application Please type or print in black ink If you are interested in serving as a member of a board or committee please complete this form, attach additional sheets or resume if necessary. Return completed applications to the Town Clerk's Office. Name: Chelsea Benson Address (residence): 319 Coddinqton Rd, Ithaca Telephone (home) (work) 255-0255 Email address: benson.chelseaa-.gmail.com (cell phone) (518) 598-7130 Do you live in the Town of Ithaca? yes Length of residence: 4 years Occupation: PreK-12 Program Coordinator, Cornell Public Service Center Relevant education, experience and community affiliations: I have worked with youth and .government agencies, universities, non-profits, and schools for 15 years. I currently oversee 10 different student-run organizations at Cornell that work with youth across the region. In the past, I was the Education Program Coordinator for the Columbia County Soil & Water and oversaw an environmental center and all its programming. I have a MA in Environment and Community Studies from Humboldt State University and wrote my thesis about the importance of children's special places (forts, dens, and hideouts) to children's physical, emotional, and social development. I have a BA in Psychology and English from Allegheny College. Areas of Interest (specify board/committee if known): Joint Youth Commission Why are you interested in this position? I would like to utilize my experience, education, and skills to benefit the town of Ithaca and the youth and families residing therein. What particular strengths would you bring to this position? I have an in-depth knowledge of existinq programs for youth in the Ithaca area and have a track-record of program development and improving programmatic reach and impact. J/K41-k 11/20/2018 Signature of applicant Date Submit application to Town Clerk with resume, if available. Office use only. Date received: Decision letter mailed: Recommended to serve on: Replacing: Committee recommendation: Date: Town Board appointment date: Term: (AHELSEA BENSON 319 CODDINGTON ROAD CB754@CORNELL.EDU � IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII � IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIILLIIIIIIIIIIIIIIIIIILI� �� , ITHACA, NY 14850 518.598.7130 Is, IIIIIIII IIIIIIIIIII Microsoft: Word, PowerPoint, Excel, Publisher PreK-12 Program Coordinator January 2018-present Adobe Creative Suite: Photoshop, Cornell Public Service Center InDesign • Advise and support students and student-led boards charged with the Digital Marketing: MailChimp, facilitation of Public Service Center's PreK-12 Programs. Hubspot, Canva • Recruit, hire, train, and supervise student volunteer and employees. Website Management: WorclPress Ensure compliance with Federal Work-Study. Social Media: Facebook, Twitter, • Ensure programs and organizations are adhering to university and Instagram, YouTube Public Service Center policies. IIIIIIIIIII �� • Maintain data collection systems including the timely reporting of accurate numbers as dictated by program, center, and university needs. Humboldt State University • Maintain accounting records for PreK-12 budgets. Arcata, CA • Seek out and apply for internal and external funding; support Masters of Arts: Social Science, student's efforts to apply for grants and awards. Environment and Community • Establish, build and maintain supportive and productive relationships Summa Cum Laude with target school districts, community partners/agencies, Cornell departments, programs and networks that will support and enhance Relevant Coursework: the student experiences and opportunities, and outcomes. Grant Writing, Community and Place, Academic Writing Project Assistant June 2015-January 2018 Cornell Lab of Ornithology, Citizen Science Ithaca, NY Master's Thesis: Changing Places: • Support Project FeederWatch and NestWatch in administering, Children's Experience of Place developing, and servicing citizen-based research and education during Middle Childhood initiatives.These projects enlist the help of over 25,000 volunteers Research cited on NPR's science from across North America in gathering data on bird populations. blog Krulwich Wonders • Responsible for the creation and implementation of NestWatch's STEM curriculum and workshops for in-school and CCE afterschool, grades 5- http://bit.ly/ThesisResearch 8. Bilingual curriculum scheduled for 2018 release. • Write, edit, and manage blogs, eNewsletters, and the projects' social Allegheny College media presence for an audience of over 300,000. Meadville, PA Bachelors of Arts: Psychology, Education Program Coordinator June 2009-April 2015 English Columbia Co. Soil& Water Conservation District Ghent, NY Cum Laude • Developed and presented programming for the District and Mud Creek Relevant Coursework: Environmental Learning Center. Developmental Psychology, • Cultivated relationships with schools, libraries, community Psychology of Learning, Behavioral organizations, and local governments. Psychology • Educated 6,000 participants annually. Primary audience PreK-12. • Increased programmatic outreach by 165%. Senior Thesis: Gender Segregation • Lead coordinator and fundraiser for Hudson Valley Regional in Children's Literature: Reflections Envirothon. of Reality? (AHELSEA BENSON 319 CODDINGTON ROAD CB754@CORNELL.EDU ITHACA, NY 14850 518.598.7130 IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII,II!IIIIIII�IIIIIII Ill�glllll�� Youth Employment Service Representative April-June 2015 Columbia Co. Soil & Water Ithaca Youth Bureau Ithaca, NY • NYS Conservation District • Provided outreach at local high schools regarding summer Employee Assoc., Division VII employment opportunities. Merit Award • Helped youth develop work-readiness skills including resumes, • Boy Scouts of America, interviewing, and jobsite professionalism Mahikan District, Youth • Coordinated with the Department of Social Services and schools. Service Award Education Specialist August 2007-June 2009 Frost Valley YMCA • Most Valuable First-Year TOOTHAmeriCorps Fortuna, CA Instructor • Supervised and evaluated 15 AmeriCorps members'teaching progress. Humboldt State University • Provided trainings, including classroom management and lesson . Graduation with Distinction preparation. • McKonkey Award Nominee for Service-learning Instructor August 2008-June 2009 Outstanding Master's Thesis Jacoby Creek Charter School Bayside, CA Allegheny College • Developed and taught place-based lessons for grade 6. • Outstanding Leadership Award • Facilitated student-initiated service projects. • Psychology Departmental Honors Program Instructor August 2006-June 2007 • Senior Thesis: Outstanding Frost Valley YMCA Claryville, NY Achievement • Taught environmental education, outdoor recreation, and team- • NCAA Dill National Qualifier: building programs. Cross Country, Track& Field • Created curricula for environmental education program. NNINIUMMENIM, Team Leader, AmeriCorps August 2005-July 2006 OutDoor School, Northwest Youth Corps Eugene, OR • Taught core subjects in alternative high school including Algebra, Find Chelsea on Linkedln Biology, History, and English Language Arts. http://bit.ly/Chelsea enson • Led student on multi-day backcountry conservation and trail maintenance projects. Team Member, AmeriCorps August 2004-July 2005 Elkhart EnviroCorps Elkhart, IN • Taught environmental education at local schools,grades K-6. • Designed and led summer camp programs, grades 3-8. • Coordinated 7 community service projects.