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Home My WebLink AboutRhodes Hall - Permit 339264'-814"T T2'-10"COPIER789101112654321UNDERGRAD11314151617182SC/42/20 /38ZCELAUNDERGRAD6UNDERGRAD4UNDERGRAD33'-0"GRAD2GRAD1new 42d 84w UNDERGRAD55'-0"UNDERGRAD2T TMOBILEC1COLUMNFIELD CUTWORK SURFACEEXIST.TBW23/66EX I S T . CAPERCAPER CAPERCAPERCAPERCAPERCAPERnew 24d 60wCAPER new 24d 60wEXIST.EXIST.EXIST.EXIST.EXIST.EXIST.new 24d 54wnew 24d 54wnew 24d 54wnew 24d 54wnew 24d 54wnew 24d 54wAMEXIST.AMEXIST.OWD15OWD15BBCBOFD15ABEXIST.3'-3" 4'-1 3 4"AS NOTEDLKF1CORNELL UNIVERSITYRHODES HALLITHACA, NY 14850DATE: 12/30/2015 11:55 AM FILENAME: N:\CLIENT FILES\A-C\CORNELL UNIVERSITY\RHODES HALL\ROOM 651\CAD\FURN RHODES 651 - 1.DWG 00000000112/01/2015THE ROPER CENTERSUITE 65112/8/2015This drawing is the property of SedgwickBusiness Interiors and may not bereproduced or used without written consent.This drawing is an electronic emulation of theoriginal record drawing. Details anddimensions are not guaranteed as accurateand complete and must be certified on-siteprior to design and construction work.Report any discrepancies to the Designeror Account Executive.DISCLAIMERGENERAL NOTES1.LAYOUT SUBJECT TO VERIFICATION OFFIELD DIMENSIONS AND CONDITIONS.2.ALL WALLS THAT ARE TO RECEIVE WALLHANGER STRIPS OR OVERHEADCASEWORK MUST HAVE MINIMUM 20 GA.METAL STUDS AT 16" O.C. WITH EITHER5/8" GYPSUM BOARD OR TWO 1/2"LAYERS OF GYPSUM WALLBOARD & CANWITHSTAND 250 LB/LF STATIC LOAD.3.WALL HANGER STRIPS TO BE HUNG WITHCENTER LINE NO CLOSER THAN 1-1/2" TOINSIDE CORNERS OF WALLS.4.ALL AO WALL STRIPS TO BE MOUNTED 7"AFF., ALL ETHO WALLS STRIPS TO BEMOUNTED 6" AFF., ALL CANVAS WALLSTRIPS TO BE MOUNTED 5" AFF.5.ALL WORKSURFACES SHALL BE MOUNTEDAT 29" AFF. TO TOP OF W/S FOR SIT DOWNHEIGHT OR 36" FOR STAND UP, UNLESSNOTED OTHERWISE.6.CLEAR DIMENSION BETWEEN ALL WORKSURFACE TOPS AND THE UNDERSIDE OFOVERHEAD STORAGE TO BE AT LEAST1'-6" CLEAR, UNLESS OTHERWISE NOTED.7.ELECTRICAL DEVICES, JUNCTION BOXES,AND CONDUIT ARE SUPPLIED, INSTALLED,AND FINAL CONNECTIONS BY ELECTRICALCONTRACTOR.8.ALL RECEPTACLES TO BE EVENLYDISTRIBUTED AMONG WORKSTATIONSEXCEPT WHERE NOTED.9.ONE DEDICATED RECEPTACLE PERWORKSTATION EXCEPT WHERE NOTED.176 ANDERSON AVENUE ROCHESTER, N.Y. 14607(585) 461-5070 FAX (585) 461-5595100 WEST COURT STREET SYRACUSE, N.Y. 13204(315) 424-1500 FAX (315) 474-4611379 PINE TREE ROAD ITHACA, N.Y. 14850(866) 532-1500CLIENT NAME & ADDRESS:SCALE:DRAWN BY:FINAL APPROVAL THIS DOCUMENT REPRESENTS THE FINAL LAYOUTAND CAN BE USED FOR FURNITURE INSTALLATION.DATE:REVISIONNUMBERDATE,ĞƌŵĂŶDŝůůĞƌΠĐĞƌƚŝĨŝĞĚĚĞĂůĞƌSIGNED:ISSUE DATE:QUOTE NUMBER:PROJECT TITLE:SCALE: 1/4" = 1'-0"RHODES HALL - ROOM 651 - THE ROPER CENTER - PLAN VIEW1SCALE: NOT TO SCALEROOM 651 - UNDER GRAD STATION2SCALE: NOT TO SCALEROOM 651 - DATA ARCHIVE3SCALE: NOT TO SCALEROOM 651 - RECEPTION STATION4212/08/2015312/17/2015SCALE: NOT TO SCALEROOM 651 - GRAD STATION5412/30/2015 Rhodes Hall Sixth Floor 651 Renovation Cornell University Ithaca New York 14853 100% Construction Documents Project Manual & Specifications January 4th, 2016 Owner Cornell Institute for Social and Economic Research Ithaca, NY 14853 Architect LEVENBETTS 508 West 26th Street, #317 New York NY 10001 RHODES HALL 6TH FLOOR 651 RENOVATION TABLE OF CONTENTS Page 1 Introduction to Design Phase Submission Information for Proposers IFP-1 thru 3 Proposal Form PF-1 thru 4 Form of Agreement - Short Form Contract 1 thru 11 DIVISION 02 – EXISTING CONDITIONS Section 02 40 00 Selective Demolition DIVISION 05 - METALS Section 05 40 00 Cold-Formed Metal Framing DIVISION 07 – THERMAL AND MOISTURE PROTECTION Section 07 21 16 Blanket Insulation DIVISION 09 – FINISHES Section 09 21 16 Gypsum Board Assemblies Section 09 29 00 Gypsum Board Section 09 65 13.13 Resilient Base Section 09 91 23 Interior Painting DIVISION 23 – HEATING, VENTILATION AND AIR CONDITIONING (HVAC) Section 23 05 29 Hangers and Supports for HVAC Piping and Equipment Section 23 05 53 Identification for HVAC Piping and Equipment Section 23 07 13 Duct Insulation Section 23 31 13 Metal Ducts Section 23 33 00 Air Ducts Accessories Section 23 36 00 Air Terminal Units Section 23 37 13 Diffusers, Registers and Grilles RHODES HALL 6TH FLOOR 651 RENOVATION TABLE OF CONTENTS Page 2 DIVISION 26 – ELECTRICAL Section 26 05 19 Low Voltage Electrical Power Conductors and Cables Section 26 05 26 Grounding and Bonding for Electrical Systems Section 26 05 29 Hangers and Support for Electricals Systems Section 26 05 33 Raceways and Boxes for Electrical System Section 26 05 53 Identification for Electrical Systems Section 26 09 23 Lighting Control Devices Section 26 27 26 Wiring Devices DIVISION 27 – COMMUNICATIONS Section 27 05 28 Pathways for Communications Systems Section 27 15 00 Communications Horizontal Cabling DRAWING LIST A000 Cover Sheet N/A A001 General Notes / Symbols / Abbreviations / Hatches N/A A002 ADA Compliance / Wall Types N/A A100 Key Plan 1/16"=1'-0" A101 Sixth Floor Demolition Plan 1/4"=1'-0" A102 Sixth Floor Reflected Ceiling Demolition Plan 1/4"=1'-0" A201 Sixth Floor Plan (CSL) 1/4"=1'-0" A601 Sixth Floor Reflected Ceiling Plan 1/4"=1'-0" H001 Sixth Floor Mechanical Schedules + Legend N/A H101 Sixth Floor Mechanical Removal Plan 1/4"=1'-0" H201 Sixth Floor Mechanical Plan 1/4"=1'-0" E001 Electrical Schedules + Legend N/A E101 Sixth Floor Electrical Removal Plan 1/4"=1'-0" E201 Sixth Floor Electrical Plan 1/4”=1’-0” FP101 Sixth Floor Fire Protection Removal Plan 1/4"=1'-0" FP201 Sixth Floor Fire Protection Plan 1/4"=1'-0" END OF DOCUMENT Project Fact Sheets Architect LEVENBETTS 508 West 26th Street, 317 New York, NY 10001 (212) 242-1414 levenbetts.com Structural Engineer Silman 32 Old Slip, 10th Floor New York, NY 10005 (212) 620-7970 silman.com MEP/FP Engineer Delta Engineers 860 Hooper Road Endwell, NY 13760 (607) 231-6600 deltaengineers.com Contact Sheet for Design Team Architect LEVENBETTS 508 West 26th Street, 317 New York, NY 10001 (212) 242-1414 levenbetts.com Description of Work Location The site of the Project is Rhodes Hall, 6th Floor Room 621 in the College of Engineering at Cornell University, Ithaca Campus. Context Rhodes Hall is located on the Engineering Quad of Cornell’s Ithaca Campus. The building was designed by Gwathmey Siegel and was completed in 1990. Scope of Work The purpose of the project is to create program space for the movement of a portion of the Cornell Institute for Social and Economic Research to Room 651/653B in Rhodes Hall. The room is currently a server room and will be converted into office space for 6-8 people. The rooms currently do not have adequate ventilation or lighting to accommodate the new occupation. It is envisioned that the design will require HVAC integration (Provide supply air from the trunk line in the hallway connected to ACS-3), Provide more hot water for perimeter radiation from the north stair area, minor electrical additions in the raised flooring system, minor architectural upgrades to the space to include furniture planning given the existing furniture that will be moved into the space, and the removal of two Liebert cooling units and repairing the floor. The space is approximately 1,200 GSF. The Construction Budget for the Project is $50,000. Photos of Existing Conditions INVITATION TO PROPOSERS RENOVATION OF RHODES HALL ROOM 651 CORNELL UNIVERSITY ITHACA, NEW YORK 14853 December 21, 2015 PREPARED BY: LEVENBETTS DISTRIBUTED BY: FACILITIES CONTRACTS 121 HUMPHREYS SERVICE BUILDING CORNELL UNIVERSITY ITHACA, NEW YORK 14853 (607) 255-3982 INFORMATION FOR PROPOSERS IFP-1 INFORMATION FOR PROPOSERS 1. PROPOSAL FORMS a. Proposals shall be signed by Principals or Officers duly authorized to execute such documents on behalf of their respective firms or organizations. Proposer's legal name must be fully stated. 2. METHOD OF SUBMISSION a. Proposals shall be prepared and enclosed in a sealed envelope. Envelope shall be addressed to: MAIL OR BRING TO: Nancy A. Phelps, Director Facilities Contracts 121 Humphreys Service Building Cornell University Ithaca, New York 14853 Proposal for: Rhodes Hall Renovation of Room 651 Submitted by: Proposer b. Proposals shall be delivered to the Owner at the address listed above no later than 2:00PM on January 21, 2016 c. Proposals will be opened publicly by the Owner, in Room 133 Humphreys Service Building, Cornell University Campus, Ithaca, New York, 2:00 PM on January 21, 2016. The Owner reserves the right to postpone the time and date of opening of proposals at any time prior to the time and date announced in this Invitation to Proposers or amendment thereto. 3. AWARD OF CONTRACT a. The Owner reserves the right to reject any or all Proposals, to waive minor informalities in any Proposal, and to make award in the best interest of the Owner. b. Prices shall be guaranteed for a period of sixty (60) calendar days after Proposal opening. 4. PROJECT START AND COMPLETION a. The project should be started within 15 calendar days from written authorization to proceed, and shall be completed by March 15, 2016 INFORMATION FOR PROPOSERS IFP-2 5. DRAWINGS AND SPECIFICATIONS FURNISHED a. Contract Documents may be obtained from the Facilities Contracts website (http://finance.fs.cornell.edu/contracts/pob/projects.cfm ). For assistance call 607-255-5343. b. Additional sets will be available at $_____ per set without refund. All subcontractors and suppliers requiring may order these at $_____ per set without refund. No partial sets will be issued. The Contract Documents remain the property of the Owner. c. The successful bidder will be allowed ten (10) sets of drawings and specifications. 6. ADDENDA AND BULLETINS a. Addenda and/or bulletins issued during the period prior to Proposal due date shall be acknowledged in the Proposal. 7. EXAMINATION OF SITE AND CONTRACT DOCUMENTS a. Each Proposer shall visit the Site of the proposed work, fully acquaint and familiarize him/herself with the conditions as they exist and the character of the Operations to be carried on under the proposed Agreement, and make such investigation as he/she may see fit so that he/she shall fully understand the facilities, physical conditions and restrictions attending the work under the Agreement. b. Each Proposer shall also thoroughly examine and become familiar with the outline specifications, with the Proposed Agreement, and with Cornell's Standard General Conditions. c. By submitting a Proposal, the Proposer covenants and affirms that he/she has carefully examined the Drawing, outline specifications, and associated General Conditions, the Addenda and Bulletins, if any, and the site; that he/she relies on no representation by the Owner, and that from his/her own investigation he has satisfied him/herself as to the nature and location of the work, the general and local conditions, and all matters which may in any way affect the work or its performance; and that as a result of such examination and investigation, he/she fully understands the conditions of making a Proposal and that he/she will not make any claim for, and waives any right to, damages because of misinterpretation or misunderstanding of the Invitation Documents and the conditions of making a Proposal. 8. ALTERNATE PROPOSALS a. Certain Alternate Proposals may be requested. They are listed in the Bid Form and all Bidders are required to bid on all Alternates without exception, in the spaces provided. b. Alternate Proposals shall include all overhead, profit and other expenses in connection therewith. INFORMATION FOR PROPOSERS IFP-3 9. DISCREPANCIES a. Should a Proposer find discrepancies in or omissions from the Invitation Documents, or should he/she be in doubt as to their meaning, he/she shall at once notify John M. Keefe, Project Manager, (607-255-8247 who will send written instructions to all Proposers. 10. PRE-BID MEETING a. A pre-bid meeting is being scheduled for January 6, 2015 at 2:00 PM in Room 133 Humphreys Service Building to clarify the intent of the contract documents as necessary. 11. TAX EXEMPTION STATUS a. The Owner, Cornell University, a non-profit educational institution is exempt from payment of certain Sales and Use Taxes and certain Federal Excise Taxes. b. Proposers shall inform all prospective subcontractors and suppliers, from whom they expect to obtain proposals or quotations, of the tax exempt status of the Owner as set forth above and request that they reflect anticipated tax credits in their proposals or quotations. c. At the Proposer's request, following the award of a Contract, Contractor exempt purchase certificates will be furnished by the Owner to the Contractor with respect to such tax exempt articles or transactions as may be applicable under the Contract. 12. BONDS a. Performance and Payment Bonds. The successful Proposer shall furnish the Owner with "Performance" and "Labor and Material Payment Bonds", each in the amount of 100% of the Contract Price. The cost of such bonds shall be included in the Proposal. Each of these Bonds are to be in a form with such sureties as the Owner may approve. b. Bid Bond. Each Bidder will be required to furnish a Bid Bond in the amount of 10% of Bid Amount. Such Bid Bond shall guarantee that the Bidder will execute the Contract if it is awarded to him in conformity with his Proposal. Such Proposal Guarantee Bond shall include a statement that the Insurer shall, at the option of the Bidder, be willing to provide the Bidder the Contract Bonds as described in 11a. above. INFORMATION FOR PROPOSERS IFP-4 13. QUALITY CONTROL a. The implementation of effective quality control shall be the responsibility of the Contractor. While the Owner's Representative is authorized to review, stop, and reject the work, no actions or communications on the part of the Owner's Representative shall be construed to represent an approval of any part of the work nor to release the Contractor from any obligations under the provisions of the Agreement. b. A list of names from which the Proposer proposes to select subcontractors, material supplies, and/or manufacturers for the principal trades or subdivisions of the work is required as part of the Proposal. 14. CONSTRUCTION TRADES a. All labor for this project which is normally under the jurisdiction of one of the local unions as covered in the contract between the Tompkins-Cortland Building Trades Council, Maintenance Division and Cornell University shall be performed by members of the appropriate local union including Electricians, Plumbers & Pipefitters, Carpenters, Bricklayers, Masons & Plasterers, Painters, and Sheet Metal Workers. BID FORM BF-1 Rhodes Hall Renovation of Room 651 Cornell University, Ithaca, New York BID FORM Submitted by: Date To: Nancy A. Phelps, Director Facilities Contracts 121 Humphreys Service Building Cornell University Ithaca, New York 14853 Gentlemen: The undersigned, (Name of Bidder) a (Type of Firm, State of Incorporation, if applicable) of (Address) having carefully examined the Instructions to Bidders, the "Conditions of the Contract" (General, Division 1 - "General Requirements"), and the Drawings, Specifications and associated Bid Documents dated __________ prepared by , as well as the premises and conditions affecting the work, proposes to furnish all material, equipment, labor, plant, machinery, tools, supplies, services, applicable taxes and specified insurance necessary to perform the entire work, as set forth in, and in accordance with the said documents for the following considerations: 1. BASE BID a. All work complete, for the sum of ($ ) for MATERIALS, SUPPLIES, LABOR, and SERVICES AND ALL OTHER COSTS. BID FORM BF-2 2. ALTERNATE PROPOSAL a. The undersigned, if awarded the Contract, proposes to perform work in addition to or in place of the scope of the work shown and specified herein as associated with the Base Bid in accordance with the following Alternate Proposals, which amounts are to be added or deducted to the amount of the Base Bid as indicated for the Alternates specified in Division 1 of the Specifications. b. If the Bidder desires to indicate that the acceptance of any Alternate or Alternates will result neither in an addition to nor a deduction from the value of the work, he shall enter the phrase "No Change" in response to such Alternate or Alternates. c. It is understood that the Owner reserves the right to accept or reject any or all of the following Alternate Proposals within _______ (XX) calendar days following the award of a construction contract. PM INSERTS Alternate No. Description ADD DEDUCT ONE BID FORM BF-3 3. START OF WORK AND TIME FOR COMPLETION a. The undersigned agrees, if awarded the Contract, to commence work at the site within 15 calendar days after date of issuance of written notice to proceed and to complete the project no later than March 15, 2016 4. LIST OF PROPOSED PRINCIPAL SUBCONTRACTORS a. The undersigned agrees, if awarded the Contract, to employ subcontractors from the following list for the Sections or Subdivisions of work stated below subject to the following provisions: (1) Prior to the award of the Contract, the Owner and Architect reserve the right to review the list of "Proposed Principal Subcontractors", and to delete from it the name or names of any to whom they may have a reasonable objection. The Contractor may make the final selection of principal subcontractors at his option from the resulting list after the award of the Contract. b. Bidder shall list the names of at least one subcontractor for each Section or Subdivision of the work listed below and shall limit the listing for each such Section or Subdivision to THREE (3) names. c. If Bidder does not propose to employ a Subcontractor for any Section or Subdivision of the work listed below, he shall enter the name of his firm for each such Section or Subdivision. ____________________ ____________________ ____________________ ____________________ ____________________ BID FORM BF-4 ____________________ ____________________ ____________________ ____________________ ____________________ ____________________ BID FORM BF-5 5. PRINCIPAL SUBDIVISIONS OR ELEMENTS OF THE WORK TO BE PERFORMED BY GENERAL CONTRACTOR'S FORCES a. If awarded a Contract, we will perform the following portions of the Work with forces directly employed by the undersigned: b. If awarded a Contract, the Contractor’s main Project Manager will be: (include resume with bid) The Owner reserves the right to reject the names of any to whom they have a reasonable objection. c. If awarded a Contract, the Contractor’s main Superintendent will be: (include resume with bid) The Owner reserves the right to reject the names of any to whom they have a reasonable objection. 6. TIME PROGRESS SCHEDULE a. The undersigned agrees, if awarded the Contract, to furnish a "Time Progress Schedule" showing the starting and completion dates for all principal trades and subdivisions of the Work, together with such additional information related thereto as may reasonably be required. 7. BONDS a. Performance and Payment Bonds. The undersigned agrees, if awarded the Contract to execute and deliver to the Owner "Performance" and "Labor and Material Payment Bonds" in such form as acceptable to the Owner and in an amount equal to 100% of the Contract Sum. Such bonds will be furnished by (Name of Surety) b. Bonding Rate for Change Orders. % c. Bid Bond. A Bid Bond in the amount of $______________________ (10% of Bid Amount) is attached to this Bid. BID FORM BF-6 8. SCHEDULE OF VALUES a. The undersigned agrees, prior to the award of a construction contract and upon the request of the Architect or Owner, to submit a complete, itemized and detailed "Schedule of Values" including Alternates elected, if any, showing the amount allocated to the various trades and subdivisions of the work, aggregating the total Contract Sum. b. To facilitate the evaluation of Bids, the undersigned has included in each part of his Bid the following values for the trades and/or subdivisions of the work as listed below. Values for work included under Alternate Proposals are excluded. Values relative to General Contractor's costs for General Conditions are excluded. Values Included Spec in Base Bid Section Trades and/or Subdivision Labor Material Total Total Combined Bid $ BID FORM BF-7 9. SUBSTITUTIONS a. The Base Bid is predicated on compliance with the Drawings and Specifications without substitutions. b. The Bidder may offer substitutions for any item noted in the Specifications, with the exception of Form of Contract, General Conditions and General Requirements - Division 1, by listing in the space below the proposed substitution, together with the amount to be deducted from the Base Bid if the substitution is accepted. c. The Owner reserves the right to accept or reject any proposed substitution. d. The Bidder may offer a substitution for General Conditions, Article 2.05, Superintendence by Contractor, by listing in the space below the proposed percentage of supervision to be provided onsite, together with the amount to be deducted from the Base Bid if the substitution is accepted. Percentage of Supervision % Deduction from Base Bid $( ) e. The sum stated includes any modifications of work or additional work that may be required by reason of acceptance of substitution. Substitute materials must be approved and accepted by the Owner in writing before same may be used in lieu of those named in the Specifications. Item and Specification Description of Reference Deduction from Base Bid Substitution Section & Page No. Labor Material BID FORM BF-8 10. ACCEPTANCE a. The undersigned agrees that this Proposal shall remain in force and effect for a period of not less than sixty (60) calendar days following the bid due date. b. If written notice of acceptance of this Proposal is mailed, telegraphed or delivered to the undersigned within sixty (60) calendar days after the date of opening of Bids, or any time thereafter before this Proposal is withdrawn, the undersigned will within ten (10) calendar days after the date of such mailing, telegraphing or delivery of such notice, execute an Agreement between Contractor and Owner, amended and/or supplemented, if required, in accordance with the Proposal as accepted. c. The undersigned further agrees, if requested by the Owner, to furnish Performance and Payment Bonds pursuant to Article 7 herein within ten (10) calendar days of issuance of such notice. d. It is understood and agreed that the Owner reserves the right to accept any of the Alternate Proposals listed within 15 calendar days following the award of a construction contract. e. It is understood and agreed that the Owner reserves the right to reject any or all proposals, to waive any informalities in bidding, and to hold all proposals for the above noted period of time. BID FORM BF-9 11. UNIT PRICE SCHEDULE a. The undersigned agrees, if awarded the Contract, to perform work "In addition to" or "deducted from" the scope of the Contract Documents as directed by the Owner and/or Architect, computed in accordance with the unit prices hereinafter listed, which prices include all overhead, profit and other expense items in connection therewith, subject to the terms of the Contract Documents. b. All unit prices include the installation or omission, complete for each item, together with all work in connection therewith and shall include all shoring, bracing, dewatering and other incidental work. c. Unit prices shall be the total compensation for the item and includes all overhead, profit and any other charges of the Contractor and/or subcontractor in connection therewith. d. Adjustments will be computed on net variation of total quantities of like items. e. The Owner reserves the right to accept or reject any or all of the unit prices listed below prior to the execution of the Contract. UNIT PRICES Item Add Deduct Labor Materials Labor Materials UP 1: BID FORM BF-10 12. ADDENDUM RECEIPT a. Receipt of the following addenda to the Terms and Conditions, Drawings or Specifications is acknowledged: Addendum No. Dated: Addendum No. Dated: Addendum No. Dated: Addendum No. Dated: Addendum No. Dated: (Bidder) By: Title: Business Address: Dated: BID FORM BF-11 CERTIFICATE OF NON-COLLUSION By submission of this bid, each bidder and each person signing on behalf of any bidder certifies, and in the case of a joint bid each party thereto certifies as to its own organization, under penalty of perjury, that to the best of his knowledge and belief: a. The prices in this bid have been arrived at independently without collusion, consultation, communication, or agreement, for the purpose of restricting competition, as to any matter relating to such prices with any other bidder or with any competitor. b. Unless required by law, the prices which have been quoted in this bid have not been knowingly disclosed by the bidder and will not knowingly be disclosed by the bidder prior to opening, directly or indirectly, to any other bidder or with any competitor. c. No attempt has been made or will be made by the bidder to induce any other persons, partnership, or corporation to submit or not submit a bid for the purpose of restricting competition. (Bidder) By: Title: Dated: BID FORM BF-12 CERTIFICATE AS TO CORPORATE BIDDER I, _____________________________________________________, certify that I am the _____________________________ of the Corporation named as Bidder within this Bid Form for General Contractors; that __________________________________, who signed said Bid Form on behalf of the bidder was then _______________________________ of said Corporation; that I know his signature; that his signature thereto is genuine and that said Bid Form and attachments thereto were duly signed, sealed and executed for and in behalf of said Corporation by authority of its governing body. (Secretary-Clerk) (CORPORATE SEAL) Dated: 1 Rev. 06-2014 Contract No. -- XXX SHORT FORM CONTRACT This Contract made as of the ***day of *** 2015, by and between CORNELL UNIVERSITY, Ithaca, New York 14853, hereinafter called "Owner", and ***, hereinafter called "Contractor". WITNESSETH: The Owner and the Contractor mutually agree as follows: 1. SCOPE OF CONTRACT The Contractor agrees to furnish and provide all the supplies, materials and labor, and to perform to the satisfaction of the Owner all work of every kind required, necessary to, proper for or incidental to the *** per *** at Cornell University, hereinafter called the "Project", in strict accordance with this Contract, the Proposal, the Drawings and Specifications and the prescribed bonds, hereinafter collectively called the "Contract" or "Contract Documents", all of which have been examined by the Contractor and are deemed to be a part of this Contract. 2. TIME OF PERFORMANCE The Contractor shall complete all the work covered by the Contract to the satisfaction of Cornell University and in accordance with the Contract Documents by *** unless such period is otherwise extended by the Owner, or be responsible to the Owner for any damage caused by the failure or omission by the Contractor to comply with this paragraph. 3. BONDS 3.1 Performance and Payment Bonds. The Contractor shall furnish the Owner with "Performance" and "Labor and Material Payment" Bonds, each in the amount of 100% of the Contract Price. Each of these bonds are to be in a form with such sureties as the Owner may approve. 2 Rev. 06-2014 4. PAYMENT 4.1 The Owner shall pay to the Contractor and the latter shall accept as full and complete payment for the performance of this Contract for the sum of *** ($0.00) which sum is the amount of the contract consideration. If the progress and performance of the work is satisfactory to the Owner, the latter, upon application submitted by the Contractor and approved by the Architect, if any, and the Owner, will make periodic progress payments of the contract consideration to the Contractor, the amount of such progress payments to be based upon the value of the work performed by the Contractor since the last previous progress payment, less an amount equal to 10% thereof, which sum the Owner shall reserve from each progress payment until all the work covered by the Contract has been completed. 4.1.1 Time of Payment. The Owner shall make payment in the manner provided in this Agreement within thirty (30) calendar days of receipt and approval of submitted invoice. 4.1.2 All invoices shall include the Contract Number, the full name of the project, the name of the Owner's Representative and a summary of previous payments. 4.1.3 All invoices shall be submitted to: Facilities Contracts 121 Humphreys Service Building Cornell University Ithaca, New York 14853 4.2 Upon the completion by the Contractor and acceptance by the Owner of all the work covered by the Contract, the Owner shall make a final payment equal to the amount of the Contract consideration less all previous payments by the Owner to the Contractor. 4.2.1 Application's for Final Payment shall include a Final Release, Consent of Surety to Make Final Payment and warranty information as required under the Contract. 4.3 The acceptance by the Contractor, or by anyone claiming by or through the Contractor, the final payment shall constitute and operate as a release to the Owner from any and all claims of any liability for anything done or furnished for or relating to or arising out of the work covered by the Contract and for any prior act, neglect or default on the part of the Owner or any of its officers, agents, or employees in connection therewith. Should the Contractor refuse to accept the final payment as tendered by the Owner or should they refuse to execute the final application for payment without protest and without reserving any rights or claims against the payment without protest and without reserving any rights or claims against the Owner, it shall constitute a waiver of any right to interest on the payment so tendered and/or on the amount set forth in said final application for payment. 4.4 The Contractor shall furnish the Owner with their Federal Tax Identification Number. 2 Rev. 06-2014 4. PAYMENT 4.1 The Owner shall pay to the Contractor and the latter shall accept as full and complete payment for the performance of this Contract for the sum of *** ($0.00) which sum is the amount of the contract consideration. If the progress and performance of the work is satisfactory to the Owner, the latter, upon application submitted by the Contractor and approved by the Architect, if any, and the Owner, will make periodic progress payments of the contract consideration to the Contractor, the amount of such progress payments to be based upon the value of the work performed by the Contractor since the last previous progress payment, less an amount equal to 10% thereof, which sum the Owner shall reserve from each progress payment until all the work covered by the Contract has been completed. 4.1.1 Time of Payment. The Owner shall make payment in the manner provided in this Agreement within thirty (30) calendar days of receipt and approval of submitted invoice. 4.1.2 All invoices shall include the Contract Number, the full name of the project, the name of the Owner's Representative and a summary of previous payments. 4.1.3 All invoices shall be submitted to: Facilities Contracts 121 Humphreys Service Building Cornell University Ithaca, New York 14853 4.2 Upon the completion by the Contractor and acceptance by the Owner of all the work covered by the Contract, the Owner shall make a final payment equal to the amount of the Contract consideration less all previous payments by the Owner to the Contractor. 4.2.1 Application's for Final Payment shall include a Final Release, Consent of Surety to Make Final Payment and warranty information as required under the Contract. 4.3 The acceptance by the Contractor, or by anyone claiming by or through the Contractor, the final payment shall constitute and operate as a release to the Owner from any and all claims of any liability for anything done or furnished for or relating to or arising out of the work covered by the Contract and for any prior act, neglect or default on the part of the Owner or any of its officers, agents, or employees in connection therewith. Should the Contractor refuse to accept the final payment as tendered by the Owner or should they refuse to execute the final application for payment without protest and without reserving any rights or claims against the payment without protest and without reserving any rights or claims against the Owner, it shall constitute a waiver of any right to interest on the payment so tendered and/or on the amount set forth in said final application for payment. 4.4 The Contractor shall furnish the Owner with their Federal Tax Identification Number. 3 Rev. 06-2014 5. CHANGES IN THE WORK 5.1. The Owner shall determine the amount by which the Contract consideration is to be increased or decreased by a change order by one (1) or more of the following methods: A. By agreement with the Contractor. B. By applying the applicable price or prices previously bid and approved. This method shall be used if the Contract contains applicable unit prices. (i) To the extent that a Unit Prices are applicable, as determined by the Owner, work shall be priced and paid for or credited in accordance with such Unit Prices; except that a Unit Price shall not apply to any portion of work which is either reduced or increased by more than 25%. Said Unit Prices shall be valid for the duration of the project as applicable, unless stipulated elsewhere in the Contract Documents. C. By estimating the fair and reasonable cost of: (i) Labor, including all wages, required wage supplements and insurance required by law paid to employees below the rank of superintendent directly employed at the Site. (ii) Materials (iii) Equipment, excluding hand tools, which in the judgment of the Owner, would have been or will be employed exclusively and directly on the Work. D. By determining the actual cost of the extra work in the same manner as in Paragraph C, except the actual costs of the Contractor shall be used in lieu of estimated costs. E. Regardless of the method used by the Owner in determining the value of a change order, the Contractor, within thirty (30) calendar days after a request for the estimate of value shall submit to the Owner a detailed breakdown of the Contractor's estimate, including all subcontractors details, of the value of the Change Order Work, in the format contained on the Owner’s website. 5.2 Mark-ups: Work performed by the Contractor. Where the Work is performed directly by the Contractor by adding to the total of such estimated costs a sum equal to fifteen percent (15%) thereof. 6. RISKS ASSUMED BY THE CONTRACTOR 6.1 The Contractor solely assumes all risks, except those risks caused by defects in the drawings or specifications prepared or furnished by the Owner or the Architect, for loss or damage, occurring prior to the Owner's acceptance of all work, to all or any part of the work covered by the Contract and for all claims, losses and damages for bodily injury, including death, and property damage arising out of or as a result of or in connection with the performance by the Contractor of the work covered by the Contract. 6.2 The Contractor agrees to indemnify and save harmless the Owner from all claims, losses and damages described above. 4 Rev. 06-2014 6.3 The Contractor's obligations under this section shall not be deemed waived, limited or discharged by the enumeration in the Contract Documents of the kinds and amounts of insurance that the Contractor is required to and/or does procure. 6.4 Neither the Owner's final acceptance of the work to be performed hereunder nor the making of payment therefore shall release the Contractor from their obligations under this section. 6.5 Nothing in the Contract Documents shall create or give third parties any claims or rights of action against the Contractor, the Architect, and the Owner to persons on, about or adjacent to the premises where the work is being performed. 7. PUBLIC SAFETY AND RISK INVOLVING PROPERTY 7.1 The Contractor shall take all necessary precautions for the safety of employees on the work, and shall comply with all applicable provisions of Federal, State and Municipal safety laws and building codes as well as regulations of the Owner's Life Safety Services to prevent accidents or injury to persons on, about or adjacent to the premises where the work is being performed. The Contractor shall erect and properly maintain at all times as required by the conditions and progress of the work, all necessary safeguards for the protection of workmen and the public and shall post danger signs warning against the hazards created by the construction. 7.2 The Contractor shall designate a responsible member of their organization on the work whose duty shall be the prevention of accidents. The name and position of any person so designated shall be submitted to the Owner in writing. 7.3 In an emergency affecting the safety of life or of the work or of adjoining property, the Contractor, without special instruction or authorization from the Owner, is hereby permitted to act at their discretion to prevent such threatened loss or injury, and shall so act without appeal if so authorized or instructed. Any compensation claimed by the Contractor on account of emergency work, shall be determined by the Owner. 7.4 The Contractor shall so conduct its operations as not to close or obstruct any portion of any highway, road or other property until permits therefor have been obtained from the proper authorities. If any of the above are required to be kept open or shall be damaged or rendered unsafe by Contractor's operations, Contractor shall, at their own expense, make such repairs and provide such temporary detours, guards, bridges, lights and other signals as necessary for public safety and as will be acceptable to the proper authorities. 7.5 Except as otherwise specifically provided, Contractor shall not do any work that would affect any pipeline, telephone, or electric transmission line, drainage ditch or channels, or any other structure, nor meter upon the right-of-way or any other lands appurtenant thereto, until notified by the Project Manager that the Owner has secured permission therefor from the proper authority. Contractor shall not be entitled to any extension of time or any extra compensation on account of any postponement, interference or delay caused by any such structure being on or adjacent to the site of the work. 5 Rev. 06-2014 7.6 The Contractor shall preserve and protect all cultivated and planted areas, and all natural vegetation such as trees, shrubs, and grass on or adjacent to the premises which as determined by the Owner, do not unreasonably interfere with the performance of the work. The Contractor shall be responsible for damage to any such property and unauthorized cutting or destroying of trees and vegetation, including damage due to careless operation of equipment, stockpiling of materials or tracking by equipment or vehicles. 7.7 The Contractor shall continuously maintain adequate protection of all its work from damage and shall protect the Owner's property from injury or loss arising in connection with this Contract. The Contractor shall make good any such damage, injury or loss. The Contractor shall adequately protect adjacent property. The Contractor and employees of the Contractor shall comply with all regulations governing conduct, access to the premises, operation of equipment and systems, and conduct while in or near the premises and shall perform the Work in such a manner as not to unreasonably interrupt or interfere with the conduct of business of the Owner. 8. GUARANTEES 8.1 The Contractor, at the convenience of the Owner, shall remove, replace and/or repair at its own cost and expense any defects in workmanship, materials, ratings, capacities or characteristics occurring in or to the work covered by the Contract within the (1) year or within such longer period as may otherwise be provided in the Contract, the period of such guarantee to commence with the Owner's final acceptance of all work covered under the Contract or at such other date or dates as the Owner may specify prior to that time, and the Contractor, upon demand, shall pay for all damage to all other work resulting from such defects and all expenses necessary to remove, replace and/or repair such other work which may be damaged in removing, replacing or repairing the said defects. 8.2 Unless such removal, replacement and/or repair shall be performed by the Contractor within ten (10) working days after receipt of written notice from the Owner specifying such defect, or if such defect is of such a nature that it cannot be completely removed, repaired and/or replaced within said ten (10) day period and the Contractor shall not have diligently commenced removing, repairing and/or replacing such defect within said ten (10) day period and shall not thereafter with reasonable diligence and in good faith proceed to do such work, the Owner may employ such other person, firm or corporation as it may choose to perform such removal, replacement and/or repair and the Contractor agrees, upon demand, to pay to the Owner all amounts which it expends for such work. 6 Rev. 06-2014 9. DEFAULT OF THE CONTRACTOR In the event that the Contractor shall fail to proceed with the work when and as directed by the Owner or the Architect or if the Contractor in the opinion of the Owner, shall fail to carry on the work with proper speed or if the Contractor shall otherwise fail to comply with the provisions of this Contract, the Owner, upon fourteen (14) days written notice to the Contractor, may declare the Contractor in default of this Contract and arrange for the work to be finished in such manner and method as may be deemed advisable by the Owner. If the Owner declares the Contractor in default, the Contractor shall be liable to the Owner for the cost of all additional architectural and engineering services necessary, in the Owner's opinion, as a result of such default. The Owner shall deduct from the contract consideration the cost of such additional services and, if the Owner has the work completed by other than the Contractor's surety, the actual cost of completion of all work covered by the Contract. If the unpaid balance of the contract consideration, including retainage from progress payments, is insufficient to pay such costs, then the Contractor, upon demand, shall pay the Owner the amount of such excess costs. 10. PROVISIONS REQUIRED BY LAW Each and every provision required by law to be inserted in the Contract shall be deemed to be inserted herein and the Contract shall be read and enforced as though it were included herein and in the event any such provision is not inserted or is not correctly inserted then, upon the application of either party, this Contract shall forthwith be physically amended to make such insertion or correction. 11. INSURANCE Cornell University requires that contractors submit evidence of adequate insurance prior to the commencement of performance of work for the University. Minimum requirements are: A. Statutory Worker's Compensation Insurance under the laws of the State of New York and any other laws that may be applicable thereto. Coverage "B" Employers Liability must have limits of at least $100,000. B. Comprehensive General Liability Insurance, subject to limits of $1,000,000 each occurrence, or such limits carried by the Contractor, whichever is greater. Coverage must be provided for Bodily Injury Liability, Broad Form Property Damage Liability, Contractual Liability and Products and Completed Operations coverage. Completed Operations coverage is to be maintained for a minimum period of two years after completion of the Cornell contract. C. Automobile Liability Insurance subject to limits of not less than $1,000,000 each occurrence for Bodily Injury and $100,000 each occurrence for property damage. Such Automobile Liability Insurance shall be for all of contractor's owned, non-owned, and hired automobiles. D. All Risk Property Insurance providing replacement cost coverage for any property damage to contractor's property which is caused by a loss of any kind and description to any property brought onto Cornell University premises. The contractor agrees to waive on behalf of itself and its insurance company subrogation against the University for any loss or damage which is covered or should be covered by this insurance. 7 Rev. 06-2014 E. All liability policies should be issued on an "occurrence" basis. A CERTIFICATE OF INSURANCE for all policies required must be issued to Cornell University and received by the Office of Facilities Contracts, 121 Humphreys Service Building, Cornell University, Ithaca, New York 14853, prior to any work. F. Cornell University will be added to the contractor's Comprehensive General Liability Insurance Policy by endorsement as an Additional Insured and evidence of such will be provided in the contractors' certificate of insurance. All policies must also be endorsed as "primary" for purposes of this contract. G. All certificates of insurance will provide for a minimum of 30 days notice to Cornell University prior to cancellation, non-renewal or change in policy terms and/or conditions. 12. INDEMNIFICATION The contractor shall defend, indemnify, and hold harmless Cornell University and its trustees, officers, agents, and employees from all suits, actions, or claims of any character, name, or description including reasonable attorney fees, brought on account of: A. any injuries or damages (real or alleged) received or sustained by any person, persons, or property, on account of any act, any omission, any neglect, or any misconduct of the contractor. B. any neglect of the contractor in safeguarding the work. C. the use of unacceptable materials by the contractor in performing the work. D. any injuries or damages sustained by the contractors' employees. Cornell reserves the right to retain whatever funds which would be due Contractor under this contract until such suits, action or actions, claim or claims for injuries or damages as aforesaid shall have been settled and satisfactory evidence to that effect furnished. 13. GENERAL PROVISIONS 13.1 The word or designation "site" as used in the Contract Documents shall be deemed to be the area within the Contract Limit Lines, as shown on the drawings, and all other areas upon which the Contractor is to perform work. 13.2 The word or designation "work" as used in the Contract Documents shall be deemed to be the using, performing, installing, furnishing and supplying of all materials, equipment, labor and incidentals necessary or convenient to the successful completion of the Project and the carrying out of all duties and obligations imposed upon the Contractor by the Contract. 13.3 The captions of articles or sections of the Contract Documents are intended for convenience and for reference purposes only and in no way define, limit or describe the scope or intent thereof, or of this Contract nor in any way affect this Contract. 8 Rev. 06-2014 13.4 The Contract Documents constitute the entire agreement between the parties hereto and no statement, promise, condition, understanding, inducement or representation, oral or written, expressed or implied, which is not contained herein shall be binding or valid and the Contract Documents shall not be changed, modified or altered in any manner except by an instrument in writing executed by the parties hereto. 13.5 The Contractor agrees that it will not assign this contract without the prior written consent of the Owner. 13.6 If this contract is funded by New York State or federal funds, it shall be deemed executory to the extent of state or federal monies being available to Cornell and no liability on account thereof shall be incurred by Cornell beyond monies available for the purpose thereof. 13.7 The Contractor, subcontractor, or any person acting on behalf of the Contractor will not discriminate against any employee or applicant for employment in the performance of this contract or any subcontract thereunder because of Equal Employment Opportunity protected class status including age, race, disability, ethnicity, national origin, religion, sex, sexual orientation, marital status, Vietnam Era or special disabled veteran status as applicable under federal, state and local laws. 14. STANDARDS OF ETHICAL CONDUCT Cornell University expects all executive officers, trustees, faculty, staff, student employees, and others, when acting on behalf of the university, to maintain the highest standard of ethical conduct as per Cornell University's Policy 4.6 - Standards of Ethical Conduct, a copy of which is available at http://finance.fs.cornell.edu/contracts/forms/contractors.cfm. This includes treating equally all persons and firms currently doing business with or seeking to do business with or for Cornell University, whether as contractors, subcontractors, or suppliers. Such persons and firms are respectfully reminded that Cornell University employees and their families may not personally benefit from Cornell University's business relationships by the acceptance of gifts or gratuities, defined as a gift in excess of $75.00 given to a Cornell employee for personal use. Items not considered gifts/gratuities include occasional business meals, items of an advertising nature, and items that are generally distributed to all potential customers. In addition, it is expected that the Contractor's officers and employees shall conduct all business related to this Contract within the highest ethical standards, observing applicable policies, practices, regulations, law, and professional standards. All parties are expected to report violations of this policy to appropriate university personnel. You may file a report to Cornell University on the web https://secure.ethicspoint.com/domain/en/report_custom.asp?clientid=6357 or contact Cornell University through EthicsPoint by dialing toll-free 1-866-293-3077. 15. ACCOUNTINGS, INSPECTION AND AUDIT The Contractor agrees to keep books and records showing the costs incurred for the Work. Such books and records (including, without limitation, any electronic data processing files used by Contractor in analyzing and recording the Work) shall be open for inspection and audit by Owner and its authorized representatives at reasonable hours at Contractor's local office or at Owner's office, if necessary, and shall be retained by Contractor for a period of seven years after the Work has been completed. Each Contractor shall be similarly obligated to maintain, for inspection and audit by Owner, books and records respecting the Work. 9 Rev. 06-2014 16. LIENS Neither the final payment nor any part of the retained percentage shall become due until the Contractor shall deliver to the Owner a complete release or discharge of all liens arising out of this Contract, or receipts in full in lieu thereof and, in either case, an affidavit that so far as the Contractor has knowledge or information the releases and receipts include all the labor and materials for which a lien could be filed; but the Contractor may, if any subcontractor refuses to furnish a receipt or release in full, furnish a bond satisfactory to the Owner, to indemnify him against any lien. If any lien remains unsatisfied after all payments are made, the Contractor shall refund to the Owner all monies that the later may be compelled to pay in discharging such a lien, including all costs and a reasonable attorney's fee. No partial or progress payments shall be made to the Contractor as long as a lien is outstanding on the real property of the Owner by reason of claims arising out of the work of this Contract. TERMINATION 17.1 The Owner, at any time, may terminate the Contract in whole or in part. Any said termination shall be effected by delivery to the Contractor notice of termination specifying the extent to which performance of Work under the Contract is terminated and the date upon which said termination becomes effective. Upon receipt of the notice of termination, the Contractor shall act promptly to minimize the expenses resulting from said termination. The Owner shall pay the Contractor for costs actually and reasonably incurred by the Contractor up to the effective date of said termination, but in no event shall the Contractor be entitled to compensation in excess of the total authorized releases to the date of termination. 18. GOVERNING LAW 18.1 Unless otherwise specified, this Agreement shall be governed by the law of the State of New York, without reference to conflict of law principles. Any and all proceedings relating to the subject matter hereof shall be maintained in New York State Supreme Court, Tompkins County or the federal district court for the Northern District of New York, which courts shall have exclusive jurisdiction for such purposes. 18.2 The effective date of this Agreement shall be the date of the Owner's signature. CONTRACTOR’S NAME CORNELL UNIVERSITY Contractor Owner By: By: Name: Name: Please print Please print Title: Title: Date: Date: 10 Rev. 06-2014 SPECIAL CONDITIONS FOR *** 1. Qualifications of Bidders All prospective bidders are hereby notified that, on request of the Owner, they must be able to prove to the satisfaction of the Owner, that they have the skill and experience, as well as the necessary facilities, ample financial resources, organization and general reliability to do the work to be performed under the provisions of the Contract, in a satisfactory manner and within the time specified. 2. Storage of Material and Equipment All material shall be stored in a neat, orderly manner. 3. Temporary Power The Contractor shall make arrangements for necessary temporary electrical power. 4. Construction Water The Contractor shall make arrangements for necessary construction water. 5. Submittals After execution of Contract, and ordering of material, submit for approval the list of all materials, shop drawings and equipment proposed for use to avoid delay in construction schedule. Intention of using specified materials does not relieve obligation of submitting this list. 6. Compliance to Document Follow drawings in the laying out of work and inspect locations of existing utilities and site conditions to be dealt with in the execution of this work. 7. Permits Contractor shall obtain, maintain and pay for all permits and licenses necessary for the execution of the Work and for the use of such Work when completed. The Contractor shall give all notices, pay all fees and comply with all laws, rules and regulations applicable to the Work. 11 Rev. 06-2014 8. Environmental Hazardous or Toxic Materials A. Inform officers, employees, agents, contractors, subcontractors at every tier, and any other party which may come into contact with any hazardous or toxic materials as a result of its performance hereunder of the nature of such materials, and any health and safety or environmental risks associated therewith. B. Do not use hazardous or toxic materials in a manner that will violate Cornell University Policies or any state, federal, or municipal environmental health and safety regulations. In situations where the risks are unclear consult with Environmental Health and Safety (EH&S) for guidance. C. Provide complete care and treatment for any injury sustained by any parties coming into contact with any hazardous or toxic materials as a result of Contractor’s performance or failure to perform hereunder. D. At the completion of project Contractor shall remove all unused chemical products and hazardous materials from campus. Transportation of these materials shall be in accordance with all federal, state, and local regulations. Request and receive written approval from EH&S prior to disposal of any on-site disposal. Disposal of Waste Material and Title A. Prior to start of work and first payment, Contractor shall prepare and submit “Contractor Waste Material Disposal Plan” (attached hereto) to the Owner’s Representative. The plan shall identify the waste transportation and treatment, storage or disposal (TSD) companies which will manage all waste material and any site(s) for disposal of the waste material. B. The “Contractor Waste Material Disposal Plan” form, together with definitions associated with the form waste descriptions, is attached to this Section. Contractor must use this form to document waste disposal methods and locations. C. Contractor shall be responsible for the proper cleanup, containment, storage and disposal of any hazardous material/chemical spill occurring during its work. For Cornell University owned hazardous waste EH&S will oversee, approve or effect the proper disposal. Title, risk of loss, and all other incidents of ownership to the Waste Material, shall vest in Contractor at the time Contractor or any transporter acting on its behalf takes physical possession of Waste Material. Complete and maintain full records of the chain of custody and control, including certificates of disposal or destruction, of all Waste Materials loaded, transported and/or disposed of. Deliver all such records to the Owner in accordance with applicable laws and regulations and any instructions from the Owner in a timely manner and in any event prior to final payment(s) under this Contract. 12 Rev. 06-2014 9. Changes Within the Scope of the Work The Contractor shall, with the written approval of the Owner's representative, and without extra charge, make reasonable modifications in layout needed to prevent conflict with existing conditions for proper execution of this work. 10. Clean Up Contractor shall, at all times during the progress of the work, keep the site and adjacent roads and sidewalks free from accumulation of waste matter, dirt and rubbish. At the completion of the work, all excess materials, earth, etc., shall be removed from the site. 11. Supervision Contractor shall supply services of an experienced and competent supervisor who shall be constantly in charge of work at the site. 12. Representative of Cornell The University will assign a representative of the Owner. Only directives from Cornell University’s designated representative (NAME OF REPRESENTATIVE) shall be recognized by the Contractor. 13. Construction Trades All labor for this project which is normally under the jurisdiction of one of the local unions as covered in the contract between the Tompkins-Cortland Building Trades Council, Maintenance Division and Cornell University shall be performed by Union labor. Contractor Waste Material Disposal Plan Revision date: May 2010 Page 1 of 2 1. Contractor Name: ________________________ Contact Name/Number/Email: Project Name/Description: Contract No.: Project Start Date: Project End Date: _ CU Project Manager: 2. Check all hazardous materials that will be generated as waste: Source Waste Management CU- Mgt Category Description Estimated Quantity Cornell Contractor MSDS Available EHS Grounds Contractor Mgt Re-Use Transporter Destination or Disposal Location ⁪ Solvents ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ PCBs ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Asbestos ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Lead ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Mercury ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Chromium ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Other Toxic Metals (describe in section 4) ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Mold ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Light Bulbs ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Thermostats ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Batteries ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Used Oil ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Contaminated PPE & Materials ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ Other (describe in section 4) ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ ⁪ No hazardous waste Contractor Waste Material Disposal Plan Revision date: May 2010 Page 2 of 2 3. Check all non-hazardous wastes that will be generated during the project: Category Disposal Facility Name Facility Address Facility Phone Transporter Estimated Quantity ⁪ C&D ⁪ Clean soil ⁪ Non C&D solid waste ⁪ Other (describe in section IV) ⁪ No non-hazardous waste will be generated 4. Further description of waste materials expected to be generated during the project: 5. Contractor Certification I, _______________________________________, do hereby certify that I have identified above all waste materials expected to be generated by the Project named in Section 1 and that I will dispose of all such waste materials in a legally permissible manner and location(s), in accordance with all applicable federal, state, and local laws and regulations. I further certify that I will amend this form as appropriate if I, my representatives, employees or subcontractors become aware of any additional wastes that will be generated by the Project. I further agree to notify the CU Project Manager if I become aware of any legal non-compliance associated with disposal of Project wastes by anyone. _____________________________________________ Contractor Signature Print Name Date 6. Submit completed forms to CU Project Manager. CU Project Manager must submit this completed form to CU Environmental Health and Safety Office before start of work and before the first payment will be made. The completed form will be incorporated as an enforceable part of the contract. Forms to be submitted electronically to EHS at EHSCWMDP@cornell.edu. Definitions for Use with Contractor Waste Material Disposal Plan: The following is not solid waste: Discarded materials that are being beneficially used pursuant to 6NYCRR Section 360-1.15 A material is disposed of if it is discharged, deposited, injected, dumped, spilled, leaked or placed into or on any land or water so that such material or any constituent thereof may enter the environment or be emitted into the air or discharged into groundwater or surface water. Asbestos: Any waste material containing the asbestiform varieties of: Chrysotile (serpentine); crocidolite (riebeckite); amosite (cum- mingtonitegrunerite); anthophyllite; tremolite; and actinolite. Batteries: All spent batteries being disposed that are regulated by New York State Department of Environmental Conservation (NYDEC) in 6 New York Code of Rules and Regulations (NYCRR) Part 374- 3, or Environmental Protection Agency (EPA) in 40 Code of Federal Regulations (CFR) 273.2 as Universal Waste Batteries. Borrow Material: Fill material required for on-site construction that is obtained from other locations. Chromium: Any waste containing chromium or contaminated with chromium that exceeds the Toxicity Characteristic Leaching Procedure (TCLP) limit for chromium as defined in 6 NYCRR Part 371.3 or 40 CFR 261.24. Clean Soil: Soil that is uncontaminated with any solid or hazardous waste, C&D Debris, trees, stumps, yard waste or wood chips per definitions of those terms below. Construction and Demolition (C&D) Debris: Uncontaminated solid waste resulting from the construction, remodeling, repair and demolition of utilities, structures and roads; and uncontaminated solid waste resulting from land clearing. Such waste includes, but is not limited to bricks, concrete and other masonry materials, soil, rock, wood (including painted, treated and coated wood and wood products), land clearing debris, wall coverings, plaster, drywall, plumbing fixtures, non-asbestos insulation, roofing shingles and other roof coverings, asphaltic pavement, glass, plastics that are not sealed in a manner that conceals other wastes, empty buckets ten gallons or less in size and having no more than one inch of residue remaining on the bottom, electrical wiring and components containing no hazardous liquids, and pipe and metals that are incidental to any of the above. Solid waste that is not C&D debris (even if resulting from the construction, remodeling, repair and demolition of utilities, structures and roads and land clearing) includes, but is not limited to asbestos waste, garbage, corrugated container board, electrical fixtures containing hazardous liquids such as fluorescent light ballasts or transformers, fluorescent lights, carpeting, furniture, appliances, tires, drums, containers greater than ten gallons in size, any containers having more than one inch of residue remaining on the bottom and fuel tanks. Specifically excluded from the definition of construction and demolition debris is solid waste (including what otherwise would be construction and demolition debris) resulting from any processing technique, other than that employed at a department- approved C&D debris processing facility, that renders individual waste components unrecognizable, such as pulverizing or shredding. Also, waste contained in an illegal disposal site may be considered C&D debris if the department determines that such waste is similar in nature and content to C&D debris. Construction and Demolition Debris Processing Facility means a processing facility that receives and processes construction and demolition debris by any means. Contaminated PPE & Materials: Any personal protective equipment such as gloves, coveralls, boot covers, respirator cartridges etc.; or rags, tools, articles or other material that has become adulterated by a hazardous material, and which meets the definition of hazardous waste or is considered unsuitable for disposal as regular trash. Exempt C&D and Stump Facilities: The following facilities are exempt from Solid waste management facility permitting requirements provided the facilities operate only between the hours of sunrise and sunset, and (if the allowable waste comes from an off-site source) no fee or other form of consideration is required for the privilege of using the facility for disposal purposes: (i) A site at which only the following C&D debris is placed: recognizable uncontaminated concrete and concrete products (including steel or fiberglass reinforcing rods that are embedded in the concrete), asphalt pavement, brick, glass, soil and rock. (Recognizable means solid waste that can be readily identified as C&D debris by visual observation.) (ii) A landfill for the disposal of trees, stumps, yard waste and wood chips generated from these materials is exempt when origin and disposal of such waste occur on properties under the same ownership or control. Hazardous Waste: Any waste material that meets the definition of “hazardous waste” in 6 NYCRR 371.1 and 40 CFR 261.3 and that is not excluded by regulation. Land Clearing Debris means vegetative matter, soil and rock resulting from activities such as land clearing and grubbing, utility line maintenance or seasonal or storm-related cleanup such as trees, stumps, brush and leaves and including wood chips generated from these materials. Land clearing debris does not include yard waste which has been collected at the curbside. Lead: Any metallic lead or waste material containing lead, e.g. waste paint chips, that exceed the Toxicity Characteristic Leaching Procedure (TCLP) limit for lead as defined in 6 NYCRR Part 371.3 or 40 CFR 261.24. Light Bulbs: All spent lamps or light bulbs being disposed that are regulated in 6 NYCRR Part 374-3 or 40 CFR 273.5. Mercury: Liquid mercury or any waste containing mercury at levels exceeding the Toxicity Characteristic Leaching Procedure (TCLP) limit for mercury as defined in 6 NYCRR Part 371.3 or 40 CFR 261.24. Mold: Construction material or debris contaminated with mold fungus that is unsuitable for reuse. Other Toxic Metals: Any waste containing a metal or contaminated by a metal identified in, and exceeding the Toxicity Characteristic Leaching Procedure (TCLP) limit of 6 NYCRR Part 371.3 or 40 CFR 261.24.PCBs: All electrical articles and equipment or the used oil removed from them, containing polychlorinated biphenyls at levels regulated by 6 NYCRR 371.4(e) Scrap Metal: Bits and pieces of metal parts (e.g., bars, turnings, rods, sheets, wire) or metal pieces that may be combined together with bolts or soldering (e.g., radiators, scrap automobiles, railroad box cars), which when worn or superfluous can be recycled. Solid Waste (Non C&D): Any garbage, refuse, sludge from a wastewater treatment plant, water supply treatment plant, or air pollution control facility and other discarded materials including solid, liquid, semisolid, or contained gaseous material, resulting from industrial, commercial, mining and agricultural operations, and from community activities, but does not include solid or dissolved materials in domestic sewage, or solid or dissolved materials in irrigation return flows or industrial discharges that are point sources subject to permit under 33 USC 1342, or source, special nuclear or by-product material as defined by the Atomic Energy Act of 1954, except as may be provided by existing agreements between the State of New York and the government of the United States. Solvents: Substances (usually liquid) suitable for, or employed in, solution, or in dissolving something; as, water is the appropriate solvent for most salts, alcohol for resins, ether for fats, and mercury or acids for metals, etc. Typically these are chemicals are used as paint thinners or cleaning solutions. Spoil: Refuse material removed from an excavation. Used Oil: Any oil refined from crude oil, or any synthetic oil, that has been used, and as a result of such use is contaminated by physical or chemical impurities. “See 6 NYCRR 374-2 or 40 CFR 279” Thermostats: Any mercury-containing thermostat as defined in 6 NYCRR 374-3.1(d), or 40 CFR 273.4 Uncontaminated C&D Debris: C&D Debris that is not mixed or commingled with other solid waste at the point of generation, processing or disposal, and that is not contaminated with spills of a petroleum product, hazardous waste or industrial waste. Contamination from spills of a petroleum product does not include asphalt or concrete pavement that has come into contact with petroleum products through normal vehicle use of the roadway. FINAL RELEASE FINAL WAIVER OF CLAIMS AND LIENS AND RELEASE OF RIGHTS Date Contract Date Project Contract Price Address Net Extras and Deductions City Adjusted Contract Price County Amount Previously Paid State Balance Due - Final Payment The undersigned hereby acknowledges that the above Balance Due when paid represents payment in full for all labor, materials, etc., furnished by the below named Contractor or Supplier in connection with its work on the above Project in accordance with the Contract. In consideration of the amounts and sums previously received, and the payment of $ being the full and Final Payment amount due, the below named Contractor or Supplier does hereby waive and release the Owner from any and all claims and liens and rights of liens upon the premises described above, and upon improvements now or hereafter thereon, and upon the monies or other considerations due or to become due from the Owner or from any other person, firm or corporation, said claims, liens and rights of liens being on account of labor, services, materials, fixtures or apparatus heretofore furnished by the below named Contractor or Supplier to the Project. The premises as to which said claims and liens are hereby released are identified as follows: The undersigned further represents and warrants that he/she is duly authorized and empowered to sign and execute this waiver on his/her own behalf and on behalf of the company or business for which he/she is signing; that it has properly performed all work and furnished all materials of the specified quality per plans and specifications and in a good and workmanlike manner, fully and completely; that it has paid for all the labor, materials, equipment and services that it has used or supplied, that it has no other outstanding and unpaid applications, invoices, retentions, holdbacks, expenses employed in the prosecution of work, chargebacks or unbilled work or materials against the Owner as of the date of the aforementioned last and final payment application; and that any materials which have been supplied or incorporated into the above premises were either taken from its fully-paid or open stock or were fully paid for and supplied on the last and final payment application or invoice. The undersigned further agrees to defend, indemnify and hold harmless the Owner for any losses or expenses (including without limitation reasonable attorneys' fees) should any such claim, lien or right of lien be asserted by the below named Contractor or Supplier or by any of its or their laborers, material person or subcontractors. In addition, for and in consideration of the amounts and sums received, the below named Contractor or Supplier hereby waives, releases and relinquishes any and all claims, rights or causes of action in equity or law whatsoever arising out of through or under the above mentioned Contract and the performance of work pursuant thereto. The below named Contractor or Supplier further guarantees that all portions of the work furnished and installed are in accordance with the Contract and that the terms of the Contract with respect to this guarantee will remain in effect for the period specified in said Contract. Sworn to before me this Corporation or Business Name Day of 20 By: Title: Project Specifications DIVISION 02 Existing Conditions CORNELL UNIVERSITY SECTION 02 40 00 Ithaca, New York SELECTIVE DEMOLITION 6 Floor Rhodes Hall Rm 651 Selective Demolition 02 40 00- 1 01.04.2016 SECTION 02 40 00 SELECTIVE DEMOLITION 1.0 GENERAL 1.1 RELATED DOCUMENTS A. Work in this section shall be in accordance with the requirements of the Contract Documents including all Drawings and General Provisions of the Contract, General and Supplementary Conditions and General Requirements. 1.2 SUMMARY A. The work for this section is described in the Architectural, Structural, Mechanical, Plumbing, Fire Protection and Plumbing Drawings and Specifications. B. All labor, materials, equipment and services necessary to complete the work as described and indicated in the drawings and/or specified herein shall be included. C. All work shall be in accordance and conform to New York State Code and all applicable rules of the Building Department and Codes for Standard Practice. D. Unless otherwise indicated, demolished materials become Contractor’s property. E. Comply with EPA regulations and hauling and disposal regulations of authorities having jurisdiction. Comply with ANSI A10.6 and NFPA 241. F. Owner will occupy portions of building immediately adjacent to selective demolition area. Conduct selective demolition so Owner’s operations will not be disturbed. 1.3 QUALITY ASSURANCE A. Coordinate work with utility service providers. B. Protect existing utilities to remain from damage. C. Do not disrupt utilities without Permit. D. Do not close, shut off or disrupt existing lie safety systems or utility branches or take -off that are UN use without notice to Brooklyn Public Libraries 1.4 DEMOLITION A. See Drawings for areas of demolition. B. Repair/Replace any raised floor and ceiling tiles. Review existing added stock for flooring and ceiling products prior to using new material. C. Conduct demolition operations and remove debris to prevent injury to people and damage to adjacent buildings. D. Protect existing structures. E. Protect existing work to remain. F. Patch and Repair to match existing as noted on documents where demolition occurred. CORNELL UNIVERSITY SECTION 02 40 00 Ithaca, New York SELECTIVE DEMOLITION 6 Floor Rhodes Hall Rm 651 Selective Demolition 02 40 00- 2 01.04.2016 ***END OF SECTION 02 40 00*** DIVISION 05 Metals CORNELL UNIVERSITY SECTION 05 40 00 Ithaca, New York COLD-FORMED METAL FRAMING 6 Floor Rhodes Hall Rm 651 Cold-Formed Metal Framing 05 40 00 - 1 01.04.2016 SECTION 05 40 00 COLD-FORMED METAL FRAMING 1.0 GENERAL 1.1 RELATED DOCUMENTS A. Work in this section shall be in accordance with the requirements of the Contract Documents including all Drawings and General Provisions of the Contract, General and Supplementary Conditions and General Requirements. 1.2 SUMMARY A. The work for this section is described in the Architectural Drawings. B. All labor, materials, equipment and services necessary to complete the work as described and indicated in the drawings and/or specified herein shall be included. C. All work shall be in accordance and conform to New York State Code and all applicable rules of the Building Department and Codes for Standard Practice. D. Design Standards: AISI S100 and AISI S200. E. The work for this section includes cold formed metal framing and related fasteners. 1.3 QUALITY ASSURANCE A. Where applicable, the work shall be subject to requirements of relevant Building Standards. B. Contractor shall make a preconstruction inspection of existing steel. 2.0 PRODUCT 2.1 MATERIAL SUMMARY A. Types of cold-formed metal framing include: Punched Channel Studs C-shaped Steel Studs C-shaped Steel Joists (as required) Furring Channels Suspended Ceiling Supports Reveals and Reveal Base B. Steel Sheet: ASTM A 1003/A 1003M, Structural Grade, metallic coated. 2.2 MATERIAL A. Punched Channel Studs Channel type with holes for passage of wiring formed from minimum 20 gauge galvanized steel unless heavier gauge needed to meet deflection requirements. CORNELL UNIVERSITY SECTION 05 40 00 Ithaca, New York COLD-FORMED METAL FRAMING 6 Floor Rhodes Hall Rm 651 Cold-Formed Metal Framing 05 40 00 - 2 01.04.2016 B. Furring Channels Hat shaped, formed from galvanized steel, 25 gauge. C. Support Plates Continuous 16 gauge x 8” wide steel wall plate screwed to studs as needed for items supported on drywall partitions and walls. D. Suspended Ceiling Supports Runners, Furring, Hangers, and Hanger and Furring Anchorages formed from galvanized steel sized appropriately for application. ***END OF SECTION 05 40 00*** DIVISION 07 Thermal and Moisture Protection CORNELL UNIVERSITY SECTION 07 21 16 Ithaca, New York BLANKET INSULATION 6 Floor Rhodes Hall Rm 651 Blanket Insulation 07 21 16 - 1 01.04.2016 SECTION 07 21 16 BLANKET INSULATION 1.0 GENERAL 1.1 RELATED DOCUMENTS A. Work in this section shall be in accordance with the requirements of the Contract Documents including all Drawings and General Provisions of the Contract, General and Supplementary Conditions and General Requirements. 1.2 SUMMARY A. The work for this section is described in the Architectural Drawings. B. All labor, materials, equipment and services necessary to complete the work as described and indicated in the drawings and/or specified herein shall be included. C. All work shall be in accordance and conform to New York State Code and all applicable rules of the Building Department and Codes for Standard Practice. 1.3 SUBMITTAL AND SHOP DRAWINGS A. Submittals and Shop Drawings shall comply with the provisions of the General Requirements of the Contract Documents. B. Shop Drawings: Show complete details and assemblies including coordination requirements, field measurements and identification of products and materials included. 1.4 QUALITY ASSURANCE A. As required, contractor shall submit design data, test reports, certifications, manufacturer’s Instructions, field reports and inspections. B. Where applicable, the work shall be subject to requirements of relevant Building Standards. 2.0 PRODUCT 2.1 RELATED SECTIONS A. Cold-Formed Metal Framing: Section 05 45 00 B. Gypsum Wallboard Assemblies: Section 09 21 16 2.2 PRODUCT A. Acoustic Batt Insulation Manufacturer: Johns Manville or Equal Product: Formaldehyde-Free Fiber Glass Insulation Enhanced with Bio-Based Binder Face: Unfaced CORNELL UNIVERSITY SECTION 07 21 16 Ithaca, New York BLANKET INSULATION 6 Floor Rhodes Hall Rm 651 Blanket Insulation 07 21 16 - 2 01.04.2016 ***END OF SECTION 07 21 16*** DIVISION 09 Finishes CORNELL UNIVERSITY SECTION 09 21 16 Ithaca, New York GYPSUM BOARD ASSEMBLIES 6 Floor Rhodes Hall Rm 651 Gypsum Board Assemblies 09 21 16 - 1 01.04.2016 SECTION 09 21 16 GYPSUM BOARD ASSEMBLIES 1.0 GENERAL 1.1 RELATED DOCUMENTS A. Work in this section shall be in accordance with the requirements of the Contract Documents including all Drawings and General Provisions of the Contract, General and Supplementary Conditions and General Requirements. 1.2 SUMMARY A. The work for this section is described in the Architectural. B. All labor, materials, equipment and services necessary to complete the work as described and indicated in the drawings and/or specified herein shall be included. C. All work shall be in accordance and conform to New York State Code and all applicable rules of the Building Department and Codes for Standard Practice. D. The work for this section includes work related to the gypsum walls at interior partition walls and ceilings, furring and elsewhere were gypsum drywall work is shown on the drawings, metal supports, acoustic insulation, concealed metal reinforcing, sealant, taping and finishing, frames for grilles, bracing and connections. E. Water Closets have painted Gypsum Drywall ceilings. 1.3 SUBMITTAL AND SHOP DRAWINGS A. Submittals and Shop Drawings shall comply with the provisions of the General Requirements of the Contract Documents. B. Product Data: Clearly mark each copy to show applicable selections, show performance criteria, dimensions and diagrams for installation as required. 1.4 QUALITY ASSURANCE A. As required, contractor shall submit design data, test reports, certifications, manufacturer’s Instructions, field reports and inspections. B. Where applicable, the work shall be subject to requirements of relevant Building Standards. 2.0 PRODUCT 2.1 MATERIAL SUMMARY A. Low Emitting Material 2.2 RELATED SECTIONS A. Gypsum Board 09 29 00 CORNELL UNIVERSITY SECTION 09 21 16 Ithaca, New York GYPSUM BOARD ASSEMBLIES 6 Floor Rhodes Hall Rm 651 Gypsum Board Assemblies 09 21 16 - 2 01.04.2016 B. Hollow Metal Doors and Frames: Section 08 31 13 C. Painting: Section 09 91 23 D. Rings for grilles, registers and light fixtures – Division 23 and 26 ***END OF SECTION 09 21 16*** CORNELL UNIVERSITY SECTION 09 29 00 Ithaca, New York GYPSUM BOARD 6 Floor Rhodes Hall Rm 651 Gypsum Board 09 29 00 - 1 01.04.2016 SECTION 09 29 00 GYPSUM BOARD 1.0 GENERAL 1.1 RELATED DOCUMENTS A. Work in this section shall be in accordance with the requirements of the Contract Documents including all Drawings and General Provisions of the Contract, General and Supplementary Conditions and General Requirements. 1.2 SUMMARY A. The work for this section is described in the Architectural. B. All labor, materials, equipment and services necessary to complete the work as described and indicated in the drawings and/or specified herein shall be included. C. All work shall be in accordance and conform to New York State Code and all applicable rules of the Building Department and Codes for Standard Practice. D. The work for this section includes work related to the gypsum walls at interior partition walls and ceilings, furring and elsewhere were gypsum drywall work is shown on the drawings, metal supports, acoustic insulation, concealed metal reinforcing, sealant, taping and finishing, frames for grilles, bracing and connections. E. See Architectural Drawings A003 Wall Types. 1.3 SUBMITTAL AND SHOP DRAWINGS A. Submittals and Shop Drawings shall comply with the provisions of the General Requirements of the Contract Documents. B. Product Data: Clearly mark each copy to show applicable selections, show performance criteria, dimensions and diagrams for installation as required. 1.4 QUALITY ASSURANCE A. As required, contractor shall submit design data, test reports, certifications, manufacturer’s Instructions, field reports and inspections. B. Where applicable, the work shall be subject to requirements of relevant Building Standards. 2.0 PRODUCT 2.1 MATERIAL SUMMARY A. Low Emitting Material CORNELL UNIVERSITY SECTION 09 29 00 Ithaca, New York GYPSUM BOARD 6 Floor Rhodes Hall Rm 651 Gypsum Board 09 29 00 - 2 01.04.2016 2.2 RELATED SECTIONS A. Gypsum Board Assemblies 09 21 16 B. Painting: Section 09 91 23 C. Rings for grilles, registers and light fixtures – Division 23 and 26 2.3 ACCEPTABLE MANUFACTURERS A. Gypsum Drywall U.S. Gypsum Co Equivalent materials of National Gypsum Co., and Georgia Pacific For Metal Supports, See Section 05 40 00 Cold-Formed Metal Framing 5/8” Gypsum Wall Board “Sheetrock” 5/8” Fire Rated Gypsum Wall Board, Type X “Sheetrock Firecode X” B. Joint Compound All joint compound and plaster products to be low VOC. ***END OF SECTION 09 29 00*** CORNELL UNIVERSITY SECTION 09 65 13.13 Ithaca, New York RESILIENT BASE 6 Floor Rhodes Hall Rm 651 Resilient Base 09 65 13.13 - 1 01.04.2016 SECTION 09 65 13.13 RESILIENT BASE 1.0 GENERAL 1.1 RELATED DOCUMENTS A. Work in this section shall be in accordance with the requirements of the Contract Documents including all Drawings and General Provisions of the Contract, General and Supplementary Conditions and General Requirements. 1.2 SUMMARY A. The work for this section is described in the Architectural. B. All labor, materials, equipment and services necessary to complete the work as described and indicated in the drawings and/or specified herein shall be included. C. All work shall be in accordance and conform to New York State Code and all applicable rules of the Building Department and Codes for Standard Practice. 1.3 SUBMITTAL AND SHOP DRAWINGS A. Submittals and Shop Drawings shall comply with the provisions of the General Requirements of the Contract Documents. B. Shop Drawings: Show complete details and assemblies including coordination requirements, field measurements and identification of products and materials included. C. Product Data: Clearly mark each copy to show applicable selections, show performance criteria, dimensions and diagrams for installation as required. 1.4 QUALITY ASSURANCE A. As required, contractor shall submit design data, test reports, certifications, manufacturer’s Instructions, field reports and inspections. B. Where applicable, the work shall be subject to requirements of relevant Building Standards. 2.0 PRODUCT 2.1 MATERIAL SUMMARY A. No Lead or Heavy Materials B. Compliant with CHPS 01350 requirements for VOC emissions and indoor air quality 2.3 ACCEPTABLE MANUFACTURERS A. Wall Base Manufacturer: To Match Existing Gauge: 1/8”, To Match Existing CORNELL UNIVERSITY SECTION 09 65 13.13 Ithaca, New York RESILIENT BASE 6 Floor Rhodes Hall Rm 651 Resilient Base 09 65 13.13 - 2 01.04.2016 Height: 4”, To Match Existing Style: Cove, To Match Existing Note: Roll Product Color: To Match Existing ***END OF SECTION 09 65 13.13*** CORNELL UNIVERSITY SECTION 09 91 23 Ithaca, New York INTERIOR PAINTING 6 Floor Rhodes Hall Rm 651 Interior Painting 09 91 23 - 1 01.04.2016 SECTION 09 91 23 INTERIOR PAINTING 1.0 GENERAL 1.1 RELATED DOCUMENTS A. Work in this section shall be in accordance with the requirements of the Contract Documents including all Drawings and General Provisions of the Contract, General and Supplementary Conditions and General Requirements. 1.2 SUMMARY A. The work for this section is described in the Architectural. B. All labor, materials, equipment and services necessary to complete the work as described and indicated in the drawings and/or specified herein shall be included. C. All work shall be in accordance and conform to New York State Code and all applicable rules of the Building Department and Codes for Standard Practice. D. 1.3 SUBMITTAL AND SHOP DRAWINGS A. Submittals and Shop Drawings shall comply with the provisions of the General Requirements of the Contract Documents. B. Product Data: Clearly mark each copy to show applicable selections, show performance criteria, dimensions and diagrams for installation as required. 1.4 QUALITY ASSURANCE A. As required, contractor shall submit design data, test reports, certifications, manufacturer’s instructions, field reports and inspections. B. Where applicable, the work shall be subject to requirements of relevant Building Standards. C. Provide Mockups for color and finish. 2.0 PRODUCT 2.0 RELATED SECTIONS A. Gypsum Drywall: Section 09 29 00 2.2 PRODUCTS A. Paint Manufacturer: Benjamin Moore or Equal Product: Low VOC, Commercial Grade Interior Paint at Gypsum Wall: Natura No-VOC CORNELL UNIVERSITY SECTION 09 91 23 Ithaca, New York INTERIOR PAINTING 6 Floor Rhodes Hall Rm 651 Interior Painting 09 91 23 - 2 01.04.2016 Metal(Doors & Frames): Aura Waterborne Color: TBD by Owner ***END OF SECTION 09 91 23*** DIVISION 23 Heating, Ventilating and Air Conditioning (HVAC) CORNELL UNIVERSITY SECTION 23 05 29 Ithaca, New York HANGERS AND SUPPORTS FOR HVAC PIPING AND EQUIPMENT 6 Floor Rhodes Hall Rm 651 Hangers And Supports For HVAC 23 05 29 - 1 Piping And Equipment 01.04.2016 SECTION 23 05 29 - HANGERS AND SUPPORTS FOR HVAC PIPING AND EQUIPMENT PART 1 - GENERAL 1.1 SUMMARY A. Section Includes: 1. Equipment supports. 1.2 PERFORMANCE REQUIREMENTS A. Structural Performance: Hangers and supports for HVAC piping and equipment shall withstand the effects of gravity loads and stresses within limits and under conditions indicated according to ASCE/SEI 7. 1. Design equipment supports capable of supporting combined operating weight of supported equipment and connected systems and components. 1.3 ACTION SUBMITTALS A. Product Data: For each type of product indicated. 1.4 INFORMATIONAL SUBMITTALS A. Welding certificates. 1.5 QUALITY ASSURANCE A. Structural Steel Welding Qualifications: Qualify procedures and personnel according to AWS D1.1/D1.1M, "Structural Welding Code - Steel." PART 2 - PRODUCTS 2.1 EQUIPMENT SUPPORTS A. Description: Welded, shop- or field-fabricated equipment support made from structural carbon- steel shapes. CORNELL UNIVERSITY SECTION 23 05 29 Ithaca, New York HANGERS AND SUPPORTS FOR HVAC PIPING AND EQUIPMENT 6 Floor Rhodes Hall Rm 651 Hangers And Supports For HVAC 23 05 29 - 2 Piping And Equipment 01.04.2016 2.2 MISCELLANEOUS MATERIALS A. Structural Steel: ASTM A 36/A 36M, carbon-steel plates, shapes, and bars; black and galvanized. B. Grout: ASTM C 1107, factory-mixed and -packaged, dry, hydraulic-cement, nonshrink and nonmetallic grout; suitable for interior and exterior applications. 1. Properties: Nonstaining, noncorrosive, and nongaseous. 2. Design Mix: 5000-psi, 28-day compressive strength. PART 3 - EXECUTION 3.1 EQUIPMENT SUPPORTS A. Fabricate structural-steel stands to suspend equipment from structure overhead. B. Provide lateral bracing, to prevent swaying, for equipment supports. 3.2 METAL FABRICATIONS A. Cut, drill, and fit miscellaneous metal fabrications for equipment supports. B. Fit exposed connections together to form hairline joints. Field weld connections that cannot be shop welded because of shipping size limitations. C. Field Welding: Comply with AWS D1.1/D1.1M procedures for shielded, metal arc welding; appearance and quality of welds; and methods used in correcting welding work; and with the following: 1. Use materials and methods that minimize distortion and develop strength and corrosion resistance of base metals. 2. Obtain fusion without undercut or overlap. 3. Remove welding flux immediately. 4. Finish welds at exposed connections so no roughness shows after finishing and so contours of welded surfaces match adjacent contours. 3.3 ADJUSTING A. Hanger Adjustments: Adjust hangers to distribute loads equally on attachments and to achieve indicated slope of pipe. B. Trim excess length of continuous-thread hanger and support rods to 1-1/2 inches. CORNELL UNIVERSITY SECTION 23 05 29 Ithaca, New York HANGERS AND SUPPORTS FOR HVAC PIPING AND EQUIPMENT 6 Floor Rhodes Hall Rm 651 Hangers And Supports For HVAC 23 05 29 - 3 Piping And Equipment 01.04.2016 3.4 PAINTING A. Touchup: Clean field welds and abraded areas of shop paint. Paint exposed areas immediately after erecting hangers and supports. Use same materials as used for shop painting. Comply with SSPC-PA 1 requirements for touching up field-painted surfaces. 1. Apply paint by brush or spray to provide a minimum dry film thickness of 2.0 mils. B. Galvanized Surfaces: Clean welds, bolted connections, and abraded areas and apply galvanizing-repair paint to comply with ASTM A 780. 3.5 HANGER AND SUPPORT SCHEDULE A. Specific hanger and support requirements are in Sections specifying piping systems and equipment. B. Comply with MSS SP-69 for trapeze pipe-hanger selections and applications that are not specified in piping system Sections. END OF SECTION 23 05 29 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** CORNELL UNIVERSITY SECTION 23 05 53 Ithaca, New York IDENTIFICATION FOR HVAC PIPING AND EQUIPMENT 6 Floor Rhodes Hall Rm 651 Identification For HVAC 23 05 53 - 1 Piping And Equipment 01.04.2016 SECTION 23 05 53 - IDENTIFICATION FOR HVAC PIPING AND EQUIPMENT PART 1 - GENERAL 1.1 SUMMARY A. Section Includes: 1. Equipment labels. 2. Duct labels. 1.2 ACTION SUBMITTALS A. Product Data: For each type of product. PART 2 - PRODUCTS 2.1 EQUIPMENT LABELS A. Plastic Labels for Equipment: 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Brady Corporation. b. Brimar Industries, Inc. c. Carlton Industries, LP. 2. Material and Thickness: Multilayer, multicolor, plastic labels for mechanical engraving, 1/8 inch thick, and having predrilled holes for attachment hardware. 3. Letter Color: White. 4. Background Color: Blue. 5. Maximum Temperature: Able to withstand temperatures up to 160 deg F. 6. Minimum Label Size: Length and width vary for required label content, but not less than 2-1/2 by 3/4 inch. 7. Minimum Letter Size: 1/4 inch for name of units if viewing distance is less than 24 inches, 1/2 inch for viewing distances up to 72 inches, and proportionately larger lettering for greater viewing distances. Include secondary lettering two-thirds to three-quarters the size of principal lettering. 8. Fasteners: Stainless-steel self-tapping screws. 9. Adhesive: Contact-type permanent adhesive, compatible with label and with substrate. CORNELL UNIVERSITY SECTION 23 05 53 Ithaca, New York IDENTIFICATION FOR HVAC PIPING AND EQUIPMENT 6 Floor Rhodes Hall Rm 651 Identification For HVAC 23 05 53 - 2 Piping And Equipment 01.04.2016 B. Label Content: Include equipment's Drawing designation or unique equipment number, Drawing numbers where equipment is indicated (plans, details, and schedules), and the Specification Section number and title where equipment is specified. C. Equipment Label Schedule: For each item of equipment to be labeled, on 8-1/2-by-11-inch bond paper. Tabulate equipment identification number, and identify Drawing numbers where equipment is indicated (plans, details, and schedules) and the Specification Section number and title where equipment is specified. Equipment schedule shall be included in operation and maintenance data. 2.2 DUCT LABELS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Brady Corporation. 2. Carlton Industries, LP. 3. Champion America. B. Material and Thickness: Multilayer, multicolor, plastic labels for mechanical engraving, 1/8 inch thick, and having predrilled holes for attachment hardware. C. Maximum Temperature: Able to withstand temperatures up to 160 deg F. D. Minimum Label Size: Length and width vary for required label content, but not less than 2-1/2 by 3/4 inch. E. Minimum Letter Size: 1/4 inch for name of units if viewing distance is less than 24 inches, 1/2 inch for viewing distances up to 72 inches, and proportionately larger lettering for greater viewing distances. Include secondary lettering two-thirds to three-quarters the size of principal lettering. F. Fasteners: Stainless-steel self-tapping screws. G. Adhesive: Contact-type permanent adhesive, compatible with label and with substrate. H. Duct Label Contents: Include identification of duct service using same designations or abbreviations as used on Drawings; also include duct size and an arrow indicating flow direction. 1. Flow-Direction Arrows: Integral with duct system service lettering to accommodate both directions or as separate unit on each duct label to indicate flow direction. CORNELL UNIVERSITY SECTION 23 05 53 Ithaca, New York IDENTIFICATION FOR HVAC PIPING AND EQUIPMENT 6 Floor Rhodes Hall Rm 651 Identification For HVAC 23 05 53 - 3 Piping And Equipment 01.04.2016 PART 3 - EXECUTION 3.1 PREPARATION A. Clean piping and equipment surfaces of substances that could impair bond of identification devices, including dirt, oil, grease, release agents, and incompatible primers, paints, and encapsulants. 3.2 EQUIPMENT LABEL INSTALLATION A. Install or permanently fasten labels on each major item of mechanical equipment. B. Locate equipment labels where accessible and visible. 3.3 DUCT LABEL INSTALLATION A. Install plastic-laminated duct labels with permanent adhesive on air ducts in the following color codes: 1. Blue: For supply air ducts. 2. Green: For exhaust-, outside-, relief-, return-, and mixed-air ducts. B. Locate labels near points where ducts enter into and exit from concealed spaces and at maximum intervals of 50 feet in each space where ducts are exposed or concealed by removable ceiling system. END OF SECTION 23 05 53 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** CORNELL UNIVERSITY SECTION 23 07 13 Ithaca, New York DUCT INSULATION 6 Floor Rhodes Hall Rm 651 Duct Insulation 23 07 13 - 1 01.04.2016 SECTION 23 07 13 - DUCT INSULATION PART 1 - GENERAL 1.1 SUMMARY A. Section includes insulating the following duct services: 1. Indoor, concealed supply and outdoor air. B. Related Sections: 1. Section 233113 "Metal Ducts" for duct liners. 1.2 ACTION SUBMITTALS A. Product Data: For each type of product indicated. 1.3 INFORMATIONAL SUBMITTALS A. Field quality-control reports. 1.4 QUALITY ASSURANCE A. Surface-Burning Characteristics: For insulation and related materials, as determined by testing identical products according to ASTM E 84, by a testing agency acceptable to authorities having jurisdiction. Factory label insulation and jacket materials and adhesive, mastic, tapes, and cement material containers, with appropriate markings of applicable testing agency. 1. Insulation Installed Indoors: Flame-spread index of 25 or less, and smoke-developed index of 50 or less. PART 2 - PRODUCTS 2.1 INSULATION MATERIALS A. Comply with requirements in "Duct Insulation Schedule, General," "Indoor Duct and Plenum Insulation Schedule," and "Aboveground, Outdoor Duct and Plenum Insulation Schedule" articles for where insulating materials shall be applied. B. Products shall not contain asbestos, lead, mercury, or mercury compounds. C. Products that come in contact with stainless steel shall have a leachable chloride content of less than 50 ppm when tested according to ASTM C 871. CORNELL UNIVERSITY SECTION 23 07 13 Ithaca, New York DUCT INSULATION 6 Floor Rhodes Hall Rm 651 Duct Insulation 23 07 13 - 2 01.04.2016 D. Insulation materials for use on austenitic stainless steel shall be qualified as acceptable according to ASTM C 795. E. Mineral-Fiber Blanket Insulation: Mineral or glass fibers bonded with a thermosetting resin. Comply with ASTM C 553, Type II and ASTM C 1290, Type I. Factory-applied jacket requirements are specified in "Factory-Applied Jackets" Article. 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Johns Manville; a Berkshire Hathaway company. b. Knauf Insulation. c. Manson Insulation Inc. F. Mineral-Fiber Board Insulation: Mineral or glass fibers bonded with a thermosetting resin. Comply with ASTM C 612, Type IA or Type IB. For duct and plenum applications, provide insulation with factory-applied FSK jacket. Factory-applied jacket requirements are specified in "Factory-Applied Jackets" Article. 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Johns Manville; a Berkshire Hathaway company. b. Knauf Insulation. c. Manson Insulation Inc. 2.2 ADHESIVES A. Materials shall be compatible with insulation materials, jackets, and substrates and for bonding insulation to itself and to surfaces to be insulated unless otherwise indicated. B. Mineral-Fiber Adhesive: Comply with MIL-A-3316C, Class 2, Grade A. 1. Manufacturers: Subject to compliance with requirements, provide products by the following: a. Childers Brand; H. B. Fuller Construction Products. 2. For indoor applications, adhesive shall have a VOC content of 80 g/L or less when calculated according to 40 CFR 59, Subpart D (EPA Method 24). 3. Adhesive shall comply with the testing and product requirements of the California Department of Health Services' "Standard Practice for the Testing of Volatile Organic Emissions from Various Sources Using Small-Scale Environmental Chambers." C. ASJ Adhesive, and FSK Jacket Adhesive: Comply with MIL-A-3316C, Class 2, Grade A for bonding insulation jacket lap seams and joints. 1. Manufacturers: Subject to compliance with requirements, provide products by the following: CORNELL UNIVERSITY SECTION 23 07 13 Ithaca, New York DUCT INSULATION 6 Floor Rhodes Hall Rm 651 Duct Insulation 23 07 13 - 3 01.04.2016 a. Childers Brand; H. B. Fuller Construction Products. 2. For indoor applications, adhesive shall have a VOC content of 50 g/L or less when calculated according to 40 CFR 59, Subpart D (EPA Method 24). 3. Adhesive shall comply with the testing and product requirements of the California Department of Health Services' "Standard Practice for the Testing of Volatile Organic Emissions from Various Sources Using Small-Scale Environmental Chambers." 2.3 SEALANTS A. FSK and Metal Jacket Flashing Sealants: 1. Manufacturers: Subject to compliance with requirements, provide products by the following: a. Childers Brand; H. B. Fuller Construction Products. 2. Materials shall be compatible with insulation materials, jackets, and substrates. 3. Fire- and water-resistant, flexible, elastomeric sealant. 4. Service Temperature Range: Minus 40 to plus 250 deg F. 5. Color: Aluminum. 6. For indoor applications, use sealants that have a VOC content of 420 g/L or less when calculated according to 40 CFR 59, Subpart D (EPA Method 24). 7. Sealants shall comply with the testing and product requirements of the California Department of Health Services' "Standard Practice for the Testing of Volatile Organic Emissions from Various Sources Using Small-Scale Environmental Chambers." 2.4 FACTORY-APPLIED JACKETS A. Insulation system schedules indicate factory-applied jackets on various applications. When factory-applied jackets are indicated, comply with the following: 1. FSK Jacket: Aluminum-foil, fiberglass-reinforced scrim with kraft-paper backing; complying with ASTM C 1136, Type II. 2.5 TAPES A. FSK Tape: Foil-face, vapor-retarder tape matching factory-applied jacket with acrylic adhesive; complying with ASTM C 1136. 1. Manufacturers: Subject to compliance with requirements, provide products by the following: a. Knauf Insulation. 2. Width: 3 inches. 3. Thickness: 6.5 mils. CORNELL UNIVERSITY SECTION 23 07 13 Ithaca, New York DUCT INSULATION 6 Floor Rhodes Hall Rm 651 Duct Insulation 23 07 13 - 4 01.04.2016 4. Adhesion: 90 ounces force/inch in width. 5. Elongation: 2 percent. 6. Tensile Strength: 40 lbf/inch in width. 7. FSK Tape Disks and Squares: Precut disks or squares of FSK tape. 2.6 SECUREMENTS A. Aluminum Bands: ASTM B 209, Alloy 3003, 3005, 3105, or 5005; Temper H-14, 0.020 inch thick, 1/2 inch wide with wing seal or closed seal. 1. Manufacturers: Subject to compliance with requirements, provide products by the following: a. ITW Insulation Systems; Illinois Tool Works, Inc. B. Staples: Outward-clinching insulation staples, nominal 3/4-inch-wide, stainless steel or Monel. PART 3 - EXECUTION 3.1 PREPARATION A. Surface Preparation: Clean and dry surfaces to receive insulation. Remove materials that will adversely affect insulation application. 3.2 GENERAL INSTALLATION REQUIREMENTS A. Install insulation materials, accessories, and finishes with smooth, straight, and even surfaces; free of voids throughout the length of ducts and fittings. B. Install insulation materials, vapor barriers or retarders, jackets, and thicknesses required for each item of duct system as specified in insulation system schedules. C. Install accessories compatible with insulation materials and suitable for the service. Install accessories that do not corrode, soften, or otherwise attack insulation or jacket in either wet or dry state. D. Install insulation with longitudinal seams at top and bottom of horizontal runs. E. Install multiple layers of insulation with longitudinal and end seams staggered. F. Keep insulation materials dry during application and finishing. G. Install insulation with tight longitudinal seams and end joints. Bond seams and joints with adhesive recommended by insulation material manufacturer. H. Install insulation with least number of joints practical. CORNELL UNIVERSITY SECTION 23 07 13 Ithaca, New York DUCT INSULATION 6 Floor Rhodes Hall Rm 651 Duct Insulation 23 07 13 - 5 01.04.2016 I. Apply adhesives, mastics, and sealants at manufacturer's recommended coverage rate and wet and dry film thicknesses. J. Install insulation with factory-applied jackets as follows: 1. Draw jacket tight and smooth. 2. Cover circumferential joints with 3-inch-wide strips, of same material as insulation jacket. Secure strips with adhesive and outward clinching staples along both edges of strip, spaced 4 inches o.c. 3. Overlap jacket longitudinal seams at least 1-1/2 inches. Clean and dry surface to receive self-sealing lap. Staple laps with outward clinching staples along edge at 2 inches o.c. 4. Cover joints and seams with tape, according to insulation material manufacturer's written instructions, to maintain vapor seal. K. Cut insulation in a manner to avoid compressing insulation more than 75 percent of its nominal thickness. L. Finish installation with systems at operating condit ions. Repair joint separations and cracking due to thermal movement. M. Repair damaged insulation facings by applying same facing material over damaged areas. Extend patches at least 4 inches beyond damaged areas. Adhere, staple, and seal patches similar to butt joints. 3.3 PENETRATIONS A. Insulation Installation at Interior Wall and Partition Penetrations (That Are Not Fire Rated): Install insulation continuously through walls and partitions. B. Insulation Installation at Fire-Rated Wall and Partition Penetrations: Terminate insulation at fire damper sleeves for fire-rated wall and partition penetrations. Externally insulate damper sleeves to match adjacent insulation and overlap duct insulation at least 2 inches. 1. Comply with requirements in Section 078413 "Penetration Firestopping" for firestopping and fire-resistive joint sealers. 3.4 INSTALLATION OF MINERAL-FIBER INSULATION A. Blanket Insulation Installation on Ducts and Plenums: Secure with adhesive and insulation pins. 1. Apply adhesives according to manufacturer's recommended coverage rates per unit area, for 100 percent coverage of duct and plenum surfaces. 2. Apply adhesive to entire circumference of ducts and to all surfaces of fittings and transitions. 3. Install either capacitor-discharge-weld pins and speed washers or cupped-head, capacitor- discharge-weld pins on sides and bottom of horizontal ducts and sides of vertical ducts as follows: CORNELL UNIVERSITY SECTION 23 07 13 Ithaca, New York DUCT INSULATION 6 Floor Rhodes Hall Rm 651 Duct Insulation 23 07 13 - 6 01.04.2016 a. On duct sides with dimensions 18 inches and smaller, place pins along longitudinal centerline of duct. Space 3 inches maximum from insulation end joints, and 16 inches o.c. b. On duct sides with dimensions larger than 18 inches, place pins 16 inches o.c. each way, and 3 inches maximum from insulation joints. Install additional pins to hold insulation tightly against surface at cross bracing. c. Pins may be omitted from top surface of horizontal, rectangular ducts and plenums. d. Do not overcompress insulation during installation. e. Impale insulation over pins and attach speed washers. f. Cut excess portion of pins extending beyond speed washers or bend parallel with insulation surface. Cover exposed pins and washers with tape matching insulation facing. 4. Overlap unfaced blankets a minimum of 2 inches on longitudinal seams and end joints. At end joints, secure with steel bands spaced a maximum of 18 inches o.c. 5. Install insulation on rectangular duct elbows and transitions with a full insulation section for each surface. Install insulation on round and flat-oval duct elbows with individually mitered gores cut to fit the elbow. 6. Insulate duct stiffeners, hangers, and flanges that protrude beyond insulation surface with 6-inch-wide strips of same material used to insulate duct. Secure on alternating sides of stiffener, hanger, and flange with pins spaced 6 inches o.c. B. Board Insulation Installation on Ducts and Plenums: Secure with adhesive and insulation pins. 1. Apply adhesives according to manufacturer's recommended coverage rates per unit area, for 100 percent coverage of duct and plenum surfaces. 2. Apply adhesive to entire circumference of ducts and to all surfaces of fittings and transitions. 3. Install either capacitor-discharge-weld pins and speed washers or cupped-head, capacitor- discharge-weld pins on sides and bottom of horizontal ducts and sides of vertical ducts as follows: a. On duct sides with dimensions 18 inches and smaller, place pins along longitudinal centerline of duct. Space 3 inches maximum from insulation end joints, and 16 inches o.c. b. On duct sides with dimensions larger than 18 inches, space pins 16 inches o.c. each way, and 3 inches maximum from insulation joints. Install additional pins to hold insulation tightly against surface at cross bracing. c. Pins may be omitted from top surface of horizontal, rectangular ducts and plenums. d. Do not overcompress insulation during installation. e. Cut excess portion of pins extending beyond speed washers or bend parallel with insulation surface. Cover exposed pins and washers with tape matching insulation facing. 4. Install insulation on rectangular duct elbows and transitions with a full insulation section for each surface. Groove and score insulation to fit as closely as possible to outside and inside radius of elbows. Install insulation on round and flat-oval duct elbows with individually mitered gores cut to fit the elbow. CORNELL UNIVERSITY SECTION 23 07 13 Ithaca, New York DUCT INSULATION 6 Floor Rhodes Hall Rm 651 Duct Insulation 23 07 13 - 7 01.04.2016 5. Insulate duct stiffeners, hangers, and flanges that protrude beyond insulation surface with 6-inch-wide strips of same material used to insulate duct. Secure on alternating sides of stiffener, hanger, and flange with pins spaced 6 inches o.c. 3.5 FINISHES A. Insulation with ASJ or Other Paintable Jacket Material: Paint jacket with paint system identified below and as specified in Section 099113 "Exterior Painting" and Section 099123 "Interior Painting." 1. Flat Acrylic Finish: Two finish coats over a primer that is compatible with jacket material and finish coat paint. Add fungicidal agent to render fabric mildew proof. a. Finish Coat Material: Interior, flat, latex-emulsion size. B. Color: Final color as selected by Architect. Vary first and second coats to allow visual inspection of the completed Work. C. Do not field paint aluminum or stainless-steel jackets. 3.6 FIELD QUALITY CONTROL A. Perform tests and inspections. B. Tests and Inspections: 1. Inspect ductwork, randomly selected by Architect, by removing field-applied jacket and insulation in layers in reverse order of their installation. Extent of inspection shall be limited to one location(s) for each duct system defined in the "Duct Insulation Schedule, General" Article. C. All insulation applications will be considered defective Work if sample inspection reveals noncompliance with requirements. 3.7 DUCT INSULATION SCHEDULE, GENERAL A. Plenums and Ducts Requiring Insulation: 1. Indoor, concealed supply and outdoor air. B. Items Not Insulated: 1. Metal ducts with duct liner of sufficient thickness to comply with energy code and ASHRAE/IESNA 90.1. 2. Factory-insulated flexible ducts. 3. Flexible connectors. 4. Factory-insulated access panels and doors. CORNELL UNIVERSITY SECTION 23 07 13 Ithaca, New York DUCT INSULATION 6 Floor Rhodes Hall Rm 651 Duct Insulation 23 07 13 - 8 01.04.2016 3.8 INDOOR DUCT AND PLENUM INSULATION SCHEDULE A. Concealed, Supply-Air Duct and Plenum Insulation: Mineral-fiber blanket board, 1-1/2 inches thick and 0.75-lb/cu. ft. nominal density. END OF SECTION 23 07 13 CORNELL UNIVERSITY SECTION 23 31 13 Ithaca, New York METAL DUCTS 6 Floor Rhodes Hall Rm 651 Metal Ducts 23 31 13 - 1 01.04.2016 SECTION 23 31 13 - METAL DUCTS PART 1 - GENERAL 1.1 SUMMARY A. Section Includes: 1. Rectangular ducts and fittings. 2. Round ducts and fittings. 3. Sheet metal materials. 4. Sealants and gaskets. 5. Hangers and supports. B. Related Sections: 1. Section 233300 "Air Duct Accessories" for dampers, sound-control devices, duct- mounting access doors and panels, turning vanes, and flexible ducts. 1.2 PERFORMANCE REQUIREMENTS A. Airstream Surfaces: Surfaces in contact with the airstream shall comply with requirements in ASHRAE 62.1. 1.3 ACTION SUBMITTALS A. Product Data: For each type of product indicated. B. Shop Drawings: 1. Duct layout indicating sizes, configuration, and static-pressure classes. 2. Elevation of top of ducts. 3. Dimensions of main duct runs from building grid lines. 4. Penetrations through fire-rated and other partitions. 5. Equipment installation based on equipment being used on Project. 6. Locations for duct accessories, including dampers, turning vanes, and access doors and panels. 1.4 INFORMATIONAL SUBMITTALS A. Coordination Drawings: Plans, drawn to scale, on which the following items are shown and coordinated with each other, using input from installers of the items involved: 1. Items penetrating finished ceiling including the following: a. Lighting fixtures. b. Air outlets and inlets. c. Sprinklers. CORNELL UNIVERSITY SECTION 23 31 13 Ithaca, New York METAL DUCTS 6 Floor Rhodes Hall Rm 651 Metal Ducts 23 31 13 - 2 01.04.2016 d. Access panels. PART 2 - PRODUCTS 2.1 RECTANGULAR DUCTS AND FITTINGS A. General Fabrication Requirements: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" based on indicated static-pressure class unless otherwise indicated. B. Transverse Joints: Select joint types and fabricate according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 2-1, "Rectangular Duct/Transverse Joints," for static-pressure class, applicable sealing requirements, materials involved, duct- support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." C. Longitudinal Seams: Select seam types and fabricate according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 2-2, "Rectangular Duct/Longitudinal Seams," for static-pressure class, applicable sealing requirements, materials involved, duct- support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." D. Elbows, Transitions, Offsets, Branch Connections, and Other Duct Construction: Select types and fabricate according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Chapter 4, "Fittings and Other Construction," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." 2.2 ROUND DUCTS AND FITTINGS A. General Fabrication Requirements: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Chapter 3, "Round, Oval, and Flexible Duct," based on indicated static-pressure class unless otherwise indicated. B. Transverse Joints: Select joint types and fabricate according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 3-1, "Round Duct Transverse Joints," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." C. Longitudinal Seams: Select seam types and fabricate according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 3-2, "Round Duct Longitudinal Seams," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." D. Tees and Laterals: Select types and fabricate according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 3-5, "90 Degree Tees and Laterals," and CORNELL UNIVERSITY SECTION 23 31 13 Ithaca, New York METAL DUCTS 6 Floor Rhodes Hall Rm 651 Metal Ducts 23 31 13 - 3 01.04.2016 Figure 3-6, "Conical Tees," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." 2.3 SHEET METAL MATERIALS A. General Material Requirements: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" for acceptable materials, material thicknesses, and duct construction methods unless otherwise indicated. Sheet metal materials shall be free of pitting, seam marks, roller marks, stains, discolorations, and other imperfections. B. Galvanized Sheet Steel: Comply with ASTM A 653/A 653M. 1. Galvanized Coating Designation: G60. 2. Finishes for Surfaces Exposed to View: Mill phosphatized. C. Carbon-Steel Sheets: Comply with ASTM A 1008/A 1008M, with oiled, matte finish for exposed ducts. D. Tie Rods: Galvanized steel, 1/4-inch minimum diameter for lengths 36 inches or less; 3/8-inch minimum diameter for lengths longer than 36 inches. 2.4 SEALANT AND GASKETS A. General Sealant and Gasket Requirements: Surface-burning characteristics for sealants and gaskets shall be a maximum flame-spread index of 25 and a maximum smoke-developed index of 50 when tested according to UL 723; certified by an NRTL. B. Two-Part Tape Sealing System: 1. Tape: Woven cotton fiber impregnated with mineral gypsum and modified acrylic/silicone activator to react exothermically with tape to form hard, durable, airtight seal. 2. Tape Width: 3 inches. 3. Sealant: Modified styrene acrylic. 4. Water resistant. 5. Mold and mildew resistant. 6. Maximum Static-Pressure Class: 10-inch wg, positive and negative. 7. Service: Indoor and outdoor. 8. Service Temperature: Minus 40 to plus 200 deg F. 9. Substrate: Compatible with galvanized sheet steel (both PVC coated and bare), stainless steel, or aluminum. 10. For indoor applications, sealant shall have a VOC content of 250 g/L or less when calculated according to 40 CFR 59, Subpart D (EPA Method 24). 11. Sealant shall comply with the testing and product requirements of the California Department of Health Services' "Standard Practice for the Testing of Volatile Organic Emissions from Various Sources Using Small-Scale Environmental Chambers." C. Water-Based Joint and Seam Sealant: CORNELL UNIVERSITY SECTION 23 31 13 Ithaca, New York METAL DUCTS 6 Floor Rhodes Hall Rm 651 Metal Ducts 23 31 13 - 4 01.04.2016 1. Application Method: Brush on. 2. Solids Content: Minimum 65 percent. 3. Shore A Hardness: Minimum 20. 4. Water resistant. 5. Mold and mildew resistant. 6. VOC: Maximum 75 g/L (less water). 7. Maximum Static-Pressure Class: 10-inch wg, positive and negative. 8. Service: Indoor or outdoor. 9. Substrate: Compatible with galvanized sheet steel (both PVC coated and bare), stainless steel, or aluminum sheets. D. Flanged Joint Sealant: Comply with ASTM C 920. 1. General: Single-component, acid-curing, silicone, elastomeric. 2. Type: S. 3. Grade: NS. 4. Class: 25. 5. Use: O. 6. For indoor applications, sealant shall have a VOC content of 250 g/L or less when calculated according to 40 CFR 59, Subpart D (EPA Method 24). 7. Sealant shall comply with the testing and product requirements of the California Department of Health Services' "Standard Practice for the Testing of Volatile Organi c Emissions from Various Sources Using Small-Scale Environmental Chambers." E. Flange Gaskets: Butyl rubber, neoprene, or EPDM polymer with polyisobutylene plasticizer. F. Round Duct Joint O-Ring Seals: 1. Seal shall provide maximum 3 cfm/100 sq. ft. at 1-inch wg (0.14 L/s per sq. m) and shall be rated for10-inch wg static-pressure class, positive or negative. 2. EPDM O-ring to seal in concave bead in coupling or fitting spigot. 3. Double-lipped, EPDM O-ring seal, mechanically fastened to factory-fabricated couplings and fitting spigots. 2.5 HANGERS AND SUPPORTS A. Hanger Rods for Noncorrosive Environments: Cadmium-plated steel rods and nuts. B. Strap and Rod Sizes: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Table 5-1, "Rectangular Duct Hangers Minimum Size," and Table 5-2, "Minimum Hanger Sizes for Round Duct." C. Duct Attachments: Sheet metal screws, blind rivets, or self-tapping metal screws; compatible with duct materials. D. Trapeze and Riser Supports: 1. Supports for Galvanized-Steel Ducts: Galvanized-steel shapes and plates. CORNELL UNIVERSITY SECTION 23 31 13 Ithaca, New York METAL DUCTS 6 Floor Rhodes Hall Rm 651 Metal Ducts 23 31 13 - 5 01.04.2016 PART 3 - EXECUTION 3.1 DUCT INSTALLATION A. Drawing plans, schematics, and diagrams indicate general location and arrangement of duct system. Indicated duct locations, configurations, and arrangements were used to size ducts and calculate friction loss for air-handling equipment sizing and for other design considerations. Install duct systems as indicated unless deviations to layout are approved on Shop Drawings and Coordination Drawings. B. Install ducts according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" unless otherwise indicated. C. Install round ducts in maximum practical lengths. D. Install ducts with fewest possible joints. E. Install factory- or shop-fabricated fittings for changes in direction, size, and shape and for branch connections. F. Unless otherwise indicated, install ducts vertically and horizontally, and parallel and perpendicular to building lines. G. Install ducts close to walls, overhead construction, columns, and other structural and permanent enclosure elements of building. H. Install ducts with a clearance of 1 inch, plus allowance for insulation thickness. I. Route ducts to avoid passing through transformer vaults and electrical equipment rooms and enclosures. J. Where ducts pass through non-fire-rated interior partitions and exterior walls and are exposed to view, cover the opening between the partition and duct or duct insulation with sheet metal flanges of same metal thickness as the duct. Overlap openings on four sides by at least 1-1/2 inches. K. Where ducts pass through fire-rated interior partitions and exterior walls, install fire dampers. Comply with requirements in Section 233300 "Air Duct Accessories" for fire and smoke dampers. L. Protect duct interiors from moisture, construction debris and dust, and other foreign materials. Comply with SMACNA's "IAQ Guidelines for Occupied Buildings Under Construction," Appendix G, "Duct Cleanliness for New Construction Guidelines." 3.2 DUCT SEALING A. Seal ducts for duct static-pressure, seal classes, and leakage classes specified in "Duct Schedule" Article according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." CORNELL UNIVERSITY SECTION 23 31 13 Ithaca, New York METAL DUCTS 6 Floor Rhodes Hall Rm 651 Metal Ducts 23 31 13 - 6 01.04.2016 B. Seal ducts to the following seal classes according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible": 1. Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." 2. Conditioned Space, Supply-Air Ducts in Pressure Classes 2-Inch wg and Lower: Seal Class C. 3. Conditioned Space, Return-Air Ducts: Seal Class C. 3.3 HANGER AND SUPPORT INSTALLATION A. Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Chapter 5, "Hangers and Supports." B. Building Attachments: Concrete inserts, powder-actuated fasteners, or structural-steel fasteners appropriate for construction materials to which hangers are being attached. 1. Install powder-actuated concrete fasteners after concrete is placed and completely cured. 2. Use powder-actuated concrete fasteners for standard-weight aggregate concretes or for slabs more than 4 inches thick. 3. Do not use powder-actuated concrete fasteners for lightweight-aggregate concretes or for slabs less than 4 inches thick. 4. Do not use powder-actuated concrete fasteners for seismic restraints. C. Hanger Spacing: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Table 5-1, "Rectangular Duct Hangers Minimum Size," and Table 5-2, "Minimum Hanger Sizes for Round Duct," for maximum hanger spacing; install hangers and supports within 24 inches of each elbow and within 48 inches of each branch intersection. D. Install upper attachments to structures. Select and size upper attachments with pull-out, tension, and shear capacities appropriate for supported loads and building materials where used. 3.4 CONNECTIONS A. Make connections to equipment with flexible connectors complying with Section 233300 "Air Duct Accessories." B. Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" for branch, outlet and inlet, and terminal unit connections. 3.5 DUCT CLEANING A. Clean new duct systems before testing, adjusting, and balancing. B. Use service openings for entry and inspection. 1. Create new openings and install access panels appropriate for duct static-pressure class if required for cleaning access. Provide insulated panels for insulated or lined duct. Patch insulation and liner as recommended by duct liner manufacturer. Comply with Section 233300 "Air Duct Accessories" for access panels and doors. CORNELL UNIVERSITY SECTION 23 31 13 Ithaca, New York METAL DUCTS 6 Floor Rhodes Hall Rm 651 Metal Ducts 23 31 13 - 7 01.04.2016 2. Disconnect and reconnect flexible ducts as needed for cleaning and inspection. 3. Remove and reinstall ceiling to gain access during the cleaning process. C. Particulate Collection and Odor Control: 1. When venting vacuuming system inside the building, use HEPA filtration with 99.97 percent collection efficiency for 0.3-micron-size (or larger) particles. 2. When venting vacuuming system to outdoors, use filter to collect debris removed from HVAC system, and locate exhaust downwind and away from air intakes and other points of entry into building. D. Clean the following components by removing surface contaminants and deposits: 1. Air outlets and inlets (registers, grilles, and diffusers). 2. Return-air ducts, dampers, actuators, and turning vanes except in ceiling plenums and mechanical equipment rooms. 3. Supply-air ducts, dampers, actuators, and turning vanes. E. Mechanical Cleaning Methodology: 1. Clean metal duct systems using mechanical cleaning methods that extract contaminants from within duct systems and remove contaminants from building. 2. Use vacuum-collection devices that are operated continuously during cleaning. Connect vacuum device to downstream end of duct sections so areas being cleaned are under negative pressure. 3. Use mechanical agitation to dislodge debris adhered to interior duct surfaces without damaging integrity of metal ducts, duct liner, or duct accessories. 4. Clean fibrous-glass duct liner with HEPA vacuuming equipment; do not permit duct liner to get wet. Replace fibrous-glass duct liner that is damaged, deteriorated, or delaminated or that has friable material, mold, or fungus growth. 5. Clean coils and coil drain pans according to NADCA 1992. Keep drain pan operational. Rinse coils with clean water to remove latent residues and cleaning materials; comb and straighten fins. 6. Provide drainage and cleanup for wash-down procedures. 7. Antimicrobial Agents and Coatings: Apply EPA-registered antimicrobial agents if fungus is present. Apply antimicrobial agents according to manufacturer's written instructions after removal of surface deposits and debris. 3.6 DUCT SCHEDULE A. Fabricate ducts with galvanized sheet steel except as otherwise indicated. B. Supply Ducts: 1. Ducts Connected to Variable-Air-Volume Terminal Units: a. Pressure Class: Positive 2-inch wg. b. Minimum SMACNA Seal Class: A. c. SMACNA Leakage Class for Rectangular: 12. CORNELL UNIVERSITY SECTION 23 31 13 Ithaca, New York METAL DUCTS 6 Floor Rhodes Hall Rm 651 Metal Ducts 23 31 13 - 8 01.04.2016 d. SMACNA Leakage Class for Round and Flat Oval: 6. C. Elbow Configuration: 1. Rectangular Duct: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 4-2, "Rectangular Elbows." a. Velocity 1000 fpm or Lower: 1) Radius Type RE 1 with minimum 0.5 radius-to-diameter ratio. 2) Mitered Type RE 4 without vanes. b. Velocity 1000 to 1500 fpm: 1) Radius Type RE 1 with minimum 1.0 radius-to-diameter ratio. 2) Radius Type RE 3 with minimum 0.5 radius-to-diameter ratio and two vanes. 3) Mitered Type RE 2 with vanes complying with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 4-3, "Vanes and Vane Runners," and Figure 4-4, "Vane Support in Elbows." 2. Rectangular Duct: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 4-2, "Rectangular Elbows." a. Radius Type RE 1 with minimum 1.5 radius-to-diameter ratio. b. Radius Type RE 3 with minimum 1.0 radius-to-diameter ratio and two vanes. c. Mitered Type RE 2 with vanes complying with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 4-3, "Vanes and Vane Runners," and Figure 4-4, "Vane Support in Elbows." 3. Round Duct: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 3-4, "Round Duct Elbows." a. Minimum Radius-to-Diameter Ratio and Elbow Segments: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Table 3- 1, "Mitered Elbows." Elbows with less than 90-degree change of direction have proportionately fewer segments. 1) Velocity 1000 fpm or Lower: 0.5 radius-to-diameter ratio and three segments for 90-degree elbow. 2) Velocity 1000 to 1500 fpm: 1.0 radius-to-diameter ratio and four segments for 90-degree elbow. b. Round Elbows, 12 Inches and Smaller in Diameter: Stamped or pleated. c. Round Elbows, 14 Inches and Larger in Diameter: Standing seam. D. Branch Configuration: 1. Rectangular Duct: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 4-6, "Branch Connection." CORNELL UNIVERSITY SECTION 23 31 13 Ithaca, New York METAL DUCTS 6 Floor Rhodes Hall Rm 651 Metal Ducts 23 31 13 - 9 01.04.2016 a. Rectangular Main to Rectangular Branch: 45-degree entry. b. Rectangular Main to Round Branch: Spin in. 2. Round: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Figure 3-5, "90 Degree Tees and Laterals," and Figure 3-6, "Conical Tees." Saddle taps are permitted in existing duct. a. Velocity 1000 fpm or Lower: 90-degree tap. b. Velocity 1000 to 1500 fpm: Conical tap. END OF SECTION 23 31 13 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** CORNELL UNIVERSITY SECTION 23 33 00 Ithaca, New York AIR DUCT ACCESSORIES 6 Floor Rhodes Hall Rm 651 Air Duct Accessories 23 33 00 - 1 01.04.2016 SECTION 23 33 00 - AIR DUCT ACCESSORIES PART 1 - GENERAL 1.1 SUMMARY A. Section Includes: 1. Manual volume dampers. 2. Flexible ducts. 3. Duct accessory hardware. 1.2 ACTION SUBMITTALS A. Product Data: For each type of product. 1.3 CLOSEOUT SUBMITTALS A. Operation and maintenance data. PART 2 - PRODUCTS 2.1 ASSEMBLY DESCRIPTION A. Comply with NFPA 90A, "Installation of Air Conditioning and Ventilating Systems," and with NFPA 90B, "Installation of Warm Air Heating and Air Conditioning Systems." B. Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" for acceptable materials, material thicknesses, and duct construction methods unless otherwise indicated. Sheet metal materials shall be free of pitting, seam marks, roller marks, stains, discolorations, and other imperfections. 2.2 MATERIALS A. Galvanized Sheet Steel: Comply with ASTM A 653/A 653M. 1. Galvanized Coating Designation: G60. 2. Exposed-Surface Finish: Mill phosphatized. B. Tie Rods: Galvanized steel, 1/4-inch minimum diameter for lengths 36 inches or less; 3/8-inch minimum diameter for lengths longer than 36 inches. CORNELL UNIVERSITY SECTION 23 33 00 Ithaca, New York AIR DUCT ACCESSORIES 6 Floor Rhodes Hall Rm 651 Air Duct Accessories 23 33 00 - 2 01.04.2016 2.3 MANUAL VOLUME DAMPERS A. Standard, Steel, Manual Volume Dampers: 1. Standard leakage rating, with linkage outside airstream. 2. Suitable for horizontal or vertical applications. 3. Frames: a. Frame: Hat-shaped, 0.094-inch-thick, galvanized sheet steel. b. Mitered and welded corners. c. Flanges for attaching to walls and flangeless frames for installing in ducts. 4. Blades: a. Multiple or single blade. b. Parallel- or opposed-blade design. c. Stiffen damper blades for stability. d. Galvanized-steel, 0.064 inch thick. 5. Blade Axles: Galvanized steel. 6. Bearings: a. Oil-impregnated bronze. b. Dampers in ducts with pressure classes of 3-inch wg or less shall have axles full length of damper blades and bearings at both ends of operating shaft. 7. Tie Bars and Brackets: Galvanized steel. 2.4 FLEXIBLE DUCTS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Flexmaster U.S.A., Inc. 2. Flex-Tek Group. 3. JP Lamborn Co. B. Insulated, Flexible Duct: UL 181, Class 1, aluminum laminate and polyester film with latex adhesive supported by helically wound, spring-steel wire; fibrous-glass insulation; polyethylene vapor-barrier film. 1. Pressure Rating: 10-inch wg positive and 1.0-inch wg negative. 2. Maximum Air Velocity: 4000 fpm. 3. Temperature Range: Minus 20 to plus 210 deg F. 4. Insulation R-value: Comply with ASHRAE/IESNA 90.1. C. Flexible Duct Connectors: 1. Clamps: Stainless-steel band with cadmium-plated hex screw to tighten band with a worm-gear action in sizes 3 through 18 inches, to suit duct size. CORNELL UNIVERSITY SECTION 23 33 00 Ithaca, New York AIR DUCT ACCESSORIES 6 Floor Rhodes Hall Rm 651 Air Duct Accessories 23 33 00 - 3 01.04.2016 PART 3 - EXECUTION 3.1 INSTALLATION A. Install duct accessories according to applicable details in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" for metal ducts and in NAIMA AH116, "Fibrous Glass Duct Construction Standards," for fibrous-glass ducts. B. Install duct accessories of materials suited to duct materials; use galvanized-steel accessories in galvanized-steel and fibrous-glass ducts, stainless-steel accessories in stainless-steel ducts, and aluminum accessories in aluminum ducts. C. Install volume dampers at points on supply, return, and exhaust systems where branches extend from larger ducts. Where dampers are installed in ducts having duct liner, install dampers with hat channels of same depth as liner, and terminate liner with nosing at hat channel. 1. Install steel volume dampers in steel ducts. D. Set dampers to fully open position before testing, adjusting, and balancing. E. Connect terminal units to supply ducts directly. Do not use flexible ducts to change directions. F. Connect diffusers or light troffer boots to ducts directly or with maximum 36-inch lengths of flexible duct clamped or strapped in place. G. Connect flexible ducts to metal ducts with draw bands. H. Install duct test holes where required for testing and balancing purposes. 3.2 FIELD QUALITY CONTROL A. Tests and Inspections: 1. Operate dampers to verify full range of movement. 2. Inspect locations of access doors and verify that purpose of access door can be performed. 3. Operate fire and smoke dampers to verify full range of movement and verify that proper heat-response device is installed. 4. Inspect turning vanes for proper and secure installation. END OF SECTION 23 33 00 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** CORNELL UNIVERSITY SECTION 23 36 00 Ithaca, New York AIR TERMINAL UNITS 6 Floor Rhodes Hall Rm 651 Air Terminal Units 23 36 00 - 1 01.04.2016 SECTION 23 36 00 - AIR TERMINAL UNITS PART 1 - GENERAL 1.1 SUMMARY A. Section Includes: 1. Shutoff, single-duct air terminal units. 1.2 ACTION SUBMITTALS A. Product Data: For each type of air terminal unit. 1.3 CLOSEOUT SUBMITTALS A. Operation and maintenance data. PART 2 - PRODUCTS 2.1 SYSTEM DESCRIPTION A. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. B. ASHRAE Compliance: Applicable requirements in ASHRAE 62.1, Section 5 - "Systems and Equipment" and Section 7 - "Construction and System Start-up." C. ASHRAE Compliance: Applicable requirements in ASHRAE/IES 90.1, "Section 6 - Heating, Ventilating, and Air Conditioning." 2.2 SHUTOFF, SINGLE-DUCT AIR TERMINAL UNITS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Carrier Corporation; a unit of United Technologies Corp. 2. Titus. 3. Trane. B. Configuration: Volume-damper assembly inside unit casing with control components inside a protective metal shroud. C. Casing: 0.040-inch- thick galvanized steel, single wall. CORNELL UNIVERSITY SECTION 23 36 00 Ithaca, New York AIR TERMINAL UNITS 6 Floor Rhodes Hall Rm 651 Air Terminal Units 23 36 00 - 2 01.04.2016 1. Casing Liner: Comply with requirements in "Casing Liner" Article for fibrous-glass duct liner. 2. Air Inlet: Round stub connection or S-slip and drive connections for duct attachment. 3. Air Outlet: S-slip and drive connections, size matching inlet size. 4. Access: Removable panels for access to parts requiring service, adjustment, or maintenance; with airtight gasket. 5. Airstream Surfaces: Surfaces in contact with the airstream shall comply with requirements in ASHRAE 62.1. D. Regulator Assembly: System-air-powered bellows section incorporating polypropylene bellows for volume regulation and thermostatic control. Bellows shall operate at temperatures from zero to 140 deg F, shall be impervious to moisture and fungus, shall be suitable for 10-inch wg static pressure, and shall be factory tested for leaks. E. Volume Damper: Galvanized steel with peripheral gasket and self-lubricating bearings. 1. Maximum Damper Leakage: AHRI 880 rated, 2 percent of nominal airflow at 3-inch wg inlet static pressure. 2. Damper Position: Normally open. F. Attenuator Section: 0.034-inch steel sheet. 1. Attenuator Section Liner: Comply with requirements in "Casing Liner" Article for fibrous-glass duct liner. 2. Airstream Surfaces: Surfaces in contact with the airstream shall comply with requirements in ASHRAE 62.1. G. Electric-Resistance Heating Coils: Nickel-chromium heating wire, free of expansion noise and hum, mounted in ceramic inserts in a galvanized-steel housing; with primary automatic, and secondary manual, reset thermal cutouts. Terminate elements in stainless-steel, machine-staked terminals secured with stainless-steel hardware. 1. Stage(s): 3. 2. SCR controlled. 3. Access door interlocked disconnect switch. 4. Downstream air temperature sensor with local connection to override discharge-air temperature to not exceed a maximum temperature set point (adjustable). 5. Nickel chrome 80/20 heating elements. 6. Airflow switch for proof of airflow. 7. Fan interlock contacts. 8. Fuses in terminal box for overcurrent protection (for coils more than 48 A). 9. Mercury contactors. 10. Pneumatic-electric switches and relays. 11. Magnetic contactor for each step of control (for three-phase coils). H. Controls: 1. Suitable for operation with duct pressures between 0.25- and 3.0-inch wg inlet static pressure. 2. System-powered, wall-mounted thermostat. CORNELL UNIVERSITY SECTION 23 36 00 Ithaca, New York AIR TERMINAL UNITS 6 Floor Rhodes Hall Rm 651 Air Terminal Units 23 36 00 - 3 01.04.2016 I. Control Sequences: 1. Occupied: a. In a call for cooling, airflow will increase as the damper opens towards maximum setting to satisfy set point. b. In a call for less cooling, airflow will decrease as the damper closes towards minimum setting to satisfy set point. 2. Unoccupied: a. Damper closes to minimum maximum setting. 2.3 CASING LINER A. Casing Liner: Fibrous-glass duct liner, complying with ASTM C 1071, NFPA 90A, or NFPA 90B; and with NAIMA AH124, "Fibrous Glass Duct Liner Standard." 1. Minimum Thickness: 1/2 inch. a. Maximum Thermal Conductivity: 1) Type II, Rigid: 0.23 Btu x in./h x sq. ft. x deg F at 75 deg F mean temperature. 2. Antimicrobial Erosion-Resistant Coating: Apply to the surface of the liner that will form the interior surface of the duct to act as a moisture repellent and erosion-resistant coating. Antimicrobial compound shall be tested for efficacy by an NRTL and registered by the EPA for use in HVAC systems. 3. Solvent-Based Liner Adhesive: Comply with NFPA 90A or NFPA 90B and with ASTM C 916. a. Adhesive VOC Content: 80 g/L or less. b. Adhesive shall comply with the testing and product requirements of the California Department of Public Health's "Standard Method for the Testing and Evaluation of Volatile Organic Chemical Emissions from Indoor Sources Using Environmental Chambers." B. Casing Liner: Flexible elastomeric duct liner fabricated of preformed, cellular, closed-cell, sheet materials complying with ASTM C 534, Type II, Grade 1; and with NFPA 90A or NFPA 90B. 1. Minimum Thickness: 1/2 inch. 2. Surface-Burning Characteristics: Maximum flame-spread index of 25 and maximum smoke-developed index of 50 when tested according to UL 723; certified by an NRTL. 3. Liner Adhesive: As recommended by insulation manufacturer and complying with NFPA 90A or NFPA 90B. a. Adhesive VOC Content: 50 g/L or less. b. Adhesive shall comply with the testing and product requirements of the California Department of Public Health's "Standard Method for the Testing and Evaluation of CORNELL UNIVERSITY SECTION 23 36 00 Ithaca, New York AIR TERMINAL UNITS 6 Floor Rhodes Hall Rm 651 Air Terminal Units 23 36 00 - 4 01.04.2016 Volatile Organic Chemical Emissions from Indoor Sources Using Environmental Chambers." 2.4 SOURCE QUALITY CONTROL A. Factory Tests: Test assembled air terminal units according to AHRI 880. 1. Label each air terminal unit with plan number, nominal airflow, maximum and minimum factory-set airflows, coil type, and AHRI certification seal. PART 3 - EXECUTION 3.1 HANGER AND SUPPORT INSTALLATION A. Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible," Ch. 5, "Hangers and Supports" and with Section 230529 "Hangers and Supports for HVAC Piping and Equipment." B. Building Attachments: Concrete inserts, powder-actuated fasteners, or structural-steel fasteners appropriate for construction materials to which hangers are being attached. 1. Install powder-actuated concrete fasteners after concrete is placed and completely cured. 2. Use powder-actuated concrete fasteners for standard-weight aggregate concretes and for slabs more than 4 inches thick. 3. Do not use powder-actuated concrete fasteners for lightweight-aggregate concretes and for slabs less than 4 inches thick. 4. Do not use powder-actuated concrete fasteners for seismic restraints. C. Hangers Exposed to View: Threaded rod and angle or channel supports. D. Install upper attachments to structures. Select and size upper attachments with pull-out, tension, and shear capacities appropriate for supported loads and building materials where used. 3.2 TERMINAL UNIT INSTALLATION A. Install air terminal units according to NFPA 90A, "Standard for the Installation of Air Conditioning and Ventilating Systems." B. Install air terminal units level and plumb. Maintain sufficient clearance for normal service and maintenance. C. Install wall-mounted thermostats. D. Where installing piping adjacent to air terminal unit, allow space for service and maintenance. E. Comply with requirements in Section 233113 "Metal Ducts" for connecting ducts to air terminal units. CORNELL UNIVERSITY SECTION 23 36 00 Ithaca, New York AIR TERMINAL UNITS 6 Floor Rhodes Hall Rm 651 Air Terminal Units 23 36 00 - 5 01.04.2016 F. Label each air terminal unit with plan number, nominal airflow, and maximum and minimum factory-set airflows. Comply with requirements in Section 230553 "Identification for HVAC Piping and Equipment" for equipment labels and warning signs and labels. 3.3 FIELD QUALITY CONTROL A. Perform the following tests and inspections: 1. After installing air terminal units and after electrical circuitry has been energized, test for compliance with requirements. 2. Leak Test: After installation, fill water coils and test for leaks. Repair leaks and retest until no leaks exist. 3. Operational Test: After electrical circuitry has been energized, start units to confirm proper motor rotation and unit operation. 4. Test and adjust controls and safeties. Replace damaged and malfunctioning controls and equipment. B. Air terminal unit will be considered defective if it does not pass tests and inspections. C. Prepare test and inspection reports. 3.4 DEMONSTRATION A. Engage a factory-authorized service representative to train Owner's maintenance personnel to adjust, operate, and maintain air terminal units. END OF SECTION 23 36 00 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** CORNELL UNIVERSITY SECTION 23 37 13 Ithaca, New York DIFFUSERS, REGISTERS, AND GRILLES 6 Floor Rhodes Hall Rm 651 Diffusers, Registers, and Grilles 23 37 13 - 1 01.04.2016 SECTION 23 37 13 - DIFFUSERS, REGISTERS, AND GRILLES PART 1 - GENERAL 1.1 SUMMARY A. Section Includes: 1. Rectangular and square ceiling diffusers. B. Related Sections: 1. Section 233300 "Air Duct Accessories" for fire and smoke dampers and volume-control dampers not integral to diffusers, registers, and grilles. 1.2 ACTION SUBMITTALS A. Product Data: For each type of product indicated, include the following: 1. Data Sheet: Indicate materials of construction, finish, and mounting details; and performance data including throw and drop, static-pressure drop, and noise ratings. 2. Diffuser, Register, and Grille Schedule: Indicate drawing designation, room location, quantity, model number, size, and accessories furnished. PART 2 - PRODUCTS 2.1 CEILING DIFFUSERS A. Rectangular and Square Ceiling Diffusers: 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Krueger. b. Price Industries. c. Titus. 2. Devices shall be specifically designed for variable-air-volume flows. 3. Material: Aluminum. 4. Finish: Baked enamel, white. 5. Face Size: 24 by 24 inches. 6. Face Style: Three cone. 7. Mounting: T-bar. 8. Pattern: Adjustable. 9. Dampers: Radial opposed blade. CORNELL UNIVERSITY SECTION 23 37 13 Ithaca, New York DIFFUSERS, REGISTERS, AND GRILLES 6 Floor Rhodes Hall Rm 651 Diffusers, Registers, and Grilles 23 37 13 - 2 01.04.2016 2.2 SOURCE QUALITY CONTROL A. Verification of Performance: Rate diffusers, registers, and grilles according to ASHRAE 70, "Method of Testing for Rating the Performance of Air Outlets and Inlets." PART 3 - EXECUTION 3.1 INSTALLATION A. Install diffusers, registers, and grilles level and plumb. B. Ceiling-Mounted Outlets and Inlets: Drawings indicate general arrangement of ducts, fittings, and accessories. Air outlet and inlet locations have been indicated to achieve design requirements for air volume, noise criteria, airflow pattern, throw, and pressure drop. Make final locations where indicated, as much as practical. For units installed in lay-in ceiling panels, locate units in the center of panel. Where architectural features or other items conflict with installation, notify Architect for a determination of final location. C. Install diffusers, registers, and grilles with airtight connections to ducts and to allow service and maintenance of dampers, air extractors, and fire dampers. 3.2 ADJUSTING A. After installation, adjust diffusers, registers, and grilles to air patterns indicated, or as directed, before starting air balancing. END OF SECTION 23 37 13 DIVISION 26 Electrical CORNELL UNIVERSITY SECTION 26 05 19 Ithaca, New York LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES 6 Floor Rhodes Hall Rm 651 Low-Voltage Electrical Power 26 0519 - 1 Conductors and Cables 01.0 4.2016 SECTION 26 05 19 - LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. Building wires and cables rated 2000 V and less. 2. Connectors, splices, and terminations rated 2000 V and less. B. Related Requirements: 1. Section 271500 "Communications Horizontal Cabling" for cabling used for voice and data circuits. 1.3 ACTION SUBMITTALS A. Product Data: For each type of product. PART 2 - PRODUCTS 2.1 CONDUCTORS AND CABLES A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Alpha Wire. 2. Belden Inc. 3. Encore Wire Corporation. 4. General Cable Technologies Corporation. 5. Southwire Incorporated. B. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. C. Conductor and Cable Marking: Comply with wire and cable marking according to UL's "Wire and Cable Marking and Application Guide." D. Conductors: Copper, complying with NEMA WC 70/ICEA S-95-658. 1. Conductor Insulation: Comply with NEMA WC 70/ICEA S-95-658 for type THHN/THWN-2. CORNELL UNIVERSITY SECTION 26 05 19 Ithaca, New York LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES 6 Floor Rhodes Hall Rm 651 Low-Voltage Electrical Power 26 0519 - 2 Conductors and Cables 01.0 4.2016 2.2 CONNECTORS AND SPLICES A. Description: Factory-fabricated connectors and splices of size, ampacity rating, material, type, and class for application and service indicated; listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. PART 3 - EXECUTION 3.1 CONDUCTOR MATERIAL APPLICATIONS A. Branch Circuits: Copper. Stranded for No. 10 AWG and smaller; stranded for No. 8 AWG and larger. 3.2 CONDUCTOR INSULATION AND MULTICONDUCTOR CABLE APPLICATIONS AND WIRING METHODS A. Exposed Branch Circuits, Including in Crawlspaces: Type THHN/THWN-2, single conductors in raceway. B. Branch Circuits Concealed in Ceilings, Walls, and Partitions: Type THHN/THWN-2, single conductors in raceway. 3.3 INSTALLATION OF CONDUCTORS AND CABLES A. Conceal circuits in finished walls, ceilings, and floors unless otherwise indicated. B. Complete raceway installation between conductor and cable termination points according to Section 260533 "Raceways and Boxes for Electrical Systems" prior to pulling conductors and cables. C. Use manufacturer-approved pulling compound or lubricant where necessary; compound used must not deteriorate conductor or insulation. Do not exceed manufacturer's recommended maximum pulling tensions and sidewall pressure values. D. Use pulling means, including fish tape, cable, rope, and basket-weave wire/cable grips, that will not damage cables or raceway. E. Install exposed circuits parallel and perpendicular to surfaces of exposed structural members, and follow surface contours where possible. F. Support cables according to Section 260529 "Hangers and Supports for Electrical Systems." CORNELL UNIVERSITY SECTION 26 05 19 Ithaca, New York LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES 6 Floor Rhodes Hall Rm 651 Low-Voltage Electrical Power 26 0519 - 3 Conductors and Cables 01.0 4.2016 3.4 CONNECTIONS A. Tighten electrical connectors and terminals according to manufacturer's published torque- tightening values. If manufacturer's torque values are not indicated, use those specified in UL 486A-486B. B. Make splices, terminations, and taps that are compatible with conductor material and that possess equivalent or better mechanical strength and insulation ratings than unspliced conductors. C. Wiring at Outlets: Install conductor at each outlet, with at least 6 inches of slack. 3.5 IDENTIFICATION A. Identify and color-code conductors and cables according to Section 260553 "Identification for Electrical Systems." B. Identify each spare conductor at each end with identity number and location of other end of conductor, and identify as spare conductor. 3.6 FIRESTOPPING A. Apply firestopping to electrical penetrations of fire-rated floor and wall assemblies to restore original fire-resistance rating of assembly according to Section 078413 "Penetration Firestopping." 3.7 FIELD QUALITY CONTROL A. Perform the following tests and inspections: 1. Perform each of the following visual and electrical tests: a. Inspect exposed sections of conductor and cable for physical damage and correct connection. b. Test bolted connections for high resistance using one of the following: 1) A low-resistance ohmmeter. 2) Calibrated torque wrench. c. Inspect compression applied connectors for correct cable match and indentation. d. Inspect for correct identification. e. Inspect cable jacket and condition. f. Continuity test on each conductor and cable. g. Uniform resistance of parallel conductors. B. Cables will be considered defective if they do not pass tests and inspections. C. Prepare test and inspection reports to record the following: 1. Procedures used. 2. Results that comply with requirements. CORNELL UNIVERSITY SECTION 26 05 19 Ithaca, New York LOW-VOLTAGE ELECTRICAL POWER CONDUCTORS AND CABLES 6 Floor Rhodes Hall Rm 651 Low-Voltage Electrical Power 26 0519 - 4 Conductors and Cables 01.0 4.2016 3. Results that do not comply with requirements and corrective action taken to achieve compliance with requirements. END OF SECTION 26 05 19 CORNELL UNIVERSITY SECTION 26 05 26 Ithaca, New York GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Grounding And Bonding for 26 05 26 - 1 Electrical Systems 01.04.2016 SECTION 26 05 26 - GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section includes grounding and bonding systems and equipment. 1.3 ACTION SUBMITTALS A. Product Data: For each type of product indicated. 1.4 QUALITY ASSURANCE A. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. B. Comply with UL 467 for grounding and bonding materials and equipment. PART 2 - PRODUCTS 2.1 MANUFACTURERS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Burndy; Part of Hubbell Electrical Systems. 2. ERICO International Corporation. 3. O-Z/Gedney; a brand of Emerson Industrial Automation. 4. Thomas & Betts Corporation; A Member of the ABB Group. 2.2 SYSTEM DESCRIPTION A. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. B. Comply with UL 467 for grounding and bonding materials and equipment. CORNELL UNIVERSITY SECTION 26 05 26 Ithaca, New York GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Grounding And Bonding for 26 05 26 - 2 Electrical Systems 01.04.2016 2.3 CONDUCTORS A. Insulated Conductors: Copper wire or cable insulated for 600 V unless otherwise required by applicable Code or authorities having jurisdiction. 2.4 CONNECTORS A. Listed and labeled by an NRTL acceptable to authorities having jurisdiction for applications in which used and for specific types, sizes, and combinations of conductors and other items connected. PART 3 - EXECUTION 3.1 APPLICATIONS A. Conductors: Install stranded conductor for No. 10 AWG and smaller, and stranded conductors for No. 8 AWG and larger unless otherwise indicated. 3.2 EQUIPMENT GROUNDING A. Install insulated equipment grounding conductors with the following items, in addition to those required by NFPA 70: 1. Feeders and branch circuits. 2. Lighting circuits. 3. Receptacle circuits. 4. Single-phase motor and appliance branch circuits. 5. Three-phase motor and appliance branch circuits. 6. Flexible raceway runs. 7. Armored and metal-clad cable runs. 3.3 INSTALLATION A. Grounding Conductors: Route along shortest and straightest paths possible unless otherwise indicated or required by Code. Avoid obstructing access or placing conductors where they may be subjected to strain, impact, or damage. 3.4 FIELD QUALITY CONTROL A. Tests and Inspections: 1. After installing grounding system but before permanent electrical circuits have been energized, test for compliance with requirements. 2. Inspect physical and mechanical condition. Verify tightness of accessible, bolted, electrical connections with a calibrated torque wrench according to manufacturer's written instructions. B. Grounding system will be considered defective if it does not pass tests and inspections. CORNELL UNIVERSITY SECTION 26 05 26 Ithaca, New York GROUNDING AND BONDING FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Grounding And Bonding for 26 05 26 - 3 Electrical Systems 01.04.2016 C. Prepare test and inspection reports. D. Report measured ground resistances that exceed the following values: 1. Power and Lighting Equipment or System with Capacity of 500 kVA and Less: 10 ohms. E. Excessive Ground Resistance: If resistance to ground exceeds specified values, notify Architect promptly and include recommendations to reduce ground resistance. END OF SECTION 26 05 26 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** CORNELL UNIVERSITY SECTION 26 05 29 Ithaca, New York HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Hangers And Supports for 26 05 29 - 1 Electrical Systems 01.04.2016 SECTION 26 05 29 - HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. Hangers and supports for electrical equipment and systems. 1.3 ACTION SUBMITTALS A. Product Data: For each type of product. PART 2 - PRODUCTS 2.1 SUPPORT, ANCHORAGE, AND ATTACHMENT COMPONENTS A. Steel Slotted Support Systems: Comply with MFMA-4 factory-fabricated components for field assembly. 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Allied Tube & Conduit; a part of Atkore International. b. B-line, an Eaton business. c. ERICO International Corporation. d. Flex-Strut Inc. e. Thomas & Betts Corporation; A Member of the ABB Group. f. Unistrut; Part of Atkore International. 2. Material: Galvanized steel. 3. Channel Width: 1-1/4 inches. 4. Metallic Coatings: Hot-dip galvanized after fabrication and applied according to MFMA- 4. 5. Protect finishes on exposed surfaces from damage by applying a strippable, temporary protective covering before shipping. 6. Channel Dimensions: Selected for applicable load criteria. B. Conduit and Cable Support Devices: Steel hangers, clamps, and associated fittings, designed for types and sizes of raceway or cable to be supported. CORNELL UNIVERSITY SECTION 26 05 29 Ithaca, New York HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Hangers And Supports for 26 05 29 - 2 Electrical Systems 01.04.2016 C. Mounting, Anchoring, and Attachment Components: Items for fastening electrical items or their supports to building surfaces include the following: 1. Powder-Actuated Fasteners: Threaded-steel stud, for use in hardened portland cement concrete, steel, or wood, with tension, shear, and pullout capacities appropriate for supported loads and building materials where used. a. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1) Hilti, Inc. 2) ITW Ramset/Red Head; Illinois Tool Works, Inc. 3) MKT Fastening, LLC. 4) Simpson Strong-Tie Co., Inc. 2. Mechanical-Expansion Anchors: Insert-wedge-type, zinc-coated steel, for use in hardened portland cement concrete, with tension, shear, and pullout capacities appropriate for supported loads and building materials where used. a. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1) B-line, an Eaton business. 2) Empire Tool and Manufacturing Co., Inc. 3) Hilti, Inc. 4) ITW Ramset/Red Head; Illinois Tool Works, Inc. 5) MKT Fastening, LLC. 3. Clamps for Attachment to Steel Structural Elements: MSS SP-58 units are suitable for attached structural element. 4. Through Bolts: Structural type, hex head, and high strength. Comply with ASTM A 325. 5. Toggle Bolts: All-steel springhead type. 6. Hanger Rods: Threaded steel. PART 3 - EXECUTION 3.1 APPLICATION A. Comply with NECA 1 and NECA 101 for application of hangers and supports for electrical equipment and systems unless requirements in this Section are stricter. B. Comply with requirements for raceways and boxes specified in Section 260533 "Raceways and Boxes for Electrical Systems." C. Maximum Support Spacing and Minimum Hanger Rod Size for Raceway: Space supports for EMTs as required by NFPA 70. Minimum rod size shall be 1/4 inch in diameter. D. Multiple Raceways or Cables: Install trapeze-type supports fabricated with steel slotted support system, sized so capacity can be increased by at least 25 percent in future without exceeding specified design load limits. 1. Secure raceways and cables to these supports with single-bolt conduit clamps. CORNELL UNIVERSITY SECTION 26 05 29 Ithaca, New York HANGERS AND SUPPORTS FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Hangers And Supports for 26 05 29 - 3 Electrical Systems 01.04.2016 E. Spring-steel clamps designed for supporting single conduits without bolts may be used for 1- 1/2-inch and smaller raceways serving branch circuits and communication systems above suspended ceilings and for fastening raceways to trapeze supports. 3.2 SUPPORT INSTALLATION A. Comply with NECA 1 and NECA 101 for installation requirements except as specified in this article. B. Raceway Support Methods: In addition to methods described in NECA 1, EMTs may be supported by openings through structure members, according to NFPA 70. C. Strength of Support Assemblies: Where not indicated, select sizes of components so strength will be adequate to carry present and future static loads within specified loading limits. Minimum static design load used for strength determination shall be weight of supported components plus 200 lb. D. Mounting and Anchorage of Surface-Mounted Equipment and Components: Anchor and fasten electrical items and their supports to building structural elements by the following methods unless otherwise indicated by code: 1. To Wood: Fasten with lag screws or through bolts. 2. To Masonry: Approved toggle-type bolts on hollow masonry units and expansion anchor fasteners on solid masonry units. 3. To Existing Concrete: Expansion anchor fasteners. 4. Instead of expansion anchors, powder-actuated driven threaded studs provided with lock washers and nuts may be used in existing standard-weight concrete 4 inches thick or greater. Do not use for anchorage to lightweight-aggregate concrete or for slabs less than 4 inches thick. 5. To Steel: Beam clamps (MSS SP-58, Type 19, 21, 23, 25, or 27), complying with MSS SP-69. 6. To Light Steel: Sheet metal screws. 7. Items Mounted on Hollow Walls and Nonstructural Building Surfaces: Mount cabinets, panelboards, disconnect switches, control enclosures, pull and junction boxes, transformers, and other devices on slotted-channel racks attached to substrate. E. Drill holes for expansion anchors in concrete at locations and to depths that avoid the need for reinforcing bars. END OF SECTION 26 05 29 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** CORNELL UNIVERSITY SECTION 26 05 33 Ithaca, New York RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Raceways And Boxes for 26 05 33 - 1 Electrical Systems 01.04.2016 SECTION 26 05 33 - RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. Metal conduits, tubing, and fittings. 2. Surface raceways. 3. Boxes, enclosures, and cabinets. B. Related Requirements: 1. Section 270528 "Pathways for Communications Systems" for conduits, wireways, surface pathways, innerduct, boxes, faceplate adapters, enclosures, cabinets, and handholes serving communications systems. 1.3 ACTION SUBMITTALS A. Product Data: For surface raceways, wireways and fittings, floor boxes, hinged-cover enclosures, and cabinets. PART 2 - PRODUCTS 2.1 METAL CONDUITS, TUBING, AND FITTINGS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. AFC Cable Systems, Inc. 2. Allied Tube & Conduit. 3. Anamet Electrical, Inc. 4. Electri-Flex Company. 5. O-Z/Gedney. 6. Picoma Industries. 7. Republic Conduit. 8. Robroy Industries. 9. Southwire Company. 10. Thomas & Betts Corporation. 11. Western Tube and Conduit Corporation. CORNELL UNIVERSITY SECTION 26 05 33 Ithaca, New York RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Raceways And Boxes for 26 05 33 - 2 Electrical Systems 01.04.2016 12. Wheatland Tube Company. B. Listing and Labeling: Metal conduits, tubing, and fittings shall be listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. C. EMT: Comply with ANSI C80.3 and UL 797. D. FMC: Comply with UL 1; zinc-coated steel. E. LFMC: Flexible steel conduit with PVC jacket and complying with UL 360. F. Fittings for Metal Conduit: Comply with NEMA FB 1 and UL 514B. 1. Conduit Fittings for Hazardous (Classified) Locations: Comply with UL 886 and NFPA 70. 2. Fittings for EMT: a. Material: Steel. b. Type: compression. 2.2 SURFACE RACEWAYS A. Listing and Labeling: Surface raceways and tele-power poles shall be listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. B. Surface Metal Raceways: Galvanized steel with snap-on covers complying with UL 5. Manufacturer's standard enamel finish in color selected by Architect. 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Hubbell Incorporated; Wiring Device-Kellems. b. MonoSystems, Inc. c. Panduit Corp. d. Wiremold / Legrand. 2.3 BOXES, ENCLOSURES, AND CABINETS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Adalet. 2. Crouse-Hinds, an Eaton business. 3. EGS/Appleton Electric. 4. Erickson Electrical Equipment Company. 5. Hoffman; a brand of Pentair Equipment Protection. 6. Hubbell Incorporated. 7. Milbank Manufacturing Co. 8. MonoSystems, Inc. 9. O-Z/Gedney; a brand of Emerson Industrial Automation. 10. RACO; Hubbell. CORNELL UNIVERSITY SECTION 26 05 33 Ithaca, New York RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Raceways And Boxes for 26 05 33 - 3 Electrical Systems 01.04.2016 11. Thomas & Betts Corporation; A Member of the ABB Group. 12. Wiremold / Legrand. B. General Requirements for Boxes, Enclosures, and Cabinets: Boxes, enclosures, and cabinets installed in wet locations shall be listed for use in wet locations. C. Sheet Metal Outlet and Device Boxes: Comply with NEMA OS 1 and UL 514A. D. Metal Floor Boxes: 1. Material: Cast metal or sheet metal. 2. Capable of providing interface between power, communication, and audio/video (A/V) cabling new construction and renovation location where power and communication and/or outlets are required. 3. Type: Fully adjustable. 4. Shape: Rectangular. 5. Listing and Labeling: Metal floor boxes shall be listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. 6. Flush Floor: Flush cover with hinged lid (and carpet flanges for carpeted areas) to suite power, signal, and communication service, finish to match hardware in area where installed. 7. Wiring devices of the type and rating indicated on the drawings. E. Small Sheet Metal Pull and Junction Boxes: NEMA OS 1. F. Box extensions used to accommodate new building finishes shall be of same material as recessed box. G. Device Box Dimensions: 4 inches square by 2-1/8 inches deep and 4 inches by 2-1/8 inches by 2-1/8 inches deep. H. Gangable boxes are allowed. PART 3 - EXECUTION 3.1 RACEWAY APPLICATION A. Indoors: Apply raceway products as specified below unless otherwise indicated: 1. Exposed, Not Subject to Physical Damage: EMT. 2. Exposed, Not Subject to Severe Physical Damage: EMT. 3. Concealed in Ceilings and Interior Walls and Partitions: EMT. 4. Connection to Vibrating Equipment (Including Transformers and Hydraulic, Pneumatic, Electric Solenoid, or Motor-Driven Equipment): FMC, except use LFMC in damp or wet locations. 5. Boxes and Enclosures: NEMA 250, Type 1. B. Minimum Raceway Size: 3/4-inch trade size. CORNELL UNIVERSITY SECTION 26 05 33 Ithaca, New York RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Raceways And Boxes for 26 05 33 - 4 Electrical Systems 01.04.2016 C. Raceway Fittings: Compatible with raceways and suitable for use and location. 1. EMT: Use compression, steel fittings. Comply with NEMA FB 2.10. 2. Flexible Conduit: Use only fittings listed for use with flexible conduit. Comply with NEMA FB 2.20. D. Install surface raceways only where indicated on Drawings. 3.2 INSTALLATION A. Comply with NECA 1 and NECA 101 for installation requirements except where requirements on Drawings or in this article are stricter. Comply with NFPA 70 limitations for types of raceways allowed in specific occupancies and number of floors. B. Keep raceways at least 6 inches away from parallel runs of flues and steam or hot-water pipes. Install horizontal raceway runs above water and steam piping. C. Complete raceway installation before starting conductor installation. D. Comply with requirements in Section 260529 "Hangers and Supports for Electrical Systems" for hangers and supports. E. Arrange stub-ups so curved portions of bends are not visible above finished slab. F. Install no more than the equivalent of three 90-degree bends in any conduit run except for control wiring conduits, for which fewer bends are allowed. Support within 12 inches of changes in direction. G. Conceal conduit and EMT within finished walls, ceilings, and floors unless otherwise indicated. Install conduits parallel or perpendicular to building lines. H. Support conduit within 12 inches of enclosures to which attached. I. Stub-ups to Above Recessed Ceilings: 1. Use EMT for raceways. 2. Use a conduit bushing or insulated fitting to terminate stub-ups not terminated in hubs or in an enclosure. J. Raceway Terminations at Locations Subject to Moisture or Vibration: Use insulating bushings to protect conductors including conductors smaller than No. 4 AWG. K. Install raceways square to the enclosure and terminate at enclosures with locknuts. Install locknuts hand tight plus 1/4 turn more. L. Do not rely on locknuts to penetrate nonconductive coatings on enclosures. Remove coatings in the locknut area prior to assembling conduit to enclosure to assure a continuous ground path. M. Cut conduit perpendicular to the length. For conduits 2-inch trade size and larger, use roll cutter or a guide to make cut straight and perpendicular to the length. CORNELL UNIVERSITY SECTION 26 05 33 Ithaca, New York RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Raceways And Boxes for 26 05 33 - 5 Electrical Systems 01.04.2016 N. Install pull wires in empty raceways. Use polypropylene or monofilament plastic line with not less than 200-lb tensile strength. Leave at least 12 inches of slack at each end of pull wire. Cap underground raceways designated as spare above grade alongside raceways in use. O. Surface Raceways: 1. Install surface raceway with a minimum 2-inch radius control at bend points. 2. Secure surface raceway with screws or other anchor-type devices at intervals not exceeding 48 inches and with no less than two supports per straight raceway section. Support surface raceway according to manufacturer's written instructions. Tape and glue are not acceptable support methods. P. Flexible Conduit Connections: Comply with NEMA RV 3. Use a maximum of 72 inches of flexible conduit for recessed and semirecessed luminaires, equipment subject to vibration, noise transmission, or movement; and for transformers and motors. 1. Use LFMC in damp or wet locations subject to severe physical damage. 2. Use LFMC or LFNC in damp or wet locations not subject to severe physical damage. Q. Mount boxes at heights indicated on Drawings. If mounting heights of boxes are not individually indicated, give priority to ADA requirements. Install boxes with height measured to center of box unless otherwise indicated. R. Horizontally separate boxes mounted on opposite sides of walls so they are not in the same vertical channel. S. Locate boxes so that cover or plate will not span different building finishes. T. Support boxes of three gangs or more from more than one side by spanning two framing members or mounting on brackets specifically designed for the purpose. U. Fasten junction and pull boxes to or support from building structure. Do not support boxes by conduits. V. Set metal floor boxes level and flush with finished floor surface. 3.3 FIRESTOPPING A. Install firestopping at penetrations of fire-rated floor and wall assemblies. Comply with requirements in Section 078413 "Penetration Firestopping." 3.4 PROTECTION A. Protect coatings, finishes, and cabinets from damage and deterioration. 1. Repair damage to galvanized finishes with zinc-rich paint recommended by manufacturer. 2. Repair damage to PVC coatings or paint finishes with matching touchup coating recommended by manufacturer. CORNELL UNIVERSITY SECTION 26 05 33 Ithaca, New York RACEWAYS AND BOXES FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Raceways And Boxes for 26 05 33 - 6 Electrical Systems 01.04.2016 END OF SECTION 26 05 33 CORNELL UNIVERSITY SECTION 26 05 53 Ithaca, New York IDENTIFICATION FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Identification For Electrical Systems 26 05 53 - 1 01.04.2016 SECTION 26 05 53 - IDENTIFICATION FOR ELECTRICAL SYSTEMS PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. Identification of power and control cables. 2. Identification for conductors. 3. Equipment identification labels, including arc-flash warning labels. 4. Miscellaneous identification products. 1.3 ACTION SUBMITTALS A. Product Data: For each type of product. PART 2 - PRODUCTS 2.1 PERFORMANCE REQUIREMENTS A. Comply with ASME A13.1 and IEEE C2. B. Comply with NFPA 70. C. Comply with 29 CFR 1910.144 and 29 CFR 1910.145. D. Comply with ANSI Z535.4 for safety signs and labels. E. Adhesive-attached labeling materials, including label stocks, laminating adhesives, and inks used by label printers, shall comply with UL 969. F. Self-Adhesive Labels: 1. Preprinted, 3-mil- (0.08-mm-) thick, polyester flexible label with acrylic pressure- sensitive adhesive. a. Self-Lamination: Clear; UV-, weather- and chemical-resistant; self-laminating, protective shield over the legend. Labels sized to fit the cable diameter, such that the clear shield overlaps the entire printed legend. CORNELL UNIVERSITY SECTION 26 05 53 Ithaca, New York IDENTIFICATION FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Identification For Electrical Systems 26 05 53 - 2 01.04.2016 2.2 TAPES AND STENCILS: A. Self-Adhesive Vinyl Tape: Colored, heavy duty, waterproof, fade resistant; not less than 3 mils (0.08 mm) thick by 1 to 2 inches (25 to 50 mm) wide. 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Brady Corporation. b. Carlton Industries, LP. c. emedco. d. Marking Services, Inc. B. Laminated Acrylic or Melamine Plastic Signs: 1. Engraved legend. 2. Thickness: a. For signs up to 20 sq. inches (129 sq. cm), minimum 1/16-inch- (1.6-mm-). b. For signs larger than 20 sq. inches (129 sq. cm), 1/8 inch (3.2 mm) thick. c. Engraved legend with black letters on white face. d. Self-adhesive. 2.3 CABLE TIES A. General-Purpose Cable Ties: Fungus inert, self-extinguishing, one piece, self-locking, Type 6/6 nylon. 1. Minimum Width: 3/16 inch (5 mm). 2. Tensile Strength at 73 deg F (23 deg C) according to ASTM D 638: 12,000 psi (82.7 MPa). 3. Temperature Range: Minus 40 to plus 185 deg F (Minus 40 to plus 85 deg C). 4. Color: Black, except where used for color-coding. B. Plenum-Rated Cable Ties: Self-extinguishing, UV stabilized, one piece, self-locking. 1. Minimum Width: 3/16 inch (5 mm). 2. Tensile Strength at 73 deg F (23 deg C) according to ASTM D 638: 7000 psi (48.2 MPa). 3. UL 94 Flame Rating: 94V-0. 4. Temperature Range: Minus 50 to plus 284 deg F (Minus 46 to plus 140 deg C). 5. Color: Black. CORNELL UNIVERSITY SECTION 26 05 53 Ithaca, New York IDENTIFICATION FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Identification For Electrical Systems 26 05 53 - 3 01.04.2016 PART 3 - EXECUTION 3.1 PREPARATION A. Self-Adhesive Identification Products: Before applying electrical identification products, clean substrates of substances that could impair bond, using materials and methods recommended by manufacturer of identification product. 3.2 INSTALLATION A. Verify and coordinate identification names, abbreviations, colors, and other features with requirements in other Sections requiring identification applications, Drawings, Shop Drawings, manufacturer's wiring diagrams, and operation and maintenance manual. Use consistent designations throughout Project. B. Install identifying devices before installing acoustical ceilings and similar concealment. C. Verify identity of each item before installing identification products. D. Install identification materials and devices at locations for most convenient viewing without interference with operation and maintenance of equipment. Install access doors or panels to provide view of identifying devices. E. Apply identification devices to surfaces that require finish after completing finish work. F. Cable Ties: For attaching tags. Use general-purpose type, except as listed below: 1. In Spaces Handling Environmental Air: Plenum rated. G. System Identification Color-Coding Bands for Raceways and Cables: Each color-coding band shall completely encircle cable or conduit. Place adjacent bands of two-color markings in contact, side by side. Locate bands at changes in direction, at penetrations of walls and floors, at 50-foot (15-m) maximum intervals in straight runs, and at 25-foot (7.6-m) maximum intervals in congested areas. 3.3 IDENTIFICATION SCHEDULE A. Power-Circuit Conductor Identification, 600 V or Less: For conductors in vaults, pull and junction boxes, manholes, and handholes, use color-coding conductor tape to identify the phase. 1. Color-Coding for Phase- and Voltage-Level Identification, 600 V or Less: Use colors listed below for ungrounded branch-circuit conductors. a. Color shall be factory applied or field applied for sizes larger than No. 8 AWG if authorities having jurisdiction permit. b. Colors for 208/120-V Circuits: 1) Phase A: Black. 2) Phase B: Red. CORNELL UNIVERSITY SECTION 26 05 53 Ithaca, New York IDENTIFICATION FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Identification For Electrical Systems 26 05 53 - 4 01.04.2016 3) Phase C: Blue. c. Colors for 480/277-V Circuits: 1) Phase A: Brown. 2) Phase B: Orange. 3) Phase C: Yellow. d. Field-Applied, Color-Coding Conductor Tape: Apply in half-lapped turns for a minimum distance of 6 inches (150 mm) from terminal points and in boxes where splices or taps are made. Apply last two turns of tape with no tension to prevent possible unwinding. Locate bands to avoid obscuring factory cable markings. B. Control-Circuit Conductor Identification: For conductors and cables in pull and junction boxes, manholes, and handholes, use self-adhesive, self-laminating polyester labels with the conductor or cable designation, origin, and destination. C. Control-Circuit Conductor Termination Identification: For identification at terminations, provide self-adhesive, self-laminating polyester labels with the conductor designation. D. Auxiliary Electrical Systems Conductor Identification: Identify field-installed alarm, control, and signal connections. 1. Identify conductors, cables, and terminals in enclosures and at junctions, terminals, and pull points. Identify by system and circuit designation. 2. Use system of marker-tape designations that is uniform and consistent with system used by manufacturer for factory-installed connections. 3. Coordinate identification with Project Drawings, manufacturer's wiring diagrams, and operation and maintenance manual. E. Equipment Identification Labels: On each unit of equipment, install unique designation label that is consistent with wiring diagrams, schedules, and operation and maintenance manual. Apply labels to disconnect switches and protection equipment, central or master units, control panels, control stations, terminal cabinets, and racks of each system. Systems include power, lighting, control, communication, signal, monitoring, and alarm unless equipment is provided with its own identification. 1. Labeling Instructions: a. Indoor Equipment: Self-adhesive, engraved, laminated acrylic or melamine plastic label. Unless otherwise indicated, provide a single line of text with 1/2-inch- (13- mm-) high letters on 1-1/2-inch- (38-mm-) high label; where two lines of text are required, use labels 2 inches (50 mm) high. b. Elevated Components: Increase sizes of labels and letters to those appropriate for viewing from the floor. c. Unless labels are provided with self-adhesive means of attachment, fasten them with appropriate mechanical fasteners that do not change the NEMA or NRTL rating of the enclosure. 2. Equipment To Be Labeled: CORNELL UNIVERSITY SECTION 26 05 53 Ithaca, New York IDENTIFICATION FOR ELECTRICAL SYSTEMS 6 Floor Rhodes Hall Rm 651 Identification For Electrical Systems 26 05 53 - 5 01.04.2016 a. Panelboards: Typewritten directory of circuits in the location provided by panelboard manufacturer. Panelboard identification shall be in the form of a self- adhesive, engraved, laminated acrylic or melamine label. b. Enclosures and electrical cabinets. c. Access doors and panels for concealed electrical items. d. Switchgear. e. Switchboards. f. Transformers: Label that includes tag designation shown on Drawings for the transformer, feeder, and panelboards or equipment supplied by the secondary. g. Substations. h. Emergency system boxes and enclosures. i. Motor-control centers. j. Enclosed switches. k. Enclosed circuit breakers. l. Enclosed controllers. m. Variable-speed controllers. n. Push-button stations. o. Power-transfer equipment. p. Contactors. q. Remote-controlled switches, dimmer modules, and control devices. r. Battery-inverter units. s. Battery racks. t. Power-generating units. u. Monitoring and control equipment. v. UPS equipment. END OF SECTION 26 05 53 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** CORNELL UNIVERSITY SECTION 26 09 23 Ithaca, New York LIGHTING CONTROL DEVICES 6 Floor Rhodes Hall Rm 651 Lighting Control Devices 26 09 23 - 1 01.04.2016 SECTION 26 09 23 - LIGHTING CONTROL DEVICES PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. Indoor occupancy and vacancy sensors. 1.3 ACTION SUBMITTALS A. Product Data: For each type of product. 1.4 CLOSEOUT SUBMITTALS A. Operation and Maintenance Data: For each type of lighting control device to include in operation and maintenance manuals. 1.5 WARRANTY A. Manufacturer's Warranty: Manufacturer and Installer agree to repair or replace lighting control devices that fail(s) in materials or workmanship within specified warranty period. 1. Failures include, but are not limited to, the following: a. Faulty operation of lighting control devices. 2. Warranty Period: Two year(s) from date of Substantial Completion. PART 2 - PRODUCTS 2.1 INDOOR OCCUPANCYAND VACANCY SENSORS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Cooper Industries, Inc. 2. Hubbell Building Automation, Inc. 3. Leviton Manufacturing Co., Inc. 4. Lithonia Lighting; Acuity Brands Lighting, Inc. 5. Lutron Electronics Co., Inc. CORNELL UNIVERSITY SECTION 26 09 23 Ithaca, New York LIGHTING CONTROL DEVICES 6 Floor Rhodes Hall Rm 651 Lighting Control Devices 26 09 23 - 2 01.04.2016 6. NSi Industries LLC. 7. Philips Lighting Controls. 8. Sensor Switch, Inc. 9. Watt Stopper. B. General Requirements for Sensors: 1. Ceiling-mounted, solid-state indoor occupancy sensors. 2. Dual technology. 3. Separate power pack. 4. Hardwired connection to switch. 5. Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. 6. Operation: a. Occupancy Sensor: Unless otherwise indicated, turn lights on when coverage area is occupied, and turn them off when unoccupied; with a time delay for turning lights off, adjustable over a minimum range of 1 to 15 minutes. 7. Sensor Output: Sensor is powered from the power pack. 8. Power: Line voltage. 9. Power Pack: Dry contacts rated for 20-A LED load at 120- and 277-V ac, for 13-A tungsten at 120-V ac, and for 1 hp at 120-V ac. Sensor has 24-V dc, 150-mA, Class 2 power source, as defined by NFPA 70. 10. Mounting: a. Sensor: Suitable for mounting in any position on a standard outlet box. b. Relay: Externally mounted through a 1/2-inch knockout in a standard electrical enclosure. c. Time-Delay and Sensitivity Adjustments: Recessed and concealed behind hinged door. 11. Indicator: Digital display, to show when motion is detected during testing and normal operation of sensor. 12. Bypass Switch: Override the "on" function in case of sensor failure. 13. Automatic Light-Level Sensor: Adjustable from 2 to 200 fc ; turn lights off when selected lighting level is present. C. Dual-Technology Type: Ceiling mounted; detect occupants in coverage area using PIR and ultrasonic detection methods. The particular technology or combination of technologies that control on-off functions is selectable in the field by operating controls on unit. 1. Sensitivity Adjustment: Separate for each sensing technology. 2. Detector Sensitivity: Detect occurrences of 6-inch- minimum movement of any portion of a human body that presents a target of not less than 36 sq. in, and detect a person of average size and weight moving not less than 12 inches in either a horizontal or a vertical manner at an approximate speed of 12 inches/s. 3. Detection Coverage (Standard Room): Detect occupancy anywhere within a circular area of 1000 sq. ft. when mounted on a 96-inch- high ceiling. 2.2 CONDUCTORS AND CABLES A. Power Wiring to Supply Side of Remote-Control Power Sources: Not smaller than No. 12 AWG. Comply with requirements in Section 260519 "Low-Voltage Electrical Power Conductors and Cables." CORNELL UNIVERSITY SECTION 26 09 23 Ithaca, New York LIGHTING CONTROL DEVICES 6 Floor Rhodes Hall Rm 651 Lighting Control Devices 26 09 23 - 3 01.04.2016 PART 3 - EXECUTION 3.1 EXAMINATION A. Examine lighting control devices before installation. Reject lighting control devices that are wet, moisture damaged, or mold damaged. B. Examine walls and ceilings for suitable conditions where lighting control devices will be installed. C. Proceed with installation only after unsatisfactory conditions have been corrected. 3.2 SENSOR INSTALLATION A. Comply with NECA 1. B. Coordinate layout and installation of ceiling-mounted devices with other construction that penetrates ceilings or is supported by them, including light fixtures, HVAC equipment, smoke detectors, fire-suppression systems, and partition assemblies. C. Install and aim sensors in locations to achieve not less than 90-percent coverage of areas indicated. Do not exceed coverage limits specified in manufacturer's written instructions. 3.3 WIRING INSTALLATION A. Comply with NECA 1. B. Wiring Method: Comply with Section 260519 "Low-Voltage Electrical Power Conductors and Cables." Minimum conduit size is 3/4 inch. C. Wiring within Enclosures: Comply with NECA 1. Separate power-limited and nonpower- limited conductors according to conductor manufacturer's written instructions. D. Size conductors according to lighting control device manufacturer's written instructions unless otherwise indicated. E. Splices, Taps, and Terminations: Make connections only on numbered terminal strips in junction, pull, and outlet boxes; terminal cabinets; and equipment enclosures. 3.4 IDENTIFICATION A. Identify components and power and control wiring according to Section 260553 "Identification for Electrical Systems." 1. Identify circuits or luminaires controlled by photoelectric and occupancy sensors at each sensor. CORNELL UNIVERSITY SECTION 26 09 23 Ithaca, New York LIGHTING CONTROL DEVICES 6 Floor Rhodes Hall Rm 651 Lighting Control Devices 26 09 23 - 4 01.04.2016 3.5 FIELD QUALITY CONTROL A. Perform the following tests and inspections: 1. Operational Test: After installing time switches and sensors, and after electrical circuitry has been energized, start units to confirm proper unit operation. 2. Test and adjust controls and safeties. Replace damaged and malfunctioning controls and equipment. B. Lighting control devices will be considered defective if they do not pass tests and inspections. C. Prepare test and inspection reports. 3.6 ADJUSTING A. Occupancy Adjustments: When requested within 12 months from date of Substantial Completion, provide on-site assistance in adjusting lighting control devices to suit actual occupied conditions. Provide up to two visits to Project during other-than-normal occupancy hours for this purpose. 1. For occupancy and motion sensors, verify operation at outer limits of detector range. Set time delay to suit Owner's operations. END OF SECTION 26 09 23 CORNELL UNIVERSITY SECTION 26 27 26 Ithaca, New York WIRING DEVICES 6 Floor Rhodes Hall Rm 651 Wiring Devices 26 27 26 - 1 01.04.2016 SECTION 26 27 26 - WIRING DEVICES PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. Straight-blade convenience receptacles. 2. Toggle switches. 3. Wall plates. 4. Floor service outlets. 1.3 DEFINITIONS A. Abbreviations of Manufacturers' Names: 1. Cooper: Cooper Wiring Devices; Division of Cooper Industries, Inc. 2. Hubbell: Hubbell Incorporated: Wiring Devices-Kellems. 3. Leviton: Leviton Mfg. Company, Inc. 4. Pass & Seymour: Pass& Seymour/Legrand. B. Pigtail: Short lead used to connect a device to a branch-circuit conductor. C. UTP: Unshielded twisted pair. 1.4 ACTION SUBMITTALS A. Product Data: For each type of product. 1.5 CLOSEOUT SUBMITTALS A. Operation and Maintenance Data: For wiring devices to include in all manufacturers' packing- label warnings and instruction manuals that include labeling conditions. 1.6 MAINTENANCE MATERIAL SUBMITTALS A. Furnish extra materials that match products installed and that are packaged with protective covering for storage and identified with labels describing contents. 1. Floor Service-Outlet Assemblies: One for every 10, but no fewer than one. CORNELL UNIVERSITY SECTION 26 27 26 Ithaca, New York WIRING DEVICES 6 Floor Rhodes Hall Rm 651 Wiring Devices 26 27 26 - 2 01.04.2016 PART 2 - PRODUCTS 2.1 GENERAL WIRING-DEVICE REQUIREMENTS A. Wiring Devices, Components, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. B. Comply with NFPA 70. C. Devices that are manufactured for use with modular plug-in connectors may be substituted under the following conditions: 1. Connectors shall comply with UL 2459 and shall be made with stranding building wire. 2. Devices shall comply with the requirements in this Section. D. Devices for Owner-Furnished Equipment: 1. Receptacles: Match plug configurations. 2. Cord and Plug Sets: Match equipment requirements. E. Source Limitations: Obtain each type of wiring device and associated wall plate from single source from single manufacturer. 2.2 STRAIGHT-BLADE RECEPTACLES A. Duplex Convenience Receptacles: 125 V, 20 A; comply with NEMA WD 1, NEMA WD 6 Configuration 5-20R, UL 498, and FS W-C-596. 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Eaton (Arrow Hart). b. Hubbell Incorporated; Wiring Device-Kellems. c. Leviton Manufacturing Co., Inc. d. Pass & Seymour/Legrand (Pass & Seymour). 2.3 TOGGLE SWITCHES A. Comply with NEMA WD 1, UL 20, and FS W-S-896. B. Switches, 120/277 V, 20 A: 1. Three Way: a. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1) Eaton (Arrow Hart). 2) Hubbell Incorporated; Wiring Device-Kellems. 3) Leviton Manufacturing Co., Inc. 4) Pass & Seymour/Legrand (Pass & Seymour). CORNELL UNIVERSITY SECTION 26 27 26 Ithaca, New York WIRING DEVICES 6 Floor Rhodes Hall Rm 651 Wiring Devices 26 27 26 - 3 01.04.2016 2.4 WALL PLATES A. Single and combination types shall match corresponding wiring devices. 1. Plate-Securing Screws: Metal with head color to match plate finish. 2. Material for Finished Spaces: Smooth, high-impact thermoplastic. 2.5 FLOOR SERVICE FITTINGS A. Type: Modular, flush-type, dual-service units suitable for wiring method used. B. Compartments: Barrier separates power from voice and data communication cabling. C. Service Plate: Rectangular, solid brass with satin finish. D. Power Receptacle: NEMA WD 6 Configuration 5-20R, gray finish, unless otherwise indicated. E. Voice and Data Communication Outlet: Modular, keyed, color-coded, RJ-45 jacks for UTP cable complying with requirements in Section 271500 "Communications Horizontal Cabling." 2.6 FINISHES A. Device Color: 1. Wiring Devices Connected to Normal Power System: As selected by Architect unless otherwise indicated or required by NFPA 70 or device listing. B. Wall Plate Color: For plastic covers, match device color. PART 3 - EXECUTION 3.1 INSTALLATION A. Comply with NECA 1, including mounting heights listed in that standard, unless otherwise indicated. B. Coordination with Other Trades: 1. Protect installed devices and their boxes. Do not place wall finish materials over device boxes and do not cut holes for boxes with routers that are guided by riding against outside of boxes. 2. Keep outlet boxes free of plaster, drywall joint compound, mortar, cement, concrete, dust, paint, and other material that may contaminate the raceway system, conductors, and cables. 3. Install device boxes in brick or block walls so that the cover plate does not cross a joint unless the joint is troweled flush with the face of the wall. 4. Install wiring devices after all wall preparation, including painting, is complete. C. Conductors: CORNELL UNIVERSITY SECTION 26 27 26 Ithaca, New York WIRING DEVICES 6 Floor Rhodes Hall Rm 651 Wiring Devices 26 27 26 - 4 01.04.2016 1. Do not strip insulation from conductors until right before they are spliced or terminated on devices. 2. Strip insulation evenly around the conductor using tools designed for the purpose. Avoid scoring or nicking of solid wire or cutting strands from stranded wire. 3. The length of free conductors at outlets for devices shall meet provisions of NFPA 70, Article 300, without pigtails. 4. Existing Conductors: a. Cut back and pigtail, or replace all damaged conductors. b. Straighten conductors that remain and remove corrosion and foreign matter. c. Pigtailing existing conductors is permitted, provided the outlet box is large enough. D. Device Installation: 1. Replace devices that have been in temporary use during construction and that were installed before building finishing operations were complete. 2. Keep each wiring device in its package or otherwise protected until it is time to connect conductors. 3. Do not remove surface protection, such as plastic film and smudge covers, until the last possible moment. 4. Connect devices to branch circuits using pigtails that are not less than 6 inches in length. 5. Use a torque screwdriver when a torque is recommended or required by manufacturer. 6. When conductors larger than No. 12 AWG are installed on 15- or 20-A circuits, splice No. 12 AWG pigtails for device connections. 7. Tighten unused terminal screws on the device. 8. When mounting into metal boxes, remove the fiber or plastic washers used to hold device-mounting screws in yokes, allowing metal-to-metal contact. E. Receptacle Orientation: 1. Install ground pin of vertically mounted receptacles down, and on horizontally mounted receptacles to the left. F. Device Plates: Do not use oversized or extra-deep plates. Repair wall finishes and remount outlet boxes when standard device plates do not fit flush or do not cover rough wall opening. G. Adjust locations of floor service outlets to suit arrangement of partitions and furnishings. 3.2 IDENTIFICATION A. Comply with Section 260553 "Identification for Electrical Systems." B. Identify each receptacle with panelboard identification and circuit number. Use hot, stamped, or engraved machine printing with black-filled lettering on face of plate, and durable wire markers or tags inside outlet boxes. 3.3 FIELD QUALITY CONTROL A. Test Instruments: Use instruments that comply with UL 1436. CORNELL UNIVERSITY SECTION 26 27 26 Ithaca, New York WIRING DEVICES 6 Floor Rhodes Hall Rm 651 Wiring Devices 26 27 26 - 5 01.04.2016 B. Test Instrument for Convenience Receptacles: Digital wiring analyzer with digital readout or illuminated digital-display indicators of measurement. C. Perform the following tests and inspections: 1. Test Instruments: Use instruments that comply with UL 1436. 2. Test Instrument for Convenience Receptacles: Digital wiring analyzer with digital readout or illuminated digital-display indicators of measurement. D. Tests for Convenience Receptacles: 1. Line Voltage: Acceptable range is 105 to 132 V. 2. Percent Voltage Drop under 15-A Load: A value of 6 percent or higher is unacceptable. 3. Ground Impedance: Values of up to 2 ohms are acceptable. 4. Using the test plug, verify that the device and its outlet box are securely mounted. 5. Tests shall be diagnostic, indicating damaged conductors, high resistance at the circuit breaker, poor connections, inadequate fault current path, defective devices, or similar problems. Correct circuit conditions, remove malfunctioning units and replace with new ones, and retest as specified above. E. Wiring device will be considered defective if it does not pass tests and inspections. F. Prepare test and inspection reports. END OF SECTION 26 27 26 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** DIVISION 27 Communications CORNELL UNIVERSITY SECTION 27 05 28 Ithaca, New York PATHWAYS FOR COMMUNICATIONS SYSTEMS 6 Floor Rhodes Hall Rm 651 Pathways For Communications 27 05 28 - 1 Systems 01.04.2016 SECTION 27 05 28 - PATHWAYS FOR COMMUNICATIONS SYSTEMS PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. Metal conduits and fittings. 2. Surface pathways. 3. Boxes, enclosures, and cabinets. B. Related Requirements: 1. Section 260533 "Raceways and Boxes for Electrical Systems" for conduits, wireways, surface raceways, boxes, enclosures, cabinets, handholes, and faceplate adapters serving electrical systems. 1.3 ACTION SUBMITTALS A. Product Data: For surface pathways, wireways and fittings, floor boxes, hinged-cover enclosures, and cabinets. PART 2 - PRODUCTS 2.1 METAL CONDUITS AND FITTINGS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. AFC Cable Systems, Inc. 2. Allied Tube & Conduit. 3. Anamet Electrical, Inc. 4. Electri-Flex Company. 5. O-Z/Gedney. 6. Picoma Industries. 7. Republic Conduit. 8. Robroy Industries. 9. Southwire Company. 10. Thomas & Betts Corporation. 11. Western Tube and Conduit Corporation. 12. Wheatland Tube Company. CORNELL UNIVERSITY SECTION 27 05 28 Ithaca, New York PATHWAYS FOR COMMUNICATIONS SYSTEMS 6 Floor Rhodes Hall Rm 651 Pathways For Communications 27 05 28 - 2 Systems 01.04.2016 B. General Requirements for Metal Conduits and Fittings: 1. Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. 2. Comply with TIA-569-B. C. EMT: Comply with ANSI C80.3 and UL 797. D. FMC: Comply with UL 1; zinc-coated steel. E. LFMC: Flexible steel conduit with PVC jacket and complying with UL 360. F. Fittings for Metal Conduit: Comply with NEMA FB 1 and UL 514B. 1. Fittings for EMT: a. Material: Steel. b. Type: compression. 2.2 SURFACE PATHWAYS A. General Requirements for Surface Pathways: 1. Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. 2. Comply with TIA-569-B. B. Surface Metal Pathways: Galvanized steel with snap-on covers complying with UL 5. Manufacturer's standard enamel finish in color selected by Architect. 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. MonoSystems, Inc. b. Niedax Inc. c. Panduit Corp. d. Wiremold / Legrand. 2.3 BOXES, ENCLOSURES, AND CABINETS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Adalet. 2. Crouse-Hinds, an Eaton business. 3. EGS/Appleton Electric. 4. Erickson Electrical Equipment Company. 5. Hoffman; a brand of Pentair Equipment Protection. 6. Hubbell Incorporated. 7. Milbank Manufacturing Co. 8. MonoSystems, Inc. 9. O-Z/Gedney; a brand of Emerson Industrial Automation. 10. RACO; Hubbell. 11. Thomas & Betts Corporation; A Member of the ABB Group. 12. Wiremold / Legrand. CORNELL UNIVERSITY SECTION 27 05 28 Ithaca, New York PATHWAYS FOR COMMUNICATIONS SYSTEMS 6 Floor Rhodes Hall Rm 651 Pathways For Communications 27 05 28 - 3 Systems 01.04.2016 B. General Requirements for Boxes, Enclosures, and Cabinets: 1. Comply with TIA-569-B. 2. Boxes, enclosures and cabinets installed in wet locations shall be listed for use in wet locations. C. Sheet-Metal Outlet and Device Boxes: Comply with NEMA OS 1 and UL 514A. D. Box extensions used to accommodate new building finishes shall be of same material as recessed box. E. Metal Floor Boxes: 1. Material: Cast metal or sheet metal. 2. Capable of providing interface between power, communication, and audio/video (A/V) cabling new construction and renovation location where power and communication and/or outlets are required. 3. Type: Fully adjustable. 4. Shape: Rectangular. 5. Listing and Labeling: Metal floor boxes shall be listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. 6. Flush Floor: Flush cover with hinged lid (and carpet flanges for carpeted areas) to suite power, signal, and communication service, finish to match hardware in area where installed. 7. Wiring devices of the type and rating indicated on the drawings. F. Small Sheet Metal Pull and Junction Boxes: NEMA OS 1. G. Device Box Dimensions: 4 inches square by 2-1/8 inches deep and 4 inches by 2-1/8 inches by 2-1/8 inches deep. H. Gangable boxes are allowed. PART 3 - EXECUTION 3.1 PATHWAY APPLICATION A. Indoors: Apply pathway products as specified below unless otherwise indicated: 1. Exposed, Not Subject to Physical Damage: EMT. 2. Exposed, Not Subject to Severe Physical Damage: EMT. 3. Concealed in Ceilings and Interior Walls and Partitions: EMT. 4. Boxes and Enclosures: NEMA 250 Type 1. B. Minimum Pathway Size: 3/4-inch trade size. C. Pathway Fittings: Compatible with pathways and suitable for use and location. 1. EMT: Use compression, steel fittings. Comply with NEMA FB 2.10. 2. Flexible Conduit: Use only fittings listed for use with flexible conduit. Comply with NEMA FB 2.20. CORNELL UNIVERSITY SECTION 27 05 28 Ithaca, New York PATHWAYS FOR COMMUNICATIONS SYSTEMS 6 Floor Rhodes Hall Rm 651 Pathways For Communications 27 05 28 - 4 Systems 01.04.2016 D. Install surface pathways only where indicated on Drawings. 3.2 INSTALLATION A. Comply with NECA 1, NECA 101, and TIA-569-B for installation requirements except where requirements on Drawings or in this article are stricter. Comply with NECA 102 for aluminum pathways. Comply with NFPA 70 limitations for types of pathways allowed in specific occupancies and number of floors. B. Keep pathways at least 6 inches away from parallel runs of flues and steam or hot-water pipes. Install horizontal pathway runs above water and steam piping. C. Complete pathway installation before starting conductor installation. D. Comply with requirements in Section 260529 "Hangers and Supports for Electrical Systems" for hangers and supports. E. Arrange stub-ups so curved portions of bends are not visible above finished slab. F. Install no more than the equivalent of two 90-degree bends in any pathway run. Support within 12 inches of changes in direction. Utilize long radius ells for all optical-fiber cables. G. Conceal conduit and EMT within finished walls, ceilings, and floors unless otherwise indicated. Install conduits parallel or perpendicular to building lines. H. Support conduit within 12 inches of enclosures to which attached. I. Stub-ups to Above Recessed Ceilings: 1. Use EMT for pathways. 2. Use a conduit bushing or insulated fitting to terminate stub-ups not terminated in hubs or in an enclosure. J. Install pathways square to the enclosure and terminate at enclosures with locknuts. Install locknuts hand tight plus 1/4 turn more. K. Do not rely on locknuts to penetrate nonconductive coatings on enclosures. Remove coatings in the locknut area prior to assembling conduit to enclosure to assure a continuous ground path. L. Cut conduit perpendicular to the length. For conduits of 2-inch trade size and larger, use roll cutter or a guide to ensure cut is straight and perpendicular to the length. M. Install pull wires in empty pathways. Use polypropylene or monofilament plastic line with not less than 200-lb tensile strength. Leave at least 12 inchesof slack at each end of pull wire. Cap underground pathways designated as spare above grade alongside pathways in use. N. Surface Pathways: 1. Install surface pathway for surface telecommunications outlet boxes only where indicated on Drawings. 2. Install surface pathway with a minimum 2-inch radius control at bend points. CORNELL UNIVERSITY SECTION 27 05 28 Ithaca, New York PATHWAYS FOR COMMUNICATIONS SYSTEMS 6 Floor Rhodes Hall Rm 651 Pathways For Communications 27 05 28 - 5 Systems 01.04.2016 3. Secure surface pathway with screws or other anchor-type devices at intervals not exceeding 48 inches and with no less than two supports per straight pathway section. Support surface pathway according to manufacturer's written instructions. Tape and glue are not acceptable support methods. O. Pathways for Optical-Fiber and Communications Cable: Install pathways, metal and nonmetallic, rigid and flexible, as follows: 1. 3/4-Inch Trade Size and Smaller: Install pathways in maximum lengths of 50 feet. 2. 1-Inch Trade Size and Larger: Install pathways in maximum lengths of 75 feet. 3. Install with a maximum of two 90-degree bends or equivalent for each length of pathway unless Drawings show stricter requirements. Separate lengths with pull or junction boxes or terminations at distribution frames or cabinets where necessary to comply with these requirements. P. Mount boxes at heights indicated on Drawings. If mounting heights of boxes are not individually indicated, give priority to ADA requirements. Install boxes with height measured to center of box unless otherwise indicated. Q. Horizontally separate boxes mounted on opposite sides of walls so they are not in the same vertical channel. R. Support boxes of three gangs or more from more than one side by spanning two framing members or mounting on brackets specifically designed for the purpose. S. Fasten junction and pull boxes to or support from building structure. Do not support boxes by conduits. T. Set metal floor boxes level and flush with finished floor surface. 3.3 FIRESTOPPING A. Install firestopping at penetrations of fire-rated floor and wall assemblies. Comply with requirements in Section 078413 "Penetration Firestopping." 3.4 PROTECTION A. Protect coatings, finishes, and cabinets from damage or deterioration. 1. Repair damage to galvanized finishes with zinc-rich paint recommended by manufacturer. END OF SECTION 27 05 28 *** THIS PAGE WAS INTENTIONALLY LEFT BLANK *** CORNELL UNIVERSITY SECTION 27 15 00 Ithaca, New York COMMUNICATIONS HORIZONTAL CABLING 6 Floor Rhodes Hall Rm 651 Communications Horizontal Cabling 27 15 00 - 1 01.04.2016 SECTION 27 15 00 - COMMUNICATIONS HORIZONTAL CABLING PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. UTP cabling. 2. Multiuser telecommunications outlet assemblies. 3. Cable connecting hardware, patch panels, and cross-connects. 4. Telecommunications outlet/connectors. 5. Cabling system identification products. 6. Cable management system. 1.3 DEFINITIONS A. BICSI: Building Industry Consulting Service International. B. Consolidation Point: A location for interconnection between horizontal cables extending from building pathways and horizontal cables extending into furniture pathways. C. Cross-Connect: A facility enabling the termination of cable elements and their interconnection or cross-connection. D. EMI: Electromagnetic interference. E. IDC: Insulation displacement connector. F. LAN: Local area network. G. MUTOA: Multiuser telecommunications outlet assembly, a grouping in one location of several telecommunications outlet/connectors. H. Outlet/Connectors: A connecting device in the work area on which horizontal cable or outlet cable terminates. I. RCDD: Registered Communications Distribution Designer. J. UTP: Unshielded twisted pair. CORNELL UNIVERSITY SECTION 27 15 00 Ithaca, New York COMMUNICATIONS HORIZONTAL CABLING 6 Floor Rhodes Hall Rm 651 Communications Horizontal Cabling 27 15 00 - 2 01.04.2016 1.4 ADMINISTRATIVE REQUIREMENTS A. Coordinate layout and installation of telecommunications cabling with Owner's telecommunications and LAN equipment and service suppliers. B. Coordinate telecommunications outlet/connector locations with location of power receptacles at each work area. 1.5 ACTION SUBMITTALS A. Product Data: For each type of product. 1.6 INFORMATIONAL SUBMITTALS A. Qualification Data: For Installer, installation supervisor, and field inspector. B. Source quality-control reports. C. Field quality-control reports. 1.7 CLOSEOUT SUBMITTALS A. Maintenance Data: For splices and connectors to include in maintenance manuals. 1.8 QUALITY ASSURANCE A. Installer Qualifications: Cabling Installer must have personnel certified by BICSI on staff. 1. Installation Supervision: Installation shall be under the direct supervision of Registered Technician Level 2 Installer, who shall be present at all times when Work of this Section is performed at Project site. 2. Testing Supervisor: Currently certified by BICSI as an RCDD to supervise on-site testing. B. Testing Agency Qualifications: An NRTL. 1. Testing Agency's Field Supervisor: Currently certified by BICSI as an RCDD to supervise on-site testing. 1.9 DELIVERY, STORAGE, AND HANDLING A. Test cables upon receipt at Project site. 1. Test each pair of UTP cable for open and short circuits. CORNELL UNIVERSITY SECTION 27 15 00 Ithaca, New York COMMUNICATIONS HORIZONTAL CABLING 6 Floor Rhodes Hall Rm 651 Communications Horizontal Cabling 27 15 00 - 3 01.04.2016 PART 2 - PRODUCTS 2.1 HORIZONTAL CABLING DESCRIPTION A. Horizontal cable and its connecting hardware provide the means of transporting signals between the telecommunications outlet/connector and the horizontal cross-connect located in the communications equipment room. This cabling and its connecting hardware are called a "permanent link," a term that is used in the testing protocols. 1. TIA/EIA-568-B.1 requires that a minimum of two telecommunications outlet/connectors be installed for each work area. 2. Horizontal cabling shall contain no more than one transition point or consolidation point between the horizontal cross-connect and the telecommunications outlet/connector. 3. Bridged taps and splices shall not be installed in the horizontal cabling. B. A work area is approximately 100 sq. ft., and includes the components that extend from the telecommunications outlet/connectors to the station equipment. C. The maximum allowable horizontal cable length is 295 feet. This maximum allowable length does not include an allowance for the length of 16 feet to the workstation equipment or in the horizontal cross-connect. 2.2 PERFORMANCE REQUIREMENTS A. General Performance: Horizontal cabling system shall comply with transmission standards in TIA/EIA-568-B.1 when tested according to test procedures of this standard. B. Surface-Burning Characteristics: Comply with ASTM E 84; testing by a qualified testing agency. Identify products with appropriate markings of applicable testing agency. 1. Flame-Spread Index: 25 or less. 2. Smoke-Developed Index: 50 or less. C. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application. D. Grounding: Comply with J-STD-607-A. 2.3 UTP CABLE A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. 3M. 2. AMP NETCONNECT; a TE Connectivity Ltd. company. 3. Belden CDT Networking Division/NORDX. 4. Berk-Tek Leviton; a Nexans/Leviton alliance. 5. CommScope, Inc. 6. Draka USA. 7. General Cable; General Cable Corporation. 8. Genesis Cable Products; Honeywell International, Inc. CORNELL UNIVERSITY SECTION 27 15 00 Ithaca, New York COMMUNICATIONS HORIZONTAL CABLING 6 Floor Rhodes Hall Rm 651 Communications Horizontal Cabling 27 15 00 - 4 01.04.2016 9. Hitachi Cable America Inc. 10. Mohawk; a division of Belden Networking, Inc. 11. Optical Cable Corporation. 12. Superior Essex Inc. 13. SYSTIMAX Solutions; a CommScope Inc. brand. 14. Panduit Corp. B. Description: 100-ohm, four-pair UTP, formed into 25-pair, binder groups covered with a blue thermoplastic jacket. 1. Comply with ICEA S-90-661 for mechanical properties. 2. Comply with TIA/EIA-568-B.1 for performance specifications. 3. Comply with TIA/EIA-568-B.2, Category 6. 4. Cables shall be plenum rated. 5. Listed and labeled by an NRTL acceptable to authorities having jurisdiction as complying with UL 444 and NFPA 70 for the following types: a. Communications, Plenum Rated: Type CMP, complying with NFPA 262. b. Communications, Riser Rated: Type CMR, complying with UL 1666. c. Multipurpose, Plenum Rated: Type MPP, complying with NFPA 262. d. Multipurpose, Riser Rated: Type MPR, complying with UL 1666. 2.4 UTP CABLE HARDWARE A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. American Technology Systems Industries, Inc. 2. AMP NETCONNECT; a TE Connectivity Ltd. company. 3. Belden CDT Networking Division/NORDX. 4. Dynacom Corporation. 5. Hubbell Premise Wiring. 6. Leviton Manufacturing Co., Inc. 7. Molex Premise Networks. 8. Optical Cable Corporation. 9. Panduit Corp. 10. Siemon Co. (The). B. General Requirements for Cable Connecting Hardware: Comply with TIA/EIA-568-B.2, IDC type, with modules designed for punch-down caps or tools. Cables shall be terminated with connecting hardware of same category or higher. C. Connecting Blocks: 110-style IDC for Category 6. Provide blocks for the number of cables terminated on the block, plus 25 percent spare. Integral with connector bodies, including plugs and jacks where indicated. D. Cross-Connect: Modular array of connecting blocks arranged to terminate building cables and permit interconnection between cables. 1. Number of Terminals per Field: One for each conductor in assigned cables. CORNELL UNIVERSITY SECTION 27 15 00 Ithaca, New York COMMUNICATIONS HORIZONTAL CABLING 6 Floor Rhodes Hall Rm 651 Communications Horizontal Cabling 27 15 00 - 5 01.04.2016 E. Patch Panel: Modular panels housing multiple-numbered jack units with IDC-type connectors at each jack for permanent termination of pair groups of installed cables. 1. Number of Jacks per Field: One for each four-pair UTP cable indicated. F. Jacks and Jack Assemblies: Modular, color-coded, eight-position modular receptacle units with integral IDC-type terminals. G. Patch Cords: Factory-made, four-pair cables in 48-inch lengths; terminated with eight-position modular plug at each end. 1. Patch cords shall have bend-relief-compliant boots and color-coded icons to ensure Category 6 performance. Patch cords shall have latch guards to protect against snagging. 2. Patch cords shall have color-coded boots for circuit identification. 2.5 TELECOMMUNICATIONS OUTLET/CONNECTORS A. Jacks: 100-ohm, balanced, twisted-pair connector; four-pair, eight-position modular. Comply with TIA/EIA-568-B.1. B. Workstation Outlets: Two-port-connector assemblies mounted in single or multigang faceplate. 1. Plastic Faceplate: High-impact plastic. Coordinate color with Section 262726 "Wiring Devices." 2. For use with snap-in jacks accommodating any combination of UTP, optical fiber, and coaxial work area cords. a. Flush mounting jacks, positioning the cord at a 45-degree angle. 3. Legend: Snap-in, clear-label covers and machine-printed paper inserts. 2.6 IDENTIFICATION PRODUCTS A. Comply with TIA/EIA-606-A and UL 969 for labeling materials, including label stocks, laminating adhesives, and inks used by label printers. B. Comply with requirements in Section 260553 "Identification for Electrical Systems." 2.7 SOURCE QUALITY CONTROL A. Testing Agency: Engage a qualified testing agency to evaluate cables. B. Factory test UTP and optical fiber cables on reels according to TIA/EIA-568-B.1. C. Factory test UTP cables according to TIA/EIA-568-B.2. D. Cable will be considered defective if it does not pass tests and inspections. E. Prepare test and inspection reports. CORNELL UNIVERSITY SECTION 27 15 00 Ithaca, New York COMMUNICATIONS HORIZONTAL CABLING 6 Floor Rhodes Hall Rm 651 Communications Horizontal Cabling 27 15 00 - 6 01.04.2016 PART 3 - EXECUTION 3.1 WIRING METHODS A. Install cables in pathways and cable trays except within consoles, cabinets, desks, and counters. Conceal pathways and cables except in unfinished spaces. 1. Install plenum cable in environmental air spaces, including plenum ceilings. 2. Comply with requirements in Section 270528 "Pathways for Communications Systems." B. Conceal conductors and cables in accessible ceilings, walls, and floors where possible. C. Wiring within Enclosures: 1. Bundle, lace, and train conductors to terminal points with no excess and without exceeding manufacturer's limitations on bending radii. 2. Install lacing bars and distribution spools. 3. Install conductors parallel with or at right angles to sides and back of enclosure. 3.2 INSTALLATION OF CABLES A. Comply with NECA 1. B. General Requirements for Cabling: 1. Comply with TIA/EIA-568-B.1. 2. Comply with BICSI ITSIM, Ch. 6, "Cable Termination Practices." 3. Install 110-style IDC termination hardware unless otherwise indicated. 4. MUTOA shall not be used as a cross-connect point. 5. Terminate conductors; no cable shall contain unterminated elements. Make terminations only at indicated outlets, terminals, cross-connects, and patch panels. 6. Cables may not be spliced. Secure and support cables at intervals not exceeding 30 inches and not more than 6 inches from cabinets, boxes, fittings, outlets, racks, frames, and terminals. 7. Install lacing bars to restrain cables, to prevent straining connections, and to prevent bending cables to smaller radii than minimums recommended by manufacturer. 8. Bundle, lace, and train conductors to terminal points without exceeding manufacturer's limitations on bending radii, but not less than radii specified in BICSI ITSIM, "Cabling Termination Practices" Chapter. Install lacing bars and distribution spools. 9. Do not install bruised, kinked, scored, deformed, or abraded cable. Do not splice cable between termination, tap, or junction points. Remove and discard cable if damaged during installation and replace it with new cable. 10. Cold-Weather Installation: Bring cable to room temperature before dereeling. Heat lamps shall not be used for heating. 11. In the communications equipment room, install a 10-foot- long service loop on each end of cable. 12. Pulling Cable: Comply with BICSI ITSIM, Ch. 4, "Pulling Cable." Monitor cable pull tensions. C. UTP Cable Installation: 1. Comply with TIA/EIA-568-B.2. CORNELL UNIVERSITY SECTION 27 15 00 Ithaca, New York COMMUNICATIONS HORIZONTAL CABLING 6 Floor Rhodes Hall Rm 651 Communications Horizontal Cabling 27 15 00 - 7 01.04.2016 2. Do not untwist UTP cables more than 1/2 inch from the point of termination to maintain cable geometry. D. Open-Cable Installation: 1. Install cabling with horizontal and vertical cable guides in telecommunications spaces with terminating hardware and interconnection equipment. 2. Suspend UTP cable not in a wireway or pathway a minimum of 8 inches above ceilings by cable supports not more than 60 inches apart. 3. Cable shall not be run through structural members or in contact with pipes, ducts, or other potentially damaging items. E. Installation of Cable Routed Exposed under Raised Floors: 1. Install plenum-rated cable only. 2. Install cabling after the flooring system has been installed in raised floor areas. 3. Coil cable 6 feet long not less than 12 inches in diameter below each feed point. F. Group connecting hardware for cables into separate logical fields. G. Separation from EMI Sources: 1. Comply with BICSI TDMM and TIA-569-B for separating unshielded copper voice and data communication cable from potential EMI sources, including electrical power lines and equipment. 3.3 FIRESTOPPING A. Comply with requirements in Section 078413 "Penetration Firestopping." B. Comply with TIA-569-B, Annex A, "Firestopping." C. Comply with BICSI TDMM, "Firestopping Systems" Article. 3.4 IDENTIFICATION A. Identify system components, wiring, and cabling complying with TIA/EIA-606-A. Comply with requirements for identification specified in Section 260553 "Identification for Electrical Systems." B. Cable and Wire Identification: 1. Label each cable within 4 inches of each termination and tap, where it is accessible in a cabinet or junction or outlet box, and elsewhere as indicated. 2. Exposed Cables and Cables in Cable Trays and Wire Troughs: Label each cable at intervals not exceeding 15 feet. 3. Label each terminal strip and screw terminal in each cabinet, rack, or panel. a. Individually number wiring conductors connected to terminal strips, and identify each cable or wiring group being extended from a panel or cabinet to a building- mounted device shall be identified with name and number of particular device as shown. CORNELL UNIVERSITY SECTION 27 15 00 Ithaca, New York COMMUNICATIONS HORIZONTAL CABLING 6 Floor Rhodes Hall Rm 651 Communications Horizontal Cabling 27 15 00 - 8 01.04.2016 C. Labels shall be preprinted or computer-printed type with printing area and font color that contrasts with cable jacket color but still complies with requirements in TIA/EIA-606-A. 1. Cables use flexible vinyl or polyester that flex as cables are bent. 3.5 FIELD QUALITY CONTROL A. Testing Agency: Engage a qualified testing agency to perform tests and inspections. B. Manufacturer's Field Service: Engage a factory-authorized service representative to test and inspect components, assemblies, and equipment installations, including connections. C. Perform the following tests and inspections with the assistance of a factory-authorized service representative: 1. Visually inspect UTP and optical fiber cable jacket materials for NRTL certification markings. Inspect cabling terminations in communications equipment rooms for compliance with color-coding for pin assignments, and inspect cabling connections for compliance with TIA/EIA-568-B.1. 2. Visually confirm Category 6, marking of outlets, cover plates, outlet/connectors, and patch panels. 3. Visually inspect cable placement, cable termination, grounding and bonding, equipment and patch cords, and labeling of all components. 4. UTP Performance Tests: a. Test for each outlet and MUTOA. Perform the following tests according to TIA/EIA-568-B.1 and TIA/EIA-568-B.2: 1) Wire map. 2) Length (physical vs. electrical, and length requirements). 3) Insertion loss. 4) Near-end crosstalk (NEXT) loss. 5) Power sum near-end crosstalk (PSNEXT) loss. 6) Equal-level far-end crosstalk (ELFEXT). 7) Power sum equal-level far-end crosstalk (PSELFEXT). 8) Return loss. 9) Propagation delay. 10) Delay skew. 5. Final Verification Tests: Perform verification tests for UTP systems after the complete communications cabling and workstation outlet/connectors are installed. a. Voice Tests: These tests assume that dial tone service has been installed. Connect to the network interface device at the demarcation point. Go off-hook and listen and receive a dial tone. If a test number is available, make and receive a local, long distance, and digital subscription line telephone call. b. Data Tests: These tests assume the Information Technology Staff has a network installed and is available to assist with testing. Connect to the network interface device at the demarcation point. Log onto the network to ensure proper connection to the network. D. Document data for each measurement. Data for submittals shall be printed in a summary report that is formatted similar to Table 10.1 in BICSI TDMM, or transferred from the instrument to the computer, saved as text files, and printed and submitted. CORNELL UNIVERSITY SECTION 27 15 00 Ithaca, New York COMMUNICATIONS HORIZONTAL CABLING 6 Floor Rhodes Hall Rm 651 Communications Horizontal Cabling 27 15 00 - 9 01.04.2016 E. End-to-end cabling will be considered defective if it does not pass tests and inspections. F. Prepare test and inspection reports. END OF SECTION 27 15 00 ©2016 LEVENBETTS These drawing and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. A000 LEVENBETTS 05 Project Team ARCHITECT:LEVENBETTS 508 W 26 Street #317 New York, NY 10001 t 212 242 1414 levenbetts.com MEP / FIRE PROTECTION:DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 601 231 6600 deltaengineers.com CLIENT:CORNELL UNIVERSITY - COLLEGE OF ENGINEERING Rhodes Hall Ithaca, NY 14853 t 607.255.4326 engineering.cornell.edu PROJECT NAME:RHODES HALL - SIXTH FLOOR RENOVATION Cornell Institute for Social and Economic Research ADDRESS:Cornell University College of Engineering Rhodes Hall 136 Hoy Road Ithaca, NY 14853 COUNTY:Tompkins 04 Project Information01 Site Map 06 Drawing Index DRAWING NO.DRAWING TITLE SCALE ------------------------------------------------------------------------------------------------------- NOTES A000 Site Map / Project Info / Drawing Index N/A A001 General Notes / Symbols / Abbreviations / Hatches A002 ADA Compliance / Wall Type A100 Key Plan 1/16"=1'-0" ------------------------------------------------------------------------------------------------------- DEMOLITION PLANS A101 Sixth Floor Demolition Plan 1/4"=1'-0" A102 Sixth Floor Reflected Ceiling Plan Demolition 1/4"=1'-0" ------------------------------------------------------------------------------------------------------- BUILDING PLANS A201 Sixth Floor Plan 1/4"=1'-0" ------------------------------------------------------------------------------------------------------- REFLECTED CEILING PLANS A601 Sixth Floor Reflected Ceiling Plan 1/4"=1'-0" ---------------------------------------------------------------------------------------------------- MECHANICAL H-001 Legends, Symbols and Abbreviations N.A. H-101 Sixth Floor Mechanical Removal Plan 1/4"=1'-0" H-201 Sixth Floor Mechanical Plan 1/4"=1'-0" ---------------------------------------------------------------------------------------------------- ELECTRICAL E-001 Electrical Schedules + Legend N.A. E-101 Removal Sixth Floor Plan 1/4"=1'-0" E-201 Sixth Floor Electrical Plan 1/4"=1'-0" ---------------------------------------------------------------------------------------------------- FIRE PROTECTION FP-101 Sixth Floor Fire Protection Removal Plan 1/4"=1'-0" FP-201 Sixth Floor Fire Protection Plan 1/4"=1'-0" RHODES HALL - SIXTH FLOOR RENOVATION Cornell University, Ithaca, NY 14853 01.04.2016 100% CD SUBMISSION COLUMN # SD CEILING MOUNTED SMOKE DETECTOR REVISION KEY REVISION NUMBER DETAIL ENLARGEMENT DETAIL NUMBER SHEET NUMBER SECTION KEY DETAIL NUMBER SHEET NUMBER SECTION KEY DETAIL NUMBER (SAME SHEET) INTERIOR ELEVATION KEY DETAIL NUMBER (TYP.) SHEET NUMBER ELEVATION KEY DETAIL NUMBER SHEET NUMBER ELEVATION KEY DETAIL NUMBER (SAME SHEET) PARTITION TYPE DOOR SYMBOL WINDOW SYMBOL 0" LOCATION ELEVATION HEIGHT ROOM KEY ROOM NAME ROOM NUMBER FLOOR TRANSITION SYMBOL SYMBOLS: CEILING HEIGHT CABINET NO. PLYWOOD INSULATION RIGID INSULATION GLASS STEEL/ALUMINUM GYP BOARD, OR IMPERIAL BOARD WOOD BLOCKING - DISCONTINUOUS WOOD BLOCKING - CONTINUOUS FINISH WOOD HATCH PATTERNS: CONCRETE EXISTING WALL TO REMAIN HT Height HM Hollow metal (steel) HVAC Heating, Ventilation, & Air Conditioning ID Inside diameter IN Inch(es) INCAND Incandescent INSUL Insulation JCT Junction JT Joint LACQ Lacquer(ed) LAM Laminate(d) LAV Lavatory (sink) LBS Pounds LD Linear diffuser (HVAC) LIN Linear LG Long LH Left-hand LHR Left-hand reverse LT Light LTG Lighting LV Low-voltage (electrical) M Metal MAS Masonry MATL Material MAX Maximum MC Medicine cabinet MDF Medium density fiberboard MECH Mechanical MFG Manufacture(ed) (er) (ing) MIN Minimum MISC Miscellaneous MO Masonry opening MTD Mounted MTL Metal N North NIC Not in contact NO Number NTS Not to scale OC On center (center-to-center) OD Outside diameter OPP Opposite OSB Oriented-strand board OZ Ounce(s) PL Plate PLAM Plastic Laminate PLWD Plywood POL Polished PP Pitch-pocket (s) PR Pair PT Point PTD Painted PVC Polyvinyl chloride R1 (R2, etc.) Radius R Riser(stair riser) RA Return-air RD Roof drain REF Refrigerator REQ Required REINF Reinforce(d) (ing) REV Revised (Revision) RH Right-hand RHR Right-hand reverse RM Room RO Rough opening SCHED Schedule S South SD Shower drain SHT Sheet SIM Similar SPEC Specification SQ Square SQ FT Square Foot (Feet) SS Stainless Steel (Type 316) STOR Storage STRUCT Structure (al) T Tread (stair tread) T.B.D. To Be Designed by Architect TEL Telephone TEMP Tempered T&G Tongue & groove TH Thick TOC Top face of concrete TOS Top face of steel TRNSF Transformer (electrical) TYP Typical UNO Unless noted otherwise (specifically) V Volts (electrical) V-A Volt-Amperes (electrical) VAC Volts, alternating current (electrical) V.P. Venetian plaster VDC Volts, direct current (electrical) VDT Video display terminal VERT Vertical (ly) VIF Verify in field (at job site) W West W Watt(s) [electrical] WD Wood WC Water closet WF Wide-flange (steel section) WH Water heater WP Waterproof(ing) WR Water-resistant WKG Working W/ With W/O Without WT Weight WWF Welded-wire fabric WWM Welded-wire mesh YD(s) Yard(s) A Ampere(s) [electrical] & And @ At (per) ABB Asphalt-impregnated building board AC Air Conditioning ACOUS Acoustic AD Access Door ADJ Adjustable AFF Above Finish Floor ALT Alternate (Alternating) ALUM Aluminum AMP(s) Ampere(s) [electrical] ANOD Anodized (aluminum) APPROX Approximate ARCH Architectural ASPH Asphalt AUTO Automatic AVG Average BATH Bathroom BD Board BKSPL Backsplash BLDG Building BLKG Blocking BM Beam (Structural) BOC Bottom face of concrete BOS Bottom face of Steel BOT Bottom BR Brick BUR Built-up roof BRKT(s) Bracket(s) CAB Cabinets CBB Concrete Backer Board CBR Compressible backer rod CEM Cement CER Ceramic CI Cast Iron C-JT Control Joint CL Centerline CLG Ceiling CLN Clean CLO Closet CLR Clear CMU Concrete Masonry Unit(s) CO Clear Opening COL Column CONC Concrete COND Condition CON-DOC Contract Documents CONSTR Construction CONT Continuous C-R Cold-rolled CSK Countersunk CT Ceramic Tile CTC Center-to-center CU Cubic CW Cold water D Deep DET Detail DIA Diameter Ø Diameter DIM Dimension DISP Dispenser DIV Division (Spec. Div.) DK Dark DN Down DR Door DW Dish washer DWG(s) Drawing(s) DWR Drawer E East EA Each EL Elevation(s) ELEC Electrical ELEV Elevation (s) EQ Equal EQUIP Equipment ETC Etcetera EXG Existing EXTR Extruded EXH Exhaust FAI Fresh air intake FD Floor drain FF Finish Floor FG Fixed glass FHCSK Flathead countersunk FIN Finish (es) (ed) FIXT Fixture(s) FL Floor FLSHG Flashing FLUOR Fluorescent FPSC Fire-proof, self-closing FR Frame FRG Fiberglas reinforced gypsum FRP Fiberglas reinforced plastic FT Foot (Feet) GA Gauge (Gage) GALV Galvanized GC General Contractor GFI Ground-fault interrupter GL Glass GR Grade GWB Gypsum Wall Board H High HC Hollow Core HD Head HDBD Hempered high-density fiberboard HDWD Hardwood HM Hollow Metal HORIZ Horizontal HP Heat pump HR Hour HDWRE Hardware ABBREVIATIONS: A. STANDPIPE SYSTEMS MATERIALS". AS PER BC 803.1 "STANDARD METHOD OF TEST FOR SURFACE BURNING CHARACTERISTICS OF BUILDING SURFACE FLAME-SPREAD RATING OBTAINED AS PRESCRIBED IN ASTM E-84 INTERIOR FINISH: MATERIALS SHALL BE CLASSIFIED IN ACCORDANCE WITH THE MATERIALS, MINERAL, SLAG, OR ROCKWOOL WHEN COMPACTED INTO CONFINED STRUCTURAL MEMBERS, 1/4" MINIMUM CEMENT BOARD OF EQUIVALENT LEAST 3/8" THICK, SHEET METAL OF AT LEAST 0.002"THICK, SOLID WEB METAL 3/4" MORTAR OR PLASTER ON NON-COMBUSTIBLE LATH, PLASTER BOARD AT NON-COMBUSTIBLE FIRESTOPPING MAY BE MASONRY SET IN MORTAR,CONCRETE CONSTRUCTION GROUP 1: WITH NON-COMBUSTIBLE MATERIAL THAT CAN BE (EXCEPTED WHERE CONCEALED SPACED IS SPRINKLERED OR IS CONSTRUCTED AS A STAIRS, FURRING PIPE SPACES, COLUMN ENCLOSURES, ETC. SHALL BE FIRESTOPPED FIRESTOPPING: CONCEALED SPACES WITHIN PARTITIONS, WALLS, FLOORS, ROOFS, COVERINGS" UL 790 OR BC 1505. REQUIREMENTS OF ASTM-108 "STANDARD METHODS OF FIRE TESTS OF ROOF ROOF SHALL BE COVERED WITH CLASS "A" ROOF COVERING MEETING THE OPENING PROTECTIVES INCLUDING FRAMES, SELF-CLOSING DEVICES AND HARDWARE, WITH NFPA 80 AND SHALL COMPLY BC715.3.7 PROTECTED BY SELF-CLOSING OPENING PROTECTIVE. (TABLE 720.1(3)) SPACE MAY BE THROUGH ONE OR MORE OPENINGS NOT EXCEEDING 9 SQ.FT. AND SHALL BE FIRESTOPPED INTO AREAS NOT EXCEEDING 3,000 SQ.FT. ACCESS TO SUCH AS THE CEILING. CONCEALED SPACE ABOVE SUCH CEILING, UNLESS SPRINKLERED, SPACES. BC 712.41.1 OR ASTM E814 & UL1479 SHAFT) AS FOLLOWS: 24. B. A. 23. SHAPED. 22. 21. SEPARATIONS OR VERTICAL PARTITIONS HAVING THE SAME FIRE RESISTANCE RATING OR ROOF ASSEMBLY SHALL BE CONTINUOUS BETWEEN FIRE DIVISIONS, FIRE CEILINGS THAT CONTRIBUTE TO THE REQUIRED FIRE RESISTANCE RATING OF A FLOOR PROTECTED WITH MATERIALS HAVING THE REQUIRED FIRE RESISTANCE-RATING OF THE LINTELS SUPPORTING MASONRY WALLS OVER 4 FEET IN WIDTH SHALL BE FIRE OFF WITH CLOSE FITTING METAL ESCUTCHEONS OR PLATES. EXCEED 2 PERCENT OF ANY ONE FACE SUCH PROTECTION, AND SHALL BE CLOSED INDIVIDUALLY ENCASED STRUCTURAL MEMBERS, SUCH PENETRATION SHALL NOT WHERE PIPES, WIRES, CONDUITS, DUCTS, ETC., PIERCE FIRE PROTECTION OF IT SHALL HAVE BEEN ACCEPTABLE PRIOR TO THE EFFECTIVE DATE OF THE MATERIALS" AND ACCEPTED BY THE COMMISSIONER, OR BC703.3 "STANDARD METHODS OF FIRE TESTS OF BUILDING CONSTRUCTION AND IT SHALL HAVE BEEN TESTED IN ACCORDANCE WITH ASTM E-119, ALL MATERIALS AND ASSEMBLIES REQUIRED TO HAVE A FIRE RESISTANCE RATING AND INSPECTION REPORTS SHALL BE FILED THROUGH THE ARCHITECT WITH THE BY THE PERSON SUPERINTENDING THE CONSTRUCTION. SIGNED COPIES OF ALL TEST CODE AND NOT LISTED ABOVE SHALL BE SUBJECT TO SEMI-CONTROLLED INSPECTION ALL MATERIALS, ASSEMBLIES AND METHODS OF CONSTRUCTION REGULATED BY THE A. WALL SUPPORTED. (BC 714.6) 20. 19. 18. B. CODE. SHALL COMPLY WITH ONE OF THE FOLLOWING: DEPARTMENT OF BUILDINGS. 17. 16. 47. 46. AND ELECTRICITY WILL BE OBTAINED. I. ALL NECESSARY APPROVALS FOR ELECTRICAL WORK FROM THE BUREAU OF GAS LIMITATIONS REGARDING USE OF INSULATION OR EQUIPMENT. H. FIRE PROTECTION CONSTRUCTION REQUIREMENTS, INCLUDING BUILDING CODE G. ELECTRICAL LIGHTING AND POWER DESIGN DATA. F. SIZE AND TYPE OF APPARATUS AND EQUIPMENT AND SYSTEM CONTROLS IS IN CONFORMANCE WITH THE REQUIREMENTS OF THE CODE. E. "R" VALUES OF INSULATING MATERIALS. D. DESIGN HEAT LOSS AND/OR GAIN THROUGH EACH EXTERIOR FACADE IN BTU/HR. C. DESIGN OUTDOOR AIR TEMPERATURE(15 DEG.F. WINTER, 89 DEG.F. SUMMER). AND/OR COOLED. (72 DEG.,F. FOR HEATING, 78 DEG.F. FOR COOLING.) B. DESIGN INSIDE AIR TEMPERATURE OF EACH ROOM THAT IS TO BE HEATED A. "U" VALUES OF THE ENVELOPE SUB-SYSTEM. AND THE NEW YORK STATE BUILDING CODE WHICHEVER IS MORE STRINGENT: WITH BOTH THE STATE ENERGY CONSERVATION CONSTRUCTION CODE 2010 EDITION ALL PERTINENT DATA AND DESIGN CRITERIA REGARDING THE FOLLOWING CONFORM ENERGY CONSERVATION CODE NOTES75. STANDPIPE WILL BE INSTALLED IN ACCORDANCE WITH SECTION (BC 905) OF THE BUILDING CODE. SEPARATE STANDPIPE APPLICATION WILL BE FILED. SPRINKLER SYSTEM SHALL COMPLY WITH SECTION BC 903. SEPARATE SPRINKLER APPLICATION SHALL BE FILED AND APPROVAL OBTAINED. THE BEST OF KNOWLEDGE AND BELIEF, THE SYSTEM WILL MEET THE CODE TEMPERATURY THAT THE SYSTEM HAS BEEN OPERATED AND FUNCTIONS SATISFACTORY, AND THAT TO ARCHITECT OR ENGINEER SHALL BE SUBMITTED WITH THE PERMIT APPLICATION, STATING THE PERMIT APPLICATION. IN THE CASE OF HEATING SYSTEM, A SIGNED STATEMENT BY WITH THE DEPARTMENT OF BUILDINGS AND FORM PART OF THE PAPERS ACCOMPANYING AND SIGNED COPIES OF REQUIRED INSPECTIONS AND TEST REPORTS SHALL BE FILED CONDUCTED IN ACCORDANCE WITH THE REQUIRED INSPECTION AND TEST PROCEDURES; APPLICABLE LAWS AND REGULATIONS. ALL INSPECTIONS AND TEST SHALL BE PROPER FUNCTIONING AND COMPLIANCE WITH THE BUILDING CODE AND OTHER EQUIPMENT REQUIRING USE PERMITS SHALL BE INSPECTED AND TESTED TO DETERMINE C. SMOKE TEST B. SPRINKLER SYSTEMS REQUIREMENT. 13.ALL NOTES HEREIN MENTIONED WITH THOSE ON THE VARIOUS DRAWINGS, SHALL DISCREPANCIES IN THE PLANS OR DETAILS SHALL BE CALLED TO THE ATTENTION OF EACH CONTRACTOR WILL BE HELD STRICTLY RESPONSIBLE FOR HIS WORK. ANY APPLY TO ALL DRAWINGS AND FORM PART OF THE CONTRACT. THE ARCHITECT. 14. 45. ORDINANCES, RULES AND REGULATIONS PERTAINING TO LABOR AND MATERIALS. CONSTRUCTION SHALL COMPLY WITH ALL FEDERAL, STATE AND LOCAL CODES, DISTORTIONS AND OFF-ALIGNMENT ACCORDING TO APPLICABLE CODES, STANDARDS ALL WORK DURING CONSTRUCTION AGAINST DAMAGED, BREAKAGES, COLLAPSE, CONTRACTORS SHALL BE RESPONSIBLE FOR ADEQUATELY BRACING AND PROTECTING VARIOUS TRADE INSTITUTES (A.C.I., A.I.S.C.ETC.) WHERE APPLICABLE. ALL MATERIALS APPLICABLE, AND TO CONFORM TO THE STANDARDS AND RECOMMENDATIONS OF THE ALL MATERIALS AND CONSTRUCTION TO BE INCORPORATED IN THE WORK SHALL BE IN STRICT ACCORDANCE WITH THE LATEST EDITION OF THE ASTM SPECIFICATIONS ALL CONSTRUCTION, DIMENSIONS AND DETAILS SHALL CONCUR WITH AND BE VARIATION FROM THE DIMENSIONS SHOWN BY THESE DRAWINGS. CONDITIONS ON THE JOB AND ARCHITECT MUST BE NOTIFIED OF ANY CONTRACTOR SHALL VERIFY AND BE RESPONSIBLE FOR ALL DIMENSIONS AND WRITTEN DIMENSIONS ON THESE DRAWINGS SHALL HAVE PRECEDENCE OVER SCALED AND GOOD PRACTICE. INCORPORATED INTO THE WORK SHALL BE NEW. DETERMINED FROM THESE DRAWINGS ONLY. 12. 11. 10. 9. DIMENSIONS. 8. 7. 45. 44. 43. 42. 41 NO WORK TO BE DONE BEYOND THE BUILDING LINES WITHOUT APPROVAL OF FOUNDATION; EARTHWORK OR DEMOLITION WORK. (BC 105.5) FIVE DAYS PRIOR NOTICE SHALL BE GIVEN TO ADJOINING LOT OWNER AFFECTED BY AT LEAST 24 HOUR WRITTEN NOTICE SHALL BE GIVEN TO THE COMMISSIONER APPROVED BY THE BOARD OF STANDARDS AND APPEALS. (§28-401) SHALL HAVE BEEN ACCEPTED FOR USE UNDER THE PRESCRIBED CODE TEST IT SHALL HAVE BEEN ACCEPTABLE PRIOR TO THE EFFECTIVE DATE OF THE EQUIPMENT SHALL MEET THE FOLLOWING REQUIREMENTS: ALL MATERIALS, ASSEMBLIES, FORMS AND METHODS OF CONSTRUCTION AND SERVICE THE OWNER SHALL BE RESPONSIBLE FOR THE SAFE MAINTENANCE OF THE BUILDING OF THE 2010 EXISTING BUILDING CODE OF NEW YORK STATE AND ANY LOCAL AMENDMENTS. ALL CONSTRUCTION SHALL BE IN ACCORDANCE WITH THE RULES AND REGULATIONS AUTHORITIES HAVING JURISDICTION. BEFORE COMMENCEMENT OF WORK. (BC 105.5.1) METHODS BY THE COMMISSIONER OR 6. 5. 4. C. B. CODE BY THE BOARD OR AND ITS FACILITIES (§28-301.1). A. 3. 2. 1. 40. 39. 38. (BC 715.3).DOORS TO STAIRS 1 1/2 HOUR, EXCEPT WHERE OTHERWISE NOTED. DOORS FINISH FLOORING IN ALL EXITS SHALL BE OF NON-COMBUSTIBLE MATERIALS (BC 1009.5.1) ALL COMBUSTIBLE FLOORING TO HAVE FLAME SPREAD RATING IN ACCORDANCE WITH BC 804 INTERIOR FINISH TO HAVE FLAME SPREAD RATINGS IN ACCORDANCE WITH TABLE 803.5 FLOOR CONSTRUCTION B&C INTERIOR PARTITIONS AND FURRING A EXIT PASSAGEWAY(GRADE LEVEL) A PUBLIC HALL(CORRIDOR) A DUCT SHAFT(288 SQ.INCH OR MORE) A ELEVATOR SHAFT SEPARATION) A STAIR ENCLOSURE(INCLUDING INTERIOR FINISH CLASS TOTAL WIDTH= 2 1/4". INSTALLATION AS RECOMMENDED BY MANUFACTURER. VENTILATION SHAFT WALLS 288 SQ.INCH OR OVER SHALL BE AS FOLLOWS: ONE LAYER OF 5/8" SHEETROCK FIRE CODE GYPSUM WALLBOARD EACH SIDE OVER 1" GYPSUM COREBOARD. TOILET ROOM SIDE OF PARTITIONS SHALL BE 5/8" WATER RESISTANT GYPSUM WALLBOARD. WOOD REQUIRED TO BE FIREPROOFED SHALL BE TESTED IN ACCORDANCE WITH REFERENCE STANDARDS RS 5-3 AND RS 5-4. FIRE PREVENTION APPLICATIONS WILL BE FILED IF REQUIRED FOR ALL INSTALLATIONS. CORRIDORS. FIRE DAMPERS TO BE INSTALLED IN VENT DUCTS WHEN THEY PIERCE PUBLIC ALL VENT DUCT SHAFTS BE ENCLOSED WITH 2 HOUR ENCLOSURE, NO DUCT VENTS TO PASS THROUGH STAIR ENCLOSURES. 1 1/2 HOUR AUTOMATIC SELF-CLOSING PENETRATION OF OPENINGS IN WALLS, PARTITIONS, OR FLOORS FOR PIPE SLEEVES, MEDICINE CABINETS, HAMPERS ELECTRIC DEVICES, ETC., SHALL BE PACKED & SEALED. ALL FIRE RATED PARTITIONS - CONDUITS IN FIRE-RATED PARTITIONS WILL NOT EXCEED 3/4 INCH DIAMETER OUTLETS AND SUCH PARTITIONS WILL BE BACKED UP WITH CABINETS, ETC. SHALL ENCROACH ON PARTITIONS ENCLOSING STAIRS OR ELEVATOR SHAFTS FIRE RATED ENCLOSURES - NO CONDUITS, PIPES, MEDICINE 70. A. AIR CONDITIONING AND VENTILATION SYSTEMS PERMITS SHALL BE OBTAINED FOR USE OF THE FOLLOWING EQUIPMENT (§28-105.2): B. PLUMBING PIPING EQUIPMENT USE PERMITS, INSPECTIONS AND TESTS 74. 73. 72. 71. CONCRETE CINDER BLOCK SHALL BE TYPE APPROVED BY THE BOARD OF STANDARDS MASONRY MATERIALS SHALL CONFORM TO THE REQUIREMENTS OF SECTION INSTALLED IN VENT DUCTS WHEN THEY PIERCE PUBLIC CORRIDORS. ALL VENT DUCT SHAFT & OFFSETS 288 SQ. IN. OR MORE SHALL BE ENCLOSED WITH ENCLOSURES. 1 1/2 HOUR AUTOMATIC SELF-CLOSING FIRE DAMPERS TO BE INTERIOR REQUIRED STAIR SHALL BE ENCLOSED WITH 2 HOUR FIRE RATING IN ACCORDANCE WITH NEW YORK STATE BUILDING BC 707. CORRIDORS AND EXIT PASSAGEWAYS SHALL HAVE A MIN. CLEAR HEIGHT OF 7'-6" FOR PROJECTION BELOW THE CEILING SHALL NOT OBSTRUCT FULL VIEW OF EXIT SIGNS. AT LEAST 75% OF THE FLOOR AREA WITH NO POINT LESS THAN 7 FT. IN HEIGHT, BC 2101 THROUGH BC 2104. AND APPEALS. TO ELEVATOR SHAFT 1 1/2 HOUR. (BC 1208) 69. 68. 66. 67. 65. 2 HR. REQUIRED FIRE RESISTANCE RATING 0 HR. REQUIRED FIRE RESISTANCE RATING 2 HR. REQUIRED FIRE RESISTANCE RATING 1 HR. REQUIRED FIRE RESISTANCE RATING 2 HR. REQUIRED FIRE RESISTANCE RATING 2 HR. REQUIRED FIRE RESISTANCE RATING 2 HR. REQUIRED FIRE RESISTANCE REQUIRED FIRE RESISTANCE BC CHAPTER 7 RATING DOORS AND ASSEMBLIES SHALL HAVE THE FOLLOWING FIRE RESISTIVE RATINGS, ALL DOORS TO REQUIRED EXIT STAIRS IN O.G. R-2 SHALL BE 3'-0" WIDE EXCEPT IF WITH METAL HANGERS, PURLINS AND RUNNERS AS REQUIRED. SUSPENDED CEILINGS SHALL COMPLY WITH SECTION (BC R 103) OF THE BUILDING CODE, OTHERWISE NOTED. BC 1008.1.1.1. J. CONSTRUCTION SHALL CONFORM TO THE NEW YORK ENERGY CONSERVATION CONSTRUCTION CODE . 2 HOUR FIRE RATING ENCLOSURE. NO DUCT VENTS TO PASS THROUGH STAIR OR OTHER RATED PARTITIONS. APPROVED MATERIALS. ALL INTERIOR TOILETS SHALL BE MECHANICALLY VENTILATED IN ACCORDANCE WITH PROVIDED WHERE CALLED FOR ON DRAWINGS. (FOR FIN. MAT. SEE FINISH SCHEDULE) AS PER SECTION BC 1210.1. ALL TOILETS SHALL HAVE WATERPROOFED FLOOR AND 6" BASE. WAINSCOT SHALL BE 37. SECTION BC 1203.4.1.3. 36. 31.EXIT LIGHTING SHALL BE ON CIRCUITS THAT ARE SEPARATE FROM ANY OTHER CIRCUITS, TAKEN OFF AHEAD OF THE MAIN SWITCH, WHERE MORE THAN FOUR LIGHTS ARE SIGNS, PLACED, IF REQUIRED AT AN ANGLE WITH THE EXIT OPENING. INSTALL LOCATION OF EVERY EXIT ON EVERY FLOOR SHALL BE CLEARLY INDICATED BY EXIT SHALL BE WHITE. LETTERS SHALL BE BLOCK LETTERING, AT LEAST 6"HIGH, WITH LETTERS OF AT LEAST 25 FEET,LAMBERT. LETTERS SHALL BE RED, THE BACKGROUND EXIT SIGNS SHALL BE INTERNALLY LIGHTED, HAVING AN INITIAL BRIGHTNESS OF THE FLOOR, SIGNS SHALL BE ON SEPARATE CIRCUITS, TAKEN OFF AHEAD OF THE MAIN SWITCH. (BC1011.0) OCCUPANCY CLASS R& I-3 ARE EXEMPTED FROM THE REQUIREMENT. DIRECTIONAL SIGNS TO SERVE AS GUIDE FROM ALL PORTIONS OF THE CORRIDOR OR STROKES (BC 1011.4.2) 33. REQUIRED AS PER SECTION BC 1006.3 32. MORE THAN 4 1/2 INCHES INTO THE REQUIRED STAIR WIDTH.(BC 1003.3.3) ALL EXITS SHALL BE KEPT READILY ACCESSIBLE AND UNOBSTRUCTED AT ALL TIMES. STAIRS SHALL HAVE HANDRAILS ON EACH SIDE (EXCEPT THAT STAIRS LESS THAN 44 INCHES IN WIDTH), HAVING FINGER CLEARANCE OF 1 1/2 INCHES, PROJECTING NOT 26. 25. 55.CENTRAL HEAT, ELECTRIC OR GAS HEATING SYSTEM SHALL COMPLY WITH D 26-17.01 (H.M.C). EXIT DOORS SHALL BE READILY OPENABLE AT ALL TIMES FROM THE SIDE WHICH EGRESS IS TO BE MADE. DOORS ALL WIRE GLASS IN RATED DOORS AND WINDOWS WILL BE OF A TYPE APPROVED BY CONTINUOUS THROUGH ANY CONCEALED SPACE IN FLOOR OR ROOF CONSTRUCTION. FIRE DIVISION SHALL COMPLY WITH PROVISIONS OF SECTION BC 508.3.3 AND SHALL BE64. 62. 63. THE B.S.A. THE SUPPLY OF HOT WATER SHALL COMPLY WITH D 26-17.07 (H.M.C). GAS APPLIANCES TO COMPLY WITH SECTION FGC301. PUBLIC HALL LIGHTING SHALL COMPLY WITH D26-19.03;05;07 (HMC). NONCOMBUSTIBLE MATERIAL FOR THE FULL DEPTH OF THE FLOOR CONSTRUCTION. SPACE BETWEEN THE DUCT AND THE FLOOR CONSTRUCTION FILLED SOLIDLY WITH INERT 1 HOUR PLACED ASCLOSE AS POSSIBLE TO THE DUCT IN LIEU OF A SHAFT, WITH THE FLOOR NUMBERS TO BE PROVIDED ON ALL FLOORS IN STAIR HALL AND AT ELEVATOR LANDINGS IN ACCORDANCE WITH SECTION D26-21.03 (HMC) AND RULES OF THE DEPARTMENT WHERE THE CROSS SECTIONAL AREA OF DUCTS IS 2 SQ.FT. OR LESS, SUCH DUCTS MAY BE FIRE PROTECTED WITH CONSTRUCTION HAVING A FIRE RESISTANCE RATING OF 61. 60. 59. 58. OF BUILDINGS. 56. 57. 48.ALL PERMITS ISSUED BY THE DEPARTMENT OF BUILDINGS SHALL BE POSTED IN A CONSPICUOUS PLACE OPEN TO THE PUBLIC INSPECTION FOR THE ENTIRE TIME OF A REFUSE COLLECTING ROOM IN COMPLIANCE WITH BC 1213.1 AND RULES AND THE DEPARTMENT OF BUILDINGS SHALL BE PROVIDED FOR REFUSE REDUCTION SYSTEM WHICH UTILIZES METHODS OTHER THAN BURNING. SUCH ROOM SHALL BE USED FOR NO OTHER PURPOSE AND SHALL BE SEPARATED FROM ALL OTHER REFUSE COLLECTING ROOM SHALL BE SPRINKLERED. OCCUPANCIES BY 2 HR. FIRE RATED PARTITIONS. DOORS INTO SUCH SPACES SHALL BE REFUSE CHUTE SHALL BE CONSTRUCTED IN ACCORDANCE WITH ALL APPLICABLE RULES JANITORIAL SERVICES TO COMPLY WITH D (MDL§83) INSPECTION OF REQUIRED SPRINKLERS SHALL COMPLY WITH D26-21.07 (H.M.C). OBLIGATIONS OF THE OWNER SHALL COMPLY WITH D 26-22.03 (H.M.C). AND REGULATIONS OF THE DEPARTMENT OF BUILDINGS AND ANY OTHER AUTHORITY THE PROSECUTION OF THE WORK OF THE USE AND OPERATION OF THE EQUIPMENT 54. 52. 53. 51. HAVING JURISDICTION. 50. F.P.S.C. 1 1/2 HOUR. 49. OR UNTIL THE EXPIRATION OF THE PERMIT. TEST REPORTS AND CERTIFICATE OF INSPECTION SHALL BE FILED WITH THE BUILDING. ENGINEER RETAINED BY THE OWNER AND ACCEPTABLE TO ARCHITECT OF RECORD. MADE AND WITNESSED BY OR UNDER THE DIRECT SUPERVISION OF AN ARCHITECT OR THE FOLLOWING ITEMS OF WORK SHALL BE SUBJECT TO CONTROLLED INSPECTION,15. FIRE ALARM TEST A. STRUCTURAL STEEL - WELDING (BC 1704.3.1)B. STRUCTURAL STEEL - ERECTION & BOLTING (BC 1704.3.2, BC 1704.3.3)C. STRUCTURAL STEEL - FORMED STEEL (BC 1704.3.4)D. FIRESTOPS, DRAFSTOP, AND FIREBLOCK SYSTEMS (BC 1704.25) SMOKE CONTROL SYSTEMS (BC 1704.14) E. ENERGY CODE COMPLIANCE INSPECTIONS (BC 109.3.5) F. G. HEIGHT OF HANDRAIL SHALL BE MIN.34" ABOVE THE TREAD NOSING. MATERIALS OF HANDRAILS SHALL HAVE A FLAME SPREAD RATING NOT EXCEEDING 150. HANDRAILS SHALL BE DESIGNED TO RESISTS A SIMULTANEOUS APPLICATION OF A LATERAL FORCE OF 40 PLF AND A VERTICAL LOAD OF 50 PLF. LANDINGS AND PLATFORMS SHALL BE ENCLOSED ON SIDES BY WALL OR RAILINGS,AT LEAST 3'-0"HIGH. RISERS SHALL BE MAXIMUM 7 " HIGH,TREADS MINIMUM 9" WIDE EXCLUSIVE OF NOSING OR THE SUM OF 2 RISERS PLUS ONE TREAD EXCLUSIVE OF NOSING SHALL VENTILATION OF EACH REQUIRED STAIR EXTENDING TO THE ROOF WILL CONSIST OF WINDOWS AND LOUVERS MIN. 20 SQ.FT. OF 1/4" GLASS GLAZING IN WINDOWS, MIN. ILLUMINATION OF AT LEAST 5 FOOT CANDLES MEASURED AT THE FLOOR LEVEL SHALL BE MAINTAINED CONTINUOUSLY IN EXITS AND THEIR ACCESS FACILITIES. HANDRAILS SHALL BE RETURNED TO WALLS AND POSTS AT THEIR TERMINATION. 144# OF LOUVER . 30. 29. BE NOT LESS THAN 24 OR MORE THAN 25 1/2". (BC 1009.3) 28. 7.SERVICE EQUPMENT PERMITS: 9.FIRE SUPPRESSION SYSTEM PERMITS 27. BC 1007.6 AREAS OF RESCUE ASSISTANCE :SHALL BE SIZED TO ACCOMMODATE ONE NOT REDUCE THE REQUIRED MEANS OF EGRESS WIDTH. WHEELCHAIR SPACE OF 30"BY 48" FOR EACH 200 OCCUPANTS.SUCH WHELLCHAIR SHALL EACH AREA OF RESCUE ASSISTANCE SHALL BE SEPARATED FROM THE REMAINDER OF THE STORY BY A SMOKE BARRIER COMPLYING WITH SECTION 709. 46. BC 2701: ELECTRICAL COMPONENTS, EQUIPMENT AND SYSTEMS SHALL BE DESIGN, AND CONSTRUCTED IN ACCORDANCE WITH THE PROVISONS OF NEW YORK STATE ELECTRICAL CODE. 34. BC 2901: PLUMBING SYSTEMS AND EQUIPMENT SHALL BE CONSTRUCTED, AND MAINAINED IN ACCORDANCE WITH NEW YORK STATE PLUMBING CODE. 35. BC 2801: MECHANICAL APPLIANCES, EQUIPMENT AND SYSTEMS SHALL BE CONSTRUCTED, AND MAINTAINED IN ACCORDANCE WITH NEW YORK STATE MECHANICAL CODE AND NEW YORK STATE FUEL GAS CODE. 76. BCNYS CODE NOTES JURISDICTION CITY OF ITHACA, NY APPLICABLE CODES 2010 EXISTING BUILDING CODE OF NEW YORK STATE,2010 BUILDING CODE OF NEW YORK STATE MECHANICAL CODE OF NEW YORK STATE - 2010 PLUMBING CODE OF NEW YORK STATE - 2010 FIRE CODE OF NEW YORK STATE - 2007 ENERGY CONSTRUCTION CODE OF NEW YORK STATE - 2007 AMERICANS WITH DISABILITIES ACT (ADA) - 1993 LOCAL AMENDMENTS - TO BE DISCUSSED PROJECT TYPE LEVEL II ALTERATION WORK AREA <50% OF FLOOR AREA NO CHANGE IN USE OR OCCUPANCY CLASSIFICATION CONSTRUCTION TYPE TYPE 1B AUTOMATIC SPRINKLER PROVIDED SYSTEM USE GROUP B 77. EXISTING MEANS OF EGRESS NOTES: LENGTH OF TRAVEL:300 FT.(SPRINKLERED)(T. 1016.1 BCNYS) DEAD-END CORRIDORS:50 FT.(FULLY SPRINKLERED)(§ 1017.3 BCNYS) COMMON PATH OF TRAVEL:100 FT.(FULLY SPRINKLERED)(§ 1014.3 EX. 2 BCNYS) CORRIDOR RATING:1 HOUR (FULLY SPRINKLERED)(T.1017.1 BCNYS) CORRIDOR WIDTH:.15” / OCCUPANT, 44” MIN.(T.-1005.1; 1017.2 BCNYS) STAIRWAY WIDTH:.20” / OCCUPANT, 44” MIN.(T.-1005.1; 1009.1 BCNYS) DOORS IN EXIT STAIRS:EXEMPT FROM TEMPERATURE RISE REQUIREMENT. (§ 715.4.4 BCNYS) GUARDS:REQUIRED AT ALL EXISTING AND NEW ELEMENTS WITHIN THE WORK AREA (§ 703.5 EBC) HANDRAILS AT EXIST. STAIRS EXISTING HANDRAILS MAY REMAIN IN SERVICE AS LONG AS THEY ARE IN SOUND CONDITION. (§ 705.9 EBC) 78. EXISTING A . FIRE RESISTANCE RATED CONSTRUCTION: STRUCTURAL FRAME:2 HR BEARING WALLS – EXTERIOR 0 HR INTERIOR 2 HR NONBEARING WALLS 0 HR* (SEE BELOW FOR EXTERIOR NONBEARING WALLS) FLOOR CONSTRUCTION 2 HR ROOF CONSTRUCTION 1 HR (T. 601 BCNYS) INTERIOR FINISHES WALLS / CEILINGS:FLOORS: VERTICAL EXITS / EXIT PASSAGEWAYS:CLASS B* DOC FF-1 EXIT ACCESS CORRIDORS / EXIT WAYS:CLASS B* DOC FF-1 ROOMS & ENCLOSED SPACES:CLASS C* DOC FF-1 (T. 803.5, §804.4.1 BCNYS) *NOTE: CLASS A - FLAME-SPREAD 0-25, SMOKE DEVELOPED 0-450. CLASS B - FLAME-SPREAD 26-75, SMOKE DEVELOPED 0-450. CLASS C - FLAME-SPREAD 76-200, SMOKE DEVELOPED 0-450.. B. FIRE PROTECTION SYSTEMS PORTABLE FIRE EXTINGUISHERS:PROVIDE MINIMUM 2-A EXTINGUISHERS MIN. 1 UNIT OF A PER 1,500 SF MIN. 1 EXTINGUISHER PER 11,250 SF MAX. 75’ TRAVEL DISTANCE TO EXTINGUISHER (§ 906.3 FCNYS) GENERAL NOTES: GENERAL NOTES / SYMBOLS / ABBREVIATIONS / HATCHES A-001.00 DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # --11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu --01.04.2016 100% CONSTRUCTION DOCUMENTS ADA COMPLIANCE / WALL TYPE GENERAL REQUIREMENTSDOORWAY REQUIREMENTS ANSI 404 Doors and Doorways.15 min48 max380122024 max 91536 min81532 min610 48 min 1220 24 max 610 Fig. 308.2.1 Unobstructed Forward Reach Fig. 308.2.2 Unobstructed High Forward Reach48 max1220510 20 max (a)44 max1120>510-635 >20-25 (b)10 max 255Fig. 308.3.1 Unobstructed Side Reach15 min48 max3801220Fig. 308.3.2 Obstructed High Side Reach >10-24 >255-61034 max46 max865117010 max. 25534 max48 max8651220(a)(b) Fig. 403.5 Clear Width of an Accessible Route Fig. 403.5.1 Clear Width at Turn (a) 180 Degree Turn (b) 180 Degree Turn (Exception) 1065 42 min 1065 42 minX<48 1220122048 max152560 min915 36 min 915 36 minX<48 1220 BATHROOMS REQUIREMENTS Toilet and Bathing Rooms. Water Closets and Toilet Compartments. Urinals Lavatories and Sinks. HANDRAIL AND GRAB BAR REQUIREMENTS ICC/ANSI A117.1-2009 ICC/ANSI A117.1-2009 ACCESSIBLE BATHROOMS ADAPTABLE BATHROOMS ACCESSIBLE ADAPTABLE ACCESSIBLE ADAPTABLE Boundary of clear floor area 2010 BUILDING CODE OF NEW YORK STATE & ICC/ANSI A117.1-2009 BC1009.11 & ANSI 505 Handrails. ANSI 505.1 General. Handrails required by ANSI 405.8 for ramps, or ANSI 504.6 for stairs, shall comply with ANSI 505. BC1109.11 & ANSI 505.2 Location. Handrails shall be provided on both sides of stairs and ramps. EXCEPTION: One handrail shall be allowed in enclosed exit stairs less than 44 in. (1118mm) that do not serve as an accessible means of egress. Refer to BC1009.11 for additional exceptions. ANSI 603.1 General. Accessible toilet and bathing rooms shall comply with ANSI 603. ANSI 603.2 Clearances. ANSI 603.2.1 Turning Space. A turning space complying with ANSI 304 shall be provided within the room. BC P102.7 & ANSI 603.3 Mirrors. Refer to Fig. 606.3 for mounting heights on this sheet. BC P102.5 & ANSI 603.2.2 Overlap. Clear floor spaces shall be permitted to overlap. BC P102.3 & ANSI 603.2.3 Door Swing. Doors shall not swing into the clear floor space or clearance for any fixture. EXCEPTION: Where the room is for individual use and clear floor space complying with ANSI 305.3 is provided within the room beyond the arc of the door swing. (1) Type B unit toilet and bathing faciilites - BC (Option 'A' as per ANSI & FHA): All such toilet and bathing facilities shall comply with Appendix P and ANSI 1004.11.3.1. FHA: Within each toilet and bathing facility all fixtures in those bathrooms must be usable. (2) Type A unit toilet and bathing facilities - BC exception & ANSI: At least one toilet and bathing facility in the dwelling or sleeping unit is constructed in accordance with requirements of ANSI 1003.11 & 1003.3.2. ANSI 1003.3.2 Turning Space. A turning space complying with ANSI 304 shall be provided. All other toilet and bathing facilities shall comply with ANSI 1004.3, 1004.4, 1004.9 (refer to DWELLING UNIT REQUIREMENTS: ADAPTABLE UNITS on this sheet) and 1004.11.2 (see below). BC P102.4 & ANSI 1004.11.1 Knee and toe clearance. Refer to ANSI 603.2.2 & 603.2.3 on this sheet. Clear floor space at fixtures shall be permitted to include knee and toe clearances complying with ANSI 306. -or- ANSI 1004.11.2 Reinforcements. Reinforcement shall be provided for future installation of grab bars and shower seats at water closets, bathtubs, and shower compartments. BC1107.2.2 & ANSI 1004.11.3 Toilet and bathing rooms provided shall comply with either: ANSI 604.1 General. Accessible water closets and compartments shall comply with ANSI 604. Compartments containing more than one plumbing fixture shall comply with ANSI 603. Wheelchair accessible compartments shall comply with ANSI 604.8. ANSI 604.2 Location. Refer to Fig. 604.3 on this sheet. ANSI 604.3 Clearance. ANSI 604.3.1 Size. Refer to Fig. 604.3 on this sheet. ANSI 604.3.2 Overlap. Required clearance around the water closet shall be permitted to overlap the water closet, grab bars, paper dispensers, sanitary napkin receptacles, coat hooks, shelves, accessible routes, clear floor space at other fixtures and the turning space. No other fixtures or obstructions shall be within the required water closet clearance. BC P102.8.3 & ANSI 604.5 Grab Bars. Refer to Fig. 604.5.1 & Fig. 604.5.2 on this sheet for locations. Grab bars shall comply with ANSI 609. Heights shall comply with ANSI 609.4. BC P102.8.5 & ANSI 604.6 Flush Controls. Flush controls shall be hand operated or automatic. Hand operated flush controls shall comply with ANSI 309. Flush controls shall be located on the open side of the water closet. (1) Type B - BC (Option 'A' - ANSI & FHA): BC P102.8.1, BC P102.8.2, & ANSI 1004.11.3.1.2 Refer to Fig. 1004.11.3.1.2 on this sheet for locations and clearances. Location and Clearance. (2) Type A - BC & ANSI: BC1107.2.2 & ANSI 1003.11 Refer to Fig. 1003.11.7 on this sheet for locations and clearances. BC P102.8.6 & ANSI 604.7 Dispensers. Refer to Fig. 604.7 on this sheet. BC P102.8.3 Grab Bars. Same as ACCESSIBLE requirements (refer to BC P102.8.3/ANSI 604.5 on this sheet). Grab bars are not required to be installed where reinforcement is installed for future installation of grab bars. Flush Controls and Dispensers. Same as ACCESSIBLE requirements (refer to BC P102.8.5/ANSI 604.6 & BC P102.8.6 / ANSI 604.7 on this sheet). ANSI 604.4 Height. Refer to Fig. 604.5.1 on this sheet. ANSI 605.2 Height. Refer to Fig. 605.2 on this sheet. Urinals shall be of the stall type or shall be of the wall hung type. ANSI 605.3 Clear Floor Space. A clear floor space complying with ANSI 305, positioned for forward approach. ANSI 605.4 Flush Controls. Flush controls shall be hand operated, complying with ANSI 309, or automatic. ANSI 606.2 Clear Floor Space. A clear floor space complying with ANSI 305, positioned for forward approach. Knee and toe clearance complying with Section 306 shall be provided. The dip of the overflow shall not be considered in determining knee and toe clearance. ANSI 606.3 Height. Refer to Fig. 606.3 on this sheet.. ANSI 606.4 Faucets. Faucets shall comply with ANSI 309. Hand-operated metering faucets shall remain open for 10 seconds minimum. ANSI 606.6 Exposed Pipes and Surfaces. Water supply and drainpipes under lavatories and sinks shall be insulated or otherwise configured to protect against contact. ANSI 606.7 Operable Parts. Operable parts on towel dispensers and hand dryers shall comply with Table 606.7. BC P102.6 Lavatory. Lavatories shall comply with ANSI 606 (refer to Lavatories and Sinks: ACCESSIBLE section on this sheet). A clear floor space complying with ANSI 305.5, positioned for a parallel approach and centered on the lavatory shall be provided. Cabinetry shall be permitted under the lavatory: (1) provided it can be removed without removal or replacement of the lavatory (2) the finish floor extends under such cabinetry (3) the walls behind and surrounding cabinetry are finished 24 min (f) Latch Approaches-Pull Side122048 min*610 (g) Latch Approaches-Push Side 12 min* (e)Hinge Approach-Push Side 305 42 min**106522 min 56042 min (d) Hinge Approach-Pull Side137054 min1065 36 min (c) Hinge Approach-Pull Side152560 min91548 min12*1220305 (b) Front Approach-Push Side 18 min (a) Front Approach-Pull Side152560 min445 * If both closer and latch are provided * If both closer and latch are provided ** 48 min (1220) if both closer and * 54 min (1370) if closer is provided * 48 min (1220) if closer is provided latch provided Fig. 404.2.3.1 Maneuvering Clearances at Manual Swinging Doors 610 24 min 42 min*1065(a) Interior hinged doors: 5.0 lbf (22.2 N) (b) Sliding and Folding doors: 5.0 lbf (22.2 N) ANSI 404.2.4 Thresholds at Doorways. Thresholds at doorways shall be 1/2 in (13mm) maximum in height. Raised thresholds and changes in level at doorways shall comply with ANSI 302 & 303. ANSI 404.2.5 Two Doors in Series. The minimum space between two hinged or pivoted doors in series shall be 48 in (1220 mm) plus the width of any door swinging into the space. The space between the doors shall provide a turning space complying with ANSI 304. (see Fig. 404.2.5) ANSI 404.2.6 Door Hardware. Handles, pulls, latches, locks, and other operable parts on accessible doors shall have a shape that is easy to grasp with one hand and does not require tight grasping, pinching, or twisting of the wrist to operate. Operable parts of such hardware shall be 34 inches (865mm) minimum and 48" inches (1220mm) maximum above the floor. Where sliding doors are in fully open position, operating hardware shall be exposed and usable from both sides. EXCEPTION: Locks used only for security purposes and not used for normal operation are permitted in any location ANSI 404.2.7 Closing Speed. ANSI404.2.7.1 Door Closers. Closers shall be adjusted so that from an open position of 90 degrees, the time required to move the door to an open position of 12 degrees shall be 5 seconds minimum. ANSI 404.2.7.2 Spring Hinges. Door spring hinges shall be adjusted so that from the open position of 70 degrees, the door shall move to the closed position in 1.5 seconds minimum. ANSI 404.2.8 Door-Opening Force. The maximum force, expressed in pounds-force (lbf) and newtons (N), for pushing or pulling open a door shall be as follows: (1) Fire doors shall have the minimum opening force allowable by the appropriate administrative authority. (2) Other doors: These forces do not apply to the force required to retract latch bolts or disengage other devices that may hold the door in closed position. ANSI 404.3 Automatic Doors. If an automatic door is used, it shall comply with ANSI / BHMA A156.10 listed in ANSI 105.2.4. Power-assist and low-energy doors shall comply with ANSI / BHMA A156.19 listed in ANSI 105.2.3. 32 min32 min (a) Hinged Door (b) Sliding Door >24(d) Maximum Doorway Depth 815 32 min 36 min 815 610915 (c) Folding Door 815 90°(b) Pocket or Hinge Approach 42 min1065(a) Front Approach 122048 min22 min 560 (e) Stop or Latch Approach42 min106524 min 610 Fig. 404.2.3.4 Maneuvering Clearances at Recessed Doors 18 min (a) Front Approach-Pull Side152560 min445 X>8 205 Fig. 404.2.2 Clear Doorway Width and Depth Fig. 404.2.3.2 Maneuvering Clearances at Sliding and Folding Door (c) Front Approach-Push Side with Both Closer and Latch48 min122012 min 305 X>8 20548 min1220(b) Front Approach-Push Side X>8 205 60 min 1525 60 min1525(a) Fig. 404.2.5 Two Doors in a Series Door WidthDoor Width 48 min 1220 60 min1525(b) 48 min 1220 Door Width 60 min1525(c) ANSI 404.1 General. Doors to accessible spaces and elements and along accessible routes shall comply with the requirements of ANSI 404. ANSI 404.2.1 Double-Leaf Doors and Gates. If doorways have two independently operated door leaves, then at least one leaf shall meet the specifications in ANSI 404.2.2 & 404.2.3. That leaf shall be an active leaf. ANSI 404.2.2 Clear Width. Doorways intended for user passage shall have a minimum clear opening of 32 in (815 mm) with the door open 90 degrees, measured between the face of the door and the stop (see Fig. 404.2.2 (a), (b), and (c)). Opening more than 24 in (610mm) in depth shall comply with 404.2.2 (see Fig. 404.2.2 (d)). ANSI 404.2.3 Maneuvering Clearances at Doors. Minimum maneuvering clearances at doors that are not automatic shall comply as shown in Fig. 404.2.3.1, 404.2.3.2., and 404.2.3.4. The floor or ground area within the required clearances shall be level and clear. XX Fig. 505.10.2 Top Handrail Extensions at Stairs Fig. 505.10.3 Bottom Handrail Extensions at Stairs 12 min 305 X = tread depth34-38865-965Fig. 505.4 (a) Handrail Height 12 min 305 12 min 305 Fig. 505.10.1 Top and Bottom Handrail Extensions at Ramps34-38865-965Fig. 505.4 (b) Handrail Height Fig. 505.5 Handrail Clearance 38 1 1/2 min 32-51 1 1/4 - 2 Fig. 505.7 Handrail Cross Section 100-160 57 2 1/4 max (b)(c) 4 - 6 1/2 perimeter Fig. 606.3 Height of Lavatories and Sinks 34 max86540 max101527 min6858 min 205 9 min 23017-25 430-635 11 min 280 permitted to be reduced at a rate: 1 in. for each 6 in. in height medicine cabinet 35 in. max if not located above lavatory, sink, or counter shelf = 44 maxBC P102.7ANSI 609 Grab Bars. BC1009.11.4 & ANSI 505.3 Continuity. Handrails shall be continuous within the full length of each stair flight or ramp run. Inside handrails on switchback or dogleg stairs or ramps shall be continuous between flights or runs. Other handrails shall comply with ANSI 505.10 & 307. Refer to BC1009.11.4 for listed exceptions. BC1009.11.1 & ANSI 505.4 Height. Top of gripping surfaces of handrails shall be 34 in. (865 mm) min and 38 in. (965 mm) max vertically above stair nosings, ramp surfaces, and walking surfaces; handrails shall remain at a consistent height. BC1109.11.6 & ANSI 505.5 Clearance. Clearance between handrail gripping surface and adjacent surfaces shall be 1-1/2 in. (38 mm) min. BC1009.11.3 & ANSI 505.7 Cross Section. Handrails shall have a cross section complying with ANSI 505.7.1 or 505.7.2. Edges shall have a min. radius of 0.01 in (0.25mm). ANSI 505.7.1 Circular Cross Section. Handrails with a circular cross section shall have an outside diameter of 1-1/4 in. (32 mm) min and 2 in. (51 mm) max. ANSI 505.7.2 Noncircular Cross Sections. Handrails with a noncircular cross section shall have a perimeter dimension of 4 in. (100 mm) min and 6-1/4 in. (160 mm) max, and a cross-section dimension of 2-1/4 in (57 mm) max. ANSI 505.8 Surfaces. Handrails, and any wall or other surfaces adjacent to them, shall be free of any sharp or abrasive elements. Edges shall be rounded. BC1009.11.5 & ANSI 505.10 Handrail Extensions. Handrails shall extend beyond and in the same direction of stair flights and ramp runs in accordance with ANSI 505.10. EXCEPTIONS: (1) Continuous handrails at the inside turn of stairs and ramps. (2) Extensions not required for handrails in aisles serving seating where handrails are discontinuous. (3) In alterations, full extensions of handrails shall not be required where such extensions would be hazardous due to plan configuration. ANSI 505.10.1 Top and Bottom Extension at Ramps. Ramp handrails shall extend horizontally above the landing 12 in. (305 mm) min beyond the top and bottom of ramp runs. Extensions shall return to a wall, guard, or floor, or shall be continuous to the handrail of an adjacent ramp run. ANSI 505.10.2 Top Extension at Stairs. At the top of a stair flight, handrails shall extend horizontally above the landing for 12 in. (305 mm) min beginning directly above the landing nosing. Extensions shall return to a wall, guard, or the landing surface, or shall be continuous to the handrail of an adjacent stair flight. ANSI 505.10.3 Bottom Extension at Stairs. At the bottom of a stair flight, handrails shall extend at the slope of the stair flight for a horizontal distance equal to one tread depth beyond the bottom tread nosing. Extensions shall return to a wall, guard, or the landing surface, or shall be continuous to the handrail of an adjacent stair flight. ANSI 609.1 General. Grab bars in accessible toilet or bathing facilities shall comply with ANSI 609. ANSI 609.2 Cross Section. Grab bars shall have a cross section complying with ANSI 609.2.1 or 609.2.2. ANSI 609.2.1 Circular Cross Section. Grab bars with a circular cross section shall have an outside diameter of 1-1/4 in. (32 mm) min and 2 in. (51 mm) max. ANSI 609.2.2 Noncircular Cross Sections. Grab bars with a noncircular cross section shall have a cross section dimension of 2 in. (51 mm) max, and a perimeter dimension of 4 in. (102 mm) min and 4.8 in. (122 mm) max. ANSI 609.3 Spacing. The space between the wall and the grab bar shall be 1 1/2 in. (38 mm). The space between the grab bar and projecting objects below and at the ends of the grab bar shall be 1 1/2 in. (38 mm) min. The space between the grab bar and projecting objects above the grab bar shall be 12 in. (305 mm) min. EXCEPTIONS: (1) Space between grab bars and shower controls, shower fittings, and other grab bars shall be permitted to be 1 1/2 in. (38 mm) min. (2) Swing-up grab bars shall not be required to comply with ANSI 609.3. ANSI 609.4 Position of Grab Bars. Grab bars shall be installed in a horizontal position, 33 in. (840 mm) min and 36 in. (915 mm) max above the floor measured to the top of the gripping surface. EXCEPTIONS: (1) The lower grab bar on the back wall of a bathtub required by ANSI 607.4.1.1 or 607.4.2.1. (2) Vertical grab bars required by ANSI 604.5.1, 607.4.1.2.2, 607.4.2.2.2, & 608.3.1.2. (c) Forward Approach Fig. 1004.11.3.1.2 Water Closet Location and Clearances (Type B) 48 min 1220 142056 min455 18 min 167566 minLAV 18 min (b) Parallel Approach 455 'NYCBC' Fig. 1003.11.7 Water Closet Location and Clearances (Type A) 60 min 1525 142056 min405-455 16-18 min 167566 minLAV 18 min 455 (b) Minimum Clearance (c) Clearance with Lavatory (Overlap Exception) lavatory complying with ANSI 1003.11.5 Fig. 604.5.1 Side Wall Grab Bar for Water Closet 17-19 54 min 12 max 305 1370 430-485 33-3639-41840-915990-104042 min* 1065 18min39-41 990-1040 455*18 (455) allowed in Type B Note: Only reinforcing needs to be provided for adaptable bathrooms.Fig. 604.3 Size of Clearance for Water Closet at Accessible Bathrooms 60 min 1525 142056 minSPACECLEAR FLOOR 405-455 16-18 Fig. 604.2 Water Closet Location LAV 17 max(a) Wall Hung Type430 (b) Stall Type FloorReceptacle Fig. 605.2 Height of Urinals Fig. 604.7 Dispenser Location1.5 min3815-19380-483(a) Below Grab Bar (b) Above Grab Bar 7-9 180-230 12min30548 max12207-9 180-230 Fig. 604.5.2 Rear Wall Grab Bar for Water Closet 24 min 36 min** 610 12 min 305 915 33-36840-915**24 (610) allowed in Type B Note: Only reinforcing needs to be provided for adaptable bathrooms. 38 1 1/2 min 32-51 1 1/4 - 2 Fig. 609.2 Size of Grab Bars 100-120 51 2 max (b)(c) 4 - 4.8 perimeter (a) 1 1/2 min3812 min3051 1/2 min38760 (a) Forward 30 (b) Parallel 3048 122048 7601220Fig. 305.5 Position of Clear Floor Space Fig. 305.3 Size of Clear Floor Space 760 30 4812201525 60 min915 60 min (a) Circular 36 min (b) T-Shaped 60 min 36 min60 min91515251525 305 1525Fig. 304.3 Size of Turning Space 12 min 12 min 305 24 min61048 min36 min 915X>24x>610(a) Forward Approach 60 min 30 min1525X>15X>380(b) Parallel Approach1220 Fig. 305.7 Maneuvering Clearance in an Alcove 7606 max 150 9 230 (a) Elevation Fig. 306.2 Toe Clearance 30 min76017-25 430-635 (b) Plan 8 min 205 9 min 230 (a) Elevation Fig. 306.3 Toe Clearance 30 min76025 max 635 (b) Plan27 min68511 min 280 710-915 36 28-36 916 Fig. 104.2 Convention Graphic Conventions for Figures Description Convention Description 6 150 LC Typical dimension line showing U.S. customary units (in inches) above the line and SI units (in millimeters) below Dimension for small measurements Dimension line showing range of with minimum - maximum Direction of approach Centerline 48 min30 min(a) Forward Approach 48 min 1220760 30 min (b) Parallel Approach1220NOT TO EXCEED FIXTURE DEPTH 760 380 15 min1255 max 89 3-1/2 max Fig. 602.5 Drinking Fountain Spout Location 2010 BUILDING CODE OF NEW YORK STATE & ICC/ANSI A117.1-2009 A-002.00 DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # --11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu --01.04.2016 100% CONSTRUCTION DOCUMENTS INTERIOR PARTITION WALL SOUND BATT INSULATION INTERIOR FRAMING INSULATION FINISH BASE 3 5/8" METAL STUDS SOUND ATTENUATION BATTS 5/8" PTD GWB VINYL BASE TO MATCH EXISTING INTERIOR PTD 5/8" GWB SEALANT 3 5/8" METAL STUD @ 16" OC BASEPLANHEAD1 PTD 5/8" GWB SEALANT 3 5/8" METAL STUD TRACK 3 5/8" METAL STUD TRACK VINYL BASE TO MATCH EXISTING VINYL BASE TO MATCH EXISTING PARTITION TYPES DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # --11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu --01.04.2016 100% CONSTRUCTION DOCUMENTS KEY PLAN A-100.00 UP DN UP DN DN UP 7643251 A B C D E F F8 G SIXTH FLOOR Scale: 1/16" = 1'-0"01 AREA OF WORK DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # --11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu --01.04.2016 100% CONSTRUCTION DOCUMENTS SIXTH FLOOR DEMOLITION PLAN A-101.00 651 653 653A 655 REMOVE EXG DOOR, FRAME +HARDWARE AND STORE FOR REUSE EXISTING RADIATORS, NO CHANGE 601 602 604 603 EXISTING DOOR, NO CHANGE EXISTING DOOR, NO CHANGE EXISTING RAISED FLOOR TO REMAIN, MODIFY AS REQUIRED FOR NEW WALL CONFIGURATION AND FLOOR OUTLETS EXISTING ENTRY DOOR NO CHANGE MODIFY FLOOR TILES AS REQUIRED AND/OR REPLACE WITH EXISTING FLOOR TILES IN STORAGE 653 REMOVE EXG PARTITION WALL CONTRACTOR TO INSTALL TEMPORARY PROTECTION WALL E F F8 G 22'-8"14'-4 5/16"4'-1 7/8"1'-7 5/8"22'-8"22'-8"18'-6 3/16"1'-7 5/8" 4321 SIXTH FLOOR DEMOLITION PLAN Scale: 1/4"=1'-0"01 LEGEND SYMBOL DESCRIPTION ELEMENT TO BE DEMOLISHED OR REMOVED EXISTING WALL GENERAL NOTES: 1. PRIOR TO COMMENCING ANY WORK, CONTRACTOR TO PROTECT AND SEAL SITE SO AS NOT TO CAUSE DAMAGE TO ADJACENT SPACES. SEE PROJECT MANUAL AND SPECIFICATIONS FOR TEMPORARY PROTECTION REQUIRMENTS. 2. CONTRACTOR TO REFER TO MECHANICAL, PLUMBING, FIRE PROTECTION AND ELECTRICAL DRAWINGS AND NOTES FOR FURTHER DETAILS ON AREAS OF DEMOLITION. 3. FOR ANY WORK DONE AT FIRE RATED WALLS AND EGRESS ENCLOSURE, CONTRACTOR TO INSTALL TEMPORARY FIRE RATED ENCLOSURE. REUSE OF EXISTING MATERIAL NOTE: 1. ALL EXISTING FLOOR TILES TO EITHER REMAIN OR BE REMOVED, MODIFIED AND STORED FOR RE-USE. THOSE REMAINING IN PLACE TO BE PROTECTED FROM DAMAGE. EXISTING FLOOR TILE AND CEILING NOTE: 1. REMOVAL AND RE-USE OF EXISTING FLOOR AND TILE INDICATED ON DRAWING SHOULD NOT BE CONSIDERED COMPREHENSIVE. CONTRACTOR SHOULD REVIEW EXISTING CONDITIONS TO ASSESS AREAS TO BE RE-USED AND PATCHED. DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # --11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu --01.04.2016 100% CONSTRUCTION DOCUMENTS SIXTH FLOOR DEMOLITION RCP A-102.00 651 653 653A 655 SH SH SH SH SH SHSH SH SH REMOVE EXISTING CEILING TILES @ EXISTING WALLTO BE REMOVED REMOVE CEILING TILES AS REQUIRED TO COORDINATE WITH NEW MEP AND FP WORK, SEE MEP AND FP DWGS DISCONNECT AND REMOVE LIGHT FIXTURE AND STORE FOR REUSE, SEE ELEC DWGS REMOVE AND/OR RELOCATE EXISTING SPRINKLERS AS REQUIRED, SEE FP DWGS CONTRACTOR TO INSTALL TEMPORARY PROTECTION WALL 653 E F F8 G 22'-8"14'-4 5/16"4'-1 7/8"1'-7 5/8"22'-8"22'-8"18'-6 3/16"1'-7 5/8" 4321 SIXTH FLOOR DEMOLITION RCP Scale: 1/4"=1'-0"01 FIXTURE LEGEND TYPESYMBOL DESCRIPTION 24" x 48" RECESSED LIGHT TO REMAIN SH SMOKE + HEAT DETECTOR SPRINKLER CEILING MOUNTEDGRILLE 24" x 48" RECESSED LIGHT TO BE REMOVED AND/OR RELOCATED GENERAL NOTES: 1. CONTRACTOR TO REFER TO MECHANICAL, PLUMBING, FIRE PROTECTION AND ELECTRICAL DRAWINGS AND NOTES FOR FURTHER DETAILS ON AREAS OF DEMOLITION. IF ANY DISCREPANCIES BETWEEN A-102.00 AND MEP AND FP EXIST, THE MEP AND FP DRAWINGS SHALL BE FOLLOWED AND CONTRACTOR SHALL NOTIFY ARCHITECT IMMEDIATELY. 2. PRIOR TO COMMENCING ANY WORK, CONTRACTOR TO PROTECT AND SEAL SITE SO AS NOT TO CAUSE DAMAGE TO ADJACENT SPACES. SEE PROJECT MANUAL AND SPECIFICATIONS FOR TEMPORARY PROTECTION REQUIRMENTS. 3. ALL EXISTING CEILING TILES AND LIGHT FIXTURES TO EITHER REMAIN OR BE REMOVED, MODIFIED AND STORED FOR RE-USE. THOSE REMAINING IN PLACE TO BE PROTECTED FROM DAMAGE. DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # --11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu --01.04.2016 100% CONSTRUCTION DOCUMENTS SIXTH FLOOR PROPOSED PLAN A-201.00 653 653A 655 RELOCATION OF DOOR NEW PARTITION EXISTING RADIATORS, NO CHANGE 601 602 604 EXISTING DOOR, NO CHANGE EXISTING DOOR, NO CHANGE EXISTING ENTRY DOOR NO CHANGE 651 603 1EXISTING RAISED FLOOR TO REMAIN, MODIFY AS REQUIRED FOR NEW WALL CONFIGURATION AND FLOOR OUTLETS 653 E F F8 G 22'-8"14'-4 5/16"4'-1 7/8"1'-7 5/8"22'-8"22'-8"18'-6 3/16"1'-7 5/8" 4321 SIXTH FLOOR PROPOSED PLAN Scale: 1/4"=1'-0"01 LEGEND SYMBOL DESCRIPTION NEW WALL GENERAL NOTES: 1. ALL DIMENSIONS ARE TO FRAMING UNLESS OTHERWISE NOTED. 2. EXISTING RAISED FLOOR: CONTRACTOR TO RE-USE EXISTING RAISED FLOOR TILE. WHERE TILE HAS BEEN DAMAGED OR MODIFIED, CONTRACTOR TO REMOVE AND REPLACE WITH EXISTING FLOOR TILE IN STORAGE. CONTRACTOR TO COORDINATE WITH OWNER ANY / ALL NEW FLOOR TILES. 3. EXISTING CEILING TILE: CONTRACTOR TO RE-USE EXISTING CEILING TILE. WHERE TILE HAS BEEN DAMAGED OR MODIFIED, CONTRACTOR TO REMOVE AND REPLACE WITH EXISTING CEILING TILE IN STORAGE. CONTRACTOR TO COORDINATE WITH OWNER ANY / ALL NEW CEILING TILES. EXISTING WALL FINISH SCHEDULE ROOM #FLOOR WALLS CEILING BASE 651 EXISTING FLOOR TILE. REMOVE AND REPLACE AS NOTED PATCH AND PAINT EXISTING EXISTING CEILING TILE. REMOVE AND REPLACE AS NOTED EXISTING VINYL BASE TO REMAIN. REPLACE TO MATCH EXISTING AS REQUIRED 653A EXISTING FLOOR TILE. REMOVE AND REPLACE AS NOTED PATCH AND PAINT EXISTING EXISTING CEILING TILE. REMOVE AND REPLACE AS NOTED EXISTING TO REMAIN DOOR SCHEDULE DOOR #ROOM #TYPE FINISH NOTES 601 563A EXISING DOOR, FRAME AND HARDWARE PATCH AND PAINT EXISTING 602 563A EXISTING DOOR, FRAME AND HARDWARE PATCH AND PAINT EXISTING 603 561 EXISTING DOOR, FRAME AND HARDWARE RELOCATED PATCH AND PAINT IN RELOCATION REMOVE DOOR, FRAME AND HARDWARE. STORE AND PROTECT FOR RE-USE, AS NOTED 503 561 EXISTING DOOR, FRAME AND HARDWARE PATCH AND PAINT EXISTING DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # --11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu --01.04.2016 100% CONSTRUCTION DOCUMENTS SIXTH FLOOR RCP A-601.00 651 653653A 655 SH SH SH SH SH SHSH OS OS OS OS SH SH RELOCATED LIGHT FIXTURES 653 NEW / RE-USED CEILING TILES E F F8 G 22'-8"14'-4 5/16"4'-1 7/8"1'-7 5/8"22'-8"22'-8"18'-6 3/16"1'-7 5/8" 4321 SIXTH FLOOR RCP Scale: 1/4"=1'-0"01 FIXTURE LEGEND TYPESYMBOL DESCRIPTION SC SECURITY CAMERA 24" x 48" RECESSED LIGHT SH SMOKE + HEAT DETECTOR SPRINKLER CEILING MOUNTED SIMPLEX RECEPTACLE OS CEILING OCCUPANCY SENSOR CEILING MOUNTED GRILLE 1. ALL WORK REPRESENTED IN THESE DRAWINGS SHALL BE PERFORMED IN ACCORDANCE WITH ALL RELEVANT CODES. 2. REFER TO MEP AND FP DRAWINGS FOR ADDITIONAL INFORMATION. 3. CONTRACTOR TO REFER TO MECHANICAL, PLUMBING, FIRE PROTECTION AND ELECTRICAL DRAWINGS AND NOTES. IF ANY DISCREPANCIES BETWEEN A-102.00 AND MEP AND FP EXIST, THE MEP AND FP DRAWINGS SHALL BE FOLLOWED AND CONTRACTOR SHALL NOTIFY ARCHITECT IMMEDIATELY. GENERAL NOTES NEW / RE-USED CEILING TILE LEGENDS, SYMBOLS, AND ABBREVIATIONS H-001.00 DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # -- 11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu -- 01.04.2016 100% CONSTRUCTION DOCUMENTS SYMBOL DESCRIPTION SINGLE ROW EQUIPMENT TAG DIFFUSER, REGISTER, GRILLE TAG NECK SIZE FACE SIZE FLOW SYMBOL DESCRIPTION LINE WEIGHT OF EXISTING EQUIPMENT, DUCTWORK AND PIPING LINE WEIGHT OF EQUIPMENT, DUCTWORK AND PIPING TO BE PROVIDED LINE WEIGHT OF EQUIPMENT, DUCTWORK AND PIPING TO BE REMOVED CHILLED WATER SUPPLY CHILLED WATER RETURN CWS CWR ABBREVIATION DEFINITION BTU BRITISH THERMAL UNIT CFM CUBIC FEET PER MINUTE CWS CHILLED WATER SUPPLY CWR CHILLED WATER RETURN DB DRY BULB TEMPERATURE EAT ENTERING AIR TEMPERATURE EDH ELECTRIC DUCT HEATER ESP EXTERNAL STATIC PRESSURE °F/DEG F DEGREES FAHRENHEIT FLA FULL LOAD AMPS FPM FEET PER MINUTE HP HORSEPOWER LAT LEAVING AIR TEMPERATURE MAX MAXIMUM MBH THOUSANDS OF BTU MIN MINIMUM NC NOISE CRITERIA OA OUTSIDE AIR RA RETURN AIR SA SUPPLY AIR TYP TYPICAL, TYPICAL OF VAV VARIABLE AIR VOLUME VD VOLUME DAMPER SYMBOL DESCRIPTION ROUND DUCT SIZE RECTANGULAR DUCT SIZE ROUND DUCT 45° ELBOW ROUND DUCT 90° ELBOW SUPPLY AIR DUCT UP SUPPLY AIR DUCT DOWN EXHAUST OR RETURN AIR DUCT UP EXHAUST OR RETURN AIR DUCT DOWN ROUND DUCT UP ROUND DUCT DOWN RECTANGULAR SUPPLY BRANCH RECTANGULAR TO ROUND BRANCH RECTANGULAR TO RECTANGULAR TRANSITION RECTANGULAR TO RECTANGULAR TRANSITION RECTANGULAR TO ROUND TRANSITION STANDARD RADIUS ELBOW VOLUME DAMPER, MANUAL SUPPLY DIFFUSER RETURN/EXHAUST REGISTER/GRILLE SYMBOL DESCRIPTION POINT OF CONNECTION/DISCONNECTION BALL VALVE PIPE DOWN, ELBOW FITTING PIPE UP, ELBOW FITTING PIPE CONNECTION BOTTOM, TEE FITTING PIPE CONNECTION TOP, TEE FITTING PIPE CAP THERMOSTAT DIRECTION OF FLOW, PIPING DIRECTION OF FLOW, DUCTWORK 24x8 20x838x1012Ø 36x1224x12 36x10 SA 50x14 RA REMOVE EXIST T-STAT (TYP 2) 1 2 3 4 5 1 VD VD16x616x616x616x616x6 16x6EXIST PERIMETER FIN TUBE TO REMAIN 3" CWS3" CWR5 2" CWS/R DISCONNECT AND REMOVE EXIST T-STAT. REFER TO 1/H-201.00 FOR RELOCATION 1 H-101.00 SCALE: 6TH FLOOR REMOVAL PLAN 1/4" = 1'-0" SIXTH FLOOR MECHANICAL REMOVAL PLAN H-101.00 REMOVE EXISTING LIEBERT UNIT AND ASSOCIATED PIPING. REMOVE EXISTING FAN AND ASSOCIATED HANGERS AND SUPPORTS. DISCONNECT AND REMOVE EXISTING PNEUMATIC DAMPER. DISCONNECT AND REMOVE EXISTING SUPPLY AIR DUCTWORK, ASSOCIATED HANGERS. CAP EXISTING DUCTWORK TO REMAIN. DISCONNECT AND REMOVE EXISTING CHILLED WATER SUPPLY AND RETURN PIPING FROM LIEBERT UNIT, TO POINT OF DISCONNECT. 1 2 3 4 5 DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # -- 11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu -- 01.04.2016 100% CONSTRUCTION DOCUMENTS SCALE: 1/4" = 1'-0" 2' 4'0 8' 24x8 20x838x10 24x12 36x10 SA 50x14 RA VD VD VD 24x12 14Ø14Ø 16x616x616x616x616x616x6EXIST PERIMETER FIN TUBE 2" CWS/R 1 1 3 2 3" CWS3" CWR4 INSTALL RELOCATED EXIST T-STAT TITUS OMNI-AA 300 CFM TITUS OMNI-AA 300 CFM TITUS OMNI-AA 300 CFM 5 5 5 5 5 5 VD VD 8Ø 8Ø8Ø8Ø24x121 H-201.00 SCALE: 6TH FLOOR PLAN 1/4" = 1'-0" SIXTH FLOOR MECHANICAL PLAN H-201.00 PROVIDE BYPASS PIPING BETWEEN EXISTING CHILLED WATER SUPPLY AND RETURN PIPING TO MATCH EXISTING SIZE. CONNECT NEW 14Ø SUPPLY AIR DUCTWORK TO EXISTING 36x10 SUPPLY AIR DUCTWORK. CONNECT NEW SUPPLY AIR DUCTWORK TO EXISTING 38x10 SUPPLY AIR DUCTWORK. ADJUST EXISTING VOLUME DAMPER TO 2100 CFM MAX. BALANCE EXISTING DIFFUSER TO 200 CFM. 1 2 3 4 5 VARIABLE AIR VOLUME BOX SCHEDULE GENERAL UNIT SIZE INFORMATION UNIT ELECTRICAL REQUIREMENTS UNIT INFORMATION LABEL SERVES INLET MAX MIN UNIT SERVICE CONNECTION MANUFACTURER MODEL NOTES SIZE CFM CFM VOLTS PHASE Hz FLA MCA IN RANGE RANGE VAV-1 ROOMS 651, 653, AND 653A 14" 2000 235 480 3 60 --- --- TRANE VCEF14 NOTES: DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # -- 11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu -- 01.04.2016 100% CONSTRUCTION DOCUMENTS ELECTRIC DUCT HEATER GENERAL UNIT SIZE INFORMATION UNIT ELECTRICAL REQUIREMENTS HEATING COIL INFORMATION UNIT INFORMATION LABEL SERVES INLET FLOW UNIT SERVICE CONNECTION TOTAL E.A.T. L.A.T. A.P.D. STAGES kW MANUFACTURER MODEL NOTES LENGTH HEIGHT CFM VOLTS PHASE Hz FLA MOP HEAT DB DB IN H2O IN IN MBH F F EDH-1 653, AND 653A 24 12 1200 480 3 60 7.2 20 20.4 55 72 0.04 1 6 GREENHECK IDHB 1, 2, 3 NOTES: 1. PROVIDE FACTORY DISCONNECT. 2. PROVIDE FACTORY T-STAT. 3. PROVIDE LEFT HAND OFFSET CONTROL BOX. SCALE: 1/4" = 1'-0" 2' 4'0 8' DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # -- 11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu -- 01.04.2016 100% CONSTRUCTION DOCUMENTS ELECTRICAL SCHEDULES AND LEGEND E-001.00 SYMBOL DESCRIPTION DUPLEX RECEPTACLE - MOUNT 18" TO TOP OF BOX, UON DOUBLE DUPLEX RECEPTACLE - MOUNT 18" TO TOP OF BOX, UON FOUR WAY SWITCH - MOUNT 48" TO TOP OF BOX SINGLE POLE SWITCH - MOUNT 48" TO TOP OF BOX THREE WAY SWITCH - MOUNT 48" TO TOP OF BOX CEILING MOUNT SIMPLEX RECEPTACLE JUNCTION BOX CEILING MOUNT OCCUPANCY SENSOR S 4 S S 3 SYMBOL DESCRIPTION DATA OUTLET (X) DENOTES NUMBER OF JACKS MOUNT 18" TO TOP OF BOX, UON SYMBOL DESCRIPTION AUDIBLE/VISUAL (XXcd DENOTES CANDELA) CEILING MOUNTED SMOKE AND HEAT COMBINATION DETECTOR V SH SYMBOL DESCRIPTION SURFACE-MOUNTED PANELBOARDS RECESSED PANELBOARDS ABBREVIATION DEFINITION Ø ELECTRICAL PHASE AFF ABOVE FINISHED FLOOR AMP AMPERAGE AWG AMERICAN WIRE GAUGE BKR BREAKER CKT CIRCUIT CU COPPER DISC DISCONNECT 'E' ELECTRICAL DRAWINGS EC ELECTRICAL CONTRACTOR EM EMERGENCY BALLAST EMER EMERGENCY FA FIRE ALARM GFI GROUND FAULT INTERRUPTER GND GROUND MFR MANUFACTURER NIC NOT IN CONTRACT OS OCCUPANCY SENSOR RECEPT. RECEPTACLE TYP TYPICAL SPEC SPECIFICATION SW SWITCH UON UNLESS OTHERWISE NOTED WP WEATHER PROOF XFMR TRANSFORMER #X CONDUIT / HOMERUN TO PANEL. #12 AWG UNLESS NOTED OTHERWISE. PROVIDE NEUTRAL AND GROUND UNLESS NOTED OTHERWISE.. #X INDICATES WIRE SIZE OTHER THAN #12 AWG. EXISTING TO REMAIN REMOVAL / EQUIPMENT TO BE RELOCATED ITEM TO BE PROVIDED CO CL (X) CL EQUIP. TAG SYMBOL DESCRIPTION MANUFACTURER CATALOG NO. LAMPS FIXTURE QTY.DESC. WATT VOLTAGE A EXISTING 24"x48" RECESSED LIGHT FIXTURE-THOROUGHLY CLEAN AND RELAMP FIXTURE. EXISTING - -3 32W, T8 96 277 3-WIRE 24VDC CEILING SENSOR S3 S3S4 TYPICAL 4-WAY SWITCHING WITH CEILING MOUNTED OCCUPANCY SENSORS TO ADDITIONAL AREA LIGHT FIXTURES TO ADDITIONAL AREA CEILING SENSORS TO ADDITIONAL AREA CEILING SENSORS TO ADDITIONAL AREA CEILING SENSORS TO ADDITIONAL AREA LIGHT FIXTURES S3 S3S4 TO ADDITIONAL AREA LIGHT FIXTURES TO ADDITIONAL AREA LIGHT FIXTURES 3-WIRE 24VDC CEILING SENSOR S3 S3 TYPICAL 3-WAY SWITCHING WITH CEILING MOUNTED OCCUPANCY SENSORS TO ADDITIONAL AREA LIGHT FIXTURES TO ADDITIONAL AREA CEILING SENSORS TO ADDITIONAL AREA CEILING SENSORS TO ADDITIONAL AREA CEILING SENSORS TO ADDITIONAL AREA LIGHT FIXTURES S3 S3 TO ADDITIONAL AREA LIGHT FIXTURES TO ADDITIONAL AREA LIGHT FIXTURES 1 E-001.00 SCALE: CEILING MOUNT OCCUPANCY SENSOR WIRING DIAGRAM N.T.S. 1 E-101.00 SCALE: REMOVAL 6TH FLOOR PLAN 1/4" = 1'-0" REMOVE DOOR BELL, CHIME, AND WIRING BACK TO SOURCE. EXISTING EMPTY FLOOR BOX OPENING IN RAISED FLOOR TO REMAIN. EXISTING FIBER PATCH PANEL WITH RACEWAY TO REMAIN. DISCONNECT AND REMOVE LIGHT FIXTURE AND STORE FOR REUSE. REMOVE CIRCUIT AND CONDUIT BACK TO SOURCE. DISCONNECT AND REMOVE LIGHT FIXTURE AND STORE FOR REUSE. TAG CIRCUIT FOR REUSE. EXISTING DATA OUTLET TO REMAIN. DISCONNECT AND REMOVE LIEBERT UNIT'S CIRCUIT AND CONDUIT BACK TO SOURCE. TAG CIRCUIT BREAKER AS "SPARE". COORDINATE WORK WITH HVAC CONTRACTOR. EXISTING DUPLEX RECEPTACLES THAT ARE INSTALLED UNDER RAISED FLOOR SYSTEM SHALL REMAIN. DISCONNECT AND REMOVE EXISTING SINGLE POLE SWITCH AND SWITCH LEG. RELOCATE EXISTING EMPTY FLOOR BOX OPENING AND FLOOR TILE. REFER TO DRAWING E-200.00 FOR PROPOSED LOCATION. REPLACE FLOOR TILE WITH THE TILE FROM THE PROPOSED LOCATION. DISCONNECT LIGHT FIXTURE FROM ROOM 653 LIGHTING CIRCUIT. REMOVE CIRCUIT BACK TO SOURCE. ROTATE LIGHT FIXTURE 90 DEGREES. REFER TO DRAWING E-201.00 FOR FURTHER INFORMATION. DISCONNECT AND REMOVE FAN'S CIRCUIT AND CONDUIT BACK TO SOURCE. TAG CIRCUIT BREAKER AS "SPARE". COORDINATE WORK WITH HVAC CONTRACTOR. REMOVE RECEPTACLE AND TAG CIRCUIT FOR REUSE. REMOVAL KEY NOTES: 1 2 3 4 5 6 7 8 9 10 11 12 13 1. THE EXISTING FIRE ALARM SYSTEM AND ZONES TO REMAIN. 2. THE EXISTING LIGHTING AND SWITCHING TO REMAIN, UON. 3. DISCONNECT AND REMOVE ALL DEVICES SHOWN TO BE REMOVED (DASHED LINE TYPE). REMOVE ALL ASSOCIATED SURFACE RACEWAY BACK TO SOURCE. 4. LEGALLY DISPOSE OF ALL ELECTRICAL WIRING DEVICES, BALLASTS, LAMPS, ETC. FOLLOW ALL LOCAL, STATE, AND FEDERAL REGULATIONS REGARDING DISPOSAL. 5. WHERE EXISTING BRANCH CIRCUITING IS TAGGED FOR RE-USE THE ELECTRICAL CONTRACTOR SHALL RE-SUPPORT, MODIFY, OR REPAIR AS NEEDED TO ENSURE COMPLIANCE WITH ALL NEC REQUIREMENTS. 6. WHERE EXISTING DEVICES ARE BEING REMOVED AND THE REMOVAL BREAKS AN EXISTING BRANCH CIRCUIT TO A DOWN STREAM DEVICE THE ELECTRICAL CONTRACTOR SHALL PROVIDE ALL CIRCUITING REQUIRED TO PERMANENTLY RE-CONNECT THE REMAINING DEVICES, EQUIPMENT, OR FIXTURES. REMOVAL 6TH FLOOR PLAN E-101.00 DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # -- 11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu -- 01.04.2016 100% CONSTRUCTION DOCUMENTS SCALE: 1/4" = 1'-0" 2' 4'0 8' 1 E-201.00 SCALE: 6TH FLOOR ELECTRICAL PLAN 1/4" = 1'-0" DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # --11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu --01.04.2016 100% CONSTRUCTION DOCUMENTS 6TH FLOOR ELECTRICAL PLAN E-201.00 REINSTALL LIGHT FIXTURE STORED FOR REUSE DURING REMOVAL. CONNECT TO ROOM'S EXISTING LIGHTING CIRCUIT (INBOARD/OUTBOARD SWITCHING) EXTEND EXISTING CIRCUIT AND CONDUIT AS NECESSARY. REFER TO DETAIL 1/E-001.00 FOR WIRING DIAGRAM. THOROUGHLY CLEAN AND RELAMP FIXTURE. PROVIDE ROOM WITH 3-WAY SWITCHING AND CEILING MOUNT OCCUPANCY SENSOR. REFER TO DETAIL 1/E-001.00 FOR WIRING DIAGRAM. EXISTING LIGHT FIXTURES TO REMAIN. THOROUGHLY CLEAN AND RELAMP FIXTURE. PROVIDE CEILING MOUNT OCCUPANCY SENSOR. TIE INTO ROOM'S EXISTING INBOARD/OUTBOARD SWITCHING. REFER TO DETAIL 1/E-001.00 FOR WIRING DIAGRAM. INSTALL EMPTY RAISED FLOOR BOX OPENING AND FLOOR TILE CALLED FOR RELOCATION DURING REMOVAL. COORDINATE LOCATION WITH OWNER PROVIDED FURNITURE. PROVIDE RAISED FLOOR BOX WITH (1) DOUBLE DUPLEX RECEPTACLE AND (3) DATA JACKS. TIE INTO EXISTING 120V RECEPTACLE CIRCUIT INSTALLED UNDER RAISED FLOOR SYSTEM. EXTEND (2) #12 AWG, #12CU GND IN 3/4" FMC TO FLOOR BOX RECEPTACLES. PROVIDE PLENUM RATED CAT6 CABLES ABOVE ACT CEILING IN ROOM 651 DOWN COLUMN WALL CAVITY AND UNDER RAISED FLOOR SYSTEM TO FLOOR BOX. CONNECT LIGHT FIXTURE TO ROOM 651'S EXISTING LIGHTING CIRCUIT (INBOARD/OUTBOARD SWITCHING) EXTEND EXISTING CIRCUIT AND CONDUIT AS NECESSARY. REFER TO DETAIL 1/E-001.00 FOR WIRING DIAGRAM. THOROUGHLY CLEAN AND RELAMP FIXTURE. TIE INTO AND EXTEND EXISTING RECEPTACLE CIRCUIT TO OWNER PROVIDED FURNITURE. PROVIDE 3/4" FMC WITH (2) #12 AWG, #12 CU GND FROM EXISTING FLUSH MOUNT JUNCTION BOX TO FURNITURE CONNECTION. PROVIDE APPROPRIATE COVER FOR EXISTING FLUSH MOUNT JUNCTION BOX. COORDINATE LOCATION WITH OWNER PROVIDED FURNITURE. PROVIDE FLUSH MOUNT RECEPTACLE IN COLUMN GYP BOARD WALL. TIE INTO EXISTING 120V RECEPTACLE CIRCUIT INSTALLED UNDER RAISED FLOOR SYSTEM. EXTEND (2) #12 AWG, #12CU GND IN 3/4" FMC TO RECEPTACLE. PROVIDE RAISED FLOOR BOX WITH (3) DATA JACKS IN EXISTING RAISED FLOOR BOX OPENING. COORDINATE LOCATION WITH OWNER PROVIDED FURNITURE. PROVIDE RAISED FLOOR BOX WITH (2) DUPLEX RECEPTACLE AND (6) DATA JACKS. COORDINATE LOCATION WITH PROVIDE FURNITURE. PROVIDE 3/4" EMT WITH (2) #12 AWG, #12 CU GND FROM INDICATED "SPARE" 20A/1P CIRCUIT BREAKER IN PANEL UP-6B. PANEL UP-6B IS A 200A MCB, 208Y/120V, 3Ø, 4W, 22KAIC GE A SERIES PANELBOARD. PROVIDE RAISED FLOOR BOX WITH (2) DUPLEX RECEPTACLES IN EXISTING RAISED FLOOR BOX OPENING. RELOCATE FLOOR BOX TO SUITE PROVIDED FURNITURE. COORDINATE WORK IN DATA ROOM WITH OWNER'S "IT" PERSONNEL. PROVIDE PORT PATCH PANEL AS REQUIRED. PROVIDE 20A/3P CIRCUIT BREAKER IN SPACES 14/16/18 IN PANEL LP-6(1). PANEL LP-6(1) IS A 225A MLO, 480Y/277V, 3Ø, 4W, 14KAIC GE A SERIES PANELBOARD. CIRCUIT BREAKER TO MATCH MFR, MODEL, AND AIC RATING OF EXISTING CIRCUIT BREAKERS IN PANEL. PROVIDE 3/4" EMT WITH (3) #12 AWG, #12 CU GND FROM INDICATED 20A/3P CIRCUIT BREAKER IN PANEL LP-6(1). REFER TO KEY NOTE 16 THIS SHEET. TRANSITION TO 3/4" FMC FOR CONNECTION TO ELECTRIC DUCT HEATER EDH-1. RENOVATION KEY NOTES: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 1. PROVIDE UPDATED TYPED PANELBOARD SCHEDULES FOR ALL PANELS USED IN THIS RENOVATION. 2. INSTALL ALL CIRCUITING CONCEALED INSIDE WALL CAVITY WHERE EVER POSSIBLE. PROVIDE SHALLOW TYPE BACKBOXES AND SURFACE RACEWAY FOR SURFACE MOUNTED POWER AND SWITCHING APPLICATIONS LOCATED ON EXISTING SOLID WALL CONSTRUCTION. 3. THE DRAWINGS SHOW GENERAL LOCATIONS OF WIRING DEVICES. THE ELECTRICAL CONTRACTOR SHALL COORDINATE EXACT LOCATIONS WITH BUILDING TENANT PRIOR TO ROUGH-IN. 4. ALL PROPOSED CAT6 CABLES SHALL ORIGINATE FROM DATA ROOM AND INSTALLED IN EXISTING CABLE TRAY IN CORRIDOR. 5. SEAL AND FIREPROOF ALL PENETRATIONS INTO THE CORRIDOR TO MAINTAIN THE ROOMS EXISTING FIRE RATING. SCALE: 1/4" = 1'-0" 2' 4'0 8' MOTOR CONNECTION SCHEDULE LABEL DESCRIPTION H.P. (FLA) (MCA) CIRCUIT LOCATION VOLTAGE/ PHASE WIRE AND CONDUIT STARTER DISCONNECT NOTES ADDITIONAL REQUIREMENTS TYPE NEMA SIZE BY LOC. NEMA ENCL.AUX.BY LOC. NEMA ENCL. SWITCH SIZE EDH-1 ELECTRIC DUCT HEATER 7.2 (FLA) LP-6(1)-14/16/18 OFFICE 651 480/3 3/4" CONDUIT WITH (3) #12, #12 GND INTERGAL -- MFR AT UNIT -- -- MFR AT UNIT --20A 1 NOTES: 1 - MAKE CONNECTION TO EQUIPMENT 2 - PROVIDE DISCONNECT 3 - PROVIDE COMBINATION STARTER/DISCONNECT SWITCH 4 - PROVIDE NEMA 5-20R, 125V, 20A, 3W SINGLE RECEPTACLE STARTER AUX. A - START-STOP IN COVER B - HAND-OFF-AUTO IN COVER C - PILOT LIGHT IN COVER D - AUXILIARY CONTACTS 2-1/2"2-1/2"2-1/2"2-1/2"1-1/4"1"1"1"1"1"1"1-1/4"1-1/2"1"1-1/4"1" 1"1"1"1-1/4"2"2"2" 2"1" 1"1"1"1"DISCONNECT AND REMOVE EXIST SPRINKLER HEAD. 1 FP-101.00 SCALE: 6TH FLOOR REMOVAL PLAN 1/4" = 1'-0" SIXTH FLOOR FIRE PROTECTION REMOVAL PLAN FP-101.00 DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # -- 11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu -- 01.04.2016 100% CONSTRUCTION DOCUMENTS SCALE: 1/4" = 1'-0" 2' 4'0 8' PROVIDE NEW CONCEALED PENDANT SPRINKLER HEAD CENTERED WITHIN EXIST 2x2 CEILING GRID. CONNECT TO EXIST 1" SPRINKLER PIPE.2-1/2"2-1/2"2-1/2"2-1/2"1-1/4"1"1"1"1"1"1"1-1/4"1-1/2"1"1-1/4"1" 1"1"1"1-1/4"2"2"2" 2"1" 1"1"1"1"9'-0" MAX PER NFPA 8.6.3.2.41 FP-201.00 SCALE: 6TH FLOOR REMOVAL PLAN 1/4" = 1'-0" SIXTH FLOOR FIRE PROTECTION PLAN FP-201.00 DRAWING TITLE: ISSUE DATE: SCALE: RHODES HALL - SIXTH FLOOR Cornell Institute for Social and Economic Research PROJECT: PROJECT NO.: DRAWING NO.: ARCHITECT: LEVENBETTS 508 W 26 ST #317 New York, NY 10001 t 212 242 1414 levenbetts.com © 2016 LEVENBETTS These drawings and specifications including the design and arrangements represented herein are the property of LEVENBETTS. No part thereof shall be copied, disclosed to others, or used in conjunction with any work or project other than that for which they have been prepared without the express consent of LEVENBETTS. LEVENBETTS As Noted 1508 01.04.2016 # -- 11.25.2015 DATE REVISION DESIGN PHASE MEP/FP: DELTA ENGINEERS 860 Hooper Road Endwell, NY 13760 t 607.231.6600 f 607.231.6650 deltaengineers.com CLIENT: COLLEGE OF ENGINEERING Cornell University Rhodes Hall Ithaca, NY 14853 t 607 255 4326 engineering.cornell.edu -- 01.04.2016 100% CONSTRUCTION DOCUMENTS SCALE: 1/4" = 1'-0" 2' 4'0 8'