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2'a WATER AND RETURN 2' VENT 2' FILL LINE— MANHOLE WITH O AGITATOR GIVEINSULATED COVER 8' EMERGENCi MANHO E O 2'e WATER O 2' RETURN LINE SUPPLY AND RETURN 2' SPA[R ONE — SCREWED COUPLING 1504 SLIP ON FLANGE y�- TOP OF TANK COUPLING) TOP LAYOUT J111L LLL V A 11UN BLIND FLANGE (DRILLED FOR COUPLING) COUPLING IPE LOAD 5/8' x B' FLAT BAR PLATE LL - ' NOTES) 3' LGAOCERING 1 V HOLE FOR 3/V x e• I. STOPWIF TANK AID NJ. AGLEf`-,OWES TO PE FAM(AT® AS PER of LONGP ➢ANCHOR%T OA BOLTTS SET NPA-30 2IA MD MI 00 kRF J IN EGR e• O 1 THE TPN(5 FAyRVATE) FRO.1 A-°5 6FR15 I STEL RATE AW 15 q• AD EYE ALL WUPEP CGNSTRI.VIIO O _l, THE p� �}iq �E IN 3• D' GASP, I, fl-AUAKE STAME1L¢NW MTH A I L 6RAVRY Gf P= Il TO 115. FLAT BAR PLATE A 29 rM 15 C � IWH Of MUATICN AW MTH ENLARGED DETAIL 'A' ROBE RIBBED METAL 911V HOLE FUR 1/2' x 5' GRAVE B THRU BOLTS 3' PAD EYE 9/16• HOLE FOR 1/2' x 5 GRA➢E 8 THRU BOLTS 2• a 19 SCANNED ARMS BY St. Lucie County n1nTES (EVIEW DOES NOT INCLUDE ELECTRICAL ;HEETS A5-A8. EE SHEET S7 BY M L ENGINEERING FOR :ONTAINMENT STRUCTURE FRONT ELEVATION SUPPORT FRAML 5. STORAEE TAW MJ. RAVE aGEMWAY MINTANLIENTTyA6 PER ALW W L TO TAMEE TTHE 2AA EIY.IR MIN f=& FOR T}EAW.¢IJF FIA'DREP YFAR STORM AW HAVE A LOWN6 VALVE NTALLEP. (THIS 6101D M N9 LESS TIWI 27x Wx N RR T") 6. TE TANG 15 45r9 WITH VWrW A5 FEZ NPA-°W �yTION 21A3 L 2 DJCH VENT 5 A 2 WH DOOM Off LET VENT R1% 2.5 WVACI[H RELIEF gR IEIII�Y VW 15 A S MGT PR[55M ,RE A 7. TIE TAN( IS TE6FW AS PER NPA- ef!611 N 11529. S. TIE TANGS FLL AM PERM PIPNS 15 PER PFPA-O #OTM 24AA. TIE TAWS FILL 15 ADOVE TIE LG�JLp LEVEL Gf THE RESN, WE LEE CAR" 5(ELL 60LL VALVE TO SIN OF TIE FLLN5 PONT. 9. STORKPE TANG WLL HAVE OVERFLL PREV54rM A5 PER N-PA-V 21.7. TIE TANG HAVE LOAD 6513 MIN A -ARM THAT SOM AT 9OR Of C.APASIY W ALL RFSN PIPN6 WILL EE &RAPE A OREOTI 5f1$ ASTM A59 / R0 AID IN5TALLID A5 PER IJ97A-W �ES6TM 27 & AU%E 15S4 IL H61PE O= THE STLRA(£ TANG WLL DE SANJEI.A5HP WWTE ADD MATED MTH (2) COATS O= TEE- HEAVY R1TY EPDXY TANG COAT11,40 12. AIL FIFLTR6S& FWFfiM AN] WIRE IN RID ROM TIE RE5N STCRAE'£ TANG MIL IE A5 PER W6 70 FOR LEE M A CLASSi I, DNWM II, 6ROP D LOLATM 19. ALL NPA-'A 6MES ARE FROM THE 2M UZE POOL. ❑ REVIEWED, NO ❑ REIE= yEX� DNSTAXEN ❑ RESUBMIT M REVIEWED AS NOTED ❑ DONOTRESUBMR ❑ sUBMITSPECIFIED ITEM ReWew a only for general mnfamnanm wRh the design Intent of die project and mrplanm wllh me Urfamnuon gNen N the mnNHR d... ns. Ally actors shown N subJ.. nP the requFemerrts of nhe plans and spetlli®non, Coored raresp.nooble for dlmengons whkh aha➢ be conlbmad and mordblated atthe Iabafte, fabrUmaon pmmaaes, tedlNques of missWcub, mordNaton of a1 wah wnh .floe, trades and The aansf.n , performanm in amordanm wM f3 themn)ratt.rdamments. is On"; os/11/36 Dy. MIKE LUE M. L Engineering, Inc. Consulting Engineer Q Vero Beech, Flarida (INSIDE) MA E TANK DATA INSIDE INMEN11DNS ]• x 7. 01EIGHf x WIDTH x LENGTHD CAPACITY R. 784 SIDES) GAL 5.400 N Cn b r✓ W F F rn N 3 O pM T M tp6 n p .G 3 Q y, F y m CD O i Q ((99.1 M PER GALJ 53,000 WLLDNS PER INCH 64 POUNDS PER INCH 65 SURFACE AREA SQUARE FEET noan INSIL) N HEARD Fi. 4' G. 2,200 300 HEAT LOSS/GAW 4• 1650-BTU/HR �/ Z i4 8 100'F TD 6' fl00 BTU/NR _ A 1 INS MATE WEIGHT 0A5 D of 8 alismE nIl¢xsl0xs H V L 1 y 2' VENT OO 2.0 WATER SUPPLY AND RETURN SCREVED COUPLING 150M SLIP ON I FLANGE DETAIL 9.0 VATER AM RETURN AGITATOR DRIVE WEMERGENCY VENT 2' REi11ftN LINE TOP LAYOUT FLANGE DETAIL SIDE ELEVATION 2• FIR 2' SPAR 0 n 5/8' x 8' FLAT BAR PLATE 3' LOADCELL RING 4 1' HOLE FOR 3/4' x 8' of LONG ANCHOR BOLTS SET e' O IN EPO%Y GROUT 4. PAD EYE o y. ARM x 5' 3. GRADE e GRADE THRU BOLTS 21' LOAD CELL D EYE 4 (ARILATE FLAT BAR PLATE L2 FLAT ENLARGED DETAIL 'A' RIBHI RIBBED METAL 9/16' HOLE FOR 1/2' x 5' 9/16' HOLE FOR x GRADE 8 GRADE 8 THRU BOLTS 2 ETHR THRU aDLn �• 19' PAD EYE ARMS FRONT ELEVATION ES) SQUARE (INSIDE) MANMLE SULATION CAL ALL SIDES) BEAM SOPPURI FRAME NOTESI L srORAE-E TAAK MD ALL A'CW-,jlJES TO eE FAMCATm AS FER WAaO 24A AW API 650 AFl`E!W ,l 2 TIE rNK 5 FApRIGATED PM A-95 CAWN STEEL PLATE AM IS ALL WEIRP GONRRUGTIGN. S. �0.. O RESW Ts1�AT� LIQUID �E RMA M TCH 1AVg 11 TO I15. A. THE TANG IS hoop w1R1 b NGH O' Nsa-ATICN AW wrH 29 GAGE 6GTE WE TLFF flip arLTS 5. STORKEE TAN( WOJ- HAVE SECaVARY 6 MAMfNr A5 PER N"A-W ADD THE F6.. RLAIX NOTE TE %f6WAF? LGNrALNA34T AL50 WLL WEP TO TWE THE 2A HO.R RAW FAj FLR THE I1.WRID YEAR STOW AW HAVE A FOLKIN6 VALVE MTALLEP (Rt5 SHq.ID M NO LESS THAN V. W. 9' FER TANQ O. TM TANG 15 FAUFFID wTrh vwnNEr A5 PER NFA-V SWION 2lA3. I. 2 WCH VENT 5 A 2 WLH POLME OMEr VERT #I55 25 WCH QAW--EWY 04T 15 A 5 WGH PRES'apE AW VA'AAW RELIEF N I4° A T THE TAN( I9 TEST® A5 PER NPA-30 SECTION 2015. 5. TIE TANGS FLL AW RETURN PIPW6 16 PER WFA-W SfrTM 2AAA. TPE TANGS FILL 15 AME THE LAUD LEVEL OF TIE RESN WE LrE A CAWN STEEL BALL VALVE TO SYIIr AT nE FLLRZ POJJr. 9. STOMAEE TANG WLL HAVE OVERFLL MEVFNNON AS PER NRA-V 21 CHESTY IIAVE LOAD CE I WIRI NJ�RM THAT AT 50% W ALL PESW PnWa WILL M 6RALE A LAWN STEEL ASTN A59 / Do *V INSrAlfP AS PER NFA-SO SECTION 27 & A3JE rX II. NSQE Of THE STCRAEE TAN( WLLL M SAWftA5TED WHRE ow COAT® WIR1 (2) COATS Of 'p'{' WAVY RITY FROM TANG COATINE,. R. ALL E-E(,WLAL EWPAAr AW WIRE W AW RO,W TIE MEN STORK£ TANG WLLL DE AS PER p 70 FOR U3E N A GAfi I, PMSION IL 6W D LOCATION. P All NPA-W CPES ARE FRLM THE 2016 CODE WOK TANK DATA WEIGHT z VIDIH s LENGTH) T' x T' x 16' CAPACITY CU. FT. 784 GAL. 5A00 RESIN LBS 0.1 LBS PER GALJ 53p00 CALL➢W PER INCH 6R PoIINDS PER INCH 629 SURFACE AREA SIIJARE FEET 550 INSULATION BOAR➢ FT. 4• 2,200 6' 3,30E MEAT LCSS/GAIN B 10W TO 4' 165E PTU/IB! 6' U00 BTU/HR APPRO%IMATE VEIGHT IDNS OUTSIDE DIMENSIONS N V L 8'-9.9'-3• T'-9 0 H L W e L Vt WCE .l�SAP — — � FW!£ CF/M PLR VJM CfiLs — --------------- - --------------- FOUNDATION PLAN NOres: � w _ `� I) OONORETE 15 TO X WOO IF% 2) OONrRAOTOR TO EMSURE THAT 7007M6 PEPRI 6E NON FR05r LNE FOR Tl1 ARP TO PREVENT NEAVM6 0 SR- $ RE TO bFaM FREEZINb. 3.) 6ONTRA6TOR PPMPE (2) PRAN5 AS 6-MN IN PErA1L aSTaRR TO DE(FJ WE 1-06AT16N. A.) ALL OLNOREfE WORK 15 TO 6E DONE IN AGLORDANOE Mrl AG SrANPARD5. 5.) GPraYL LOAD 6 L5 TO M IN5T W'M6 REGNEAD *mR 6OLTS REQARM. 6.) OON(.RETE WLL 15Eo T & LEVEL AS P0561 E 7.) TI115 OONT _ _ AS PFR IAA-JO A A 1=III=1 , I-11 _ z cA c snn �. w � DRAIN DETAIL A w� ,� I I I II =111 SECTION D H R2JR ®I? IP wce . C c� snv /4 R�Yt o 7 e —� I/Y s I IA,• AY 11 M 1 1111 �- WA �. • I I I I I I I I I � _I � �=1 I I ��— fd f-4 (�) 6 R3JR t: A a R9P. III=1-1 s .. = w v , v —III bi TIPIGAL GRADE 6EAM �� wx R<urrnl'ea�r III d A. 5FLTION G f0 CMT ftlID wltll PIPE BOIIARD DETAIL (IF NF1E55ARY1 i SEE SHEET S7 BY M L ENGINEERING FOR CONTAINMENT STUCTURE ME �1 Bc � p WIRING LEGEND AI s.E NOfE pl N p 14 N -_.._ jT w l r^, r_ M _, s£ Nm- Nc r___, ,ucx WF R PE5 RhP ana + + j05TlJ N-�eaoa r M 1 9 # OVEF OVHZLOAD IJ6Yir —NN nN 111 J. I^n� {Y�R _ TA - [aieGea• irwe- I 2 E T LOM LHl_ y W. -�wtiv Cwa rartecrs L_J L____J L___J m�cry ply R % A I \ \\\ 1 % 4 5 7 9NS REA.o-Wf 1 - 9�Y t o s ` 97 9d XI XZ OVEFLO D IJ�4V r'I'-I--rN r s-(•{L}}__ rax a —«Er svnrm d. J- jai eurra� •-3-I-� s -'y'n1'4__ J TDF-I 5 •T'--£/"ttP WfTRI L_J L____J L___J FL7 6 _ I LL1_L11J a II 7 1 % A XZ ` 15 A4F M% AAA BY 0I1fR.a TANG I M>I LOAD T�cor ewncn -1--rH } II +'f•(y-}---\A61TArLR I IP 89 96 95 TNJC I P GHLS' � N9rE 0 L_J L { ___J �� M L_ J-- A6RATLR SRO` JY,��iswncn �J " A Al M9 •i xl_y CH Al 15 MF MA _ BY ORBtS i 4 B4 7 7D1 2 <E (- a ImAY F-n r-----I r AW r r --- J TANG 2 —T rur-- I n xr Ara - - ro�Ae er �H-+•1N•i L_J K-XYlH___ _ MOfLR M�z rcalFZAD4ff TAN(2 �- R X p L___J = A61F AGITATOR FITE OvLWLAD L16HT IRFXt�Jr6KI-4 K AMP BY OfFHts TDYI xz I \1-- cl AM5 12 8 I % 11 _--- ATER R7JP L 11_ 11J 89 TOR M4 k Al A2 15 AMP 62 PA16 BY OREt6 = OZ-I CCNrR0. LOAD ©—ieaow- aarc ^ 19 +� W 7ANC 2`GE1Ls� ____ Jvs� / Dg QA Pulp % 4 Sk 7 Lf 2 NOfE qi r—enemwe ux—cmas w+rvo. vxa AO AMP CA BY OfFER6 M42 R'� TANG 2 �zaw ^ AM7 _ WALE ET FEAT EWWr6 R A&IrATOR ogfff OAD UcItm-- 4n n Oa T6-H cR7 LOw LEVY m �a R 97 95 X %2 ______ A FEATDe E2 I-EATW6 TANC __-evr wrsw H ansa I 4 �' - I% IA `E71GtIANr M 4s •—„ � 40 AMP 61 PM8 BY ORERS , l % A n N Hrfl LEVY WA- �Ar FEAl EV.HAWGFR J % k 6Si-2 cR% LOU � CONR G - SOSTr 2 ALARM---- p FEAnN6 TANG Z 40 A� M19 BY ORHts FEAT FYLNNJT� CR00.JN'6 �� - LJ5 %1 s HEAr LOU LEVEL — � �I Al I% 14 LJ pWWMER24V H-Y5 COO W6B 4s HIGH IJ=V9.xs M=:AMW BY ORERs _ , . cR'rB CRT-pLK TANC I 21 __II )PY LOwLK%f7r 9 5 14 R flf4 o 15 AMP I IO 6 % �'R84 PILJ6 TANG I +'+ jp6m HIGH TAM ro 9 5 XI R XZ 9� 5 RPH�Y CRA-4 FEAT CR9-I pLl7 TANG 2 Y Ld A E) LPN LieffWATER 9 5 >4 R PM K au -I a TG-I /9 FEAT CRIO-1 PxiL� ,x HIGH LI6Hr C.)a •Lr ET. 9 5 4 LR5DZKWSM Y% 14 9 5 X R d,. CCNrRCt PoNrRCRy4 rc21 FEAT 6a4rP - FEAT CR7-2 H L; N `'' ❑ M WF'U RiH LJGFIr _ 9 5 i 4 9 I% GRb 14 E O I 6 IXPIDZ Z p R ptv6E�� COOL U / Vn W. II 14 H 14 ccs FEAFIXCW6H RELAY RX1 EATW6� U XI CONACTg5 cR9-Z CH sH PB Fb4i CR-Z K5�1 CI.�¢ F�•1 %2RTRC-xNIYN.fl C4NIR0. Rlq FEAT EXCINN6H2 IO 6 BZZ 9 5 9 4 2 % 4 AJ A2 IO 6 KI O %2 Ssi 12 'n N M-1 G IO b 14 .1. II • c4u 1 Tc31 y c _ TETP. 1 CRF-2 yst-I 1 PB A n H FL41 �� NOfE i NI n R Mt4. 9s � RW L4141FA_ L , A b 6 4 % 9 CRs rCA--I 556 CRY2-I 9 I MH PJI m G X2 CCNTRCL F--1 m e M w pi O W II 7 LR&-9 NorE k, 2 % 4 Al A2 11 7 -1 P 6 A 9 9 1 ` -I L2 �' NA2M LOAD (A I i° y o 3 ? ft5 n N 9 b g 6 xi 4 i 2 CR2r rh 1 / ece-II CRI2 2 A '° rA^K 2 IIdP. cR9 % 6urpurs ALARM s(6rw z O Cp w XI 6 %� CCMRCL 7 A % IO 2 A c cR>9 TLH cRll-1 Udall 0 D 11 �% 10 2 � 'n _ ll. J II 7 N D N RH O1T/ V - ----- - WIRING LEGEND D 7MK I READOUT IN N TRI +o TAW I FEATIN9 CONTROL •„1�e==� 5 A -_ A.nc DfAV LCM 2 wmwLr ae�r<xc¢rs 1 2 6 A - ALARM Law To +0 — —.y era uNrwss TANK 2 LOAD CELLS M1 ww R PLO T CLM 7 J -__ TANK 1 LOAD CELLS i �vviru TANK I CENTLR OF LOOP REAPOOT 25.0 X2 SEEN a J - 18300 18300 y � TRU TANG I LO2JN6 G6IJTP.0. ©©oo� o©oo=—WNRN 5 a ___ pia. NOV LLM 2 y4—[�+•ee 12 b 0 — — — ALARM LIEW L2prT61 +o f•—rcar smrcn LLM 7 K ___— - INTERFACE %OX w w R R20 SEN a K TANK I REII.RN TO TANK READOUT M TR9 +0 TANK 2 HPATRI6 CONTROL aaY 45 L vac 1 wV LCM 2 � 1,�� 1 2 6 G-- - ALARM LKMT T!h 1 +0 w w R FL21 SET 66M 7 TANG 2 REAJOJT XI %2 POINT SEN a D 4 TPA TANK 2 LOCLW CONTROL rnwm. +o I DaV GLM 2 5 D -__ ©—Tae.mw. Nax 1 2 b D- ALARM LI6Ni IGb +o r—enar.ce I GET OEM 7 M -__ HEAT EXCHANGER up_�i,wy pA.g w a TAVC 2 CENTER LF LOOP READOUT XI R tt n 17 M - e0 ^rr• Ta.W,ml.. LOAD CENTER ua 4 �'` RIM mm mm mm eE, a ice IRS OO' �� —ren xx�x Av one+s ALARM LIOIIT �,� •—�aae+rw� I D N� N NY4 XI R Xt T" 2 PET.RN TO TANK READOUT L THE MID LR MOTGRS ARE M A CLASS I, DMSION It, EROLP D e,�,�• .... a�ac LOLATM TIGN AS FE EC -70.-70.II�� q 5 4 2. PLEASE SEE MAT EVVNeER ELELTRIGAL a'.tiF J?AATIL FOR THIS SYSTEM. '°'e T% PD-{76d-03f7-A7 A7 +0 5. HIOOIKINO LP THE LOAD aLL6 TO TI'E PIDILATOR SIA.LD W- WIR® . rs �� • F�-1 5 F __ LIKE THIIZ. LINO THE + E)CITATILIN TO THE + �SE FROM THE v We N 2 b F - ALARM LIGHT PmICATOR WITH THE GREEN + E&MATION F+LM THE LOAD CE 5. ""A..®ns •�9 z • �o THEM LMC THE - EYOITATION TO THE - SU46E FROM THE •a z • � 6 w w XI R INDICATOR MTN THE MALT( - 15CITATION FROM THE LOAD C915. SS B® KNON HOOK TIE + SIENAL FROM THE WCATOR TO THE WRITE WIRE _ FROM THE LOAD CELLS & THE - SIGNAL FROM THE PIDICATOR TO p� `•��' O THE REP WIRE WIRE FROM TLOAD CELLS. N.n. HEAT HJlHWJC£ TB.P. WR INS FROM M 165 PDILATOR TO THE JXKTION DOX MUST 6E �� ) q A RAN M CAROL # W47A F] F/TRICAL MRPS FRGM WHO PIDGAiOR FROM LIYACTON � RESIN TANK 1 TR7 +0 DOX SHALL NOT EXCEED 2w FEET Of WIRE RLK LEVEL ALARM SYSTEM Q 5 C, -- ELECTRIC WJS SHOULD CE LA469L CELLS MKINO THE C9JTO THE T ,„ 0 •d P. ,LWTION COX. THIS WIRE IS MATE UP M THE CELLS ANJ CAN DE p� 1? 4 b 6- ALL aRX5 ARE YIOJAG ® 5 AMP M P a 19 LRR W �� 4 LONLEfT HEAT SENSOR MRIN6 (15 SENSORS TO TERMMFLS W THRU "M. LOCATZP _ M INTERFACE JINGTION WL THESE VA-1- NE® TO M WIRED IN 6ENERRN_ LADLE LR�k wxan"" CARD DRMD �447A WIRE EACH SENSORPLACEN04T EtTS ITS OAN WIRE ®e®� es a' CRII .G i9 N 5.ONER SAFETY SWITCHES REgUIREy 6Y 0TH5R LOCAL LODES DE RMISHFD RESIN TANK 2 CRIF9 aY OUSrLMFR ® ® LEVEL ALARM SYSTEM Acw II T XI R P�21 6.AL ELECTRICAL WN SH WFJi/tL DE DONE M ACCORDANCE WRH NEC. AW�m s•��m IAL R WIRLO& WRNS SHW1 DE DONE M STRMDFD MRE NO SSLV WIRE TO PE U2FD. 65a®s csa®v LR12 ^AI Lys Aj-CM )i-( _ U It 7 T@ OB ti ,6�..®s s•65�r FEAT EYLHA4EH2 HEAT046 �V LGM 2 T TLI LGM7 H `° "OUF61PE OF OONTROL PANEL" ro PANT SFJI a H ___ is Q P. c%I PY IEA IEVAPV sCz L00.1N6 ZCD 0 ' CO I Nav GGnl2 m TL2 SET T a =__ N A-6 of 8 INTERFAGE I i LOAD GENTER J HEAT EXGHANOER WIRING av 1.—I f W /7THFf7�- 3 WIRING LEOENP 44 �LM.V'ISF /.-KWIYLY RtiCQIl.1LB -IMANLY � 1 �/IfM SLY SYllLtl �- —nrn wiYcv (�GtlT _M1fCH Y�L SNfCX -'-IAPPG_ IAAY �TM 49AY L�Lgp/LTgt l ��T LC11T {(p-P9lLi lQPPLI PML ___ —Tay rv.er rr min SYSTEM NOTES Q 5 HP hazardous location resin pump motor. This will need to have a fusible safety switch installed. This pump will be hooked to terminals - -3 in Interface on control panel A7. This is for Tank I / Pump I. Please see drawing PP-P7FOA5-A5. 5 Hp. 205v / 3 Phase / 175 FA ®There are alarm safety Interlocks an this pumping unit. These are terminals 4 �. These will need to be hooked to a normally closed set of contacts on your lire alarm system 0 5 HP hazardous local ion resin pump motor. This wI II need to have a fusible safety switch installed. This pump will be hooked to terminals (-7-D in Interface on control panel A7. This is for Tank 2 / Pump 2, Please see Drawing Pl)-jilt- 045. 5 Hp. 265 Volt / 5 Phase / 175 r A ® There are alarm safety Interlocks on this pumping unit. These are terminals These wlII need to be hooked to a normally closed set of contacts on your fire alarm system Q 1 HP hazardous location agitator motor Tank I. This will need to have a fusible safety switch installed. This motor will be hooked to terminals 11-4-P in InterFace an control panel A7. This motor Is 265 Volt three phase. Please see drawing FT-IT11-M".. I Hp. 205 Volt / 5 Phase / 41A FIA ® IfP hazardous location agitator motor Tank 2. This will need to have a fusible safety switch installed. This motor will be hooked to terminals N-F—ki in InterFace on control panel AT This motor is Tab Volt three phase. Please see drawing PD-rH1-015-A5. I Hp. 265 Volt / 3 Phase / 414 P A Q IfP TEFC Tank I water pump. This motor will hook to terminals r/-15 in InterFace on control panel Al. This is a 205 volt single phase motor. Please see drawing PP-rrll-OiI545. I Hp. 205 Volt / Single Phase / 111 M © I HP Tmc Tank 2 water pump. This motor will hook to terminals 15-20 in InterFace on control panel AT This is a 205 volt single phase motor. Please see drawing PD-{T164L�A5. I Hp. 105 Volt / Single Phase / 01 riA 1a These are RTD (Resistance Temperature Devices) that wire out of Interface on control panel AT Interface terminals A -A, J-J, K-K for resin Tank I. These sensors will be ran in beneral Cable/Carol Drand III C4047A wire. These sensors are in a Class 1 Division II broup P location as per W-6 70-WA-2. The RTDs are a simple apparatus. Please see drawing Fp-Iip-OyB - These are RTP (Resistance Temperature Devices) that wire out of Interface on central panel Al. Interface terminals D-P, L-L, M-M for resin Tank 2. These sensors will be ran in beneral Cable/Carol Drand N W47A wire. These sensors are in a Class I Division II broup D location as per IFf 70-0¢2 The Rips are a simple apparatus. Please see drawing PP-ITIIMI5--M. 09 These are RTD (Resistance Temperature pevices) that wire out of Interface on control panel A7. Interface terminals ", H-1f, H for heat exchanger. These sensors will be ran in beneral Cable/Caral Brand 9 C6047A wire. These sensors are in a Class I Division II broup D location as per tPlr70-5044. The RTPs are a simple apparatus. Please see drawing PD-r111-011FLAb. ® These are 205 Volt / 30 Amp / 2 pole water heaters A and D that wire from Interface on control panel AT Heater A will hook to terminals 23-24 & D will hook to terminals 25-26. These will need a fusible disconnect switch. Please see drawing PP-rrA-OLID-A5. II Chiller control wires tram Interface on control panel A7, terminals 90-91-97.-5i will wire to CCP terminals 1-2-34. The main power to this unit is from terminals 27-25-29 on control panel A7 to LH3{9 in the CCP. This is a 206 Volt / 50 Amp / three phase unit. A fusible disconnect switch will be needed for this. The chiller water pump wires tram Interface, terminals 21-291-29 to W terminals LI{1-1-5. Please see drawings PD-rrelv12l6-A5&F¢IT4-011B T 7 IS These are junction boxes for the load cell hook-ups. Number i1 is for Tank I and 13 for Tank 2. This is in a Class I Division II broup D location this will need to be supplied. ® These are the load cells for Tank L they will need to be hook-up as follows: Link the + MITATION (33) from the interface to the GREEN + MIFAT16N from the load cells in junction M Then link the - WFATICN (54) from the interface with the MACK - EYCITATICN tram the load cells in junction IL Now hook the + 516NAL (30 tram the interface to the WHITE + 516NAL wires from the load cells in juction ri, Last hook the - 516WL (V) from the interface to the REP - 516NAL wires from the load cells in juction iL The shields hook up to the shield terminal in Interface to juction 12 Electricians should be careful when wiring the cells to the junction box i2, the 9 foot wires are made up inside the cells and can be twisted off. The eel is wire train Interface to junction box M This will need to be ran in beneral Cable/Carol Drand A C2545A The terminals are 5¢'J5-'Jh97 for the resin tank I. The cells are intrinsically safe with CSA, Rd, and CE approved. Please see drawing PP-17M-02".. 0 These are the load cells for Tank 2, they will need to be hook-up as follows: Link the +MMANRd (4p from the interface to the 6RIEN +MITATION from the load cal Is in junction 13. Then IInk the - EZIrATICN (30) tram the Interface with the IX" - MATATION from the load celIs in junction 13. Now hook the + 516NAL (" from the interface to the MITE + 516NAL wires from the load cells in juction 15. Lost hook the - 61OU41. (40) Tram the interface to the REP - SIGNAL wires from the load cells in juction P. The shields hook up to the shield terminal in Interface to juction 13. Electricians should be careful when wiring the cells to the junction box 13, the 9 foot wires are made up Inside the cells and can be twisted off. The cells wire from Interface to junction box P. This wlII need to be ran in 6eneral Cable/Carol Drand A 6.2543A The terminals are 98 40-41 for the resin Tank 2. The cells are Intrinsically safe with C5A FR and CE approved. Please see drawing PP-Rf-00- . ® These are RT17 (Resistance Temperature Devices) that wire out of Interface on control panel AT Interface terminals C-C go to the sensor for return to Tank I. These will be Installed by others. These sensor will be ran in General Gable/carol Drand A G4197A wire. © These are RTD (Resistance Temperature Devices) that wire out of Interface an control panel Al. Interface terminals E-E go to the sensor for return to Tank 2, These will be installed by others. These sensor will be ran In beneral table/Carol Drand N 64197A wire. ® These are RTD (Resistance Temperature Devices) that wire out of Interface on control panel A7 Interface terminals " & E-E go to the sensor for center of piping loop. 15== System I & E = System 2 installed by others. These sensors will be ran in beneral Cable/Carol Drand p 6-467A wire. ® This is the main control panel for the bulk resin storage system Please see drawings PD-ITIF-015-A5, PD-fl1MAD-Ab, PD-1711-OA1 -Al. ® This is the load center for the system it will need to be feed with 200 amps of 120/205 volt three phase. ®There are High and Low level alarm output.. These are leave. 0 5 Amps These are Tank I terminal. 5 l law level and 5 5 high level and Tank 2 terminals U4 law level and 55-57 high level. N El Y RT AGRATOfl LU AGRATATOfl O Q O of I o 0