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JANUARY 16, 2014 PROJECT NO. 20752.02 Ex] 0 m ":Y:k•t • e:-eiiea:raFu: �sissz� m— zN)O a) C® Ms 0 " N' O CD • 8 z (Q CaD Cl1 —N. CD co CD ;ue;Insuoo apo 92. 0,)- . aa" 1""j" a ,1=4. aw 0) -0 cp CO 2,) ‘i< ha" 1 Ca 0 CU.. 0) 0 CSpc -0 1\3 Cp CD 01CDN o X 770 D o m HT1 °Zm 00 cp pin CD 5- N cp.. 0 CD ma CO CO CP Z - CD .. caxi cap - . o. N.) --‘ CD O - c son o� (1) r 00 1 0 01 r-4- rait- CDcp R x I -n ��i11111111M 0 0 1 70: CD n panssi amp 0 (r 0 N iagwnN }aafoid W 2 13 m0 m< 0 pi � r um O4) -I= ov) Ow 2- rn 2 m Q ON DRAWINGS. CONTRACTOR SHALL VERIFY LENGTHS 2. ARCHITECT SHALL INDICATED PENDANT LENGTH. M-11 n _1 G7 c rnm m O m -I -u D 0 z x0 r mm •� x cnc m m O H C� M o _ mD 0 �cn DD cnr m CO rn ✓ mD 0 z z Z O (.n V 301A08d 'Nni`I co m Jnr m m m 0 irn c 70 �mn r- r— :S3lON 31n03H3S 3i`Il1X13 x m r N 0' 0 N m VI3SVd 03A8f10 n 0311 101S 03SS3038 cn n (n D MN m oC -1n n m 0 z m 0 (/) r r z 0T1 m 0 -o 8' STANDARD PENDANT INDUSTRIAL STRIP in 0 (D E z 0 0C m z Zi 0 0 �L7 0 z n r 0 O z --i 0-1 0 N z 0) D INVGN3d 033 133 JI0/103810N1 ,r W � � 000 rm ca co (n 1 r - r 0 1H011NM00 1/11N3�1d 03SS3038 0-1 0 N 0) D 031 10 -IS 03SS3338 1117 D z Q X C H in �] _4N Orn z N O N 0 N 0 N O O C N 0 N 0 N 0 0 C C]3 0 r -Ir 0V) PROVIDE A 100/ RATED MAIN CIRCUIT BREAKER FOR PANELBOARD. :S3ION '.38 MK 00 MI r �- nCO M m z Cn 01 r 0 (n m m G) mo o mm r1 r-- rn� mm x (!) m P1 (n 0 0 m rr C7 CO mrn X Z 0) (n rn-115 0, Km om rnr (nm 0 m m CO (.71 (1) 0 0 N O 0 KD ox m0 (n Km 0m mr zrn I 0 X 0 1 0 0 0 N 0 C () C7 0) m m� O XlZ m o> 0 XI r0 :(7 (n rn m (n OC 0M O m z -i rn z Mum MMm c m mr- 07-1 r 0 -1 0S m0 Z NiD (n 0 (n rn m (n M030 d01 00z nmr �m I c (n O 1 0 W 01 O 0 1 N 0 E m 8V313 3N01 ASV3 T1 02 0m mr r= 2 m I X (n O 1 W 01 0 0 N 0 (n n fn m M r 71 rc/ Lm J P1 00 0 0 z Krn Oc Q C mr- (AK 1r (A K rn fT1 C (n 0 c z 0 (n z 1 61 z 1 5 z -0 1 n z 0 1 CT) z 0 13 I a LNDP-1A X 208Y/ 3 4 400 42 X 120V X x x X X 0" 0 \ No 0 \ No 0 m \ No 0 \ NQ 02 \ W W (A ("4 W .it- DATE 4. a) 0 C) O 0 0 0 0 0 0 N N N N N N x X X x x J1 1 i� 1 , N 1 E -�� ��_w ��{ as Q 3 _! 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Q° O --10 - i ^ m -T1 mMzM -10>< mK0Krmm- 1.1 �-� c"M>:- rni�1'MMO�'fnT10 Dcn--+-i = pz --1= 0 m ° * m m-DOO*O=O o--1 �(nn� nrn mm IC> m -0-I M -On 0-1m z (nzNDm0XD mrr��on nzDm �1mv1D �1 -i OMz�� n0�xX7]:� �nD _� n C 5zm n 0a DmMI OZ -i(n CO (n n z R° m "'leo N I1 * * * * 1 HOME RUN TO PANELBOARD. LETTERS/ NUMBERS INDICATE PANEL. NUMBERS INDICATE CIRCUITS. NUMBER OF ARROWS EQUALS NUMBER OF CIRCUITS. CIRCUIT SHALL BE 20 AMP, 120 VOLT, 2 -*12, 1 -*12 EG., IN %4" C, UNLESS NOTED OTHERWISE. BRANCH CIRCUIT WIRING SIZE AND NUMBER TO MATCH HOMERUN. REFER TO SPEC'S FOR RACEWAY TYPE. O O o m 5 FIRE ALARM CONTROL PANEL 0 0 0 0 0 RATE OF RISE HEAT DETECTOR Z Z a Z Z z co m _ n = n o n n zr { F OK P1 1)-C) z -on o-< m70 m 70 I F mo r -o zD xm ' 1 f 0f_ z -I xo 03d1n038 A13V031 -211 A13AVS 3dfl - S-1 u 110A LLZ/A09t7 - H 110A OZL/A90Z - 1 CWOOn OMMTM 1 1 1 1 I 21OO1d H121n0d - fi 21001d 02:1IH1 - 2 (n 11 co mM O-1 M orm r0 00 0 D z m r vo0 D Z D rn m m z 0 Z 0 m OD (n Z 5m rOZ1- 5 Z 0 'OJNI 'OSRIN '8 11-10I3H ONI1NfO1^1 e38WfN 11na23IO S3IVOIONI 2138 1fN 0 031 HDIIMS CO 11110NID S31VDICINI H39WfN 3dA1 321n1X1d m0 CO OX0:1 • moc 04 0Z• n C)c�00 > co C A-INO On -1 NIVNI 3AVMOJOIIN 83>IV3a8 1111060 NIVVV HOMd218 J.13JVS 3dl O n 213M0d3S210H ONIldn212131NI ONn0a0 O O c z 0 IINf -1100 N'dd HONV218 1N3VVdIn03 m x z 0 0Nn0a0 1N311d1fO3 HONV813-WOUND n 0 Z c (*1 z 0 0 m m25 O m>* ZTJ m 0 > c0 Z 0 m O3HSINId 3A08V g 0 rn Z m 0 r- 0 0 m m NOIldNOS❑ * m C C - n 13 W 5 S O n m m m 3213dVVV - b' TIOd d0021d2131-11V3M 3m -On WV 3-18VI8WA 031Y010N1 3SIMa3H10 SS3-1Nn MOUNTED UNDER COUNTER HEIGHT -1U)(; m g - m n=mo o m M M z -4 a 0 z WEI ONnOlO NMW rn--o0 z O0 D Z Z a 0 m si m r rn Z C 0 n a oz mm 0 0 C z m X P1 O --i 0311V1SNI NOIldIi10S3O SNOILVIA32 88V O m K m 0 0 WM- • mm cil no 00 om mK z 0 O O M,.1 0 MOmK S0 Mrl0 r > 1._ (11Z-1 7l 0 O'10 X gmm n D� 6X/0 zK m r O z 30Kr-- >mO z 0 Zmc- 0WP1 M z OC O O MOmM Z C n � D O n-1 0 30 me 00 co D Z m. 0-0 030 Co C nrri rnz oo C� c_rn n rn z 1:1 ®I ®1 sl o� -,'i ® V ® [0 CO I I n N X SYMBOL - '0- shliti 77 I. (Y LUMINAIRE CONNECTED TO EMERGENCY CIRCUIT DENOTED BY 'EM' El WALL MOUNTED LUMINAIRE. UPPER CASE LETTERS INDICATE FIXTURE TYPE ON SCHEDULE, LOWER CASE LETTER INDICATES SWITCHING DESIGNATION. lSYMBOL 4AD ELECTRICAL SYMBOLS LIST BASIC MATERIALS AND METHODS 4D o c h AUTOMATIC TRANSFER SWITCH O SYMBOL ELECTRICAL SYMBOLS LIST BASIC MATERIALS AND METHODS GENERATOR ALARM ANNUNCIATOR. o " METER (AS CALLED FOR ON DRAWINGS/OR SPECIFICATIONS) PANELBOARD GROUND CONNECTION TRANSFORMER, REFER TO SCHEDULE FOR SIZE AND TYPE AUTOMATIC ELECTRONIC DEFIBRILATOR. PROVIDE INTELLIGENT MONITOR MODULE TO REPORT TO FIRE ALARM. PROVIDE ALL INTERCONNECTIONS REQUIRED FOR MONITORING. DUPLEX RECEPTACLE, GROUND FAULT CIRCUIT INTERRUPTING TYPE CEILING DUPLEX RECEPTACLE, 20 AMP, 125 VOLT CABLE TRAY: SIZE & TYPE AS CALLED FOR ON DRAWINGS AND SPECIFICATIONS. SDC CONTROL PANEL (BY DIVISION 15A) ALUMINUM POWER SURFACE RACEWAY WITH DEVICES AS INDICATED. WIREMOLD ALA -4800. RACEWAY SHALL BE MOUNTED "OVER COUNTER" UNLESS OTHERWISE NOTED. -P (..J N 1 1 1 © 0 � Z Z Z O O O M m m U) U) (n _ W N I 1 1 n n n 0) 0) 0 0 0 n n ua r CO (mn 0 (mn O O O 0 0 0 - 1 01 z p m (n 0 -1 n > ,, rn -1 O 71 0 0 gn17W ,-n0 2-_. 0.4 -mm .W i70 -O0 nC Cmoo m0 �Oalcci*X F'_ •Om o o -1r- ZD n m ��n K 0 �C Om X * n-D0OZW* OZ�SYOXn o mm- r C_ 0) P1(,� '�C--i=OC XmrnnmZ rn Z K >00r -1D K> -IM QM�%�zo rC-_ -n<C0D m�:0 m mm c =im o ozx� r D m m m N DIr1pz(nox mZ - 0 i W .. -i� 0 -i, -0r0 g 1 D m =xiM0Z �C7frT1W� mD �m -1-14t 7 M0C-D< z <C) ° l 50000 mrzc> -,,m-ix v�wrim X >no -ix -Im 00X0* nz.101 g 0 >r11:=217) -D-{ fl -1 °MX 0 -I>- mXZ --I O --10 - i ^ m -T1 mMzM -10>< mK0Krmm- 1.1 �-� c"M>:- rni�1'MMO�'fnT10 Dcn--+-i = pz --1= 0 m ° * m m-DOO*O=O o--1 �(nn� nrn mm IC> m -0-I M -On 0-1m z (nzNDm0XD mrr��on nzDm �1mv1D �1 -i OMz�� n0�xX7]:� �nD _� n C 5zm n 0a DmMI OZ -i(n CO (n n z R° m "'leo N OCCUPANCY SENSOR, LETTERS DESIGNATE TYPE: H - HALLWAY U - ULTRASONIC DUPLEX RECEPTACLE, 20 AMP, 125 VOLT CONNECT TO AN EMERGENCY CIRCUIT DUPLEX RECEPTACLE, 20 AMP, 125 VOLT SUBSCRIPTS INDICATE TYPE: OC - OVER COUNTER WP - WEATHER PROOF GFI - GROUND FAULT INTERUPT UC - UNDER THE COUNTER TV - CLOCK RECEPTACLE, COORDINATE MOUNTING HEIGHT WITH A -DRAWINGS TOGGLE SWITCH, VOLTAGE AS INDICATED ON FIXTURE SCHEDULE, SUBSCRIPTS INDICATE TYPE: 3 - THREE WAY SWITCH OS - OCCUPANCY SENSOR a,b,c - SWITCHING DESIGNATIONS NUMBER OF LETTERS EQUALS NO. OF GANGED SWITCHES REFER TO LIGHTING SPECIFICATIONS FOR ADDITIONAL LIGHT SWITCH DESCRIPTIONS. SPECIAL PURPOSE RECEPTACLE. PROVIDE PROPER VOLTAGE, CLASS, CURRENT RATING AND NEMA CONFIGURATION AS REQUIRED BY BRANCH CIRCUIT AND/OR MATCH CAP ON EQUIPMENT BEING FURNISHED BY OTHERS. PROVIDE CORD AND CAP. WHERE NO CIRCUIT IS SHOWN, PROVIDE 3/4" CONDUIT TO ACCESSIBLE CEILING WITH PULLSTR!NG AND PROVIDE COVERPLATE FOR BACKBOX. HOME RUN TO PANELBOARD. LETTERS/ NUMBERS INDICATE PANEL. NUMBERS INDICATE CIRCUITS. NUMBER OF ARROWS EQUALS NUMBER OF CIRCUITS. CIRCUIT SHALL BE 20 AMP, 120 VOLT, 2 -*12, 1 -*12 EG., IN %4" C, UNLESS NOTED OTHERWISE. BRANCH CIRCUIT WIRING SIZE AND NUMBER TO MATCH HOMERUN. REFER TO SPEC'S FOR RACEWAY TYPE. DESCRIPTION m0 CO OX0:1 • moc 04 0Z• n C)c�00 > co C A-INO On -1 NIVNI 3AVMOJOIIN 83>IV3a8 1111060 NIVVV HOMd218 J.13JVS 3dl O n 213M0d3S210H ONIldn212131NI ONn0a0 O O c z 0 IINf -1100 N'dd HONV218 1N3VVdIn03 m x z 0 0Nn0a0 1N311d1fO3 HONV813-WOUND n 0 Z c (*1 z 0 0 m m25 O m>* ZTJ m 0 > c0 Z 0 m O3HSINId 3A08V g 0 rn Z m 0 r- 0 0 m m NOIldNOS❑ * m C C - n 13 W 5 S O n m m m 3213dVVV - b' TIOd d0021d2131-11V3M 3m -On WV 3-18VI8WA 031Y010N1 3SIMa3H10 SS3-1Nn MOUNTED UNDER COUNTER HEIGHT -1U)(; m g - m n=mo o m M M z -4 a 0 z WEI ONnOlO NMW rn--o0 z O0 D Z Z a 0 m si m r rn Z C 0 n a oz mm 0 0 C z m X P1 O --i 0311V1SNI NOIldIi10S3O SNOILVIA32 88V O m K m 0 0 WM- • mm cil no 00 om mK z 0 O O M,.1 0 MOmK S0 Mrl0 r > 1._ (11Z-1 7l 0 O'10 X gmm n D� 6X/0 zK m r O z 30Kr-- >mO z 0 Zmc- 0WP1 M z OC O O MOmM Z C n � D O n-1 0 30 me 00 co D Z m. 0-0 030 Co C nrri rnz oo C� c_rn n rn z 1:1 ®I ®1 sl 4D V ® [0 ❑ 4 SYMBOL POWER DISTRIBUTION AND CONTROL '0- shliti 77 I. (Y LUMINAIRE CONNECTED TO EMERGENCY CIRCUIT DENOTED BY 'EM' El WALL MOUNTED LUMINAIRE. UPPER CASE LETTERS INDICATE FIXTURE TYPE ON SCHEDULE, LOWER CASE LETTER INDICATES SWITCHING DESIGNATION. lSYMBOL ONE LINE DIAGRAM SYMBOLS ELECTRICAL SYMBOLS LIST BASIC MATERIALS AND METHODS Pt] o FUSED DISCONNECT SWITCH AMP RATING AS INDICATED ON ELECTRIC EQUIPMENT AND CONTROL SCHEDULE AUTOMATIC TRANSFER SWITCH 480 VOLT PANELBOARD 208/120 VOLT PANELBOARD DRAWOUT CIRCUIT BREAKER GENERATOR ALARM ANNUNCIATOR. TRANSFER SWITCH, RATING AS INDICATED. ATS - AUTOMATIC MTS - MANUAL METER (AS CALLED FOR ON DRAWINGS/OR SPECIFICATIONS) PANELBOARD GROUND CONNECTION TRANSFORMER, REFER TO SCHEDULE FOR SIZE AND TYPE THERMAL MAGNETIC MOLDED CASE CIRCUIT BREAKER FUSED DISCONNECT SWITCH DESCRIPTION m0 CO OX0:1 • moc 04 0Z• n C)c�00 > co C A-INO On -1 NIVNI 3AVMOJOIIN 83>IV3a8 1111060 NIVVV HOMd218 J.13JVS 3dl O n 213M0d3S210H ONIldn212131NI ONn0a0 O O c z 0 IINf -1100 N'dd HONV218 1N3VVdIn03 m x z 0 0Nn0a0 1N311d1fO3 HONV813-WOUND n 0 Z c (*1 z 0 0 m m25 O m>* ZTJ m 0 > c0 Z 0 m O3HSINId 3A08V g 0 rn Z m 0 r- 0 0 m m NOIldNOS❑ * m C C - n 13 W 5 S O n m m m 3213dVVV - b' TIOd d0021d2131-11V3M 3m -On WV 3-18VI8WA 031Y010N1 3SIMa3H10 SS3-1Nn MOUNTED UNDER COUNTER HEIGHT -1U)(; m g - m n=mo o m M M z -4 a 0 z WEI ONnOlO NMW rn--o0 z O0 D Z Z a 0 m si m r rn Z C 0 n a oz mm 0 0 C z m X P1 O --i 0311V1SNI NOIldIi10S3O SNOILVIA32 88V O m K m 0 0 WM- • mm cil no 00 om mK z 0 O O M,.1 0 MOmK S0 Mrl0 r > 1._ (11Z-1 7l 0 O'10 X gmm n D� 6X/0 zK m r O z 30Kr-- >mO z 0 Zmc- 0WP1 M z OC O O MOmM Z C n � D O n-1 0 30 me 00 co D Z m. 0-0 030 Co C nrri rnz oo C� c_rn n rn z 1:1 ®I ®1 sl 4D V ® [0 © 4 SYMBOL POWER DISTRIBUTION AND CONTROL floIII 0 El LUMINAIRE CONNECTED TO EMERGENCY CIRCUIT DENOTED BY 'EM' El WALL MOUNTED LUMINAIRE. UPPER CASE LETTERS INDICATE FIXTURE TYPE ON SCHEDULE, LOWER CASE LETTER INDICATES SWITCHING DESIGNATION. -e SYMBOL ELECTRICAL SYMBOLS LIST BASIC MATERIALS AND METHODS Pt] o FUSED DISCONNECT SWITCH AMP RATING AS INDICATED ON ELECTRIC EQUIPMENT AND CONTROL SCHEDULE AUTOMATIC TRANSFER SWITCH 480 VOLT PANELBOARD 208/120 VOLT PANELBOARD VARIABLE FREQUENCY DRIVE MOTOR STARTER. REFER TO ELECTRIC EQUIPMENT AND CONTROL SCHEDULE FOR SIZE AND TYPE. COMBINATION FUSED DISCONNECT SWITCH AND MAGNETIC STARTER AMP RATING AS INDICATED ON ELECTRIC EQUIPMENT AND CONTROL SCHEDULE MOTOR CONNECTION. REFER TO ELECTRIC EQUIPMENT AND CONTROL SCHEDULE FOR SIZE. DISCONNECT SWITCH AMP RATING AS INDICATED ON ELECTRIC EQUIPMENT AND CONTROL SCHEDULE 0 P1 cn0 X -) 0 z r OOI DKz*M-Im zmMn 000 0 m-4 O 0PM6 mz 50oo =iD0C OZmn z -<0m • C or� r+1 m 53 O0orn Kj- -0000o r z L)zZ� • rn ZT10P1 02c_1") Drn -1rnm =f.)-130 mD rn pO�nr -10 n Z n30 Cm z10 O z z " Wiz_ -0zr 0'>a) M mmmMo• m'n m7 -171r - X1710 -1r- 33mo -4-4m 0 MZI OO =mr =Iz0 m _ -1 71Z Cmn 0 MO OM n D r e094 A213A3 2104 X08 -rind 30IA08d SON38 JO 0092 ONV V1VG/131 2104 'SIInGN00 213MOd 2104 SON38 d0 1H011 SV 39 11VHS S1 I0ddfS CINV SIInON00 11V SV >1030 01 O 0 m1 (n r n� m0 00X 00X -1 Z >-10 ornK (1) >• -rn mn nr O� ow m= mr zm mm Z O n Z 0 ox m n m CCD OM 0 Om 030 m Z Z mo *m rn -< --i 0z 30 0 x Dm ma z0 6z n0 O m xz z -'TI m r n r n -0 <71 m N O n n C -71 () n r� z 0 n m 0 _ n 000 mn c >00- rnc0 Z -D mm cm Po mm O o z mo nv cm mm -1 O 1> 0�' -1D 2ff11 Mm 030 co (J) Z f*1 In E ®I ®1 sl 1 4D V cn — K aEI ❑ o SYMBOL 2 GENERAL CONSTRUCTION SYMBOLS 1 4 a El LUMINAIRE CONNECTED TO EMERGENCY CIRCUIT DENOTED BY 'EM' El WALL MOUNTED LUMINAIRE. UPPER CASE LETTERS INDICATE FIXTURE TYPE ON SCHEDULE, LOWER CASE LETTER INDICATES SWITCHING DESIGNATION. -e SYMBOL ELECTRICAL SYMBOLS LIST BASIC MATERIALS AND METHODS Pt] o p o __ OPEN FULL ARROW INDICATES 480 VOLT CIRCUIT TO MULTI -POLE CIRCUIT BREAKER, UNLESS NOTED OTHERWISE. OPEN HALF ARROW(S) INDICATES 277 VOLT CIRCUIT TO SINGLE POLE CIRCUIT BREAKER(S), UNLESS NOTED OTHERWISE. SOLID FULL ARROW INDICATES 208 VOLT CIRCUIT TO MULTI -POLE CIRCUIT BREAKER, UNLESS NOTED OTHERWISE. SOLID HALF ARROW(S) INDICATES 120 VOLT CIRCUIT TO SINGLE POLE CIRCUIT BREAKER(S), UNLESS NOTED OTHERWISE. EMERGENCY PHONE. PROVIDE A 1" CONDUIT TO NEAREST CABLE TRAY WITH 1 CAT 6 CABLE TO THE NEAREST TELECOMMUNICATIONS ROOM. PHOTOCELL COMPLETE CONNECTION TO EQUIPMENT JUNCTION BOX TELEVISION OUTLET. PROVIDE CUSTOM RECESSED BOX WITH WHITE FACEPLATE WITH (1) 3/4" CONDUIT FOR POWER (CIRCUIT AS DENOTED), 1" CONDUIT TO CABLE TRAY WITH 1 CAT 6 CABLE TO BDF AND (1) 1-1-1/2" CONDUIT TO ABOVE FINISHED CEILING FOR FUTURE USE. DESIGN MAKE: FSR -PWB -100 (OR EQUAL). MOUNT AT 64"AFF UNLESS OTHERWISE INDICATED. PUSH BUTTON SINGLE RECEPTACLE 20 AMP, 125 VOLT DESCRIPTION E ®I ®1 __ 7 > 4D V cn — K aEI ❑ o SYMBOL 2 GENERAL CONSTRUCTION SYMBOLS 1 El El LUMINAIRE CONNECTED TO EMERGENCY CIRCUIT DENOTED BY 'EM' El WALL MOUNTED LUMINAIRE. UPPER CASE LETTERS INDICATE FIXTURE TYPE ON SCHEDULE, LOWER CASE LETTER INDICATES SWITCHING DESIGNATION. CEILING MOUNTED LUMINAIRE. UPPER CASE LETTERS INDICATE FIXTURE TYPE ON SCHEDULE, LOWER CASE LETTER INDICATES SWITCHING DESIGNATION. 0 cn EXISTING DEVICE TO BE RELOCATED cn DESCRIPTION __ cf.) __ FACP El El t—si !2 D o C3 T SYMBOL FIRE ALARM FIRE ALARM RELEASE FIRE ALARM RELEASE SMOKE DAMPER SMOKE DETECTOR WITH "IMM" INDICATES INTELLIGENT MONITORING MODULE WATER FLOW SWTICH SMOKE HATCH INTELLIGENT MONITOR MODULE CONTROL ZAM INDIVIDUAL ADDRESSABLE MODULE DUCT SMOKE DETECTOR FAN SHUT DOWN REMOTE DUCT SMOKE DETECTOR TEST STATION (WHERE POSSIBLE GANG DEVICES TOGETHER. MOUNT ALL AT ACCESSIBLE HEIGHT.) FIRE ALARM ANNUNCIATION PANEL FIRE ALARM NODE PANEL FIRE ALARM CONTROL PANEL PRESSURE SWITCH SPRINKLER WATERFLOW SWITCH M m 0 -740 1 VISUAL SIGNAL DEVICE WP - INDICATES WEATHERPROOF SPEAKER/STROBE ALARM SIGNAL WP - INDICATES WEATHERPROOF RATE OF RISE HEAT DETECTOR SMOKE DETECTOR MANUAL PULL STATION WP - INDICATES WEATHERPROOF DESCRIPTION m om O> G7 � Mm >5 mz Ma m0 -D om 04- zz n n =m mo mm OD Cr mW �rn I MK 0 MC 2z wm m0 0 (n C Mo n O= xi= m -o 'SIInONOD n 00 0 nm op zZ -4D mm C nm 5D O n z� '1N301d11)03 11V 30 S30NVaV310 301A2:13S NIVINIVW '8 ZW 0 -Cin zr=1M Mm1C mZ Orn K0 -00 zkrnz xm D z* (n -1D Dir r -oz z moo mKm � � O -4030030 21. o .m Dz _ n�-1 r r cmz m S KM n-(13 Zo >73‹ zmC mzm OM 7)3 =m O-1 Zo M Z Cm Crn" m On 0-T1 57 -� Z3 MM �Z= rn OM 30n PO rz :SJiON 1Va3N30 01 4 ®I ®1 m K z 4 V id]; 1-o aEI ❑ o SYMBOL LUMINAIRES GENERAL CONSTRUCTION SYMBOLS WALL MOUNTED EXIT LUMINAIRE CEILING MOUNTED EXIT LUMINAIRE LUMINAIRE CONNECTED TO EMERGENCY CIRCUIT DENOTED BY 'EM' LUMINAIRE CONNECTED TO EMERGENCY CIRCUIT 'NL' DENOTES UNSWITCHED WALL MOUNTED LUMINAIRE. UPPER CASE LETTERS INDICATE FIXTURE TYPE ON SCHEDULE, LOWER CASE LETTER INDICATES SWITCHING DESIGNATION. CEILING MOUNTED LUMINAIRE. UPPER CASE LETTERS INDICATE FIXTURE TYPE ON SCHEDULE, LOWER CASE LETTER INDICATES SWITCHING DESIGNATION. DESCRIPTION O mn Om tM mj Z m *0 m-1 O z on mm mm x X_ m-1 mz � O 0 m rn n 0 --1 m ONINIVIN38 11V IVHI 321nSNI 11VHS d01OVedlN00 z 000 cm -J-5 (./) 00 0 m P Z rm _-4o -1zz = m 0 0 Z m m y O n C o..im moo *Z owm >r • rm m mm -0 r 30 C D m mo DD nz mn 00 _-1 0 m � 0 0D co >0 D-0 KO nZ Z -10 D m z --10 O 0 mm Om 30-X 00 Cm --1 0 -1m MW x --1 0 D1 m 4 Z -1 0 M*nay CDO7 1-9:1Z XIP= m MO >0nt- -90 -< n -m-4 MZ 00 - 0 X W 0Z -<K 0 =ZPTIO rn� oZ D o Z.< rmaiw -2100 0 z O - > c=> z=11-710 ZHm0 no * o° Z �l 0 ocomm o>n0 x00-171 cmx -inmo zmz= c r- > Or * gym 30 m 0W - z 0 0Qo n Z Z zcom .{ 30 CT D0 ozm no Z� o08 *330 mcw _gym >- �rn mz0 � O 0 zm mmO zrn° z 0 n©Z Owz 0 0 zm m Dn m -Cm * O IDDM 340 M -1 MI -r9 nm Z-10 UMm ZnX Ooz DOM 0ZO 0 m 30>Z D n=� 0030 -m1 O )›.F9 Mme om30 mm m = zZo mz30 00> n m fol m -Izo 30 1-1/>" n g -4r (nzn 0> * 30 corn xmc- r z>-< >m130T1 -100 ZCzm mm 0 r_ On mm P1X m(7) m-1 c2 (no rn Pc-) zz 0 r-4 mo 00 nc Cc W OQ m= 1-0 0 c We n * 11 r =0 (30 r crn r< m <0 rn r_ --i *0 mu) n oO zo nm rn� � m •0 0 0 0 0321in0321 el0 NMOHS ION Z� o>=300= 0z o n�0m '1D r rzmm m z `4, 0 0 0 � , �Z Z,T„.,)zz (/10 pC=00 n0 mrinor ww 71CO0 20 Z>Mc-1 --10V)Wn ECqPI U-1 O m n D M- mrliznm OZ ( mKzzc _x x2_,-n-� 3 DC 0 O KornOz 0r�,-1 M-<›.0 i (n0 000-z OJ xm T03000 C� -10'10 om -+>OWC zO x000= Qn wmcrn r z - c, n,rc=1 0O 0 Cn- Fix z 0 n ZCQU)p 3030--4m-I0, mD 000- ! r ^0 �Z m 0 0 30 O H*z zm oomui oz *PI <� mn z* 4Wzy ON( -1 mo �'y*orn zz On> 4- O_1 C �Dr Imr C mprm Wo m30X� *0 rn 0 � �K z2 *0000 > 1�(r= Zo--=(!) 0 O I 000M n z p =nm n 00(noP- mi z z o (F) 30mZ-IO n D-nio 00 mD0=O- rn 71 0c "'O0Z, 00= ( ) --K1-11-- °D D -1 r- M 0 0 00mX mmo-44 mmCz -1>0 x00- z O m Z ooDm • >1 > TrnrK 7311 Ox)ov) Cm(n-< n 00 00 mzm ODOR mno WZpr�-- OP *Z --!0Km z��30 0 m <0 *mm z 00> 300 o2 z 230 m -C3 0 mm- o mm z zoo -10_ .mn 0 O C z -4"0 0 1 zm cm cmC �n n-4 poz r=m n 5 0*0 mo x_ Dzrn no x- >c O-4r z o 2 2m m C z 0 c m 3 30 Z 0 m M 0 n -1030 z*>0C-1>M =0m O0ZOZ=ZX mC'1 -i3O'1>05 zz-I (m-n�nDFmG) x-10 0� 8Mrzn >tom C_4-30-D0O m C -Cm-1Z MOM (1)D30 fr0C- >2 Do mnCr ->(n (-) 3)Zm-0(22 0o0 zr'1rjmmlrnm Z-4 rnrnnnmP_i 0> 0zWmzomZ 0-1 irrca:F, z xm c F9) Z�mcn( 000 OZ -Izgcc=ppm n C D C 'T1 c3 zz0m-1 �m K 00Z�Do 0 ng >Dr=mOnz= _� cnCOP <00 m *0 z 0 m m m 0 C 4- CD -11 > n 5030x D<_i ri3-ni �D�-i-iz no Z_sz30oz (n zo 313o 0rno0 �D m oO CDrPI-Irrnr rr-D0 030 01`130-4-< z0 rTlrn �C-1 Wpb) mX m mon0o o30 0_ z3cnr-o30zn �-1 n ....I O Sn 30z -z ng&c;1-1 < H OZ -,s-100037 _1 Zz�Wm-o �� oO(n-t73rn--i MMX Km 0X -4m Zz o 0>Ix�0 C 'Jr -m-00 0 C r 0-0 -I 91�OZC :zro O�Zzo� 0n zm30=cim WD z20 zz Drs D0000u) xm �0 rr Zcox 2 Oa1 :17z mn--<r MDrui m Z mmn co E 0 m 0 0-4 m FZ� n0� ri (n'l= m rn n 0=z Oz �m> ;x mo_1 0o cD -130 mon m c_-10 n - m o z -1 030(1) 0TZzi c0 vi -1 C r-0 00-ni zz -1_7,25 00 r=TI Z Om -cn- m zmn 'i0 mn= x l c(n r (/) z--1 03 M= Dm --I im k, o zm 30030 30C mz O D 0- Kr n z 0 OM "ud m m 0 r - DC D Z K 02J 00 O -1m _ M X (n o (n KC Z >w 0 33 rn 0 o0 0 xm Z o ' ;K 30 m© c n mr -I 1..-1 5 0O Z r-0 --1- n m o 30 m cc> -< '- O = m :SaLON NO1lflOwda -1V1:1NO A A--17 SYMBOL GENERAL CONSTRUCTION SYMBOLS T 0 HEAVY SOLID IS NEW EXISTING WIRING OR EQUIPMENT, SOLID LIGHT IS EXISTING TO REMAIN OR EXISTING TO BE RELOCATED. EXISTING ELECTRICAL OR EQUIPMENT OR DEVICE, DASHED LIGHT IS EXISTING TO BE REMOVED. REFERENCE TO DEMOLITION NOTE REFERENCE TO DRAWING NOTE EXISTING DEVICE TO BE RELOCATED EXISTING DEVICE TO REMAIN DESCRIPTION 00mX mmo-44 mmCz -1>0 x00- z O m Z ooDm • >1 > TrnrK 7311 Ox)ov) Cm(n-< n 00 00 mzm ODOR mno WZpr�-- OP *Z --!0Km z��30 0 m <0 *mm z 00> 300 o2 z 230 m -C3 0 mm- o mm z zoo -10_ .mn 0 O C z -4"0 0 1 zm cm cmC �n n-4 poz r=m n 5 0*0 mo x_ Dzrn no x- >c O-4r z o 2 2m m C z 0 c m 3 30 Z 0 m M 0 n -1030 z*>0C-1>M =0m O0ZOZ=ZX mC'1 -i3O'1>05 zz-I (m-n�nDFmG) x-10 0� 8Mrzn >tom C_4-30-D0O m C -Cm-1Z MOM (1)D30 fr0C- >2 Do mnCr ->(n (-) 3)Zm-0(22 0o0 zr'1rjmmlrnm Z-4 rnrnnnmP_i 0> 0zWmzomZ 0-1 irrca:F, z xm c F9) Z�mcn( 000 OZ -Izgcc=ppm n C D C 'T1 c3 zz0m-1 �m K 00Z�Do 0 ng >Dr=mOnz= _� cnCOP <00 m *0 z 0 m m m 0 C 4- CD -11 > n 5030x D<_i ri3-ni �D�-i-iz no Z_sz30oz (n zo 313o 0rno0 �D m oO CDrPI-Irrnr rr-D0 030 01`130-4-< z0 rTlrn �C-1 Wpb) mX m mon0o o30 0_ z3cnr-o30zn �-1 n ....I O Sn 30z -z ng&c;1-1 < H OZ -,s-100037 _1 Zz�Wm-o �� oO(n-t73rn--i MMX Km 0X -4m Zz o 0>Ix�0 C 'Jr -m-00 0 C r 0-0 -I 91�OZC :zro O�Zzo� 0n zm30=cim WD z20 zz Drs D0000u) xm �0 rr Zcox 2 Oa1 :17z mn--<r MDrui m Z mmn co E 0 m 0 0-4 m FZ� n0� ri (n'l= m rn n 0=z Oz �m> ;x mo_1 0o cD -130 mon m c_-10 n - m o z -1 030(1) 0TZzi c0 vi -1 C r-0 00-ni zz -1_7,25 00 r=TI Z Om -cn- m zmn 'i0 mn= x l c(n r (/) z--1 03 M= Dm --I im k, o zm 30030 30C mz O D 0- Kr n z 0 OM "ud m m 0 r - DC D Z K 02J 00 O -1m _ M X (n o (n KC Z >w 0 33 rn 0 o0 0 xm Z o ' ;K 30 m© c n mr -I 1..-1 5 0O Z r-0 --1- n m o 30 m cc> -< '- O = m :SaLON NO1lflOwda -1V1:1NO A PI 70 c z z 0 8311'1 zz3w 0 n 0 z 0 o n rn rn -4 O (n z G7 0 m z c rn Drn (n 010 �n4 (1F 0 m (11 1 -13 0 CO 0 r (n (,J D (n m m C7 In m 0 0 Z7 (n c 0 -< (J 0 O 0 0 'f1 m 0 z s) 1 m z c -1 r1 m z N CO0 (17 0 0 1 N 0 Co 0 r - (n CA 0 z cn rn m m (n D-4 m 0 -10 rn X 2 (n -1 m (D N co rn Cn to m n 01 C1 0 co (n (11 U1 W r` 00 z 0 Co Co 0 .{a 0 O) b 0• '171A'1 3 030 Z9 '1'M'3 3 030 L -t 11100 ON11000 3 030 '1'v 3 030 W 2 (,J 0 N V O O (100A1O .d02:1d X017) 9H0 -3M 10e111131 IN31^1d1f103 NOIS3O n c z z O HUMIDIFIER SCHEDULE - ELECTRIC -cl M 1ST MEZZ LOCATION EXHAUST/RETURN. RM 172 1 SERVICE APPLICATION 01 CA 0 0 -11 C ZHANG LAB LOUGE LAB 208 [VOLTS ELECTRICAL INFORMATION 1III P1 (�J 1 TI = 33.3 AMPS t7� M N KW 0 Cn N 0 C[3 E A.T. REMARKS i 1 TITUS MODEL DECV TITUS MODEL DECV TITUS MODEL DECV TITUS MODEL DECV TITUS MODEL DECV C31 CO 0 ca Ico 0110 Z .. 2 i 0 OL DB 1 SPACE CONDITIONS o 0 40 XRH o0 G0 H K STEAM PRESS PSIG IMPELLER SIZE (DIA. In.) 34.2 STEAM CAPACITY LBS/HR (,J O cc' 0) X t:-.3 DISPERSION PANEL WxH 0) Q] 1 DRISTEEM VAPORSTREAM MODEL 12-1 WITH RAPIDSORB DISPERSION PANEL DESIGN EQUIPMENT PI 70 c z z 0 8311'1 zz3w 0 n 0 z 0 o n rn rn -4 O (n z G7 0 m z c rn Drn (n 010 �n4 (1F 0 m (11 1 -13 0 CO 0 r (n (,J D (n m m C7 In m 0 0 Z7 (n c 0 -< (J 0 O 0 0 'f1 m 0 z s) 1 m z c -1 r1 m z N CO0 (17 0 0 1 N 0 Co 0 r - (n CA 0 z cn rn m m (n D-4 m 0 -10 rn X 2 (n -1 m (D N co rn Cn to m n 01 C1 0 co (n (11 U1 W r` 00 z 0 Co Co 0 .{a 0 O) b 0• '171A'1 3 030 Z9 '1'M'3 3 030 L -t 11100 ON11000 3 030 '1'v 3 030 W 2 (,J 0 N V O O (100A1O .d02:1d X017) 9H0 -3M 10e111131 IN31^1d1f103 NOIS3O n GEX-4 i -cl M REGISTER GRILLE AND DIFFUSER SCHEDULE C z Z o EXHAUST/RETURN. rvAv -SINGLE DUCT - AIR TERMINAL UNIT SCHEDULE - HOT WATER REHEAT SUPPLY APPLICATION ZHANG LAB LOUGE LAB (n -I M M 1 - ZHANG LAB LOUGE LAB STEEL MATERIAL SERVICE 1III P1 200 200 280 270 100 WHITE TI = 41, (n TITUS MODEL 355 -RL t7� M TITUS OMNI MANUFACTURER & MODEL No. 0 k 1 1 I (,J 'T7 REMARKS PI 70 c z z 0 8311'1 zz3w 0 n 0 z 0 o n rn rn -4 O (n z G7 0 m z c rn Drn (n 010 �n4 (1F 0 m (11 1 -13 0 CO 0 r (n (,J D (n m m C7 In m 0 0 Z7 (n c 0 -< (J 0 O 0 0 'f1 m 0 z s) 1 m z c -1 r1 m z N CO0 (17 0 0 1 N 0 Co 0 r - (n CA 0 z cn rn m m (n D-4 m 0 -10 rn X 2 (n -1 m (D N co rn Cn to m n 01 C1 0 co (n (11 U1 W r` 00 z 0 Co Co 0 .{a 0 O) b 0• '171A'1 3 030 Z9 '1'M'3 3 030 L -t 11100 ON11000 3 030 '1'v 3 030 W 2 (,J 0 N V O O (100A1O .d02:1d X017) 9H0 -3M 10e111131 IN31^1d1f103 NOIS3O G) X E (11 GEX-4 rn xi 1 UNIT NO. O x I C z Z o EXHAUST AIR TERMINAL SCHEDULE rvAv -SINGLE DUCT - AIR TERMINAL UNIT SCHEDULE - HOT WATER REHEAT m xi c LOCATION ZHANG LAB LOUGE LAB SERVICE ZHANG LAB LOUGE LAB 0 o m xi c SERVICE 1 500 200 200 280 270 100 0 - ,ri- c 260 1 41, (n m C t7� M . SCHEDULE -z rnrn 0 k 1 1 I (,J 'T7 1 1 1 1 1 DISCH N.C. AT 1" S.P. 100 100 TITUS MODEL DECV TITUS MODEL DECV TITUS MODEL DECV TITUS MODEL DECV TITUS MODEL DECV VOLTS 208 208 208 -------------- 0110 Z .. PHASE 3 0 0 0 STARTER BY EC o 0 1BELL AND GOSSETT SU -6-3-4 MIN INLET PRESS In. WC AT MAX CFM o0 G0 0.A. ENTERING WINTER DESIGN CONDITIONS IMPELLER SIZE (DIA. In.) -1 --(n2 (,J O cc' Oo Oo i 0) Q] (n ..,1 (r) co 3 N 1 O O O (11 W in S.A. LEAVING 0 =- m m rn Do CD (.r4 (J (,J GJ 31 30 Si0 o rn O K O (A (,J GJ ! 18 00 oti N co 1 R.A. ENTERING DISCH N.C. AT 1" S.P. LAT (DEG. F 1 27.7 a) 0 m 6 6 (n CAPACITY (MBH) REHEAT COIL 1 CA (7 O 0 -9 O 6 6 01 03 500 N 0 C G) HEATING AIR FLOW (CFM) > (D co*m N 70 N 0 o� 0 Do Q rn cc) 00 N 0X7 5> m Fri x !SUMMER DESIGN CONDITIONS ENT. WATER TEMP (DEG. F) ENT. AIR TEMP (DEG. F) (11 (J1 (n 6 (1) cn in J o� O -n WATER WATER WATER WATER i i i v 0 • 1D CA a D C 0 ch 0 0 i (11 -1 N i Co mm m 0Z.0 I CA n2 O0 0 0 4- - -1 D 01 CO 1 R.A. ENTERING op rn* (11m NN - •r WATER FLOW (GPM) (,J 0 orn oK a 13 i GJ i o a TA^ c.J 0oPo 0 CO m p1 D C z G7 FAN MOTOR 180 180 180 180 180 0) (0 m en ENT. WATER TEMP (DEG. F) 71 160 (,J 0 0 544 SU. 0,1.4 I LVG. WATER TEMP (DEG. F) DESIGN EQUIPMENT NOVEL AIRE MODEL ECW-424 PI 70 c z z 0 8311'1 zz3w 0 n 0 z 0 o n rn rn -4 O (n z G7 0 m z c rn Drn (n 010 �n4 (1F 0 m (11 1 -13 0 CO 0 r (n (,J D (n m m C7 In m 0 0 Z7 (n c 0 -< (J 0 O 0 0 'f1 m 0 z s) 1 m z c -1 r1 m z N CO0 (17 0 0 1 N 0 Co 0 r - (n CA 0 z cn rn m m (n D-4 m 0 -10 rn X 2 (n -1 m (D N co rn Cn to m n 01 C1 0 co (n (11 U1 W r` 00 z 0 Co Co 0 .{a 0 O) b 0• '171A'1 3 030 Z9 '1'M'3 3 030 L -t 11100 ON11000 3 030 '1'v 3 030 W 2 (,J 0 N V O O (100A1O .d02:1d X017) 9H0 -3M 10e111131 IN31^1d1f103 NOIS3O HWP-2 1 G) X E (11 GEX-4 0 X I W ! GEX-2 O x I C z Z o EXHAUST AIR TERMINAL SCHEDULE rvAv -SINGLE DUCT - AIR TERMINAL UNIT SCHEDULE - HOT WATER REHEAT LAB SUPPORT 164 SHELL LAB 166 SHELL LAB 172 ZHANG LAB LOUGE LAB SERVICE ZHANG LAB LOUGE LAB 0 o 380 360 590 630 '1> KX 1 500 200 200 280 270 100 0 - ,ri- c 260 1 00000 MIN INLET PRESS IN W.G. AT MAX CFM t7� M 4--1-4a)O) - = = = -z rnrn 0 k 1 1 I RAD N.C. AT 1" S.P. M C 1 1 1 1 1 DISCH N.C. AT 1" S.P. 100 100 TITUS MODEL DECV TITUS MODEL DECV TITUS MODEL DECV TITUS MODEL DECV TITUS MODEL DECV MANUFACTURER & MODEL No. HWP-2 1 (n D C C11 cn D C {+ (n D C GJ (n D 1 N {n D C i [FAN COIL UNIT SCHEDULE -CHILLED WATER/HOT WATER z = 0 0 rvAv -SINGLE DUCT - AIR TERMINAL UNIT SCHEDULE - HOT WATER REHEAT COIL PUMP CORRIDOR SHELL LAB 172 SHELL LAB 166 ZHANG LAB LOUGE LAB INLINE 1 SERVICE HORIZONTAL CABINET 1 500 530 - 260 1 N in t7� M AIR SIDE 0 0 -P C11 00C* K * X M C 500 150 170 100 100 Cn 0 C 208 208 -------------- 0110 Z .. (,J 0 0 0 o D o 0 1BELL AND GOSSETT SU -6-3-4 MIN INLET PRESS In. WC AT MAX CFM SENSIBLE (MBH) CAPACITY COOLING COIL IMPELLER SIZE (DIA. In.) -1 --(n2 in Oo Oo i 0) Q] TOTAL (MBH) 3 N 1 O O V -1 J -1 0 =- m m 33 (.r4 (J (,J GJ 31 30 RAD N.C. AT 1" S.P. (A (,J GJ ! 18 00 oti 16 15 -1 6 a' DISCH N.C. AT 1" S.P. LAT (DEG. F 1 27.7 16.8 16.0 27.4 28.7 6 6 (n CAPACITY (MBH) REHEAT COIL 1 6 6 6 01 03 500 280 260 490 530 CA N iV HEATING AIR FLOW (CFM) > (D Co D) 70 N (n Do Q rn (n 6 (n (n Cn ENT. WATER TEMP (DEG. F) ENT. AIR TEMP (DEG. F) (11 57 57 57 (n 6 (1) cn in J WATER WATER WATER WATER i i i LVG. AIR TEMP (DEG. F) 0 ch 0 0 i (11 -1 N i m 0Z.0 I ZZ'0 6V0 04.0 ZL' 0 4- - op 2.8 NN - •r WATER FLOW (GPM) [WATER SIDE 13 i GJ i o a TA^ c.J MED MED MED WATER P.D. (In. WC) FAN MOTOR 180 180 180 180 180 i ENT. WATER TEMP (DEG. F) 71 160 160 160 160 160 544 SU. 0,1.4 I LVG. WATER TEMP (DEG. F) ....a ....\ i N N N N N Hi 0 ROWS DEEP MANUFACTURER & MODEL No. 40X GLYCOL 40X GLYCOL 40X GLYCOL 40X GLYCOL 40X GLYCOL m r - c 0 REMARKS TITUS DESV TITUS DESV TITUS DESV TITUS DESV TITUS DESV MANUFACTURER & MODEL No. REMARKS HWP-2 1 FCU -4 FCU -3 FCU -2 an UNIT NO. [FAN COIL UNIT SCHEDULE -CHILLED WATER/HOT WATER MANN LIB. MER O c i COIL PUMP SHELL LAB 172 SHELL LAB 166 ZHANG LAB LOUGE LAB LOCATION INLINE 1 HORIZONTAL CABINET HORIZONTAL CABINET HORIZONTAL CABINET HORIZONTAL CABINET -1 m GJ (,J 01 880 in 0 AIR SIDE HEATED F P.D. FT HD Fl 01 0 -P C11 00C* 'T'! O m M C 0000'•- v (11 (11 Cn 0 E.W.T. DEG F 208 208 -------------- 00 0 .. (,J 0 0 0 0 EXT. STATIC (In. WC) VFD 1BELL AND GOSSETT SU -6-3-4 11.3 8.9 17.6 SENSIBLE (MBH) CAPACITY COOLING COIL IMPELLER SIZE (DIA. In.) -1 • (0 in co K 1 19.7 (D O [,J TOTAL (MBH) MANUFACTURER & MODEL No. 1 O O V -1 J -1 0 1EAT (DEG. FI 0()010) GJ (A (,J GJ m J -1 6 a' CQ LAT (DEG. F 6 6 6 (n 6 6 6 01 03 (A CA N iV WATER FLOW (GPM) (D Co D) N WATER P.D. (Ft. HD) Do 03 iv -P -1 -1 V -1 ENT. WATER TEMP (DEG. F) (11 57 57 57 LVG. WATER TEMP (DEG. F) J WATER WATER WATER WATER '1 1- c 0 m 4- (n rn 13 MED MED MED MED SPEED FAN MOTOR i 1 1 1 71 5LL 544 SU. 0,1.4 VOLTS ....a ....\ i PHASE Hi 0 IEC CXB08 IEC CXB06 IEC CXB12 MANUFACTURER & MODEL No. 0 x Co N REMARKS HWP-2 1 "o 1 x - c z -1 z O HEAT EXCHANGER SCHEDULE - STEAM TO 40% PROPYLENE GLYCOL K m m MER MANN LIB. MER LOCATION COIL PUMP HEATING WATER GLYCOL PREHEAT SERVICE z r- 2 m INLINE 1 (11 STEAM INLET PRESS 30 N GJ (,J STEAM LBS/HR PUMP CAPACITY ........... 30 N GPM HEATED F P.D. FT HD Fl -1 0 :1 0 O iD M C v (11 (11 Cn 0 E.W.T. DEG F 208 208 -------------- 00 0 L.W.T. DEG F (,J CA co N SQ FT HEATING SURFACE VFD 1BELL AND GOSSETT SU -6-3-4 DESIGN EQUIPMENT HWP-2 1 "o PUMP NO. PUMP SCHEDULE 1 K m m MER LOCATION COIL PUMP HEATING WATER SERVICE z r- 2 m INLINE 1 UNIT TYPE & DESCRIPTION 30 N 13 0 K* PUMP CAPACITY ........... 30 C11 TOTAL HEAD IN FEET -1 0 :1 0 M C !MOTOR CHARACTERISTICS v (11 (11 2 -0 208 208 -------------- VOLTS (,J CA PHASE VFD STARTER 8.375 a) in Na IMPELLER SIZE (DIA. In.) Li (,J • (0 co K 1 BELL & GOSSETT SERIES 80 - SIZE 1 -1/2x1 -1/2x9-1/2 BELL & GOSSETT SERIES 80 - SIZE 1-1/2x1-1/2x7B MANUFACTURER & MODEL No. 0 panssi emu O oCD N C 3 Cr 6-2 11 epos 6u!Memp cn 1 0 Crn C r m 0 C y 0 11) CO -I. eD r.N f rn 0 a CD cg' O ' n m m n 0 ▪ CDD 0)• C -' 0 K .. * Cil 0,. [D ▪ 00 R i g w O N.) �o)ZOc rCQ-<5N 0co (31- ,, CO ;ue;insuo3 apoo x�0oM CDCp fl0 CO en al 1cE). to N r").71 5 co 0c o933 Z m cn CD. -17 -CO O OC • O r .✓ eau!6u3 d31111 mom= c0 CO CO t° O aaau!eu3 iean;ona;S 0 0) 2 0 co 0 r z 0 m 0 2 0 Z 0 m 111 ONE VALVE TO PRESSURE GAUGE SHALL BE CLOSED. SENSING LINES SHALL BE SLOPED DOWN ALL THE WAY TO THE TRANSMITTER. MO138 NIdW 31VSN3CINOO '8 • 4" -1 8" MIN. • z i INSTALL SENSING POINTS IN CENTERLINE OF PIPE IN A HORIZONTAL RUN. 0 WV31S 3AOSV HO 1V NIVW 31VSNKINOO z 4 WO _ - Rai 'o'wo DMX x>m �C D1m Z cn 4" 8" MIN. • r 0 <0 D 0 m 33 1- p 13 Z Z --1r r LC; 0 73 D0 • O • z r 0 0 o�� cmc 4(7)c-) -100 ODv) rri 0 0 m 0 1N101:1 DNISN3S 01 3d01S 1NI0d DNISN3S 01 3d01S 1 33 rm m--� zc c �p z Orn m -�_ r rc^ ( J 0 r m 31VOS 01 ION r_ z m c V 0 m c) m r� mm D� rD c - o 31VOS 0110N mi >< > z >0 rrZ m V/ o D ZC!) r� o rn o � rr� VJ 0m mo rZ rn m co S2131SI038 01 3l8V011ddV OSIV ri z Z om 0-n r Zm- OC -Chm Z0 O -1m 1> m 000 r- 0 0 0 M MK - m Z m 0 cmc nm m z y} oz CO m -a_.___IN__--1 -12. 00K 00K K 3j -1 -1 C 0070 C 0 0 s- --i c g -a mJmr10 0Z xi ADO 0 �m x CZZ = �Z of - x5 ccz 731 i) -1 m O r � T minim X0-13 -1▪ 2 0 O mm (J-) DCO zm� 0 m Z D U) -� -nm Cr33 O0-DD� m m Z m < 1 N <_� e Mm c00 C m D < D O se N 18" & SMALLER TRI -FLEX LOOP SIZE WIRE ROPE/CABLE BRACING 1/211x81/2" N_ x ANCHOR SIZE 171 mW ANCHOR EMBEDMENT'' (n C N N rJ X 12 (RED) 12 (RED) CABLE, OVAL SLEEVE, THIMBLE SIZE (4 N NUMBER OF CRIMPS ZOm3 MX XM ZpC.X (AZ z m X D 2 0=Km c N -I r.7,1 m ruD)-0 m�r- mz K z ,0 0 ( / 33 Pi m Z < O D m • (1-1 073 � �fl Dz X_ • m 0 m o o - y�z z PIK C0 00 cz 0 - I , ♦` , • ,, • ♦♦ • ♦♦ • •• • ♦ ,` • m c) m23 D7JXm nj1-1 mpc J U) Z dWnd SSV Zrc)U) MXk- XAm m C -1 in WOK 1V -1 P1 m0m� r U) ✓ mm r- mz C C C z o O Dyo O �z = c� 0 mz o o� z� 0 0 zo m c z 0 z c 33 0 Flo* -O� Dzm z 073 0-10 ZCm rffloo O l� • I Z 3Jr m-< �m r m 0 m Z PI M 70 m PCZ ml 0 Z3 :310N 0 MB o=D 0 Z -D-1 m 0 z 0 D 31VOS 01 ION D 01 0 0 z TCS m m m m Ni5 z 0o m 0 m r- mo 00 cz Km mm z-1 -1m WD nD U)0 MCA d n R1-0 0 0 z 0 m --1 r m z O --1 3H1 NVHI 2131`320 „9 'HIGIM '8 0 m m '0'0 12L `13M00 17* *3 REINFORCING BARS, 12" 0.C. EACH WAY. '210HONV 1 3/13315 O11SV1d ANCHOR BOLT, SIZE & LOCATION AS REQUIRED '3548 1N31A1d1f1b3 HOIb'W 01 :S310N 11v13a mm 0_ ow 7o= 0 715 K 00 1VOS Ol ION )). 11V13CJ MO813 ❑3N` A L I 311 MIN. `W` EQUAL E OM mm W c -<z m o � int �r t{ � W 1 i I n DIM. m 0 n W N co O C m N < NJ Om oz n(4 nm4 ▪ K • Z C � c wd3 0002 01 do wd3 000Z 213A0 A18V4135SV 83NNn21 3NVA A-181413SSV 213NNn21 3NVA MOM ZCM 77 P1 0< ry rii -1< ZU) m n W O D r r(n0 cO rm- 1r WU)r *K--1 K� z� mmMI0a o O mr._, J ilk -I< O> m cif) 11 0 m 0z*J1 ilik MoK Z C M MDDZM m 31VOS 01 ION 0 0 TN 0 -0 V m c m ❑ m _ r D ;(3 z 1IV130 &All NVd m D Mw Om Fo mm OC 15m mmwrn or --1 v) < > m 0 co *-1 C Z 0 r G7 rn � z g Om O me m0 zrn -1� 0 01 S301no =S310N 11v130 m-1 00 0 T 0 X1 m 0 orn Mo -z 0 C O nrn mX 0, 0 z am mo 5 m A008 301no 3d 31VOS 01 ION N mm 0> D Z = 0 c0 CO0 V T z ❑ m r 2 oQ n 0W00T 01 z -,x .Z>0 z 00m -lm n0 OCO z• --i --I --1F -1m z mtzcrn zm r---m-T) -Im�rr (n,0) O0z 5W-4< y z �GG� zM�((/)� 10 >P-.LI)1 F4 0 i 000 701xtm cnc v) -o rmOC-1 O 0 z> - -�ZoGzjpo0Dmr im1m0V)OZO m�n 0 OF0 0� -ll zZnA m2 Zr� U)Z0-Oi �.-4 n6o zP0 7(n mmr Vxz- cnc v) rmCJ)- pm Wm m :5310N 11'2134 o� m<0 m mm z 0 ' Z Onld 1S31 n 0 • DO <-1 mx 0 r - MI k1-1 A LMH Onld 1531 r z U) ao n moo z )M0 a'c M C ={n Z0 p = > rn mW- =O crn__ X �n C C ��05m 1n0 ? nn 0 O z mz -<O n m m W ›mi PCZ mm m m0, xm QAC) r0 m -n 01 8 m k,m zom O z, :5310N 1IYl30 T M e i� � =ry MC-" MO m� M O CD Wr- -tn n -4 O 0 30 SIINn n21H1 W r O SIINf 1121H1 n0 O C �0 U) mm mm m Z1 zz O -10 m D ZDV r- 2 z 0 X V,r H 31VOS 01 ION W 00 mo >> r -- r- -710 40 O 0 309 • F I -u C7-5 wz 0 �03 �tn0in* m Ft7zr-rm 05m --1m Qz_Z-I Z00 FITIZ.<71 Om�nr�+t Z N r mw O mviO 701 -mm Cn7mD z�-lz 000 r-rxlm WOZC) -0 z D m z 0 WO -1 =0=15 �;z- r rnov -1 %°,m < omx0 n 0 m 013 n Qm o� nn 00 mIO -1m n xT z-'1 rm U)3>0 O�Z r0 >no W m r/3-1/ m (n-or- Mr- --0 -10 O0 M> OX MmO wXO 30P1 Q - O ji"I m c zo D71 Cn70Q m � P10) r WC N o7) w m r -1) (3-‹ rn m ✓ U) '1103 3H1 :S310N 11`130 O r - ie r cn 31VOS 01 ION co z c r- 0 ❑ m D_■ OM mZ O PI 0 • P1WP0NJ FOZ0 - ornowX rQz- m000 - rR m rw zm G7 0 Z r 00m mo. r r rO m mnz 30-10 0k z30 pr 31VOS 01 ION c 0 z =i r ❑ z JrnG) 1� r0 c 0 z -.� m 11 z n 0 0 ONI811111d AB ONldId N1b2IG '21013V 1NO3 38 11VHS 13NVd 10211NO3 'ON13IA23S 2103 318155333V W D K m 0> c3P1L-1 0z 0>00 V) Wmn OZ �rnrnr < -H rm mX 13W>00 .>^0z i " --1 _0 30 u)� p = tom - r rr1030 !n> co DDr rDO O-1* mrn. 0 m m zmO 00> 0*g F C C Z 1..171 11 0 O 30 13315 HIM 338ISSOd SV HDIH :5310N 1IV131 F 30 U)0 >m Z -<0 M MO 0 CM 30 U) ZD -= 1 Z 0 0 n 30 u 2 0 0 0 th 1v 0 egwnN ;naiad 91VOS ON epos 6UIMGJQ OVAH - S1I11130 fD 0 orrR n m 0cn 0 Z Zr) • u1 • N Z© �St — w O Cb 00 0 0 0. CD 0 c m D a 0 a N 0 O 1a c iaaul6u3 d3W EP_ cu ova-, - op co t 3-0 0 0) DC (0 c:P4� o40 CD W 0 90 aaauI6u3 ieinpni;s 0) a) o 0 60 Co OOtN� NQ 1 rh OCP ..a 0 a- a m c.na m 0 0 n 0 0 -a m m A A -I_1051,0") fl) CD 0(O N OI C) 0) 0 0 POM �C�DD(p y CJ1�oCO 0 s (D QV..' ^� O 5 `!o -n 0 0 1 m 0 -41 m Cin IIi• C:) Date issued 01/16/14 Project Number 20752.02 Drawing Scale NO SCALE LOAD SHED t,), NO College of Engineering Upson Hall 162 Renovation BID SET a ` a1 CD C� j 0 co _CD -/0 c� -<C c N7cr. ��ZO pp fD 0 Q "di N o) LD 0 Cil >1 - Com mac,= Zm 00 0 -N�. �WZ3N ow M m m m CO :D IDATE • y ss gyp. ,,,„.„‘.....iii,,,i DESCRIPTION 5� S L coW _. cow 5 -• CD `V1 V+ V w ^ ` O N oCD 0 rt. 08 W Q 93 N ♦ /Cia CD A -I_1051,0") fl) CD 0(O N OI C) 0) 0 0 POM �C�DD(p y CJ1�oCO 0 s (D QV..' ^� O 5 `!o -n 0 0 1 m 0 -41 m SIN :31VOS Wb'�IJvta 1O1:IWNOO dWfld -1VOldAl 2 N panssi amp 0 0, N aagwnN Barad z 0 to r- rn meos Bulimia 5 (wdel) 033dS 0 0 2 C cn C 2 to 2 P1 P1 0 0 0 K 0 0 5 n 2 C K 2 0 0 -1 t1) -4 0 IN3Wd11103 x 0 x 0 0 x x POINT SCHEDULE - TYPICAL PUMPS n x x x ri z 0 m to m to D 1 rn NOIIdIelOS3CJ 30 SINIOd 32iVMIJOS x x 0w x2 0 Z �o W D ED EJ) -4 Z m 0 30 0 Z ti D 0 0 z 0 0 z 0 30 P1 z 0 P1 to 3 3a aj m 3. 3 - o -60-0°D. 0 0 z W =.0.7EA R -+36.0 ctp 1 '' t:1_ @ E to N m co ~ - m .3i.Q3C m �mm -61 0100170 00- 0Io�oo c as (000 CLaw pj - co. 0 O S O 3. °"t°. < m 3 3 0. to to= ,.= — a0 3. -.0m_ . c O N 0 1 0 g O c tomo300 �a = a a- 0 3 °007 O O 0 f 0 grA 3 to a 0 -I 50-4300 O 0000 t—O to 0 r; -I. Cr 72= C 3 m 11g1F1. c C aam0�� 3m'a-oa 114100 d�a,a i m m pOyy — = 3m 3 0 m 0 aro e o Ca-m .*c ton m a3om- 0to2320 o m -3m(3 3 .0200.11 O -.'i 0. 0 0-10.0-0T O Cto0)=cm 0—. �3 0 3 m = to 'ta- 3 mmm 2.3Wmla o0_0—o 1:T00C'0 0 a,zmootu • 33N3f103S -o O > aA VFD --- ! 73 0mm >00 acm �m0 cn -71 Mm Z 0 Z7 Z 0' —i 13 0 < m P m n m z m 184 n .c to w ® m 0 0 O 0 O 3 w cocn m o 3 m_ 417 1 ( 0 0c7 o O O 3 =0,0 =a m o 0m a c is c 0 a) a O. a F. 0 0°P tc w O3 — 0 y a a tto m m c 011 to 3 to co 0. O 3 0. 8 = O a a rt 3 to co o 0 y 0 o Cm dwnd lealditi i 1 NOl.dId3S3a W31SAS 1V113N30 -1-18tld r SIN :31V05 m m z 0 0 0 z 0 v_ 0 K D rpt 30 i[7 --4 C 30 z P1 a 3D c 3D rpt rn X to C -1 P1 K 0 P1 X m 2 P1 n rpt X 0 2 0 3D C C P1 x x x 0 0 O D x 0 zg o_ Z 0 m r m n r m 1 X 0 n rn C) 1 co n x x x 3) z 0 x 0 to NOIld1240S30 SINIOd 321VMIJOS X x X x 83ONVHOX3 213d d3ONVH0X3 213d 213ONVHOX3 213d 2i3ONYHOX3 213d z 0 m in P m a 71 0 c -- 0c.m w mRaro 0 m 00® °zDo�o030e �am00= o r t0c 3 3 D o g 3 a ricoto vm to o � 0 0 1 R ... m tQ Cft C3 a'a O'o �m133 o Q2..a 0 ( m m o L" 3 0- 00 `m mO.0 O0 .0.0 �? o•• 2 0 o6 5giii O mow-. 0 Co m 3 0 3 3 a St a omo �gP 0. ;a m at •� o O t1 C•wts = 3 O ,� m �� • -0 O c 0 2 0 0 35 MCC St /148a 14 o8o oxa .-) 3 = O pa- O r.1° m 7 �. 3 5.r 2 IS0 t9 ' O 10 m6_0 a 0 0 0 CD tD0 m 00 821111e 0 am 0 NO11tl1:13dO AO 3ON3f103S " a 7 0 tQ O 0 c •° Q to t0 3 0 3 to °« 0 3 0. to a 0 0. w 0 to 3 m n 0 • so �1q o. ia6ueq}ax3 ;eaH NOIld1NOS30W31SAS 0 0 0 00 N d rr 1VEMIN3O - I.1atld • r !- • Xca n t0 M g00m O z N ( - Co tf -<(TO• O co O 0) O iaaui6u3 d3W at co�C-0-. j 00¢) O -am (00 0 j0 0 1''>c (A c I3 ©moo CO O 20 .laaui6u3 le.tn;3n.qS m -I CO N -0 X cD N O< Cr) r -P CD 0)n n V y.. n N 60 (0 > t /() tit ;in O N t? Oso V)c» 1.)0900 m 01 m 0 1 a 0 1 Cs m z we}dJVIa 1OJ1N0O 1:100 11:11:100 2 to 0 ponssi emu JaciwnN pefoid 31VOS ON epos 6uuv eiQ CD 5 Sa co o < 1Q Q• °130 C� CC 0� 43 Cr 0, 3a � ww�ii a C�D C . am 0 cr 0 0 < 0 3 ©0 a a 0 O if 7 Q- uo 0 co a fA m a 15 gw 0 p• 0S? 0 n Zone occupancy shall be determined based on a time of day schedule. AONVdf1000 30VdS OO(!)2^ �T1noc =z�z m(/1O-1c -i C -11-11 Z7:3irn doh nn > Zm00 0 -I'� 0 '71CZr-Tho Zr-11-10 X1CD*1 0-671-2 > Z X Z _10 7Ozr2 0 M Z O>(!) Mr -D- or -MD= M m O 3 x/ m c p alnpaLi3S I(auednaao auoZ PA-uoW'Wd 8 0l WV 9 Space Low Limit Temperature: 60°F Space High Limit Temperature: 85°F Bap V9 :paidnaaouf Occupied Setback: 67 deg F d Bap 0L :peldn330 i 4 t t t 00 Space Heating Temperature Setpoints: 0 W N d beP 48 :paidn000ufl d 6ap 8L nIoeq aS paldn000 1 6ap SL :paldnaao z P ;n m P P oo a 1'1 m a z rn _ -1 >>rA� aa�o 0a0 o ao � aw-80 a 3 �3 g* awN0 a3O� GCC �a'• 0o.4ac a00c to ca S -•O 0 .0. w•* 0 'O 0m a 3 a a 7� a ill '0 q;a .a 3 0 7 7=_5..1.0 w 2 a . o taD ill a .• .. o �:m. O ��, af0i 0. m C7 at r 0 a "w 3 a Pi -1 am 0 033 ���0. »-cam m3a'�'Mo '°3f1'D� 0o m� F1-.0 p j C0 2 !!! m a=.0 0 0 y o d ll m 0 m o 0 tq.ws ccg0-c O :::7.1 71Z:21557! _O i09 : C; CC3O0 0 3 7aQ...:03 w -O 7 .. a - �. �% O a fA sv m IL] a 0 c fn cD ,A' 05(1'11 w t00 al0 a rt=,: 3 -71: if 3 5 0001 Iv 5 -Zj t0 13 0O m= a 3 s °c. ma m 0 6 .. 0 0 a0 a 0 0 cyst 00x-0 mla0 c3u�3 m aa� c 0 �� 3•c -.00 a..► w O V.3 a a t" 9._ '0 003(0 o2 0• . o ms 0aS(AC'0 ..0.0.0 w Oa ga Cp0jtva co -m5fQ coo aaam-.W SoQw ,-. $0 a C 0 O "* ? a s 104 - a t�4 C m Q. S a <a 00a0 00 7p�1S+3wao a73ai a 00 co = 3 0 a a 3 -0a= a m ea4 fa°D O m0 0 o SD. a s c °a-' �'0 0 m 0® a c c m a?c no la fa 3 we a 3 ccs no am C w 3 a7 S� c'a. o m a ra m 0 00 Sao m2ca.in . 303o::a. 00(D0. a "a m• = w C•° �� C w a 131 = `3 a 7 a Sta a > C ID •0 0 3..-.3 3•a 3 °3 e4 °! 0 3 a w < a a a'aO 03C s,33.0 O'O0 a a C O. 0 3.0 a 0 m -v. m1O (�0D m t=n �'m c m a H 0e0� ami• ...7 2: '00!00•o ca3a w cv S m*atp1D 03m �3 .aaapm wS R7" 3 Cl a ay aSrt a7• • a:39.oi _ ; 10 o 3 0 3 3 0 .. m 0. a 7 a 0 c c m 0. 0 2�, to a 0 0 0 a. 3 a �; �= coo r, 1v a 3 3 c haw= �.a3.� as 20a3g 0g00 (3D ;. o c 0.0 Q N N -1..0 a 30 0 a .. t].0 in FL a S N a '' C Yi - .� w pp LA .. 0.6• S a 7 .0.Q a•Z t0) Ca. w -0 -=s a. t0 -"'0a a a to -3:.0 0. ma•• 3fl. aCLo00 'O(SDSaD c a CD fir �' � mas w•'O Slae3a.�". 0 ti= D a a ;:mom a a ..as 0, t04 a4 3 O am'a o3m 3a omm3 r m as 3 m a0• w0c Q.z s. E.5. 14. 3, 0 a p7"`} CO. 0 0 a ._; ?; ° C2 : 0 3 > S 0 m Si 0 0 a 2 r 5 0 0 a -. .a a a ra w C O 0 o m 0 The cooling control valve shall be closed when the fan coil unit fan is off. tCiq Y 9.,g1 p Space Cooling Temperature Set points: 1O1:IINOO MOIdHIV 1 Ea SJNIOd13S a The fan shall operate at constant speed whenever the system is indexed to operate. 13 10E1114100 033dS NVd 'el Ventilation VAV box w/ Reheat Coli Pun (loo ued adid-Z i NOIldIL3S30 W31SAS P t) m . a cn m .0 aim - <o O 0� 0 5 -0 51 clm0R a O S E [0 P. 0 t0 .< 0 00 3 S w a a 2 'w;o 3 ff3 0 O" aye q) - p 0 7' .0 0 » 4 - z c 9, I0D 0` a O I m a m a0 41 -4 -nm O =.0 X370 0017 0 S as a3 a » rt. mmm r"'a a o0 aOa0 - 0�Ca c 0 7•p a 07 calO.D m QQ. @7 0 1; a C C 0.., _o m07 ° co a rt 0a O*0 =73 a (12 � � Al 0 ID ...3 13*w 3 a 3 0 000 -0 U2 -. o a w w ID m� 0-a °o< 0 c o o . o 0 h y a a ••_. ° rk= (000 a.a 0 .a+• (p' a o -c 0 0 0 a as �'®ate.: 3ti a 7 3 E^'D 3 w o, ID O •M 0M< 030 o (D 5 d S0 C S 0 a O O 3 = ® a 3- 67 * o :. Fp' w a a 3 S a 3 ma o5° co S. *3 a3 m a !' 0 w 0 a as nam 7r O it3 la C 0 Q 0 a n 0 IVa3N30 - 41HVd MN • 0 rrt m 0 z A 1 + O to 0 m z -1 rU rn 11 z n 0 r- Jz 1 0 0 z 0 r- 0 0 0 0 r SPACE TEMPERATURE 'SPACE TEMPERATURE SETPOINT SPACE TEMPERATURE SETPOINT POINT SCHEDULE -SPACE SENSORS -TYPICAL (POINT SCHEDULE - SPACE SENSORS- TYPICAL REHEAT COIL LEAVING AIR TEMPERATURE REHEAT COIL VALVE POSITION COMMAND SUPPLY VAV BOX POSITION FEEDBACK (X) SUPPLY VAV BOX AIRFLOW SETPOINT (CFM) SUPPLY VAV BOX AIRFLOW FEEDBACK (CFM) SUPPLY VAV BOX DAMPER POSITION COMMAND (POINT SCHEDULE - VAV W/ REHEAT- TYPICAL IFCU FAN MOTOR START/STOP COOLING COIL CONTROL VALVE POSITION COMMAND CHILLED WATER LOAD SHED SUPPLY VAV BOX AIRFLOW SETPOINT (CFM) EQUIPMENT POINT SCHEDULE - FAN COIL UNIT - TYPICAL (POINT SCHEDULE - VAV W/ REHEAT- TYPICAL IFCU FAN MOTOR START/STOP COOLING COIL CONTROL VALVE POSITION COMMAND CHILLED WATER LOAD SHED EQUIPMENT POINT SCHEDULE - FAN COIL UNIT - TYPICAL x C3 HARDWARE POINTS X HARDWARE POINTS a O x 11111 x x O x x 11111 x x x O x I x x x •uuu: C SOFTWARE POINTS x X x o x A m C u>< III X X x x X w C) i x x >X<>< XX XX TREND X x BACS EMCS DESCRIPTION DD K X x x x VALVE COMMAND NOT EQUAL TO FEEDBACK 5°F DELTA T ACROSS COIL WITH VALVE COMMANDED CLOSED x x 10X FLOW DEVIATION FROM SETPOINT X X X X X X X x x XXX x X X X X X x SHOW ON NOTES GRAPHIC x BACnet MSTP NETWORK POINT FAIL LAST SINGLE POINT SENSOR BACnet MSTP NETWORK POINT BACnet MSTP NETWORK POINT NORMALLY CLOSED BINARY NETWORK INPUTS FROM EMCS 31VOS ON epos 6uuv eiQ CD 5 Sa co o < 1Q Q• °130 C� CC 0� 43 Cr 0, 3a � ww�ii a C�D C . am 0 cr 0 0 < 0 3 ©0 a a 0 O if 7 Q- uo 0 co a fA m a 15 gw 0 p• 0S? 0 n Zone occupancy shall be determined based on a time of day schedule. AONVdf1000 30VdS OO(!)2^ �T1noc =z�z m(/1O-1c -i C -11-11 Z7:3irn doh nn > Zm00 0 -I'� 0 '71CZr-Tho Zr-11-10 X1CD*1 0-671-2 > Z X Z _10 7Ozr2 0 M Z O>(!) Mr -D- or -MD= M m O 3 x/ m c p alnpaLi3S I(auednaao auoZ PA-uoW'Wd 8 0l WV 9 Space Low Limit Temperature: 60°F Space High Limit Temperature: 85°F Bap V9 :paidnaaouf Occupied Setback: 67 deg F d Bap 0L :peldn330 i 4 t t t 00 Space Heating Temperature Setpoints: 0 W N d beP 48 :paidn000ufl d 6ap 8L nIoeq aS paldn000 1 6ap SL :paldnaao z P ;n m P P oo a 1'1 m a z rn _ -1 >>rA� aa�o 0a0 o ao � aw-80 a 3 �3 g* awN0 a3O� GCC �a'• 0o.4ac a00c to ca S -•O 0 .0. w•* 0 'O 0m a 3 a a 7� a ill '0 q;a .a 3 0 7 7=_5..1.0 w 2 a . o taD ill a .• .. o �:m. O ��, af0i 0. m C7 at r 0 a "w 3 a Pi -1 am 0 033 ���0. »-cam m3a'�'Mo '°3f1'D� 0o m� F1-.0 p j C0 2 !!! m a=.0 0 0 y o d ll m 0 m o 0 tq.ws ccg0-c O :::7.1 71Z:21557! _O i09 : C; CC3O0 0 3 7aQ...:03 w -O 7 .. a - �. �% O a fA sv m IL] a 0 c fn cD ,A' 05(1'11 w t00 al0 a rt=,: 3 -71: if 3 5 0001 Iv 5 -Zj t0 13 0O m= a 3 s °c. ma m 0 6 .. 0 0 a0 a 0 0 cyst 00x-0 mla0 c3u�3 m aa� c 0 �� 3•c -.00 a..► w O V.3 a a t" 9._ '0 003(0 o2 0• . o ms 0aS(AC'0 ..0.0.0 w Oa ga Cp0jtva co -m5fQ coo aaam-.W SoQw ,-. $0 a C 0 O "* ? a s 104 - a t�4 C m Q. S a <a 00a0 00 7p�1S+3wao a73ai a 00 co = 3 0 a a 3 -0a= a m ea4 fa°D O m0 0 o SD. a s c °a-' �'0 0 m 0® a c c m a?c no la fa 3 we a 3 ccs no am C w 3 a7 S� c'a. o m a ra m 0 00 Sao m2ca.in . 303o::a. 00(D0. a "a m• = w C•° �� C w a 131 = `3 a 7 a Sta a > C ID •0 0 3..-.3 3•a 3 °3 e4 °! 0 3 a w < a a a'aO 03C s,33.0 O'O0 a a C O. 0 3.0 a 0 m -v. m1O (�0D m t=n �'m c m a H 0e0� ami• ...7 2: '00!00•o ca3a w cv S m*atp1D 03m �3 .aaapm wS R7" 3 Cl a ay aSrt a7• • a:39.oi _ ; 10 o 3 0 3 3 0 .. m 0. a 7 a 0 c c m 0. 0 2�, to a 0 0 0 a. 3 a �; �= coo r, 1v a 3 3 c haw= �.a3.� as 20a3g 0g00 (3D ;. o c 0.0 Q N N -1..0 a 30 0 a .. t].0 in FL a S N a '' C Yi - .� w pp LA .. 0.6• S a 7 .0.Q a•Z t0) Ca. w -0 -=s a. t0 -"'0a a a to -3:.0 0. ma•• 3fl. aCLo00 'O(SDSaD c a CD fir �' � mas w•'O Slae3a.�". 0 ti= D a a ;:mom a a ..as 0, t04 a4 3 O am'a o3m 3a omm3 r m as 3 m a0• w0c Q.z s. E.5. 14. 3, 0 a p7"`} CO. 0 0 a ._; ?; ° C2 : 0 3 > S 0 m Si 0 0 a 2 r 5 0 0 a -. .a a a ra w C O 0 o m 0 The cooling control valve shall be closed when the fan coil unit fan is off. tCiq Y 9.,g1 p Space Cooling Temperature Set points: 1O1:IINOO MOIdHIV 1 Ea SJNIOd13S a The fan shall operate at constant speed whenever the system is indexed to operate. 13 10E1114100 033dS NVd 'el Ventilation VAV box w/ Reheat Coli Pun (loo ued adid-Z i NOIldIL3S30 W31SAS P t) m . a cn m .0 aim - <o O 0� 0 5 -0 51 clm0R a O S E [0 P. 0 t0 .< 0 00 3 S w a a 2 'w;o 3 ff3 0 O" aye q) - p 0 7' .0 0 » 4 - z c 9, I0D 0` a O I m a m a0 41 -4 -nm O =.0 X370 0017 0 S as a3 a » rt. mmm r"'a a o0 aOa0 - 0�Ca c 0 7•p a 07 calO.D m QQ. @7 0 1; a C C 0.., _o m07 ° co a rt 0a O*0 =73 a (12 � � Al 0 ID ...3 13*w 3 a 3 0 000 -0 U2 -. o a w w ID m� 0-a °o< 0 c o o . o 0 h y a a ••_. ° rk= (000 a.a 0 .a+• (p' a o -c 0 0 0 a as �'®ate.: 3ti a 7 3 E^'D 3 w o, ID O •M 0M< 030 o (D 5 d S0 C S 0 a O O 3 = ® a 3- 67 * o :. Fp' w a a 3 S a 3 ma o5° co S. *3 a3 m a !' 0 w 0 a as nam 7r O it3 la C 0 Q 0 a n 0 IVa3N30 - 41HVd MN • 0 rrt m 0 z A 1 + O to 0 m z -1 rU rn 11 z n 0 r- Jz 1 0 0 z 0 r- 0 0 0 0 r 3'�m as 0:f < 0 00 A Y m o a c m 0 =ics` a Q co O= -.. a 7 ��C 0> - 0 C a C Cr cr el 4,-; .E-1. 00 71 K 3 3• a ma 0 > o G C= ID o 0 0 (m m 3 Q. Q 0 0 < 0te. a g 0 v, fa 0. .0 710- C w 0 a m3 a O tO 4< 5 0 0 m .O 3 m O. tb Q a 3 0 0 m o fa 3 3 a 0 = Co SO. tD w =m P The cooling control valve shall be closed when the fan coil unit fan is off. o C 0 m o 3 e 0 c .O 3 a L[ a a O. a R a. a m to to a O C, 0 3 0 3 2 0 3 o_ 0. co a a C fD w 0. to co 0 co i A AONVdl000 30VdS m o n Zone Occupancy Schedule: 6 Am To 8 Pm, Mon -Fri Space Low Limit Temperature: 60 °F Space High Limit Temperature: 85 °F Gi N A Bop t79 :paidnaoou6 d 6ap 19 3laegjes paldn000 A Bap 0L :paldn000 m Space Heating Temperature Setpoints: 11 m v 0 P a 3 0 C qua 0. ao0 S3 7 00 =* C at 5,5 CLCOm o53a wma atDa0 - oz p.-•= 7 -a a o Q 3 fQ a 1 iC a c C Cr. 0 7 2 'am 3I aaa�a mhr, a <a 3 0 m 2C= a S '0 a a= 0 a 0 a o=00 . n _ o. 0, C �• fA co E0 -0 a w a 03--.;(gaa 0 11 -s C 0o00 a CL 51 1Q a 5 3 a n t0 40 3. 23/g 2Oa .0 0-_ '00* q S .-....3 �p3 a o a a % a0 0-E § a O 0 A:a'a 0m tir F' a (CD•0 w W 0 4i C w (n) a 3 A N a- . ri cr O -00 < 0 O. 0 a 0 00 Cu a0 (u w 3 - a= so fp .100 000 a5 a 010 'a* S 2 00 clau 3. 0. m 0' - w 7 oto 7` 0 0 0 0 C_ tDa 0 Q Et 2 04-0 a a• 30. .'n 3 C CD mm a so0('io0O ("poia to33on w3'w 1) 0 0 0 0 43.4 3= a a a c 10 cILT .w. a.. a 1wa�. °'n A.a O y'O t2 I 28 O fA to a w. a•a 30.c C 3 0 m wfG 0.0.310 -10 0 o -1 .0 a.. p, -« 3.0 < 0 (I) 0.0u5 - s=000 o to 5- 3 •0 O W 3 3 as "•-� Y.rC1 fp to S Ili- cw3fC,3tO t�DacDO'w n0�m03a3S....a to9.oar°,�S_ a w0a 0 C ° cc< 00.OafA - fD w - a a 073.28g 'ZIgg (sc•a3aD0o a(p°*3 SG 3 Ct. ' • p) af0 cOgC= N...1Qr* 021- ofrta',a' 0 (o0 C.090 3,a� mla m S 3 SD a C O rt a a -c= oUoam ;:*aa fira.i� amat0, 0 a'a 7 O m.•3�033 0...aa a ca *O .3•. '000 la 3,300020 ,3000 aSa • omc°1ih fa °Fa maaaa 8a Im 3 - m aw 8 S a as c C 0 c -t m 0 0 0 fA DD ID C a Q. is w a O. 0 Co 0 3 2 O 3 0 10 3 m a 54 A Bap 48 :paldnaaou f i Co 1OW.N00 3Uf11Va3dIN313NOZ A Bap 8L :)loegies paidnoao .d A 6ap gL :paldn000 Space Cooling Temperature Set points: P Q.0 0.0 c O C a 3 O 3 w a 3 0 0 2. caoc la- ca A)_ a 3 a 0 o 0 A 3 2 3a 5. 3ra C -D 1a 5' 5 0 m 3a 30 a0 0= O O .R -a ri - `< Co A a c C 0 a C 0 cr x 0 < •0a m0 hit o. a 0 a a O 0 0 0 >;m a co OS 0 w O S 7 ca-. C C * 0 0 a w lueinsuo3 woo SINIOd13S y -I01A1N00 MOR(((N j N 0 0 W a rn0 0 m a z rn T a a W EL IW o 0 50 '` V) co CO 0o O1 m a , w :'q ma .. 0m a 0- so 0 0 ID a, 6 eD °. °. 5 ca 0 3 5 to co w !.i 3 0 a CSO a I 33 3 co a S a 0 w Z at ,.a.a 3 3 IDD 0 -t 0 CD a e m 3 O. a 0 3` a to ID w R. O St The fan shall operate at constant speed whenever the system is indexed to operate. l a, 1081N00 033dS NVd •algetsnlpe the building automation and control system (BACS). xoe AVA 4sneyx3 leJauao I!00 }eagaa Ja4eM 1OH (41IM xoq AVA uo13elnuaA Win 1103 ued 001C1 -Z NOI1dIH0S3O W31SAS P n W n a XI -I �.1 030 4 0ID = O N 0 O. C .a...0 0 as c c 3 w 0 c o to a 0 0 01cr, O r: 0 tQ 0 a) 00- 1) O 0 0 Fri. c0a C3- 'a S0 a a0 23 a co ma-w m..a ado a a Eri3 c n� < tow g cow _wtna; s a0 =0. OO0o. 3 ama o "� a� c a C o °3 Ca. 0 O m a O 7< 3 (a 3 ro 5'- 5 to O ..a » 7 3 a coS, �1D0 0w3 0 as a t�wc w -00 too 3'{0 wpm 0 ca 2• 0'a, 0 0 c 0� 3 0- m 0 cn O fD a = a a0�• f m 1 co 0 3q a 74. FT a ro a'< t7 a, III ?, 3D - a �. 0 00 e a 0 'G * a = S m 0.. =$D 0 6 as 7' 0. y 0. =IT, n. O m a 3 a•3g3 0. .. S 00,0 ID aa s tniam x - a nw � m C 2 0 a Q. O 0 xC c,CD c (1) O I .•. Oa C/3". 0 CO OCP -<CD COLD @CO-I� 71 ° 0 r 3 DCS" rD 010 Fri W © Sp Jaeuifiu3 d3W Jeau16u3 IeJnPfl 4S IVH3N3D - L ll lYd m z m 2 2 a 0 3 0 SPACE OCCUPANCY SPACE TEMPERATURE SPACE TEMPERATURE SETPOINT (POINT SCHEDULE - SPACE SENSORS- TYPICAL EXHAUST BOX POSITION FEEDBACK (X) EXHAUST BOX AIRFLOW SETPOINT (CFM) EXHAUST BOX AIRFLOW FEEDBACK (CFM) EXHAUST BOX DAMPER POSITION COMMAND POINT SCHEDULE - GEX- TYPICAL REHEAT COIL LEAVING AIR TEMPERATURE REHEAT COIL VALVE POSITION COMMAND SUPPLY VAV BOX POSITION FEEDBACK (X) SUPPLY VAV BOX AIRFLOW SETPOINT (CFM) SUPPLY VAV BOX AIRFLOW FEEDBACK (CFM) SUPPLY VAV BOX DAMPER POSITION COMMAND (POINT SCHEDULE - VAV W/ REHEAT- TYPICAL IFCU FAN MOTOR START/STOP COOLING COIL CONTROL VALVE POSITION COMMAND CHILLED WATER LOAD SHED EQUIPMENT POINT SCHEDULE - FAN COIL UNIT - TYPICAL x cD HARDWARE POINTS 11111 x O x 11111 x > •uuu: x X x o X u>< III X X x x X a X x x x x x x X X X X X X x x X x x ALARM BACS EMCS DESCRIPTION VALVE COMMAND NOT EQUAL TO FEEDBACK 10X FLOW DEVIATION FROM SETPOINT 5°F DELTA T ACROSS COIL WITH VALVE COMMANDED CLOSED VALVE COMMAND NOT EQUAL TO FEEDBACK 10X FLOW DEVIATION FROM SETPOINT x x x x x x X x x X X x x x SHOW ON GRAPHIC BACnet MSTP NETWORK POINT BACnet MSTP NETWORK POINT BACnet MSTP NETWORK POINT SINGLE POINT SENSOR 1 FAIL LAST BACnet MSTP NETWORK POINT BACnet MSTP NETWORK POINT BACnet MSTP NETWORK POINT NORMALLY CLOSED BINARY NETWORK INPUTS FROM EMCS NOTES 3'�m as 0:f < 0 00 A Y m o a c m 0 =ics` a Q co O= -.. a 7 ��C 0> - 0 C a C Cr cr el 4,-; .E-1. 00 71 K 3 3• a ma 0 > o G C= ID o 0 0 (m m 3 Q. Q 0 0 < 0te. a g 0 v, fa 0. .0 710- C w 0 a m3 a O tO 4< 5 0 0 m .O 3 m O. tb Q a 3 0 0 m o fa 3 3 a 0 = Co SO. tD w =m P The cooling control valve shall be closed when the fan coil unit fan is off. o C 0 m o 3 e 0 c .O 3 a L[ a a O. a R a. a m to to a O C, 0 3 0 3 2 0 3 o_ 0. co a a C fD w 0. to co 0 co i A AONVdl000 30VdS m o n Zone Occupancy Schedule: 6 Am To 8 Pm, Mon -Fri Space Low Limit Temperature: 60 °F Space High Limit Temperature: 85 °F Gi N A Bop t79 :paidnaoou6 d 6ap 19 3laegjes paldn000 A Bap 0L :paldn000 m Space Heating Temperature Setpoints: 11 m v 0 P a 3 0 C qua 0. ao0 S3 7 00 =* C at 5,5 CLCOm o53a wma atDa0 - oz p.-•= 7 -a a o Q 3 fQ a 1 iC a c C Cr. 0 7 2 'am 3I aaa�a mhr, a <a 3 0 m 2C= a S '0 a a= 0 a 0 a o=00 . n _ o. 0, C �• fA co E0 -0 a w a 03--.;(gaa 0 11 -s C 0o00 a CL 51 1Q a 5 3 a n t0 40 3. 23/g 2Oa .0 0-_ '00* q S .-....3 �p3 a o a a % a0 0-E § a O 0 A:a'a 0m tir F' a (CD•0 w W 0 4i C w (n) a 3 A N a- . ri cr O -00 < 0 O. 0 a 0 00 Cu a0 (u w 3 - a= so fp .100 000 a5 a 010 'a* S 2 00 clau 3. 0. m 0' - w 7 oto 7` 0 0 0 0 C_ tDa 0 Q Et 2 04-0 a a• 30. .'n 3 C CD mm a so0('io0O ("poia to33on w3'w 1) 0 0 0 0 43.4 3= a a a c 10 cILT .w. a.. a 1wa�. °'n A.a O y'O t2 I 28 O fA to a w. a•a 30.c C 3 0 m wfG 0.0.310 -10 0 o -1 .0 a.. p, -« 3.0 < 0 (I) 0.0u5 - s=000 o to 5- 3 •0 O W 3 3 as "•-� Y.rC1 fp to S Ili- cw3fC,3tO t�DacDO'w n0�m03a3S....a to9.oar°,�S_ a w0a 0 C ° cc< 00.OafA - fD w - a a 073.28g 'ZIgg (sc•a3aD0o a(p°*3 SG 3 Ct. ' • p) af0 cOgC= N...1Qr* 021- ofrta',a' 0 (o0 C.090 3,a� mla m S 3 SD a C O rt a a -c= oUoam ;:*aa fira.i� amat0, 0 a'a 7 O m.•3�033 0...aa a ca *O .3•. '000 la 3,300020 ,3000 aSa • omc°1ih fa °Fa maaaa 8a Im 3 - m aw 8 S a as c C 0 c -t m 0 0 0 fA DD ID C a Q. is w a O. 0 Co 0 3 2 O 3 0 10 3 m a 54 A Bap 48 :paldnaaou f i Co 1OW.N00 3Uf11Va3dIN313NOZ A Bap 8L :)loegies paidnoao .d A 6ap gL :paldn000 Space Cooling Temperature Set points: P Q.0 0.0 c O C a 3 O 3 w a 3 0 0 2. caoc la- ca A)_ a 3 a 0 o 0 A 3 2 3a 5. 3ra C -D 1a 5' 5 0 m 3a 30 a0 0= O O .R -a ri - `< Co A a c C 0 a C 0 cr x 0 < •0a m0 hit o. a 0 a a O 0 0 0 >;m a co OS 0 w O S 7 ca-. C C * 0 0 a w lueinsuo3 woo SINIOd13S y -I01A1N00 MOR(((N j N 0 0 W a rn0 0 m a z rn T a a W EL IW o 0 50 '` V) co CO 0o O1 m a , w :'q ma .. 0m a 0- so 0 0 ID a, 6 eD °. °. 5 ca 0 3 5 to co w !.i 3 0 a CSO a I 33 3 co a S a 0 w Z at ,.a.a 3 3 IDD 0 -t 0 CD a e m 3 O. a 0 3` a to ID w R. O St The fan shall operate at constant speed whenever the system is indexed to operate. l a, 1081N00 033dS NVd •algetsnlpe the building automation and control system (BACS). xoe AVA 4sneyx3 leJauao I!00 }eagaa Ja4eM 1OH (41IM xoq AVA uo13elnuaA Win 1103 ued 001C1 -Z NOI1dIH0S3O W31SAS P n W n a XI -I �.1 030 4 0ID = O N 0 O. C .a...0 0 as c c 3 w 0 c o to a 0 0 01cr, O r: 0 tQ 0 a) 00- 1) O 0 0 Fri. c0a C3- 'a S0 a a0 23 a co ma-w m..a ado a a Eri3 c n� < tow g cow _wtna; s a0 =0. OO0o. 3 ama o "� a� c a C o °3 Ca. 0 O m a O 7< 3 (a 3 ro 5'- 5 to O ..a » 7 3 a coS, �1D0 0w3 0 as a t�wc w -00 too 3'{0 wpm 0 ca 2• 0'a, 0 0 c 0� 3 0- m 0 cn O fD a = a a0�• f m 1 co 0 3q a 74. FT a ro a'< t7 a, III ?, 3D - a �. 0 00 e a 0 'G * a = S m 0.. =$D 0 6 as 7' 0. y 0. =IT, n. O m a 3 a•3g3 0. .. S 00,0 ID aa s tniam x - a nw � m C 2 0 a Q. O 0 xC c,CD c (1) O I .•. Oa C/3". 0 CO OCP -<CD COLD @CO-I� 71 ° 0 r 3 DCS" rD 010 Fri W © Sp Jaeuifiu3 d3W Jeau16u3 IeJnPfl 4S IVH3N3D - L ll lYd m z m 2 2 a 0 3 0 SIN : 1VDS WW}IJVIC 101:11N0O �WnHV ds � w CA 11 0 13 • CD OC '3Z cmC mp3� Ofd -D CCD- ,. W CA 30 3m :c 30m53 =X*� XI 3 m V ED 2) "arn m 33 $ 42 0 "m � m CC 0 m co I 0 rr m 0: 41) / m E g 0 a m (A 3 -nE a0:52 n O i 0 C a• fib 3: x' 0 A Ufl ^wl go 0 c C -a. c 000 Sam °mcrm co 0" ,� c C 0. 0 0 00 0O m3r" 32.N mea c0 met, -•2 3p pr 30 07sc m*0 -r ..r0 a.e as *D mm3 m• #r� 0 •9m ID0. g'� W * 3 Hi c�3 � mo CD c 300 3mac CI ..r -� 3 m m CD m t -mom 0 c.> 71 aS =,m 023 -�. m to m- 3 3 N E. -n a- A.0 -a m d 5.08 g m F0 0) Ort c gmm +0. m a-. 0 0m mrt ac0o comm 3 3 '0 c - Vic. -IC R m 0.N O. m LA ? m 0• = co - 0D w $ y m m - ,0. 0 m 7 C S 3 m o. ma to 0 0 3 Q 0 = 0` 'r 3 .. 21 a 0 O. m 0 0 r: `7 a _ 00 O.0 0i O "*3 3•m to ac C C c .7m m '�"- 0 o co 5.1 •'r 100 ° m 33m mF_A, 0.0 m_,� x ma comm 0- to 5 m rt c m 0 N {y 0 a. 3 3. m p .r m a m m 0 c a m .p on -. 0 0 7- CEt ri: C0 mac o ^r a 0. m o O Eu 3 G � m m. =- m O 0 m to H e0 M •• m L Energy Recovery Wheel Control i c z m 7.1: m �.S "* m 0 0 a co 0 m am woo= 03 3S'". c-o-� it 0Ap mam .- m.O = c-, cc 0�00c2 .3.m Ti m o• DO 3 ..r 17.) co C m =-0 O .« m aA>r* =• 00 0.p 5'3 m m rt• coca 0 m y 0 C w ,� w S m D mO �rfs � < mrg 0CyI�q Q = crO 0 m C C O 0 0 .a00 0a.a 0m 0 00 m 47 C c 20 00:°rt0 0 .0 d. 0o O 0 0. 'G a3 � Cp 12 p., m m rt 0 E. '0 10 D3 m a' - c 01 0) 3 ..m -•0 0• 0 at C p O0 3 3) O w G 00 a o i ? 7 El m 0 i7' 5 co O -pi m m to m 3 0 a .Or a 0 0 m m 3 aa a 'co - m co lased aanssaad 3UUe4S = msa .m 3 o 0 = N = 3 -° C Q Z •c A,ia 0 3 m 0 3 CD gD m C A 30 m 3 0x10 41 U li m m ZCD CA CD 3g m I A) m 0 w -1 m m m (00 30 a to m m C3 m aA m 0 co n cr 00 m a c m m a 5 Discharge Temperature Reset ERW TOTALIZED RECOVERED ENERGY (BTU/YR) ERW RECOVERED ENERGY (BTUH) 1ERW EFECTIVENESS EXHAUST DUCT SMOKE DETECTOR STATUS EXHAUST DOWNSTREAM STATIC PRESSURE SET POINT EXHAUST DOWNSTREAM STATIC PRESSURE EXHAUST FAN DISCHARGE PRESSURE SWITCH STATUS !EXHAUST FAN SPEED (RPM) EXHAUST FAN STATUS EXHAUST FAN MOTOR START/STOP EXHAUST AIRFLOW EXHAUST AIR DAMPER STATUS EXHAUST AIR DAMPER POSITION COMMAND [SUPPLY DOWNSTREAM STATIC PRESSURE SET POINT SUPPLY DOWNSTREAM STATIC PRESSURE SUPPLY DUCT SMOKE DETECTOR STATUS AHU TEMPERATURE SET POINT SUPPLY FAN SUCTION PRESSURE SWITCH STATUS SUPPLY FAN DISCHARGE PRESSURE SWITCH STATUS SUPPLY FAN SPEED (RPM) SUPPLY FAN POWER (KW) SUPPLY FAN STATUS SUPPLY FAN SPEED COMMAND SUPPLY FAN MOTOR START/STOP SUPPLY AIRFLOW CHILLED WATER RETURN TEMPERATURE CHILLED WATER SUPPLY TEMPERATURE COOLING COIL CONTROL VALVE POSTION COMMAND COOLING COIL DISCHARGE AIR TEMPERATURE PREHEAT COIL GLYCOL LOOP RETURN TEMPERATURE PREHEAT COIL GLYCOL LOOP SUPPLY TEMPERATURE PREHEAT COIL/AHU DISCHARGE AIR TEMPERATURE PREHEAT COIL PUMP START/STOP PREHEAT COIL VALVE POSITION COMMAND ERW EXHAUST AIR ENTHALPY ERW EXHAUST AIR RELATIVE HUMIDITY ERW EXHAUST AIR TEMPERATURE ERW RETURN AIR TEMPERATURE ERW RETURN AIR FILTER RACK DIFFERENTIAL PRESSURE ERW SUPPLY AIR ENTHALPY ERW SUPPLY AIR HUMIDITY ERW SUPPLY AIR TEMPERATURE SET POINT ERW SUPPLY AIR TEMPERATURE ERW SPEED (RPM) ERW STATUS ERW POWER (KW) ERW SPEED COMMAND ERW MOTOR START/STOP ERW ROTATION OUTSIDE AIR FINAL FILTER RACK DIFFERENTIAL PRESSURE OUTSIDE AIR PREFILTER RACK DIFFERENTIAL PRESSURE OUTSIDE ENTHALPY OUTSIDE AIR DEWPOINT OUTSIDE AIR RELATIVE HUMIDITY [OUTSIDE AIR TEMPERATURE OUTSIDE AR DMAPER STATUS OUTSIDE AIR DAMPER POSITION COMMAND STEAM LOAD SHED EQUIPMENT rPOINT SCHEDULE - AHU-1 X X X x X X X X X X X X X 0 HARDWARE POINTS x x x x x x ID 0 o x x x x x x x x x x x x x x x x x x x x D x x X x X O x x x x x x I x x x x x x x x x x x D C f SOFTWARE POINTS x w CO C 1 0 1 x x x x x x x x x x x x x x x x x X x x x x x x x x x x x x x x x x x x x x x x x TREND x x x x x x x x x x x x x x x x x x x BACS ALARM x x x x x x x x x x x x x x x EMCS 10/. DEVIATION FROM SET POINT 1 Z r- - 10X DEVIATION FROM SET POINT LOW LIMIT HIGH LIMIT C 2 +/- 4 DEG DEVIATION FROM SET POINT +/- 4 DEG DEVIATION FROM SET POINT 5 DEG DELTA T ACROSS COIL WITH VALVE COMMANDED CLOSED HIGH LIMIT C rn HIGH LIMIT NO ROTATION WHEN WHEEL IS COMMANDED "ON" HIGH LIMIT BELOW 38 DEG F xxxx x x xxxx x x x X x x x x x x x xxxx x x x x xxxx x x x xxx x x x x x x xxxx x x x X x xxx X _ >0 ro =O CALCULATED BASED ON ENTHALPY CALCULATED BASED ON ENTHALPY CALCULATED BASED ON ENTHALPY BACnet MSTP NETWORK POINT VIA CONTACT ON DRIVE BACnet MSTP NETWORK POINT INTERLOCK WITH FA SYSTEM INSTALL IN INLET CONE BACnet MSTP NETWORK POINT BACnet MSTP NETWORK POINT VIA CONTACT ON DRIVE INSTALL IN INLET CONE INTEROCK WITH FA SYSTEM AVERAGING SENSOR AVERAGING SENSOR CALCULATED VALUE NORMALLY OPEN MAGNEHELIC INDICATING TRANSMITTER CALCULATED VALUE BACnet MSTP NETWORK POINT 1 BACnet MSTP NETWORK POINT 1 MAGNEHELIC INDICATING TRANSMITTER INTERLOCK WITH FA SYSTEM MAGNEHELIC INDICATING TRANSMITTER CALCULATED VALUE CALCULATED VALUE NOTES BINARY NETWORK INPUTS FROM EMCS O � a G o .+ iT m m. m = 0: 0a C o. 3cr� a m to mai m 0 0 00 3• +4 St 0 o a G C :a a.1:1.t O c+.0 5 - 00 8 m 0• 0 O m C 0 m rt m a 0 3 O a C 50 00 0 O Supply Air Temperature Control n m P 0 !D = -0 3 o m, ei 3 V Yi (0 0 0 ,7 5 Eo a 3 m m m m em � rt C m� 0'0 i K c c � m 7 0 o to 6E c � S -e1, 0• 0 3 w m m P• �m �m c o c� co a4( '0 W 19 .0 5 rr = V 0 C -, a-. co1< to -'33' ,a 3` a}° .1' lig 00. m m.a.1m° ac o< CQ m Al t ? Q N y .1 07• 'a 6 m -I Al .0 OT O Q m m m 3 0 m 0 m a O c 0p c CA O m 52.0 Nm abl.�-: 3a m° 'm°1a •0- m ow m m et e m Cm O c a. m c.3. (0 cSt,co c. c= 0. O Q 0 0 .4 co 9 d = a C 0am 0 m 0 O Al= m 001•m a 41 - .4.c co to g c fJ3 z .C o coo H 0 .Cy *o 00. y 31 m 3 (0 3: 9. as A) C m0 0m o3 -. -r m° 0. l m ° 0. G . a. m �. .�., "C m 3 m o N m m 0 0.7 g= m, °0Ema c -c co Sm a) m m 0. .°r 7C q fA 0 5' 01 - O O« 3m m t" m 0 O m° o° aa °j33 -...m a. e�n3 a;'_° m m vi �m my O..a 0. �'0. tT13:1 m Q. c m p 5 * 0- xi 7 3m �, m NO LTO m m m 53~ m_+ 3 P. 0 t0 �• cr OO. 51 m y ? 3 O 'C {0 00 ,m.�, C 0 Sit N S ° m ec m m m 0° O 0. 0 N m .� C1 SNOIiV83dO AO 33N3f103S tJ N mo 3 0 5. 3 3 m co .0 c c m a ID 0N .4 0 `C EA n 3 a Q 2.- X 0 74- -o O m Same as AHU discharge temperature aanleaadwal illi► a6regasla ieegm i :aanleaadwal alt! a6aegosla SINIOd13S co co a N St c, c 0) SET c = c m m Ea 3 3m 3 5 03 0. 00 m 0 0 °. •algelsnipe eq !legs slulodles IIV System shall be controlled through the building automation and control system (BACS). 1VS3N3D I. -IHV llul IGan039E1 A63au3 NOI1dIUOS3O W31SAS 1Vki3N]D - L 1HVd • • r-, mZ00=0 mDzr OHTICCC 07z} 0 c3D -im-i 7J >0 mmcO-0 P etri �ooU1rz� tymoo m�zco_orr coo H <-10 7:),-,.=!O� D < xi00(f) 70 LJl (/S C') DI '11V F H m 0 11 H VFD 0 rul O -I r- n • • n 0 rv1 Iw O H G7 HI �D =D _i kJ -i TJ P1 P1 V) U1 C C C1 P1 A N 6 '! . . I • 1 I E. :1. 0 z O 171O = o O 0▪ . O 00- ->� Cog >D m 0 ill 0 z_ 0 0 0 11 r- 0 0 0 z z 0 m- cm Kn Kim Zoo CC-IZO mcOz z o c -d oxm 00> >1-1 � D 00 Z m 24x16 O.A. 10x40 111*00 0-00 Mom° me°Z zED:jn �mzm P1-0 0E r m c 0) N 41. / / / / / / / Fn - 0) x N N z O 2 N. P100 c-00 m Z o -T3 Z73KWMD- ZWC7=in Zfr! F 32x12 S.A. *m mnx D--1 ---1 t -1 O z= OF r -1 m 00 mm O z -10 00 m-< >0 z (E)12" CWS (E)12" CWS (E) -13 WR 1 (E)12" CWR 1"LPC -run om ,m o0 zz c O n -•1 2 !v z 0 0 ,z -1 U) om 00 O � Z CGZ7 zz 0 C 0 Oow-Z-1 zm 'T' =nz ZNrnO C. zm�� 0 21/2" CWR FT —1111-0 FT • 1 X 21/2" CWS 2%2" CWR 21/2" CWS 2%2" GR 2/2" GS m c N 0 0 73 CA C) F N 2" CWS 2" CWR 11/2" GS -0---- 11/4" GR--- a° Q Fri t7t € N N V 70 v � o CP L LJ A Ti-�CDWOLEY 33 ma) 0 06D cp CO • cn to o c :can' O�N(A o. 0 0 rF 6 cn 0='cp0 m O 0 n m n m m ,;L . Cornell University. -il Upson Hall 162 Renovation BID SET i ." 4` 'II tfi.7i .4t340, VA :,.-tel: Code Consultant Code Consultants 215 West 40th Street New York, NY 10018 Tel: 212-216-9596 Fax: 212-216-9619 MEP Engineer M/E Engineering 150 North Chestnut St Rochester, NY, 14604 Tel: 585-288-5590 Fax: 585-288-0233 DATE DESCRIPTION Structural Engineer Simpson Gumpertz & Heger 41 Seyon St., Building 1, Suite 500 Waltham, MA 02453 Tel. 781-907-9000 A Ti-�CDWOLEY 33 ma) 0 06D cp CO • cn to o c :can' O�N(A o. 0 0 rF 6 cn 0='cp0 m O 0 n m n m m D 0 m C) Z n r.. 0 0 11 0 0 r- 0 0 C C) 0 (c), )=Y V 24x16 O.A. 24x16 EXHAUST (E)15x10 {E)22x26 v u P1 rn N N rn N N_ r-, L m n z r 0 0 0 ZIxZ2 • \• \ \ / \ / / \ • f 1 / \ 'V'S ZIxZ2 ISflVHX3 91.x17Z 0 c -4 :S31.0N ONIMV}I❑ 0 3: CA) on 0 A © C cp N -a . cO cr n m U) c "D .... .... H 73 ca = oo Er. O z LSA4 11r4 teln s I:1 0 Fes+ A. r,}y. :a E,, g gt .e.C ,,, - "4,,,..,t, 4i leis Code Consultant Code Consultants 215 West 40th Street New York, NY 10018 Tel: 212-216-9596 Fax: 212-216-9619 MEP Engineer M/E Engineering 150 North Chestnut St Rochester, NY, 14604 Tel: 585-288-5590 Fax: 585-288-0233 AYETTE Architect Payette Associates Inc. 290 Congress Street, Fifth Floor Boston, MA 02210-1005 Tel: 617-895-1000 Fax: 617-895-1002 DATE f DESCRIPTION I .1,1 mtv:, 0 0 0 file" 2 Structural Engineer Simpson Gumpertz & Heger 41 Seyon St., Building 1, Suite 500 Waltham, MA 02453 Tel. 781-907-9000 xi > > X Z r— 0 III MON MOM • fEL \lk* FCU -2 71x2rjuLiniWiIaidIof 0 0 0 8 0 '17) -0 ,?30 = 2 o< rn Ei Kmm o&-) mu) - >2 -Te r- 2miL] cow Kom 00> c 0 -1 • ZIJZ 1 o -T3(1 HZr oo> m- cnz 0 ra - Zi 0 rri z 0 -1w--1 MI -171 X 219-17) Cn c* -2 r -73C) ->4 5-c) zm • 0 -t-rimox i2xzm m-t„..cn -1 ,L--)A+A 0 - r- mm =i0,C)xx 0 < -10m - - ciXF)F) i>xr>vi_ r-- r-m,u7a r:3038 mr111->5. - 0 m z Z z • 0 0 < Dm.< mom o 0 ozoi o o rrio -I. a:1m >73o> zirnKz (7)m cn=cum oz -m * • z),_4(n 0 m o) -r1 wo- w kill • 43) 0 cn 60 Co > (0 > cr 91 a 0 o • a F- s. 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C z - = i --- m o w - 4.1:.: C = 0 C z Z , m .‹ •-• Fr't a w A3‘... 4'... ...i..:i: C 0 z - :: * Z I jir C m 1 Fri a w - .1::: 0 z - Xr:i., m a w - ;S: - 0 c , z -I : 0 A (E)1"LPC (E)2"LPS XX XXX XX K XX XX X (E)4"LPS mm 6C) D A om panssI oleo JagwnN pa(OJd 0 meas 6UIMeJ❑ z oz-< � 0 C m0 zr =rnr C r n r 0 tri 1 Zg 2 r0m DO -0 0 m wZm SOD ,w0 m0Z n OX O C Z � O � m -1C� O O a-- mn 0o = DPz Z n -‹z 0 m rmm *I cn-1 m Q >0 00 0w -C C 0_ o`er H0 73 O Do 0 Orn 0-4 Mm *m =rn mM rno Om -10 Om 0)V) mm P1 SLEEVE AND SEAL ALL WALL AND FLOOR PENETRATIONS. FIRESTOP ALL PENETRATIONS. l7 n 03 D 00 Z Z CCD-) -10 z � 0= Mm 00 m7) ZO � rn x0 X rn % r m© 0 1-0 M= zz m� Q O A8 HSfV0 Sib'1631VW 31SVM e13H10 a m m 0 Z -u0 0 z z Q -'10 Om rn ow Orn z-1 0) ox -I O z3 m 0 OK rD 1nT3 Z D z_ Z WM © m rnn Zm C m m> z om (n mM O0 XM <D C mT] rn oz x74 -g m< mm O m-1 zm mm Og 10) WO rnrn 5J4 Om C%_ r- m m D S3.ON ONldld -11011:13N39 0. ALL DUCT DIMENSIONS SHOWN ON DRAWINGS ARE INSIDE DIMENSIONS. M0 m0 Z-1 00 jm 0 0 W C m M0 DD m Ow m< XM N 0) SOX mn r z z� o m DNI8If103e1 S301A30 r Om r0 C C M5 mm mo Mm =x D Z N Q •m Q rr rnr- MO CDS Mm 00 M DM 0o Oo> <m m> 00 m= C zo 'C K m 01 NO8818 311 '213d161d8 rn Z D >0 0 -D rnn m> Xm0 F4-0 -m 011 M 0 m= mm Zm rn� r0 r 0 C 0 _ 0 0 m X Cn 0 D WHERE DUCTS PASS ABOVE EACH OTHER, OFFSET AS REQUIRED INTO BEAM SPACE. 'SNV1d ONIdId H. MOUNT ALL SENSORS 48" ABOVE FINISHED FLOOR. 0 -r1 m P n m OQ > D -I� QQ U)0 �C) 71-(°) 0o �n n m '0 �o in2C OCZ -ice Q a Q D Q 0 O- f -1m nm =z ma] OZ -1Z r D 1> ZQ m -t Dm xO zm mri D� �� mC mZ mD mX mr 0)0 m mr mD X0 iii VI an cn <0 T K '"�) m ic-) 05 C m I- „ O �J 'U m m 4 m --1 !A0 r mD D35 0 r -L -I p -d > D-1 O Dma z -I OZ K> 0 a0 Z Z Drnr ( cm {n D0� O rZ Orn z Qn m p n .� mo -1n D 0= r Q •© 1-o =_n Q m O (-1 171 MO = rn -1 c-1; Wm m n� m C n' Z Mr- -i-- cn ;&r - o01 -IA p1n cn� mT. E rn -oco- wx 0m m m --15._ co0z n >v.) C O� OD zi) : C c/)zm c n Q N0110f1d1SNOO A8 43SfV0 S1V12:131VW Z C!) "' 1-- -4 m X C X 5 z 0) m 8321I1103LJ 1N31Aldlf103 'S31f Ob )1 JOM10l8 TIV S301A3Q ONV C!) r m mm m C m m DO O m zp cn D r n r r - z 0 r 0 0 rn m Z m -a D 0 z 0 O Q rn m -4 O z 0 rn 0 ;ueijnsuo3 apo3 :S310N )i}IOMIOfla 1V1:131130 m -170-"K rr. maim Zm m m o 0 = CJI CJI g a to 0 0 o CD O CT1 N CD —_� w C) 0) - ow Jaau!6u3 d31N aaeui6u3 iein;on.}S 10" 10"0 10x8 Qz 0 I SINGLE LINE AD AFF CFM 1 FPM LTi'''''''' NTS MBH I SYMBOL HVAC SYMBOL LIST O z j n7- co jD n m D Q n 0o n D I ® I�� oo C)o 00 ca ch co I `� D a 4) c� o. i-)6 > •m C H C _ y. 0 m CARBON MONOXIDE DETECTOR AIR TERMINAL UNIT TAG (OPTION 2) A - UNIT NO. B - MAXIMUM CFM C - MINIMUM CFM AIR TERMINAL UNIT AND TAG (OPTION 1) SERVICE CLEARANCE LAB AIR VALVE WITH FACTORY SOUND ATTENUATOR .............................. . AIR TERMINAL UNIT WITH FACTORY ATTENUATOR AR TERMINAL UNIT VALANCE TAG A - TYPE B = COIL SIZE C = COOLING GPM D - HEATING GPM FIN TUBE RADIATION/ RADIANT CEILING PANEL TAG FT -A - TYPE - FIN TUBE LENGTH C - ENCLOSURE LENGTH D - GPM REGISTER, GRILLE OR DIFFUSER TAG A = TYPE B - NECK SIZE C - CFM RADIANT CEILING PANEL VALANCE FIN TUBE RADIATION RETURN OR EXHAUST REGISTER OR GRILLE ONE WAY THROW SUPPLY DIFFUSER, REGISTER OR GRILLE TWO WAY THROW SUPPLY DIFFUSER, REGISTER OR GRILLE THREE WAY THROW SUPPLY DIFFUSER, REGISTER OR GRILLE SUPPLY DIFFUSER, REGISTER OR GRILLE DOUBLE LINE WIDTH A x DEPTH B DUCT SECTION - RETURN ROUND DUCT - IN INCHES DUCT SECTION - SUPPLY FLEXIBLE DUCTWORK DUCT SECTION - FLAT OVAL (FO) NORMALLY CLOSED LNORMALLY OPEN ELECTRICAL CONTRACTOR PLUMBING CONTRACTOR MECHANICAL CONTRACTOR GENERAL CONTRACTOR WALL TO WALL ACCESS DOOR ABOVE FINISHED FLOOR CUBIC FEET PER MINUTE FEET PER MINUTE DOUBLE WALL LINED DUCT- 3" THICK ACOUSTIC THERMAL LINING - 2" THICK ACOUSTIC THERMAL LINING - 11/2" THICK X O� NOT TO SCALE THOUSAND BTU/HOUR POINT OF CONNECTION POINT OF DISCONNECTION EXISTING WORK TO BE REMOVED DESCRIPTION 24x12x CONICAL TEE • 14" 6" BOOTIE TAP 14x8 X C -LATERAL ■• - -1rn mm 1� X N X N I Q irl rn -,- O O / - Z CJ SUPPLY/RETURN ROUND MAIN ROUND BRANCH SUPPLY/RETURN ROUND MAIN ROUND BRANCH SUPPLY/RETURN RECTANGULAR MAIN ROUND BRANCH SUPPLY/RETURN RECTANGULAR MAIN RECTANGULAR BRANCH RETURN DUCT TURNING UP OR DOWN SUPPLY DUCT TURNING UP OR DOWN DROP IN DUCT - IN DIRECTION OF AIRFLOW RISE IN DUCT - IN DIRECTION OF AIRFLOW TRANSITION SQUARE TO ROUND DUCT TAKEOFFS FD/SD t■ ■ BT ■ FT -- T � CW VAC IX R R D n= MF MF HF uE T I - LF LF i -1 =n��gO�c�o®U nr T( Tf = HWS UWO — MTF — MTh FC FC r SYMBOL 0W �l 00 O U -1 -I`® �/�- • �� C Hc�cnn cn I cn TEMPERATURE SENSOR HUM IDISTAT PRESSURE SENSOR DUCT SMOKE DETECTOR COMBINATION FIRE AND SMOKE DAMPER DRAIN VALVE WITH HOSE CONNECTION, CAP AND CHAIN FLEXIBLE CONNECTOR - PIPING SUCTION DIFFUSER VOLUME DAMPER BLAST GATE MOTORIZED DAMPER FLEX CONNECTOR - DUCTWORK BACK DRAFT DAMPER 1 SMOKE DAMPER FIRE DAMPER AUTOMATIC- AIR DAMPER BOTTOM TAP ELBOW UP CAP OR PLUG ELBOW DOWN DIRECTION OF FLOW BUCKET TRAP THERMODYNAMIC TRAP FLOAT & THERMOSTATIC TRAP AIR VENT THERMOSTATIC TRAP C Z_ o z PRESSURE GAUGE THERMOMETER STRAINER PRE -FAB EXPANSION LOOP EXPANSION COMPENSATOR WITH GUIDES PIPE ANCHOR PIPE GUIDE AIR FLOW DOUBLE LINE RECTANGULAR DUCT CONTINUED DOUBLE LINE PIPE OR ROUND DUCT CONTINUED SINGLE LINE PIPE OR DUCT CONTINUED (PRESSURE/TEMPERATURE TEST PLUG PRESSURE REDUCING VALVE SAFETY RELIEF VALVE BUTTERFLY VALVE { BALANCING VALVE CHECK VALVE THREE WAY CONTROL VALVE CONTROL VALVE GATE VALVE BALL VALVE TRIPLE DUTY VALVE GLOBE VALVE DOMESTIC COLD WATER VACUUM = 0 - 0> REFRIGERANT SUCTION REFRIGERANT LIQUID REFRIGERANT DISCHARGE HIGH PRESSURE CONDENSATE PUMPED CONDENSATE HIGH PRESSURE STEAM MEDIUM PRESSURE CONDENSATE MEDIUM PRESSURE STEAM LOW PRESSURE CONDENSATE LOW PRESSURE STEAM FAN COIL UNIT HEATING RETURN FAN COIL UNIT COOLING RETURN FAN COIL UNIT HEATING SUPPLY FAN COIL UNIT COOLING SUPPLY HEAT PUMP WATER RETURN HOT WATER RETURN HEAT PUMP WATER SUPPLY HOT WATER SUPPLY MEDIUM TEMPERATURE HOT WATER RETURN (COGEN) 1 MEDIUM TEMPERATURE HOT WATER SUPPLY (COGEN) GLYCOL RETURN GLYCOL SUPPLY I L_ SVD FUEL OIL TANK VENT FUEL OIL RETURN FUEL OIL SUPPLY DRAIN FUEL OIL FILL FUEL OIL GAUGE CHILLED WATER RETURN CHILLED WATER SUPPLY CONDENSING UNIT WATER RETURN CONDENSING UNIT WATER SUPPLY BOILER BLOW DOWN VENT COMPRESSED AIR THERMOSTAT/SENSOR WITH GUARD PNEUMATIC/ELECTRIC THERMOSTAT TEMPERATURE SENSOR DESCRIPTION n o 0Y SYMBOL B C C C< �Z a n n n m©XI����� EV 1 FILTER BANK EXHAUST AR FAN RETURN AIR FAN SUPPLY AIR FAN HUMIDIFIER DISPERSIAN TUBE AUTOMATIC AR DAMPER (OPPOSED BLADE) SUPPLY AIR FREEZE -STAT RETURN AIR OUTSIDE AIR EXHAUST AR ELECTRICAL INTERFACE ELECTRONIC/ELECTRIC TRANSDUCER ELECTRIC/PNEUMATIC TRANSDUCER PRESSURE TRANSMITTER FLOW TRANSMITTER HUMIDITY SENSOR (DUCT MOUNTED) TEMPERATURE SENSOR (DUCT OR PIPE MOUNTED) ENABLE/DISABLE START/STOP CURRENT TRANSDUCER OPEN/CLOSE PNEUMATIC/ELECTRIC SWITCH OR RELAY ELECTRIC/PNEUMATIC SWITCH OR RELAY DIFFERENTIAL STATIC PRESSURE TRANSMITTER 0 m c m zc) m FILTER = nrm-- -, z 0 1 IN LINE PUMP BASE MOUNTED PUMP ELECTRIC ACTUATOR COOLING COIL AIR FLOW SENSOR VARIABLE SPEED DRIVE AVERAGING SENSOR PNEUMATIC ACTUATOR r PROBE SENSOR WATER FLOW SENSOR RELAY DIFFERENTIAL STATIC PRESSURE SWITCH STATUS FLOW SWITCH ANALOG OUTPUT (GENERAL) ANALOG INPUT (GENERAL) DIGITAL OUTPUT (GENERAL) DIGITAL INPUT (GENERAL) DESCRIPTION rn N ��i �� n� 0 a m� oK1 o; SYMBOL WALL MOUNTED FAN COIL SPEED SWITCH DRIVE SPEED Az v rri 0 PUMP SPEED WALL MOUNTED CARBON DIOXIDE SENSOR PRESSURE SWITCH SOFTEN WATER MOISTURE SENSOR FLOW METER OCCUPANCY SENSOR CARBON MONOXIDE TRANSMITTER CARBON DIOXIDE TRANSMITTER HUMIDIFIER END SWITCH ELECTRONIC INTERFACE ELECTRONIC CONTROL VALVE (2 -WAY) ELECTRONIC CONTROL VALVE (3 -WAY) MAIN CONTROL AIR (TEMP. CONTROL) AUTOMATIC AR DAMPER -- (PARALLEL BLADE) DESCRIPTION z oz-< � 0 C m0 zr =rnr C r n r 0 tri 1 Zg 2 r0m DO -0 0 m wZm SOD ,w0 m0Z n OX O C Z � O � m -1C� O O a-- mn 0o = DPz Z n -‹z 0 m rmm *I cn-1 m Q >0 00 0w -C C 0_ o`er H0 73 O Do 0 Orn 0-4 Mm *m =rn mM rno Om -10 Om 0)V) mm P1 SLEEVE AND SEAL ALL WALL AND FLOOR PENETRATIONS. FIRESTOP ALL PENETRATIONS. l7 n 03 D 00 Z Z CCD-) -10 z � 0= Mm 00 m7) ZO � rn x0 X rn % r m© 0 1-0 M= zz m� Q O A8 HSfV0 Sib'1631VW 31SVM e13H10 a m m 0 Z -u0 0 z z Q -'10 Om rn ow Orn z-1 0) ox -I O z3 m 0 OK rD 1nT3 Z D z_ Z WM © m rnn Zm C m m> z om (n mM O0 XM <D C mT] rn oz x74 -g m< mm O m-1 zm mm Og 10) WO rnrn 5J4 Om C%_ r- m m D S3.ON ONldld -11011:13N39 0. ALL DUCT DIMENSIONS SHOWN ON DRAWINGS ARE INSIDE DIMENSIONS. M0 m0 Z-1 00 jm 0 0 W C m M0 DD m Ow m< XM N 0) SOX mn r z z� o m DNI8If103e1 S301A30 r Om r0 C C M5 mm mo Mm =x D Z N Q •m Q rr rnr- MO CDS Mm 00 M DM 0o Oo> <m m> 00 m= C zo 'C K m 01 NO8818 311 '213d161d8 rn Z D >0 0 -D rnn m> Xm0 F4-0 -m 011 M 0 m= mm Zm rn� r0 r 0 C 0 _ 0 0 m X Cn 0 D WHERE DUCTS PASS ABOVE EACH OTHER, OFFSET AS REQUIRED INTO BEAM SPACE. 'SNV1d ONIdId H. MOUNT ALL SENSORS 48" ABOVE FINISHED FLOOR. 0 -r1 m P n m OQ > D -I� QQ U)0 �C) 71-(°) 0o �n n m '0 �o in2C OCZ -ice Q a Q D Q 0 O- f -1m nm =z ma] OZ -1Z r D 1> ZQ m -t Dm xO zm mri D� �� mC mZ mD mX mr 0)0 m mr mD X0 iii VI an cn <0 T K '"�) m ic-) 05 C m I- „ O �J 'U m m 4 m --1 !A0 r mD D35 0 r -L -I p -d > D-1 O Dma z -I OZ K> 0 a0 Z Z Drnr ( cm {n D0� O rZ Orn z Qn m p n .� mo -1n D 0= r Q •© 1-o =_n Q m O (-1 171 MO = rn -1 c-1; Wm m n� m C n' Z Mr- -i-- cn ;&r - o01 -IA p1n cn� mT. E rn -oco- wx 0m m m --15._ co0z n >v.) C O� OD zi) : C c/)zm c n Q N0110f1d1SNOO A8 43SfV0 S1V12:131VW Z C!) 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FIRST FLOOR PLAN - PLUMBING is1/4„ " %dig Millliat. ,,,t LTLA 't Cornell University It 1771 .z College of Engineering ,e,,,,., •Npr,„;,- eJ kick , Upson Hall 162 Renovation BID SET it !` , n —___ ,, .41116, ./.7 - -...._ _........:: -,,- • • * C-71 fa- r••) " -‹ * a) 1 \)-% a) 0 er,-1 .... 4. c t i v.. • i .e. .y. ;,....7 6 co ' _,, ED 0 '•,:if ur _L CD fa. 61 0 0 M E = >1 - 0 0 M ol z m (II 0:1 CD n co co - z al CP el- A• CO 1 cr, = -• ' N) z NJ .-I•I Co OCD co9ozs (4 U3 41 5 to 0 0, c _1- — 13 ni M CO 5' cp ?5, .. f./) 0 1.< -3. 4 _ OCD V = 6, K co > yi r 0 (12 o a - = al - = Ei 0 ,61, 0 1-1:7ATE DESCRIPTION 1 0 ....... = 0 = ..... z o K ri) Le --4 ..,.._ CP ••••• -% (0 — Q.' 0 a) -0 0 " CD cri o 0)0 Po e 3 m CP -I -......„-- A cO O 00 00 co 00 c0 00 00 J 7 ErI V co C_Tt X XXX X x X 1 F C0 0 00 CYI N (0 CO 00 00 00 D 00 0 'NVS 9 (3) 01 31SYM •IC 103NN00 3" SAN W/ P -TRAP, 11/2" VENT UP TO FLOOR DRAIN. 'dfl dMH utq 'MH a 'MO ..l n 0 z z z z P1 m 0 V' CW, 1" HW, 3J/4" HWR TO EXISTING. 'NVS 119 (3) 01 31SVM lizAL P1 0 0 z 0 m 0) A MO KII) 0 0 :a a) G± E N o N .2 tD 2. Z CD -1 o'; aisk 6 013 Fii - cn Ca nCr rn C H M _ O Arir— t 1li ,,. : if c`,,l‘, # .. . x i s ;» agesy�l� ................... Code Consultant Code Consultants 215 West 40th Street New York, NY 10018 Tel: 212-216-9596 Fax: 212-216-9619 MEP Engineer WE Engineering 150 North Chestnut St Rochester, NY, 14604 Tel: 585-288-5590 Fax: 585-288-0233 PAYETTE Architect Payette Associates Inc. 290 Congress Street, Fifth Floor Boston, MA 02210-1005 Tel: 617-895-1000 Fax: 617-895-1002 DATE f DESCRIPTION CO C to Ca Z Structural Engineer Simpson Gumpertz & Heger 41 Seyon St., Building 1, Suite 500 Waltham, MA 02453 Tel. 781-907-9000 p,„.E Z I A 0 -13 0 0 0 0, penssl ate❑ 0 N N JogwnN toafoJd oleos 6uwwa v rnE E -13 rc2 -n --Zr Z O O G) 0 z 0, 00 -10 C7 rr'lz KM co orTI O C m 01 > 3V8 dfl ONIdId M1 ONV MO (3) 171 W :!! .am>C7 oQ EZ]7 t3ip--1LnO0 t)0O 00 C zzT. zT�mm-I�O 00 p O >mm �. Wm z �tz�1 OIzTI 01z*1 .._40 �� m©mm-i o� nr> mn>. m> 2> 0> ›.6., n -x0 mo g (JO txl n0 � rn -fm rn mm Cn �7� � �� p� r0� �oZip Xo np �o Ism C pm -67°> m I jm m -10 ��Om Y ro� ram aFJ 0 _4Cr --k1. � C7 _ �m*0 Z© Z '7 �I j 0].., WO .-. � Dy o (")z r- 0 XC) >Z= <...>.171 _C7 rn-r3�) Dp -i l 000Km Ot mz m-Ox0 0-0 m �m KC OIOO 21 0 K - z° * -Ig > P1 n r m I - 31316100 ONIdId 31316100 ONId(d SALON NOIII-1OW3a r * .$ W:t yr Code Consultant Code Consultants 215 West 40th Street New York, NY 10018 Tel: 212-216-9596 Fax: 212-216-9619 MEP Engineer M/E Engineering 150 North Chestnut St Rochester, NY, 14604 Tet: 585-288-5590 Fax: 585-288-0233 PAYETTE Architect Payette Associates Inc. 290 Congress Street, Fifth Floor Boston, MA 02210-1005 Tel: 617-895-1000 Fax: 617-895-1002 DATE Structural Engineer Simpson Gumpertz & Heger 41 Seyon St., Building 1, Suite 500 Waltham, MA 02453 Tel. 781-907-9000 A 0 3NON :31VOS 0 V) Z 0 m Om -T1 mk mm 0-1 O 1Q) Oc m-1 x-0 >0 z n -1 u--1 -D no m Zz 0- TI- r0 r*1 m Z Po m D z -,1- om <0 co z r m 0--1 xZ � O D( z 20 0-1 5> -10 mm + n r- OMI ONV 2131'4I21d (L) HSINLJ (Z) 0 0 (n 00 << Z 0 °D rv_0 ,,r Qm C7 r i mz 20 COD OZ Zrn O O 0-0 rnM Crn n C rn z m M-1 N z D m> �rn -0 O 0 z O om zo rrq m r �O O* 0-o -1m Orr m z <-1 >m om rn� 0 C� Dr rnm zm 71r - 0 1r0 0 m 0 INV381Sdf1 0 -11 r- :S310N 11V130 1 r 1 0 W 0 N m m `d01 2131Nf100 C- '•1 K m Pmo oz c) z0 WM >0) D Om z0 rn FD -A EEW m C K) 1 DESIGNATION PLUMBING FIXTURE AND EQUIPMENT CONNECTION SCHEDULE FLOOR DRAIN EMERGENCY EYEWASH MIXING VALVE (EEW) cn z x DESCRIPTION I I N N COLD WATER I I N N HOT WATER 1 1 i N DI WATER k ill g , SAN DIR WATER I N I N TEMPERED WATER (.4 I 3 - N r- N 1 1 N r C WHERE REQUIRED WHERE REQUIRED 1/2" TEMPERED WATER TO EEW ni_ 0 r-- 0 0 1 m m REMARKS 30)1611(Zn 0-1.:1-0_z -i z u)r 11 0 r m*1(?c�oozr�m (nzz _00 moK r'Mcn � mc7�z m z r .--4 00 �> c m Z O c n(n00� z Z 0 0 �-Imo- mD14 cmomxrrrl P T c o 0 0 0 -MM Mm MZ MM 'SIC 38 -11VHS 8V -IS M0138 ONIdId 31SVM 30 3ZIS rn 0-10) I-0 0M01->0 zmzQ-1O mmm*M0 , OC- ZZ0r'DrP*1 OQ��DD P1 CmPO m>rnK�z 7rte--18m�z P0Ommo cm Omam r=00x1rOnm m rnmo�j�D (130120-1-1 O� Z 1/) z=o m Dmm mm -0 ,12om0 0 m m -1-10K 500 �Z©Z m_cxo z�oo�Z m0< C (/) 0 0 -1 0 0 M z T1 0 r 0 L3 O ij 00 >m -1O mr �rn >- 0 C • A8VIINVS `141801S T1V J0 3SV8 3H1 1V r711-9 mm N NOILO3NNOO 1VNI3 2103 31f103HOS 3df11X13 /IN3Wdif103 01 032JIl032l SVD 313103dS 2103 SNV1d 8V1 01 2133321 :310N 1IV130 z F 20> z m> Nz Om mm 11110 m c m m� (0 mm CO nm m r7 rr- r mfl (nm z 1 m O T m V) m m 'r- n0 �n-i Zr 0 rn O o rn 010 00‹ mmm rrD 00z • P1 z z (� m 30IA02Jd 'SN0I1V2f13N3d 00 Om --I m COX C( ) 1---1 � Z 0O 0 Z 0 0 Z rn-4 C 73c C? =O z Z '1C 1 x or�1 oD D< n T1 cj f�1z m 0 ci)rnm Ko =oa -1 z- nz m 0-1tco c zz mZD DC -1 -1(21 Z TJO Zz zc (nr oo r m-1 -9_omo , wm mz *zm Cr -Km r -m 0-11 r (/) X ▪ � 0-1 c: -4-c m 0 Z (n-1 n D -i o -4-1 nm> 013 0m m Z m0�P1 r 0 DC >mO r2r ZOO 115 Z _rOG? rn0-1 O Zmm 020 Cm ?no 0 rCnm 0 zzu) ocpi 0 raPm >0 mm -0m -- 0 Zx m rn0 KD On C mC m 3D m z 01 G31D3NNO33d 38 1 VHS O 0 mx xoZ YZ D om Mo m 70m -1Z 0 mn r (n m • O Mm Q 0 mm 0c O -o -10O ZZ 3HI HIIM M 0 0 -ICN MOO >0111 (m0 0 >30r - 0 00T r) m n 0 Z)0 z t10k -10 m0 1 • 0O 0-1 r -m mm nD raw m 0 -0D O r.1.1 Uj mn (171 711zim -13m0m Z < <>° P1 11 -11_1(7) • n 0 G7 Oo � z m m n�� :kc O wOz 00(5 030 0 1 -mm r0 m co co mo ra▪ l*c mz -4 0 Dr0 070XrrtX P1U(nrD m >< COZ) (nm000(7) -m=> D-- GZjzgzO-0 _(�NA3 n O 0 0 OZZ 2 p m O* 2-10 z?m 30z (1) )( C W > 2-�sw=11 a m zm Doom 1mCO�rT1 uDPoCZ z �mrn z O r ©z xl MC) ca0 mrn mort�zrr -90100<65 O<65 0.wKr-m Om mr> Z zmm(n O 7) :SjON 1dbI3NDO O GENERAL NOTES AND SYMBOL LIST - PLUMBING i„, qt N40o ® i$ ... - 1 O C CA c)" k g , SAN DIR ► t$Ji i $Y.,,r43 _ . ;,_: 1 TW ----------- : •• 13 b m 11►— 1 (3) 1 EC PLUMBING SYMBOL LIST SYMBOL DESCRIPTION /%////////// EXISTING WORK TO BE REMOVED POINT OF CONNECTION POINT OF DISCONNECTION NTS NOT TO SCALE (E) EXISTING (ETR) EXISTING TO REMAIN AFF ABOVE FINISHED FLOOR BFF BELOW FINISHED FLOOR VTR VENT THRU ROOF GC GENERAL CONTRACTOR MC MECHANICAL CONTRACTOR PC PLUMBING CONTRACTOR PRESSURE GAUGE --1 M BACKFLOW PREVENTER (BFP) C CHECK VALVE BALANCING VALVE SHUT OFF VALVE WALL HYDRANT (WH) / HOSE BIBB (HB) ROOF DRAIN -- FLOOR DRAIN (FD) / FLOOR SINK (FS) CLEANOUT (CO) WALL PLATE CLEANOUT (WPCO) DECK PLATE CLEANOUT (DPCO) CAP OR PLUG PIPE CONTINUATION "P" TRAP TOP TEE CONNECTION BOTTOM/TEE CONNECTION ELBOW UP 45° OFFSET ELBOW DOWN VACUUM PIPING (V) COMPRESSED AIR PIPING (CA) NATURAL GAS PIPING (G) STORM WATER SEWER PIPING (ST) LAB VENT PIPING (LV) C z INDIRECT WASTE PIPING (IW) LAB WASTE PIPING (LW) SANITARY SEWER PIPING DEIONIZED WATER RETURN PIPING (DIR) DEIONIZED WATER PIPING (DI) TEMPERED HOT WATER PIPING (TW) I -10T WATER RECIRCULATING PIPING (HWR) HOT WATER PIPING (HW) COLD WATER PIPING (CW) NEWPIPING LOCATED BELOW FLOOR/SLAB NEW PIPING LOCATED ABOVE FLOOR/SLAB EXISTING PIPING ELECTRICAL CONTRACTOR Z -1 0 -0 O �i( oo co o ogc[n -....1 .i., o co n, 01 o wo -' K m m 0 . C m co LT g !Pi z 0 :0 A sci 3:0 m m GENERAL NOTES AND SYMBOL LIST - PLUMBING qt ...” ► t$Ji i $Y.,,r43 _ . ;,_: NT- ET) Np p x.. '0 a ����� N O CD n 0 N O !V N � .p v1 m o,o�zo a Ep�� rr 3 _ co X -00m m Locl'o� 0 D m (_IT1 .. ( 3 N M "CO nm -' moaZ�-m O �N -mss 1 ,••t CO 'm-IW1V xc00� n s'j' p if y V (4 OD pp S to M• co 01 0 N v,c?10 o CA 0 �oN3Wm _ 01 5 Cil 13 b m .manu I Cornell uruversityy 'FP 7 . si College of Engineering ' ;on Hall 162 Renovation BID SET DESCRIPTION �i( oo co o ogc[n -....1 .i., o co n, 01 o wo -' c o r 0 . C m co LT g !Pi A sci 3:0 m m A 11 I 9 T (5 F. -- H e • • • Ihr ,_._. , 14 0 1 -"ii ui .. 1 Frl in _ , 0 4- 4 ".''''.1 in r"."71`="tr="1---r PI .. -- - - A r--6 cn— er _‘ 0 *4 r.. UP . 111) - •:. N– ,. .. . . 04 Fri (DS cr) Fi 1 0 _E 0 0 A 14 1114 0 0 - IH 14 .:. 14 14 0 14 0 00 14 14 0 cs-6] "1--1 14 1-4 1111 -'. 1 0 . 11 tk - 41 I = 1__ 14 pi, 4:-.., 4 C. 0 111 VI— _1_ .. 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V , Cn s N N n c) Fri 0 0 0 0 0 01 5fl 0 0 1 p NIwxI 00-0 I cocci I [ EC ;3A [ GC $, r.7-1 3 4 , , INSPECTOWS TEST COMECTION (ITC) FLOW SWITCH (FS) J SHUT-OFF VALVE WITH TAPER SWITCH (TS) g A DRAIN VALVE kg COCK RESPONSE UPRIGHT SPRINKLER HEAD QR CONCEALED PENDENT SPRINKLER HEAD A PPE CONTINUATION TOP TEE CONNECTION BOTTOM/TEE CONNECTICIN sti 45' OFFSET ELBOW DOWN SPRINKLER DRAM PIPING (D) SPRINKLER MAIN/BRANCH PIPING (S) FRE PROTECTION SERVICE (FP) A P g 7-1 C 1 ELECTRICAL CONTRACTOR PLUMBING CONTRACTOR MECHANICAL CONTRACTOR GENERAL CONTRACTOR ABOVE FINISHED FLOOR EXISTING TO REMAIN rnSZ -� ,;I c 4/3 rrl rrizc -A err 13 J 2S 1.0 r73 c' 0 m cn C 4z -i. m z co 0 • m cn 0 —t 0 0 0 Fi t77 y ay 'E 0 0 0 -u 0 2 0 0m —1=-i C) 0 z 0 m —1 m as n 0c 0 z 0 w %C1 n t71 m €° xi C) m 0 2 2_ —1 O 2 —1_ O ro o m ---t <n -<Cm--+z'Fri cn 0 CO -d > O 0.. Ti • m1,, rlm� ' co ea6' a -j c C 11 CA" Q •••1 r 0 Rg g 0 W° 0cio. 1 m m z --, Dki OF SLAB "rfto 0 0v. m .?1 0`o m• 13 co . m. 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M 0. 0 in 01 0 SD 1 1 .V--, -4 7 0 CD 7 Fa .•74. a . S. N 8 '21 0 ,_,. a' no _ _. 0, or 5 co 0 --.4 o- 2 %- 5 0 0 2 5 5- 6 to ••.< C} 0. CT. 0 0 0) n 0 0- a z 0 CD 73 0 R E 0 -o O. a GO - s-6 2 5 4 0". a ci gi mg 0 0 CO 0 0 3 a' 8 cD C C° 5' -0= (0 0 o 5 * co s - R. - • 0 6 c 0 - m - Fe ea ca 0 0 --4 m. 0 - co.. 5 4.) 0 5 = 2, Lo 5 0 ,r,a A, m 0 • -, 0- w 0 0.. ••.< -0. 0 0 - 0 0 x c co , 8 2,,, 05. -01,E -0 cn KT) 51 0 0- u,;P 0 L: -„c > 2 s 0- ° UP 0 Ca o m. fir a 5 al fa ____, cn cD 13.1 -...< ar m 0, 3 < CL ti0-- = Er CA CO 0 CD = ° M". c--) = CD to -,4 0 :-. no co 2 2 a, 0 :13,- 5 -,1 7 fa 0" 0 0 0 PC 7 0 -. -0 1 0 _.., -3.. g g...111C4'.= ''':,r ufwa,,. , . ... .55aici 0 - a 0 0 = iM 7 10 •10 rd. DJ M. 07 0' 5.0) 8 Cu 0 ..... Fan as do) 0 m to -, co • Q g R LO ta -.2 0 La -...-.1 , * 5 cT-i. -.....1 al 0 0 0 '-'• a ..N._ 3, ri, 0. 5- ci.,....• 0 o ro CD 0' 123} CD 0 0 7 02 = = i-..., 2 A °- a a- to ..-‘ c.,-.... 2 co 0. CD 0 'CS 0 8 ; _L.) s. 0 3. -14 -1 a a - (-, . - a * (0 0 ..0 -0 0 0 .--4: 8 co -0 - =. a ,..r, F._ 0 0 cr) 3 z "L 3 m 0 2 0 ••••• 0 ell 0. CL "0 9- DI 0 0 ,0 > c 5 a 0 a - O. 0- 3 6 a -'I6 a) 2 0 a 3 6 .94 2 a) • 8 n 5- a go W M 3 co in •gr,,.• 0 0 ° CU a In 0 = Se. a 1 0- - - - 0- ,. a. . o 0-..9 o 0 0 cu a 0 -6: 0 0 0 3 -, 0 0 CP 3 )1). 5 0 ° - ..C10. 13 3 0; F., -= C . * . --)) 5' a =, (4) 0 . 0 R.• 5 0 CL ell Cr D.3 20 0 P- sl,' 0. 0 -ro Ct si 5 r system must be provided for the following systems, where new elements are provided: m1x1X:1:11XM1 40) CD al on 01 .01 ,t)).. OP 0)4 iN a',.MMS= N -P ['LP ..., --. CT IDETAILS-HVAC DETAILS -HVAC ... 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