L-21-018, 2 to Updated Safety Analysis Report, Section 4, Figures 4.2-1 to 4.6-9
| ML21307A219 | |
| Person / Time | |
|---|---|
| Site: | Perry  |
| Issue date: | 10/28/2021 |
| From: | Energy Harbor Nuclear Corp |
| To: | Office of Nuclear Reactor Regulation |
| Shared Package | |
| ML21307A174 | List:
|
| References | |
| L-21-018 | |
| Download: ML21307A219 (19) | |
Text
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(REV. 20 10/2017) PERRY NUCLEAR POWER PLANT 10 CENTER RD., PERRY, OHIO 44081
REFERENCES:
F162D O C 1" F535 F536 3/4" 1/2" 1/2" A-3 A-3 TO HCU'S (BANK C&D) F162C O C C22-P001 F162B O C C22-P002 F162A O C C22-P001 1" 1" FROM REDUNDANT REACTIVITY CONTROL SYSTEM 1" 1" 1" 1" 3/4" 1" F534 F533 3/4" 1/2" 1/2" A-3 A-3 TO HCU'S (BANK A&B) 3/4" SCRAM VALVE PILOT AIR HEADER SCRAM VALVE PILOT AIR HEADER F512 3/4" 1" 1" 1" PI R013 F513 3/4" 1/2" F094 LO F159A SEE NOTE 27 PT N052 C11-P001 E EA015 PS N652 H13-P613 A L H A H13-P680 H13-P680 D2-4 F159B F182 NE SEE NOTE 26 SOL A SOL B F1041 LO FROM REACTOR PROTECTION SYSTEM REFERENCE 9 F009 NE F089 LO FROM REACTOR PROTECTION SYSTEM REFERENCE 9 RMS H13-P680 EXHAUST RMS H13-P680 DIV 1 DIV 2 O C SYSTEM REACTIVITY CONTROL FROM REDUNDANT C22-P002 F163A C O FROM REDUNDANT REACTIVITY CONTROL SYSTEM F163B C22-P002 H13-P680 O C 1/2"D2-4 SEE NOTE 31 1/2" 1/4" 1/2" 1/4" SEE NOTE 30 C NC064 C NC065 F180 F010 E1-4 E1-2 2 C22-P002 SEE NOTE 31 D2-2 E1-4 SEE NOTE 8 1" F120 1" 3/4" 3/4" DRYWELL CONTAINMENT SEE NOTES 23,24 & 25 CHANNEL C CHANNEL D TO RPS (REF.9) F155D LO F155C LO F156C LX LX F156D 3/4" 3/4" C D F157D LX LX F157C F158C LO F158D LO LS N013 LS N013 C22-P001 O C F160A ND DIV.1 C22-P002 O C F160B ND DIV.2 FROM REDUNDANT REACTIVITY CONTROL SYSTEM F110A ND DIV.1 F110B ND DIV.2 FROM REACTOR PROTECTION SYSTEM C71-1010,SH.1,J-6 & J-8 DC DC DC DC 1" F095 G-9 F1040 D006 FILTER K-13 INSTRUMENT AIR SUPPLY 1/2" 3/4" 3/4" 75-80 PSIG INSTRUMENT AIR CHANNEL A CHANNEL B TO RPS (REF.9) F155B LO F155A LO F156A LX LX F156B 3/4" 3/4" A B F157B LX LX F157A F158A LO F158B LO LS N013 LS N013 3/4"E2-2 3/4"E2-2 12" 8" E1-2 X X X X 1/2"E2-2 1/2" F090C LO F090D LO F134D LX LO F134C H13-P693 H13-P694 C C D D H51-P1339 H51-P1338 F091C LX LX F091D F092D LO F092C LO 1/2" LS N601 N601 LS LT LT N012 N012 F093B LO F135B LO SCRAM VOLUME SEE NOTE 13 HALF THE INSTRUMENT VOLUME ROD BLOCK ELEVATION INSTRUMENT VOLUME ALARM ELEVATION NOMINAL 5 GALLONS SCRAM ELEVATION SEE NOTE 29 VALVE VENT ELEVATION TO REACTOR PROTECTION C71-1010,SH.3 SEE NOTE 28 1/2"E2-2 LX F103B F104B LO X X X X X X 12" 8" E1-2 X X X X 1/2"E2-2 1/2" F090B LO F090A LO F134A LX F1348 LX H13-P692 H13-P691 B B A A H51-P1335 H51-P1336 F091B LX LX F091A F092A LO F092B LO 1/2"E2-2 LS N601 N601 LS LT LT N012 N012 F093A LO F135A LO TO REACTOR PROTECTION C71-1010,SH.3 SEE NOTE 28 1/2"E2-2 LX F103A F104A LO X X X X X X LT N017 N017 LT H51-P1337 H51-P1340 A B C NC062 NC063 C C NC061 NC060 C LIS N602 N602 LIS LIS N602 N602 LIS B A C D H13-P629 H13-P618 H13-P618 H13-P629 ROD WITHDRAWL BLOCK 2" 2"E1-2 2"E1-2 2" A H13-P680 O C C NC066 C NC067 F181 F011 3/4"E2-2 3/4"E2-2 1" F-5 2" 1/4" 1/2" E2-4 E1-4 TO SUPPRESSION POOL SEE NOTES 3, 24 & 25 FROM HCU'S (88 TYP.) B-3 3/4" 1" SCRAM DISCHARGE VOLUME PIPING CONTAINMENT D0409 D0410 1" E1-2 (9 TYP.) (9 TYP.) 1" 3/4" B-3 FROM HCU'S (89 TYP.) F1043B LO F1045 LO F1044 LO F1043A LO 2 E1-4 E1-2 2 S S S S SOL A SOL B S S S FROM REDUNDANT REACTIVITY CONTROL SYSTEM S FROM REDUNDANT REACTIVITY CONTROL SYSTEM S FROM REDUNDANT REACTIVITY CONTROL SYSTEM S F S S S S 2 35 NOTE SEE 2 35 NOTE SEE 2 2 35 NOTE SEE 35 NOTE SEE
- 2. 302-0601-00000 REACTOR RECIRCULATION SYSTEM B33
- 3. 302-0101-00000 CONDENSATE SYSTEM N21
- 4. 302-0612-00000 NUCLEAR CLOSED COOLING WATER SYSTEM P43
- 5. 302-0950-00000 NITROGEN SUPPLY SYSTEM P86
- 6. 302-0772-00000 REACTOR PLANT SAMPLING SYSTEM P35
- 7. A62-4140 CLEANING OF PIPING AND EQUIPMENT
- 8. C11-1020 CONTROL ROD DRIVE HYDRAULIC SYS. PROCESS DIA.
- 9. C71-1010 REACTOR PROTECTION SYSTEM IED
- 10. C11-4010 CONTROL ROD DRIVE HYDRAULIC SYS. DESIGN SPEC.
- 11. 302-0872-00000 CONTROL ROD DRIVE HYDRAULIC SYSTEM DIAGRAM
- 12. C11-1030 CONTROL ROD DRIVE HYDRAULIC SYSTEM FCD
- 13. 302-0102-00000 CONDENSATE TRANSFER AND STORAGE SYSTEM P11
- 14. A62-4240 WATER SAMPLING
- 15. C11-D001 HCU OUTLINE DRAWING
- 16. A62-1010 GROUP CLASS 8 CONTAINMENT ISOLATION DIAGRAM
- 17. C11-1050 ROD CONTROL AND INFO SYSTEM
- 1. 302-0606-00000 NUCLEAR BOILER SYSTEM B21
- 18. 302-0671-00000 REACTOR WATER CLEANUP SYSTEM G33 H-13 CONDENSATE F123 4"L1-4 F511A 3/4" H13-P601 A
H H51-P1122 dPIS N015 D013 F117 F115A D002A F511B F116 1" 1" 1" 1" 4"L1-4 EL.574'-10" EL.574'-10" F115B 4" D002B 3/4" F1042B F113B F1042A F113A 1" 1" TO CRW CRW F112A F112B 3/4" F114A D010B PUMP SUCTION FILTER D010A PUMP SUCTION FILTER F114B 4" 4"L1-4 3/4" F505 F013B 4"L1-4 4"L1-4 D020A S 1" F001A F506A TO CRW A A R017 N001 PS PI H13-P601 A L H51-P1082 3/4" F508A PX C1-4 E EC002A EC003B S T S H13-P601 H13-P601 RMS F015B LO 1" L2-4 B RO D007 2 1/2" C1-4 3/4" F509 F401 H51-P1081 PI R008 LO F015A 1" C1-4 C1-4 A RO D007 1" D-5 CONDENSATE TRANSFER F020A 2" 2" 2 1/2" F022A 3/4"L1-4 F1031 F1030 3/4" C1-4 F023A 3/4"L1-4 TO CRW D003A DRIVE WATER FILTER 2" 2" 2 1/2" C2-4 F022B 3/4"L1-4 C1-4 F023B 3/4"L1-4 TO CRW D003B DRIVE WATER FILTER 2 1/2" 3/4" F020B F021A F021B 2 1/2" 3/4" 3/4" F402 F510A F510B F403 H51-P1081 dPIS N002 A H H13-P601 2 1/2"C2-4 C2-2 SEE NOTE 16 2 RMS MO F083 H13-P601 3/4" 3/4" F128 LX F129 LX F504 F503 O C H13-P601 E EC011 EC012 X C2-4 C2-2 C1-4 L1-4 C1-4 L1-4 L1-4 C2-4 L1-4 C2-4 C1-4 C2-4 C1-4 C2-4 C1-4 C2-4 C1-4 C2-4 L2-4 C1-4 L2-4 C1-4 2" 2*" F507A F013A F014B F014A C1-4 f" f" f" H51-P1082 NOTES:
- 1. ONE STABILIZING VALVE OF STABILIZING VALVE ASSEMBLY (F007)
CLOSES ON WITHDRAWAL SIGNAL PER ONE DRIVE OPERATION. TWO STABILIZING VALVES OF STABILIZING VALVE ASSEMBLY (F007) CLOSE ON INSERT SIGNAL PER ONE DRIVE OPERATION. FOR GANGED ROD DRIVE OPERATION,AN APPROPRIATE NUMBER OF STABILIZING VALVES SHALL BE OPERATED.
- 2. PROVISION FOR CONTAINMENT ISOLATION TO BE IN ACCORDANCE WITH CURRENT LICENSING REQUIREMENTS.
- 3. SCRAM DISCHARGE DRAIN MUST BE SUBMERGED DUE TO POTENTIAL RELEASE OF STEAM LEAK-OFF AND RADIOACTIVE NON-CONDENSIBLES.
- 4. PROVIDE VENT VALVES WITH CAP ON DISCHARGE SIDE AT ALL
- 5. PROVIDE DRAIN VALVES WITH CAP ON DISCHARGE SIDE AT ALL SYSTEM LOW POINTS.
- 6. EXHAUST FLOW FROM MOVING DRIVES IS DISPERSED VIA THE HCU'S OF ALL OTHER NON-MOVING DRIVES TO REACTOR VESSEL.
- 7. AVAILABLE FOR TEMPORARY CONNECTION FOR DRIVE TESTING AND FLUSHING. NO PERMANENT PIPING CONNECTIONS TO BE MADE TO THIS VALVE.
- 8. VACUUM BREAKER VALVE (F120) AND VENT VALVES (F010 & F180) TO BE ON HIGH POINT OF VENT LINE. VACUUM BREAKER VALVE SHALL OPEN ON A DIFFERENTIAL PRESSURE SETTING OF NO GREATER THAN 1.0 PSI.
THE LOCATION OF THE VACUUM BREAKER SHOULD CONSIDER THE POTENTIAL RELEASE OF RADIOACTIVE NON-CONDENSIBLES, WATER AND STEAM THAT COULD OCCUR IF THE VACUUM BREAKER VALVE WERE TO FAIL IN AN OPEN POSITION WHEN THE VENT SYSTEM PIPING IS PRESSURIZED.
- 9. EXCEPT AT POINTS OF CONNECTION WITH NED SUPPLIED EQUIPMENT OR PIPING, THE PIPING DESIGNER SHALL SIZE PIPES IN CONFORMANCE WITH THE SYSTEM SPECIFICATION AND PROCESS DIAGRAM.
10.FOR LOCATION AND IDENTIFICATION OF INSTRUMENTS, SEE INSTRUMENT DATA SHEET LISTED IN MPL FOR EACH INSTRUMENT. 11.CRD NITROGEN AND AIR LINES SHALL BE OF A NON-CORRODING MATERIAL. 12.MULTIPLE ORIFICES CONNECTED IN SERIES AS SHOWN IN PURCHASE PART DRAWING OF ORIFICE D008. THE PRESSURE DROP ACROSS EACH ORIFICE IS 250 PSI AT PUMP RUN-OUT CONDITION. SEE MPL F0R THE QUANTITIES OF ORIFICES. VALVE F034 SUPPLEMENTS THE ORIFICES D008 FOR THE REQUIRED PRESSURE DROP. 13.THE SCRAM DISCHARGE VOLUME ARRANGEMENT SHOWN IS FOR REFERENCE ONLY. FOR REQUIREMENT, SEE CRD DESIGN SPEC. REFERENCE 10. 15.FLUSHING CONNECTIONS SHALL BE PROVIDED IN ACCORDANCE WITH REFERENCE 7. TEMPORARY STRAINER SCREENS SHALL BE PROVIDED ON THE SUCTION SIDE OF ALL PUMPS IN ACCORDANCE WITH REFERENCE 7. 16.ISOLATION VALVES SHALL BE LOCATED AS CLOSE AS PRACTICABLE TO THE CONTAINMENT PENETRATION. 17.CONTINUOUS FLOW TO THE REACTOR SAMPLE STATION SHOULD BE 1 LITER/MINUTE MAXIMUM SHALL BE 2 LITER/MINUTE. 18.VENT PORT TO CONFORM WITH SAE INTERNAL STRAIGHT THREAD BOSS DIMENSIONS FOR.50 TUBE STRAIGHT THREAD FITTING (3/4-16UNF-2B) AND DEPTH OF.50 MINIMUM EFFECTIVE THREAD TO BE COMPATIBLE WITH THE INSTRUMENT USE FOR TESTING. 19.A PORTABLE NITROGEN CHARGING SYSTEM SHALL BE PROVIDED TO MEET THE REQUIREMENTS OF THE HCU. SEE REFERENCE 15 FOR SPECIFIC ACCUMULATOR CHARGING REQUIREMENTS. IT SHALL BE DESIGNED AND CONSTRUCTED IN ACCORDANCE WITH GOOD INDUSTRY PRACTICE AND SHALL HAVE THE APPROPRIATE SAFETY DEVICES,GAGES, AND VALVES. A PRESSURE RELIEF VALVE SHALL BE INSTALLED DOWNSTREAM OF THE CHARGING STATION PRESSURE REGULATOR WHICH SHALL PREVENT PRESSURIZATION ABOVE SYSTEM REQUIREMENTS. 20.DELETED 21.DELETED 22.SOURCE OF CRD SYSTEM WATER SHALL BE NORMALLY FROM CONDENSATE TREATMENT SYSTEM. CONDENSATE STORAGE TANK IS THE ALTERNATE SOURCE IF CONDENSATE TREATMENT SYSTEM IS NOT IN OPERATION. FOR DETAILED DESIGN REQUIREMENT FOR SOURCE AND QUALITY OF WATER, SEE REFERENCE 10. 23.THE SCRAM DISCHARGE VOLUME VENT LINE SHALL BE ROUTED VIA A DEDICATED LINE TO A NON-SUBMERGED DISCHARGE. THE VENT SYSTEM PIPING SHOULD NOT CONTAIN SIGNIFICANT FLOW RESTRICTIONS WHICH COULD INHIBIT VENTING OF THE SCRAM DISCHARGE VOLUME TO THE EXTENT OF LIMITING THE SCRAM DISCHARGE VOLUME DRAIN RATE. THE DESIGN OF THE NON-SUBMERGED VENT DISCHARGE MUST CONSIDER THE POTENTIAL FOR THE RELEASE OF RADIOACTIVITY DUE TO THE DISCHARGE OF NON-CONDENSIBLES, WATER, AND STEAM WHICH MAY OCCUR DURING THE PERIOD AFTER SCRAM PRIOR TO VENT VALVE CLOSURE AND UPON SCRAM RESET WHEN THE VENT VALVES ARE REOPENED WITH THE SCRAM DISCHARGE VOLUME PRESSURIZED. 24.TO PREVENT LOOP SEALS FROM OCCURING IN RELATIVELY SMALL DIAMETER LINES OF THE SCRAM DISCHARGE VOLUME VENT AND DRAIN SYSTEM, A CONTINUOUS DOWNWARD PITCH AWAY FROM THE SCRAM DISCHARGE VOLUME VENT AND DRAIN VALVES MUST BE MAINTAINED. THERMAL EXPANSION EFFECTS SHOULD BE ADDRESSED IN THE DESIGN OF THE VENT AND DRAIN SYSTEMS. 25.THE DESIGN OF THE SCRAM DISCHARGE VOLUME, ASSOCIATED VENT, AND DRAIN SYSTEM PIPING AND COMPONENTS MUST CONSIDER THE POTENTIAL PRESSURE, TEMPERATURE, AND TRANSIENT LOADING WHICH MAY RESULT FROM: (A) THE DISCHARGE TO THE SCRAM DISCHARGE VOLUME AND DOWN THE VENT AND DRAIN LINE DURING A FULL SCRAM PRIOR TO VENT AND DRAIN VALVE CLOSURE. (B) THE PRESSURIZATION OF THE SCRAM DISCHARGE VOLUME TO REACTOR VESSEL PRESSURE FOLLOWING VENT AND DRAIN VALVE CLOSURE, AND (C) DEPRESSUR-IZATION OF THE SCRAM DISCHARGE VOLUME UPON SCRAM RESET AND OPENING OF THE SCRAM DISCHARGE VOLUME VENT AND DRAIN VALVES. 26.THE F159B VALVE SHALL BE ADJUSTED SO THAT THE F180 VALVE AND THE F181 VALVE FULLY CLOSE AT LEAST FIVE (5) SECONDS AFTER THE F010 AND F011 VALVES, RESPECTIVELY, DURING A FULL CORE 27.THE F159A VALVE SHALL BE ADJUSTED SO THAT THE F010 AND F011 VALVES START TO OPEN AT LEAST FIVE (5) SECONDS AFTER THE F180 AND F181 VALVES, RESPECTIVELY, UPON THE RESET OF A FULL CORE SCRAM. 28.INSTRUMENT LOW POINT PIPING TAP LOCATION SHOULD BE 12 INCHES ABOVE THE SCRAM DISCHARGE INSTRUMENT VOLUME REFERENCE DATUM ELEVATION. 29.THE ELEVATION WITHIN THE SCRAM DISCHARGE INSTRUMENT VOLUME CORRESPONDING TO THE SCRAM INITIATION SET POINT SHALL BE
> 8 1/2 INCHES BELOW THE LOWEST ELEVATION OF THE HORIZONTAL SCRAM DISCHARGE VOLUME ELEVATION.
30.SCRAM DISCHARGE VOLUME VENT AND DRAIN VALVE CONTROL ROOM INDICATORS SHALL INDICATE OPEN WHEN BOTH VALVES ARE OPEN AND SHALL INDICATE CLOSED WHEN EITHER VALVE IS CLOSED. 31.THE PNEUMATIC PIPING FROM NEEDLE VALVE F159B AND SOLENOID VALVE F009 TO THE VENT AND DRAIN VALVES F181. F011, F180, F010 SHALL BE ROUTED AND SUPPORTED TO MINIMIZE THE POSSIBILITY OF PIPE CRIMP AND ALSO IT SHOULD BE ADEQUATE PIPE THICKNESS AND MATERIAL TO MINIMIZE THE CONSEQUENCES OF PIPE CRIMP. 32.HCU MPL NUMBERS CORRESPOND TO CORE GRID CONTROL ROD NUMBERING DESIGNATION. 33.LS 129 MPL NUMBERS CORRESPOND TO N (HCU NUMBER) A. PS 130 MPL NUMBERS CORRESPOND TO N (HCU NUMBER) B. PI 131 MPL NUMBERS CORRESPOND TO R (HCU NUMBER). 34.FLOW ELEMENTS 1C11N5840A/B ARE INSTALLED TO MONITOR RECIRCULATION SEAL PURGE FLOW STABILITY. THESE ELEMENTS MAY BE CONNECTED TO TEMPORARY M&TE FOR DATA COLLECTION. SCRAM. 35.INSTRUMENTATION CONNECTED TO VALVES 1C11F0155A/B/C/D AND 1C11F0158A/B/C/D IS INSTALLED AS SAFETY RELATED, NON-ASME. VENT AND DRAIN VALVES 1C11F156A/B/C/D AND 1C11F157A/B/C/D WERE PROCURED TO ASME SECTION III, CLASS 2 REQUIREMENTS. 14.DELETED 36. LOCKED INTO POSITION TO MAINTAIN ADMINISTRATIVE CONTROL. FOLLOWING PROPER ADJUSTMENT THE VALVE (F159A/B) SHALL BE 22A4168 REV.2. MATERIALS ARE ASME SECTION II PER GE DESIGN SPECIFICATION OF PIPING AND COMPONENTS SHOWN AS ( ) IS SAFETY RELATED. THE MANUFACTURE, PROCUREMENT, FABRICATION AND INSTALLATION REPRESENTS THE RESPECTIVE ALPHABET LETTER. THE ALPHABET WAS USED TO ENCOMPASS ALL 177 HCU'S. THE SECOND "X" FOLLOWING THE F101/F102 CORRESPONDS TO THE NUMBER OF TIMES AND F102 IS THE VENT VALVE FOR THE WITHDRAW LINE. THE FIRST "X" SYSTEM HIGH POINTS. F101 IS THE VENT VALVE FOR THE INSERT LINE 3" F0109A DRW RMS C1-4 TI R0709 A PI R0706 A PS N0704 A PS N0703 A PS A N0702 AH LEAKAGE HIGH SEAL H13-P601 M C0002A H13-P601 AUX. OIL PUMP S S T H13-P601 H13-P601 PRESSURE LOW OIL A L LINE PRESSURE SEAL POSITIVE 2*" F1036A 1C11A5006A CRD PUMP LUBE OIL SUMP N0705 PS A C0001A FOR SEAL PUMP C0001A FOR BEARING THRUST C0001A FOR BEARING RADIAL C0001A FOR SEAL PUMP f" F1046A (TYP.3) GAUGE SIGHT LUBE OIL HX 1C11B5003A L1-4 302-0612-00000 302-0612-00000 (J-7) (J-7) NCC P43 C0001B STATION PUMP TO/FROM F0070A F0017 F0071A F0109B C0001B N0001B (H51-P1082) R0017B (H51-P1082) F0071B N0703B N0704B N0705B F1046B F1038A f" f" F F D5005A D5004A F1035A F1034A D5005B D5004B F0070B F1036B A5006B F0506B D0020B F1038B F1035B F1034B R0706B R0709B N0702B B5003B F A L C5001A H13-P601 SUCT PRESS LOW MAIN OIL PUMP DRIVEN SHAFT MOTOR ELEC. 1C11C0001A PUMP DRIVE WATER C0001A FLOOR EL.574'-10" CRD HYDRAULIC PUMP "A" SCHEMATIC FLOOR EL.574'-10" SAME CONFIGURATION AS PUMP "A" CRD HYDRAULIC PUMP "B" SCHEMATIC C5001B C0002B F0001B F0508B F0507B 2 1/2" TI A PI GEAR OIL HX 1C11B5008A 302-0612-00000 302-0612-00000 (J-7) NCC P43 F1039A f" f" R0707 R0708 A D5009A F1037A REDUCER GEAR 1C11C0001A) (PARENT FLC# OIL PUMP SHAFT DRIVEN F1039B F1037B D5009B R0708B R0707B B5008B FLOOR EL.574'-10" LOCATED ON 1C11C0001A PUMP SKID GEAR REDUCER "A" LUBE OIL SCHEMATIC FLOOR EL.574'-10" SAME CONFIGURATION AS "A" LOCATED ON 1C11C0001B PUMP SKID GEAR REDUCER "B" LUBE OIL SCHEMATIC 302-0872-00000 302-0102-00000 302-0101-00000 NOTE 22 SEE 302-0872-00000 302-0872-00000 302-0872-00000 302-0872-00000 302-0244-00000 302-0872-00000 302-0872-00000 302-0872-00000 302-0872-00000 G-14 (K-7) NOTE 37 NOTE 37 AND VALVE 1P11F0506 IS SCHEDULE 80 SEAMLESS PIPE.
- 37. THE L2-4 PIPING BETWEEN THE RESTRICTING ORIFICE 1C11D007A/B (DWG. 302-0871-00000)
FIGURE 4.6-5 (SHEET 1 OF 2) SYSTEM CONTROL ROD DRIVE HYDRAULIC
(REV. 22 10/2021) PERRY NUCLEAR POWER PLANT 10 CENTER RD., PERRY, OHIO 44081 (DWG. D-302-0872-00000) FIGURE 4.6-5 (SHEET 2 OF 2) HYDRAULIC SYSTEM CONTROL ROD DRIVE D0021A BLANK D0021B BLANK POS TE R018 A H TEMPERATURE RECORDER AND SCANNER H22-P007 H13-P601 TO ROD POSITION INFO. SYSTEM ( SEE FCD ) FROM OTHER DRIVES CRD CONTROL ROD DRIVE ( TYPICAL ) 2 2 F101XX ( SEE NOTES 4 & 18 ) F102XX ( SEE NOTES 4 & 18 ) 1 1/4"C2-2 1"C2-2 DRIVE WATER ( WITHDRAW ) DRIVE WATER ( INSERT ) DRYWELL DRYWELL 102 LO 101 PT N054 H51-P1140 D-302-012 F-11 A PT N054 H51-P1140 D-302-012 F-11 C PT N054 H51-P1141 D-302-012 F-14 D PT N054 H51-P1141 D-302-012 F-14 B FOR ROD CONTROL AND INFORMATION SYSTEM C11-1050 H13-P629 H13-P629 H13-P618 H13-P618 A C D B H13-P618 B A H13-P629 PS N655 PS N655 PIS N654 PIS N654 PIS N654 PIS N654 139 NE VENT EXHAUST 116 LOGIC CHANNEL A LOGIC CHANNEL B TO REACTOR PROTECTION SYSTEM ( C71-1010,SH.1 ) 1/2" -871 A-8/A-9 SCRAM VALVE PILOT AIR HEADER ROD STATUS DISPLAY BOARD POS 127 114 LO 112 1" 3/4" -871 D-6/E-11 TO SCRAM DISCHARGE HEADER 123 120 ND ND 122 ND ND 121 137 103 105 WITHDRAW INSERT SETTLE WITHDRAW INSERT FROM ROD CONTROL AND INFORMATION SYSTEM 138 104 POS 126 DRAIN 107 115 113 SEE NOTE 33 H O 2 N 2 PSL 130 129 LS PI 131 H 111 132 1/2" 1/2" 1/2" 1/2" 1/2" A H L FROM OTHER HCU'S -950 SEE NOTE 19 D-2/F-2 NITROGEN SUPPLY 3/4" F529 1/2" 1/2" TO HCU'S (TYP) SEE NOTE 4 2" 2" 2" 3/4" F406 F515 PI R016 F034 SEE NOTE 12 RO D008 PT N005 3/4" F405 F514 E EAO11 PS N600 R015 PI R601 PI H13-P601 2"C2-4 CHARGING WATER F124 1/2" AP-229 SEE NOTE 17 2"C2-4 -772 A-9 REACTOR PLANT SAMPLING F036 2" SEE NOTE 7 2" 1/2" 1/2" F522A F522B F522D F522C FT N004 FE N003 FI R019 E EA001 2" FI R606 FC R600 C MA001 CRD SYSTEM FLOW K001 I/P 1 1/2" 3/4" F1033 F1032 3/4" F131 F132 F130 F122 2 1/2" C2-2 -871 2 SEE NOTE 16 PEN# P204 FUEL BUILDING CONTAINMENT 3/4" F540 F404 PI R021 RO D011 D012 FI R020 F026B B B B FLOW REGULATOR 3/4" F025B 3/4" F024B -601 G-13 FOR PUMP "B" RO D011 D012 FI R020 F026A A A A FLOW REGULATOR F025A F024A -601 G-13 FOR PUMP "A" 3/4"C2-4 3/4" REACTOR RECIRCULATION PUMP SEAL PURGE SUPPLY 3/4" F039 F038 1/4" PI R012 3/4" F516 FILTER D005 1/4" 30PSIG 120 PSIG INSTRUMENT AIR SUPPLY F FILTER REGULATOR -871 C-4 75-80 PSIG INSTRUMENT AIR SUPPLY 1/2" 1/2" FLOW CONTROL STATION C11P002 1/4" 1/4" FCV F127B F047B F046B 1 1/2" O C E EC007 EC008 AUTO LOADING MANUAL LOADING MANUAL/AUTO STATION D009B PI PI PCV F125B F126B H13-P601 FCV F127A F047A F046A 1 1/2" O C AUTO LOADING MANUAL LOADING MANUAL/AUTO STATION D009A PI PI PCV F125A P601 H13-E EC015 EC016 F126A 1/4" 1/2" 1/4" 1/4" 1/4" 1 1/2"C2-4 1 1/2" 1/2" 1/2" TO HCU'S (TYP) 3/4" F530D SEE NOTE 4 1" 1" 3/4" F407D F521D F054D SEE NOTE 7 FT N007 3/8" 3/8" F408D F409D F523D F524D D FE N006 D FT N009 3/8" 3/8" F525D F525C F525A F525B FE N010 D FI R003 PI R006 D E EA002A EA003B EA004C EA005D DETAIL "A" FI R604 D 1/2" X 3/8" (TYP) 3/4" X 1/2" (TYP) ROD STATUS DISPLAY BOARD 1" 3/4" 3/4" F538 F537 F016 LO F061 F060 1 1/2" F062 1 1/2" FE N016 E EC009 EC010 RMS H13-P601 O C H13-P601 IN-LINE RELIEF VALVE F040 1 1/2" F012 LO 3/4" F410 3/4" D -871 F-13 TO SUPPRESSION POOL 1"E1-4 F004 1 1/2" 1 1/2" 1 1/2" 2" 3/4" 1 1/2" 3/4" 3/4" 1 1/2" 1" F067D NE NE F539D F007D DETAIL "B" 3/4" STABILIZING VALVE SEE NOTE 1 D SEE DETAIL "B" C B A 3/4" 3/4" 3/4" 3/4" 1" F068A F068D F068C F068B C11-1030 3/4" F517A SEE DETAIL "A" C2-4 DRIVE WATER 1"C2-4 DRIVE WATER 1"C2-4 DRIVE WATER 1"C2-4 DRIVE WATER TO HCU'S C B A N008 E EA008 R602 R009 F517B 3/4"C2-4 3/4" 3/4" 3/4" F067C F067B F067A 1/2" 3/4" SEE NOTE 6 1/2" E EA006 FI R605 1/2" X 3/8"(TYP) 3/4" X 1/2"(TYP) 1/2" 1 1/2" TO HCU'S BANKS C & D AT 270 O 2"C2-4 1 1/2" 1/2" 1/2" 1/2" TO HCU'S BANKS A & B AT 90 O F415 3/4" HIGH POINT VENT 3/4" 3/4" 3/4" 1" 3/4" PRESSURE EQ. VALVE PRESSURE EQ. VALVE F150A F150B PI R007 1" 1" C11P001 F151 LO F154 LO LO F153 F152 LO F520 F416 3/4" F1029 1"C2-4 3/4" F412 F411 PI R010 C11P001 3/4" 1/2" 1" 3/4" HIGH POINT VENT F414 1" 1/2" 1/2" TO HCU'S BANKS A & B AT 90 O TO HCU'S BANKS C & D AT 270 O USE REDUCER BEFORE THIRD TO LAST HCU 3/4"C2-4 3/4"C2-4 3/4"C2-4 3/8" 3/8" F526D F526C F526A F526B FE N014 1/2" X 3/8"(TYP) 3/4" X 1/2"(TYP) F069 LO 2" 1" COOLING WATER 1"C2-4 3/4" 3/4" FI R004 N011 F518B F518A 3/4" 3/4" R005 R603 EA007 E -606 REACTOR PRESS. SENSING LINE (SEE NOTE 2) DRIVE WATER PRESSURE CONTROL STATION C11P001 NOTES: D X X X X X X X X X X X -607 F541D 3/8"IPC-6 G-8 F541A A-3 -607 3/8"IPC-6 G-12 -607 3/8"IPC-6 F541C D-3 -607 3/8"IPC-6 F541B 3/4" FE N5840 B SEE NOTE 34 FE N5840 A A-3/A-4 C2-4 E1-4 S S C2-2 C2-4 C2-4 C2-4 E1-4 E1-4 A B F002 PFV A A F002 PFV S S S S C2-4 C2-4 S dPI dPI dPT dPT dPI dPI F M F003 MCV S HYDRAULIC CONTROL UNIT - TYPICAL 177 - MPL NO. D001 (EL.620'- 6") A L F143A F143B F144A F144B F146A F146B F147A F147B F148A F148B R5840 PI FILTER D004A FILTER D004B F145A F145B f" C2-4 F142 F140 F141 F149A F149B (HCU IDENTIFICATION NUMBERS FOR INFORMATION ONLY. SEE NOTE 32) SEE NOTE 36 SEE NOTE 36 2 E1-2 NOTE 36 SEE SEE NOTE 36 2 C2-2 SEE NOTE 36 2 C2-2 SEE NOTE 36 SEE NOTE 36 SEE NOTE 36 NOTE 36 SEE F-11 PIS E51 N600 208-0020-00003 SEE H-3 F-14 FOR NOTES AND REFERENCES, SEE DRAWING 302-0871-00000. 3/4" SEE NOTE 34
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