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POWER AREA INTRINSICAL-L_Y SAFE AREA <br /> N L POWER AREA I NTRI NS CALEY- SAFE AREA <br /> 35111 <br /> ® ® ® GROUND 0 ° ° GROUND <br /> U) <br /> • <br /> 16 SPARE • •8 SPARE • 16 SPACE g SPACE QO <br /> J W J <br /> 15 SPARE 7 SPARE N O Q Z U <br /> Q W J <br /> Q <br /> 15 SPACE 7 SPACE w W <br /> F <br /> 2 3 4 5 6 7 $ MAXIMUM SENSOR Q <br /> OUTPUT RATING <br /> SENSOR - 15 voc <br /> SPARE • • • • • • • • • • • • • • • • 15 AMP O crCn Q U <br /> 14 6 0000 0 00 0 (2) (Z) 00 00 00 TANK SUMPS <br /> • SENSORS MODULE TYPE: PLLD INTERFACE MODULE W a) a: J <br /> INTERSTITIAL SENSOR INTERFACE MODULE /� <br /> POSITION RECORD: TURBINE PLLD 0 W V O <br /> z 3 4 5 6 MAXIMUM SENSOR SPACE 1 REG. UNLEADED 1 5 SPARE <br /> � T � � � � z �w W U co <br /> F-1 <br /> T I T I T I T I T � OUTPUT RATING 14 6 Q Q <br /> PRESSURE - 1s voc 2 REG. UNLEADED 2 6 SPARE � <br /> SPARE XMIT _ 1iz C. 3 PREM. UNLEADED #1 W W <br /> 13 5 � � � � � � � � � � � � PLLD W <br /> • • • TURBINE 4 SPARE Cn a <br /> MODULE TYPE: INTERSTITIAL SENSOR INTERFACE REPLACED a Q <br /> �'�+2- +3T4�+5 +sem+'�+a� MAXIMUM OUTPUTRATINGR POSITION RECORD: TANK SUMP SENSORS DISPENSER O U <br /> SENSOR 13 voc <br /> 0 0 0.2 AMP 1 REG. UNL A FILL SUMP & HYDRO 5 PREM UNL FILL SUMP & HYDRO o <br /> SPARE 13 SPACE 5 cs L <br /> 1 2 4 1 3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ISD SENSORS 2 REG. UNL A TURB SUMP 6 PREM UNL TURB SUMP N <br /> • 8-INPUT SMART SENSOR INTERFACE MODULE 3 REG. UNL B FILL SUMP & HYDRO 7 ADDITIVE TURBINE SUMP & HYDRO EXISTING 5 J O <br /> ETHERNET CONDUIT WITH NEW Q m <br /> 1 PUMP2SENSE 3 DDLE T+ T+ T T+ T+ �+ (3) BELDEN CABLE #7928A & 1#12 U <br /> 1 2 3 4 5 6 7 MAXIMUM SENSOR <br /> PI PR PI PR PI PR PI PR OUTPUT RATING <br /> SENSOR- 13 VDC MODULE TYPE: SMART SENSORS 7-SLOT <br /> • 0.2 AMP 13 GND. PER DISPENSER UNDER NEW o 0 <br /> • POSITION RECORD: DISPENSER SENSORS - STD ( )( <br /> 1 1 3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ISD & VAC SEPARATE PERMIT <br /> m m m m m m m m SENSORS SPACE 1 DISP 1/2 S CIS ® 9/i0 SUMP ) ETHERNET DISCONNECT POWER C4 _ <br /> 7-INPUT SMART SENSOR INTERFACE MODULE 12 4 2 DISP 3 4 SUMP 6 DISP 11 12 SUMP RECEPTACLE }' <br /> 1 UNL. 1 2 - UNL. 2 3 - PREM. PI - PUMP INPUT SIGNAL I� p F— <br /> IPI PR LIPPI PR LIP PI PR LIP PR - PUMP RETURN (NEUTRAL) t 2 3 4 5 6 7 8 MAXIMUM SENSOR 3 DISP 5 6 SUMP 7 SPARE <br /> + + —I+ —I + —I + �+ �+ OUTPUT RATING Z <br /> LI - LINE POWER INPUT SENSOR 13 VDC 4 DISP 7/8 SUMP 8 SPARE F B-12 <br /> • • • • • • • • • • • • • • • • PO - PUMP OUTPUT CONTROL • • • • • • • • • • • • • • • • 0.2 AMP <br /> 10 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O FORMA OM°A5Ci5 2 SD SENSORS MODULE TYPE: PUMP SENSE MODULE EXISTING IDF CABINET O EXTEND <br /> • 240 <br /> • • 8-INPUT SMART SENSOR INTERFACE MODULE • POSITION RECORD: ADDITIVE PUMP SENSE ISD PRESS. SENSORS NEW CONDUIT TO EXISTING <br /> PRESSURE LINE LEAK CONTROLLER MODULE 1 ADDITIVE BATCH CONTROLLER TURBINE 1 R OR AT VE SPARE 2 BELDEN CABLES 7928A SHALL BE <br /> 4—RELAY OUTPUT MODULE PROBE� PROBE �INTERSTTUAL� ( ) # ETHERNET DISPENSER DATA DISCONNECT <br /> INCA NO G NC No G N No G NC No4� f RELAY TO EXTERNAL DEVICE +2T+3�4�+5-I+6 +7 +8 AIATIP��'�TNN�R 1 1 2 SPARE 3 SPARE COILED INSIDE THE IDF CABINET AS DISCONNECT RECEPTACLEM—A <br /> RELAY RATINGS 15 VGC 3 SPARE 3 ADDITIVE VENT LINE V 7 SPARE EXISTING SPARES. THE COIL OF THE SPARE CABLE (UNDER <br /> • • • • • • • • • • • • FROM C CONTACTS • • • • • • • • • • • • • • • • 15 AMP A <br /> 9 120 VAC,2A MAX OR 1 4 SPARE 4 SPARE 8 AMB. COND BLANK-DONOT USE SHALL BE A MINIMUM OF 6 FEET `OV <br /> 0 0 0 0 0 0 0 0 0 0 0 0 24 voc,2A MAX e 0 e 0 e 0 0 0 0 0 0 0 0 0 TANK CONTROLLER ENCLOSURE SEPARATE <br /> • LEVEL/ANNULAR MODULE TYPE: PLLD CONTROLLER MODULE MODULE TYPE: SMART SENSORS (UNDER SEPARATE PERMIT) PERMIT) 6 00 <br /> COMBO PROBE/INTERSTITIAL INTERFACE MODULE GAUGES <br /> POSITION RECORD: PLLD POSITION RECORD: ISD VAPOR FLOW SENSORS W 0) <br /> ® 1 REG. UNLEADED 1 1 DISPENSER 1/2 5 DISPENSER 9/10 J Z <br /> ® ® lid ® 1 2 REG. UNLEADED 2 2 2 DISPENSER 3/4 6 DISPENSER 11/12 Q W <br /> 3 PREM. UNLEADED #1 3 DISPENSER 5/6 7 DISPENSER 13/14 v) > O <br /> 4 DISPENSER 7/8 8 SPARE W Ir /�� <br /> MODULE TYPE: 4-RELAY OUTPUT MODULE MODULE TYPE: COMBO PROBE/INTERSTITIAL INTERFACE MODULE - J V <br /> POSITION RECORD: POSITION RECORD: TANK LEVEL GAUGE/ANNULAR SENSOR O 0 Z <br /> g <br /> 1 CONT. ENCLSR. VR REMOTE ALARM 1 REG. UNLEADED A 5 REG. UNL NEW (UNDER SEPARATE PERMIT) <br /> A ANNULAR = w M <br /> 2 ADDITIVE TURBINE 1 2 REG. UNLEADED B 6 REG. UNL B ANNULAR <br /> Veeder Root Console 3 SPARE 3 PREM. UNLEADED 7 PREM. UNL ANNULAR 1-1/4" ETHERNET CONDUIT FROM IDF CABINET TO ETHERNET Q Q <br /> 4 SPARE 4 ADDITIVE 8 ADDITIVE ANNULAR DISCONNECT O J <br /> 1-1/4" C, NEW (6) BELDEN CABLE #7928A & 1#12 GND <br /> GROUND 0 0 GROUND 1919NEW (UNDER SEPARATE PERMIT) 0) <br /> VEEDER—ROOT NOTES: 1-1/4" ETHERNET CONDUIT FROM ETHERNET DISCONNECT TO CO 0) Q <br /> IDF CABINET Q 0 <br /> CONTRACTOR TO DOWNLOAD AND PRINT EXISTING ALARM <br /> 1-1/4" C, NEW (6) BELDEN CABLE #7928A & 1#12 GND U <br /> HISTORY & SENSOR SETUP PRIOR TO STARTING ANY WORK Q <br /> ON THE EXISTING VEEDER—ROOT PANEL. PLACE PRINTOUT VEEDER-ROOT NOTE: CO <br /> INTO EXISTING "DESIGNATED OPERATOR" BINDER IN THE CONTRACTOR TO DOWNLOAD AND PRINT EXISTING ALARM (n <br /> CONTROLLER ENCLOSURE. <br /> HISTORY EXISTING <br /> NEXVEEDEROOTPANEL.TO LANY ACE Ethernet Cabling Block Diagram — <br /> Module Configuration WORPRINTOUT INTO EXISTING "DESIGNATED OPERATOR" <br /> UPGRADE SOFTWARE ALONG WITH CHANGING THE SIM CHIP BINDER IN THE CONTROLLER ENCLOSURE. OX MATERIAL TAG � <br /> REFER TO T-2 <br /> FOR THE NEW SMART MODULE. X KEYED NOTEQ1ssta,�� <br /> ('-A`� Modified Veeder Root Console Module Configuration REFER TO E-1 <br /> �� G1RIS 1N. TE16AL 1 �, <br /> E-2 NOT TO SCALE: C Ethernet Diagram -` C83 15 <br /> E-2 NOT TO SCALE: , <br /> p ClV1t- ¢ <br /> F pF CA\-��a <br /> I <br /> EXISTING 1 "CONDUIT 15 <br /> CONTROLLER ENCLOSURE _ <br /> (1 ) RS-485 CABLE (OR 6 0 <br /> ui c � ° � x <br /> BELDEN CABLE 3107A) U <br /> N Z Z 0 <br /> N L Q <br /> = Q Q N <br /> NEW VEEDER—ROOT WITH 1 #12 GND <br /> EXISTING VENT Q <br /> WIRELESS RECEIVER 15 i 'o < <br /> m c� <br /> Do <br /> � <br /> aCDDO <br /> NEW VEEDER—ROOT6 NEW VEEDER—ROOT 3 <br /> 17 WIRELESS RF CONSOLE 1WIRELESS PRESSURE o o Q o Ln <br /> (TYP-2) SENSOR BOX Cn <br /> EXISTING 141 is Pre F&H9 sensor Z > N <br /> FOR FLOW METER 14 POWERBOX 13or2enrlasure Z wCID <br /> Ln Cn <br /> �) 3/4"C, 2#12 & 1 #12 { w x N <br /> 114 Copper 10 � 0 Z <br /> Not Installe GND tubing z < Z w v <br /> EXISTING DISPENSER .� > N g Z Q) <br /> Q r0 N N O <br /> 0 cl-4 00 Of <br /> „ ,F'Schedule 44 p <br /> (E� Z cfl 00 <br /> 1 C, (8) BELDEN #8760 .: and pipeEittings z I I w I'I <br /> (customer supplied► N Q Z 01 <br /> NEW VEEDER—ROOT CABLES & 1 #12 GND I� Lo Ln z <br /> WIRELESS TRANSMITTER View A-A ^^ z w <br /> NEW VEEDER—ROOT EXISTINGLo Ln <br /> 14 TOP OF VEEDER—ROOT Not I � w 4Ln-,d- C)C) <br /> U Cn <br /> BATTERY PACK ISLAND REFER TO LAYOUT A/E2 <br /> FACTORY LEAD FROMCn <br /> SENSOR DEDICATED <br /> FACTORY LEAD FROM CIRCUIT IN ��i st> <br /> BATTERY PACK PANEL AOn <br /> J y <br /> Q <br /> NEW VEEDER—ROOT 12 e = c <br /> CID <br /> MAG SUMP SENSOR �-= o <br /> N <br /> EXISTING�� u� tyb NSJv o <br /> U <br /> UDC 8 0 Co <br /> U <br /> E <br /> CDC <br /> Ln <br /> Lo CD <br /> CD <br /> B Wireless Elevation o <br /> D Wireless Pressure Sensor at Vent AS BUILT z LO .� CD <br /> E-2 NOT TO SCALE. JONEfCOVEY 6R0UV,INC. 1212017 O � O CD <br /> E-2 NOT TO SCALE: 0 TLo CD <br /> L� <br />