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1100 Sandpiper Ln WWTP#1002— REVISIONS A" I I ISSUED FOR BIOS 4'-0" SEE MFG 4'-0" o I I 11/4/2010 (TMP) (TMP) p ADDENDUM /2 11/17/2010 U" 3'-U' MAX 1 FIBERGLASS - GRATING PROJECT gz II II LIER ( — FILE NO ��,� 12" SLAB W/ OC Ew /4012" TOP AND SOFT 1 I 4 52.J 0 u ALUMIN ACTING 1 4T 7 LOGS. CURE TO �uBE ./ r of ss ear. CHANN C8:4.2 1 I I I (AT 7 ) N N LIED_ N N N _ _ _ PNN9 m C_ J m ID MW 0) to 0 `o STAIRS `-RAIL (TYP) C � LL LL fn m C C N _ 0 0 O US In N DISC FILTER PLATFORM FOUNDATION PLAN DISC FILTER PLATFORM WALKWAY PLAN a a 51.3 SCALE: 1/4" - V-0" 51.3 SCALE: 1/4' a I'-0" � N PLAN NOTES 1. SEE SO.1 FOR DESIGN CRITERIA AND GENERAL NOTES. 2. CROWN PAD TO PROVIDE SLOPE TO THE EDGE O r7tT. PLAN NOTES 1) SEE 50.7 FOR DESIGN CRITERIA AND GENERAL NOTES 2) TOP OF WALKWAY ELEVATION a SEE MFG <`+ a 3. FILTER TO BE SECURED TO THE SLAB AS REOURED BY THE MFG, PROVIDE NON -SHRINK LEVELING GROUT UNDER FILTER BEARING POINTS TO MAINTAIN LEVEL EQUIPMENT. 3) DENOTES FIBERGLASS GRATING, SEE SPECS MIN GRATING DEPTH IS 2" AND LUN SECTION PROPERTY IS BASED ON MCNI04OLS MS 5-200 FIBERGLASS GRATING. CONNECT TO ALL FRAMING PER MFG'S RECOMMENDATIONS. 4) —DENOTES ALUMINUM HANDRANS, SEE DETAIL 2/52.2. W ' ` Z Q J CL O U J O a M LL o Z 0 w LJJ �`�rp191901611B986!!j' > • ■ a s a • .� �� 0 yyyyyyyy • GLV • •� i •'O i ■ L� DATE SEPTEMBER 2010 MCVEIGH & MANGUM SCALE EN21NEERING•TNC 91]] RG. Skimu PvkwaY su AS SHOWN DRAWN BY RMF $' �R339oa�aai nTov��Unr:1.�]a�Wa��m E e. oex�a Z- od�9 u . He.: snu DESIGNED BY -0 DISC FILTER PLANS SHEET S1.3 0 49 OF 72 SHEETS — A" I I COORO W o I I p 1 gz II II LIER ( ) ��,� 1 I 4 52.J 0 u µ' UM L2x2>,1 ACTING 1 4T 7 LOGS. CURE TO �uBE ./ r of ss ear. 1 I I I MINIMUM SPLICE LENGTHS (UON) BAR SIZE TOP REINF ALL OTHER REINF +4 2'_0" 1'-7' /5 2'-6' 2'-0" /6 Y-4" 2'-8" 4'-7" LL4-11" -6"5'-B" -6"7'-4" -8" LAP SPLICE 'SCHEDULE NOTE. TOP REINF IS HORI::ONTAL BARS NTH MORE THAN 12" DEPTH OF FRESH CONCRETE CAST BELOW THE BARS. SCHEDULE 52.2 SCALE: N75 SLAB OR I PLAN OR ORCULAR OR OPNG THRU W 1J§"o ALUM WO ALUM PIPE RAILING PIPE RAILING TYP. (NOTE/1) TYP. (NOTE/1) 1XN"0 ALUM _ _ _ Y "0ALUM ��: _ MI POST TYP. - - - 1 NOTEy2) (NOTE/2) ALUM TOEBOARI CLAMP/STRAP W/ ALUM BASE 'w ALUM. PLK"x4' 2_ JS'O BOLTS 8- FLANGE 1 TOEBOARD ON INSIDE FACE OF W/ 2 -%*0 BOLTS ALUMINUM RAIL (NOTE/3) TGEBOARD L in 2 -WO SS EXP. ALUM SIDE MOUNT BOLTS BRACKET W/ 2-i6"0 ANGLE/CHANNEL ALUM. SIDE MOUNT BOLTS & 2 SS SET BRACKETS, TYP. SS SET SCREWS, SCREWS TYP, SIDE SUPPORT 0 TOP SUPPORT 0 SIDE MOUNT SUPPORT CONC. WALL CONC, WALL ® METAL FRAME z DETAIL 52.2 SCALE: NTS ADD AT EACH SIDE OF OPNG. /2 OF SLAB OR WALL NTERRUPTED 8 OPENINGEINF SPA 4" OC) 11) TES-- WALL O2 SLAB THICKNESS 2) PR DVIDE ADD'L BARS (NOT SHOWN) WHICH EOUAL THE AREA OF INTERRUPTED WALL & SLAB REINFORCING. 3) PLACE IN APPROX EQUAL AREAS EACH SIDE OF OPNG & PARALLEL TO THE CONT REINF ALONG THE PERIMETER OF THE OPNG. 4) BUNDLE BARS O RESTRICTED AREAS. ADDED REINFORCING AT OPENING IN QONCRETE WALL OR SLAB WHERE MAIN REINF IS INTERRUPTED DETAIL 52.2 SCALE: NTS /5 BAR O 8" OC' DRILL & EPDXY INTO EXIST WALL. 1B0' H(IOK O CORBEL /5 DOWELS O12'OC EPDXIED INTO EXIST CONIC WALL T/WALKWAY EL. �_ SEE PIAN z m EXIST TANK WALL 1 •- CONIC CORBEL $ TO SUPPORT $ WALKWAY SECTION 52.2 SCALE: NTS BEARING PAD CONT /5 BAR (4) PLACES '05 BAR O 12" OC I I I I I I I I I I I 1 I I I I I I I I I I I 1 I SEE 2/S2.2 FOR'-- I I TYPICAL RAIL I I DETAIL I I I I 1 i T/WALL EL SEE PLAN 1 I I I I I I I I 1 ) 5 DETAIL 52.2 SCALE: NTS FIBERGLASS GRATING & MESH. SEE SPECS rEXI! TRENCH CONIC WALKWAY SEE DET 1/S2.1 & e/S2.2 /5 DOWELS O 12 -OC 05 EPDXIED INTO EXIST EPO CONC WALL T/WALKWAY EL. SEE PLAN EXIST CONC WALL NOTES: 1) ALUMINUM HORIZ TOP RAILING SHALL CONTINUE (MAX. LENGTH PROVIDED BY APPROVED MANUF OR 20 FEET) MECHANICALLY FASTENED TO VERT ALUMINUM POSTS. THE ALUMINUM HORIZ. MID RAVING SHALL ALSO BE MECHANICALLY FASTENED TO VERT ALUMINUM POSTS. 2) ALUMINUM VERT POSTS SPACING SHALL NOT EXCEED 6'-0" OC TYP AND SHALL NOT INTERRUPT THE CONTINUATION OF THE TOP RAILING AT ANY POINT ALONG RAILING. 3) TOEBOARD PLATE SHALL COMPLY TO LOCAL CODES AND SHALL BE A MIN OF 4" HIGH AND SET 1/4" ABOVE THE WALKING SURFACE. SECURE WITH ALUM 3/18"x2" STRAP/CLAMP AND 2-1/2"0 SS. ROUND HEAD BOLTS. WASHERS AND NUTS. PROVIDE EXPANSION JOINTS IN TOEBOARD TO COINCIDE NTH HANDRAIL. 4) ALL STRUCTURAL FASTENERS FOR ATTACHMENT OF FLANGES AND BRACKETS TO CONCRETE OR ALUM COMPONENTS, SHALL BE MADE OF STAINLESS STEEL. 1 I I I I I 1 I I I I I I 1 I SEE 2/S2.2 FOR- TYPICAL RAIL DETAIL 1 WIDTH, SEE PLAT Ail rl ALL CONDUIT SHALL BECENTRO WTHIN SLAB(MAX 512E OF GROPEDCONDUIT-4'-0"X8") T/P --- SEE TF RSEE PLAN 1 � QQQI IQ /5 DOWELS O 12" OC ! WAIKWAY TYPE �D' SECTION 52.2 SCALE: NTS SECTION 52.2 SCALE: NTS & 6/S2.2 6" RIBBED CENTER BOLD CONT WATER STOP J_ X- CHAMFER (EXT FACE WALL ONLY) CONSTRUCTION JOINT CONC WALL OR SLAB NOTES: 1)REINFORCING TO CONTINUE THRU CONSTRUCTION JOINTS. 2) SUBMIT JOINT LOCATIONS TO THE ENGINEER FOR REVIEW. n DETAIL 52.2 SCALE: NTS MECH PUMP PIPING PENETRATION SEE DETAIL FOR 4/S2.2 FOR REINFORCEMENT AT OPNG'S IN SLAB -CONC WALKWAY W/9-/6 TOP & BOTT & /4 TIES O 18" GC CONIC WALL BEYOND SEE DET 2/S2.1 bN0- FOR BIDS NO N iT != N N U j "' N N J c� ma g 4 E) 1n ' `O C 0) . LL LU mai C Q o a Q N M) Y N U Q m N Urn a W U Z Q CLL O U J <) L 01-4 O IL o Z U W W CL CLL __AIF6-- DATE SEPTEMBER 2010 McVEIGH & MANGUM SCALE AS SHOWN ENGIN E E R I NG• INC DRAWN BY 91]3 .G. Slomc Pa.kwey RMF z4. Flan J2256 ss s3io cm%m 1o.P.Iov�tehMa a '.�o- DESIGNED BY a orA«w4: Tlm w. ow." ,-N- sins TWO sn SHEET SECTIONS AND DETAILS S2.2 51 OF 72 SHEETS W. DAVID LASSETTER PE/37971 CONFORMED 12/16/10 I FILE NO ELECTRICAL LEGEND C N > EXISTING MCC1 CONNECTED LOAD CALCULATIONS EXISTING MCC2 CONNECTED LOAD CALCULATIONS EXISTING MCC3 CONNECTED LOAD CALCULATIONS FEEDER CONDUIT "P101" (SEE CONDUIT MCP �1 CIRCUIT BREAKER (FRAME SIZE/TRIP RATING - SLUDGE BLOWER 1 125 HP 156 AMPS PLANT BLOWER 1 125 HP 156 AMPS PLANT BLOWER 2 125 HP 156 AMPS —►P701 AND CABLE SCHEDULE) 100 "MCP" MOTOR CIRCUIT PROTECTOR) SLUDGE BLOWER 2 125 HP 156 AMPS PLANT BLOWER 2 125 HP 156 AMPS PLANT BLOWER 4 125 HP 156 AMPS W SCUM PUMP 1 20 HP 27 AMPS PLANT BLOWER 3 125 HP 156 AMPS MAIN LIFT STATION PUMP 1 30 HP 40 AMPS CONDUIT RUNS CONCEALED MAGNETIC TYPE COMBINATION MOTOR STARTER, SCUM PUMP 2 20 HP 27 AMPS EFFLUENT PUMP 1 60 HP 77 AMPS MAIN LIFT STATION PUMP 2 30 HP 40 AMPS FVNR NEMA SIZE AS INDICATED ("FV" FULL VOLTAGE, YARD PS PUMP 1 10 HP 14 AMPS EFFLUENT PUMP 2 60 HP 77 AMPS MAIN LIFT STATION PUMP 3 30 HP 40 AMPS -------- CONDUIT RUNS EXPOSED Z "RV' REDUCED VOLTAGE, "SS" SOLID STATE, YARD PS PUMP 2 10 HP 14 AMPS EFFLUENT PUMP 3 60 HP 77 AMPS REUSE PUMP 1 20 HP 27 AMPS ce SIZE 3 "NR" NON -REVERSING, "R" REVERSING, "2S" TWO POND AERATION PUMP 1 10 HP 14 AMPS RAS PUMP 1 30 HP 40 AMPS REUSE PUMP 2 20 HP 27 AMPS CONDUIT RUNS IN DUCT BANKS OR BELOW SPEED, "iW ONE WINDING, "2W" TWO WINDING) POND AERATION PUMP 2 10 HP 14 AMPS RAS PUMP 2 40 HP 52 AMPS FILTER t BACKWASH PUMP 10 HP 14 AMPS _-_ GRADE WAS PUMP 1 30 HP 40 AMPS FILTER 1 DRIVE 1.5 HP 3 AMPS VFD VARIABLE FREQUENCY DRIVE MCC1 TOTAL MOTOR LOAD 432 AMPS WAS PUMP 2 30 HP 40 AMPS FILTER 2 BACKWASH PUMP 10 HP 14 AMPS 0 CONDUIT TURNING UP MCC1 MOTOR DEMAND FACTOR 100 X CL2 INDUCTOR 3 HP 5 AMPS FILTER 2 DRIVE 1.5 HP 3 AMPS SO2 1 3 HP 5 AMPS �— CONDUIT TURNING DOWN MOTOR (NUMERAL INDICATES HORSEPOWER- MCC1 MOTOR PEAK DEMAND 432 AMPS INDUCTOR SO2 NDUCTOR 2 3 HP 5 AMPS MCC3 TOTAL MOTOR LOAD 520 AMPS 15 "H" SPACE HEATER, "T' WINDING THERMOSTAT, LIGHTING PANEL A 15 KVA 18 AMPS SECONDARY CLARIFIER 1 0.75 HP 2 AMPS MCC3 MOTOR DEMAND FACTOR 100 X CHANGE IN CONDUIT ELEVATIONS USING "M" MOISTURE DETECTOR) SECONDARY CLARIFIER 1 0.75 HP 2 AMPS CONDUIT OUTLET BODIES. MCC1 TOTAL CONNECTED LOAD 440 AMPS MCC3 MOTOR PEAK DEMAND 520 AMPS Jv MCC2 TOTAL MOTOR LOAD 890 AMPS MAIN LIFT STATION CPT 10 KVA 21 AMPS 1 CONDUIT TERMINATED WITH POTENTIAL TRANSFORMER; CURRENT TRANSFORMER MCC2 MOTOR DEMAND FACTOR 100 X WATERTIGHT CABLE CONNECTOR T MCC3 TOTAL CONNECTED LOAD 541 AMPS PILOT LIGHT (W AMBER, "8" BLUE, "C" CLEAR, MCC2 MOTOR PEAK DEMAND 890 AMPS BRANCH CIRCUIT HOMERUNARROWS DENOTE ( -R "G" GREEN, "R" RED, "W WHITE) HIGH MAST SITE LIGHTING 8 KVA 17 AMPS PANEL CIRCUITS, STROKES DENOTE CONDUCTORS. NO STROKES INDICATES 3/4" CONDUIT WITH TWO O ALARM SIGNAL OR ANNUNCIATOR POINT MCC2 TOTAL CONNECTED LOAD 907 AMPS NO.12 CONDUCTORS h ONE NO.12 GND.) MANHOLE, HANDHOLE, OR PULLBOX AS OI ELECTRICAL INTERLOCK —MpT-- INDICATED ("P" POWER, "C" CONTROL, "T" TELEPHONE, "E" EXISTING) O KIRK KEY MECHANICAL INTERLOCK TYPICAL WIRING DEVICE NOTATIONS (*W* WEATHERPROOF OR "X" EXPLOSION PROOF ®NEW ASSOCIATED DEVIL "REMOTE" FROM MOTOR 11W "5". CONTROL CENTER OR CONTROL PANEL MCC4 CONNECTED LOAD CALCULATIONS NON -COINCIDENTAL LOAD CALCULATIONS ELECTRICAL SERVICE LOAD CALCULATIONS 5 DEVICE CONNECTED TO CIRCUIT ENCLOSING SQUARE DENOTES FLOORBOX)S FORWARD SELECTOR SWITCH AER TANK 1 PUMP P-1-1 5 HP 8 AMPS PLANT BLOWER 125 HP 156 AMPS MCC1 TOTAL CONNECTED LOAD 440 AMPS F 0 R TATIOEVERSE CONTROL STATION AER TANK 1 MIXER M-1-1 2 HP 4 AMPS PLANT BLOWER 125 HP 156 AMPS MCC2 TOTAL CONNECTED LOAD 907 AMPS ® RECEPTACLE AER TANK 1 MIXER M-1-2 1 HP 2 AMPS SLUDGE BLOWER 125 HP 156 AMPS MCC3 TOTAL CONNECTED LOAD 541 AMPS O► SPECIAL PURPOSE OUTLET H L 0 A HIGH/LOW/OFF/AUTO SELECTOR AER TANK 1 MIXER M-1-3 AER TANK 1 MIXER M-1-4 1 H 1 HP 2 AMPS 2 AMPS EFFLUENT PUMP MAIN LIFT STATION PUMP 60 HP 30 HP 77 AMPS 40 AMPS MCC4 TOTAL CONNECTED LOAD LIGHTING PANEL L4 45 KVA 106 AMPS 54 AMPS JO BOX SWITCH CONTROL STATION AER TANK 1VALVE V-1-1 AER TANK 1 VALVE V-1-2 1 HP 1 HP 2 AMPS 2 AMPS RAS PUMP WAS PUMP 30 HP 30 HP 40 AMPS 40 AMPS TOTAL CONNECTED LOAD 2,048 AMPS ,JUNCTION HAND/OFF/AUTOMATIC SELECTOR SWITCH H 0 A CONTROL STATION AER TANK 2 PUMP P-2-1 5 HP 8 AMPS SCUM PUMP 20 HP 27 AMPS NON -COINCIDENTAL LOAD 761 AMPS SINGLE POLE SWITCH CONTROLS FIXTURES MARKED W 2 POLE, "3" 3 WAY, "T" TIME AER TANK 2 MIXER M-2-1 2 HP 4 AMPS REUSE PUMP 20 HP 27 AMPS LOAD 1,287 AMPS ("2" SWITCH, "M" MANUAL MOTOR STARTER) FPBLI STOP/START MOMENTARY TYPE PUSHBUTTON AER TANK 2 MIXER M-2-2 AER TANK 2 MIXER M-2-3 1 HP 1 HP 2 AMPS 2 AMPS YARD PS PUMP POND AERATION PUMP 10 HP 10 HP 14 AMPS 14 AMPS PEAK DEMAND PEAK DEMAND KVA 1,070 KVA CONTROL STATION ("L" LOCKING DEVICE) AER TANK 2 MIXER M-2-4 1 HP 2 AMPS FILTER BACKWASH PUMP 10 HP 14 AMPS STANDBY POWER LOAD 856 KW T THERMOSTAT (LINE VOLTAGE TYPE WITH STOP/START MAINTAIN TYPE PUSHBUTTON AER TANK 2 VALVE V-2-1 1 HP 2 AMPS ON -OFF -AUTO SWITCH UNLESS NOTED). PBM CONTROL STATION AER TANK 2 VALVE V-2-2 1 HP 2 AMPS NON -COINCIDENTAL MOTOR LOAD 761 AMPS 0.25 X LARGEST MOTOR 39 AMPS AER TANK 3 PUMP P-3-1 5 HP 8 AMPS MOTOR DEMAND FACTOR 100 X MIN SERVICE AMPACITY 2,087 AMPS 6o [113 SAFETY DISCONNECT SWITCH (AMPERAGE RAl1NG/POLES/FUSE RATING - "NF" SO SAFE MOMENTARY PUSHBUTTON AER TANK 3 MIXER M-3-1 AER TANK 3 MXER M-3-2 2 HP 1 HP 4 AMPS 2 AMPS NON -COINCIDENTAL PEAK DEMAND 767 AMPS EXISTING MAIN SWITCHBOARD ELECTRICAL SERVICE: NF NON-FUSED, "DT" DOUBLE -THROW) CONTROLOL STATION WITH LOCKING DEVICE AER TANK 3 MIXER M-3-3 1 HP 2 AMPS 3000 AMP, 480 VOLT, 3 PHASE OA AS AMMETER AND AMMETER SWITCH AER TANK 3 MIXER M-3-4 THP 2 AMPS AMPS a INTERCOM OUTLET AER TANK 3 VALVE V-3-1 AER TANK 3 VALVE V-3-2 1 HP 1 HP 2 2 AMPS OH ETM HOURS OF OPERATION; ELAPSED TIME METER AER TANK 4 PUMP P-4-1 5 HP 8 AMPS I N TELEPHONE OUTLET PF POWER FACTOR METER AER TANK 4 MIXER M-4-1 2 HP 4 AMPS EXISTING ELECTRICAL SERVICE TRANSFORMER AER TANK 4 MXER M-4-2 1 HP 2 AMPS TELEPHONE BACKBOARD O VOLTMETER AND VOLTMETER SWITCH AER TANK 4 MIXER M-4-3 1 HP 2 AMPS 2 AMPS SERVICE TRANSFORMER 1,500 KVA LOW VOLTAGE PANELBOARD W WATTMETER AER TANK 4 MIXER M-4-4 AER TANK 4 VALVE V-4-1 1 HP 1 H 2 AMPS TRANSFORMER IMPEDANCE JEA FAULT CURRENT LETTER 5.75 X 31,414 AIC AER TANK 4 VALVE V-4-2 1 HP 2 AMPS CCS HIGH VOLTAGE PANELBOARD AA AUTOMATIC ALTERNATOR �� TYPICAL LIGHTING FIXTURE NOTATIONS TYPE "E" CONNECTED TO CIRCUIT "2" AND SWITCH W. CM CONTROL MODULE MCC4 TOTAL MOTOR LOAD MCC4 MOTOR DEMAND FACTOR 88 AMPS 100 X �ZJ SHADING DENOTES EMERGENCY UNIT. BRACKET O CONTROL RELAY MCC4 MOTOR PEAK DEMAND 88 AMPS DENOTES WALL MOUNTING) LIGHTING PANEL L4A 15 KVA 18 AMPS ® FLUORESCENT FIXTURE O GROUND FAULT PROTECTION SYSTEM MCC4 TOTAL CONNECTED LOAD 106 AMPS H.I.D. FIXTURE O LIGHTNING ARRESTOR O FO INCANDESCENT FIXTURE PM POWER MONITOR LS LEVEL SWITCH SP STEPPING PROGRAMMER ZS LIMIT SWITCH O TIME DELAY RELAY PS PRESSURE SWITCH LC LEVEL CONTROLLER SV SOLENOID VALVE OVERLOAD DEVICE OTEMPERATURE SWITCH PC PRESSURE CONTROLLER FLS FLOW SWITCH SC SPEED CONTROLLER ALARM HORN 94H TIME CLOCK (CYCLE TIME/TYPE/MIN. SETTING - "AC" "M" TC RC ADJUSTABLE CYCLE, MOMENTARY, OREFERENCE TO NOTE "/" 15M "P" PULSE, "RC" REPEAT CYCLE) W. DAVID LASSETTER PE/37971 CONFORMED 12/16/10 I FILE NO YAWL OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-1 53 OF 72 SHEETS N C N > N N M m rn L C SN a W 03 � m 75 C C Quj N O KA in N (.5 W N Lo U T W Z ` I a_ O U J O aL ILL. O F Z CW W O ce IL CL YAWL OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-1 53 OF 72 SHEETS W. DAVID LASSETTER PE#37971 REVISIONS CONFORME 12/16/10 PROJECT FILE NO N N 4 J > M N m C J m y rn C(D "I LL W co ai C .0 C?C N = y m Q O7 N Y N UQ� o N U � W U V Z (L L O U J F- 0 LL O LL- ol Lu WC ` W 1 O re CL L CL H 3 3 DATE OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-3 55 OF 72 SHEETS CONDUIT AND CABLE SCHEDULE CONDUIT AND CABLE SCHEDULE CONDUIT NO. SIZE CONDUIT NO. SIZE COND. CABLE AWG TYPE VOLT FROM TO FOR NOTES P450 P400 4.00 3 500 THWIN 600 MAIN SWITCHBOARD MCC4 POWER P450 P400 --- 1 4/0 THWIN 600 MAIN SWITCHBOARD MCC4 GROUND P450 P401 0.75 3 12 THWN 600 MCC4 PANEL L4A TURBO BLOWER MCP POWER, GROUND L4A-1 P402 0.75 3 12 THWN 600 MCC4 PANEL L4A TURBO BLOWER 1 LCP POWER, GROUND L4A-3 P403 0.75 3 12 THWIN 600 MCC4 PANEL L4A TURBO BLOWER 3 LCP POWER, GROUND L4A-5 P404 0.75 3 12 THWN 600 MCC4 PANEL L4A TURBO BLOWER 5 LCP POWER, GROUND L4A-7 P405 1.00 7 10 THWN 600 MCC4 PANEL L4A PTB400 POWER, GROUND L4A-2, 4, 6, 8 P406 0.75 3 12 THWN 600 PTB400 CHEM FEED PANEL NO.1 POWER, GROUND L4A-4 P407 0.75 3 12 THWN 600 PTB400 CHEM FEED PANEL NO.2 POWER, GROUND L4A-6 P408 0.75 3 12 THWIV 600 PTB400 RAS FLOW METER POWER, GROUND L4A-8 1.00 4 12 THWN 600 PTB450 MIXER M-2-1 POWER, GROUND P455 P410 2.00 16 12 THWN 600 MCC4 PTB410 POWER, GROUND P456 P410 --- 26 14 THWN 600 MCC4 PTB410 CONTROLS P456 P410 --- 4 10 THWN 600 MCC4 PANEL L4A PTB410 POWER, GROUND L4A-9, 11 P41 1 0.75 4 12 THWN 600 PTB410 MIXER M-1-2 POWER, GROUND P458 P411 --- 4 14 THWN 600 PT13410 MIXER M-1-2 SO, SH, TS P412 0.75 4 12 THWN 600 PT8410 MIXER M-1-3 POWER, GROUND P460 P412 --- 4 14 THWN 600 PTB410 MIXER M-1-3 SO, SH, TS P460 P413 0.75 4 12 THWN 600 PTB410 MIXER M-1-4 POWER, GROUND P460 P413 --- 4 14 THWN 600 PT8410 MIXER M-1-4 SO, SH, TS P460 P414 0.75 4 12 THWN 600 PTB410 VALVE V-1-2 POWER, GROUND P461 P414 --- 4 14 THWN 600 PTB410 VALVE V-1-2 ZSH, ZSL P461 P415 0.75 3 12 THWN 600 PTB410 AER TANK 1W RECEPTACLE POWER, GROUND L4A-9 P416 0.75 3 12 THWN 600 PTB410 AT -1-2, AT -1-3 POWER, GROUND L4A-11 P417 0.75 3 12 THWN 600 AT -1-2, AT -1-3 FT -1-2 POWER, GROUND L4A-11 C418 0.75 7 14 THWN 600 PTB410 PUMP P-1-1 S0, SH, TS P464 P418 1.25 4 10 XLP 1000 MCC4 PUMP P-1-1 POWER, GROUND VFD CABLE 1.00 4 12 THWIN 600 PTB460 MIXER M-4-1 POWER, GROUND P465 P420 2.00 16 12 THWN 600 MCC4 PTB420 POWER, GROUND P466 P420 --- 26 14 THWN 600 MCC4 PTB420 CONTROLS P466 P420 --- 4 10 THWN 600 MCC4 PANEL L4A PTB420 POWER, GROUND L4A-13, 15 P421 0.75 4 12 THWN 600 PTB420 MIXER M-2-2 POWER, GROUND P460 P421 --- 4 14 THWN 600 PTB420 MIXER M-2-2 SO, SH, TS P422 0.75 4 12 THWN 600 PTB420 MIXER M-2-3 POWER, GROUND P470 P422 --- 4 14 THWN 600 PTB420 MIXER M-2-3 SO, SH, TS P470 P423 0.75 4 12 THWN 600 PTB420 MIXER M-2-4 POWER, GROUND 5470 P423 --- 4 14 THWN 600 PTB420 MIXER M-2-4 S0, SH, TS P424 0.75 4 12 THWN 600 PTB420 VALVE V-2-2 POWER, GROUND P424 --- 4 14 THWN 600 PTB420 VALVE V-2-2 ZSH, ZSL P425 0.75 3 12 THWN 600 PTB420 AER TANK 2W RECEPTACLE POWER, GROUND L4A-13 P426 0.75 3 12 THWN 600 PTB420 AT -2-2, AT -2-3 POWER, GROUND L4A-15 P427 0.75 3 12 THWN 600 AT -2-2, AT -2-3 FT -2-2 POWER, GROUND L4A-15 C428 0.75 7 14 THWN 600 PTB420 PUMP P-2-1 SO, SH, TS S413 P428 1.25 4 10 XLP 1000 MCC4 PUMP P-2-1 POWER, GROUND VFD CABLE 1.50 6TSP 18 XLP 600 STB410 AT -2-2, AT -2-3 INSTRUMENTATION S415 P430 2.00 16 12 THWN 600 MCC4 PTB430 POWER, GROUND 5416 P430 --- 26 14 THWN 600 MCC4 PTB430 CONTROLS P430 --- 4 10 THWN 600 MCC4 PANEL L4A PTB430 POWER, GROUND L4A-17, 19 P431 0.75 4 12 THWN 600 PTB430 MIXER M-3-2 POWER, GROUND S421 P431 --- 4 14 THWN 600 PTB430 MIXER M-3-2 SO, SH, TS S422 P432 0.75 4 12 THWN 600 PTB430 MIXER M-3-3 POWER, GROUND S423 P432 --- 4 14 THWN 600 PTB430 MIXER M-3-3 SO, SH, TS S424 P433 0.75 1 4 12 THWN 600 PTB430 MIXER M-3-4 POWER, GROUND §425 P433 --- 4 14 THWN 600 PTB430 MIXER M-3-4 SO, SH, TS 9426 P434 0.75 4 12 THWN 600 PTB430 VALVE V-3-2 POWER, GROUND P434 --- 4 14 THWN 600 PTB430 VALVE V-3-2 ZSH, ZSL S430 P435 0.75 3 12 THWN 600 PTB430 AER TANK 3W RECEPTACLE POWER, GROUND L4A-17 P436 0.75 3 12 THWN 600 PTB430 AT -3-2, AT -3-3 POWER, GROUND L4A-19 P437 0.75 3 12 THWN 600 PTB430 FT -3-2 POWER, GROUND L4A-19 C438 0.75 7 14 THWN 600 AT -3-2, AT -3-3 PUMP P-3-1 SO, SH, TS P438 1.25 4 10 XLP 1000 MCC4 PUMP P-3-1 POWER, GROUND VFD CABLE 1.25 4TSP 18 XLP 600 AT -4-2, AT -4-3 FT -4-2 INSTRUMENTATION I P440 2.00 16 12 THWN 600 MCC4 PTB440 POWER, GROUND P440 --- 26 14 THWN 600 MCC4 PTB440 CONTROLS P440 --- 4 10 THWIN 600 MCC4 PANEL L4A PT8440 POWER, GROUND L4A-21, 23 P441 0.75 4 12 THWN 600 PT8440 MIXER M-4-2 POWER, GROUND 5442 P441 --- 4 14 THWIN 600 PTB440 MIXER M-4-2 S0, SH, TS S443 P442 0.75 4 12 THWN 1 600 PTB440 MIXER M-4-3 POWER, GROUND 5444 P442 --- 4 14 THWN 600 PTB440 MIXER M-4-3 S0, SH, TS S445 P443 0.75 4 12 THWN 600 PTB440 MIXER M-4-4 POWER, GROUND 5446 P443 --- 4 14 THWN 600 PTB440 MIXER M-4-4 SO, SH, TS P444 0.75 4 12 THWN 600 PT8440 VALVE V-4-2 POWER, GROUND 5450 P444 --- 4 14 THWN 600 PTB440 VALVE V-4-2 ZSH, ZSL 5451 P445 0.75 3 12 THWN 600 PTB440 AER TANK 4W RECEPTACLE POWER, GROUND L4A-21 P446 0.75 3 12 THWN 600 PTB440 AT -4-2, AT -4-3 POWER, GROUND L4A-23 P447 0.75 3 12 THWN 600 AT -4-2, AT -4-3 FT -4-2 POWER, GROUND L4A-23 C448 0.75 7 14 THWN 600 PTB440 PUMP P-4-1 S0, SH, TS P448 1.25 4 10 XLP 1000 MCC4 PUMP P-4-1 POWER, GROUND VFD CABLE W. DAVID LASSETTER PE#37971 REVISIONS CONFORME 12/16/10 PROJECT FILE NO N N 4 J > M N m C J m y rn C(D "I LL W co ai C .0 C?C N = y m Q O7 N Y N UQ� o N U � W U V Z (L L O U J F- 0 LL O LL- ol Lu WC ` W 1 O re CL L CL H 3 3 DATE OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-3 55 OF 72 SHEETS CONDUIT AND CABLE SCHEDULE CONDUIT NO. SIZE COND. CABLE AWG TYPE VOLT FROM TO FOR NOTES P450 2.00 20 12 THWN 600 MCC4 PTB450 POWER, GROUND P450 --- 20 14 THWN 600 MCC4 PTB450 CONTROLS P450 -- 4 10 THWN 600 MCC4 PANEL L4A PTB450 POWER, GROUND L4A-10, 12 P450 -- 4 10 THWN 600 MCC4 PANEL L4A PTB450 POWER, GROUND L4A-14, 16 P451 1.00 4 12 THWN 600 PTB450 MIXER M-1-1 POWER, GROUND P451 --- 4 14 THWN 600 PTB450 MIXER M-1-1 SO, SH, TS P452 1.00 4 12 1 THWN 600 PTB450 VALVE V-1-1 POWER, GROUND P452 --- 4 14 THWIN 600 PTB450 VALVE V-1-1 ZSH, ZSL P453 0.75 3 12 THWN 600 PTB450 AER TANK 1E RECEPTACLE POWER, GROUND L4A-10 P454 0.75 3 12 THWN 600 PTB450 AT -1-1, FT -1-1 POWER, GROUND L4A-12 P455 1.00 4 12 THWN 600 PTB450 MIXER M-2-1 POWER, GROUND P455 --- 4 14 THWIN 600 PTB450 MIXER M-2-1 SO, SH, TS P456 1.00 1 4 12 THWN 600 PTB450 VALVE V-2-1 POWER, GROUND P456 --- 4 14 THWN 600 PTB450 VALVE V-2-1 ZSH, ZSL P457 0.75 3 12 THWN 600 PTB450 AER TANK 2E RECEPTACLE POWER, GROUND L4A-14 P458 0.75 3 12 THWN 600 PTB450 AT -2-1, FT -2-1 POWER, GROUND L4A-16 P460 2.00 20 12 THWN 600 MCC4 PTB460 POWER, GROUND P460 --- 20 14 THWN 600 MCC4 PTB460 CONTROLS P460 ---4 10 THWN 600 MCC4 PANEL L4A PTB460 POWER, GROUND L4A-18, 20 P460 --- 4 10 THWN 600 MCC4 PANEL L4A PTB460 POWER, GROUND L4A-22, 24 P461 1.00 4 12 THWN 600 PTB460 MIXER M-3-1 POWER, GROUND P461 --- 4 14 THWN 600 PTB460 MIXER M-3-1 SO, SH, TS P462 1.00 4 12 THWIN 600 PT8460 VALVE V-3-1 POWER, GROUND P462 --- 4 14 THWN 600 PTB460 VALVE V-3-1 ZSH, ZSL P463 0.75 3 12 THWIN 600 PTB460 AER TANK 3E RECEPTACLE POWER, GROUND L4A-18 P464 0.75 3 12 THWN 600 PTB460 AT -3-1, FT -3-1 POWER, GROUND L4A-20 P465 I 1.00 4 12 THWIN 600 PTB460 MIXER M-4-1 POWER, GROUND P465 --- 4 14 THWN 600 PTB460 MIXER M-4-1 SO, SH, TS P466 1.00 4 12 THWN 600 PTB460 VALVE V-4-1 POWER, GROUND P466 --- 4 14 THWN 600 PTB460 VALVE V-4-1 ZSH, ZSL P467 0.75 3 12 THWN 600 PTB460 AER TANK 4E RECEPTACLE POWER, GROUND L4A-22 P460 0.75 3 12 THWN 600 PTB460 AT -4-1, FT -4-1 POWER, GROUND L4A-24 P470 1.00 4 12 THWN 600 MCC4 VALVE V-0-1 POWER, GROUND P470 --- 4 14 THWN 600 MCC4 VALVE V-0-1 ZSH, ZSL 5470 0.75 2TSP 18 XLP 600 TURBO BLOWER MCP VALVE V-0-1 INSTRUMENTATION 5410 2.00 12TSP 18 XLP 600 TURBO BLOWER MCP STB410 INSTRUMENTATION S411 1.50 6TSP 18 XLP 600 STB410 AT -1-2, AT -1-3 INSTRUMENTATION 5412 1.25 4TSP 18 XLP 600 AT -1-2, AT -1-3 FT -1-2 INSTRUMENTATION S413 0.75 2TSP 18 XLP 600 FT -1-2 V-1-2 INSTRUMENTATION 5414 1.50 6TSP 18 XLP 600 STB410 AT -2-2, AT -2-3 INSTRUMENTATION S415 1.25 4TSP 18 XLP 600 AT -2-2, AT -2-3 FT -2-2 INSTRUMENTATION 5416 0.75 2TSP 18 XLP 600 FT -2-2 V-2-2 INSTRUMENTATION 5420 2.00 12TSP 18 XLP 600 TURBO BLOWER MCP STB420 INSTRUMENTATION S421 1.50 6TSP 18 XLP 600 STB420 AT -1-1 INSTRUMENTATION S422 1.25 4TSP 18 XLP 600 AT -1-1 FT -1-1 INSTRUMENTATION S423 0.75 2TSP 18 XLP 600 FT -1-1 V-1-1 INSTRUMENTATION S424 1.50 6TSP 18 XLP 600 STB420 AT -2-1 INSTRUMENTATION §425 1.25 4TSP 18 XLP 600 AT -2-1 FT -2-1 INSTRUMENTATION 9426 0.75 2TSP 18 XLP 600 FT -2-1 V-2-1 INSTRUMENTATION S430 2.00 12TSP 18 XLP 600 TURBO BLOWER MCP STB430 INSTRUMENTATION S431 1.50 6TSP 18 XLP 600 STB430 AT -3-2, AT -3-3 INSTRUMENTATION 5432 1.25 4TSP 18 XLP 600 AT -3-2, AT -3-3 FT -3-2 INSTRUMENTATION 0.75 2TSP 18 XLP 600 FT -3-2 V-3-2 INSTRUMENTATION 1.50 6TSP 18 XLP 600 STB430 AT -4-2, AT -4-3 INSTRUMENTATION 1.25 4TSP 18 XLP 600 AT -4-2, AT -4-3 FT -4-2 INSTRUMENTATION I 0.75 2TSP 18 XLP 600 FT -4-2 V-4-2 INSTRUMENTATION 2.00 12TSP 18 XLP 600 TURBO BLOWER MCP STB440 INSTRUMENTATION 1.50 6TSP 18 XLP 600 STB440 AT -3-1 INSTRUMENTATION 5442 1.25 4TSP 18 XLP 600 AT -3-1 FT -3-1 INSTRUMENTATION S443 0.75 2TSP 18 XLP 600 FT -3-1 V-3-1 INSTRUMENTATION 5444 1.50 6TSP 18 XLP 600 STB440 AT -4-1 INSTRUMENTATION S445 1.25 4TSP 18 XLP 600 AT -4-1 FT -4-1 INSTRUMENTATION 5446 0.75 2TSP 18 XLP 600 FT -4-1 V-4-1 INSTRUMENTATION 5450 2.00 12TSP 18 XLP 600 MAIN INSTRUMENT PANEL STB450 INSTRUMENTATION 5451 1.25 4TSP 18 XLP 600 STB450 CHEM FEED PANEL NO.1 INSTRUMENTATION S452 1.25 4TSP 18 XLP 600 STE1450 CHEM FEED PANEL NO.2 INSTRUMENTATION S453 0.75 2TSP 78 XLP 600 ST8450 RAS FLOW METER INSTRUMENTATION W. DAVID LASSETTER PE#37971 REVISIONS CONFORME 12/16/10 PROJECT FILE NO N N 4 J > M N m C J m y rn C(D "I LL W co ai C .0 C?C N = y m Q O7 N Y N UQ� o N U � W U V Z (L L O U J F- 0 LL O LL- ol Lu WC ` W 1 O re CL L CL H 3 3 DATE OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-3 55 OF 72 SHEETS T FROM MAIN SIMTCH80ARD 2-4-C, 4EA #500,1EA #4/DG EXISTING ALLEN BRADLEY CENTERLINE MOTOR CONTROL CENTER (600 AMP, 480 VOLT, 3 PH, 4W, 42,000 AIC) M -QP- loil MCP MCP DELAYED TRANSITION 30 25 250 50 50 15 15 1) 20 AUTOMATIC TRANSFER T T SWITCH RVAT RVAT FVNR FVNR FVNR FVNR R SIZE 5 R SIZE 5 R SIZE 3 R SIZE 3 R SIZE I SIZE I RVAT S' _ SIZE RUA F -R T �E5 SR R R ®R71,E GR FICO KVA DRY TYPE G G C G C 600 3P TRANSFORMER 480-240/120V 3 PHASE, 4 WRE H 0 A H 0 A IT H 0 H 0 A �H 0 A PANEL A 125 125 2a 2a 7.5 7.5 No.2 N.1 No.2 Nol No.2 mcci AUTOMATIC LIGHTING POLE LIGHTS/ MAIN BREAKER I TRANSFER SWITCH PANEL SLUDGE BLOWERS scum PUMPS YARD PUMPS CL2 BLDG HOIST NOTES: T 1. PROVIDE REMOTE MONITORING AND CONTROL OF THE EXISTING BLOWERS hLQE 144, j 1451 KW FROM THE SCADA SYSTEM INCLUDING NEW MCC MOUNTED INTERPOSING 00 RELAYS INTERCONNECTED TO THE EXISTING MOTOR STARTERS TO PROVIDE �) 30 70 ------ T "REMOTE START/STOP- SIGNALS. PROVIDE MCC MOUNTED CURRENT TRANSDUCER AND POWER SUPPLY WITH SCADA SYSTEM ANALOG INPUT TO!!! FVNR sao MONITOR BLOWER MOTOR CURRENT. ER SIZE 3 2. FIELD LOCATE THE EXISTING FEEDER. VERIFY THAT THE LOAD IS NO LONGER G IN SERVICE. AND REMOVE THE EXISTING FEEDER CONDUCTORS. H 0 A CIRCUIT BREAKER FROM EXISTING I CONTROL PANEL SPARE MOTOR STARTER PR--, BEING USED AS FEEDER BREAKER L- — - — - — - — --- N.J N..2 STANDBY SPARE UNKNOWN SPARE POND AERATION GENERATOR PUMP STATION W. DAVID LASSETTER PE137971 F- SINGLE LINE DIAGRAM - REVISIONS CONFORMED 12/16/10 I FILE NO DATE OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-5 57 OF 72 SHEETS T 141— FROM MAIN SWITCHBOARD 2-4`C, 3EA #500, IEA #4/CG 20 ♦♦ J MCC3 POWER MAIN LUGS METERING EXISTING CUTLER HAMMER FREEDOM 2100 MOTOR CONTROL CENTER "MCC3" (800 AMP, 480 VOLT, 3 PH, 3W, 65,000 AIC) 364 �J 2 l 400 �! 40Q 1� 7VSS RVAT RVAT G SIZE 5 G SIZE 5 H O A 1� T H O A �1 IT j 125 125 % No.2 No.4 SURGE PROTECTION I PLANT AERATION BLOWERS I i NOTES- OTES1. 1.PROVIDE REMOTE MONITORING AND CONTROL OF THE EXISTING BLOWERS 0 FROM THE SCADA SYSTEM INCLUDING NEW MCC MOUNTED INTERPOSING �{ RELAYS INTERCONNECTED TO THE EXISTING MOTOR STARTERS TO PROVIDE 'REMOTE START/STOP' SIGNALS PROVIDE MCC MOUNTED CURRENT P321 TRANSDUCER AND POWER SUPPLY WITH SCADA SYSTEM ANALOG INPUT TO P325 MONITOR BLOWER MOTOR CURRENT. 2. REPLACE THE EXISTING MASTER UFT STATION CONTROL SYSTEM WITH A NEW PLC SYSTEM WITH FIBER OPTIC ETHERNET NETWORK CONNECTION TO THE EXISTING PLANT SCADA SYSTEM. THE EXISTING MASTER LIFT STATION 1/0 FILTER NO.2 SIGNALS ARE PRESENTLY HARDWIRED TO THE SCADA SYSTEM PLC LOCATED CONTROL PANEL IN THE MIP. TRANSFER ALL OF THE EXISTING 1/O SIGNALS TO THE NEW MASTER LIFT STATION PLC. 3. THE NEW MASTER LIFT STATION PLC SHALL INCLUDE DOOR MOUNTED I OPERATOR INTERFACE PANEL FOR LOCAL STATUS MONITORING AND f CONTROL, AND LOCAL INDICATION OF WET WELL LEVEL P323 4. REPLACE THE EXISTING 'PUMP DOWN' AUTOMATIC PUMP CONTROL SYSTEM P327 PROVIDED BY THE EXISTING EG CONTROLS VARI—GAGE 3300, WITH NEW C324 'CONSTANT LEVEL' AUTOMATIC PUMP CONTROL SYSTEM PROVIDED BY THE C328 NEW SCADA SYSTEM PLC. THE EXISTING VARI—GAGE 3300 SHALL REMAIN IN 10 SERVICE TO PROVIDE THE WET WELL LEVEL SIGNAL TO THE PLC, TO 10 PROVIDE REDUNDANT HIGH AND LOW LEVEL ALARM SIGNALS TO THE PLC, BACKWASH AND TO CONTROL THE BUBBLER PURGE SYSTEM. BACKWASH 5. THE MODIFICATIONS TO THE EXISTING MASTER UFT STATION CONTROL PANEL, PUMP INCLUDING NEW PLC AND VFDs, SHALL BE PROVIDED BY THE CITY OF PUMP ATLANTIC BEACH MASTER PUMP STATION CONTROL PANEL MANUFACTURER: NEW EFFLUENT FILTERS EG CONTROLS, INC., JACKSONVILLE, FL 904-292-0110. 8. PROVIDE COMPLETE NEW FEEDER BREAKER UNIT COMPARTMENTS WITHIN THE 2`-^, 3 #4/0. 1 #4G EXISTING MOTOR CONTROL CENTER. i 2w }225 MAIN BREAKER R G REMOVE AND REPLACE THE EXISTING MASTER LIFT STATION PUMP VARIABLE FREQUENCY DRIVES (TOSHIBA H3 VT13CH3U4330) WITH NEW CITY OF ATLANTIC BEACH STANDARD VFDs (CUTLER—HAMMER SVX90D0). THE NEW VFD9 SHALL MEET OR EXCEED THE LOAD RATINGS FOR THE EXISTING VFDs THE NEW VFDs SHALL INCLUDE INPUT LINE REACTORS AND DVDT OUTPUT FILTERS THE NEW VFDs SHALL BE EQUIPPED WITH ALL OPTIONS AND ACCESSORIES REQUIRED TO PROPERLY INTERCONNECT WITH THE EXISTING CONTROLS. RELOCATE EXISTING CONTROL PANEL COMPONENTS, AND PROVIDE CUSTOM MOUNTING BRACKETS AS REQURED TO MOUNT THE NEW VFDs WITHIN THE EXISTING CONTROL PANEL ENCLOSURE. )oim 100 P330P330 REUSE PUMP CONTROL PANEL P331 P332 20 20 No.1 No.2 NEW REUSE PUMP STATION MASTER LIFT STATION POWER DISTRIBUTION AND CONTROL PANEL (480 VOLT, 3 PHASE) 04 } 8 4 � �— � =140 1I R VFD R VFD G G H 0 A i H 0 A 30 30 No.2 No.3 AIR HANDLING UNIT CONDENSING UNIT MASTER LIFT STATION PUMPS AIR CONDITIONING SYSTEM 1} t 10KVA DRY TYPE TRANSFORMER 480-120V, I PH COO4 PUMP CONTROLS W. DAVID LASSETTER PE137971 REVISIONS CONFORMED 12/16/10 I FILE NO N C N N �J ;� �N C J m m 0) N o 0 LJ a� c LL W ipmm .— W _m fod Q Ui `q Y N U<r lOM N U � W Z Q <_ O J O LL 1 LL O cool Z v W G W O w (L C VAIL OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-7 59 OF 72 SHEETS 0 40 0 P321 P325 FILTER NO.1 FILTER NO.2 CONTROL PANEL CONTROL PANEL P322 P326 P323 P327 C324 C328 1.5 10 1.5 10 DRIVE BACKWASH DRIVE BACKWASH MOTOR PUMP MOTOR PUMP NEW EFFLUENT FILTERS REMOVE AND REPLACE THE EXISTING MASTER LIFT STATION PUMP VARIABLE FREQUENCY DRIVES (TOSHIBA H3 VT13CH3U4330) WITH NEW CITY OF ATLANTIC BEACH STANDARD VFDs (CUTLER—HAMMER SVX90D0). THE NEW VFD9 SHALL MEET OR EXCEED THE LOAD RATINGS FOR THE EXISTING VFDs THE NEW VFDs SHALL INCLUDE INPUT LINE REACTORS AND DVDT OUTPUT FILTERS THE NEW VFDs SHALL BE EQUIPPED WITH ALL OPTIONS AND ACCESSORIES REQUIRED TO PROPERLY INTERCONNECT WITH THE EXISTING CONTROLS. RELOCATE EXISTING CONTROL PANEL COMPONENTS, AND PROVIDE CUSTOM MOUNTING BRACKETS AS REQURED TO MOUNT THE NEW VFDs WITHIN THE EXISTING CONTROL PANEL ENCLOSURE. )oim 100 P330P330 REUSE PUMP CONTROL PANEL P331 P332 20 20 No.1 No.2 NEW REUSE PUMP STATION MASTER LIFT STATION POWER DISTRIBUTION AND CONTROL PANEL (480 VOLT, 3 PHASE) 04 } 8 4 � �— � =140 1I R VFD R VFD G G H 0 A i H 0 A 30 30 No.2 No.3 AIR HANDLING UNIT CONDENSING UNIT MASTER LIFT STATION PUMPS AIR CONDITIONING SYSTEM 1} t 10KVA DRY TYPE TRANSFORMER 480-120V, I PH COO4 PUMP CONTROLS W. DAVID LASSETTER PE137971 REVISIONS CONFORMED 12/16/10 I FILE NO N C N N �J ;� �N C J m m 0) N o 0 LJ a� c LL W ipmm .— W _m fod Q Ui `q Y N U<r lOM N U � W Z Q <_ O J O LL 1 LL O cool Z v W G W O w (L C VAIL OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-7 59 OF 72 SHEETS EXISTING ELECTROGAGE i R1 RI PLC OUTPUT FORCE MAIN 6_g• LOW PRESSURE RO ADD NEW LEVEL CONTROL RELAY 'R(" WITH FORCE MAIN LOW PRESSURE INTERLOCK FROM THE BLOWER BUILDING PLC, TO PERMIT THE LEAD PUMP TO PUMP DOWN TO A LOWER POND ELEVATION DURING PERIODS WHEN THE FORCE MAIN PRESSURE IS LOW. EXISTING EFFLUENT PUMP LEVEL CONTROL MODIFICATIONS r — — EXISTING EFFLUENT I Rt PUMP LEAD PUMP — — — CALL TO RUN CONTROL ERO LOP INPUT 'RUNNING' FILTER LCP CONTROL PANEL ZSH ZSL 0540 0540 FILTER DRUM -------- ZSH ZSL ZC -------------- M7 DRIVE MOTOR F -------- --------- — --- ---------------- (48OV, 3PH) - — — — — — — — — — — — — - BACKWASH CHECK VALVE -------------- M2 PUMP --------- — --- --FILTER (48OV, 3PH) FILTER TERMINAL BOX E DISCHARGE TO ATM 4� off U CONE/SILENCER (SL) (0320) FILTER HIGH SILENCER I I (SL) (0140) — — — LEVEL ALARM 520 -------- _ LCP BACKWASH -------- ---�_ CALL TO RUN I TSH EXPANSION BACKWASH LCP -------- ---¢_ PUMP DRY RUN JOINT (SL) (0430) ORB I -------------� SCADA PLC INPUT -------------� 'FILTER HIGH LEVEL' 4510 133 CR6 PSH TE TT PDT -------------'o- SCADA PLC INPUT O 1370 1110 1110 LCP 1120 --------------0- 'FILTER RUNNING' IE CR2 SURGE -------------- C> SCADA PLC INPUT 4510 -------------p "BW PUMP RUNNING' CR3 2000 i v CR7 CRtO FLEX i -- (> SCADA PLC INPUT -------------- 0- 'FILTER ALARM" COMPRESSOR CR1 COUPUNG MOTOR NR i CR5 00 10) ILIEf MUDS gTT115EP -------------- (> SCADA PLC INPUT (0020) --------------0 'FILTER IN AUTO' TYPICAL EFFLUENT FILTER CONTROL PANEL CONTROL WIRING DIAGRAM EXISTING ELECTROGAGE i R1 RI PLC OUTPUT FORCE MAIN 6_g• LOW PRESSURE RO ADD NEW LEVEL CONTROL RELAY 'R(" WITH FORCE MAIN LOW PRESSURE INTERLOCK FROM THE BLOWER BUILDING PLC, TO PERMIT THE LEAD PUMP TO PUMP DOWN TO A LOWER POND ELEVATION DURING PERIODS WHEN THE FORCE MAIN PRESSURE IS LOW. EXISTING EFFLUENT PUMP LEVEL CONTROL MODIFICATIONS r — — EXISTING EFFLUENT I Rt PUMP LEAD PUMP — — — CALL TO RUN CONTROL ERO LOP INPUT 'RUNNING' TYPICAL NEW TURBO BLOWER PROCESS & INSTRUMENTATION DIAGRAM (SL) SHIP LOOSE ELECTRICAL POWER ELECTRICAL-DIGITAL ELECTRICAL-ANALOG 70' 70' W. DAVID LASSETTER PE137971 12/16/10 PROJECT FILE NO N C N N U 2 N N D] M C J 61 9 W �yo0 C ate+ CLL W f0 W m Yn — C o m c N o 0 Lo U Q 110, W U z Q J L O U J c� L H O LLL o z � <W G W O w CL L CL a i uam OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-10 62 OF 72 SHEETS LCP LCP ZSH ZSL 0540 0540 M ZSH ZSL ZC 0520 0520 0520 0520 CHECK VALVE (Sl) --�T HEADER E DISCHARGE TO ATM 4� off U CONE/SILENCER (SL) (0320) PI SILENCER I I (SL) (0140) 520 BLOW OFF VALVE TO ATM (SL) (0520) _ LCP I TSH EXPANSION LCP JOINT (SL) (0430) I LCP R TS 4510 133 PDIH PSH TE TT PDT I/I 1340 O 1370 1110 1110 LCP 1120 IE SURGE VT 4510 2000 i v FLEX i COMPRESSOR COUPUNG MOTOR NR i 00 10) ILIEf MUDS gTT115EP GEARBOX (0020) FLEX VM VMS 2 -STAGE CONNECTOR INLET PLENUM FILTER/SILENCER (SL) (0405) TI ZI ZI (SL) (0310) (SL) (0160) 1410 0010 0010 TYPICAL NEW TURBO BLOWER PROCESS & INSTRUMENTATION DIAGRAM (SL) SHIP LOOSE ELECTRICAL POWER ELECTRICAL-DIGITAL ELECTRICAL-ANALOG 70' 70' W. DAVID LASSETTER PE137971 12/16/10 PROJECT FILE NO N C N N U 2 N N D] M C J 61 9 W �yo0 C ate+ CLL W f0 W m Yn — C o m c N o 0 Lo U Q 110, W U z Q J L O U J c� L H O LLL o z � <W G W O w CL L CL a i uam OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-10 62 OF 72 SHEETS EXISTING MAIN SWITCHBOARD - BLOWER BUILDING r -------------I -------------- NEW UTIUTY NEW EMERGENCY POWER MONITOR POWER MONITOR ETHERNET PORT I ETHERNET PORT I I I NEW CATS NEW CATS NEW TURBO BLOWER MCP - BLOWER BELDING - - — — — — — — — — NEW PLC2 SLC 5/05 ETHERNET PORT I I L ------ I ------� NEW CAT5 MASTER UFT STATION CONTROL PANEL -------------- EXISTING LAD BUILDING NEW PLC3 NEW OPERATOR — — — — — — — — — — — — SLC 5/05 INTERFACE f — — ...._. — — — — — — — — — — — — — — — — ETHERNET PORT EXISTING PL-Cl CATS I NEW ETHERNET FIBER OPTIC CONVERTER SYSTEM SYSTEM PLC INCLUDING NEW PROGRAMMING AND m- FIBER I I NEW FIBER OPTIC I CABLE PATCH PANEL I I I T- i -NEW FIBER oPnc CABLE I L._._._._._._._._._._ CATS EXISTING MAIN INSTRUMENT PANEL - BLOWER BUILDING EXISTING LAD BUILDING — — — — — — — — — — — — — f — — ...._. — — — — — — — — — — — — — — — — I EXISTING PL-Cl AND RECONFIGURE THE EXISTING SCADA I I SLC 5/OS SYSTEM SYSTEM PLC INCLUDING NEW PROGRAMMING AND NEW 1/0 MODULES I I I I ETHERNET PORT I i INTERNET ACCESS I I CATS I ( CAT6 I ETHERNET SWITCH I I I ETHERNET SWITCH I CA75 CATS I CAT6 CAT6 CAT6 I i NEW ETHERNET FIBER ETHERNET FIBER I ETHERNET FIBER I ( OPTIC CONVERTER OPTIC CONVERTER I OPTIC CONVERTER I FIBER FIBER I I FIBER I ( i NEW FIBER OP71C FIBER OPTIC CABLE A SYSTEM SCApRINTER CABLE PATCH PANELI I PATCH PANEL I f ( SCADA 4 • I I WORKSTATION � I L-__ I ----_ I ---__ I ---__�_____!___ L___! ---------------J I - EXISTING I FIBER OPTIC CABLE UPGRADE THE EXIS7NG SCADA SYSTEM COMPUTER WORKSTATION AND VTSCADA HMI SOFTWARE — — I . — . — — . — . — NOTES: 1. THE SCADA SYSTEM INTEGRATOR SHALL UPGRADE AND EXPAND THE DUSTING SCADA SYSTEM INCLUDING EXPANSION AND RECONFIGURATION OF PLC LOCATED IN THE BLOWER • BUILDING MAIN INSTRUMENTATION PANEL; INTEGRATION OF NEW PLC2 TO BE PROVIDED WITHIN THE NEW TURBO BLOWER MAIN CONTROL PANEL; AND INTEGRATION OF NEW PLC3 TO BE LOCATED IN THE DUSTING MASTER UFT STATION CONTROL PANEL THE SCADA SYSTEM INTEGRATOR SHALL ALSO UPGRADE AND EXPAND THE EXISTING VTSCADA HMI SOFTWARE SYSTEM INCLUDING NEW COMPUTER WORKSTATION FULLY CONFIGURED WITH THE LATEST EDITION OF THE VTSCADA SOFTWARE PACKAGE 2. MINIMUM REQUIREMENTS FOR THE SCADA SYSTEM COMPUTER WORKSTATION: • WINDOWS 7 PROFESSIONAL OPERATING SYSTEM • PROCESSOR: INTEL QUAD -CORE, 2.8 GHz • MEMORY: 4 GB • HARD DRIVE: 500 GB • OPTICAL DRIVE: 16X DVD+/ -RW • NETWORK: 10/100/1000 LAN • GRAPHICS: 256 MB, 1600 X 1200 MONITOR: 24• WIDESCREEN LCD i • PRINTER: MONOCHROME LASER 2. HMI SOFTWARE TO BE PROVIDED FOR THE SCADA COMPUTER WORKSTATION: i • VTSCADA FULL DEVELOPMENT UCENSE • VTSCADA RUNTIME LICENSE VTS ALARM DIALER LICENSE i VISINTERNET SERVER LICENSE • Vf5 INTERNET CUENT LICENSE i MICROSOFT OFFICE 2007 PROFESSIONAL 3. ALL SOFTWARE SHALL BE LATEST VERSION. ALL UCENSES SHALL BE TRANSFERRED TO THE i CITY OF ATLANTIC BEACH. 4. THE SCADA SYSTEM INTEGRATOR SHALL PROVIDE ALL NETWORK COMPONENTS INCLUDING FIBER OPTIC CONVERTERS, FIBER OPTIC CABLE, TERMINATIONS, AND PATCH PANELS 5. THE CONFIGURATION OF EACH PLC SHALL INCORPORATE THE FOLLOWING CITY OF ATLANTIC BEACH STANDARDIZED ALLEN -BRADLEY PLC COMPONENTS: i • 1747-1,553 SLC 5/05 CPU, 64K • 1746-IA16 DIGITAL INPUT MODULES, 16 POINT • 1746-OW16 DIGITAL OUTPUT MODULES, 16 POINT • 1746 -NIS ANALOG INPUT MODULES, 8 POINT • 1746-N041 ANALOG OIITPUT MODULES, 4 POINT • 1748-AIO CHASSIS 10 SLOT • 1746-P4 POWER SUPPLY • 1758-N2 CARD SLOT FILLERS 6. THE SCADA SYSTEM INTEGRATOR SHALL PROVIDE FIELD INSTRUMENTATION WEATHER PROTECTION ENCLOSURES WITH POWER AND SIGNAL LINE SURGE PROTECTION, FOR EACH FIELD INSTRUMENT, INCLUDING INSTRUMENTS THAT ARE FURNISHED BY OTHERS SUCH AS i I THE AERATON TANK DISSOLVED OXYGEN TRANSMITTERS I _._._._._._._._._._._._._._._._.J W. DAVID LASSETTER PE/37971 I SCADA SYSTEM BLOCK DIS REVISIONS CONFORMED 12/16/10 IFILE NO N C U -0N N C J cc m CN SIL c W N 0 m rn = C Q fh C N =v1�0 v Q iQ N N UQ��o co oma W W > ex CL Rj 3 DATE OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-12 64 OF 72 SHEETS I HM NEW FILTERS (SEE SHEET E-17) SECONDARY CLARIFIER NO.1 I I E4 CHL0PoNA710N/ y DECHLORINATION SECONDARY CONTACT CHAMBER CLARIFIER NO.2 (SEE SHEET E-17) a E3 HMS2 NEW REUSE PUMP STATION (SEE SHEET E-17) I� 1 FUTURE 1 Pam a SECONDARY I H etel` CLARIFIER NO.3 i as _ J i 2? E7 BLOWER BUILDING (SEE SHEET E-18) Puur�s PACKAGE PLANT HMS1O CDO1. SDDI FOOS: EXISTING 2-SCH 40 PVC WITH BTSPf18. REPLACE TSP CABLES YWTH NEW OBER OPTIC CABLE EXISTING MASTER LIFT STATION POWER DISTRIBUTION AND CONTROL PANEL (NOTES Z, 3) TYPICAL REHABILITATE EXISTING HIGH MAST LIGHTING SYSTEM (NOTE 1) es ! e:oc I on U yi AEROBIC IY DIGESTER zj rum THICKENER ED LAB BUILDING SLUDGE i TANK MAINT BLDG BEDS L SLUDGE REQS FOOS: EXISTING 2-SCH 40 PVC WITH BTSPf18. REPLACE TSP CABLES YWTH NEW OBER OPTIC CABLE EXISTING MASTER LIFT STATION POWER DISTRIBUTION AND CONTROL PANEL (NOTES Z, 3) TYPICAL REHABILITATE EXISTING HIGH MAST LIGHTING SYSTEM (NOTE 1) es ! NOTES: 1. REMOVE AND REPLACE THE EXISTING HIGH MAST LIGHTING SYSTEMS FOR EACH HIGH MAST LIGHT POLE (THREE POLES), INCLUDING COMPLETE NEW TOP LATCHING LOWER DEVICE, HEADFRAME. RING ASSEMBLY, LUMINAIRE MOUNTING ARMS, STAINLESS STEEL HOIST CABLES, TWO CIRCUIT 480 VOLT POWER CABLES, AND TWO CIRCUIT ENCLOSED CIRCUIT BREAKERS FOR EACH POLE. REPLACE THE EXISTING HIGH MAST LUMINAIRES (SIX PER POLE) WITH NEW MATCHING LUMINAWS (HOLOPHANE HMST40OHP48APS). ALL NEW EQUIPMENT SHALL BE COMPATIBLE WITH THE EXISTING POLES AND SHALL MAINTAIN THE EXISTING WIND LOAD RATINGS. PROVIDE ONE NEW PORTABLE WINCH AND POWER UNIT INCLUDING STEP DOWN TRANSFORMER. Z. REPLACE THE EXISTING MASTER LIFT STATION CONTROL SYSTEM WITH A NEW PLC SYSTEM WITH FIBER OPTIC ETHERNET NETWORK CONNECTION TO THE EXISTING PLANT SCADA SYSTEM. THE EXISTING MASTER LIFT STATION 1/0 SIGNALS ARE PRESENTLY HARDWIRED TO THE SCADA SYSTEM PLC LOCATED IN THE BLOWER BUILDING MAIN INSTRUMENTATION PANEL TRANSFER ALL OF THE EXISTING 1/0 SIGNALS TO THE NEW MASTER LIFT STATION PLC. 3. REPLACE THE EXISTING MASTER LIFT STATION PUMP MOTOR VARIABLE FREQUENCY DRIVES (SE SHEET E-7). 4. TYPICAL NEW NEMA 4X ALUMINUM WAIL MOUNTED PULL BOX WITH POWER AND INSTRUMENTATION ISOLATION BARRIER. x,2L4 SCALE: 1' = 30' 30 0 30 _0 W. DAVID LASSETTER PE/37971 REVISIONS CONFORMED 12/16/10 I FILE NO ?l C cn v N J c') N C J 0 v g rnvioo Cy SILL WLO mm C .0 C N • N m UQo N W Z Q J CL • ` O A� J O IL LL 0 Z O Z V OW W O Cie CL L 11 H 3 — OCT, 2010 (SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-14 66 OF 72 SHEETS yi AEROBIC DIGESTER rum THICKENER ED LAB BUILDING TANK MAINT BLDG L m o enC �� c:.verax UDGE EDS 9D w 77 � , • - �- WELL 1 m0.2 I I _ NOTES: 1. REMOVE AND REPLACE THE EXISTING HIGH MAST LIGHTING SYSTEMS FOR EACH HIGH MAST LIGHT POLE (THREE POLES), INCLUDING COMPLETE NEW TOP LATCHING LOWER DEVICE, HEADFRAME. RING ASSEMBLY, LUMINAIRE MOUNTING ARMS, STAINLESS STEEL HOIST CABLES, TWO CIRCUIT 480 VOLT POWER CABLES, AND TWO CIRCUIT ENCLOSED CIRCUIT BREAKERS FOR EACH POLE. REPLACE THE EXISTING HIGH MAST LUMINAIRES (SIX PER POLE) WITH NEW MATCHING LUMINAWS (HOLOPHANE HMST40OHP48APS). ALL NEW EQUIPMENT SHALL BE COMPATIBLE WITH THE EXISTING POLES AND SHALL MAINTAIN THE EXISTING WIND LOAD RATINGS. PROVIDE ONE NEW PORTABLE WINCH AND POWER UNIT INCLUDING STEP DOWN TRANSFORMER. Z. REPLACE THE EXISTING MASTER LIFT STATION CONTROL SYSTEM WITH A NEW PLC SYSTEM WITH FIBER OPTIC ETHERNET NETWORK CONNECTION TO THE EXISTING PLANT SCADA SYSTEM. THE EXISTING MASTER LIFT STATION 1/0 SIGNALS ARE PRESENTLY HARDWIRED TO THE SCADA SYSTEM PLC LOCATED IN THE BLOWER BUILDING MAIN INSTRUMENTATION PANEL TRANSFER ALL OF THE EXISTING 1/0 SIGNALS TO THE NEW MASTER LIFT STATION PLC. 3. REPLACE THE EXISTING MASTER LIFT STATION PUMP MOTOR VARIABLE FREQUENCY DRIVES (SE SHEET E-7). 4. TYPICAL NEW NEMA 4X ALUMINUM WAIL MOUNTED PULL BOX WITH POWER AND INSTRUMENTATION ISOLATION BARRIER. x,2L4 SCALE: 1' = 30' 30 0 30 _0 W. DAVID LASSETTER PE/37971 REVISIONS CONFORMED 12/16/10 I FILE NO ?l C cn v N J c') N C J 0 v g rnvioo Cy SILL WLO mm C .0 C N • N m UQo N W Z Q J CL • ` O A� J O IL LL 0 Z O Z V OW W O Cie CL L 11 H 3 — OCT, 2010 (SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-14 66 OF 72 SHEETS TERMINAL B( 2. PROVIDE 1'C SLEEVE FOR EACH SENSOR CABLE EMBEDDED IN THE CONCRETE WALKWAY FROM THE TRANSMITTER TO THE SENSOR. 3. PROVIDE WP RECEPTACLE ADJACENT TO EACH POWER TERMINAL BOX SCALE. 3/16' - 1' 0 5 10 W. DAVID LASSETTER PE137971 REVISIONS CONFORMED 12/16/10 PROJECT FILE NO N C N N L N U N 4)CD W C, C J co y O C l i W m eo ai _C p m c r •p UJ N � N Ua� W N L1..1 U z Q J <L L O U J C� O LL1 Z LU > O m H 3 3 DATE OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-16 68 OF 72 SHEETS FIELD INSTRUMENT SENSOR CABLE CONDUIT DIRECTLY INTO FIELD INSTRUMENT I I I I FIELD INSTRUMENT CONNECTION BOX (FICB) I I I I SHALL BE EDCO TYPE SLAC WITH LIGHTNING I I I I AND SURGE SUPPRESSION FOR AC POWER I I I I INSTRUMENT SIGNAL CIRCUITS, AND CIRCUIT LJ L- - - J BREAKER, WITHIN NEMA 4X FIBERGLASS HINGED COVER ENCLOSURE THE FlCB ENCLOSURE COVER HINGES SHALL BE AT THE BOTTOM OF THE ENCLOSURE PROVIDE SUPPLEMENTAL GROUNDING GRID AT FIELD MOUNTED INSTRUMENTATION WITH MINIMUM #6 COPPER BONDING JUMPER TO THE FICS SURGE SUPPRESSORS FIELD INSTRUMENT AC POWER AND SIGNAL CIRCUIT CONDUITS INTO FlCB ENCLOSURE U Li TYPICAL FIELD INSTRUMENT CONNECTION BOX (FI NOT TO SCALE FIELD INSTRUMENT WEATHER PROTECTION ENCLOSURE FIELD INSTRUMENTATION INSTRUMENTATION TRANSMITTER CONNECTION BOX TSP#18 8' N TSP#18 < ME + o -- FIELD INSTRUMENT WITH �a - a I I NEMA 4X ENCLOSURE 2/12 & #10G U N Oo N O TYPICAL FIELD INSTRUMENTATION I I LOOP DIAGRAM WEATHER PROTECTION ENCLOSURE: LII --I NEMA 12/38 ALUMINUM, HINGED r I DOOR WITH LATCHING HANDLE, AND I FIELD INSTRUMENT VENTILATION LOUVERS IN TOP AND I I I I CONNECTION BOX (FICB) III III I BOTTOM OF EACH SIDE L J VENTILATION LOUVER u L- J B T T" SIDE VIEW FRONT VIEW TYPICAL OUTDOOR FIELD INSTRUMENT MOUNTING DETAIL NOT TO SCALE FIELD INSTRUMENT WEATHER PROTECTION ENCLOSURE FIELD INSTRUMENTATION INSTRUMENTATION TRANSMITTER CONNECTION BOX TSP#18 N TSP#18 < ME + o -- �a - a 2/12 & #10G U N Oo N O uN G U W C rMICAL INSTRUMENTATION LOOP DIAGRAM 1/0 PANEL ANALOG INPUTS 120V POWER W. DAVID LASSETTER PE#37971 REVISIONS CONFORMED 12/16/10 I FILE NO C N N N C J m v 0) N O CSN �ti C 0C?C N y f0 p fn '� N UQ. W N U � W U Z Q J CL O U J <0 L F-- rx O LL LL o 3 Z 0 Lu W > O rx 5L yyL�� EL. H 3 DATE OCT. 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET E-20 72 OF 72 SHEETS PS HOA MOTOR POWER AND CONTROL CONDUCTORS TO (SSRV) RUNNING INNING R MCC BE INSTALLED IN SEPARATE METALLIC CONDUITS MANUAL SPEED SSRV �---Vii---o- PLC INPUT 'PUMP # FAULT VFD' PLC INPUT 'PUMP # FAULT SSRV' IC a - - CUTLER -HAMMER VFD WITH LINE REACTOR - - At MTRAND GR BC - DVDT FILTER �--I - - REMOTE I --I SPEED G INVERTER DUTY MOTOR -- 4-20mA CUTLER -HAMMER NEMA MGI SECTION IV VFD SSRV CONSTANT PART 31 (1600V) SSRV RUNNING SPEED BYPASS RUNNING VSR# CPT �— VFD 120V II RUNNING CSR# -i MAS SAFE MAS OFF PUMP MONITORING AND STATUS UNIT VFD R OFF GO HAND AUTO FURNISHED BY THE PUMP SUPPLIER FAULT ---� CRP CALL TO RUN USF# VARIABLE SPEED (VFD) FAULT OLD RELAY Vg# FAULT 1%00 ICR# ,I_ T - � - GO BTR/ I MOTOR CURRENT FROME__ - - PUMP READY L - a - J CT FURNISHED BY PUMP C - - - - INTERLOCK OFF SUPPLIER OR VS CS BC VSF IC VARIABLE SPEED A RR XOO I ISOLATION CONTACTOR - - - - - PLC/RTU INPUTS L__>-� PUMP MOTOR MONITORING --- 1 I IC CSF CABLE FURNISHED BY THE -_ -_ -_ PUMP SUPPLIER B - - PUMP ALARM VSR y 11L BC TD CONSTANT SPEED - - - - - - - - PUMP WARNING OOX BYPASS CONTACTOR CONTROL csR RR PUMP RUNNING RELAY BCTD BC CONSTANT SPEED BYPASS CONTACTOR PS HOA SSRV (SSRV) RUNNING INNING R 'PUMP # RUNNING SSRV` X00 MANUAL SPEED SSRV �---Vii---o- PLC INPUT 'PUMP # FAULT VFD' PLC INPUT 'PUMP # FAULT SSRV' - - POT GR BC cR IC �--I - - REMOTE I --I SPEED - - CONTROL -- 4-20mA VFD SSRV RUNNING RUNNING VSR# VARIABLE SPEED (VFD) RUNNING �— VFD VSt# RUNNING CSR# -i VFD R SSRV FAULT FAULT USF# VARIABLE SPEED (VFD) FAULT Vr� Vg# FAULT Cg# PS 120V N CONSTANT SPEED SSRV (SSRV) RUNNING INNING R 'PUMP # RUNNING SSRV` VSF# CONSTANT SPEED (SSRV) FAULT SSRV 120V N 120V N TYPICAL WASTEWATER PUMP VSR# VFD CONTROL WIRING DIAGRAM CSR# PLC INPUT 'PUMP III RUNNING VFD' 'PUMP # RUNNING SSRV` VSF# �---Vii---o- PLC INPUT 'PUMP # FAULT VFD' PLC INPUT 'PUMP # FAULT SSRV' k 1410diz *, W. DAVID LASSETTER PE#37971 REVISIONS CONFORMED 12/16/2010 I FILE NO N Ccn J > N m N 0 O Cy CIL W 10 w o C Q C N •� N �N U Q r W N Im8 U Obi U W U z Q CEL L O U J C0 L H O M. LL o LL A z r) Lu W > O EX CL 3 3 DATE NOV 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET BE -2 8 OF 12 SHEETS L-2 N I SIGNAL DESCRIPTION I cel I I WET WELL LEVEL FLUORESCENT SPARE LIGHT A002 A003 A004 SNATCH unUTY O O RECEPTACLE Cee SOLA SDUS50 r----------1 I I UPS CEDCO 850VA HSP121 BTI BUBBLER SYSTEM I I H3 SUPRERS�eR N3 CB3 �- - - PLC POWER SUPPLY - - C84 e -N 1/0 POWER SUPPLY cBs r� --y--- LOOP POWER SUPPLY -- CBS —� OPERATOR INTERFACE PANEL - - C87 —� SCADA NETWORK COMPONENTS - - CBS �\ �- - - SPARE - - PUMP STATION CQNTROL PANEL OWER QlSTRIRIrnnN 2AQReLA ANALOG INPUT MODULES r----------� I I ANALOG OUTPUT MODULES SIGNAL DESCRIPTION I/O SIGNAL DESCRIPT WET WELL LEVEL A001 SPARE PUMP 1 VFD SPEED REPLY PUMP 2 VFD SPEED REPLY PUMP 3 VFD SPEED REPLY A002 A003 A004 PUMP 1 SPEED COMMAND PUMP 2 SPEED COMMAND PUMP 3 SPEED COMMANn EG CONTROLS DIGI-GAGE 2300 — WET WELL LEVEL TRANSMITTER BACKUP CONTROLS ON PILOT LIGHTS ALARM SILENCE PUSHBUTTON — HIGH LEVEL h LOW LEVEL ALARM PILOT LIGHTS PLC 1/0 SCHEDULE DIGITAL INPUT MODULES I'UMY I KUNNING SSRV PUMP 1 FAULT VFD PUMP 1 FAULT SSRV PUMP 1 WARNING/ALAR PUMP 2 RUNNING VFD PUMP 2 RUNNING SSRV PUMP 2 FAULT VFD PUMP 2 FAULT SSRV PUMP 2 WARNING/AI AR NEMA 12 ENCLOSURE 90' HIGH. 20' DEEP. MIN. 72' WIDE OPEN BOTTOM FOR INSTALLATION ON TOP OF CONCRETE CURB WIREWAY PUMP STATION CONTROL PANEL DETAIL NOT TO SCALE DIGITAL INPUT MODULES SIGNAL DESCRIF PUMP 3 RUNNING VFD PUMP 3 RUNNING SSRV PUMP 3 FAULT VFD PUMP 3 FAULT SSRV PUMP 3 WARNING/ALARM WET WELL HIGH LEVEL Y SIGNAL PLC ANALOG INSTRUMENTATION FIELD DEVICE ISOLATOR OUTPUT TRANSMITTER TSP 18 Jo Ij TSP#18 + + INPUT - SURGE: 1r1� * + SURGE z� L 4-20 mA _ ARRESTOR J1C J� _ _ ARRESTOR a a N L E+ IL 00 N �o - e CD Z� G G Na �� G FZZ U EDCOmoo SLAC SS64--036 T— PICAL ANALOG OUTPUT LOOP DIAGRAM TYPICAL INSTRUMENTATION LOOP DIAGRAM �- RELOCATE EXISTING SCADA SYSTEM ETHERNET NETWORK SNATCH FROM THE WWTP2 CONTROL BUILDING. SHELF PLC OPERATOR INTERFACE PANEL FIBER OTIC CABLE PATCH PANEL RE-ROUTE EXISTING WW7P2 SCADA SYSTEM FIBER OPTIC NETWORK CABLE INTO THE NEW CONTROL PANEL DIGITAL OUTPUT MODULES SIGNAL DESCRIP PUMP 1 START/STOP PUMP 2 START/STOP PUMP 3 START/STOP ALARM SILENCE SPARE SPARE SPARE NOTES 1. PROVIDE CITY OF ATLANTIC BEACH STANDARD SCADA SYSTEM PLC FULLY PROGRAMMED TO PROVIDE LOCAL AND REMOTE MONITORING AND CONTROL OF THE COMPLETE MASTER PUMP STATION. 2 PROVIDE OPERATOR SELECTABLE AUTOMATIC 'CONSTANT LEVEL' AND 'PUMP DOWN' TRIPLEX VARIABLE SPEED PUMP CONTROL SYSTEMS. PROVIDE AUTOMATIC ALTERNATION WITH MANUAL OVERRIDE LEAD PUMP SELECTION. 3. EXPAND AND MODIFY THE EXISTING SCADA SYSTEM AT WWTP1 TO FULLY INTEGRATE REMOTE MONITORING AND CONTROL OF THE BUCCANEER MASTER PUMP STATION. 4. PROVIDE FUSED DISCONNECT TERMINAL BLOCKS FOR EACH INDIVIDUAL PLC DIGITAL INPUT SIGNAL 5. PROVIDE INTERPOSING RELAYS FOR EACH PLC DIGITAL OUTPUT SIGNAL SIGNAL PLC ISOLATOR ANALOG INPUT TSP/18 + EDCO 1� 1� + EDCO - SRA84C-030 - --c 0 SRA64C-030 TYPICAL REMOTE DEVICE ,wt V W. DAVID LASSETTER PE/37971 BUCCANEER CONTROL PANEL REVISIONS CONFORMED 12/16/2010 I FILE NO N Ccq (DV 2 N N m J ED C J m C) vrn vi d C w LL W Lu m ai c S 0 N UQ� W N ULn C W U z Q J CL O U J L O LL A LL. 0 H Z LLu LL > O m 0 - CL 3 3 " NOV 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET BE -4 10 OF 12 SHEETS r----------� I I I BACKUP FLOAT I I CONTROL SYSTEM I L - - - - - - - I I L_ - - _ - _ _ - _ J O O I I I SCADA SYSTEM PLC I I 0 I 0 ----------- r----------1 I I r --- I I I I EG CONTROLS I I BUBBLER SYSTEM I I i I L' ---------J OPEN BOTTOM FOR INSTALLATION ON TOP OF CONCRETE CURB WIREWAY PUMP STATION CONTROL PANEL DETAIL NOT TO SCALE DIGITAL INPUT MODULES SIGNAL DESCRIF PUMP 3 RUNNING VFD PUMP 3 RUNNING SSRV PUMP 3 FAULT VFD PUMP 3 FAULT SSRV PUMP 3 WARNING/ALARM WET WELL HIGH LEVEL Y SIGNAL PLC ANALOG INSTRUMENTATION FIELD DEVICE ISOLATOR OUTPUT TRANSMITTER TSP 18 Jo Ij TSP#18 + + INPUT - SURGE: 1r1� * + SURGE z� L 4-20 mA _ ARRESTOR J1C J� _ _ ARRESTOR a a N L E+ IL 00 N �o - e CD Z� G G Na �� G FZZ U EDCOmoo SLAC SS64--036 T— PICAL ANALOG OUTPUT LOOP DIAGRAM TYPICAL INSTRUMENTATION LOOP DIAGRAM �- RELOCATE EXISTING SCADA SYSTEM ETHERNET NETWORK SNATCH FROM THE WWTP2 CONTROL BUILDING. SHELF PLC OPERATOR INTERFACE PANEL FIBER OTIC CABLE PATCH PANEL RE-ROUTE EXISTING WW7P2 SCADA SYSTEM FIBER OPTIC NETWORK CABLE INTO THE NEW CONTROL PANEL DIGITAL OUTPUT MODULES SIGNAL DESCRIP PUMP 1 START/STOP PUMP 2 START/STOP PUMP 3 START/STOP ALARM SILENCE SPARE SPARE SPARE NOTES 1. PROVIDE CITY OF ATLANTIC BEACH STANDARD SCADA SYSTEM PLC FULLY PROGRAMMED TO PROVIDE LOCAL AND REMOTE MONITORING AND CONTROL OF THE COMPLETE MASTER PUMP STATION. 2 PROVIDE OPERATOR SELECTABLE AUTOMATIC 'CONSTANT LEVEL' AND 'PUMP DOWN' TRIPLEX VARIABLE SPEED PUMP CONTROL SYSTEMS. PROVIDE AUTOMATIC ALTERNATION WITH MANUAL OVERRIDE LEAD PUMP SELECTION. 3. EXPAND AND MODIFY THE EXISTING SCADA SYSTEM AT WWTP1 TO FULLY INTEGRATE REMOTE MONITORING AND CONTROL OF THE BUCCANEER MASTER PUMP STATION. 4. PROVIDE FUSED DISCONNECT TERMINAL BLOCKS FOR EACH INDIVIDUAL PLC DIGITAL INPUT SIGNAL 5. PROVIDE INTERPOSING RELAYS FOR EACH PLC DIGITAL OUTPUT SIGNAL SIGNAL PLC ISOLATOR ANALOG INPUT TSP/18 + EDCO 1� 1� + EDCO - SRA84C-030 - --c 0 SRA64C-030 TYPICAL REMOTE DEVICE ,wt V W. DAVID LASSETTER PE/37971 BUCCANEER CONTROL PANEL REVISIONS CONFORMED 12/16/2010 I FILE NO N Ccq (DV 2 N N m J ED C J m C) vrn vi d C w LL W Lu m ai c S 0 N UQ� W N ULn C W U z Q J CL O U J L O LL A LL. 0 H Z LLu LL > O m 0 - CL 3 3 " NOV 2010 SCALE AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET BE -4 10 OF 12 SHEETS 1 P101CIOI + I I \\ I I / I I I I L J x x x x x x x x x x TYPICAL PROVIDE 316SS CABLE HOLDER FOR EACH PUMP. LOCATE CONDUIT ENTRYS INTO WET WELL AND ROUTE CABLES SUCH THAT THE PUMP CABLES DO NOT INTERFERE WITH ACCESS TO EACH INDIVIDUAL PUMP. NEW JEA PAD MOUNTED BUBBLER WITH RE TUBE COLE ACCESS OPENING TRANSFORMER (NOTE 4) SERVICE ENTRANCE MAIN MIN. 2' PVC SLEEVE WITH SWEEP ELBOWS BREAKER AND SERVICE METER FOR 31OSS BUBBLER TUBING. IN SCALE: 1/4' - 1'-0' m 0 4 a NOTES 1. THE CONTRACTOR SHALL INSPECT THE SITE PRIOR TO BID TO EVALUATE EXISTING CONDITIONS INSTALLATION OF THE NEW FACILITIES WILL REQUIRE FIELD COORDINATION 1WTH PLANT OPERATIONS TO PERMIT MAINTENANCE OF OPERATION DURING CONSTRUCTION. DURATION OF POWER OUTAGES SHALL BE MINIMUM REQUIRED FOR SAFE INSTALLATION AND SHALL BE SCHEDULED MATH AND APPROVED BY THE OWNER. 2. THE CONTRACTOR SHALL TAKE PRECAUTIONS TO AVOID EXISTING UNDERGROUND UTILITIES INCLUDING PROCESS PIPING, WATER LINES, CHEMICAL FEED PIPING, ELECTRICAL CONDUITS, TELEPHONE, ETC. HAND EXCAVATION SHALL BE REQUIRED IN CONGESTED AREAS WHERE THE EXACT LOCATION OF ALL UTILITIES IS UNKNOWN AND SURFACE LOCATION IS NOT PRACTICAL LOCATIONS SHOWN FOR THE EXISTING UNDERGROUND UTILITIES ARE APPROXIMATE ONLY. NOT ALL OF THE EXISTING UNDERGROUND UnUTIES ARE SHOWN. FIELD ADJUST LOCATIONS OF THE NEW FACILITIES TO ACCOMMODATE THE EXISTING SITE CONDITIONS AND UNDERGROUND UTILITIES F100: 2' SCH 40 PVC CONDUIT WITH GRADUAL SWEEP FOR SCADA SYSTEM FIBER oPTIC CABLE. 3. PROVIDE NEW ELECTRICAL SERVICE IN ACCORDANCE WITH ALL APPLICABLE JEA REQUIREMENTS INCLUDING NEW SERVICE METERING, METER ENCLOSURE, METER MOUNTING SYSTEM, ETC. 4. THE NEW ELECTRICAL SERVICE PAD MOUNTED TRANSFORMER AND PRE—CAST TRANSFORMER PAD SHALL BE PROVIDED BY JEA. THE CONTRACTOR SHALL INSTALL THE TRANSFORMER PAD, BOLLARDS, METERING, PRIMARY CONDUITS ETC. IN ACCORDANCE WITH JEA REQUIREMENTS. 5. INSTALL 2-4' SCH 40 PVC CONDUITS WITH LONG RADIUS ELLS AND MINIMUM 49' COVER, FROM THE NEW TRANSFORMER TO THE SERVICE POINT OF CONNECTION IN ACCORDANCE WITH JEA REQUIREMENTS. CONDUIT AND ELLS SHALL BE PROVIDED BY THE JEA. 6. THE PROJECTS GROUNDING SYSTEM SHALL CONSIST OF A GROUNDING ELECTRODE SYSTEM IN ACCORDANCE WITH NEC SPECIFICATIONS BONDED TO A MAIN GROUND BUS INTERCONNECTING ALL POWER DISTRIBUTION EQUIPMENT. GROUND ROD SECTIONS SHALL BE COUPLED AND DRIVEN TO ESTABLISH A MAXIMUM RESISTANCE TO GROUND OF 10 OHMS THROUGHOUT THE GROUNDING SYSTEM. 7. PROVIDE A UL MASTER LABEL LIGHTNING PROTECTION SYSTEM FOR THE NEW ELECTRICAL BUILDING, INCLUDING GROUND RODS AT EACH LIGHTNING PROTECTION SYSTEM DOWN CONDUCTOR. INTERCONNECT EACH SYSTEM GROUND ROD WITH A CONTINUOUS /4/0 COPPER COUNTERPOISE LOOP. BOND THE SERVICE ENTRANCE EQUIPMENT, POWER DISTRIBUTION EQUIPMENT, GENERATOR, FUEL STORAGE TANK, AND FENCING TO THE LOOP COUNTERPOISE. & PROVIDE A CONTINUOUS /4/0 COPPER COUNTERPOISE LOOP FOR THE STANDBY GENERATOR. PROVIDE GROUND RODS AT EACH CORNER OF THE LOOP. BOND THE STANDBY GENERATOR TO THE LOOP AT A MINIMUM OF TWO PLACES ON OPPOSITE ENDS t f 1 CUT AND REPAIR PAVEMENT AS REQUIRED TO EXCAVATE AND RE—ROUTE THE EXISTING FIBER OPTIC CABLE. x x x O +r !u FIELD LOCATE EXISTING DIRECT BURIED SCADA SYSTEM FIBER m OPTIC CABLE THAT EXTENDS FROM WIP/4 TO THE WWIPj2 1 p CONTROL BUILDING. EXACT LOCATION IS UNKNOWN. PROVIDE 4` NEW UG PULL BOX DIRECTLY OVER THE EXISTING CABLE EXCAVATE AND PULL BACK SUFFICIENT LENGTH TO RE—ROUTE CABLE IN NEW 2'C TO THE NEW PUMP STATION cai CONTROL PANEL (` EXISTING JEA SERVICE POLE (NOTE 3) P100: NEW UG PRIMARY SERVICE CONDUITS WITH GRADUAL SWEEP T10D: 2' SCH 40 PVC CONDUIT (NOTE 5) ' \ \ WITH GRADUAL SWEEP FOR FUTURE TELEPHONE SERVICE I m � U \O i I \ ®NEW JEA SERVICE POLE (NOTE 3) W. DAVID LASSETTER PE/37971 / "ZiY"fl BUCCANEER ELECTRICAL SIT REVISIONS CONFORMED 12/16/2010 I FILE NO I N C ♦� U COCSI c"I N J m m C J W v CN LL W 4 C Q C N Q o) ut N U c W Z J CLG O J `D Q O U. 1 LL. Q Z Lu W O <L L 3 3 DATE NOV 2010 SCALL AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET BE -6 12 OF 12 SHEETS ____________.________________ -___________-______________- --------------------------------------------------------- i 11__' I I I I I RELOCATE THE EXISTING 500KW STANDBY i 1 i GENERATOR LOCATED AT WWTPV_ FIELD i VERIFY AND DUPLICATE THE EXISTING I r -----I CONCRETE FOUNDATION DIMENSIONS I I !"' P103, C103 PRE—CAST CONCRETE ELECTRICALx x P105, P1D6 BUILDING (SEE SHEET BE -5) P707 HVAC x� ' I Pilo. Stto, 0110 P720, S120, C120 x j x I P130, S130, C130 i TYPICAL TYPE EX EXPLOSION PROTECTED TERMINAL BOX FOR EACH PUMP. MOUNT �\ TOP OF BOXES AT 5'-0' ABOVE GRADE NEW PUMP STATION WET WELL SEE plgp I I " THE CONDUIT AND CABLE SCHEDULE FOR QUANTITY AND SIZE OF CONDUITS I i C150 \ I INTO THE WET WELL. \\ 1WK <a C140 / <H \ x < Ro +44 1x WG P7oa �' 1 P101CIOI + I I \\ I I / I I I I L J x x x x x x x x x x TYPICAL PROVIDE 316SS CABLE HOLDER FOR EACH PUMP. LOCATE CONDUIT ENTRYS INTO WET WELL AND ROUTE CABLES SUCH THAT THE PUMP CABLES DO NOT INTERFERE WITH ACCESS TO EACH INDIVIDUAL PUMP. NEW JEA PAD MOUNTED BUBBLER WITH RE TUBE COLE ACCESS OPENING TRANSFORMER (NOTE 4) SERVICE ENTRANCE MAIN MIN. 2' PVC SLEEVE WITH SWEEP ELBOWS BREAKER AND SERVICE METER FOR 31OSS BUBBLER TUBING. IN SCALE: 1/4' - 1'-0' m 0 4 a NOTES 1. THE CONTRACTOR SHALL INSPECT THE SITE PRIOR TO BID TO EVALUATE EXISTING CONDITIONS INSTALLATION OF THE NEW FACILITIES WILL REQUIRE FIELD COORDINATION 1WTH PLANT OPERATIONS TO PERMIT MAINTENANCE OF OPERATION DURING CONSTRUCTION. DURATION OF POWER OUTAGES SHALL BE MINIMUM REQUIRED FOR SAFE INSTALLATION AND SHALL BE SCHEDULED MATH AND APPROVED BY THE OWNER. 2. THE CONTRACTOR SHALL TAKE PRECAUTIONS TO AVOID EXISTING UNDERGROUND UTILITIES INCLUDING PROCESS PIPING, WATER LINES, CHEMICAL FEED PIPING, ELECTRICAL CONDUITS, TELEPHONE, ETC. HAND EXCAVATION SHALL BE REQUIRED IN CONGESTED AREAS WHERE THE EXACT LOCATION OF ALL UTILITIES IS UNKNOWN AND SURFACE LOCATION IS NOT PRACTICAL LOCATIONS SHOWN FOR THE EXISTING UNDERGROUND UTILITIES ARE APPROXIMATE ONLY. NOT ALL OF THE EXISTING UNDERGROUND UnUTIES ARE SHOWN. FIELD ADJUST LOCATIONS OF THE NEW FACILITIES TO ACCOMMODATE THE EXISTING SITE CONDITIONS AND UNDERGROUND UTILITIES F100: 2' SCH 40 PVC CONDUIT WITH GRADUAL SWEEP FOR SCADA SYSTEM FIBER oPTIC CABLE. 3. PROVIDE NEW ELECTRICAL SERVICE IN ACCORDANCE WITH ALL APPLICABLE JEA REQUIREMENTS INCLUDING NEW SERVICE METERING, METER ENCLOSURE, METER MOUNTING SYSTEM, ETC. 4. THE NEW ELECTRICAL SERVICE PAD MOUNTED TRANSFORMER AND PRE—CAST TRANSFORMER PAD SHALL BE PROVIDED BY JEA. THE CONTRACTOR SHALL INSTALL THE TRANSFORMER PAD, BOLLARDS, METERING, PRIMARY CONDUITS ETC. IN ACCORDANCE WITH JEA REQUIREMENTS. 5. INSTALL 2-4' SCH 40 PVC CONDUITS WITH LONG RADIUS ELLS AND MINIMUM 49' COVER, FROM THE NEW TRANSFORMER TO THE SERVICE POINT OF CONNECTION IN ACCORDANCE WITH JEA REQUIREMENTS. CONDUIT AND ELLS SHALL BE PROVIDED BY THE JEA. 6. THE PROJECTS GROUNDING SYSTEM SHALL CONSIST OF A GROUNDING ELECTRODE SYSTEM IN ACCORDANCE WITH NEC SPECIFICATIONS BONDED TO A MAIN GROUND BUS INTERCONNECTING ALL POWER DISTRIBUTION EQUIPMENT. GROUND ROD SECTIONS SHALL BE COUPLED AND DRIVEN TO ESTABLISH A MAXIMUM RESISTANCE TO GROUND OF 10 OHMS THROUGHOUT THE GROUNDING SYSTEM. 7. PROVIDE A UL MASTER LABEL LIGHTNING PROTECTION SYSTEM FOR THE NEW ELECTRICAL BUILDING, INCLUDING GROUND RODS AT EACH LIGHTNING PROTECTION SYSTEM DOWN CONDUCTOR. INTERCONNECT EACH SYSTEM GROUND ROD WITH A CONTINUOUS /4/0 COPPER COUNTERPOISE LOOP. BOND THE SERVICE ENTRANCE EQUIPMENT, POWER DISTRIBUTION EQUIPMENT, GENERATOR, FUEL STORAGE TANK, AND FENCING TO THE LOOP COUNTERPOISE. & PROVIDE A CONTINUOUS /4/0 COPPER COUNTERPOISE LOOP FOR THE STANDBY GENERATOR. PROVIDE GROUND RODS AT EACH CORNER OF THE LOOP. BOND THE STANDBY GENERATOR TO THE LOOP AT A MINIMUM OF TWO PLACES ON OPPOSITE ENDS t f 1 CUT AND REPAIR PAVEMENT AS REQUIRED TO EXCAVATE AND RE—ROUTE THE EXISTING FIBER OPTIC CABLE. x x x O +r !u FIELD LOCATE EXISTING DIRECT BURIED SCADA SYSTEM FIBER m OPTIC CABLE THAT EXTENDS FROM WIP/4 TO THE WWIPj2 1 p CONTROL BUILDING. EXACT LOCATION IS UNKNOWN. PROVIDE 4` NEW UG PULL BOX DIRECTLY OVER THE EXISTING CABLE EXCAVATE AND PULL BACK SUFFICIENT LENGTH TO RE—ROUTE CABLE IN NEW 2'C TO THE NEW PUMP STATION cai CONTROL PANEL (` EXISTING JEA SERVICE POLE (NOTE 3) P100: NEW UG PRIMARY SERVICE CONDUITS WITH GRADUAL SWEEP T10D: 2' SCH 40 PVC CONDUIT (NOTE 5) ' \ \ WITH GRADUAL SWEEP FOR FUTURE TELEPHONE SERVICE I m � U \O i I \ ®NEW JEA SERVICE POLE (NOTE 3) W. DAVID LASSETTER PE/37971 / "ZiY"fl BUCCANEER ELECTRICAL SIT REVISIONS CONFORMED 12/16/2010 I FILE NO I N C ♦� U COCSI c"I N J m m C J W v CN LL W 4 C Q C N Q o) ut N U c W Z J CLG O J `D Q O U. 1 LL. Q Z Lu W O <L L 3 3 DATE NOV 2010 SCALL AS SHOWN DRAWN BY JCA DESIGNED BY WDL SHEET BE -6 12 OF 12 SHEETS