Forwards Updated Data Point Library,Supplying Addl Info Requested by NRC ERDS Project Manager

ML20125C903
Person / Time
Site:	Sequoyah
Issue date:	12/04/1992
From:	Burzynski M TENNESSEE VALLEY AUTHORITY
To:	NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
NUDOCS 9212140143
Download: ML20125C903 (141)
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Text

{{#Wiki_filter:IUA Tennenee veey Auttsty.1101 Ma*et Street Chananwga Tennessee 3N02 ~ December 4, 1992 i U.S. Nuclear Regulatory Commission ATTH: Document Control Desk Washington, DC 20555 Gentlemen: In the Matter of ) Docket No. 50-327. Tennessee Valley Authority ) 50-328 EMERGENCY RESPONSE DATA SYSTEM (ERDS) - DATA POINT LIBRARY Enclosed is TVA't updated Data Point Library for Sequoyah Nuclear Plant Units 1 and 2. This update supplies the additional information requested by the NRC ERDS Project Manager. If you have any questions, please telephone S. W. Spencer at (615) 751-4778. Sincerely, } f fy /$ Mark J urzynski Manager Nuclear Licensing and Regulatory Affairs Enclosure cc: See page 2 1100.68 ' 9212140143 921204 I fDR 'ADOCK 050003,27 - 7 gr ro c F'

U.S. Nuclear-Regulatory Commission Page 2 L_ ~i -December 4, 1992- -cc:.Mr.-John R.:Jolicoeur (Enclosure) EROS Project Manager j U.S. Nuclear Regulatory Commission Mail Stop MNBB 3206 -Washington, DC '20555 Mr. D. E. LaBarge, Project Manager U.S. Nuclear Regulatory Commission One White Flint North 11555 Rockville Pike Rockville, Maryland _20852 Mr. B. A. Wilson, Project Chief U.S. Nuclear Regulatory Commission Region 11 101 Marietta Street, NW, Suite 2900 Atlanta, Georgia 30323 NRC Resident'In'spector Sequoyah Nuclear Plant 2600 Igou. Ferry Road. Soddy Daisy, Tennessee 37379 -l 1 s..

SEQUOYAH UNIT 1 - ERDS DATA POINT LIBPARY 1. SIMULATION INDICATES REAL OR SIMULATED DATA 2. NI POWER RNG UN2000 POWER RNG AVG 3. NI INTER RNG UN1015 INTER RNG FLUX (LOG) 4. NI SOURC RNG UN1014 Source Range Flux (Log) 5. REAC VES LEV UL6000 RVLIS LOWER PANGE AVEPAGE 6. TEMP CORE EX UT1003 CORE EXIT TEMP MAX -7. SUB MARGIN UT1005 MIN SUBCOOL 8. SG LEVEL 1/A UL1001 SG 1 NR LEVEL AVG 9. SG LEVEL 2/B UL1002 SG 2 NR LEVEL AVG 10. SG LEVEL 3/C UL1003 SG 3 NR LEVEL AVG 11. SG LEVEL 4/D UL1004 SG 4 NR LEVEL AVG 12. SG PRESS 1/A UP1002 SG 1 MS PRESSURE AVG 13. SG PRESS 2/B UP1003 SG 2 MS PRESSURE AVG 14. SG PRESS 3/C UP1004 SG 3 MS PRESSURE AVG 15. SG PRESS 4/D UP1005 SG 4 MS PRESSURE AVG 16. MN FD FL 1/A UF1000 SG 1 W FLOW AVG 17. MN FD FL 2/B UF1001 SG 2 FW FLOW AVG 18. MN FD FL 3/C UF1002 SG 3 W FLOW AVG 19. MN FD FL 4/D UF1003 SG 4 FW FLOW AVG 20. AX FW FL 1/A 1-FM3-163B STM GEN 1 AFW INLET FLOW 21. AX W FL 2/B 1-FM3-155B STM GEN 2 AFW INLET FLOW 22. AX W FL 3/C 1-FM3-147B STM GEN 3 A W INLET FLOW 23. AX W FL 4/D l-FM3-170B STM GEN 4 AFW INLET FLOW 24. HL TEMP 1/A 1-TM68-1B LP 1 HL WID RNG TEMP 25. HL TEMP 2/B 1-TM68-24B LP 2 HL WID RNG TEMP 26. HL TEMP 3/C 1-TM68-43B LP 3 HL WID RNG TEMP 27. HL TEMP 4/D l-TM68-65B LP 4 HL WID RNG TEMP 28. CL TEMP 1/A 1-TE68-18 LP 1 CL WID RNG TEMP 29. CL TEMP 2/B 1-TE68-41 LP 2 CL WID RNG TEMP 30. CL TEMP 3/C 1-TE68-60 LP 3 CL WID PNG TEMP 31. CL TEMP 4/D l-TE68-83 LP 4 CL WID RNG TEMP 32. RCS PRESSURE Of1000 RCS WIDE RNG PRESS AVG 33. PRZR LEVEL 'UL1005 PRZR LEV AVG 34. RCS CHG/MU UF1016 NET CHG FLO 35. HP SI FLOW UF10lG SI FLOW TOTAL 36. LP SI FLOW UF1011 RHR COLD LEG TOTAL FLOW 37. CNTMT EP WR UL10ll CNTMT SUMP LEV AVG 38. CFF GAS PAD EPM 90-400 Unit 1 Shield Bldg Release Rate 39. EFF GAS BAD 2-RM90-400 Unit 2 Shield Bldg Release Rate ~ 40. Err J J PAD 0-nE90-122 WDS Liquid Effluent 41. COND A/E RAD UR1006 Low Range COND VAC PUMP AIR EXH RAD MON 42. COND A/E RAD UR1007 Mid Rng COND VAC PUMP AIR EXH RAD MON 43. CCND A/E RAD UR1008 High Rng COND VAC PUMP AIR EXH RAD MON 44. CNINNT RAD UR6021 UPPER CONTAINMENT RADIATION 45. CNTMNT MD UR6022 LOWER CONTAINMENT RADIATION i 46. MAIN SL 1/A UR1001 MN STEAM LINE 1 RAD LEV 47. MkiN SL 2/B UR1002 MN STEAM LINE 2 PAD LEV 48. MAIN SL 3/C UR1003 MN STEAM LINE 3 RAD LEV 49. MAIN SL 4/D UR1004 MN STFAM LINE 4 RAD LEV 50. SG BD PAD 1A 1-RE90-120 Steam Generator Blowdown Liquid Monitor 51. SG BD RAD 2B 1-RE90-121 Steam Generator Blowdown Liquid Monitor $2. CTMNT PRESS UP6000 CJTMT PRESSURE AVEPAGE 53. CTMNT TEMP UT1004 CONTAINMENT TEMP MAX DEV I 54. H2 CONC UY1005 H2 CONC AVG l 55. RWST LEVEL UL1000 RWST LEVEL t 56. WIND SPEED MET 001 91M VECTOR WIND SPEED (15 MIN AVG) l 57. WIND SPEED MET 002 46M VECTOR WIND SPEED '(15 MIN AVG) t 58. WIND SPEED MET 003 10M VECTOR WIND SPEED (15 MIN AVG) 59. WIND DIR MET 004 91M VECTOR WIND DIR (15 MIN AVG) l 60. WIND DIR MET 005 46M VECTOR WIND DIR (15 MIN AVG) 61. WIND DIR MET 006 10M VECTOR WIND DIR (15 MIN AVG) 62. STAB CLASS MET 007 Stability Class Upper 63. STAB CLASS MET 008 Stability Class Intermediate 64. STAB CLASS MET 009 Ftability Class Lower i i ?

~. _.... e. .n 1 . y 4

. 65i.iSG LEVEL 1/A -

11-LT3-43 ' SG 1: t3IDE RNG -LEVEL - 66.

67.: ' SG LEVEL 2/B 1-LT3-56:

' SG 2 t3fDE RNG IEVCL 168.-. SG LEVEL 3/C'1-LT3-98.. SG 3 WIDE RNG LEVEL SG. LEVEL 4/D~- 1-LT3-111 . SG 4-WIDE RNG LEVEL 1 Y ? f M + ~ j. t l l; .m .a -t es ,--a

ERDS point number 1. SIMULATION-REAL/ SIMULATED DATA Date: 06/09/92 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: Point ID: SIMULATION Plant Spec Point Desc: INDICATES REAL OR SIMULATED DATA Generic /Cond Desc: REAL/ SIMULATED DATA Analog / Digital: D Engr Units / Dig States: REAL/ SIMUL Engr Units Conversion: N/A Minimum Instr Range: N/A Maximum Instr Range: N/A Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Str. sors: 0 How Processod: 0 IF REAL, 1 IF SIMULATED Sensor Loca; ions: N/A Alarm / Trip Set Points: N/A NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: N/A Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: THIS POINT IS USED TO INDICATE WHETHER THE DATA IS COMING FROM THE UNIT OR FROM THE SIMULATOR s t l

., ~ (Os -ERDS point number-2.- NI--POWER RNG UN2000 Reactor Power .s-Date: 12/02/91 J Reactor Unit: SE1 4 Data feeder:' 1 NRC ERDS Parameter: NI POWER RNG - Point ID: UN2000 -Plant Spec Point Desc: POWER RNG AVG Generic /Cond Desc: Reactor Power . Analog / Digital: A Engr Units / Dig States: Engr Units Conversion: 0-10V = 0-120% Power.(Linear) Minimum Instr Range: 0 Maximum Instr Range: _120 Zero Point'

Reference:

N/A 'Referenca Point Notes: N/A-PROC or SENS: P-Number of Sensors: E How Processed: AVG Sensor Locations: Upper & Lower excore detectors 3 Alarm / Trip Set Points: Rod Stop=103% ' Overpwr Reactor Trip =109% NID power. cutoff level: N/A - NID power cut-on level: N/A - Instrument Frilure Mode: Probable.Downscale (No forcing function) Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: From TSC Upper & Lower detection inputs for. 1-NE92-41,42,43,44. 9 i f i + ' 3 - il - }; e ~ 0 s, v. i.E4 e e a w

s ERDS -point number : 3. NI INTER RNG-UN1015 -Reactor Power -1 Intermediate Rng:- Date: 12/02/91 Reactor Unit: SE1 ~Datalfeeder: 1-DNRC ERDS harameter: NI INTER RNG - Point ID: UN1015 Plant Spec Point Desc: INTER RNG FLUX (LOG) LGeneric/Cond Desc: Reactor Power Intermediate Rng. Analog / Digital: A -Engr Units / Dig States:- LOGPC Engr Units-Conversion: OUTPUT (V) = [ LOG (% Power) ) +8 Minimum Instr Range: -8 Maximum Instr Range: 2;301 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: AVG Sensor Locations: AZ 0-deg & 180 deg Excore Alarm / Trip 1 Set Points: Rod Stop - 20%,' Reactor Trip - 25% Pwr NID power cutoff level: N/A NID power cut-on level: N/A l Instrument Failure Mode: Probable Downscale-'(no forcing function) _ Temperature Compensation: N -Level Reference Leg: -N/A Unique System Desc: Avg of XI-92-5003 (channel' N35) and 5004 (channel N36)' i-M 9 E e ~~

l l ERDS point number 4. NI SOURC RNG UN1014 Reactor Power - Source Range I, Date: 12/02/91 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: NI SOURC ENG Point ID: UN1014 Plant Spec Point Desc: Source Range Flux (Log) Generic /Cond Desc: Reactor Power - Source Range Analog / Digital: A Engr Units / Dig States: CPS Engr Units Conversion: OUTPUT (V)=[ Log (CPS)]*l.667 Minimum Instr Range: 10E0 Maximum Instr Range: 10E6 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P ( Number of Sensors: 4 How Processed: Avg. Sensor Locations: AZ 0 deg. & 180 deg. Excore Alarm / Trip Set Points: Reactor Trip - 10E5 CPS NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Probable Downscale (No forcing function) Temperature Cottpensation: N Level Reference Leg: N/A Unique System Desc: Avg of XI-92-5001(channel N31) & 5002 (channel N32) Detectors (2 chambers / detector) _ _ _ _ _ - - - _ _ _ _ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ' - ' - - - - - - - - - ^ ~ ' - - " - - - - - ' - - - - - ' - - - - ' " ~ ~ ~ - - - - - - - - - ^ - - - ' - - - - - - - - ' - - - ' '

= ERDS point number. 5. REAC VES LEV-UL6000 Reactor Vessel Water-Level-1 ~ -Date: 12/02/91 Reactor Unit:1 ~

SEl=

Data feeders- 'NRC ERDS Parameters- - REAC VES LEV- -Point ID: UL6000 . Plant Spec Point Desc: RVLIS LOWER RANGE AVERAGE-Generic /Cond Desc:- -Reactor Vessel Water Level Analog / Digital: A ~ Engr Units / Dig States: Engr Units Conversion: N/A Minimum-Instr Range: .O JMaximum Instr Range: '70 Zero Point

Reference:

307 BOT Reference Point Notes: -TAF = 62% ' PROC or1SENS: P -Number-of Sensors: 2 How-Processed: Average Sensor Locations: Remote location in the Penetration' Rooms Alarm / Trip Set Points: High at 50 % Low at 0% NID power' cutoff level: N/A NID power cut-on level: N/A ~ Instrument Failure Mode: Out of Range-Temperature Compensation: Y' ' Level Reference Leg: WET-I '"nfqu; D,.,tsm Desc: This is the lower range. portion of the 3r vessel level' indication. The lower range-provides-indication:of the reactor vessel level---from.the bottom-of the vessel to'the' hot leg during natural circulation conditions. Average;of l-LM-68-368E and -371E.. Top of core =61;7%. e e-3 j. a w P 1 k.- .1,,

ERDS} point' number--6. . TEMP' CORE EX.' UT1003 -Highest Core Exit. Temperature-I Dated 12/02/91 Reactor Unit: SE11 .i Data feeder: NRC ERDS Parameter:- -TEMP CORE EX Point ID: UT1003

Plant Spec-Point Desc

CORE-EXIT TEMP MAX j ' Generic /Cond Desc: Highest Core Exit Temperature Analog / Digital: -A i -Engr Units / Dig States: DEGF-i -Engr Units Conversion: TYPE K TC Table Minimum Instr Range: 0 1 Maximum--Instr Range: 700 Zero Point

Reference:

'N/A t Reference Point Notes: N/A PROC or SENS: P Number of Sensors: .59 How Processed: HIGHEST Sensor Locations: Throughout core ' Alarm / Trip Set Points: High at 700 DEGF Low at 0 DEGF NID. power cutoff level: N/A NID power cut-on level: N/A i . Instrument Failure Mc.,:e Eliminates open TC's

?

Temperature Compensation: N.

Level Reference Leg

N/A . Unique System Desc: INCORE Thermocouples processed through "Exosensor" system.' The system is divisionali::ed into 2.- divisions. -Total of f 60 elements with one TC inoperable. - The numeric is = the-high-er of 1-XM-94-103-69 and 1-XM-94-103-75. M 5 I i L I i a-N '1 1 t . -. ~

a t ERDS; point number! 7.1 - SUB MARGIN UT1005 isaturation Temp.;--Highest CET i Dates" -. .12/02/91 Reactor Unit:- SE1 -Data-feeder: -l' 4 .NRC ERDS-Parameters-SUB MARGIN- -- Point-ID: UT1005- ? Plant Spec Point Desc: MIN SUBCOOL- . Generic /Cond Desc: Saturation Temp. - Highest CET-Analog /Digitalt -: A ' Engr Units / Dig States: DEGF Engr Units Conversion: TYPE K TC Table Minimum Instr Range: 0 - i ~ Maximum Instr Range: 700 Zero Point Reference - N/A Reference Point Notes: N/A PROC or SENS: P -Namber of Sensors: 59 How Processed: Highest Sensor Locations: Throughout Core ! Alarm / Trip Set Points: Low at-15 DEGF, High at 130 DEGF NID power cutoff level: N/A ENID power cut-on-level: .N/A-1 Instrument Failure Mode: Eliminates open TC's -Temperature compensation: N ' Level Reference Leg N/A . Unique System Dese: INCORE Thermoccuples processed through "Exosensor"' System.. The system is divisionalized into-2 divisions. ' Total of-60 TC with one TC inoperable. k pi f 1 F l' s 4 c ,*f ^ e gr n g

ERDS point number 8. SG LEVEL 1/A UL1001 Steam Generator 1. Water Level Date: 12/02/91 Reactor Unit: SE1 -Data feeder: 1 . NRC ERDS Parameter: SG LEVEL 1/A Point ID: UL1001 Plant Spec Point Desc: SG 1 NR LEVEL AVG Generic /Cond Desc: Steam Generator 1 Water Level Analog / Digital: A Engr Units / Dig States: Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 100 Zero Point

Reference:

Notes Reference Point Notes: Above "U" tubes PROC or SENS: P Number of Sensors: 2 How Processed: Average Sensor Locations: Remote locat outside of Polar Crane Wall Alarm / Trip Set Points: Low at 25 %, High at 70 % NID power cutoff level: N/A NID power cut-on level: N/A Instrument rail"re Mode: Out of Range Temperature Compensation: Y Level Reference 'eg: WET Unique System Dtic: Steam Generator #1 Water Level. Average of 1-LT-3-39 and -42 0-100% span on SG narrow range level transmitters corre-pond to 75-100% span on the wide range level instrumentation Top of "U" tubes is approximately 71% on the wide range. Therefore, the entire narrow range span is above the "U" tubes. ~ h Ii t l q so i. hw

1 ~..... ~,,, - ~. i ERDS point,numbe'r. 9.. SG LEVEL 2/B. UL1002 . Steam Generator 2 Water Level. -.Date - 12/02/91

- ReactorL Unit

-SE1 -Data feeder: 1 NRC'ERDS Parameter: - SG : LEVEL 2/B : i -Point ID: .UL1002 Plant Spec Point Desc SG 2 NR LEVEL AVG -Generic /Cond.Desc: Steam Geno::ator 2 Water Level Analog / Digital: A Engr Units / Dig States: -Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 100 Zero Point

Reference:

Notes -Reference Point Notes: Above "U" tub'es PROC or SENS: P-Number of Sensors: 2 How-Processed: Average-Sensor Locations: Remote locat outside of Polar Crane Wall 4 Alarm / Trip Set Points: Low'at 25 %, High at 70 %- NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Out of Range . Temperature Compensation: Y Level Reference Leg: WET- . Unique System Desc: Steam Generator #2 Water Level.-Average of 1-LT-3-52 and -55 0-100% span on SG narrow range level-transmitters'corres - pond to 75-100%. span on the wide range: level instrumentation Top of="U" tubes is approximately_71t_on the' wide' range. Therefore, the entire narrow range span is above,the:"U" tubes. t f, o t 4 4 y

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m ~ -ERDS' point number:10.:- SG. LEVEL 3/C UL1003) Steam Generator 3 Water _Levbl Siy Date: 12/02/91 Reactor Unit: -.SE1 - Data-^ feeder: 1 - NRC=ERDS Parameter: $G LEVEL 3/C-Point--ID: UL1003

Plant-Spec Point Desc:

SG 3 NR LEVEL AVG -s_.

Generic /Cond Desc

Steam Generator 3 Water-Level- -Analog / Digital: A l Engr _ Units / Dig St-ates: Engr Units Conversion: N/A J Minimum Instr Range: 0 -1 Maximum Instr Range: 100 Zero Point

Reference:

NotesN Reference. Point Notes: Above "U" tubes PROC or SENS: P Number of Sensors: 2 How-Processed: AVERAGE Sensor-Locations: Remote locat outside of Polar Crane Wall- ' Alarm / Trip Set Points: Low-at 25 %, High at 70 % NID power cutoff level: N/A' NID power' cut-on level: N/A Instrument Failure Mode: out of Range- + . Temperature Compensation: Y Level Reference Leg: WET LUnique System Desc: Steam Generator #3 Water Level. Average _of-1-LT-3-94'and -97> 0-100% span on LG narrow range lavel transmitters-corres ~ ' pond to 75-100% span on the wide range level instrumentation-Top of "U" tubes is approximately 71%.on.the wide ~ range. Therefore, the entire narrow 1 range span'is-above the "U" - 1 tubes. f P 4 4 r-- 4 5 b d y 4 +- w iew-

n. 25 ^

ERDS' point number--11.

SG LEVEL 4/D 'UL1004 ~ Steam Generator:4 Water l Level: Dates: 12/02/91- ~ Reactor Unit -- SE1 --Data feeder: -l URC ERDS Parameter: SG LEVEL-4/D 1Pofnt ID: --. UL1004 iPlant: Spec _ Point _Desc: SG 4 NR LEVEL ~ AVG EGeneric/Cond -Desc - Steam Generator 4 Water Level. -Analog / Digital: A l Engr Units / Dig States: Engr Units Conversion: N/A. y -Minimum Instr Range: 0-3: Maximum Instr Range: 100 ~"ero Point

Reference:

Notes heference Point Notes: Above "U" tubes PROC or-SENS: P

Number-of Sensors:

2 How Processed: AVERAGE-Sensor Locations: Remote. locat outside of Polar Crane Wall Alarm / Trip Set Points: Low at 25 %, High at 70 %- NID power cutoff level: N/A NID-power cut-on level: N/A Instrument Fellure Mode: Out o f Ra n g" Temperature Compenaatiom Y .i Level Reference Leg: WET Uniq,a System Desc: Steam Generator #4 Water Level. Average of-1-LT-3-107 and -110. 0-100% span on~SG na' row range' level transmitters r corresponds to 75-100% span on mentation ~. Top of "U" tubes is the. wide range level instru-approximately.71%: on the wide range. Therefore, the entire narrow range span is abovo the "U" tubese W [' e L

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<rn.g .yv-- m res ,e-4'a. n r s

ERDS point number 12. SG PRESS 1/A UP1002 Steam Generator 1 Pressure Date: 12/02/91 Reactor Unit: SE1 + Data feeder: 1 NRC ERDS Parameter: SG PRESS 1/A Point ID: UP1002 Plant Spec Point Dese: SG 1 MS PRESSURE AVG Generic /cond Desc: Steam Generator 1 Pressure Analog / Digital: A Engr Un.i's/ Dig States: PSIG Engr U. s Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range 1200 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: AVERAGE Sensor Locations: Remote Location in Penetration Room Alarm / Trip Set Points: Low at 600 PSIG, High at 1200 PSIG NID power cuteff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Out of Range Temperature Compensation: N Level Reference Leg: WET Unique System Desc: Steam Generator #1 Pressure. Average of 1-PT-1-2A and 1-PT-1-2B. i O J

[ ERDS point-number 13. - SG PRESS 2/Bt UP1003 Steam Generator 2 Pressure': ^-Dates. '12/02/91 i Rea ctor: Unit: -SE1 Data-feeder: 1- 'NRC.ERDS Parameter: SG' PRESS 2/B ~ Point.ID: UP1003 =- Plant: Spec Point Desc: 'SG 2 MS PRESSUflE AVG Generic /Cond Desc: Steam Generator 2. Pressure - -Analog / Digital: A t Engr Units / Dig States: PSIG Engr Units Conversion: N/A i . Minimum Instr Range: 0- -Haximum Instr Range: 1200-Zero' Point

Reference:

N/A Reference' Point Notes: N/A e PROC.or SENS: P . Number of-Sensors: 2 How Processed: AVERAGE Sensor Locations: Remote location in East Valve Room Alarm / Trip Set Points: Low at 600 PSIG, High at 1200 PSIG NID-power cutcff level: N/A -NID power' cut-on level: -Instrument-Failure-Mode: . N/A Out of. Range Temperature Compensation: N . Level' Reference Leg: WET Unique System Dese: fl Steam Generator #2 Pressure. - Average of 'l-PT-1-9A and 1-PT-1-9B. 9- _ + ..n - g-- 5 -g, __3 i-h .q .f' i+ ' 'y.: ' {.- e ,w,~ ,.e.- a n. --cm L- ,,2--+- w,,. y 3 r

4; ,.ERDSLpoint number.14. SG PRESS 3/C'. UP1004~

Steam. Generator-3 Pressure.

1Date:L

12/02/91' Reactor Unit:

SE1

Data' feeder:

1 NRC ERDS-Parameter: SG PRESS 3/C Point ID: UP1004 Plant Spec Point Desc: SG.3 MS PRESSURE AVG. - Generic /Cond Desc: Steam Generator 3 Pressure-Analog /Digitalt. _ A 1 Engr Units / Dig States: PSIG Engr Units' Conversion: N/A 1 - Minimum Instr Range: 0 . Maximum Instr Ranger-1200

t

. Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 - How Processed: AVERAGE Sensor Location,a Remote Location in East Valve Room. Alarm / Trip Set Points: Low at 600 PSIG, High at 1200 PSIGL NID power cuto#f level: N/A ~ NID power cut-on level: N/A. Instrument Failure Mode: Out of Range - Temperature Compensation: N ~* Level l Reference Leg: WET-Unique System Desc: Steam Generator #3 Pressure. Average;of 1~PT-1420A and ~ 1-PT-1-20B. a I M, b JL r N u o 9 l.I. -

, -.. -, _. ~., _ m .q ; ~N ') 'ERDS point number 15. SG PRESS'4/D UP1005-Steam Generator:4 Pressure cReactor Units- ~12/02/91- 'Date: SE1 Data feeder:- 1 -NRC ERDS Parameter: !H; PRESS 4/D Point:ID: 'UP1005 Plant Spec Point-Desc SG 4 MS PRESSURE AVG Generic /Cond Dese: Steam Generator 4 Pressure' + Analog / Digital: A Engr Units / Dig States: PSIG ' Engr Units Conversion:- ~N/A Minimum Instr Range: 0 l Maximum Instr Range:. 1200 Zero Point

Reference:

N/A -Reference Point Notes: N/A PROC or SENS: P f Number. cf Sensors: 2 -How Processed: AVERAGE Sensor Locations: Remote location in Penetration Room Alarm / Trip Set Points: , Low at 600 PSIG, High at 1200 PSIG NID power cutoff level: N/A NID power cut-on level: N/A In trument. Failure Mode: Out of Range Temperature Compensation: N- ' Level Reference Leg: WET. Unique System Desc: - Steam Generator #4 Pressure. ' Average of 1-PT-1-27A' and.

q 1-PT-1-27B.

4 h M - l 4 5:- r 1 i l-L E l I?

p., p + ~ " v 7 a,y ~ ~ ~ - -

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4 R --i s s 1 ') ') fERDS point number 16. MN FD)FL 1/A - UF1000- - Stm Gen:1 Main.Feedwater' Fin .:.L' L Date:-- -12/02/91 i--Reactor' Unit: SE1

Data'fe ier:

1 'l -NRC ERDS Parameter: MN FD FL 1/A Point i-ID: : UF1000-

Plant-Spec Point Desc

.SG 1 N FLOW AVG -. Generic /Cond Desc: Stm Gen 1 Main Feedwater Flow 'I --Analog / Digital; A' Engr Units / Dig S: -.es: KBH . Engr Units Conversion: N/A-Minimum Instr Range: 0 Maximum Instr Range: '4500 Zero Point

Reference:

N/A Reference-Point Notos: N/A PROC or SENS: P Number of Sensors: 2 -How Processed: AVERAGE Sensor Locations: Stm Gen FW Line 1, Aux. Bldg Alarm / Trip Set Points: High at 4500 KBH Low at 0 KBH NIO power cutoff level: N/A NID power cut-on level: N/A . Instrument Failure-Mode: Out of Range + Temperature Compensation: Y Level Peference Leg: WET -t Unique System Desc: Steam Generatrc 1 Main Feedwater Flow. Average of_-_1-FT-3-35A-and 1-FT-3-35b. i +- d 5 + .L W W 5 6 e A-M m-w +=or--c o-w -Pw e r g-w-wr=..,y @ vrM. rrgy yv e 3 y

-e 1 L ---ERDS point number;17. MN FD FL 2/B UF1001 ':Stm Gen _2 Main-Feedwater Flow 1Date:: 12/02/91- .-Reactor Unit: SE1 Data feeder: 1..- NRC ERDS Parameter: iMN-FD FL 2/B Point ID --.. UF1001- ~ Plant Spec Point Desc: SG 2 FW FLOW AVG-Generic /Cond Desc: Stm Gen 2 Main Feedwater Flow -Analog / Digital: A Engr Units / Dig States: KBH-Engr-Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 4500 Zero Point

Reference:

N/A Reference Point Notes: N/A -PROC or SENS: P Number of Sensors: 2 How Processed: AVERAGE Sensor Locations: Stm Gen EW Line 2, Aux. Bldg Alarm / Trip Set Points: High at 4500,KBH Low at 0 KBH j NID power cutoff level: N/A .NID power cut-on level: N/A Instrament Failure Mode: Out of Range r Temperature Compensation: Y [ Level Reference Leg: WET Unique System Dese: -Steam Generator 2 Main Feedwater Flow.. Average of_1-FT-3-48A; and 1-FT-3-488.

i e

i \\ =... L A ( t i e 5

74

[ _ .- m.- ~.

ERDS point nunber 18. 101 FD FL 3/C UF1002 Stm Gen 3

• d n Feedwater Flow e

\\ bst.e ; 12/02/91 i %ad c cMt: SE1 Data feeder: 1 NRC ERDS Parameter: MN FD FL 3/C Point ID: UF1002 Plant Spec Point Desc: SG 3 FW FLOW AVG Generic /Cond Desc: Stm Gen 3 Main Feedwater Flow j %alog/ Digital: A Engr Units / Dig States: KBH Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 4500 Zero Point

Reference:

N/A Reference Point flotes: N/A PROC or SENS: P .9uiber of Sansors: 2 How Proce.gsed: AVERAGE Sensor Locations: Stm Gen FW Line 3, Aux. Bldg Alarm / Trip Set Points * "i,gh at 4500 KBH Low at 0 KBH i NID power cutoff level N/A HID power cut-on level N/A Instrument Failure Mode: Out of Range Tenperature Cvrapensation: Y Level Reference Leg WRT Unique System Deact Steam Generator 3 Main Feedwater Flow. Average of 1-f7-3-90A and 1-FT-3-90B. D 6 l l O i! I l

7 P - ERDS point nunber 19. MN FD FL 4/D UF1003 Stm Gen 4 Main Feedwater Flow 'Date 12/02/91 -Reactor Unit: SE1 j . Data feeder: 1 NRC ERDS Parameter: ?"N FD FL 4/D Point IDt UF1003 Plant Spec Point Desc SG 4 FW FLok AVG Generic /cond Dese: Stm Gen 4 Helin Feedwater Flow l . 5 Analog / Digital: A i Engr Units / Dig States KBH iAgr Urlits Conversion N/A i . Minimum Instr Rarage: 0 Maximurn Instr Range: 4500 Zero Po.At Reference N/A Reference Point Notes N/A i PROC or SEN9: P Number of Sensors: 2 Now Processot AVERAGE -Sensor Locations: Stm Gen IV Line 4, Aux. Bldg l Alarm / Trip Set Points: High at 4500 KBH Low at 0 KBH NID power cutoff level: N/A NID power cut-on level N/A Instrument Failure Mode Out of Range Temperatteo Compensation: Y Lovel Reference Legt YET i Unique System Desc Steam Generator 4 Main F< lwater Flow. Average of f 1-FT-3-103A and 1-FT-3-10 B. I ) [ ? e ? 5 t l -. l: J i

j

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{ ERDS point number 20. AX FW FL 1/A 1-FM3-163B Stm Gen 1 Auxiliary N Flow Date: 05/20/92 -Refetor Unit SE1 -Data feeder: 1 NRC ERDS Parameter: AX W FL 1/A Point ID: 1-FM3-163B Plant Spec Point Desc: STM GEN 1 AFW INLET FLOW Gener,4-/Cond Desc Stm Gen 1 Auxiliary W Flow Analog / Digital: A Engr Units / Dig States: GFM Engr Units Conversion: 1-5 VDC=0-440 GPM i Minimum Instr Range: 0 -1 Maximum Instr Range: 440 Zero Point

Reference:

N/A Reference Point Notes: N/A 5 PROC or SENS: S Number of Sensors: 1 . How Processed: N/A - Sensor Locations: Down Stream of MDAFW, TDAFW tie to S/G1 Alarm / Trip Set Points: No Alarms .\\ NID power cutoff level N/A NID power cut-on level N/A Instrument Failure Mode: Low I Temperature Compensation: N Level Reference Leg N/A Unique System Desc There are two electric and one turbine-driven A WPS.- Each' electric pump feeds two SG's and the turbine-driven pump o feods all four SG's. The electric and turbine-driven AFWPs share the same piping to each SG. The flow element is located in the shared piping, maximum rated flow for MDAFWPs and turbine-driven AFWP, is 440 and 880 gpm, respectively., k e .k I l. l-l ,2P ..-..,-_.._,__.._._..a.-_-_. __;..,._._,.;a a.- _-...... u 1,_ J...-..,-,

m -l l ERDS point number 21.. AX FW FL 2/B 1-fN3-155B Stm Gen 2' Auxiliary W Flow =Date: 05/20/92 ' I - Reactor Unit SE1 bata feeder: -1 HRC ERDS Parameter - AX W FL 2/B Point ID: 1-FM3-155+ Plant Spec Point Dese STM GEli ? VT 'NLET FLOW Generic /Cond Desc: Stm Gen

1. siary W Flow Analog / Digital:

A Engr Units / Dig States GPM Engr Units conversion: 1-5 VDC=0-440 GPM -- Minimum Instr Range 0 Maximum Instr Range: 440 Zero Point

Reference:

N/A - Beference Point Notes: N/A } PROC or SENSt-S Number of Sensors: 1 How Processed: N/A Sensor Locations: Downstream of MDAW, TDAW tie to S/G 2 i Alarm / Trip Set Points: No alarms .} NID power cutoff level N/A l HID power cut-on level N/A Instrument Failure Mode Low Temperature compensation: N Level Reference Leg: N/A Unique System Desc: There are two electric and one turbine-driven A W PS. Each r electric pump feeds two SG's and the turbine-driven pump-feeds all four SG's. The electric and turbine-driven AFWPs share the same piping to each SG. The flow element is located in the shared piping, maximum rated flow for 'i MDA WPs and turbire-driven AFWP, is 440 and 880 gpm, respectively, t 3 9 k 6 h ,,----N,m. n...n-n--,r- , -- w -Y ~ e. m. w N,,w-n-,L, w - e --+--,m de,e.., d.i'..,.., m, -.d i, e w,,-s,... +-m e,-: w :e,- A. ~.., ,,n,.

-. - -.~ ~_ ~ _. -. _ I ERDS point number 22. AX W FL 3/C 1-FM3-147B . Stm Gen 3 Auxiliary W-Flow-r Date: 05/20/92 Reactor Unit SE1 Data feeder: 1 NRC ERDS Pararuter: AX FW FL 3/C Point ID: 1-FM3-147B =i Plant Spec Point Dese: STM GEN 3 A N INLET FLOW I Generic /Cond Desc: Stm Gen 3 Auxiliary W Flow i Analog / Digital: A Engr Units / Dig States: GPM Engr Units Conversion: 1-$ VDC=0-440 GPM Minimum Instr Range: 0 [ Maximum Instr Range: 440 Zero Point

Reference:

N/A t Reference Point Notes: N/A J PROC or SENS: S l Humber of Sensors: 1 How Processed: N/A -r Sensor Locations: Downstream of MDAW,TDAW tie to S/G 3 Alarm / Trip Set Pointst No Alarms NID power cutoff level: N/A F NID power cut-on level: N/A Instrument Failure Mode: Low l Temperature Compensation: N Level Reference Leg N/A Unique System Desc: There are two electric and'one turbine-driven AFWPS. Ei :h electric pump feeds two SG's and the turbine-driven pump - feeds all four SG's. The electric and turbine-driven AFWPa share the same piping to each SG. The flow element is located in the shared piping, maximum rated flow for MDAWPs and turbine-driven AWP, is 440 and 880 gpm, respectively. U L V di i V i$ ll r .[ .a ~ . a.- ~. ~,.~,_a, .~.. .., - -,,,, ~. -, -, -. -.., +,,

ER7S point nunter 23. AX FW FL 4/D 1-FM3-170B Stm Gen 4 Auxiliary PW Flow Date: 05/20/92 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: AX IV FL 4/D Point ID: 1-FM3-170B Plant Spec Point Desc: STM GEN 4 AFW INLET FLOW Generic /Cond Desc: Stm Gen 4 Auxiliary FW Flow Analog / Digital: A Engr Units / Dig States: GPM Engr Units conversion: 1-5 VDC=0-4MO GFM Minimum Instr Range: 0 Maximum Instr Range: 440 Zero Point

Reference:

N/A Refsrence Point Notes: N/A PROC or SENS: S Nunber of Sensors: 1 How Processed: N/A Sensor Locations: Downstream of MDAFW,TDAPW tie to S/G 4 Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A MID power cut-on level: N/A Instrument Failure Mode: Low Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: There are two electric and one turbine-driv. AFWPS. Each electric pump feeds two SG's and the turbi-driven pump feeds all four SG's. The electric and tui: ' u-driven AFWPs share the same piping to each SG. T:~ flow element is located in the shared piping, maximum rated flow for MDAPWPs_and Turbine-driven APWP, is 440 and 880 gpm, respectively. __.______m_.____._____._._

m. i ERDS point number 24. HL TEMP 1/A 1-TM69-1B' Stm Gen 1 Inlet Temperature 3 Date: 05/20/92-Reactor Unit: SE1 . i ? Data feeder: 1 NRC ERDS Parameter: HL TEMP 1/A Point ID: 1-TM68-1B Plant Spec Point Desc LP 1 HL WID FliG TEMP . i Generic /Cond Desc Stm Gen 1 Inlet Temperature \\ Analog / Digital: A Engr Units / Dig States DEGF Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 Maximum Instr Range 700 Zero Point Referencet N/A Reference Point Hotes: N/A f PROC or SENS: S . Number of Sensors: 1 l How Processed: N/A Sensor Locations: On Loop 1 RCS hot leg piping . 1 Alarm / Trip Set Points: No Alarms ~ HID power cutoff level N/A NID power cut..m-Icvell N/A Instrument Fain.re Mode: Low g Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: RCS hot leg temperature is used in event recovery to -provide information for manual control of RCS temperature, control of the ECCS pumps and RCPs,.and verifying natural circulation or increase blow down. The temperature indication is also used to control RCS pressure and temperature within required limits. d' B I I t %-r ,,,,e ,...s 9,.,,, ,,.,y ,,..w,4

ERDS point nunber 25. IIL TEMP 2/B l-TM68-24B Stm Gen 2 Inlet Temperature Date: 05/20/92 Reactor Unit: SE1 Data feeder: 1 11RC ER?T Parameters llL TEMP 2/B Point ID: 1-TM68-24B Plant Spec Point Desc: LP 2 HL WID RNG TEMP Genetic /Cond Pesc: Stm Gen 2 Inlet Temperature Analog / Digital: A Engr Units / Dig States: DEGF Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 Maximum Instr Range: 700 Zero Point

Reference:

N/A Reference Point flotes: N/A PROC or SENS: S 11 umber of Sensors: 1 llow Processed: 11/A Sensor Locations: On loop 2 RCS Hot Leg Piping Alarm / Trip Set Prints: No Alarms NID power cutoff level: N/A NID power cut-on level: 11/A Instrument Pailure Mode: Low Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: RCS hot leg temperature is used in event recovery to provide information for manual control of RCS temperature, control of the ECCS pumps and RCPs, and verifying natural circulation or increase blow down. The temperature indication is also used to control RCS pressure and temp. within required limits.

---

._---__m____,.____.____._____.m_______._______

ERDS' point nunber 26. HL TEMP 3/C 1-TM60-43B Stm Gen 3: Inlet Temperature i Date: 05/20/92-keactor Unit: SE1 Data feeders 1 NRC ERDS Parameter HL TEMP 3/C Point ID: 1-TM68-43B Plant Spec Point Desc LP 3 HL WID PNG TEMP -Generic /Cond Desc Stm Gen 3 Inlet Temperature Analog / Digital: A Engr Units / Dig States: DEGF Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 i Maximum Instr Range 700 Zero Point Reference N/A ~ Referenco Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: N/A Sensor Locations: On loop 3 RCS Hot Leg Piping Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A NID powor cut-on level: N/A Instrument Failure Mode Low Temperature Compensation: N Level Reference Leg N/A Unique System Desc: RCS hot leg temp. is used in event recovery to proElde t infonnation for manual control of RCS temperature, control of the ECCS pumps and RCPs, and verifying natural circulation or increase blow down. The temperature indication is also used to control RCS pressure and temp. within required limits. m e i + I

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_,4 ERDS point number 27. HL TEMF 4/D 1-TM68-65B Stm Gen 4 Inlet Temperature j Date: 05/20/92 Reactor Unit SE1 Data feeder: 1-i NRC ERDS Parameter HL TEMP 4/D l Point ID: 1-TM68-65B Plant Spec Point Desc: LP 4 FL WID PJ1G TEMP Generic /Cond Desc: Stm Gen 4 Inlet Temperature l . Analog / Digital: A Engr Units / Dig States DEGF Engr Units Conversion: 1-5 VDC=0-700 DEGF ' E nimum Instr Range: 0 Maximum Instr Range: 700 l 'Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: -S Number of Sensors: 1 ^ How Processed: N/A Sensor Locations: On loop 4 RCS Hot Leg Piping Alarm / Trip Set Points: No Alarms NID power cutoff level N/A NID power cut-on level: N/A Inst'rument Failure Mode: Low -1 . Temperature Compensation: N -Level Reference Leg: N/A Unique System Desc RCS hot leg temperature is used in event recovery to provide information for manual control of RCS temperature, control of the ECCS pumps and RCPs, and verifying natural circulation or increase blow down..The temp. indication is also used to control'RCS pressure and temperature within required limits, F 4 ., k I I f f l 1 L i l =I ~ i 1.-.- ,e-- J,....,,,...,._.,;'

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_m _..-__-m ERDS point number 28. CL TEMP 1/A 1-TE68-18 Stm Gen 1 Outlet Temperature Date:- 05/20/92 Reactor Unit:- SE1 Data feeder: 1 NRC ERDS Parameter: CL TEMP 1/A Point IDt. 1-TE68-?8 Plant Spec Point Desc LP 1 CL WID RNG TEMP i Generic /Cond Desc: Stm Gen 1 Outlet Temperature i Analog / Digital: A Engr Units / Dig States: DEGP l Engr Units Conversion: 1-5 VDC=0-700 DEGF l Minimum Instr Range 0 Maximum.1nstr Range 700 Zero Point

Reference:

N/A _' Reference Point Notes: N/A i PROC or SENS: S Humber of Sensors: 1 How Processed: N/A Sensor Locations: On loop 1 RCS Cold Leg Piping Alarm / Trip Set Points: No Alarms NID power cutoff level N/A -NID power cut-on level N/A

Instrument Failure Mode:

Low Temperature Compensation: N . Level Reference Leg N/A .[ Unique System Desc RCS cold leg temperature is used in event recovery to f' maintain proper relationship between RCS pressure and temperature while cooling down, and providing information to manually control RCS temperature by controlling AIM flow,. steam generator pressuse, and RHR. The-temperature + indication is also used in maintaining stable plant conditions and verifying natural circulation. 2 i- .) I ": E l l-L r ( i-

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--y-.. i ERDS point. number 29. CL TEMP 2/B l-TE68-41 Stm Gen 2 Outlet Temperature- + Date: 05/20/92 l Reactor Unit: SE1 Data feeder: 1 i NRC ERDS Parameter CL TEMP 2/B Point ID: 1-TE68-41 Plant Spec Point Desc LP 2 CL WID RNG TEMP Generic /Cond Desc Stm Gen 2 Outlet Temperature-Analog / Digital: A i Engr Units / Dig States: DEGP i -Engr Units conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range 0 Maximum Instr Range: 700 Zero Point Reference N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: N/A Sensor Locations: On loop 2 RCS Cold Leg Piping Alarm / Trip Set Points: No Alarms NID power cutoff level N/A 1 NID power cut-on levelt N/A Instrument Failure Mode: Low Temperature Compensationi N Level Reference Leg: N/A ? Unique System Desc! RCS cold leg temperature is used in event recovery to maintain proper relationship between RCS pressure and temperature while cooling down, and providing'information manually control RCS temperature by controlling AFW flow, to-. steam generator pressure, and RHR. The temperature-indication is also used in maintaining stable plant. i conditions and verify natural circulation. F r l t + l u

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i h ERDS point number 30. CL TEMP 3/C 1-TE68-60 Stm Gen 3 outlet Temperature [ Date: 05/20/92 i Reactor Unit SE1 6 - Data feeder: 1 NRC ERDS Parameters CL TEMP 3/C Point ID: 1-TE68-60 Plant Spec Point Desc: LP 3 CL WID RNG TEMP l Generic /Cond Desc Stm Gen 3 Outlet Temperature Analog / Digital: A - Engr Units / Dig States: DEGF f Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range 0-3 Maximum Instr Range: 700 Zero Point

Reference:

N/A Reference Point Notes: N/A e m PROC or SENS: S Number of Sensors: 1 How Processed: N/A Sensor. Locations: On loop 3 RCS Cold Leg Piping Alarm / Trip Set Points: No Alarms = ; HID power cutoff level: N/A [ NID power cut-on level N/A i Instrument Failure Mode: Low f -Temperature compensation: N - Level Reference Leg: N/A a Unique System Desc: RCS Cold Leg Temperature is used in event recovery to maintain proper relationship between RCS pressure.and temperature while cooling dcwn, and providing inforucion to manually control RCS temperature by_ controlling. AW. flow, steam generator pressure, and RHR.. The temperature indication is also used in maintaining stable plant conditions and verify natural circulation. t ? I s v u I a-E '- my>r e--r-w ,r-eer--r,-, m k-., =m-v -mN, v ~ < -s prr.. wr-w,-.m n. w e'.- er i,n=ve t -vvie yr.iy y y -, wr-wy-3, v, w .e-v+ wev v -w,=m-+-ev rw -y-e y vve m r wm--r,,..yr wn-v -= y g~+=3,gr ,e-7 =-ye 4--m

ERDS point number 31. CL TEMP 4/D 1-TE68-83 Stm Gen 4 Outlet Temperaturo Date: 05/20/92 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: CL TEMP 4/D Foint ID: 1-TE68-83 Plant Spec Point Desc: LP 4 CL WID RNG TEMP Generic /Cond Desc: Stm Gen 4 Outlet Temperature Analog / Digital: A Engr Units / Dig States: DEGP Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 Maximum Instr Range: 700 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 llow Processed: N/A Sensor Locations: On loop 4 RCS Cold Leg Piping Alarm / Trip Set Pointe: No Alarna NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Low Temperature Compensation: N Level Peference Leg: N/A Unique System Dese: RCS Cold Leg temperature is used in event recovery to maintain proper relationship between RCS pressure and temp. while cooling down, and providing information to manually control RCS temperature by controlling ATW flow, steam generator pressure, and RHR. The temperature indication is also used in maintaining stable plant conditions and verify natural circulation. u

ERDS point number 132. RCS PRESSURE UP1000 Reactor Coolant System Pressure Date: 05/21/92 Reactor Unit: SE1 Data feeder: 1 1NRC ERDS Parameter: RCS PRESSURE Point ID: UP1000 Plant Spec Point Desc: RCS WIDE RNG PRESS AVG Generic /Cond Desc Reactor Coolant System Pressure -Analog / Digital: A Engr Units / Dig States: PSIG ' Engr Units Conversion: 1-5 VDC=0-3000 PSIG Minimum Instr Range: 0 Maximum Instr Range: 3000 Zero Point Reference N/A Reference Point Notes: N/A PROC or SENS: P -Number of Sensors: 3 How Processed: AVERAGE ' Sensor Locations: RCS Hot Legs 1,3,4 Alarm / Trip Set Points: Low 1865 PSIG RxTrip,High 2390 PSIG RxTr NID power cutoff level: N/A NID power cut-on level: 'N/A Instrument Failure Mode: Low -Temperature Compensation: N Level Reference Leg: N/A Unique System Desc RCS pressure detennined by this point isL the ' average of 3 - signals which maasure wide range hot leg pressures.- (1-PT-68-62, -6 and -68) RCS pressure indication is util-- ized by the operators to identify events for-SI actuation and te r mination, starting and stopping RHR pumps, : and' con-1 trolling cooldown to prevent PTS. The alarm trip setpoints- -l are actuated by pressurized pressure transmitters at the-given setpoints. +

ERDS point number 33. PRZR LEVEL UL1005 Primary System Pressurizer Level Date: 05/21/92 j Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: PRZR LEVEL Point ID: UL1005 Plant Spec Point Desc: PRZR LEV AVG Generic /Cond Desc: Primary System Pressurizer Level 1.nalog/ Digital: A Engr Units / Dig States: Engr Units Conversion: 61.6 gals /t at 552 Deg F and 2235 psia Minimum Instr Range: 0 Maximum Instr Range: 100 Zero Point

Reference:

Notes Reference Doint Notes: Top of Heater = 14% PROC or SENS: P Uumber of Sensors: 3 How Processed: Average Sensor Locations: TAPS from Pressurizer Alarm / Trip Set Points: High at 921 Rx Trip HID power cutoff level: N/A O HID power cut-on level: N/A Instrument Failure Mode: Low Temperature Compensation: N Level Reference Leg: WET Unique System Desc: The pressurizer level is an averaged signal from 3 level t ra ns mi t te r s. (1-LT-68-320, -335, -339) Zero reference is bottom of cylindrical shell. Approximately 63 cu ft of water remains in the pressurizer below zero reference at 652 Deg F and 2235 psia. Top of heater represents approximately 14% level. Heaters shutdown and letdown occur isolated at approximately 17% level.

. - -, ~ ~. . - ~ - ~ - ~ - - -. -. i ERDS point number 34. RCS CllG/MU UF1016 Primary System Charging / Hakeup = Date: 05/21/92 I Reactor Unit SE1 i Data feeder: 1 i { NRC ERDS Parameter RCS CHG/HU ~ ; Point ID: UF1010 Plant Spec Point Desc: NET CllG FLO t Generic /Cond Desc Primary System Charging / Hakeup 7 t Analog / Digital: A Engr Units / Dig States: GPM Engr Units Conversion: N/A Minimum Instr Range -200 Haximum Instr Range: 176 Zero Point

Reference:

N/A 3 Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 6 How Processed: Subtraction + Sensor Locations: COP Pmp, RCP Seal / Leakoff, RCS Letdown Alarm / Trip Set Points: No Alarms i NID power cutoff level N/A NID power cut-on level N/A Instrument Failure Mode: Multiple due to number of sensors Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: The net charging flow is calculated by-subtracting RCP seal return, and CVCS letdown flow from the discharge flow of the. charging pump. The design charging flow is between 55 and 100 GPM during normal operation. i l i i 1-1 .ju; t 1 i 6 l'- -j. 1i f V

.~. - =. - -. ~. ... ~. - ERDS point nunber 35. HP SI Flow UF1010 High Pressure Safety.Inj. Flow l j. Date: 05/21/92 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: HP SI FLOW Point ID: UF1010 i Plant Spec Point Desc: S1 FLOW TOTAL Generic /Cond Desc High Pressure Safety Inj. Flow Analog /Digitalt A Engr Units / Dig States: GPM Engr Units Conversion: N/A Minimum Instr Rango: 0 Maximum Instr Rangei 1600 Zero Point Reference N/A Reference Point Notes: N/A PROC or SD1S P l Humber of Sensors: 2 i How Processed: Sum Sensor Locations!. Discharge of Safety Injection Pumps Alarm / Trip Set Points: No Alarms V HID power cutoff-level N/A -NID power cut-on level N/A Instrument Failure Modo: Low Tenperature Compensation: N Level Reference Leg: N/A I e Unique System Desc: The total flow is measured by adding the discharge flow rates from two Safety Injection Pumps. The total accident-flow rates for cold log injection or-recirculation and hot le recirculation can be monitored by this point. Safety. In ection Pumps on miniflow will not show flow since mi iflow path is upstream of flow element. The' design flow rate is 425 GPM 0 2500 ft of head for=each SI Pump. (Sum of 1-FT-63-20 and -151) I J t t -k j. i l^ .-~u . ~..... -. a : .. ~. .a ,-...a

l ERDS point nurbor 37. CNTMT SMP WR UL1011 Containment Surp Wide Rng Lvl Datet 05/20/92 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: CNTMT SMP WR Point ID: UL1011 Plant Spec Point Desc: C11TMT SUMP LEV AVG Generic /Cond Desc: Containment Sump Wide Rng Lvl Analog / Digital: A Engr Units / Dig States: 1 Engr Units Conversion: 1t=2.4 inches of water Minimum Ir-tr Range: 0 Maximum ,tr Range: 100 Zero Point

Reference:

CNTFLR Reference Point !!otes : The containment floor is elevation 680 PROC or sells: P !!urber of Sensors: 4 How Processed: Average, Redundant Sensor Algorithm Sensor Locations: Containment Sump Alarm / Trip Set Points: lit Containment surp Swapover !!ID power cutof f level: N/A !!ID power cut-on level: N/A Instrument Failure Mode: Low Temperature Compensation: N 1.evel Reference Leg: 11/A The containment average sump level is calculated by a Unique System Desc: redundant sensor algorithm using four sump level transmitters. LT-63-176, -177, -178, and -179. Gallons /% level varies with level in a nearly linear relationship. The transfer from RWST to containment sump setpoint is 11%, which is approximately 2.5 feet above containment floor elevation (78,000 gallons)

......~ . - - ~.. ~... .. _... - _ ~ _. -.. -. -. - - ~- t i ERDS point number 38. EFF GAS RAD l-PJi90-400 Release Rt of Radioactive Gases Date: 12/02/91 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Paramete : EFT GAS RAD t Point ID: 1-PJ490-4 00 Plant Spec Point Dese: Unit 1 Shield Bldg Release Rate Generic /Cond Desc Release Rt of Radioactive Gases Analog / Digital: A + Engr Units / Dig States: uCi/sec Engr Units Conversion: N/A Minimum Instr Range: 10E-2 uci/sec Maximum Instr Range: 10E10 uti/sec Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: S -f Number of Sensors: 1 How Processed: Sampled Totalized times flow rate Sensor Locations: Auxiliary Bldg Alarm / Trip Set Points: 31,000 uCi/sec NID power cutoff level N/A NID power cut-on level N/A Instrument Failure Mode: Low on Loss of power Temperature Compensation: N 'l Level Reference Log N/A Unique System Desc: Unit I shield Bldg Exhaust. To obtain true release rate, Unit 2 monitor must also be checked. Flow path for Unit 1 1 can be either the Unit 1 or the Unit 2 stack. l I e f ? b

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.. =. - - ERDS point number 39. EFF GAS PAD 2-PJ490-400 Release Rt.'of Radiaactive Gases Date 12/02/91 Reactor Unit SE1 Data feeder: 1 NRC ERDS Parameter: EFF GAS PAD Point ID: 2-RM90-400 Plant S ec Point Dese Unit 2 Shield Bldg Release Rate Generic Cond Desc Release Rt. of Radioactive Cases Analog / Digital: A Engr Units / Dig States: uCi/see Engr Units Conversion: N/A - Minimum Instr Range: 10E-2 uCi/sec Maximum Instr Range 10E10 uCi/sec Zero Point References N/A Reference Point flotes: N/A PROC or SENS: P Number of Sensors: 3 How Processed: Sampled Totalired times flow rate Sensor Locations: Auxiliary Bldg Alarm / Trip Set Points: 31,000 uCi/sec NID power cutoff level: N/A HID-power cut-on level N/A Instrument Failure Mode: Low on Loss of Power Temperature Compensation: N ' t Level Reference Leg N/A Unit 2 shield bldg exhaust. To obtain true release rate,-- Unique System Desc: Unit 1 monitor must also be checked. Flow path for Unit-1 can be either the Unit 1 or the Unit 2 stack. 4 4 w 'I i I 1 t i-I p 4 .-r-.* .~.w.~ <--,_o ,.m. ......,4----..-..-%,--~.-_..w,.--, -e w ,-m,,. .-4m..,,,-r. --.v. ,m,_,#.. y,.n,-,., e. w y.w -e-

ERDS point number 40. EFF LIQ PAD 0-RE90-122 Radioactivity of Releassd Liquid I Dates 12/02/91 Reactor Unit SE1 l . Data feeder: 1 NRC ERDS Parameter EFF LIQ RAD Point ID: 0-RE90-122 - Plant Spec Point Desc: WDS Liquid Effluent Generic /Cond Desc -Radioactivity of Released Liquid Analog / Digital: A Engr Units / Dig States: CPM Engr Units Conversion: N/A Minimum Instr Range: 10E0 CPM Maximum Instr Range: 10E7 CPM Zero Point Reference N/A Reference Point Notes: N/A PROC or SENS: S Humber of Sensors: 1 How Processed: Sum - Sensor Locations: Auxiliary Bldg Alarm / Trip Set Points: Variable NID power cutoff level N/A NID power cut-on level: N/A -. Instrument Failure Mode: Low on loss of power - i ~ . Temperature Compensation: N Level Reference Leg: N/A Unique Syr.em Desc: Waste Disposal S stem Liquid Effluent This computer po nt is in counts per minute. t y y ? 4 --w .,.--e.m. ,ec., ....,4, .,,m ,-m..t ~, - m..- ,-y y

.. -. ~ - _.... ... _ ~ l I 1 ERDS point number 41. COND A/E PAD UR1006. Cond Air Ejector Radioactivity-l 12/02/91 i Date - SE1 Reactor Unitt Data feeder: 1 NRC ERDS Parametert COND A/E RAD e Point ID UR1006 ec Point Desc Low Range COND VAC PUMP AIR EXH RAD MON = ' Plant Sp/Cond Descs Cond Air Ejector Radioactivity I Generic Analog / Digital A Engr Units / Dig States uCi/sec Engr Units Conversion: N/A Minimum Instr Ranget .17E+39 Maximum Instr Rangos .17E+39 ~, Zero Point Referencet N/A Reference Point Hotes: N/A -i PROC or SENSt-P Number of Sensors: 2 r How Processed Cond Flow

• Dose Sensor Locations:

furbine Bldg Alarm / Trip Set Points: Variable t> HID power cutoff levelt N/A HID power cut-on levtli N/A ~ . Instrument Failure Modo: Low on loss of power-Temperature Compensation: N Level Reference Leg: N/A Unique System Desc Condensu-Air Ejector Noble Gas Monitor i t This is one of three computer points needed to cover full f range. This point uses inputs from 1-F'"2-256 and 1-RE90-119 to compute dose rates. T Y b T 1 .t 1 5 n. .. ~ - -. .a. ..c... _,,._.,2- _ u.a...,_.,..;..m..,.... a. -.,

._m -. - _- -. _. _ _ _.. _. ~.. i ERDS point number 42. COND A/E RAD UR1007 Cond Air Ejector Radioactivity' I Date: 12/02/91 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: COND A/E PAD Point ID: UR1007 ' Plant Spec Point Desc Mid Rng COND VAC PUMP AIR EXH RAD MON Generic /Cond Desc: Cond Air Ejector Radioactivity Analog / Digital: A Engr Units / Dig States: uCi/sec Engr Units Conversion: N/A .l Minimum Instr Range: .17E+39 Maximum Instr Range: .17E+39 i Zero Foint

Reference:

N/A J a Reference Point Notes: N/A i l PROC or SENS: P Number of Sensors: 2 - How Processed: COND FLOW

• DOSE l

Sensor Locations: Turbine Bldg. Alarm / Trip Set Points: Variable UID power cutoff level: N/A i ! ID power cut-on level: N/A Instrument Failure Mode: Low on Loss of-Power Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Condenser Air Ejector Noble Gas Monitor This is one of three co:rputer points needed to cover full-range. This point uses inputs from 1-FT2-256 & 1-RE90-99 to compute dose rates. ? . em T I -s + 'w-s 34--,,+,-.-%.., ~4 y, w,e,.~+c, ,m,,,., r.m._%,,,. u, m..,,.. -,-v. e'. r 'r - E

• cvO - - --

l ERDS point number-43. COND A/E PAD UR1008 cond Air Ejector Radioactivity i 12/02/91 Dates SEl. Reactor Unit Data feeder: 1 NRC ERDS Parameter COND A/E RAD i Point ID: UR1008 1 Plant Spec Point Desc High Rng COND VAC PUMP AIR EXH PAD MON Generic /Cond Dese: Cond Air Ejector Radioactivity Analog / Digital: A Engr Units / Dig States: -uCi/sec Engr Units Conversion: N/A Minimum Instr Ranger .l?E+39 . c - Maximum Instr Range .17E+39 Zero Point

Reference:

N/A Reference Point Notes: N/A ] PROC or SENS: P Number of Sensors: 2 4 How Processed: COND FLOW

• DOSE Sensor Locations:

Turbine B)dg Alarm / Trip Set Poi '.s: Variable NID power cutoff level: N/A JID power cut-on level N/A Instrument Failure Mode: Low on Loss of Power i Temperature Compensation: N Level Reference Leg: N/A Unique System Desc Condenser Air Ejector Noble Gas Monitor This is one of three computer points needed to cover full range. - This point uses inputs from 1-PT2-256 s 1-RE90-404B to compute dose rates. t ~ h P i + _r h } i = I s L'Ij r -~,<-e -*-,ew - su tw--- wm=- v --w* -r -wr'----nv v -r T-1 + e 1 f * 'v*'w' v' e 'A'

ERDS point nunber 44. CNTMNT RAD UR6021 Containment Radiation Level Date: 12/02/91 Reactor Unit SE1 Data feeders 1 NRC ERDS Paramotor: CNTMNT RAD Point ID UR6021 Plant Spec Point Deses UPPER CONTAINMENT RADIATION i Generic /Cond Desc: Containment Radiation Level Analog / Digital: A Engr Units / Dig States: R/ hour Engr Units Conversion: N/A Minimum Instr Range 10E0 R/ hour Maximum Instr Range: 10E8 R/ hour .e 8 Zero Point

Reference:

N/A -Reference Point Notes: N/A PROC or SENS: F - Number of Sensors: 2 ~, How Processed: Average Sensor Locations: Upper Containment Alarm / Trip' Set Points: 100 R/ hour NID power cutoff level: N/A NID power-cut-on level: N/A Instrument Failure Mode: Low on Loss of Power Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Upper Containment High Range Area Monitors Inputs are 1-RE90-271 & 1-RE90-272. ) { ~

. }

I I i I < t ,s.'. ~m.,-

• n-rrr

..,,.....,s%i 3 %' 4. E 'e ' -, A + -re-,-,--,.- ,_.,g.,-,m ,y, - ~e y e -,, ,hw3 y y-e.h Y. Je

-....~ -- . ~. =.. - _. a BRDS point _ number 45. CNTICIT RAD UR6022 Lower Containment Radiation Lvl ~ Date: 12/02/91 i Reactor Unit SE1 Data feeder: 1. -NRC ERDS Parameter: CNTMNT RAD 7 Point ID: UR6022 Plant Spec Point Desc LOWER CONTAINMENT RADIATION Generic /Cond Desc Lower Containment Radiation Lvl-Analog / Digital: A Engr Units / Dig States: R/ hour Engr Units Conversion: N/A Minimum Instr Range: 10E0 R/ hour Maximum Instr Range: 10E8 R/ hour Zero Point

Reference:

N/A Beference Point Hotes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: Average Sensor Locations: Lower Containment Alarm / Trip Set Points: 100 R/ hour dTD power cutoff level N/A NID power cut-on-level: N/A Instrument Failure Mode Low on Loss of Power-Temperature Compensation: N Level Reference Lcg N/A Unique System Desc Lower Containment High Range Area Monitor-f Inputs are 1-RE90-273 and 1-RE90-274. 1 0 0 I J .. cc - _ _. _... _ _., _,. -.-,. ,m .a_,,,,.m.- .,__..,a.-.., -._..-,.-,,,.-,,,r,,,, s v.,-

ERDS point number 46. MAIN SL 1/A UR1001 Stm Gen 1 Steam Line Rad Level i Date: 12/02/91 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: MAIN SL 1/A Point ID: UR1001 Plant Spec Point Dese: MN STEAM LINE 1 RAD LEV Generic /Cond Dese: Stm Gen 1 Steam Line Rad Level Analog / Digital: A Engr Units / Dig States: uCi/sec Engr Units Conversion: N/A Minimum Instr Range: .17E+39 Maximum Instr Range: .17E+39 Zero Point

Reference:

N/A Reference Point Notes: N/A ~ PROC or SENS: P Number of Sensors: 2 How Processed: Sampled Totalized Sensor Locations: Main Steam Line prior to ATM reliefs Alarm / Trip Set Points: 8.5

• 10E-3 NID power cutoff level:

N/A NID power cut-on level: N/A Instrument Failure Mode: Low on loss of power Temperature Compensation: N Level Re.'erence Leg: N/A Unique System Desc: Main Steam Line #1 Radioactivity Monitor This value is calculated as the product of main steam line release rate,. steam radioactivity, specific vol. of steam, and a m4 version constant. The PORV's for each steam genarator are monitored. If a PORV is 'NOT CLOSED', this vlv is assumed to contribute 890000 lb/hr flow to atmosphere. There are 5 code safety valves for each S/G. The main steam line header pressure is monitored to determ-ine condition of each valve. Each open valve contributes 890000 lb/hr to flow rate. (Rad Mon 1-RM-90-421)

.~ .ERDS~ point number _47.

NAIN SLL2/3 UR1002

--Stm' Gen 2' Steam Line Rad Level-- [ Da'te 12/02/91 . Reactor Unit: SE1 Data feeder: 1 NRC:ERDS-Parameter: MAIN SL 2/B Point-ID: -UR1002'. . Plant S ec Point Desc MN STEAM LINE 2 RAD LEV Generic Cond-Desc. Stm Gen 2 Steam Line Rad Level.- Analog / Digital: A Engr Units / Dig States: uCI/sec EEngr Units Conversion: N/A . Minimum Instr Range: .17E+39 I - Maximum Instr Range: .17E+39 Zero voir.t

Reference:

N/A Refer,nce ; A nt Notes: N/A - PROC at SCNS: P ,a Number of Sensors: 2 How Processed:- Sampled Totalized Sensor Locations: Main: Steam Line prior to ATM reliefs Alarm / Trip Set Points: 8.5*10E-3 NID power cutoff level: N/A N D power cut-on level: N/A 1Instrumcnt Failure Mode: Low on Loss of Power Temperature Compensation: N-Level Reference Leg: N/A. Unique System Desc: Main Steam Line #2 Radioactivity Monitor.This1value is' calc-L ulated as product of main steam line release rate, steam-radioactivity, specific vol, of steam',' and a. conversion con-- stant. PORV's for ea;h steam 1 generator _are monitored. If PORV is 'NOT CLOSED' valve is~ assumed to: contribute 890000J1b/hr flow to atmosphere. 5 code, safety valves for each S/G. Main steam line header pressure is monitored to determine condition of valves.1Each open valve is assumed to contribute'an additional 890000:lb/hr to flow-rate. (rad Mon 1-RM-90-422) L-p L l^ h ll 'r n----

=._ m..

l l

l

ERDSfpoint-number'48.

' MAIN SL 3/C UR1003 Stm' Gen 3-Steam-Line Rad Level-12/02/91 Da t e : -_ SE1

l Reactor Unit

. Data feeder: 1 \\IN SL 3/C NRC ERDS Parameter: ,UR1003-

- Point ID:

~ Plant Spec-Point Desc: MN STEAM LINE 3 RAD LEV - Generic /Cond Dese: Stm Gen 3 Steam Line-Rad Level Analog / Digital: _ A Engr Units / Dig States: uCI/sec Engr Units Conversion: N/A Minimum Instr Range: .17E+39 Maximum Instr Range: .17E+39 Zero Point

Reference:

N/A a Reference Point Notes: N/A PROC or SENS: P - Number of Sensors: 2 i How Processed: Sampled Totalized - ansor Locations: Main Steam line prior to ATM reliefs f Alarm / Trip Set Points: 8.5

• 10E -- !

NID power cutoff level: N/A 7 NID power cut-on level: N/A-Instrument Tallure Mode: tow on loss of power + Temperature Compensation: N- + Level Reference Leg: N/A Unique System Desc: Main Steam Line #3 Radioactivity Monitor. Value' calculated-as product of. main steam line release. rate, steam radioactiv-1 ity, specific vol. of stean,'and conversion constant. PORV's.for each steam generator are monitored. If a PORV is 'NOT CLOSED', valve assumed to. contribute 890000 lb/ t hr flow to atmosphere. 5 code safet) valves exist for each S/G. The main ~ steam line header pressure is monitored to determine condition of valves. Each open valve is assumed-to contribute an additional 890000'1b/hr to-the' flow rato. Rad Mon 1-RM-90-423 co ( --- I r i a v - - * - - + - -' .,.w.,,,,

~ _. + ERDS point number 49. MAIN SL 4/D. UR1004 Stm Gen 4 Steam Line Rad Level-Date: 12/02/91 Reactor Unit: SE1 - Data feeder: 1 NRC ERDS Parameter: MAIN SL 4/D Point ID: UR1004 Plant Spec Point Dese: MN STEAM LINE 4 RAD LEV Generic /Cond Desc: Stm Gen 4 Steam Line Rad Level Analog / Digital: A Engr Units / Dig States: uCI/sec Engr Units Conversion: N/A Minimum Instr Range: .17E+39 Maximum Instr Range: .17E+39 Zero Point

Reference:

N/A Reference Point Notes

• J/A 1

PPOC or SENS: Nunber of Senseto: How Processed spled Totalized Sensor Locat in Steam Line prior to ATM reliefs Alarm /." rip Sr 5

• 10E-3 NID power cuto

'A NID pun =r cutu '/A Instrument Fall ( Low on loss of power Temperature Compen=.m.snt N Level Reference Leg: N/A Unique System Desc: Main Steam Line #4 Radioactivity Monitor. Value calculated as product of main steam line release rate, steam radioactiv ity, specific vol. of steam, and conversion constant. 1 PORV's for each steam generator are monitored. If a PORV 'NOT CLOSED', valve assumed to contribute 890000 lb/hr flow to atmosphere. 5 code safety valves exist for eacia S/G . Main steam line header pressure is monitored to determine condition of valves. Each open valva assumed to contribute an additional 890000 lb/hr to flow rate. Rad Mon 1-RM-90-424 4 8 4

~.. !j $ERDS point number 50. -SG;BD RAD.1A-RE9 0-12 0 -. _Stm Gen Header Blowdow$ Rad'Leyll ~ Date:- 12/02/91 r 1 Reactor Unit: SE1 . Data feeder: 1 -NRC ERDSzParameter SG BD RAD 1A ~. 1-RE90-120-Point ID:, Plant SpecLPoint Desc: Steam Generat'or Blowdown-Liquid Monitor-Generic /Cond Desc: Stm Gen Header Blowdown Rad-Levi Analog / Digital: A Engr Units / Dig States: CPM Engr Units Conversion: N/A- ~ Minimum-Instr Range: 10E0 CPM Maximum Instr Range: 10E7 CPM Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or-SENS: S Number of Sensors: 1 .How Processed: Sum Sensor Locations: Turbine Bldg Alarm /_ Trip Set Points: Variable NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Low in loss of power Temperature Compensation: N = Level Reference. Leg: N/A Unique System Desc: Steam Generator Blowdown Header Liquid Monitor.- This-is one of two monitors, one of which.is valved out. The monitor is for the header and:not individualtloops. .i 5 e 9 a e n L--..-.., e m - -- , + - +te n > s w r-n t =

.~. ..~,,.

7.

sERDS-point number 51. SG BD. 2 8 _,

1-RE90-121!.

Stm Gen-; Header Blokd6wn Rad _ Lev 1_. r Dates; '12/02/91' JReactor' Unit: SE1-Data feeder 1 NRC ERDS Parameter: SG BD RAD 2B l Point ID: 1-RE90-121 Plant Spec Point Desc: Steam Generator Blowdown Liquid-Monitor Generic /Cond Desc: Stm Gen Hsader Blowdown Rad Levi i A _: Analog / Digital: Engr-Units / Dig States: CPM Engr _ Units Conversion: N/A 1 Minimum Instr Range: 10E0_ CPM ' Maximum' Instr Range: 10E7 CPM 1 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: Sum Sensor Locations: Turbine Bldg Alarm / Trip Set Points: Variable NID power cutoff level: N/A NID power. cut-on level: N/A Instrument Failure Mode: Low on loss of. power . Temperature Compensation: N Level Reference Leg: N/A Steam Generator Blowdown Header. Liquid Monitor Unique System Desc: This is one of two monitors,'one of which.is-valved-out. The monitor is for the header and not individualiloops. 4 w +. f k 'l-( ('. L L

c'RD3 point number 52. CT! CIT PRESS UP6000 Containment Pressure Date: 12/02/91 Reactor Unit SE1 Data feeder: 1 NRC ERDS Parameter: CTMNT PRESS Point ID: UP6000 Plant Spec Point Desc: CNTMT PRESSURE AVERAGE Generic /Cond Desc: Containment Pressure Analog /Digitsl: A Engr Un!.ts/ Dig States: PSIG Engr Units Conversion: N/A Minimum Instr Range: -1 Maximum Instr Range: 15 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: Avg Sensor Locations: Annulus Alarm / Trip Set Points: High - 2.61 PSIG High-High 12. 0 NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: out of Range Temperature Compensation: N Level Reference Leg: N/A Containment Pressure. This is actually a differential Unique System Desc: between containment and the annulus. Average of 1-PDT-30-44 and -45. l

- ERDS. point number 53c CTMNT TEMP. - UT1004. ' Containment Temperature t L12/02/91 Dates' Reactor Unit: .SEl Data feeder: -1

NRC ERDS Parameter:

CTMNT TEMP Point ID: UT1004-Plant Spec Point Descr. CONTAINMENT TEMP MAX DEV-Generic /Cond Dese: . Containment Temperature Analog / Digital: -A Engr Units / Dig States: DEGF' Engr Units Conversion: N/A Minimum Instr Range: 0' Maxilaum Instr Range: 200 Zero Point

Reference:

N/A Reference. Point Notes: N/A PROC-or SENS: P Number of Sensors: 4 How Processed: ' Maximum Value-Sensor Locations: TE-212A,TE212B,TE212C & TE212D Alarm / Trip Set Points: Low at 60 DEGF, High at-130 DEGF' i NID power cutoff level: N/A- .NID power cut-on level: N/A Instrument Failure Mode: Fail Low . Temperature Compensation: N -Level Reference Leg: N/A - t ' Maximum Containment Air Temperature. - The. temperature Unique System Desc: element-is inside the Polar Crane Wall at intake..for lower compartment cooler. The value-displayed-is the maximum of ~ 1-TE-30-212A, ~212B, -2120, or -212D.' m>+ t + m k --~.~h, -m rc5 +- gE---

l ERDS point number 54. H2 CONC UY1005 Containment H2 Concentration Date: 12/02/91 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: H2 CCNC Point ID: UY1005 Plant Spec Point Dese: H2 CONC AVG Generic /Cond Desc: Containment H2 Concentration Analog / Digital: A Engr Units / Dig States: 1 Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 10 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: Avg Sensor Locations: Sample line from both uppr & lowr entmnt Alarm / Trip Set Points: High at 10 % NID power cutoff level: N/A NID power cut-on level: N/A Instrument Pailure Mode: Downscale on loss of power Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Samples H2 gas concentration in containment. Average of 1-H2AN43-200 and 1-H2AN43-210. S

. - ~ - . - -. ~.

ERDS point' number:55,

-RWST, LEVEL ~ .UL1000 ' Refueling _ Water Storage Tank' Leve fDates" 05/20/92 -Reactor Unit: SE1 6 Data feedor: 1 l 'NRC ERLS Parameter: RWST LEVEL JPoint-ID: UL1000 1 Plant-Spec Point-Desc: RWST LEVEL-Generic /Cend'Desc Refueling Water-Storage _ Tank Lev 1 Analog / Digital: A Engr Units / Dig States Engr Units Conversion: 1% is 3500 Gals l -Minimum Instr Range: 0 ~ Maximam Instr Range: 100.0 Zero Point

Reference:

27.6" Reference Point Notes: 25,000 gal below zero reference PROC or SENS: P-

Number-of Sensors:

2 How Processed: Average,-Redundant Sensor Algorithm Sensor Locations: RWST taps 25,000 Gals in tnk below buttn-Alarm / Trip Set Points: Low level 27.4% NID-power' cutoff level: N/A NID. power cut-on level: N/A Instrument' Failure Mode: Low 7 Temperature _ Compensation: .N Level 1 Reference Leg: N/A - Unique System Desc: The RWST average level is-calculated'by a redund' ant sensor. algorithm-from the 2 RWST level transmitters. 'The: low;1evel setpoint is 27,4% of span which is 106 inches above' the ? lower tap of the RWST The RWST tank capacity is-- 380,000-gallons. 70%= 25,000 gallons,_.100%= 380,000= gallons. LT-63-50 and -51,- i L ~ w h i r a.

g,-,,. ' j. ' _~ERDS poin't number _56. WIND SPEED' MET 001 LWind Speed -lUpper Level'- b !Date - 12/02/91-J- 1 Reactor' Units' -SEl. ~ . Data-feeder:

l NBC:ERDS Parameters WIND-SPEED

' Point ID:,. MET 001 + Plant Spec Point Desc:. 91M VECTOR WIND SPEED (15 MIN _ AV7) ! Generic /Cond Desc:- ' Wind Speed - Upper Level' _ Analog / Digital: -A i Engr Units / Dig Ltates: m/sec ~ Engr Units-Conversion: 1 Minimum Instr Range:- 0 Maximum. Instr Range: -44.6 Zero Point

Reference:

N/A Reference Point-Notes: N/A t PROC or SENS: .S - Number of-Sensors: 1 How Processed: SensorJLocations: At the 91 Meter Level of the Met Tower Alarm / Trip Set Points: No Alarms i NID power cutoff level: N/A NID power cut-on level: N/A l Instrument Failure Mode: LOW Temperature Compensation: Level Refer'ence Leg: N/A Unique System Desc: -( m '9 - I: s 9 d b + ^ 1 + e. s b I$$ .MI t--rgT w d.e--- w-de-->w-e..

ERDS point number 57. WIND SPEED-MET 002 Wind SpeedL-Intermediate Level -Date: 12/02/91 i-Reactor Unit: SE1 Data feeder: -l / -NRC-ERDS Parameter: WIND SPEED Point.ID: MET 002 Plant Spec Point Desc: 46M VECTOR WIND SPEED (15 MIN AVG)- Generic /Cond Desc: Wind; Speed - Intermediate Level-Analog / Digital: A Engr Units / Dig States: m/sec Engr Units Conversion: Minimum Instr Range 0 Maximum Instr Range: 44.6 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or FENS: S Numoer or Sensors; 1 How Processed: Sensor Locations: At the 46 Meter Level of the Met Tower Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: LOW Temperature Compensation: Level Reference Leg: N/A -Unig'le System Dese: 1 [ I L (- l' l ~ D

. - ~. +

• a

ERDS point' number 58.

WIND SPEED . MET 003 Wind Speed - Lower: Level q Date: 12/02/91 Reactor Unit SE1 Data feeder:- 1

NRC=ERDS Parameter:-

WIND SPEED Point ID: MET 003 Plant Spec Point Dese: 10M VECTOR WIND SPEED (15 MIN AVG) Generic /Cond Desc: Wind Speed - Lower Level =- Analog / Digital: -A Engr-Units / Dig States: m/sec 1 i Engr Unita Conversion: Minimum Instr Range: 0 Maximum Instr Range: 44.6 Zero Point Reference; N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: Sensor Locations: At the 10 Meter Level of the Met Tower Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A

NID power cut-on level

N/A. Instrument Failure Mode: LOW Temperature Compensation: -Level Reference Leg: N/A-Unique System Desc: l ... + ,1 E

c. ERDS-point' number 59. --WIND DIR-MET 004-Wind-Direction:-' Upper: Level 'Da te : - '12/02/91 Reactor Unit SE1; Data feeder:: l' NRC ERDS Parameter: WIND DIR -Point-ID: -MET 004 l Plant ' Spec-Point - Desc: 91M VECTOR WIND DIR (15 MIN AVG) Generic /Cond Desc: Wind Direction - Upper Level Analog / Digital: A

Engr Units / Dig-States:

DEG- ! Engr Units Conversion: Minimum Instr Range: 0 Maximum Instr Range: 360_ Zero Point

Reference:

N/A

Reference Point Notes

N/A ' f JPROC or'SENS: S --. Number of Sensors: 1 How Processed: 'q Sensor Locations: At the 91 Meter Level of the. Met' Tower Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A NID power cut-on' level - .N/A Instrument Failuro Mode: LOW Temperature Compensation: Level Reference Leg: N/A -Unique System Desc: 'E (l t 5 i (k

ERDS point nunber 60. WIND DIR MET 005 Wind Direction - Intermed. Level Date: 12/02/91 Reactor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: WIND DIR Point ID: MET 005' Plant Spec Point Desc: 46M VECTOR WIND DIR (15 MIN AVG) Generic /Cond Desc: Wind Direction - Intermed. Level Analog / Digital: A Engr Units / Dig States: DEG Engr Units Conversion: Minimum Instr Range: 0 Maximum Instr Range: 360 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: Sensor Locations: At the 46 Meter Level of the Met Tower Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A NID power cut-on levelt N/A Instrument Failure Mode. LOW Temperature Compensation: Level Reference Leg: N/A Unique System Desc: J

~. -'l j l 2 ERDS point number 61. BIND DIR~ ' MET 006 Wind Direction .LowerjLevel.: fl /. i !Date: '12/02/91- -Reactor Unit: SE1l

Data :. feeder:

.1: NRC ERDS' Parameter:- WIND DIR Point-ID:

MET 006 1

~ Plant Spec ~ Point Desc: 10M VECTOR WIND DIR (15 MIN AVG)' Generic /Cond Desc: Wind Direction - Lower Level-Analog / Digital: A.. s

Engr Units / Dig States:

DEG Engr Units Conversion: Minimum Instr Range: 0= . Maximum Instr Range: 360 Zero Point

Reference:

N/A O Reference Point Notes: N/A PROC or SENS: S . Number.of Sensors: 1- - How Processed: 1 Sensor Locations: At the 10 Meter Level of the Met-Tower ~ Alarm / Trip Set Points: No Alarms ~ NID power cutoff level: N/A NID power cut-on level: -N/A Ir.strument Failure Mode: LOW Temperature Compensation: Level Reference Leg: N/A 5 Unique System Desc: h. en-- 4 a s t~ r t v- ,6 ,U .'.sa.-+

_m _.m_ _m 43 ERDS point number:62. STAB CIASS'

- MET 007-

[ Air. Stability. Upper-

- Date s :-

12/02/91 I ' Reactor Unit: SE1 EData feeders - 1 iNRC ERDS Parameter:- STAB CLASS . Point ID: MET 007 Plant Spec Point'Dese: Stability Class Upper Generic /Cond Desc: Air. Stability Upper ~ L. Analog / Digital :-- Engr Units / Dig States: STABA Engr Units Conversion: -Minimum Instr ~ Range: Maximum' Instr F mge: 3 'Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2

How Processed:

Senaor Locations: Alarm / Trip Set Points: No Alarms F -NID power cutoff-level: N/A .NID power cut-on level: N/A s Instrument " allure Mode: LOW Tent.raturs ompensation: Level _Referene.. Leg:_ N/A -Unique System Desc: -Differential Temperature Upper-Lower i(deg C).. -Difference Stability. Class.. Point:Value- <= -1.9 A~ 1 -1.P -l'. 7 B ~2 4 L ') -1,5 C 3 -1.5 -0.5 D- -0.5-1.5 E 5 1.5 4.0 P 6

4.0 G.

75 w-b),if a j-p l- + p ' y' ~ 3_ g,. !e l~ l' 4 i

1 i: ERDS point number.63. STAB CLASS-MET 008 Air ' Stabilitiy d Date: _12/02/91 " Reactor-Units-SEl' Data feeder: 1 11 NRC ERDS Parameter: STAB CLASS Point -ID: MET 008 1 Plant Sp/Cond Deset ec Point 1Desc:_ Stability Class Intermediate Generic Air Stability Analog / Digital: . Engr Units / Dig States STABA Engr Units Conversion: ' Minimum Inst: Range: ' ~ ' Maximum Instr Range: + Zero Point

Reference:

N/A ' Reference Point Notes: N/A PROC or SENS: P -Number c,f Sensors: 2 How Processed: -Sensor Locations: Alarm / Trip _ Set Points: No Alarms ' NID power cutoff level: N/A NID; power cut-on-level: N/A Instrument Failure Mode: LOW

Temperature Compensation:

' Level Reference Leg: N/A Unique System Dese: Differential Temperature ~ Upper-Intermediate ? (deg C)! <= ' Stability Class. -Point.Value- -1.9 A-1 -1.9 - -1.7 ~B-2 -1.7 -1.5 C. 3' -1.5 -0.5 D-4 -0.5 1.5 E 5 1.5. 4.0 LF 6 4.0 G 7 9 t y e.-

-ERDS point number 64~ ' STAB' CLASS . MET 009 -Air Stability-(Dates-12/02/91. -- Reactor. Uni t s - SE1 Data: feeder. 1 -NRC ERDS. Parameters- -STAB CLASS J Point: IDI-- MET 009 ? Plant Spec Point Desc: Stability Class Lower-Generic /Cond Descs. Air Stability Analog / Digital: = Engr Units / Dig States: -STABA

Engr Units Conversion

' Minimum Instr Range: Maximum Instr Range: Zero Point

Reference:

N/A Reference Point Notes: N/A ' PROC or SENS: P ' Number of Sensors: 2 How Processed: Sensor Locations: Alarm / Trip' Set Points: No Alarms - NID power cutof f level: N/A -NID power cut-on level: N/A 1 Instrument Failure Mode: LOW LTemperature Compensation: Level Reference Leg: N/A = .' Unique' System Desc: Differential Temperature Intermediate-Lower (deg C) <= Stability Class Point'Value -1.9 A l- -1.9 -1.7 B 2 -1.7 -1.5 C 3- -1.5 -0.5 D 14 -0.5 1.5 E 5 1.5 -4.0 F 6-4.0 G 7 - !j .4 + '-., ' 4 i V~ ^f .c. i 3 p.

ERDS point number 65. SG LEVEL 1/A 1-LT3-43 Steam Gen 1 Wide Range Water Lev Date: = 11/05/92 Reictor Unit: SE1 Data feeder: 1 NRC ERDS Parameter: SG LEVEL 1/A Point ID: 1-LT3-43 Plant Spec Point Desc: F 1 KIDE RNG LEVEL Generic /Cond Desc: Steam Gen 1 Wide Range Water Lev Analog / Digital: A Engr Units / Dig States: Engr Units Conversion: 1% = 5.7" Minimum Instr Range: 0.0 Maximum Instr Range: 100.0 Zero Point

Reference:

LOWTAP Reference Point Notes: See Below PROC or SENS: S Number of Sensors: 1 How Processed: Scanned Sensor Locations: See Below Alarm / Trip Set Points: Low at 0%, High at 100% NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Sensor out Low Temperature Compensation: N Level Reference Leg: WET Unique System Desc: LT is calibrated for design operating conditions. 0% corres-ponds to lower tap on SG located just above tube plate. 100% corresponos to the upper tap which is 170" above the top of "U" tubes: Top of the "U" tubes is approximately 70% level. A

,. e ..___m _..y ' ERDS-point number 66. - SG LEVEL 2/3 1-LT3-56 LStham Gen 2.-Wide Range-Water Lev:- Date:.~ 11/05/92.

Reactor: Unit:-

SE1 " Data-feeder -- 1-HRC ERDS Parameter: SG LEVEL 2/B iPointiID: 1-LT3-56 Plant' Spec Point Desc: 'SG 2 WIDE RNG LEVEL 3 ~ Generic /Cond Desc: Steam Gen 2. Wide, Range Water: Lev . Analog / Digital: A Engr-Units / Dig States: Engr Units Conversion: 1% = 5.7" ' Minimum Instr Range: 0.0 = Maximum Instr Range: 100.0 Zero Point

Reference:

LOWTAP Reference Point Notes: See Below i PROC or SENS: S Number of Sensors: 1 How Processed: Scanned Sensor Locations: See Below Alarm / Trip Set Points: Low at 0%, High at 100% NID power cutoff level: N/A NID power cut-on level:- N/A Instrument Failure Mode: Sensor out Low -Temperature Compensation: N -Level Reference Leg: WET Unique System Desc: LT is calibrated for desi'gn' operating conditions.-0% corres.- ponds to lower tap on SG located just above tube plate'. 100%0 corresponds to the upper tap which is 170" above.the. top of: "U" tubes: Top of the "U" tubes is approximately 70% -level. O, D + + b 9 q.- kl + .-<.r +~ n,< -~ ,n- <+ -..... .. ~. -s ih-." r

-. ~.. -n -ERDS point. number-67. -SG LEVEL 3/C LT3 - 3 Steam Gen 3 Wide Range-Water Lev-. Date: 11/05/92 ' Reactor Unit: SE1 s fData-feeder: 1 ~NRC.ERDS Parameter:- SG' LEVEL 3/C_ Point ID: 1-LT3-98' Plant Spec Point Desc SG 3 WIDE.RNG LEVEL -Generic /Cond.Desc: . Steam. Gen 3 Wide Renge' Water-Lev -I - Analog / Digital: A Engr-Units / Dig States: Engr Units Conversion: 1%:= 5.7" 7 -Minimum Instr Range:

0. 0 -

~ -Maximum Instr Range: 100.0 Zero Point

Reference:

LOWTAP Reference Point Notes: See Below PROC or-SENS: S Number of Sensors: 1 How Processed: Scanned Sensor-Locations: See Below Alarm / Trip Set Poini3: Low at 0%, High at 100% . t NID power cutoff level: N/A NID power cut-on level: N/A 4 Instrument Failure Mode: Sensor Low out Temperature Compensation: N' Level Reference Leg: WET Unique System Desc: LT-is calibra*ed for design operating conditions'.- 0% corres ; ponds to-lower tap on SG located just-above tube' plate ~.1100%. corresponds to the upper tap which is 170" above the top of "U" tubes: Top of-the "U"' tubes.is_approximately 70% level. I y M t [ 4 'y g i T ' Ptd -f ' -. -M

1. v h

.g _. _.~ 1 'ERDS point ~ number-68.- AG LEVEL 4/D=- LT3-111 Steam Gen _4l Wide Range' Water' Lev tater- ~ 11/05/92 I

Reactor Unit:

- SEl _. - ' Data feeder: 1-NRC ERDS-Parametert SG LEVEL 4/D -Point ID::. - - 1-LT3-lli- -Plant SpeciPoint-Desc:- SG 4 WIDE RNG LEVEL z Generic /Cond Desc: Steam. Gen.4 Wide Range Water-Lev .4 -Analog / Digital: A Engr Units / Dig States: Engr Units Conversion: 1% = 5.7" -. Minimum Instr Range: 0.0~ -Maximum Instr-Range: 100.0 =Zero Point

Reference:

LOWTAP Reference Point Notes: See Below PROC or SENS: S .-Number of Sensors: 1 l How Processed: Scanned Sensor Locations: See Below

Alarm / Trip Set Points.

Low at 0%, High at 100% NID power cutoff level N/A .NID power cut-on level: N/A Instrument Failure Mode: Sensor Out Low Temperaturc Compensation: N -Level Reference Leg: WET. Unique System Desc: LT is calibrated for design operating conditions. ~ 0% corres-ponda to lower tap on SG located just above-tube, plate.: 100%! corresponds to the upper tap which is'170" above the top of "U" tubes: ~ Top of the "U" tubes is approximately '70% = level.- I w L .I: g s. 3- -a o T. .ils ,i 3 ).: j;: n a w .-~w w v w- = = + - w e* r e- -m =. -* e,w--

• ., = - -

4

.+ La I's SEQUOYAH UNIT-2 ERDS DATA POINT LIBPARY [ 1. ' SIMULATION INDICATES REAL OR SIMULATED DATA 2.:.NI POWER RNG UN2000-POWER RNG AVG i3. NI INTER RNG-UN1015 INTER RNG' FLUX (LOG) ~ 4. -NI SOURC RNG UN1014 Source Range. Flux (Log) 5. REAC-VES-LEV

UL6000 RVLIS LOWER-RANGE AVERAGE 16.-

TEMP CORE EX UT1003

CCRE EXIT TEMP MAX

-- t 7. SUB MARGIN UT1005 MIN SUBCOOL-8.- SG_ LEVEL 1/A UL1001 SG 1 NR-LEVEL AVG 9. SG LEVEL 2/B UL1002 SG 2 NR LEVEL AVG 10. SG LEVEL 3/C UL1003 SG.3 NR~ LEVEL AVG 11. SG LEVEL 4/D UL1004 SG 4 NR LEVEL AVG 12. SG PRESS 1/A UP1002 SG 1 MS PRESSURE AVG t 13. SG PRESS 2/B .UP1003 SG 2 MS PRESSURE AVG 14. SG PRESS 3/C UP1004 SG 3 MS PRESSURE AVG 15. SG PRESS 4/D UP1005 SG 4 MS PRESSUR3 AVG 16. MN FD FL 1/A UF1000 SG 1 FW FLOW AVG 17. MN FD FL 2/B UF1001 SG 2 W FLOW AVG + 18. MN FD FL 3/C UF1002 SG 3 W' FLOW AVG 19. MN FD FL 4/D UF1003 SG 4 FW FLOW AVG-20. AX FW FL 1/A 2-FM3-163B STM GEN 1 A N INLET FLOW 21. AX FW FL 2/B 2-FM3-155B STM GEN 2 AFW INLET FLOW .2 2. AX W FL 3/C 2-FM3-147B -STM GEN 3 AFW INLET FLOW 23. AX W FL 4 /D 2-FM3-170B STM GEN 4 A W INLET PLOW 24. HL TEMP 1/A 2-TM68-1B LP 1 HL WID RNG TEMP 25. HL TEMP 2/B 2-TM68-24B LP 2 HL WID RNG TEMP 26. HL TEMP 3/C 2-TM68-43B LP 3 HL WID RNG TEMP 27. HL TEMP 4/D 2-TM68-65B LP 4 HL WID RNG TEMP 2 8..- CL TEMP 1/A 2-TE68-18 LP 1 CL WID RNG TEMP 29. CL TEMP 2/B 2-TE68-41 LP 2-CL WID RNG TEMP 30. CL TEMP 3/C 2-TE68-60 LP 3 CL WID RNG TEMP 31. CL TEMP 4/D 2-TE68-83 LP 4 CL WID RNG TEMP 32. RCS PRESSURE UP1000 RCS WIDE RNG PRESS AVG

33.,PRZR LEVEL UL1005 PRZR LEV AVG 34.

RCS CHG/MU. UF1016 NET CHG FLO 35. HP SI FLOW UF1010 SI FLOW TOTAL 36. LP SI FLOW UF1011 RHR COLD LEG TOTAL PLOW. 37 CNTMT SMP WR UL1011 CNTMT~ SUMP LEV AVG 38. EFF GAS RAD 1-RM90-400 Unit 1 Shield Bldg Release Rate 39. EFF GAS RAD 2-RM90-400 Unit 2 Shield Bldg Release Rate 40. EFF LIO RAD 0-RE90-122 WDS Liquid Effluent 41. COND A/E RAD UR1006 Low Range COND VAC PUMP AIR EXH RAD MON 42. COND A/E RAD UR1007 Mid Rng COND VAC-PUMP AIR EXH RAD MON j 43. COND A/E RAD UR1008 High Rng COND VAC PUMP-AIR EXH RAD MON lj 44. CNTMNT-PAD UR6021 UPPER CONTAINMENT RADIATION 1 -{, 45. CNTMNT FAD ~UR6022 LOWER CONTAINMENT-RADIATION 1 46. MAIN SL 1/A UR1001 MN STEAM LINE.1 RAD LEV I' 47. MAIN SL 2/B UR1002 MN STEAM LINE 2 RAD LEV 48. MAIN SL 3/C UR1003 MN STEAM LINE 3 RAD LEV-1 4 9. - MAIN SL 4/D 'UR1004 MN STEAM LINE 4 RAD LEV 50. SG-BD RAD 1A 2-RE90-120 Steam Generator Blowdown Liquid Monitor 51. SG BD-RAD 2B 2-RE90-121 Steam Generator Blowdown Liquid Monitor -l ~52. CTMNT PRESS UP6000 CNTMT PRESSURE AVERAGE-I 53. CTMNT TEMP UT1004 CONTAINMENT TEMP MAX DEV [i 54. H2 CONC UY1005 H2 CONC AVG g

55.

RWST LEVEL UL1000 RWST LEVEL-

)

d)

56. -WIND SPEED MET 001 91M VECTOR WIND SPEED (15 MIN AVG) 57.

WIND SPEED MET 002 46M VECTOR WIND. SPEED - (15 MIN AVG) 58. WIND SPEED MET 003 10M VECTOR WIND SPEED (15' MIN AVG) Jl;

59. -WIND DIR!

MET 004 ' 91M VECTOR WIND DIR (15 MIN AVG) -t, 60. WIND DIR MET 005 46M VECTOR WIND DIR (15 MIN-AVG)

L

61. ' WIND DIR MET 006 10M VECTOR WIND DIR (15 MIN AVG)

[ 62. STAB' CLASS MET 007 Stability-Class Upper 63. STAB CLASS MET 008-Stability class Intermediate 64. STAB CLASS MET 009 Stability Class Lower

s In

-3 A ... ~...

.~ 65.'SG LEVEL 1/A. 2-LT3-43. SG 1 WZDE RNG LEVEL ~

66. 'SG LEVEL-2/B2

'2-LT3-56 SG 2 WIDE ENG LEVEL

67.

SG LEVEL 3/C= 2-LT3 SG 3 WIDE PRG' LEVEL. 68.. SC LEVEL 4/D 2-LT3-l'.1 SG 4 WIDE RNG LEVEL. I A ? I e i b ~

~.. t 1i

ERDS point' number' l.

SIMUIATION.

- RFAL/SIMUIATED l DATA'- %) s1 (Date: 06/09/92 ! Reactor: Unit: SE2 -1 -Data feeder: 1 9 NRC.-ERDS Parameter:- ~ PointJID: SIMOLATION f

Plant Spec Point-Desc; INDICATES:REAL.OR SIMUIATED DATA'

' I LGeneric/Cond Desc: _ REAL/ SIMULATED DATA Analog / Digital: D Engr Units / Dig States: REAL/ SIMUL

Engr Units Conversion:

N/A-Minimum Instr Range: -Maximum Instr > Range: . N/A N/A-

Zero. Point

Reference:

N/A k Reference Point Notes: N/A

PROC or.SENS:

P -Number of' Sensors: 0 ^How Processed: 0.IF REAL,1 IF sIMUIATED '5 - Sensor Locations: ' N/A . Alarm / Trip Set Points: N/A L NID power cutoff level: N/A NID power-cut-on level: N/A -m Instrument Failure Mode: N/A e Temperature Compensation: N . Level Reference Leg: - N/A . Unique System Desc: THIS POINT IS USED TO INDICATE WHETHER-THE DATA IS COMING FROM THE UNIT OR FROM THE SIMULATOR' 4 er _s Ji 5 i 4 h 5 s 2-

a..

.n + a

+ t -ERDS point number 2.- NI POWER RNG 'UN2000 Reactor Power

Date

12/02/91

Reactor-Unit

'SE2-Data feeder: 1-i -NRC ERDS Parameter: NI POWER RNG Point ID:' UN2000:- -Plant Spcc Point'Desc: POWER RNG AVG ' Generic /Cond Dese: Reactor Power -Analog / Digital: A Engr Units / Dig States: Engr Units Conversion: 0-10V = 0-120% Power _(Linear)- -Minimum' Instr Range: 0 Maximum Instr Range: 120 -Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 8 How Processed: AVG Sensor Locations: Upper & Lower excore detectors: Alarm / Trip Set Points: Rod Stop=103% overpwr Reactor Trip =109% NID power cutof f level: .N/A NID power cut-on level: N/A Instrument Failure Mode: Probable Downscale (No forcing function) Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: From TSC Upper & Lower detection inputs _for 2-NE92-41,42,43,44. i i: l-l~ l l,, i N l h h L

P -ERDS point; number l 3. NI:-INTER PJ1G UN1015 Reactor - Power - Intehr.ediate Rng EDate:- 12/02/91. -- Reactor Unit: SE2~ = Data feeder: 1 NRC ERDS;Parrmeter: NI INTER RRG ! Point-ID:- UN1015 Plant-Spec Point Desc: INTER RNG FLUX (LOG) Generic /Cond Desc Reactor Power -_ Intermediate Rng: -Analog / Digital: .LOGPC A Engr Units / Dig States: Engr Units Conversion: OUTPUT (V) (LOG ( % Powe r) ) +6 = Minimum Instr Range: -8 Maximum Instr Range: 2.301 Zero Point

Reference:

N/A - Reference Point Notes: N/A PROC or SENS: P-Number of-Sensors: 2 How Processed: AVG Sensor Locations: AZ 0 deg & 180 deg Excore Alarm / Trip Set Points: Rod Stop - 20%, Reactor Trip - 25% Pwr !!ID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Probable Downscale (no forcing function)- Temperature Compensation: N Level Reference Leg: N/A Unique System-Desc: Avg of XI-92-5003(channel N35) and 5004_(channel N36) 4 ..\\- tn s v 9.~ w n es e

ERDS point number 4. NI SOURC RNG UN1014 Reactor Power - Source Range Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parameter: NI SOURC RNG Point ID: UN1014 Plant Spec Point Dese: Source Range Flux (Log) Generic /Cond Desc: Reactor Power - Source Range Analog / Digital: A Engr Units / Dig States: CPS Engr Units Conversion: OUTPUT (V)=[ Log (CPS)]*1.667 Minimum Instr Range: 10E0 Maximum Instr Range: 10E6 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SE;;S: P Number of Sensors: 4 How Processed: Avg. Sensor Locations: AZ 0 deg. & 180 deg. Excore Alarm / Trip Set Points: Reactor Trip - 10E5 CPS NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Probable Downscale (No forcing function) Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Avg of XI-92-5001(channel N31) & 5002 (channel N32) Detectors (2 chambers / detector) f I

'ERDS point numb'ar 5. REAC VES. LEV UL6000 Reactor Vsssel Water Level j I Date: 12/02/91 1 Reactor Unit SE2 Data feeder: 1 NRC ERDS Parameter REAC VES LEV Point ID: UL6000 i Plant Spec Point Desci RVLIS LOWER RANGE AVERAGE Generic /Cond Desca Reactor Vessel Water Level l Analog / Digital: A -Engr Units / Dig States Engr Un.ts Conversion: N/A Minimun. Instr Range: 0 Maxirnum Instr Range 70 Zero Point Reference RV BOT Reference Point Hotes: TAF = 62% P)<C or SENS: P -Number of Sensors: -2 'llow Processed: Average Sensor Locations: Remote location in the Penetration Rooms Alarm / Trip Set Points: High at-50 t Low at 0% NID power cutoff level N/A NID power cut-on level N/A Inatrument: Failure Mode: Out of Range Temperature Compensation: Y Level Referenca Leg: WET Unique System unsc This is the lower range portion of the Rx Vessel level. indication. The lower range provides indication of the reactor vessel level from the bottom of the vestsi to the het leg during natural circulation conditions. Average of 2-LM-68-36BE and -371E. Top of core = 62.3%.-

ERDS point number 6. TEMP CORE EX UT1003 Highest Core Exit Temperature Date 12/02/91 -Reactor Unit SE2 Data feeder: 1 NRC ERDS Parameter TEMP CORE EX Point ID: UT1003 Plant Spec Point Desca CORE EXIT TEMP MAX Genetic /Cond Desc Highest Ccre 'xit Temperature Analog / Digital: A j - Engr Units / Dig States: DEGP i -Engr Untra 'onversion: TtPE K TC Table =l -Minimum Instc Range: 0 -) Maximum Instr Range 700 Eero Poir.t

Reference:

N/A i Refererce Point Notes: N/A l PROC or SENS: P Number of tensors: 59 Ho', Processed: HIGHEST bensor Locations: Throughout core Alarm / Trip-Set Points: High at 700 DEGF Low at 0 DEGF r + NID power cutoff level N/A HID power cut-on level: N/A Instrument Failure Mode:- Eliminates open TC's Temperature Compensation: N Level Reference Leg: N/A Uniqua System Desc: INCORE T'iermocouples processed through "Exosensor" system. The system is divisionalized into 2 divisions. Total of 60 elements with one TC inoperable. The numeric is the high-er of 2-XM-94-103-69 and 2-XM-94-203-75.- ? I N i e 1 t t I L w

- ERDS point number 7.- SUB MARGIN UT1005 saturation Temp. - Highest CET ' Dates. 12/02/91 l . Reactor Unit SE2 i Data feeder: 1 NRC ERDS faramoter SUB MARGIN Point ID: UT1005 l Plant Spec Point Desc MIN SUBCOOL Generic /Cond Desc Saturation Temp. - Highest CET - 1malog/ Digital: A . Engr Units / Dig States: DEGF i Engr Units Conversions TYPE K TC Table Minimum Instr Range 0 i Maximum Instr Range: 700 Zero Point

Reference:

N/A Reference-Point Notes: N/A - t PROC or SENS: P Humber of Sensors: 59 l How Processed: Highest Sensor Locations: Throughout Core Alarm / Trip Set Points: Low at 15 DEGF, High at 130 DEGF i NID power cutoff level N/A NID power cut-on level N/A Instrument Failure Mode: Eliminates open TC's l Temperature Compensation: N Level Reference Leg N/A Unique System Dese: INCORE Themocouple.1 processed through "Exosensor System. The system is divisionalized into-2 divisions. Total of 60' TC with one TC inoperable. l : l l l c i-e .. 5 ? . r l 1.- yr -'-r agud v-. u.yg 15p a og-y.ga .e-m 9w s.p p g.pr. %.-.ya w@-'ma M. .gre1..rvt=5=v.. w rirs .-w"w h-z?5 -*u' 'aa-am--.m------mL -a R*=---i--=Ah=-

. ~. -,- ...m_ -.. _ _ _. _ _, c ERDS point nunber 8. SG LEVEL 1/A UL1001 Steam Generator 1 Water Level . j Date 12/02/91 Reactor Unit SE2-Data feeder 1 NRC ERDS Parameters SG LEVEL 1/A Point ID UL1001 Plant S ec Peint Desc SG 1 NR LEVEL AVG l Generic Cond Desc Steam Generator 1 Water Level Analog / Digital: A Engr Units / Dig States Engr Units Convorsion: N/A Minimum Instr Range: 0 Maximum Instr Range: 100 Zero Point Reference Notes Reference Point Notes: Above "U" tubes PROC or SENS: P i Nurrbor of Sensors: 2 llow Processedt Average Sensor Locations: Remote locat outside of Polar Crane Wall Alarm / Trip Set Points: Low at 25 %, High at 70 % i NID power cutoff level: N/A NID power cut-on levell N/A-Instrument Failure Mode Out of Range Temperature Compensation: Y Level Reference Leg: WET Unique System Desc: Steam Generator #1 Water Level. Average.of 1-LT-3-39 and -42. i 0-100% span on SG narrow range level transmitters corres-i ponds to 75-100% span en the SG wide range level instrument-ation. Top of "U" tubes is approximately 71%.on the wide-range. Therefore, the entire narrow range span is above the. "U" tubes. 3 ~ $ -9 + ?[ 5 b I ..+. e a ,_,,:,-,,..n,,, n ,....,,,,,;..Jnn,n ,n.. e

_..___-m __-m i'l l ERDS point number 9. SG LEVEL 2/B UL1002 Steam Generator 2 Water Level 1 -Dater 12/02/91 Reactor Units-SE2 Data feeder: 1 i NRC ERDS Parameter: SG LEVEL 2/B 1 Point ID: UL1002 Plant S ec Point Desc: SG 2 NP LEVEL AVG q -Generic Cond Desc: Steam Generator 2 Water Level r Analog / Digital: A Engr Units / Dig States: Engr Units Conversion: N/A i Minimum Instr Range: 0 Maximum' Instr Range: 100 Eero Point Reference Notes Reference Point Notes: Above "U" tubes PROC or SENSI P Number of Sensors: 2 .i How Processed Average Sensor Locations: Remote locat outside of Polar Crane Wall. Alarm / Trip Set Points: Low at 25 %, High at 70 % l HID power cutoff level N/A NID power cut-on level N/A Instrument Failure Mode: Out of Range e Temperature Compensation: Y l j Level Reference Leg: WET Unique System Desc: Steam ' Generator #2 Water Level. Average of 2-LT-3-52 and - 0-100% span on SG narrow range level-transmitters corres-ponds to 75-100% span on the SG wide range level instrument - ation. Top of "U" tubes is approximately 71%.on the wide .i range. Therefore, the entire _ narrow range span is above the "U" tubes. L = 1 a ) I t' i r e c~. a-.-u

a..

..a ....u

ERDS point number 10. SG LEVEL 3/C UL1003 Steam Generator 3 Water Level Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 NRC EEDS Parameter: SG LEVEL 3/C Point ID: UL1003 Plant Spec Point Desc: 9G 3 NR LEVEL AVG Generic /Cond Desc: Steam Generator 3 Water Level Analog / Digital: A Engr Units / Dig States: t Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 100 Zero Point

Reference:

Notes Roterence Point Notes: Above "U" tubes PROC ar SENS: P Nunber of Sensors: 2 How Processed: AVEE",E Sensor Locations: Remote locat outside of Polar Crane Wall Alarm / Trip Set Points: Low at 25 %, High at 70 % T.D power cutoff level: N/A NID power cut-on lev-1: N/A Instrument Failure Mode: Out of Range Temperature Compensation: Y Level Reference Leg: WET Unique System Desc: Steam Generator #3 Water Level. Average of 2-LT-3-94 and -97 0-1001 span on SG narrow range level transmitters corres-ponds to 75-100% span on the SG wide range level instrument-ation. Top of "U" tubes is approximately 71% on the wide range. Therefore, the entire narrow range span is above the "U" tubes.

ERDS point nunber 11. SG LEVEL 4/D UL1004 Steam Generator 4 Water Level Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parameter: SG LEVEL 4/D Point ID: UL1004 Plant Spec Point Desc: SG 4 NR LEVEL AVG Generic /Cond Dese: Steam Gt..erator 4 Water Level Analog / Digital: A Engr Units / Dig States: 't Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 100 Zero Point

Reference:

Notes Reference Point Notes: Above "U" tubes PROC or SENS: P Number of Sensors: 2 How Processed: AVERAGE Sensor Locations: Remote locat outside of Polar Crane Wall Alarm / Trip Set Points: Low at 25 %, High at 70 % NID power cutoff level: N/A HID power cut-on level: N/A Instrument Failure Mode: Out of Range Temperature Compensation: Y Level Reference Leg: W ET Unique System Desc: Steam Generator #4 Water Leve.'. Average of 2-LT-3 107 and -110. 0-100% span on SG narrow range level transmitters corresponds to 75-100% on the SG wide range level instru-mentation. Top of "U" tubes is approximately 71% on the wide range. Therefore, the entire narrow range span is above the "U" tubes. D i - .....m..a-ii..id

ERDS point nutrher 12. SG PRESS 1/A UP1002 Steam Generator 1 Pressure Date: 12/02/91 Reactor Unit SE2 Data feeder: 1 IIRC ERDS Parameter: SG PRESS 1/A Point ID: UP1002 Plant Spec Point Desc: SG 1 MS PRESSURE AVG Generic /Cond Desc: Steam Generator 1 Pressure Analog / Digital: A Engr Units / Dig States: PSIG Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 1200 Zero Point

Reference:

11/A Reference Point Notes: N/A Proc or sells: P 11 umber of Sensors: 2 How Processed: AVEPAGE Sensor Locations: Remote Location in Penetration Room AlarTrdTrip Set Points: Low at 600 PSIG, High at 1200 PSIG 11ID power cutoff lovel N/A NID power cut-on level li/A Instrument Failure Mode: Out of Range Temperature Compensation: 11 Level koference Leg: h'ET Unique System Desc: Steam Generator #1 Pressure. Average of 2-PT-1-2A and 2-PT-1~2B.

ERDS point number 13. SG PRESS 2/B UP1003 Steam Generator 2 Pressure Date: 12/02/91 Reactor Unit SE2 Data feeder: 1 tiRC ERDS Parameter SG PRESS 2/B Point ID: UP1003 Plant Spec Point Desc: SG 2 MS PRESSURE AVG Generic /Cond Desc: Steam Generatot-2 Pressure Analog / Digital: A Engr Units / Dig States: PdIG Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 1200 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: AVERAGE Sensor Locations: Remote location in East Valve Room Alarm / Trip Set Points: Low at 600 PSIG, High at 1200 PSIG HID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Out of Range Temperature Compensation: N Level Reference Leg: NET Unique System Desc: Steam Generator #2 Pressure. Average of 2-PT-1-9A and 2-PT-1-9B.

l i ERDS point number 14. SG PRESS 3/C UP1004 Steam Generator 3 Pressure Date: 12/02/91 r Reactor Unit SE2 Data feeder: 1 NRC ERDS Parameter: SG PRESS 3/C Point ID:- UP1004 i Plant Spec Point Dese SG 3 MS PRESSURE AVG Generic /Cond Desc: Steam Generator 3 Pressure f Analog / Digital: A Engr Units / Dig States PSIG Engr Units Conversion: li/A t Mininium Instr Range: 0 Maximum Instr Range 1200 Zero Point

Reference:

13/A i Reference Point !!otes: N/A PROC or SE!!S: P Number of Sensors: 2 llow Processed: AVEPAGE ,~ Sensor Locations: Remote Location in East Valve Room Alarm / Trip Set Points: Low at 600 PSIG, High at 1200 PSIG HID power cutoff level; N/A NID power cut-on level: N/A ~ Instrument Failure Moder out of Range e Temperature Compensation: N Level Reference Leg: WET Unique System Desc: Steam Generator #3 Pressure. Average et 2-PT-1-20A and-j 2-PT-1-20B. M 4 9 I f { t W

ERDS point number 15. SG PRESS 4/D UP1005 Steam Generater 4 Pressure Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parametert SG PRESS 4/D Point ID: UP1005 Plant Spec Point Desc SG 4 MS PRESSURE AVG Generic /Cond Desc Steam Generator 4 Plessure Analog / Digital: A Engr Units / Dig States: PSIG Engr Units Conversion: N/A Minimum Instr Bange: 0 Maximum Instr Range: 1200 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: AVERAGE Sensor Locations: Remote locatien in Penetration Room Alarm / Trip Set Points: Low at 600 PSIG, High at 1200 PSIG NID power cutoff level: N/A NID power cut-on level N/A Instrument failure Mode: Out of Range Temperature Compensation: N Level Reference Leg WET Unique System Desc: Steam Generator #4 Pressure. Average of 2-PT-1-27A and S 2-PT-1-27B. I I I l l

-. _. - - - _ - =. _ - ~ _. - - ~ _ _... _- b ERDS point number 16. MH FD FL 1/A UF1000 Stm Gen 1 Main Feedwater Flow 12/02/91 i Dater.. SE2 Reactor Unit Data feeder: 1 NRC ERDS Parameter: MN FD FL 1/A Point ID: UF1000 Plant Spec Point Desc: SG 1 FW FLOW AVG -Generic /Cond Desc: Stm Cen 1 Main Feedwater Flow I Analog / Digital: A ' t Engr Units / Dig States KBH Engr Units Conversion: N/A . Minimum Instr Range: 0 Maximum Instr Range: 4500 3 Zero Point References N/A / I Reference Point Notes: N/A PROC or SENS: P ' i Number. of Sensors: 2 How Processed: AVERAGE Sensor Locations: Stm Gen.fM Line 1, Aux. Bldg i Alattn/ Trip Set Points: High at 4500 KBH Low at 0 KBH i i NID power cutoff level: N/A NID power cut-on level N/A Instrument Failure Mode: Out of Range Temperature Compensation: Y j Level Reference Leg WET . Unique System Desc: Steam Generator 1 Main Feedwater Flow. Average of 2-FT-3-35A- [ and 2-FT-3-35B. j k ge ( f " j r i g "+e w ir + * .w--....m <w, -wy s.,,- +% yr.,.,_ w ,w -o 4 r-r w- - - - * > - e y

,.~.. ERDS point nunber 1*l.- MN FD FL 2/B UF1001 Stm Gen 7. Main Feedwater Flow f Date: 12/02/91 . Reactor Unit: SE2 ' Data feeder: 1 NRC ERDS Parameter: MN FD FL 2/B l Point IDt UF1001 Plant Spec Point Desc: SG 2 EV FLOW AVG l . Generic /Cond Desc: Stm Gen 2 Main Feedwater Flow i Analog / Digital: A Engr Units / Dig States: KBH Engr Units Conversion: N/A. t Minimua Instr Range: 0 ~! Maximum Instr Range: 4500 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 - i How Processed: AVERAGE Sensor Locations: Stm Gen fM Line 2, Aux. Bldg uarm/ Trip Set-Points: High at 4500 KBH Low at 0 KBH NID power cutoff level: N/A - NID power cut-on level N/A Instrument Failure Mode: out of Range Temperature Compensation: Y Level Reference Leg: WET r Unique System Desc Steam Generator 2 Main Feedwater Flow. Average of 2-FT-3-48A-and 2-FT-3-48B. b 3 4 h I 9 9 L I 0-e e-ew..' e-.-v,,v.-., me, ,e',w,,,,, ..,-c., e-r<. w- .r-- y ww-,1 w v.--h -- e v, r w,- y, ,, p --g,-aw% .r-y, y y 9 y e-

.. -.. _. ~. _.., _.. -.. _. _ - ._-- ~..._ _.. _. ERDS point number 18. NN FD FL 3/C UF1002 Stm Gen 3 Main Feedwater Flow a -i Date: 12/02/91 Reactor Unit SE2 Data feeder: 1 i NRC ERDS Parameter: 101 FD FL 3/C Point ID: UF1002 Plant. Spec Point Desc SG 3 IV FLOW AVG - Generic /Cond Desc Stm Gen 3 Main Feedwater Flow l Analog / Digital: A Engr Units / Dig States KBH Engr Units Conversion: N/A - Minimum Instr Range: 0 Maximum Instr Range: 4500 Zero Point

Reference:

N/A Reference Foint Notes: N/A PROC or SElG: P Number of Sensors: 2 How Processed: AVERAGE Sensor Locations: Stm Gen FW Line 3, Aux. Bldg Alarm / Trip Set Points:-- High at 4500 KBH Low at 0 KBH NID power cutoff level N/A [ NID power cut-ou leveh N/A e Instrument Failure Mode Out of Range Tem,nerature compensation: -Y Level Reference Leg: WET Unique System-Dese: Steam Generator 3 Main Feedwater Flow. Average of 2-FT-3-90A and 2-FT-3-90B. b I 'r + m + c,,, n.-,--.-,.....n-- n.- +.. - ~ - - - - -. -

L ERDS point number 19. MN FD FL 4/D UF1003 Stm Gen 4 Main reedwater Flow -Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parameter MN FD FL 4/D Point ID: UF1003 Plant S ec Point Desc SG 4 FW FLOW AVG Generic Cond Desc: Stm Gen 4 Main Feedwater Flow Analog / Digital: A Engr Units / Dig States: 1* BH Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 4500 Zoro Point

Reference:

N/A 1 Reference Point Notes: N/A O PROC or SENS: P Number-of Sensors: 2 How Processed: AVERAGE Sensor Locations: Stm Gen FW-Line 4, Aux. Bldg-Alarm / Trip Set Points: High at 4500 KBH Low at 0 KBH ENID power cutoff level: N/A NID power cut-on level N/A-Instrument Failure Mode: Out of Range . Temperature Compensation: Y Level Reference Leg: WET Unique System Desc: Steam Generator 4 Main Feedwater Flow. Average of 2 *T-3-103A and 2-FT-3-103B. 9._ m

ERDS point number 20. AX FW FL 1/A 2-FM3-163B Stm Gen 1 Auxiliary FW Flow Date: 05/20/92 Reactor Unit SE2 Data feeder: 1 HRC ERDS Parameter: AX FW FL 1/A Point ID: 2-FM3-1638 Plant' Spec Point Desc: STH GEN 1 APW INLET FLOW Generic /Cond Dusc: Stm Gen 1 Auxiliary FW Flow Analog / Digital: A r gr Units / Dig States: GP;l a Engr Units conversion: 1-5 VDCe0-440 GPM Hinimum Instr Range: 0 Maximum Instr Range: 440 Zero Point

Reference:

N/A -Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 ~How-Processed: N/A Sensor Locations: Down Stream of MDAFW, TDAPW tie to S/G1 Alarm / Trip Set Points: No Alarms HID power cutoff level: N/A -NID power cut-on levell N/A Instrument Failure Mode: Low Temperature Compensation: N Level Reference Leg: N/A Unique System Desc There are two electric and one turbine-driven AFWPS. Each electric pump feeds two SG's and the turbine-driven pump feeds all four SG's. The electric and turbine-driven APWPs share.the same piping to each SG. The flow element is located in the shared piping, maximum rated flow for MDAFWPs and turbine-driven AFWP, is 440 and 880 gpm, respectively. lI L m.s- .a .... a <b.,.;,.--.-.m._,, . _,,,,,,,. i.,_.-~~-..,.--, 4.L, -,,,

ERDS point number 21. AX FW FL 2 / B 2-Ft43-15 5 B Stm Gen 2 Auxiliary W Flow Date: 05/20/92 Reactor Unit: SE2 Data feedet: 1 11RC ERDS Parameter: AX F% FL 2/B Point ID: 2-n43-155 B Plant Spec Point Desc: STM GEli 2 AW I!1LET FLOW Generic /Cond Desc Stm Gen 2 Auxiliary FW Flow Analog / Digital: A Engr Units / Dig States: GPM Engr Units Conversion: 1-5 VDC=0-440 <IM Minimum Instr Range: 0 Maximum Instr Range: 440 Zero Point

Reference:

11/A Reference Point 110tes: 11/A PROC or sells: S 11 umber of Sensors: 1 }{ow Processed: 11/A Sensor Locations: Downstream of MDAFW, TDA W tie to S/G 2 Alarm / Trip Set Points: 11o alanns NID power cutoff level: 11/A NID power cut-on level: 11/A Instrument Failure !! ode t Low Temperature Compensation: 11 Level Reference Leg: 11/A Unique System Desc: There are two electric and one turbine-driven AWPS. Each electric pump feeds two SG's and the turbine-driven pump feeds all four SG's. The electric and turbine-driven A WPs share the same piping to each SG. The flow element is located in fhe shared piping, maximum rated flow for MDAWPs and turbine-driven ANP, is 440 and 880 gpm, respectively. d _m

ERDS point number 22. AX IV FL 3/C 2-FM3-147B-Stm Gen 3 Auxiliary FW Flow Date: 05/20/92 Reactor Unit SE2 Data feeder: 1 NRC ERDS Parameter: AX FW FL 3/C Point ID: 2-FM3-14 7 B Plant Spec Point Desc: STM Gk.N 3 AFW INLET FLOW Generic /Cond Desc: Stm Gen 3 Auxiliary FW Flow Analog / Digital A Engr Units / Dig States: GPM Engr Units Conversion: 1-5 VDC=0-440 GPM Minimum Instr Range: 0 Maximum Instr Range: 440 Zero Point

Reference:

N/A Peference Point Notes: N/A PROC or SENS: S Number of-Sensors: 1 Now Processed: N/A Sensor Locations: Downstream of MDAFW,TDAFW tie to S/G 3 Alarm / Trip Set Points: No Alarms HID power cutoff level: N/A HID power cut-on level: N/A Instrument Failure Mode: Low Temperature Compensation: N Level Reference Leg N/A Unique System Dese: There are two electric and one turbine-driven AFWPS. Each-electric pump feeds two SG's and the turbine-driven pump feeds all four SG's. The electric and turbine-driven-AFWPs share the same piping to each SG.- The flow element is located in the shared piping, maximum rated flow for HDAFWPs and turbine-driven APWP, is 440 and 800 gpm, respectively. / o i ;f . 2. -

ERDS point number 23. AX W FL - 4/D 2-FM3-170B Stm Gen 4 Auxiliary IM Flow Date: 05/20/92 Reactor Unit SE2 Data feeder: 1 NRC.ERDS Parameter: AX W FL 4/D Point ID: 2-FM3-170B - Plant Spec Point Desc: STM GEN 4 AEW INLET FLOW Generic /Cond Deses Stm Gen 4 Auxiliary IW Flow Analog / Digital: A - Engr Units / Dig States: GP!: ' Engr Units Conversion: 1-5 VDC=0-440 GPM Minimum Instr Range 0 Maximum Instr Range: 440 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensorst 1 How Processed: N/A Sensor Locations: Downstream of MDAEW,TDAIM tie to S/G 4 Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A ~ NID power cut-on level: N/A - 1nstrument Failure Mode: Low Temperature Compensation: N Level Reference Leg N/A Unique System Desc: There are-two electric and one turbine-driven AFMPS. Each-e electric pump feeds two SG's and the turbine-driven pump feeds all four SG's. The electric and turbine-driven AEMPs share the same piping to each SG. The f.1ow element is located in the shared piping, :nximum rate 6 flow for MDAEMPs and Turbine-driven AEMP, is 440 and 880 gpm,- respectively. Y T l: i l I: y<e.- 4 --g 1,=-- w 13erye.

yaz, w tw - rw-e now-r-,.y.w

-+a.,,- -+ a- -Wet. Y

ERDS point number 24. HL TEMP 1/A 2-TM68-1B Stm Gen 1 Inlet Temperature Date: 05/20/92 Reactor Unit SE2 Data feeder: 1 NRC ERDS Parameter: HL TEMP 1/A Point ID: 2-TM68-1B Plant Spec Point Desc LP 1 IIL WID RNG TEMP Generic /Cond Desc Stm Gen 1 Inlet Temperature Analog / Digital: A

Engr Units / Dig States

DEGF Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 Maximum Instr Range: 700 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: ' S Number of Sensors: 1 How Processed: N/A Sensor Locations: On Loop 1 RCS hot leg piping Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Low Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: RCS hot leg temperature is used in event recovery to provide information for manual control of RCS temperature, -control of the ECCS pumps and RCPs, and verifying-natural circulation or increase blow down. The temperature indication is also used to control RCS pressure and temperature within required limits. El l.: I l-l

ERDS point number 25. HL 7EMP'2/B 2-TM68-24B 8tm Gen 2 InAet Temperature Date: 05/20/92 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parameter: HL TEMP 2/B [ Point ID: 2-TM66-24B Plant Spec Point Desc: LP 2 HL WID RNG TEMP Ceneric/cond Desc: Stm Gen 2 Inlet Temperature Analog / Digital: A Engr Units / Dig States: DEGP Engr Units Conversion: 1-5 VDC=0-700 DEGP Minimum Instr Range: 0 Maximum Instr Range: 700 Zero Point

Reference:

N/A Reference Point Notes: N/A .j PROC or SENSt= S ~I Number of Sensors: 1-How' Processed: N/A i Sensor Locations: On loop 2 RCS Hot' Leg Piping Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A NID power cut-on level: N/A-Instrument Failure Mode: Low Temperature Compensation: N Level Reference Leg N/A Unique System Desc: RCS hot leg temperature is used in event recovery to provide information for manual control of RCS temperature,. control of the ECCS pumps and RCPs, and verifying natural circulation or increase blow down. The temperature indication is also used to control RCS pressure and-temp. within required limits. l, r_ .s. - t

7 I

y,. e. _ I l- . i , +. _ _. - .,-J...;, m._,..-_..._._uJ ~.__.-,. ~ ~..., ,..i.,/-. s ,....,w . _.. -, _. ~, -. -- -.,,1.,.---- .,.,,,y

EROS point number 26. HL TEMP 3/C 2-TM68-43B Stm Gen 3 Inlet Temperature Date: 05/20/92 Reactor Unit: SE2 Data feedert 1 NRC ERDS Parameter: HL TEMP 3/C Point ID: 2-TM68-43B Plant Spec Point Dese: LP 3 HL WID RNG TEMP Generic /Cond Desc: Stm Gen 3 Inlet Temperature I j Analog / Digital: A l Engr Units / Dig States: DEGF Engr Units Co' crsion: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 Maximum Instr Range: 700 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: N/A Sensor Locations: On loop 3 RCS Hot Leg Piping Alarn/ Trip Set Points: No Alarms HID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Low Temperatute Compensation: N Level Reference Leg: N/A Unique System Desc: RCS hot leg temp. is used in event recovery to provide information for manual control of RCS temperature, control of the ECCS pumps and RCPs, and verifying naturs'. circulation or increase blow down. The temperature indication is also used to control RCS pressure and temp. within required lindts. i I

m___ ERDS point number 27.- liL TEMP 4/D 2-TM68-65B Stm Gen 4 Inlet Temperature ^ Date: 05/20/92 Reactor Uniti SE2 Data feeder: 1 NRC ERDS Parameter: HL TEMP 4/D l Point ID: 2-TM68-65B Plant Spec Point Desc LP 4 HL WID RNC TEMP _ Generic /Cond Desc Stm Gen 4 Inlet Temperature Analog / Digital A Engr Units / Dig States DEGP Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range 0 Maximum Instr Range 700 Zero-Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 - f How Processed: N/A Sensor Locations 1 On loop 4 RCS Hot Leg Firing Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A - NID power cut-on levels .H/A Instrument Failure Mode: Low - Temperature Corpensation! N - Level Reference Leg N/A Unique System Desc RCS hot leg temperature is used in event' recovery to provide information for manual control of RCS temperature, control. of the ECCS pumps and RCPs, and verifying natural circulation or increase blow down. The temp. Indication is-also used to control RCS pressure and temperature within required limits. (~. l.. l ll l l l-e l [ r-w e 1 +,-w-,- a .-,.-wr --.mr-eve,.,.s ,c- +- ~ue-, ,,,e. e-c-4 -un, u. c.,=---,-age > - -wg e ,wwn r,,v-

---

p---;

I ERDS point number 28. CL TEMP 1/A 2-TE68-18 Stm Gen 1 Outlet Temperature Date: 05/20/92 heactor Unit SE2 Data-feeder: 1 HRC ERDS Parameter: CL TEMP 1/A - Point ID: 2-TE68-18 i Plant Spoc Point Desc LP 1 CL WID PJ1G TEMP Ceneric/Cond Dese 5tm Gen 1 Outlet Temperature . l Analog / Digital: A Engr Units / Dig States: DEGF Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 4 Maximum Instr Range: 700 Zero Point Hoference: N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: N/A Sensor-Locations: On loop 1 RCS Cold Leg Piping Alarm / Trip Set Points: No Alarms NID power cutoff level N/A NID power cut-on level: N/A Instrument Failure Mode: Low i Temperature Compensation: N Level Reference Leg: N/A Y - Unique System Desc: RCS cold leg temperature is used.in event recovery to l maintain proper relationship between RCS pressure and temperature while cooling down, and providing information to manually control RCS temperature by controlling AF;f flow,. steam generator pressure, and RHR. The temperature indication is also used in maintaining stasie conditions and verifying natural circulation. plant-t 9 L 1- . j 7 e 4 46 e-ar- .w.e-e- w - -w--- -<-c.-e---i --.~.--sw-sm w w yys m y%. res 4 y-y r w- -,,,ygo.< .-egyp.. pvg w r %--w-- (w-p-- y + 4*p g'

..._.. ~... _ _ _ _. ... _.... -. _ _....~.. __. - m - 1 ' ] -I ERDS point number 29. CL TEMP 2/B 2-TE68-41 Stm Gen 2 Outlet Temperature Date: 05/20/92 Reactor _ Unit: SE2 Data feeder: 1 NRC ERDS Parameter: CL TEMP.2/B -point ID: 2-TE68-41 Plant Spec Point Desc LP 2 CL WID RNG TEMP Generic /Cond Desc: Stm Gen 2 Outlut Temperature Analog / Digital: A j ' i.- Engr Units / Dig States: - DEGF Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 Maximum Instr Range: 700 Zero Point

Reference:

N/A Reference Point Notes: N/A j PROC or SENS: S Number of Sensors: 1 How Processed: N/A Sensor Locations: On loop 2 RCS Cold Leg Piping Alarm / Trip Set Points: No Alarms NID power cutoff' level: N/A NID power cut-on level N/A Instrument Failure Mode: Low Temperature Compensation: N i Level Reference Leg N/A Unique System Desc: RCS cold leg temperature is used in. event' recovery to f maintain proper relationship between RCS pressure and i.emperature while cooling down, and providing information to manually control RCS temperature by controlling AFW flow, l steam generator pressure, and-RHR.~ The temperature indication is also used in maintaining stable plant conditions and verify natural circulation. ~ + b + t + N V ~ ~~ c - or e, w-w, -o, er e w w m ver w mel-an,---, --ww- +u .---w--- ur+-re-- wv-,-n,-- 4 -i9~*t

• e M w y a

ERDS point number-30. CL TD4P 3/C 2-TE68-60 Stm Gen 3 Outlet Temperature t Date: 05/20/92 Reactor Unit: SE2 Pita feeder: 1 t4RC ERDS Parameter: CL TEMP 3/C ' Point ID: 2-TE68-60 Plant Spec Point Desc: LP 3 CL WID PJiG TEMP Generic /Cond Deses. Stm Gen 3 Outlet Temperature Analog / Digital: A Engr Units / Dig States DEGE j Engr Units Conversion: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 Maximum Instr Range: 700 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SDJS: S Number of Sensors: 1 llow Processed: N/A Sensor Locations: On loop 3 RCS Cold Leg Piping Alarm / Trip Set Points: No Alarms NID power cutoff levels -N/A NID power cut-on level: N/A Ingrument Failure Mode Low Temperature Compensation N Level Reference Leg: N/A Unique System Desc RCS Cold Leg Temperature is-used in event recovery to maintain proper relationship between RCS pressure and temperature while cooling down, and providing information to manually control RCS temperature by controlling AFW flow,. steam generator pressure, and RllR. The temperature indication.is also used in maintaining stable plant conditions and verify natural circulation. E 4 i P I-- q (< - j - I ~- {: Er -1 . jl ? 1 ' w :-,

1.. A

,,,n.. - -n v-.c. --,..n.,,,2-, -a i,..- .-r, 4,n-+---,~ , = n

, -.. - -, ~..... - c ERDS point number 31. CL TFF.P 4/D TE68-83 Stm Gen 4 Outlet Temperature l 'Date: 05/20/92 ' Reactor Unit SE2 l Data feeder: 1 NRC ERDS Parameter CL TD4P 4/D i Point ID: 2-TE68-83 Plant Spec Point Desc LP 4 CL WID RNG TD4P Generic /Cond Desc Stm Gen 4 Outlet Temperature Analog / Digital: A Engr Units / Dig ates: DEGF Engr Units Con on: 1-5 VDC=0-700 DEGF Minimum Instr Range: 0 + Maximum Instr Range: '700 Zero Point

Reference:

'N/A .i Reference Point Notes: N/A 1 PROC or SENS: S Number of Sensors: 1 How Processed: N/A Sensor Locations:. On loop 4 RCS Cold Leg Piping Alar 1r/ Trip Set Points: No Alarms NID power cutoff level: N/A NID power cut-on level: N/A i Instrument Failure Mode: Low Temperature Compensation. N . i Level Reference Leg: N/A ~ Unique System Desc: RCS Cold Leg temperature is used in event recovery to maintain. proper relationship between.RCS pressure and temp. while cooling down, and providing information to manually- ~ control RCS temperature by controlling AW flow,- steam generator pressure, and RHR..The temperature indication is. also used in maintaining stable plant conditions and verify-natural circulation. s i ^~ L I- -p l-r l '. [ L. - =

..-.... -~. - -... - -.. ERDS point number 32.- RCS PPESSURE UP1000 Reactor Coolant System Pressure Date: 05/21/92 Reactor Unit SE2 t Data feeder: 1 HRC ERDS Parameter: RCS PRESSURE- - Point ID: UP1000 l Plant Spec Point Desc: RCS WIDE PRG PRESS AVG Generic /cond Dese: Reactor Coolant System Pressure e Analog / Digital: A Engr Units / Dig States: PSIG 1 Engr Units Conversion: 1-5 VDC=0-3000 PSIG i Minimum Inste Range: 0 Maximum Instr Range: 3000 Zero Point - derence: N/A heforene nt Notes: N/A PROC or SENS: P Number. of Seasors: 3 How Processed: AVEPAGE Sensor Locations: RCS Hot Legs 1,3,4 Alarm / Trip Set Points: Low 1865 PSIG RxTrip,High 2390 PSIG RxTr i NID power cutoff level N/A NID power cut-on level N/A Instrument Failure Mode: Low Temperature Compensation: N - Level Reference Leg: N/A [ Unique System Desc: RCS pressure determined by this point is the average of 3 signals which measure wide range hot leg pressures. (2-PT-68-62, -66, and -68) RCS pressure indication is util-ized by the operators to identify events for SI actuation and termination, starting and stopping RHR pumps, and con-trolling cooldown to prevent PTS.--The alarm trip setpoints are actuated by pressurized pressure transmitters: - given setpoints. . at the 1-em i r i-t t I 4 - h -.,1,, y m .4 -n.._i-,, Am ;_. -. _...,,..l., ..,#__~_.m

g.., q m~ n.- .u t 14 EPDSLpoint number 334 PRZR LEVEL L-UL1005 Primary System Pressurizer Level' ? =Datei 05/21/92-Reactor Unit SE2 ' Data feeder:_ l- '.NRC ERDS Parameter: PRER LEVEL:- l Point-'ID: UL100! -Plant Spec. Point Desc:- PRZR LEV AVG -Generic /Cond Desc: Primary System Pressurizer Level L. Analog / Digital: .A Engr Unlis/D' States: Engr Units Conversion: 61.6 gals /t at 652 deg F and 2235 psia Minimum Instr Range: 0 - Maximum Instr Range: 100 Zero Point

Reference:

Notes Reference Point Notes: Top of HTR = 14% ' PROC or SENS: P Number of Sensors: -3 How Processed: Average Sensor Locations: TAPS from Pressurizer i ~ Alarm / Trip Set Points: High at 929.Rx Trip -NID power cutoff level: N/A --NID power cut-on level: N/A Instrument Failure Mode: Low Temperature Compensation: 'N Level-Reference Leg: WET h Unique System Desc: The pressurizer level is an averaged' signal'. from 3 level I transmitters. (2-LT-68-320,=-335, -339) Zero reference ' bottom of cylindrical shell. Approximately 63 cu ft of water remains in the pressurizer below.zero reference at 652 deg1 F, and 2235 psia.-Top of heater represents approximately 14% level. Heaters shutdown and. letdown isolated at approa- 'imately l'1% level. h 6 9 5 r1 [i I s -4 ,7 u- .,.-..~5....w,. .. J '4., ,,,r, , v-~4 ..c+--e

-. =.. ~ h.. 4 ERDS point number;34. - RCSLCHG/MU. UF1016-l Primary System _C'arging / Makeup'- 1Date 05/21/92 -Raactor. Unit - SE2:

Data feeder:

1 1NRC-ERDS-Parameter: RCS CHG/MU Point.ID: UF1016 -Plant Spec Point Desc: NET CHG FLO fGeneric/Cond Desc: -Primary System Charging / Makeup q -- Analog / Digital: A -Engr Units / Dig States: GPM Engr Units Conversion: N/A Minimum Instr Range: -200 Maximum Instr Ranoe: 176 Zero Point Puferetace: N/A ' Reference Point Notes: N/A PROC or SENS: P i Number of Sensors: 6 + How~ Processed: Subtraction Sensor Loc; cions: COP Pmp, RCP Seal /Le u #f, RCS Letdown Alarm / Trip Eet Points: No Alarms PID power cutoff-level: N/A NID po;;er cut-on level: N/A Instrument Failure. Mode: Multiple due to munber of sensors - - Temperature Compensation: U Le7el Reference Leg: N/A - Unique System Desc: Tne net charging flowIls calculated by subtracting-RCPlsealf return, and CVCS letdown flow from the discharge-- flow of the ' charging pump..The design charging; flow is between 55 and. 100 GPM during normal' operation.-~ s or M ..k ~ n S 6 l I-bi ( e n et i ep c-r P W' - - ' Iv

..m ~-.., -_ - .I [ERDS' point-~ number 35. : HP SI FLOW. UF1010 High Pressure Safety!Inj.uFlow- -Date:- 05/21/92: d Reactor Unit:- SE2 -

• Data: feeder:-

1- ..NRC ERDS-Parameter:= HP SI FLOW ' Point ID:- .UF1010'-

Plant Spec-Point Desc:

SI FLOW TOTAL > Generic /Cond Descs

High Pressure Safety Inj. Flow-Analog / Digital:

-A Engr Units / Dig States: GPM Engr' Units l Conversion: N/A Minimum Instr Range: 0 Maximum Inscr Range: 1600 Zero Point

Reference:

N/A Reference Point Notes: N/A-PROC or JENS: P Number.of Sensors: 2 How Processed: Sum Sensor Locations: Discharge of Sofety Injection' Pumps Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A NID power cut-onLlevel: N/A Instrument Failure Mode: -Low =4

Temperature Compensation:

N- -Level Reference Leg: N/A -Unique System Desc: The total' flow is measured-by'edding the discharge flow; ~ rates.from two_ Safety Injection Pumps. The total accident flow rates for cold leg injection or-recirculation and hot-1eg recirculation can be monitored by this' point. Safety Injection-Pumps.on miniflow will not show flow since miniflow path is upstream of flow element. The design--flow: 'l rate is 425 GPM 0 2500 ft of head for-each SI Pump. (Sum of 2-FT-63-20 and -151).- b

- 'h

- { ' 4 y ? -5, n ,r-e-,

ERDS point number 36. LP SI FLOW UF10ll Low Pressure Safety Inj. Flow Date: 05/21/92 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parameter: LP SI FLOW Point ID: UF1011 Plant Spec Point Desc: RHR COLD LEG TOTAL FLOW Generic /Cond Desc: Low Pressure Safety Inj. Flow Analog / Digital: A Engr Units / Dig States: GPM Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 11000 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 4 How Processed: Average Sensur Locations: RHR Cold Legs 2,3, and 1,4 Piping Alarm / Trip Set Points: None NID power cutoff level: N/A NID power cut-on level: N/A V Instrument Failure Mode: Low Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: The RHR Cold Leg Flow Rate value is calculated by summing the average flow from cold legs 2 and 3 with the average flow from cold legs 1 and 4. The design flow rate for a RER pump is 3000 GPM at 375 feet of head. Flow sensors include 2-PT-63-91A and -91B, 2-FT-63-92A and -92B. A - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ~ ~ - - - - - ' " - - - ' - - - - " - - - ~ ~ ' - - - - - - - - - - ~ - - - - - - - - - - ~ - - - - ~ ' ^

.. _ ~ .y,, s i ERDS. point number.37.. lCNTMT SMP,WR' "UL10ll: Containment-Sump. Wide Rng Lvi'. ,D5te: 05/20/92; Reactor Unit: SE2 Data feeder 1 -- NRC ERDS Parameter CNTMT SMP WR ' Point ID: UL1011' Plant-Spec-Point Dese:- CNTMT SUMP LEV AVG Generic /Cond.Dese: -Containment Sump' Wide Rng Lvl .. Analog / Digital: A Engr-Units / Dig States: Engr Units Conversion: 1%=2.4' inches of water Minimum Instr Range: 0 Maximum Instr' Range: 100 -Zero Point

Reference:

CNTFLR Reference Point-Notes: The containment floor is elevation 680 PROC or SEriS: P Number of. Sensors: 4 How Processed: Average, Redundant Sensor' Algorithm Sensor Locations: Containment Stmp 3 Alarm / Trip Set: Points: 11% Containment Sump Swapover NID power cutoff level: 'N/A-NID power cut-on level: N/A Instrument Failure Mode: Low Temperature Compensation: N: Level Reference Leg: N/A- _. Unique System Dese: The containment average sump levelLis calculated by a- -redundant-sensor algorithm using four-sump-level transmitters. 'LT-63-176, -177,1 -178,-and>-179. The transfer: from RWST to conteinment sump setpoint-is,11%, which is: approximately 2.5 feet above containment floor elevation. Gallons /% level varies with level in a nearlyclinear rela-tionship. (78,000 gallons). F i o P m- ~. ~.

ERDS point number 38. EFF GAS RAD 1-RM90-400 Release Rt of Radioactive Gases Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parameter: EFF GAS PAD Point ID: 1-RM90-400 Plant Spec Point Dese: Unit 1 Shield Bldg Release Rate Generic /Cond Desc: Release Rt of Radioactive Gases Analog / Digital: A Engr Units / Dig States: uCi/sec Engr Units Conversion: N/A Minimum Instr Range: 10E-2 uCi/sec Maximum Instr Range: 10E10 uCi/sec Zero Point

Reference:

N/A Reference Point Not es: N/A PROC or SENS: S ~~ Number of Sensors: 1 4 How Processed: Sampled Totalized times flow rate Sensor Locations: Auxiliary Bldg Alarm / Trip Set Points: 31,000 uci/sec NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Low on Loss of power Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Unit 1 shield Bldg Exhaust. To obtair. true release rate, Unit 2 monitor must also be checked. Flow path for Unit 1 can be either the Unit 1 or the Unit 2 stack.

ERDS point number 39. EFF GAS RAD 2-FM90-400 Release Rt. of Radioactive Gases Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parameter: EFF GAS PAD Point ID: 2-RM90-400 Plant Spec Point Dese: Unit 2 shield Bldg Release Rate Generic /Cond Des : Release Rt. of Radioactive Gases - Analog / Digital: A Engr Units / Dig States: uCi/sec Engr Units Conversion: N/A Minimum Instr Range: 10E-2 uCi/see Maximum Instr Range: 10E10 uCi/sec Zero Point

Reference:

N/A Reference Point Notes: N/A t PROC or SENS: P Number of Sensors: 3 How Processed: Sampled Totalized times flow rate Sensor Locations: Auxiliary Bldg Alarm / Trip Set Points: 31,000 uCi/sec NID power cutoff level: N/A N1D pouer cut-on level: N/A Instrument Failure Mode: Low on Loss of Power Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Unit 2 shield Uldg exhaust. To obtain true release rate, Unit 1 monite-must also be checked. Flow path for Unit 1 can be either the Unit 1 or the Unit 2 stack. 4 ________m._

ERDS point number 40. EFF LIQ PAD 0-RE90-122 Radioactivity of Released Liquid Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 -NRC ERDS Parameter: EFF LIQ RAD Point ID: 0-RE90-122 ' Plant Spec Point Desc: WDS Liquid-E4 fluent Generic /Cond Desc: Radioactivity of Released Liquid Analog / Digital: A Engr Units / Dig States: CPM Engr Units Conversion: N/A Minimum Instr Range: 10E0 CPM Maximum Instr Range: 10E7 CPM Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: Sum Sensor L' cations: Auxiliary Bldg Alarm / Trip Set Points: Variable NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Low on loss of power Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Waste Disposal System Liquid Effluent This computer point is in counts per minute. h I I i i f i I i

s-g. e 2 m aERDS' point number.41. "COND A/E PAD.-

UR1006 Cond Air Ejector Radioactivity 7

Date:

.12/02'/91 sReactor Unitt-SE2L Data feeder:- 1 NRC'ERDS Parameter: COND A/E RAD- .-. Point' ID: __ UR1006

Plant Spec Point Desc:

Generic /Cond Desc: Low Rango COND VAC PUMP AIR EXH RAD MON .Cond Air Ejector Radioactivity. . Analog / Digital: .A LEngr Units / Dig States' uC1/sec ' Engr Units Conversion: N/A Minimum Instr Range: 17E+39 Maximum Instr' Range: .17E+39 2ero Point

Reference:

N/A - Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 EHow Processed: Cond Flow

• Dose Sensor Locations:

Turbine Bldg - Alarm / Trip 3et Points:- Variable NID power cutoff level: N/A' NID power-cut-on level: N/A Instrument Pailure Mode: Low on loss of power -Temperature Compensation: N Level Reference-Leg: N/A~ i Unique System Desc: Condenser Air Ejector Noble Gas. Monitor: _.,. b This is -one-of three computer. points needed to cover, full-range. This point uses; inputs from 2-FT2-256 and-2-RE90-119 to compute dose-rates. W N R T l' f \\ . I.

...__7.. l ERDS point' number 42_. COND A/E FAD: UR1007' .' Cond Air, Ejector RadioactivityJ g Date: 12/02/91 Reactor Unit: SE2-z r Data 1 feeder:- 1 fNRC EROS Parameter:- 'COND A/E RAD-Point'ID: UR1007 -Plant Spec Point Desc: Mid Rng COND VAC PUMP. AIR EXH RAD. MON

3 Generic /Cond Desc

Cond Air Ejector Radioactivity. Analog /Digitalt-. A 4 . Engr. Units / Dig States: uCi/sec Engr Units Conversion: N/A Minimum Instr Range - .17E+39 -- Maximum Instr Range: .17E+39 Zero Point

Reference:

N/A Reference Point Notes: N/A - PROC or SENS: P - Number of Sensors: 2 How Processed: COND FLOW

• DOSE-Sensor. Locations:

. Turbine Bldg. Alarm / Trip Set Points: Variable NID power cutoff level: N/A NID power cut-on level: N/A Instrument-Failure Mode: Low on Loss of Power Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Condenser Air Ejector Noble Gas' Monitor' This is one of three computer points-needed~to cover full. range. This point uses inputs from 2-PT2-256 & 2-RE90-99 to compute dose rates. d am . 'h a ~ - i. k d{_ 2 c- ,~ .~,. -r

.~ .. ~,......_ ~. _. m P EADS point number 43. - LCOND A/E RAD 'UR1008 JCond Air Ejector Radioactivity-

Date: _

12/02/91'

Reactor: Unit SE2 Data ~ feeder:

1- ~NRC:EPDS Parameter: COND A/E RAD' Point ID:.- UR1008 Plant' Spec Point.'Desc: -Generic /Cond Desc:. -High Rng COND VAC PUMP AIR EXH RAD NON-Cond Air Ejector Radioactivity- ,i Analog / Digital: A-Engr Units / Dig States: uci/see Engr-Units Conversion: N/A Minimum Instr Range: .17E+39 Maximum Instr Range: .17E+39' Zero Point

Reference:

N/A Reference Point Notes: N/A - PROC or SENS: P-Number of Sensors: 2 How Processed: COND FLOW

• DOSE Sensor Locations:

Turbine Bldg Alarm / Trip Set Points: Variable 'NID power cutoff level: N/A NID power cut-on level: 'N/A + ' Instrument Failure Mode: -Low on Loss of Power - Temperature Compensation: N Level Reference Leg: N/A r - Unique System Desc: Condenser Air Ejector Noble' Gas Monitor. This is one of three computer points needed to, cover full-- range. This' point uses inputs.from 2-FT2-256 &.'2-RE90-4.04B to compute dose rates. i:

t.

f.(-~

i. -

{. t -.y... s. 4 b 7 t k --,p .y y

'2RDS point number 44. CNTMNT. RAD UR6021 Containment RadiationLLevel- ?Date: ' '12/02/91 ' Reactor Unit: -SE2 Data feeder: 1 'NRC ERDS Parameter: CNTMNT RAD LPoint ID: UR6021 Plant ~ Spec Point Desc: -Generic /Cond Dese: UPPEP CONTAIlNPRT RADIATION Containment Radiation Level Analog / Digital: A Engr-Units / Dig States: R/ hour Engr Units Conversion: N/A EMinimum Instr Range: 10E0 R/ hour Maximum Instr Range: 10E8 R/ hour Zero Point

Reference:

N/A Reference Point Notes: N/A . PROC or-SENS: P: . Number of Sensors: 2 How Processed: Average Sensor Locations:. Upper Containment Alarm / Trip Set Points: 100 R/ hour = NID power cutoff level: N/A NID power cut-on level: -N/A Instrument Failure Mode: Low on Loss of Power - Temperature' Compensation: N Level Reference Leg: N/A Unique System Dese: Upper Containment High Range Area Monitors Inputs are 2-RE90-271 & 2-RE90-272. w l l. j. . r I r ,~, f u', ~.... -. - - e

.y t

J -. f _ 4 + - ~ r-G f = $ l

CNTMNT RAD

UR6022'- cLower Containment Radiation Lvl.. 'ERDSLpoint:-number 45!-: .q fDate: 12/02/91 E --. Reactor Unit: SE2' Data ~ feeder: 1- - .NRC-ERDS Parameter: . CNTMNT-- RAD - Point-ID:: -UR6022 ~ ~~ -PlantfSpec PointLDesc: LOWER CONTAINMENT RADIATION Generic /Cond Desc: Lower Containment Ladiation Lvl: Analog / Digital: A-

Engr Units / Dig States

R/ hour Engr Units Conversion: N/A Minimum Instr Range: - 10E0 R/ hour -Maximum Instr Range: 10E8 R/ hour -Zero Point-

Reference:

. N/A Reference Point Notes: N/A PROC or SENS: P- -Number of Sensors: 2 How'Procesued: Average Sensor Locations: Lower Containment ' Alarm / Trip Set Points: 100 R/ hour JNID. power cutoff level: N/A NID power-cut-on~ level: N/A' ' Instrument Failure Modre: . Low on Loss of Power-Temperature Compensation: N Level Reference Leg: N/A e -Uniqu_e Eystem Desc: Lower Containment High Range Area Monitor Inputs are 2-RE90-273 and 2-RE90-274. s d up ? I f 4 l L l,. I' l 1:: b ~ m. 4 _,t-

n. - a.;

)

lERDS_ point number 46. MAIN SL 1/A-UR1001 Stm Gen =-1 Steam'Line Rad' Level. Date: 12/02/91 Reactor-Unit: SE2' Data feeder: 1 NRC ERDS Parameter: MAIN SL 1/A -- ' Point ID: UR1001 Plant Spec _ Point Desc: MN STEAM LINE 1 RAD LEV-Generic /Cond Desc: Stm Gen l' Steam Line Rad Level Analog / Digital: A Engr Units / Dig States: uCi/sec Engr Units Conversion: N/A Minimum Instr-Range: -.17E+39 Maximum Instr Range: .17E+39 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: Sampled Totalized Sensor Locations: Main Steam Line prior to ATM reliefs Alarm / Trip Set Points: 8.5

• 10E-3

.NID power cutoff level: N/A - NID power cut-on level: N/A Instrument Failure Mode: Low on loss of power Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Main Steam Line #1 Radioactivity Monitor This value is calculated-as the product of main steam line-release' rate, steam radioactivity, specific vol. of steam, and a conversion constant. The PORV's.for each steam generator are monitored. If a PORV is 'NOT CLOSED', thisivlv is assumed to contribute 890000 lb/hr flow to. atmosphere. There are 5 code safety valves for each S/G. The main steam line header pressure is monitored.to determ-ine condition of each. valve. Each open valve contributes-890000 lb/hr to flow rate._(Rad Mon 2-RM-90-421) d 9 4 r w m---w-e- .me y am-q ?

.4 m. 1 (ERDS_ point number-47i MAIN SL 2/B-UR1002 : -Stm Gen 2-Steam Line Rad Levelt Da t e : -- .12/02/91: Reactor. Unit: SE2 . Data feeders. 1 .NRC ERDS Parameter: MAIN SL 2/B - Point;ID: UR1002 ~ TPlant-Spec Point Desc: MN STEAM LINE 2 RAD LEV Generic /Cond Dese: Stm Gen 2 Steam _Line Rad Level.

Analog / Digital:

A Engr Units / Dig States: uCI/sec -Engr-Units Conversion: N/A Minimum Instr Range: .17E+39 Maximum Instr Range: .17E+39 Zero Point

Reference:

N/A ' Reference Point Notes: N/A PROC or,SENS: P Number of Sensors: 2 How Processed: Sampled Totalized ^ ' Sensor Locations: Main Steam Line prior to ATM_ reliefs Alarm / Trip Set Points: 8.5*10E-3 NID power cutoff level: N/A 'NID. power cut-on level: N/A Instrument Failure Mode: Low on Loss of' Power-Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Main Steam Line #2 Radioactivity Monitor.This value is cale-ulated as product of main. steam line release rate, steam radioactivity, specific vol. of steam,-and a conversion con-- stant. PORV's for each steam generator are monitored. If PORV is.NOT CLOSED', valve is assumed.to contribute 890000 lb/hr flow to atmosphere. 5 code: safety-valves for each S/G. Main steam line header pressure is monitored to determine condition of valves. Each open valve is assumed- -to contribute an additional-890000 lb/hr: to flow-rate. (Rad Mon 2-RM-90 122)' b .E'. e e i -i -es g-w y,9-e-g-9--

s ' ERDS point number 48. MAIN SL 3/C UR1003. Stm Gen 3 Steam Line' Rad' Level. ~ = Date: 112/02/91 Reactor Unit: SE2-Data feeder: 1 NRC ERDS Parameter: MAIN SL'3/C-Point:ID: UR1003 Plant Spec Point Dese: MN-STEAM LINZ 3 RAD' LEV Generic /Cond Desc: Stm Gen 3 Steam Line Rad Level Analog / Digital: A -Engr Units / Dig States: uCI/sec Engr Units Conversion: N/A 141. 'mmm Instr _ Range: 17E+39 Maximum Instr Range: .17E+39 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: Sampled Totalized Sensor Locations: - Main Steam line prior to ATM reliefs Alarm / Trip Set Points: 8.5

• 10E-3

.NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Modet Low on loss of power l Temperature Compensation: N Level Reference Leg: N/A -Unique System Desc: Main Steam Line #3 Radioactivity Monitor.- Value calculated-as product lof main steam line release rate, steam radioactiv ity, specific vol. of steam, and conversion consta.t. PORV's-for each steam generator _are monitored. _If a-PORV is 'NOT CLOSED', valve assumed to contribute 890000 lb/_- hr flow.to atmosphere. .5 code safety valves exist for'each S/G. The main steam line header pressure is monitored to determine condition of valves. Each-open valve-is assumed to contribute _an additional 890000 lb/hr to the. flow rate. Rad Mon 2-RM-90-423 t E

ERDS point number 49. MAIN SL 4/D UR1004 Stm Gen 4 Steam Line Rad Level Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parameter: MAIN SL 4/D Point ID: UR1004 Plant Spec Point Desc: MA STEAM LINE 4 RAD LEV Generic /Cond Desc: Stm Gen 4 Steam Line Rad Level Analog / Digital: A Engr Units / Dig States: uCI/ set Engr Units Conversion: N/A Minimum Instr Range: .17E+39 Maximum Instr Range: .17E+39 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: Sampled Totalized Sensor Locations: Main Lteam Line prior to ATM reliefs Alarm / Trip Set Points : 8.5

• 10E-3 NID power cutoff level:

N/A NID power cut-on level: N/A Instrument Failure Mode: Low on loss of power b Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Main Steam Line #4 Radioactivity Monitor. Value calculated as product of main steam line release rate, steam radioactiv ity, specilic vol. of steam, and conversion constant. PORV's for each steam generator are monitored. If a PORV 'NOT CLOSED', valve assumed to contribute 890000 lb/hr flow to atmosphere. 5 code safety valves exist for each S/G Main steam line header pressure is monitored to. deter:mine condition of valves. Each open va.1.ve assumed to contribute an additional 890000 lb/hr to flow rate. Rad Mon 2-RM-90-424

..-.m~ J ) 1 ERDS point-number.50-SG BD RAD 1A-2-RE90-120-Stui Gen' Header BlowdowntRad Levl'. l i Date 12/02/91-O .IReactor Unit: -SE2 -Data feeders-1 NRC'ERDS_ Parameter: SG BD PAD 1A tr - Point ' ID: 2-RE90-120 _ Plant Spec Point Deses. Steam Generator Blowdown Liquid Monitor rGeneric/Cond Desc: Stm Gen Header Blowdown Rad Levi-Analog / Digital:. A ' Engr Units / Dig States: CPM. Engr Units Conversion: N/A Mini;aum Instr-Range: 10E0 CPM Maximum Instr Range: 10E7 CPM Zero Point P9ference: N/A -t Reference Point Notes: N/A -l -PROC or SENS: S Number of Sensors: 1 How Processed: Sum - Sensor Locations: Turbine Bldg Alarm / Trip-Set Points: Variable NID power cutoff level: N/A -NID-power cut-on level: N/A Instrument Failure Mode: Low in loss of power ?i Tetr.perature Compensation: N Level Reference Leg: N/A . Unique 3ystem Desc: Steam Generator Blowdown Header Liquid Monitor. This is one of two monitors, one of which is valved.out. The monitor is for the header and not -individuar loops. - A L 4 F F s 9 N- -. ~ 5-I .h 4 i r, e y -,L +wn ,..,_x a g. 4 v-,a ,-g-l...,

.~ n.. g f ERDS point number 51. SG BD RAD 2B 2-RC90-121 -Stm Gen Heade.' Blowdown' Rad Levi - Dates-12/02/91 Reactor Unit: SE2 Data feeder: 1 ENRC'ERDS Parameter: SG BD RAD 2B LPoint ID: 2-RE90-121-Plant ~ Spec Point Desc: . Steam Generator Slowdown Liquid Monitor- ' Generic /Cond Desc: -Stm. Gen Header Blowdown Rad Levi-t

Analog / Digital:

A Engr Units / Dig States: CPM ' Engr Unita Conversion: N/A Minimum Instr Range: 10E0 CPM Maximum Instr Range: 10E7 CPM ~ Zero Point

Reference:

.N/A Reference Point Notes: N/A PROC.or SENS: S . Number of Sensors: 1 ' How Processed: . Sum Sensor Locations: Turbine Bldg Alarm / Trip Set Points: Variable NID' power cutoff level: N/A-NID power cut-on level: N/A Instrument Failure Mode: Low on loss of power Temperature Compensation: N Level Reference Leg: -N/A -Unique System Desc: Steam Generator Blowdown Header. Liquid Monitor This is one of two monitors, one'of which is valved out. The monitor is for the header and.not' individual.' loops. n =- l A t a e s w-e,,-,- , + + ,,c. ~, -~e -+,

ERDS point number 52. CTMNT PRESS UP6000 Containment Pressure Date: 12/02/91 Reactor Unit: SE2 Data ieeder: 1 NRC ERDS Parameter: CTMNT PRES 3 Poirt ID: UP6000 Plant Spec Point Desc: CNTMT PRESSUPE AVERAGE Generic /Cond Desc: Centainment Pressure Analog / Digital: A Engr Units / Dig States: PSIG Engr Units Conversion: N/A Minimum Instr Range: -1 Maximum Instr Range: 15 Zero Point Peforence: N/A Reference Pnint Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: Avg Sensor Locations: Annulus Alarm / Trip Set Points: High - 2.31 PSIG High-High 12.0 NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Out of Range Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Containment Pressure. This is actually a differential between containment and the annulus. Average of 2-PDT-30-44 and -45. u

~ , - -....,...,. - - -.. +,... N f ERDS point number 53. - CTMNT TEMP - UT1004' ? containment-Temperature lDate: c12/02/91/ -Reactor Unit: ~ S E2 -'- Data;-feeder:- 1: NRC ERDS Parameter: CTMNT TEMP Point ID: _ _ ~ UT1004- -Plant-spec Point Desc: CONTA1NMENT TEMP MAX DEV Generic /Cond Desc: Containment Temperature Analog / Digital: A Engr Units / Dig States: DEGF _-l Engr Units Conversion: N/A 1 Minimum Instr-Range: 0 Maximum Instr Range: 200 ~.Zero Point

Reference:

N/A -Reference Point Notes: N/A PROC or-SENS: P Number of Sensors: 4-How Processed. Maximum Value Sensor Locations: TE-212A,TE212B,TE212C '& TE212D - Alarm / Trip Set Points: Low at 60 DEGF, High at 130 DEGF NID power cutoff levol: -N/A !NID power cut-on level: N/A Instrument Failure Mode: Fall Low Temperature Compensation: N Level Reference Leg: N/A J LUnique Cystem Desc: Maximum containment Air Temperature. The. temperature ___ j element is inside the Polar Crane Wall -at: intake'.for -lower; compartment-cooler. The value displayed-is the maximum of-2-TE-30-212A, -212B,_-212C, or -212D. + P ( w. S ll t (- .[ p l'y l' 2 k f t. .,{ r --i, _ _ _,. - ~ _. <,

ERDS point number 54. H2 CONC '.'Y10 05 Containment H2 Concentration Date: 12/02/91 Reactor Unit: SE2 -Data feeder: 1 NRC ERDS Parameter: H2 CONC Point ID: UY1005 Plant Spec Point Desc: H2 CONC AVG Generic /Cond Desc: Containment H2 Concentration Analog / Digital: A Engr Units / Dig States: Engr Units Conversion: N/A Minimum Instr Range: 0 Maximum Instr Range: 10 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number of Sensors: 2 How Processed: Avg Sensor Locations: Sample line from both uppr & lowr entmnt Alarm / Trip Set Points: High at 10 % NID power cutofl~ level: N/A NID powet cut-on level: N/A Instrument Failure Mode: Downscale on loss of power Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: Samples H2 gas concentration in containment. Average of 2-H2M143-200 and 2-H2M143-210. e

.7 .n. -- ~ -

)

~ ' ERD 3 point number 55. RWST. LEVEL UL1000 _ Refueling Water-Storage Tank Lev Date: 05/20/92 -Reactor Unit: SE2' l Data feeder: 1-NRC ERDS~ Parameter: RWST LEVEL 5 r.; - -Point-ID:- UL1000 Plant Spec-Point Desc: RWST LEVEL Generic /Cond Desc: Refueling Water Storage Tank Lev - Analog /Digitial: A . Engr Units / Dig States: Engr Units Conversion: 1% is 3500 Gals ' Minimum Instr Fange: 0 j Maximum. Instr Range: 100.0 Zero Point

Reference:

27.6" I Reference Point Notes: 25,000 gal below zero reference PROC or SENS: P Number of Sensors: 2 How Processed: Average, Redundant Sensor Algorithm Sensor Locations: RWST taps 25,000 Gals in tnk below but.tn Alarm / Trip Set Points: Low level 27.4% NID power cutof f level: N/A NID power cut-on level: N/A Instrument Failure Mode: Low -Temperature Compensation: N Level Reference Leg: N/A Unique System Desc: The RWST average level is calculated by a redundant sensor algorithm from the 2 RWST level transmitters.. The-low level' setpoint~1s 27.4%-of span which is 106 1.nches above the-lower tap of the RWST. The RWST tank capacity'is 380,000 1 gallons. 0% = 25,000 gallons,1100% = 380,000 gallons.. LT-63-50 and -51. N y i. i 1( l L l-4 s

...-...~.. ~, -.-. b 4 wRDS point' number 56. . WIND SPEED -MET 001 Wind Speed Upper Level 'Date: 12/02/91 ' Reactor' Unit: SE2-Data feeder: 1 NRC ERDS Parameter: -WIND SPEED-Point'ID: -MET 0011 Plant Spec Point'Desc: 91M VECTOR WIND SPEED - (15 MIN AVG) Generic /Cond Desc: Wind Speed - Upper Level Analog / Digital: A-Engr. Units / Dig States; m/sec Engr Units Conversion: ' Minimum Instr Range: 0. Maximum Instr Range: 44.6 Zero Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: S Number of Sensors: 1 How Processed: Sensor Locations: At the 91 Meter Livel of the Met Tower Alarm / Trip Set Points: No Alarms l - NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: LOW -Temperature Compensation: ' Level Reference Leg: N/A Unique System Desc: t e-i .j f w v $ an a-n- .. - - + -e y, yt

,~ gg. .s. ~. ...~ -. - ~ ~ ~ -. .~ a. Y ERDS-point number: 57. -- WIND SPEED MET 002

Wind 4SpeedL~ Intermediate Leveli

~ i 12/02/911 i Date: SE2 ~ Reactor Unit: . Data: feeder: 1- .;NRCiERDS Parameter: 1 WIND-SPEED 2' - Point, IDi <- MET 002- - Plant-Spec 1 Point Desc: 46M VECTOR WIND SPEED -(IS MINE AVG) - Generic /Cond'Desc: Wind Speed'- Intermediate--Level Analog / Digital: -A q' - Engr Units / Dig States: m/sec- - Engr. Units Conversion: = Minimum Instr Range: 0-Maximum. Instr Range: .44.6 Zero Po nt

Reference:

N/A i Reference Point Notes: N/A PROC or SENS: S Ntunber of' Sensors: 1 How Processed: Sensor Locations: At the _46 Meter Level of the Met' Tower Alarm / Trip Set. Points: No Alarms NID power cutoff level: .. N/A NID power cut-on level: N/A Instrument Failure Mode: LOW - Temperature Compensation: ' Level Reference-Leg: N/A Unique System Desc: e b 't F a 1 4 ;. + .-m n.- .u^. ^

q

.i ERDS point number 58, l WIND SPEED HET003 . Wind. Speed - Lower' Level- <- Da te :_ 12/01/911 = Reactor Unit: -SE2 TData feeder: 1-ENRC.ERDS Parameter: WIND SPEED Point-ID:< MET 003-Plant SpecLPoint-Desc:. 10M' VECTOR. WIND SPEED-(15 MIN-AVG) Generic /Cond Desc: Wind Speed Lower Level' Analog / Digital: A ' Engr Units / Dig States: m/sec Engr Units-Conversion: Minimum Instr Range: 0 Maximum Instr Range: 44.6 Zero Point

Reference:

N/A 1 Reference Point Notes: N/A PROC or SENS: S Number of--Sensors: 1 How Processed: Sensor Locations: At the 10 Meter Level of the Met Tower Alarm / Trip Set Points: No Alarms .NID power cutoff level: N/i-NID power cut-on-level: hb. Instrument Failure Mode: LOW Temperature Compensation: Level Reference-Leg: N/A Unique System Desc: .m l-l: i..- lk l: 1 L t c 1 l-

a e ERDS" point nubber 59.. . WIND DIR-MET 004 ' Wind Direction - Upper-Level--- 0 -Date: 12/02/91

Reactor Unit:

SE2 Data feeder: 1 -- NRC ERDS. Parameter: WIND-DIR-Point:ID:- MET 004 Plant-Spec: Point:Desc: 91M VECTOR WIND DIR (15 MIN AVG) + ' Generic /Cond Desc: Wind Direction - Upper-Level 2 Analog / Digital: A -- Engr Units / Dig States: DEG Engr Units Conversion: ' Minimum Instr Range: 0 Maximum Instr Range: 360 Zero Point

Reference:

N/A l Reference Point Notes: N/A I . PROC or SENS: S Humber of Sensors: 1 -How Processed: -Sensor-Locations: At the 91 Meter Level of the Met Tcwer- -Alarm / Trip Set Points: No Alarms NID power-cutoff level:. N/A NID power cut-on level: N/A ' Instrument Failure Mode: LOW Temperature Compensation: Level-Reference Leg: N/A Unique System Desc: t = 1 W t i f I g i - - - M 7 sy,me, e ~ ~- e v

pg ' ~ ~. 7;. %p- -' ' -j WIND DIR; ~ MET 005 = Wind Direction =- Intermedc-LLeveli ERDS point number.60.: - -t - Date:-- 12/02/91 = Reactor Unit: SE2- - Data' feeder: 1- . NRC ERDS. Parameter: WiUD DIR. - Point ID:-' ~ MET 005-Plant' Spec Point Desc: 46M VECTOR-WIND DIR. (15 MIN-~ AVG) Generic /Cond Desc: -Wind Direction - Intermed. Level-Analog / Digital: A Engr Units / Dig States: DEG Engr Units Conversion: Minimum-Instr Range: 0 - Maximum Instr Range: 360 .Zero Point

Reference:

N/A i Reference Point Notes: N/A i PROC or SENS: S Number of Sensors: 1 How Processed: Sensor Locations: At the-46 Meter Level of the Met Tower - Alarm / Trip Set Points: No Alarms NID power _ cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mooet LOW

Temperature Compensation:

Level Reference Leg: N/A-Unique System Desc: t ema n 4 r i 4 d e-- 4 an-h - w w.m. se4- .g ,3 hp y4 P-* =w-s-4+ ' ha -V w7.<e-r"--

• -m m.

T V

m.....-.. l i 1 '. I ERDS point ab e r _61.- /IND DJR MET 006 Wind Direction - Lower Level r i ...Datat' 12/02/91 i 1 - Reactor Unit SE2 Data feeders -1 NRC ERDS Parameter WIND DIR Point ID MET 006 Plant Spec Puint Desct-10M VECTOR WIND DIR (15 MIN AVG) Genoric/Cond Desc: Wind Direction -_ Lower Level Analog / Dig /Dit States: ital: A

Engr Units DEG Engr Unitt Conversion

- Minimum Instr Range 0 Maximum Instr Range: 360 Zero Point Reference N/A Reference Point Notes: N/A I PROC or SrJIS:- S 1 Number.of Sensors: 1 How Processed: Sensor l'a tions: At the 10 Meter Leve2 of the Met Tower Al a rm/' 3., 'et Points: No Alaems HID power cutoff level N/A HID power cut on level: N/A Instrument Failure Mode LOW Temperature Compensation: i sel Reference Leg N/A ^ Unique System Desc: 'f ? s or t j t' I I - d' t + b -. U ,++,-.,.,,: -.,w. ..e m. c. w,.-.ri.~..., -. .%.,3~,, wm

.m..- _ _ __.~. _ _. _.. _ _. _. - _ .._._.__._m.. i "003 point number 62. STAB CIASS HET007 Air Stability Upper Date: 12/02/91 ? Reactor Unit: SE2 l Data feeder: 1 NRC ERDS Parameters STAB CLASS t Point 3D: MET 007 Plant Spec Point Desc Stability Class Upper Generic /Cond Deses Air Stability Upper Analog / Digital: Engr Units / Dig States: STABA Engr Units Conversion Minimum Ins' r Range Maxin.um Ins r Range: 6 Zero Point Reference N/A Reference Point Notes: N/A PROC or sells: P Number of Sensors: 2 HPt Processed: Sensor Locations: Alarm / Trip Set Points: No Alarms NID power cutoff level: N/A NID power cut-on level: N/A Instrue9nt Failure Modet . LOW Tempeu ture Compensation: Level deforonce Leg: N/A l L.que T.ystem Desc: Differential Temperature Upper-Lower (deg C) Difference Stability - ass Point Value <= 1 -1.9 A 1 l -1.9 -1.7 B- -2 -1.7 -1.5 C 3 -1.5 -0.5 D 4 -0,5 -1.5 E 5 1.5 4.0 F 6 4.0 G 7 F t ? I-h j t r " l l: lia=- = -... ~. a.

. w.., =

m._.- i r i ERDS point number 63. STAB CLASS MET 000 Air Stability f Date: 12/02/91 Reactor Unit: SE2 j Data feeder: 1 NRC ERDS Parameter: STAB CLASS Poin'. ID: MET 000 Plant Spec Point Desc: Stability Class Intermediate Generic /Cond Desc: Air Stability j Analog / Digital: Engr Units / Dig States: STABA Engr Units Conversion: Minimum Instr Range: i i Maximum Instr Range: Zero Point Referencea. N/A Reference Point Notes: N/A i PROC or SENS:~ P Number of Sensors: 2 ' l Ilow Processed: ) Sensor Locations: l Alarm / Trip Set Points: No Alarms r HID power cutoff level N/A E power cut-on level: N/A E Ihatrument Failure Mode: LOW p Temperature Compensation: Level Reference Leg N/A Unique System Desc Differential Temperature Upper-Ir.termediate (deg C) <= Stability-Class ~ Point Value 5 -1.9 A 1 -1.9 -1.7 B 2 -1.7 -1.a C 3 -1.3 -0.5 D 4 -0.5 1.5 E 5 1.5 4.0 F - 6 -] 4.0 ' G - 7 tuk h l ' a 7 J k b, + +-vp',+r.,, W.,.4 -+.-,= r-- u o e v w r.e, r - = =r- -eh - w e E w i,s e ~orw = e-w -e-wg w-- h 'ww,*- i - y - v c- ,--*-h rw-w- -,w+'-

ERDS point nunter 64. STAB CLASS He'7009 Air Strbility Date: 12/02/91 Reactor Unit: SE2 Data feeder: 1 NRC ERDS Parametor: STAB CLASS Point ID: MET 009 Plant Spec Point Desc Stability C1nta 'ower Generic /Cond Desc: Air Stability Analog / Digital: Engr Units / Dig States: S7hBA Engr Units Conversion: Minimum Instr Range: Maximum Instr Range: Zeto Point

Reference:

N/A Reference Point Notes: N/A PROC or SENS: P Number cl Sensors: 2 Ilow Processed: Sensor Locations: Alarm / Trip Set Points: No Alarms MID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: LOW Temperature Compensation: Level Reference Leg: N/A Ur'.que System Desc: Differential Temperature Intermediate-Lower (deg C) <= Stability Class Point Value -1.9 A 1 -1.9 -1.7 B 2 -1.7 -1.5 C 3 -1.5 -0.5 D 4 -0.5 1.5 E 5 1.5 4.0 F 6 4.0 G 7

ERDS point nurber 65. SG LEVEL 1/A 2-LT3-43 Steam Gon 1 Wide Range Water Lev Date: 11/05/92 3eactor Unit: SE2 Data feader: 1 HRC ERDS Parameter: SG LEVEL 1/A Point ID: 2-LT 3-4 3 Plant Spec Point Desc: SC 1 WIDE RNG LEVEL Generic /Cond Desc: Steam Gen 1 Wide Range Water Lev taalog/ Digital: A W Engr Units / Dig States: / Engr Units conversion: 1% = 5.7" Minimum Instr Range: 0.0 Maximum Instr Range: 100.0 Zero Point

Reference:

LOWTAP Reference Point Notes: See Below PROC or SENS: S Nunber of Sensors: 1 llow Processed: Scanned Sensor Locations: See Below Alarm / Trip Set Points: Low at 0%, High at 100% NID power cutoff level: N/A NID power cut-on level: N/A Instrument Failure Mode: Sensor Out Low Temperature Compensation: N Level Reference Leg: WET Unique System Desc: L'. is calibrated for design operating conditions. 0% corres-ponds to lower tap on SG located just above tube plate. 100% corresponds to the upper tap which is 170" above the top of "U" tubes: Top of "U" tubes is approximately 70% level. m-- - - - -_ _ _. - _ _ _ _ ~ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _. _ _ _ _ _ _ _ _ _

.m _-_..__m.__.. . _._ _ = _._ _. ERDS point number 66. SG LEVEL 2/B 2-LT3-56 Steam Gen 2 Wide Range Water Lev Date: 11/05/92 Reactor Unit SE2

Data feeder:

1 HRC ERDS Pars; ster: SG LEVEL 2/B Point IDt 2-LT3-56 Plant Spec Point Desc SG 2 WIDE RNG LEVEL Generic /Cond Desc: Steam Gen 2 Wide Range Water Lev -Analog / Digital: A Engr Units /Diq States: Engr Units Conversion: 1% = 5.7" Minimum Instr Range ?.0 Maximum Instr Range: 100.0 Zero Point Reference! LOWTAP Reference Point Notes: See Below PROC or SENS: S Number of Sensors: 1 i How Processed: Scanned Sensor Locations: See Below Alarm / Trip Sot Points: Low at 0%, High at 100% HID power cutoff level: N/A NID power cut-on leve': N/A Instrument Failure Hvoe: Sensor out Low Temperature Compensation: N Level Reference I.erji Unique System Desc: LT is calibrated for design operating conditions. 0% corres-ponds to lower tapon SG located just above tube plate.-100% corresponds to the upper tap which is 170" abovo the top of "U" tubes: Top of "U" tubes.is approximately 70% level. L w h i I. F b .1 } ..J.R..-...

EPDS point nunber 67. SG LEVEL 3/C 2-LT3-98 steam Gen 3 Wide Range Water Lev Date: 11/05/92 Peactor Unit: SE2 Data feeder: 1 NRC ERDS Parameter: SG LEVEL 3/C Point ID: 2-LT3-98 Plant Spec Point Desc: SG 3 WIDE RNG LEVEL Generic /Cond Dese: Steam Gen 3 Wide Range Water Lev Analog / Digital: A Engr Units /D4.9 States: Engr Units Conversion; 1% - 5.7" Minin.um Inst r Ran,;;: 0.0 14aximum Instr Pa,qe ; 100.0 Zero Point reference: LOWTAP Reference Point Notes: See Below PROC or SENS: S Nunber of Sensors: 1 Uow Processed: Scanned Sensor Locations: See Below Alarm / Trip Set Points: Low on 0%, High on 100% NID power cutoff level: N/A HID power cut-on l m l: N/A Instrument Failure Mode: Sensor out Low 'a s.perature Compensation: N Level Peference Leg: WET Unique System Desc: LT is calibrated for design operating conditions. 0% corres-ponds to lower tap on SG located just above tube plate. 100% corresponds to the upper tap which is 170" above the top a' "U" tubes: Tcp of "U" tubes is approximately 70% level.

ERDS point number ,8. SG LEVEL 4/D 2-LT3-111 Steam Gen 4 Wide Range Water Lev i Date 11/05/92 Reactor Unit SE2 Data feeder: 1 NRC ERDS Parameter: SG LEVEL 4/D Point ID: 2-LT3-111 Plant Spec Point Desc: SG 4 WIDE RNG LEVEL Generic /Cond Desc: Steam Gen 4 Wide Ringe Water Lev l ? /aalog/ Digital: A Engr Units / Dig States: Engr Units Conversion: 1% = 5.7" Minimum Instr Range: 0.0 Maximum Instr Range: 100.0 Zero Point References LCW'4 AP Reference Point Notes: See Below i PROC or SENS: S Numbet of Sensors: 1 How Processed: Scanned Sensor-Locations: See Below t Alarm / Trip Set Points: Low at 0%, High at 100% NID power cutoff level: N/A NID pcwor cut-on levol: N/A Instrument failure Mode: Sensor out Low - Temperature Compensation: N Level Reference Leg: WET Unique System Dwse LT is calibrated for design operating conditions. 0% corres--- ponds to 1ower tap on SG located ju9t above tube plate. 100% corresponds to the upper tap which is 370" above the top of "U" tubes: Top of "U" tubes is approxi:hately 70%. level. o h 't. F g.- 1-a-- erg'uA Q+ g-g ---mwg y ee,rww gW,- -t4-s h g W g a4-- g y g y7 F g 4'sW 7 9pyr--9wy w7g}}