ML031990400
| ML031990400 | |
| Person / Time | |
|---|---|
| Site: | Sequoyah  |
| Issue date: | 07/10/2003 |
| From: | Salas P Tennessee Valley Authority |
| To: | Document Control Desk, Office of Nuclear Reactor Regulation |
| References | |
| Download: ML031990400 (146) | |
Text
Tennessee Valley Authority, Post Office Box 2000, Soddy-Daisy, Tennessee 37384-2000 July 10, 2003 U.S. Nuclear Regulatory Commission ATTN:
Document Control Desk Washington, D.C. 20555 Gentlemen:
In the Matter of Tennessee Valley Authority
)
Docket Nos.50-327 50-328 SEQUOYAH NUCLEAR PLANT (SQN)
EMERGENCY RESPONSE DATA SYSTEM (ERDS)
DATA POINT LIBRARY UPDATE In accordance with 10 CFR 50 Appendix E VI.3.a, TVA is providing an updated Data Point Library for SQN Units 1 The enclosure contains a copy of the revised listing.
and 2.
This letter is being sent in accordance with NRC RIS 2001-05.
If you have any questions concerning this matter, please call me at (423) 843-7170 or J. D. Smith at (423) 843-6672.
edr galas s~ig~fng and Industry Affairs Manager Enclosure P);_'p
ENCLOSURE TENNESSEE VALLEY AUTHORITY SEQUOYAH NUCLEAR PLANT (SQN)
EMERGENCY RESPONSE DATA SYSTEM (ERDS) DATA POINT LIBRARY UPDATE
SEQUOYAH UNIT 1 - ERDS DATA POINT LIBRARY 1
NL 2
NI POWER RNG 3
NI INTER RNG 4
NI SOURC RNG 5
REAC VES LEV 6
TEMP CORE EX 7
SUB MARGIN 8
SG LEVEL 1/A 9
SG LEVEL 21B 10 SG LEVEL 3/C 11 SG LEVEL 4/D 12 SG PRESS 1/A 13 SG PRESS 2/B 14 SG PRESS 3/C 15 SG PRESS 4/D 16 MNFDFL1/A 17 MN FD FL 2B 18 MN FD FL 3/C 19 MN FD FL 4/D 20 AX FW FL 1/A 21 AX FW FL 2/B 22 AX FW FL 3/C 23 AX FW FL 4D 24 HL TEMP 1/A 25 HL TEMP 2/B 26 HL TEMP 3/C 27 HL TEMP 4D 28 CL TEMP 1/A 29 CL TEMP 2/B 30 CL TEMP 3/C 31 CL TEMP 4D 32 RCS PRESSURE SIMULATION 1 UN2000 lUN1015 lUN1014 1 UL6000 1UT1003 1 UT1 005 lUL1001 1 ULl 002 lULl 003 lULl 004 lUP1 002 lUP1003 1UP1004 1 UPi 005 1 U041OC 1U0430C 1U0450C 1 U0470C 1 U0066 1U0067 1 U0068 1 U0069 1T0419A 1T0439A 1T0459A 1T0479A 1T0406A 1T0426A 1T0446A lT0466A lUP1000 INDICATES REAL OR SIMULATED DATA POWER RANGE AVERAGE INTERMEDIATE RANGE FLUX SOURCE RANGE FLUX RVLIS LOWER RANGE AVERAGE CORE EXIT TEMP MAX MIN SUBCOOL SG #1 NR LEVEL AVG SG #2 NR LEVEL AVG SG #3 NR LEVEL AVG SG #4 NR LEVEL AVG SG #1 MS PRESSURE AVG SG #2 MS PRESSURE AVG SG #3 MS PRESSURE AVG SG #4 MS PRESSURE AVG SG #1 CORR FW 1/2 AVG SG #2 CORR FW 1/2 AVG SG #3 CORR FW 1/2 AVG SG #4 CORR FW 1/2 AVG SG #1 AUX FEEDWATER FLOW SG #2 AUX FEEDWATER FLOW SG #3 AUX FEEDWATER FLOW SG #4 AUX FEEDWATER FLOW LOOP 1 HOT LEG WIDE RANGE TEMP LOOP 2 HOT LEG WIDE RANGE TEMP LOOP 3 HOT LEG WIDE RANGE TEMP LOOP 4 HOT LEG WIDE RANGE TEMP LOOP 1 COLD LEG WIDE RANGE TEMP LOOP 2 COLD LEG WIDE RANGE TEMP LOOP 3 COLD LEG WIDE RANGE TEMP LOOP 4 COLD LEG WIDE RANGE TEMP RCS WIDE RANGE PRESSURE AVERAGE
33 PRZR LEVEL 34 RCS CHG/MU 35 HP SI FLOW 36 LP SI FLOW 37 CNTMT SMP WR 38 EFF GAS RAD 39 EFF GAS RAD 40 EFF LIQ RAD 41 COND A/E RAD 42 COND A/E RAD 43 COND AE RAD 44 CNTMNT RAD 45 CNTMNT RAD 46 MAIN SL 1/A 47 MAIN SL 2/B 48 MAIN SL 3/C 49 MAIN SL 4/D 50 SG BD RAD 1A 51 SG BD RAD 1B 52 CTMNT PRESS 53 CTMNT TEMP 54 H2CONC 55 RWST LEVEL 56 WIND SPEED 57 WIND SPEED 58 WIND SPEED 59 WIND DIR 60 WIND DIR 61 WIND DIR 62 STAB CLASS 63 STAB CLASS 64 STAB CLASS 65 SG LEVEL 1/A 66 SG LEVEL 2/B 1 UL 005 1UF1016 1UF1010 lUFI1011 1UL1011 1 R9102A 1 R9102XA OR1022A 1 URi 006 lUR1007 1 UR1008 1 UR6021 1 UR6022 1 URi 001 1 URI 002 lUR1003 1UR1004 1 R1020A 1 R1021A 1 U P6000 1QV0020 1UY 1005 1 UL1 000 METOOt MET002 MET003 MET004 METoo5 MET006 MET007 MET008 METoo9 1 L0403A 1L0423A PZR LEVEL AVERAGE NET CHG FLO SI FLOW TOTAL RHR COLD LEG TOTAL FLOW CONTAINMENT SUMP LEV AVG UNIT 1 SHIELD BLDG RELEASE RATE UNIT 2 SHIELD BLDG RELEASE RATE WDS LIQUID EFFLUENT RADIATION COND VAC EXH LOW RNG RELEASE RATE COND VAC EXH MID RNG RELEASE RATE COND VAC EXH HI RNG RELEASE RATE UPPER CNTMT RADIATION LOWER CNTMT RADIATION SG #1 RELEASE RATE SG #2 RELEASE RATE SG #3 RELEASE RATE SG #4 RELEASE RATE SG BLOWDOWN RADIATION SG BLOWDOWN RADIATION CNTMT PRESSURE AVERAGE CALCULATED LOWER CTMT TEMP - LCTTEMP H2 CONC AVG RWST LEV AVG 91M VECTOR WIND SPEED (15 MIN AVG) 46M VECTOR WIND SPEED (15 MIN AVG) 1OM VECTOR WIND SPEED (15 MIN AVG) 91M VECTOR WIND DIR (15 MIN AVG) 46M VECTOR WIND DIR (15 MIN AVG) 1OM VECTOR WIND DIR (15 MIN AVG)
Stability Class Upper Stability Class Intermediate Stability Class Lower SG #1 WIDE RANGE LEVEL SG #2 WIDE RANGE LEVEL
67 SG LEVEL 3/C 68 SG LEVEL 4/D 69 CORE FLOW 1 L0443A 1 L0463A 1 PA003 SG #3 WIDE RANGE LEVEL SG #4 WIDE RANGE LEVEL TOTAL REACTOR COOLANT FLOW
ERDS Point Number:
NI.
SIMULATION Real/Simulated Data Date:
Reactor Unit:
Data Feeder.
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A NL SIMULATION INDICATES REAL OR SIMULATED DATA Real/Simulated Data D
REAIJSIMUL N/A N/A N/A N/A N/A P
0 0 If Real, 1 if Simulated N/A N/A NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A N/A N
N/A This Point is used to indicate whether the data is coming from the Unit or from the Simulator.
ERDS Point Number:
2 NI POWER RNG 1 UN2000 Reactor Power - Power Range Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
07/01/2003 SE1 N/A NI POWER RNG 1 UN2000 POWER RANGE AVERAGE Reactor Power - Power Range A
0-5V = 0-120% Power (Linear) 0 120 N/A N/A PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 8
Average Upper & Lower excore detectors No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Probable Downscale (No forcing function)
N N/A Upper & Lower detection inputs for 1 -NE-92-41, -42, -43, -44. Average of 1 -XM-92-5005E (N-41),
-5006E (N-42), -5007E (N-43), -5008E (N-44). Input from Point ID's 1 N0049A, 1 N0050A, 1 N0051 A, 1 N0052A.
~~~~~~~~~~~~~~~~~-
ERDS Point Number:
3 NI INTER RNG IUN101 RReactor Power - Intermediate Rng Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
07/01/2003 SE1 N/A NI INTER RNG 1UN1015 INTERMEDIATE RANGE FLUX Reactor Power - Intermediate Rng A
0-5.2V = 1 OE-8-200 I E-8 200 N/A N/A PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
p 2
Average AZ 0 deg & 180 deg Excore No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Probable Downscale (no forcing function)
N N/A Average of XX-92-5003 (channel N35) and -5004 (channel N36).
Input from Point ID's 1 N0035A and 1 N0036A.
Engineering Units Conversion is logarithmic.
ERDS Point Number:
4 NI SOURC RNG 1UN1014 Reactor Power - Source Range Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogIDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A NI SOURC RNG 1UN1014 SOURCE RANGE FLUX Reactor Power - Source Range A
CPS 0-SV= 1-1E6 1.0 E0 1.0 E6 N/A N/A p
4 Average AZ 0 deg. & 1 80 deg. Excore No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Probable Downscale (No forcing function)
N N/A Average of XX-92-5001 (channel N31) & -5002 (channel N32)
(2 chambers/detector).
Input from Point ID's 1N0031A and 1N0032A.
Engineering Units Conversion is logarithmic.
ERDS Point Number:
REAC VES LEV 1 UL6000 Reactor Vessel Water Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A REAC VES LEV 1 UL6000 RVLIS LOWER RANGE AVERAGE Reactor Vessel Water Level A
N/A 0
70 RV BOT TAF = 62%
P 2
Average Remote location in the Penetration Rooms High at 50 %
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET 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 vessel to the hot leg during natural circulation conditions. Average of 1 -LM-68-368E and -371 E. Top of core = 62.3%.
Input from computer point ID's 1 L2307A and 1 L2308A.
ERDS Point Number 6
TEMP CORE EX 1Ui raT1003 Highest Core ExKt Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SEI N/A TEMP CORE EX 1 UT1 003 CORE EXIT TEMP MAX Highest Core Exit Temperature A
DEGF TYPE K TC Table 200 2300 N/A N/A PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 65 Highest Throughout core No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Eliminates open TC's N
N/A INCORE Thermocouples processed through Exosensorn System.
The system is divisionalized into 2 divisions. Total of 65 elements. The numeric is the higher of 1 T1 081 A (1 -XM-94-101-69) and 1 T1 087A (1 -XM-94-102-75).
200 DEGF is lower calibrated range but will read lower than this.
ERDS Point Number:
7 SUB MARGIN 1UT1005 Saturation Temp. - Highest CET Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE1 N/A SUB MARGIN 1UT1005 MIN SUBCOOL Saturation Temp. - Highest CET A
DEGF TYPE K TC Table
-36 200 N/A N/A PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 67 Lowest Subcooling CETs throughout core/Remote Pentr Rm PT Low at 15 DEGF, High at 130 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Eliminates open TCs N
N/A INCORE Thermocouples processed through Exosensor' System.
The system is divisionalized into 2 divisions. Total of 65 thermocouples and 2 pressure transmitters. Uses highest CET with lowest RCS pressure (1 -PT-68-66-78 and 1 -PT-68-69-79).
Input from 1T1074A (1-XM-94-101-66) and 1 Ti 077A (1 -XM-94-102-72).
ERDS Point Number:
SG LEVEL 1/A ULS n
tv1001 Steam Generator 1 Water Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE1 N/A SG LEVEL 1/A 1 UL1 001 SG #1 NR LEVEL AVG Steam Generator 1 Water Level A
% LEVEL N/A 0
100 Notes Above U" tubes PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 2
Average Located outside of Polar Crane Wall Lowat25%, High at 70%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range y
WET Steam Generator #1 Water Level. Avg. of 1-LT-3-39 and -42.
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 range. Therefore, the entire narrow range span is above the "U' tubes. Input from Point ID's 1 L0401A and 1 L0400A.
ERDS Point Number:
9 SG LEVEL 21B 1 UL1002 Steam Generator 2 Water Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE1 N/A SG LEVEL 2/B 1UL1002 SG #2 NR LEVEL AVG Steam Generator 2 Water Level A
% LEVEL N/A 0
100 Notes Above U" tubes PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 2
Average Located outside of Polar Crane Wall Lowat25%, High at 70%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A NA Out of Range Y
WET Steam Generator #2 Water Level. Avg. of 1 -LT-3-52 and -55.
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 range. Therefore, the entire narrow range span is above the Umtubes. Inputfrom Point ID's L0421Aand L0420A.
ERDS Point Number:
10 SG LEVEL 3/C 1 UL1003 Steam Generator 3 Water Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE1 N/A SG LEVEL 3/C 1 UL1003 SG #3 NR LEVEL AVG Steam Generator 3 Water Level A
% LEVEL N/A 0
100 Notes Above U" tubes PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 2
Average Located outside of Polar Crane Wall Low at 25 %, High at 70 %
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range y
WET Steam Generator #3 Water Level. Avg. of 1 -LT-3-94 and -97.
0-1 000/ 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. Input from Point ID's 1L0441A and 1L0440A.
ERDS Point Number:
1 1 SG LEVEL 41D lULI 004 Steam Generator 4 Water Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE1 N/A SG LEVEL 4/D 1UL1004 SG #4 NR LEVEL AVG Steam Generator 4 Water Level A
% LEVEL N/A 0
100 Notes Above U" tubes PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 2
Average Located outside of Polar Crane Wall Low at 25 %, High at 70 %
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET Steam Generator #4 Water Level. Avg. of 1 -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 'UN tubes. Input from Point ID's 1 L0461 A an 1 L0460A.
ERDS Point Number 12 SG PRESS 1/A IUP1002 Steam Generator Pressure Date:
Reactor Unit:
Data Feeder NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A SG PRESS 1/A 1UP1 002 SG #1 MS PRESSURE AVG Steam Generator 1 Pressure A
PSIG N/A 0
1200 N/A N/A P
2 Average Remote Location in Penetration Room Low at 700 PSIG, High at 1020 PSIG NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
WET Steam Generator #1 Pressure. Average of 1-PT-1 -2A and 1 -PT-1 -2B.
Input from computer point ID's 1 P0400A and 1 P0401 A.
ERDS Polnt Number:
13 SG PRESS 2/B IUP1003 Steam Generator 2 Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A SG PRESS 2/B lUP1 003 SG #2 MS PRESSURE AVG Steam Generator 2 Pressure A
PSIG N/A 0
1200 N/A N/A P
2 Average Remote location in East Valve Room Low at 700 PSIG, High at 1020 PSIG NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
WET Steam Generator #2 Pressure. Average of 1-PT-1 -9A and 1-PT-1-9B.
Input from computer point ID's 1 P0420A and 1 P0421 A.
ERDS Point Number:
14 SG PRESS 31C IUP1004 Steam Generator 3 Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A SG PRESS 3/C lUP1 004 SG #3 MS PRESSURE AVG Steam Generator 3 Pressure A
PSIG N/A 0
1200 N/A N/A P
2 Average Remote Location in East Valve Room Low at 700 PSIG, High at 1020 PSIG NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
WET Steam Generator #3 Pressure. Average of 1-PT-1 -20A and 1-PT-1-20B.
Input from computer point ID's 1 P0440A and 1P0441A.
ERDS Point Number:
15 SG PRESS 4/D IUPI 005 Steam Generator 4 Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A SG PRESS 4/D lUPi 005 SG #4 MS PRESSURE AVG Steam Generator 4 Pressure A
PSIG N/A 0
1200 N/A N/A P
2 Average Remote location in Penetration Room Low at 700 PSIG, High at 1020 PSIG NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
WET Steam Generator #4 Pressure. Average of 1-PT-1 -27A and 1 -PT-1 -27B.
Input from computer point ID's 1 P0460A and 1 P0461 A.
ERDS Point Number:
16 MN FD FL I/A 1U0410C Stm Gen Main Feedwater Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A MN FD FL 1/A 1 U041OC SG #1 CORR FW 1/2 AVG Stm Gen 1 Main Feedwater Flow A
MLB/HR N/A 0
4.5 N/A N/A P
3 Average Stm Gen FW Line 1, Aux. Bldg High at 3.9 MLB/HR, Hi-Hi at 4.0 MLB/HR NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET Steam Generator 1 Main Feedwater Flow. Average of 1 F0403A (1 -FT-3-35A) and 1 F0404A (1 -FT-3-35B). Corrected for temperature T0418A (1 -TE-3-36).
ERDS Point Number:
17 MN FD FL 2/1 1U0430C Stm Gen 2 Main Feedwater Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A MN FD FL 21B 1U0430C SG #2 CORR FW 1/2 AVG Stm Gen 2 Main Feedwater Flow A
MLB/HR N/A 0
4.5 N/A N/A P
3 Average Stm Gen FW Line 2, Aux Bldg High at 3.9 MLB/HR, Hi-Hi at 4.0 MLB/HR NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET Steam Generator 2 Main Feedwater Flow. Average of 1 F0423A (1-FT-3-48A) and 1 F0424A (1-FT-3-48B). Corrected for Temperature 1T0438A (1-TE-3-49).
ERDS Point Number:
18 MN FD FL 3C 1U0450C Stm Gen 3 Mlain Feedwater Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A MN FD FL 3/C 1U0450C SG #3 CORR FW 1/2 AVG Stm Gen 3 Main Feedwater Flow A
MLB/HR N/A 0
4.5 N/A N/A P
3 Average Stm Gen FW Line 3, Aux. Bldg High at 3.9 MLB/HR, Hi-Hi at 4.0 MLB/HR NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range y
WET Steam Generator 3 Main Feedwater Flow. Average of 1 F0443A (1-FT-3-90A) and 1 F0444A (1 -FT-3-90B). Corrected for Temperature 1T0458A (1-TE-3-91).
ERDS Point Number:
19 MN FD FL 4D 1U0470C Stm Gen 4 Mlain Feediwater Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A MN FD FL 4/D 1 U0470C SG #4 CORR FW 1/2 AVG Stm Gen 4 Main Feedwater Flow A
MLB/HR N/A 0
4.5 N/A N/A p
3 Average Stm Gen FW Line 4, Aux. Bldg High at 3.9 MLB/HR, Hi-Hi at 4.0 MLB/HR NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET Steam Generator 4 Main Feedwater Flow. Average of 1 F0463A (1 -FT-3-103A) and 1 F0464A (1 -FT-3-103B). Corrected for Temperature T0478A (1-TE-3-104).
ERDS Point Number 20 AX FW FL 1/A 1U066 Stm Gen Auxiliary FW Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A AX FW FL 1/A 1 U0066 SG #1 AUX FEEDWATER FLOW Stm Gen 1 Auxiliary FW Flow A
GPM N/A 0
440 N/A N/A P
1 Pseudo point caps flow at 440 GPM Downstream of MDAFW, TDAFW tie to S/G 1 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 MDAFWPs and turbine-driven AFWP, is 440 and 880 gpm, respectively. Input from 1-FM-3-163C (computer point ID 1 F1 049A).
ERDS Point Number:
21 AX FW FL 21B 1 U0067 Stm Gen 2 Auxiliary FW Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A AX FW FL 2/B 1 U0067 SG #2 AUX FEEDWATER FLOW Stm Gen 2 Auxiliary FW Flow A
GPM N/A 0
440 N/A N/A P
1 Pseudo point caps flow at 440 GPM Downstream of MDAFW, TDAFW tie to S/G 2 No alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A There are two electric and one turbine-driven AFWPS. Each electric pump feeds two SGs 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 MDAFWPs and turbine-driven AFWP, is 440 and 880 gpm, respectively. Input from 1 -FM-3-1 55C (computer point ID 1 F1 048A).
ERDS Point Number:
22 AX FW FL 3/C 1 U0068 Stm Gen 3 Auxiliary FW Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A AX FW FL 3/C 1 U0068 SG #3 AUX FEEDWATER FLOW Stm Gen 3 Auxiliary FW Flow A
GPM N/A 0
440 N/A N/A P
1 Pseudo point caps flow at 440 GPM Downstream of MDAFW, TDAFW tie to S/G 3 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 MDAFWPs and turbine-driven AFWP, is 440 and 880 gpm, respectively. Input from 1-FM-3-147C (computer point ID 1 F1047A).
ERDS Point Number:
23 AX FW FL 4/D 1 U0069 Stm Gen 4 Auxiliary FW Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
AlarmlTrip Set Points:
07/01/2003 SE1 N/A AX FW FL 4/D 1 U0069 SG #4 AUX FEEDWATER FLOW Stm Gen 4 Auxiliary FW Flow A
GPM N/A 0
440 N/A N/A P
1 Pseudo point caps flow at 440 GPM Downstream of MDAFW, TDAFW tie to S/G 4 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 MDAFWPs and Turbine-driven AFWP, is 440 and 880 gpm, respectively. Input from 1 -FM-3-170C (computer point ID 1 F1 050A).
ERDS Point Number:
24 HL TEMP I/A 1T0419A Stm Gen 1 Inlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A HL TEMP 1/A 1T041 9A LOOP 1 HOT LEG WIDE RANGE TEMP Stm Gen 1 Inlet Temperature A
DEGF N/A 0
700 N/A N/A S
N/A On Loop 1 RCS Hot Leg piping No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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. Input from 1-TM-68-11B.
ERDS Point Number:
25 HL TEMP 2/B 1T0439A Stm Gen 2 Inlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A HL TEMP 2/B 1T0439A LOOP 2 HOT LEG WIDE RANGE TEMP Stm Gen 2 Inlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 2 RCS Hot Leg Piping No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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. Input from 1-TM-68-24B.
ERDS Point Number:
26 HL TEMP 3/C 1T04S9A Stm Gen 3 Inlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A HL TEMP 31C 1T0459A LOOP 3 HOT LEG WIDE RANGE TEMP Stm Gen 3 Inlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 3 RCS Hot Leg Piping No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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. Input from 1-TM-68-43B.
ERDS Point Number:
27 HL TEMP 4/D 1T0479A Stm Gen 4 Inlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A HL TEMP 4/D 1 T0479A LOOP 4 HOT LEG WIDE RANGE TEMP Stm Gen 4 Inlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 4 RCS Hot Leg Piping No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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. Input from 1-TM-68-65B.
ERDS Point Number:
28 CL TEMP 1/A 1TO406A Stm Gen 1 Outlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A CL TEMP 1/A 1T0406A LOOP 1 COLD LEG WIDE RANGE TEMP Stm Gen 1 Outlet Temperature A
DEGF N/A 0
700 N/A N/A S
N/A On Loop 1 RCS Cold Leg Piping High at 650 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 RHR. The temperature indication is also used in maintaining stable plant conditions and verifying natural circulation.
Input from 1-TM-68-18B.
ERDS Point Number:
29 CL TEMP 21B 1T0426A Stm Gen 2 Outlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A CL TEMP 2/B 1 T0426A LOOP 2 COLD LEG WIDE RANGE TEMP Stm Gen 2 Outlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 2 RCS Cold Leg Piping High at 650 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 RHR. The temperature indication is also used in maintaining stable plant conditions and verifying natural circulation.
Input from 1 -TM-68-41 B.
ERDS Point Number:
30 CL TEMP 3/C 1T0446A Stm Gen 3 Outlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A CL TEMP 3/C 1 T0446A LOOP 3 COLD LEG WIDE RANGE TEMP Stm Gen 3 Outlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 3 RCS Cold Leg Piping High at 660 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 RHR. The temperature indication is also used in maintaining stable plant conditions and verifying natural circulation.
Input from 1 -TM-68-60B.
ERDS Point Number:
31 CL TEMP 4/1D 1T0466A Stm Gen 4 Outlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A CL TEMP 4/D 1T0466A LOOP 4 COLD LEG WIDE RANGE TEMP Stm Gen 4 Outlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 4 RCS Cold Leg Piping High at 650 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 RHR. The temperature indication is also used in maintaining stable plant conditions and verifying natural circulation.
Input from 1 -TM-68-83B.
ERDS Point Number:
32 RCS PRESSURE 1UP1000 Reactor Coolant System Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A RCS PRESSURE I UPi 000 RCS WIDE RANGE PRESSURE AVERAGE Reactor Coolant System Pressure A
PSIG N/A 0
3000 N/A N/A P
3 Average RCS Hot Legs 1, 3, 4 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A RCS pressure determined by this point is the average of 3 signals, which measure wide range hot leg pressures (1-PT-68-62, -66, and -69). 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.
Input from computer point ID's 1 P2000A, 1P0129A, and 1P2001A.
ERDS Point Number:
33 PRZR LEVEL I ULI 005 Primary System Pressurizer Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A PRZR LEVEL I UL1 005 PZR LEVEL AVERAGE Primary System Pressurizer Level A
% LEVEL N/A 0
100 Notes Top of HTR = 14%
P 3
Average TAPs from Pressurizer No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
WET The pressurizer level is an averaged signal from 3 level transmitters (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 isolated at approx-imately 1/o level. Input from computer point ID's 1 L0482A, 1 L0481 A, and 1 L0480A.
ERDS Point Number:
34 RCS CHG/MU IUF1016 Primary System Charging / Makeup Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A RCS CHG/MU 1UF1 016 NET CHG FLO Primary System Charging / Makeup A
GPM N/A
-200 176 N/A N/A P
6 Subtraction CCP Pmp, RCP SeaVLeakoff, RCS Letdown No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Multiple due to number of sensors N
N/A 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. nputfrom Point ID's 1F0128A, 1F0134A, 1F1018A, 11020A, 1F1022A, and 1F1024A.
ERDS Point Ntumber:
35 HP Si FLOW 1UF1010 High Pressure Safety Inj. Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A HP S FLOW 1UF1010 SI FLOW TOTAL High Pressure Safety Inj. Flow A
GPM N/A 0
1600 N/A N/A P
2 Sum Discharge of Safety Injection Pumps No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A The total flow is measured by adding the discharge flow rates from two Safety Injection Pumps. The total accident flow rates for cold leg injection or recirculation and hot leg 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 rate is 425 GPM @ 2500 ft of head for each SI Pump.
(Sum of 1-FT-63-20and-151). Inputfrom Point ID's lF1059A and 1 F1066A.
ERDS Point Number:
eF1011 Low Pressure Safety InJ. Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A LP SI FLOW 1UF1011 RHR COLD LEG TOTAL FLOW Low Pressure Safety Inj. Flow A
GPM N/A 0
9000 N/A N/A P
4 Sum RHR Cold Legs 2, 3 and 1, 4 Piping No Alarms NID Power Cutoff Level:
N ID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A The RHR Cold Leg Flow Rate value is calculated by summing the flow from cold legs 2 and 3 with the flow from cold legs 1 and 4. The design flow rate for a RHR pump is 3000 GPM at 375 feet of head. Flow sensors are 1 -FT-63-91 B and 1 -FT-63-92B.
Input from computer point ID's 1 F1061 A and 1 F1 064A.
ERDS Point Number:
37 CNTMT SMP WR 111.11-101111 Containment Sump Wide Rng LvI Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
05/1411997 SE1 N/A CNTMT SMP WR lUL1011 CONTAINMENT SUMP LEV AVG Containment Sump Wide Rng Lvl A
% LEVEL N/A 0
100 CNTFLR The containment floor is elevation 680 PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
P 4
Average, Redundant Sensor Algorithm Containment Sump No Alarms N/A N/A Low N
N/A The containment average sump level is calculated by a redundant sensor algorithm using four sump level transmitters. LT-63-176, -177, -178, and -179. The transfer from RWST to containment sump setpoint is 11%, which is approximately 2.5 feet above containment floor elevation.
Gallons/' level varies with level in a nearly linear rela-tionship. (78,000 gallons)
Input from computer point ID's 1 L1052A, 1 L1053A, 1 L1054A, and 1 Ll055A.
EROS Point Number:
38 EFF GAS RAD 1R9102A Release Rt of Radioactive Gases Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A EFF GAS RAD 1 R9102A UNIT 1 SHIELD BLDG RELEASE RATE Release Rt of Radioactive Gases A
uai/sec N/A 1.0 E-2 1.0 El0 N/A N/A S
1 Sampled Totalized times flow rate Auxiliary Bldg 220,000 uCVsec NID Power Cutoff Level.
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Unit 1 Shield Bldg Exhaust. To obtain true release rate, Unit 2 monitor must also be checked.
Input from 1 -RM-90-400.
ERDS Point Number:
39 EFF GAS RAD I R91O2XA Release Rt. of Radioactive Gases Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A EFF GAS RAD 1 R91 02XA UNIT 2 SHIELD BLDG RELEASE RATE Release Rt. of Radioactive Gases A
uCi/sec N/A 1.0 E-2 1.0 El 0 N/A N/A S
1 Sampled Totalized times flow rate Auxiliary Bldg 220,000 uCVsec NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Unit 2 Shield Bldg Exhaust. To obtain true release rate, Unit 1 monitor must also be checked.
Input from 2-RM-90-400.
ERDS Point Number:
40 EFF LIQ RAD OR1022A Radioactivity of Released Lquid Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
0511411997 SE1 N/A EFF LIQ RAD OR1 022A WDS LIQUID EFFLUENT RADIATION Radioactivity of Released Liquid A
CPM NA 1.0 El 1.0 E7 N/A N/A S
1 N/A Auxiliary Bldg Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
NWA N/A Low on Loss of Power N
N/A Waste Disposal System Liquid Effluent.
This computer point is in counts per minute.
Input from 0-RE-90-122.
ERDS Point Number:
41 COND A/E RAD 1UR1006 Cond Air Eector Radioactivity Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A COND AE RAD 1 UR1 006 COND VAC EXH LOW RNG RELEASE RATE Cond Air Ejector Radioactivity A
uCi/sec N/A 0.0 E0 1.0 E8 N/A N/A p
2 Cond Flow
- Dose Turbine Bldg Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Condenser Air Ejector Noble Gas Monitor.
This is one of three computer points needed to cover full range. This point uses inputs from 1 -FT-2-256 with 1 -RM-90-119 or 1 -RM-90-99 to compute dose rates.
These two monitors cover the same range, one of which may be valved out. This point utilizes the monitor with the highest radiation level.
Input from computer point ID's 1 F2700A with 1 ROOO1 A or 1 ROO1 4A.
ERDS Point Number:
42 COND A/E RAD IUR1007 Cond Air Eector Radioactivity Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A COND A/E RAD 1UR1007 COND VAC EXH MID RNG RELEASE RATE Cond Air Ejector Radioactivity A
uCi/sec N/A 0.0 EO 1.0 E8 N/A N/A P
2 Cond Flow
- Dose Turbine Bldg.
Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A NIA Low on Loss of Power N
N/A Condenser Air Ejector Noble Gas Monitor This is one of three computer points needed to cover full range. This point uses inputs from 1 -FT-2-256 & 1 -RM-90-255 to compute dose rates. Input from computer point ID's 1 F2700A and 1 R0022A.
ERDS Point Number:
43 COND A/E RAD I URI 008 Cond Ar Elector Radioactivity Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A COND AE RAD 1 UR1 008 COND VAC EXH Hi RNG RELEASE RATE Cond Air Ejector Radioactivity A
uC/sec N/A 0.0 EO 1.0 E8 N/A N/A p
2 Cond Flow
- Dose Turbine Bldg Variable N ID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Condenser Air Ejector Noble Gas Monitor.
This is one of three computer points needed to cover full range. This point uses inputs from 1-FT-2-256 & 1-RM-90-256 to compute dose rates. Input from computer point ID's 1 F2700A and 1 R9023A.
ERDS Point Number:
44 CNTMNT RAD 1UR6021 Upper Contai nment Radilat ion Lvl Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A CNTMNT RAD 1 UR6021 UPPER CNTMT RADIATION Upper Containment Radiation Lv A
R/HR N/A 1.0 E0 1.0 E8 N/A N/A P
2 Average Upper Containment 1 00 R/HR NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Upper Containment High Range Area Monitors.
Inputs are 1-RM-90-271 & 1-RM-90-272.
Input from computer point ID's 1 R9018A and 1 R901 9A.
ERDS Point Number:
45 CNTMNT RAD 1 UR6022 Lower Containment Radiation Lvl Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A CNTMNT RAD 1 UR6022 LOWER CNTMT RADIATION Lower Containment Radiation Lvi A
R/HR N/A 1.0 E0 1.0 E8 N/A N/A IP 2
Average Lower Containment No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Lower Containment High Range Area Monitor.
Inputs are 1 -RM-90-273 & 1 -RM-90-274 (computer point ID's R9020A and R9021 A).
ERDS Point Number:
46 MAIN SL II/A lURm Se1001 Stm Gen Steam Lne Rad Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A MAIN SL 1/A 1 UR1 001 SG #1 RELEASE RATE Stm Gen 1 Steam Line Rad Level A
uCi/sec N/A 0.0 EO 1.0 E8 N/A NIA P
4 Sampled Totalized Main Steam Line prior to ATM reliefs No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Value calculated as product of SG #1 release rate, radioactivity, specific volume, and a conversion constant.
1 -PCV-1 -5 position (1 PD1 002) is monitored & if PORV is 'NOT CLOSED' valve is assumed to contribute 890,000 lb/hr flow to the atmosphere. 5 code safety valves for each S/G. MS line header pressure (1-PT-1-2A & 2B) is monitored to determine condition of valves. Each open valve is assumed to contribute 890,000 lb/hr to the flow rate.
Input from rad monitor 1-RM-90-421 (computer point 1 R9027A).
ERDS Point Number:
47 MAIN SL 2B 1 UR1002 Stm Gen 2 Steam Lne Rad Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 NIA MAIN SL 2/B 1 URi 002 SG #2 RELEASE RATE Stm Gen 2 Steam Line Rad Level A
uCi/sec N/A 0.0 EO 1.0 E8 N/A N/A P
4 Sampled Totalized Main Steam Line prior to ATM reliefs No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Value calculated as product of SG #2 release rate, radioactivity, specific volume, and a conversion constant.
1-PCV-1-12 position (1 PD1 003) is monitored & if PORV is 'NOT CLOSED' valve is assumed to contribute 890,000 lb/hr flow to the atmosphere. 5 code safety valves for each SIG. MS line header pressure (1-PT-1 -9A & 9B) is monitored to determine condition of valves. Each open valve is assumed to contribute 890,000 lb/hr to the flow rate.
Input from rad monitor 1-RM-90-422 (computer point 1 R9028A).
ERDS Point Number:
48 MAIN SL 3/C 1UR1003 Stm Gen 3 Steam Lne Rad Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A MAIN SL 3/C 1UR1003 SG #3 RELEASE RATE Stm Gen 3 Steam Line Rad Level A
ua/sec N/A 0.0 EO 1.0 E8 N/A N/A P
4 Sampled Totalized Main Steam Line prior to ATM reliefs No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Value calculated as product of SG #3 release rate, radioactivity, specific volume, and a conversion constant.
1 -PCV-1 -23 position (1 PD1 004) is monitored & if PORV is 'NOT CLOSED' valve is assumed to contribute 890,000 lb/hr flow to the atmosphere. 5 code safety valves for each S/G. MS line header pressure (-PT-1-20A & 20B) is monitored to determine condition of valves. Each open valve Is assumed to contribute 890,000 lb/hr to the flow rate.
Input from rad monitor 1-RM-90-423 (computer point 1 R9029A).
ERDS Point Number:
49 MAIN SL 4/D 1UR1004 Stm Gen 4 Steam Line Rad Level Date:
Reactor Unit:
Data Feeder NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogtDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A MAIN SL 4/D 1 UR1 004 SG #4 RELEASE RATE Stm Gen 4 Steam Line Rad Level A
uCi/sec N/A 0.0 EO 1.0 E8 N/A N/A P
4 Sampled Totalized Main Steam Line prior to ATM reliefs No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Value calculated as product of SG #4 release rate, radioactivity, specific volume, and a conversion constant.
1 -PCV-1-30 position (1 PD1005) is monitored & if PORV is 'NOT CLOSED' valve is assumed to contribute 890,000 lb/hr flow to the atmosphere. 5 code safety valves for each S/G. MS line header pressure (1-PT-1 -27A & 27B) is monitored to determine condition of valves. Each open valve is assumed to contribute 890,000 lb/hr to the flow rate.
Input from rad monitor 1 -RM-90-424 (computer point 1 R9030A).
ERDS Point Number:
0 SG BD RAD 1A 1R1020A Stm Gen Header Blowdown Rad Levi Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A SG BD RAD 1A 1 Ri 020A SG BLOWDOWN RADIATION Stm Gen Header Blowdown Rad Levi A
CPM N/A 1.0 El 1.0 E7 N/A N/A S
1 N/A Turbine Bldg Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Steam Generator Blowdown Header Liquid Monitor.
This is one of two monitors, one of which may be valved out.
The monitor is for the header and not individual loops.
Input from 1 -RM-90-120A.
ERDS Point Number:
1 SG BD RAD B 1R1021A Stm Gen Header Blowdown Rad Levi Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A SG BD RAD 1B 1R1021A SG BLOWDOWN RADIATION Stm Gen Header Blowdown Rad Levi A
CPM N/A 1.0 El 1.0 E7 N/A N/A S
1 N/A Turbine Bldg Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Steam Generator Blowdown Header Liquid Monitor.
This is one of two monitors, one of which may be valved out.
The monitor is for the header and not individual loops.
Input from 1-RM-90-1 21 A.
ERDS Point Number:
2 CTMNT PRESS 1UP6000 Containment Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
05/14/1997 SE1 N/A CTMNT PRESS 1 UP6000 CNTMT PRESSURE AVERAGE Containment Pressure A
PSIG N/A
-1 15 N/A N/A P
2 Average Annulus No Alarms N/A N/A Out of Range N
N/A Containment Pressure. This is actually a differential between containment and the annulus. Average of 1 -PDT-30-44 and -45 (computer points 1 P1 002A and 1 P1 003A).
ERDS Point Number:
3 CTMNT TEMP 1QV0020 Containment Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A CTMNT TEMP 1 QV0020 CALCULATED LOWER CTMT TEMP - LCTTEMP Containment Temperature A
DEGF N/A 0
200 N/A N/A P
19 Weighted Average Lower Containment Low at 60 DEGF, High at 130 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Fail Low N
N/A Weighted Average of 19 Lower Containment Temp. Elements.
ERDS Point Number:
64 H2 CONC 1UY1005 Containment H2 Concentration Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogtDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A H2 CONC 1 UY1 005 H2 CONC AVG Containment H2 Concentration A
% H2V NA 0
10 N/A N/A P
2 Average Sample line from both uppr & lowr cntmnt High at 10 %
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Downscale on loss of power N
N/A Samples H2 gas concentration in containment. Average of 1 -H2AN-43-200 and 1 -H2AN-43-21 0 (computer points 1 C1 OOOA and iC1001A). Analyzers are normally valved out.
ERDS Point Number:
55 RWST LEVEL IUL1000 Refueling Water Storage Tank Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
07/01/2003 SE1 N/A RWST LEVEL 1 UL1 000 RWST LEV AVG Refueling Water Storage Tank Lev Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
A
% LEVEL 0-387 IN = 0-100%
0 100 27.6" 20,000 gal below zero reference PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
P 2
Average RWST taps 20,000 Gals in tnk at 0% Level No Alarms N/A N/A Low N
N/A The RWST average level is calculated by a redundant sensor algorithm from the 2 RWST level transmitters.
The RWST tank capacity is 380,000 gallons.
0% = 20,000 gallons, 100% = 380,000 gallons.
Input from 1 -LT-63-50 and -51 (computer points 1 L2201A and 1 L1041A).
ERDS Point Number:
6 WIND SPEED MET001 Wind Speed - Upper Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A WIND SPEED MET001 91M VECTOR WIND SPEED (15 MIN AVG)
Wind Speed - Upper Level A
m/sec N/A 0
44.6 N/A N/A S
1 N/A At the 91 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Polnt Number:
57 WIND SPEED MET002 Wind Seed - Intermediate evel Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A WIND SPEED MET002 46M VECTOR WIND SPEED (15 MIN AVG)
Wind Speed - Intermediate Level A
rn/sec N/A 0
44.6 N/A N/A S
1 N/A At the 46 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Polnt Number:
58 WIND SPEED MET003 Wind Speed - Lower Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogtDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A WIND SPEED MET003 IOM VECTOR WIND SPEED (15 MIN AVG)
Wind Speed - Lower Level A
m/sec N/A 0
44.6 N/A N/A S
1 N/A At the 10 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Point Number:
59 WIND DIR MET004 Wind Direction - Upper Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A WIND DIR MET004 91M VECTOR WIND DIR (15 MIN AVG)
Wind Direction - Upper Level A
DEG NA 0
360 N/A N/A S
1 N/A At the 91 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Point Number:
60 WIND DIR METOWn Wind Drection - Intermed. Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Anal o gDigital :
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A WIND DIR MET005 46M VECTOR WIND DIR (15 MIN AVG)
Wind Direction - Intermed. Level A
DEG N/A 0
360 N/A N/A S
1 N/A At the 46 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
EROS Point Number:
61 WIND DIR MET006 Wind Drectlon - Lower Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE1 N/A WIND DIR MET006 1 OM VECTOR WIND DIR (15 MIN AVG)
Wind Direction - Lower Level A
DEG N/A 0
360 N/A N/A S
1 N/A At the 10 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Point Number:
62 STAB CLASS MET007 Air Stability - Upper Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation Level Reference Leg:
Unique System Desc:
05/14/1997 SE1 N/A STAB CLASS MET007 Stability Class Upper Air Stability - Upper A
STABA See Below See Below See Below N/A N/A P
2 See Below Met Tower No Alarms N/A N/A LOW N
N/A Differential Temperature Upper-Lower (deg C)
Difference 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 Number:
63 STAB CLASS MET008 Air Stabillty - Intermediate Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr UnitslDig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
05/14/1997 SE1 N/A STAB CLASS MET008 Stability Class Intermediate Air Stability - Intermediate A
STABA See Below See Below See Below N/A N/A P
2 See Below Met Tower No Alarms N/A N/A LOW N
N/A Differential Temperature Upper-intermediate (deg C)
Difference 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 Number:
64 STAB CLASS METOO9 Air Stabillty - Lower Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogIDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
05/14/1997 SE1 N/A STAB CLASS MET009 Stability Class Lower Air Stability - Lower A
STABA See Below See Below See Below N/A N/A P
2 See Below Met Tower No Alarms N/A N/A LOW N
N/A Differential Temperature Intermediate-Lower (deg C)
Difference Stability Class Point Value c=
-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 Number 65 SG LEVEL 1/A 1 L0403A Steam Gen I Wide Range Water Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A SG LEVEL 1/A 1 L0403A SG #1 WIDE RANGE LEVEL Steam Gen 1 Wide Range Water Lev A
% LEVEL 1% = 5.5" 0.0 100.0 LOWTAP See Below S
1 N/A See Below Low at 60%, High at 80%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Sensor Out Low N
WET LT is calibrated for design operating conditions. 0% corres-ponds to lower tap on SG located 12" above tube plate. 100%
corresponds to the upper tap which is 194" above the top of
'U tubes: Top of Us tubes is approximately 70% level.
Input from 1-LT-3-43.
ERDS Point Number:
66 SG LEVEL 23 1L0423A Steam Gen 2 Wide Range Water Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A SG LEVEL 2/B 1 L0423A SG #2 WIDE RANGE LEVEL Steam Gen 2 Wide Range Water Lev A
% LEVEL 1% =5.5" 0.0 100.0 LOWTAP See Below S
1 N/A See Below Low at 60%, High at 80%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Sensor Out Low N
WET LT is calibrated for design operating conditions. 0% corres-ponds to lower tap on SG located 12" above tube plate. 100%
corresponds to the upper tap which is 194" above the top of
'U" tubes: Top of "U" tubes is approximately 70%I level.
Input from 1 -LT-3-56.
ERDS Point N~umber:
67 SG LEVEL 3C 1 L0443A Steam Gen 3 Wide Range Water Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/0112003 SE1 N/A SG LEVEL 3/C 1 L0443A SG #3 WIDE RANGE LEVEL Steam Gen 3 Wide Range Water Lev A
% LEVEL 1% = 5.5, 0.0 100.0 LOWTAP See Below S
1 N/A See Below Low at 60%, High at 80/
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Sensor Out Low N
WET LT is calibrated for design operating conditions. 0% corres-ponds to lower tap on SG located 1 2' above tube plate. 100%
corresponds to the upper tap which is 194" above the top of BU tubes: Top of 'U" tubes is approximately 70% level.
Input from 1 -LT-3-98.
ERDS Point Number:
68 SG LEVEL 411) 1L0463A Steam Gen 4 Wide Range Water Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A SG LEVEL 4/D 1L0463A SG #4 WIDE RANGE LEVEL Steam Gen 4 Wide Range Water Lev A
% LEVEL 1% = 5.5" 0.0 100.0 LOWTAP See Below S
1 N/A See Below Low at 60%, High at 80%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Sensor Out Low N
WET LT Is calibrated for design operating conditions. 0% corres-ponds to lower tap on SG located 12" above tube plate. 100%
corresponds to the upper tap which is 194N above the top of
'U tubes: Top of UT tubes is approximately 70% level.
Input from 1 -LT-3-1 11.
ERDS Point Number:
69 CORE FLOW 1PA003 Total RCS Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE1 N/A CORE FLOW 1 PA003 TOTAL REACTOR COOLANT FLOW Total RCS Flow A
% FLOW N/A 0.0 120.0 N/A See Below P
4 Average RCS Flow loops 1-4 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
N/A This point is generated from an Average of 1 -FT-68-6A, -29A,
-48A, -71 A. Input from Point ID's F0400A, 1 F0420A, 1 F0440A, and 1 F0460A. Design Flow = 138 MLB/HR per Loop.
It SEQUOYAH UNIT 2 - ERDS DATA POINT LIBRARY 1
NL 2
N POWER RNG 3
NI INTER RNG 4
N SOURC RNG 5
REAC VES LEV 6
TEMP CORE EX 7
SUB MARGIN 8
SG LEVEL 1/A 9
SG LEVEL 2/B 10 SG LEVEL 3/C 11 SG LEVEL 4D 12 SG PRESS 1/A 13 SG PRESS 2/B 14 SG PRESS 3/C 15 SG PRESS 4/D 16 MNFDFL1/A 17 MN FD FL21B 18 MN FD FL 3/C 19 MN FD FL 4/D 20 AX FW FL 1/A 21 AX FW FL 2B 22 AX FW FL 3/C 23 AX FW FL 4/D 24 HL TEMP 1/A 25 HL TEMP 2/B 26 HL TEMP 3/C 27 HL TEMP 4D 28 CL TEMP 1/A 29 CL TEMP 2B 30 CL TEMP 3/C 31 CL TEMP 4/D 32 RCS PRESSURE SIMULATION 2UN2000 2UN1 015 2UN1014 2UL6000 2UT1003 2UT1005 2UL1 001 2UL1 002 2UL1 003 2UL1 004 2UP1 002 2UP1003 2UP1004 2UP1005 2U0410C 2U0430C 2U0450C 2U0470C 2U0066 2U0067 2U0068 2U0069 2T0419A 2T0439A 2T0459A 2T0479A 2T0406A 2T0426A 2T0446A 2T0466A 2UP1000 INDICATES REAL OR SIMULATED DATA POWER RANGE AVERAGE INTERMEDIATE RANGE FLUX SOURCE RANGE FLUX RVLIS LOWER RANGE AVERAGE CORE EXIT TEMP MAX MIN SUBCOOL SG #1 NR LEVEL AVG SG #2 NR LEVEL AVG SG #3 NR LEVEL AVG SG #4 NR LEVEL AVG SG #1 MS PRESSURE AVG SG #2 MS PRESSURE AVG SG #3 MS PRESSURE AVG SG #4 MS PRESSURE AVG SG #1 CORR FW 1/2 AVG SG #2 CORR FW 1/2 AVG SG #3 CORR FW 1/2 AVG SG #4 CORR FW 1/2 AVG SG #1 AUX FEEDWATER FLOW SG #2 AUX FEEDWATER FLOW SG #3 AUX FEEDWATER FLOW SG #4 AUX FEEDWATER FLOW LOOP 1 HOT LEG WIDE RANGE TEMP LOOP 2 HOT LEG WIDE RANGE TEMP LOOP 3 HOT LEG WIDE RANGE TEMP LOOP 4 HOT LEG WIDE RANGE TEMP LOOP 1 COLD LEG WIDE RANGE TEMP LOOP 2 COLD LEG WIDE RANGE TEMP LOOP 3 COLD LEG WIDE RANGE TEMP LOOP 4 COLD LEG WIDE RANGE TEMP RCS WIDE RANGE PRESSURE AVERAGE
33 PRZR LEVEL 34 RCS CHG/MU 35 HP SI FLOW 36 LP SI FLOW 37 CNTMT SMP WR 38 EFF GAS RAD 39 EFF GAS RAD 40 EFF LIQ RAD 41 COND A/E RAD 42 COND A/E RAD 43 COND A/E RAD 44 CNTMNT RAD 45 CNTMNT RAD 46 MAIN SL 1/A 47 MAIN SL 2/B 48 MAIN SL 3/C 49 MAIN SL 4/D 50 SG BD RAD 1A 51 SG BD RAD 1B 52 CTMNT PRESS 53 CTMNT TEMP 54 H2 CONC 55 RWST LEVEL 56 WIND SPEED 57 WIND SPEED 58 WIND SPEED 59 WIND DIR 60 WIND DIR 61 WIND DIR 62 STAB CLASS 63 STAB CLASS 64 STAB CLASS 65 SG LEVEL 1/A 66 SG LEVEL 21B 2UL1 005 2UF1016 2UF1010 2UF1011 2UL1011 2R91O2XA 2R9102A OR1022A 2UR1006 2UR1007 2UR1008 2UR6021 2UR6022 2UR1001 2UR1002 2UR1003 2UR1004 2R1020A 2R1021A 2UP6000 2QV0020 2UY1 005 2UL1000 MET001 MET002 MET003 MET004 MET005 MET006 MET007 MET008 METOO9 2L0403A 2L0423A PZR LEVEL AVERAGE NET CHG FLO SI FLOW TOTAL RHR COLD LEG TOTAL FLOW CONTAINMENT SUMP LEV AVG UNIT 1 SHIELD BLDG RELEASE RATE SHIELD BUILDING VENT RADIATION WDS LIQUID EFFLUENT RADIATION COND VAC EXH LOW RNG RELEASE RATE COND VAC EXH MID RNG RELEASE RATE COND VAC EXH Hi RNG RELEASE RATE UPPER CNTMT RADIATION LOWER CNTMT RADIATION SG #1 RELEASE RATE SG #2 RELEASE RATE SG #3 RELEASE RATE SG #4 RELEASE RATE SG BLOWDOWN RADIATION SG BLOWDOWN RADIATION CNTMT PRESSURE AVERAGE CALCULATED LOWER CTMT TEMP - LCTTEMP H2 CONC AVG RWST LEV AVG 91M VECTOR WIND SPEED (15 MIN AVG) 46M VECTOR WIND SPEED (15 MIN AVG) 1OM VECTOR WIND SPEED (15 MIN AVG) 91M VECTOR WIND DIR (15 MIN AVG) 46M VECTOR WIND DIR (15 MIN AVG) tOM VECTOR WIND DIR (15 MIN AVG)
Stability Class Upper Stability Class Intermediate Stability Class Lower SG #1 WIDE RANGE LEVEL SG #2 WIDE RANGE LEVEL
67 SG LEVEL 3/C 68 SG LEVEL 4/D 69 CORE FLOW 2L0443A 2L0463A 2PA003 SG #3 WIDE RANGE LEVEL SG #4 WIDE RANGE LEVEL TOTAL REACTOR COOLANT FLOW
ERDS Point Number:
NL SIMULATION Real/Simulated Data Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
05/14/1997 SE2 N/A NL SIMULATION INDICATES REAL OR SIMULATED DATA Real/Simulated Data D
REAUSIMUL N/A N/A N/A N/A N/A P
0 0 If Real, 1 if Simulated N/A N/A N/A N/A N/A N
N/A This Point is used to indicate whether the data is coming from the Unit or from the Simulator.
ERDS Point Number:
2 NI POWER RNG 2UN2000 Reactor Power - Power Range Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
07/01/2003 SE2 N/A NI POWER RNG 2UN2000 POWER RANGE AVERAGE Reactor Power - Power Range A
0-5V = 0-120% Power (Linear) 0 120 N/A N/A PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 8
Average Upper & Lower excore detectors No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Probable Downscale (No forcing function)
N N/A Upper & Lower detection inputs for 2-NE-92-41, -42, -43, -44. Average of 2-XM-92-5005E (N-41),
-5006E (N-42), -5007E (N-43), -008E (N-44). Input from Point ID's 2N0049A, 2N0050A, 2N0051 A, 2N0052A.
ERDS Point Number 3
NI INTER RNG 2UN1016 Reactor Power - Intermediate Rng Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
07/01/2003 SE2 N/A NI INTER RNG 2UN1015 INTERMEDIATE RANGE FLUX Reactor Power - Intermediate Rng A
0 - 5.2V = 10E 200 1iE-8 200 N/A N/A PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 2
Average AZ 0 deg & 180 deg Excore No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Probable Downscale (no forcing function)
N N/A Average of XX-92-5003 (channel N35) and -5004 (channel N36).
Input from Point ID's 2N0035A and 2N0036A.
Engineering Units Conversion is logarithmic.
ERDS Point Number:
4 NI SOURC RNG 2UN1014 Reactor Power - Source Range Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
07/01/2003 SE2 N/A NI SOURC RNG 2UN1014 SOURCE RANGE FLUX Reactor Power - Source Range A
CPS 0 - 5V = 1 - 1 E6 1.0 EO 1.0 E6 N/A N/A PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 4
Average AZ 0 deg. & 180 deg. Excore No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Probable Downscale (No forcing function)
N N/A Average of XX-92-5001 (channel N31) & -5002 (channel N32)
(2 chambers/detector).
Input from Point ID's 2N0031 A and 2N0032A.
Engineering Units Conversion is logarithmic.
ERDS Point Number:
REAC VES LEV 2UL6000 Reactor essel Water Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A REAC VES LEV 2UL6000 RVLIS LOWER RANGE AVERAGE Reactor Vessel Water Level A
N/A 0
70 RV BOT TAF = 62%
p 2
Average Remote location in the Penetration Rooms High at 50%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET 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 vessel to the hot leg during natural circulation conditions. Average of 2-LM-68-368E and -371 E. Top of core = 62.3%.
Input from computer point ID's 2L2307A and 2L2308A.
ERDS Polnt Number:
6 TEMP CORE EX 2UT1003 Highest Core Exit Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogtDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE2 N/A TEMP CORE EX 2UT1 003 CORE EXIT TEMP MAX Highest Core Exit Temperature A
DEGF TYPE K TC Table 200 2300 N/A N/A PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 65 Highest Throughout core No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Eliminates open TCs N
N/A INCORE Thermocouples processed through 'Exosensor" System.
The system is divisionalized into 2 divisions. Total of 65 elements. The numeric is the higher of 2T1 081 A (2-XM-94-101-69) and 2T1 087A (2-XM-94-102-75).
200 DEGF is lower calibrated range but will read lower than this.
ERDS Point Number:
7 SUB MARGIN 2UT1005 Saturation Temp. - Highest CET Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE2 N/A SUB MARGIN 2UT1 005 MIN SUBCOOL Saturation Temp. - Highest CET A
DEGF TYPE K TC Table
-35 200 N/A N/A PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarrn/Trip Set Points:
P 67 Lowest Subcooling CETs throughout core/Remote Pentr Rm PT Low at 15 DEGF, High at 130 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Eliminates open TC's N
N/A INCORE Thermocouples processed through Exosensor System.
The system is divisionalized into 2 divisions. Total of 65 thermocouples and 2 pressure transmitters. Uses highest CET with lowest RCS pressure (2-PT-68-66-78 and 2-PT-68-69-79).
Input from 2T1 074A (2-XM-94-101-66) and 2T1 077A (2-XM-94-102-72).
ERDS Point Number:
8 SG LEVEL 1/A 2UL1001 Steam Generator Water Level Date:
Reactor Unit:
Data Feeder NRC ERDS Parameter.
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE2 N/A SG LEVEL 1/A 2UL1 001 SG #1 NR LEVEL AVG Steam Generator 1 Water Level A
% LEVEL N/A 0
100 Notes Above UP tubes PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 2
Average Located outside of Polar Crane Wall Low at 25 %, High at 70 %
N ID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET Steam Generator #1 Water Level. Avg. of 2-LT-3-39 and -42.
0-100/o 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. Input from Point ID's 2L0401 A and 2L0400A.
ERDS Point Number 9
SG LEVEL 2/B 2UL1002 Steam Generator 2 Water Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogIDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE2 N/A SG LEVEL 2/B 2UL1 002 SG #2 NR LEVEL AVG Steam Generator 2 Water Level A
% LEVEL N/A 0
100 Notes Above 'U tubes PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 2
Average Located outside of Polar Crane Wall Lowat25%, High at 70%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET Steam Generator #2 Water Level. Avg. of 2-LT-3-52 and -55.
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 range. Therefore, the entire narrow range span is above the
'U" tubes. Input from Point ID's 2L0421 A and 2L0420A.
ERDS Point Number:
10 SG LEVEL 3/C 2UL1003 Steam Generator 3 Water Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE2 N/A SG LEVEL 3/C 2UL1003 SG #3 NR LEVEL AVG Steam Generator 3 Water Level A
% LEVEL N/A 0
100 Notes Above U' tubes PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 2
Average Located outside of Polar Crane Wall Low at 25 %, High at 70 %
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range y
WET Steam Generator #3 Water Level. Avg. of 2-LT-3-94 and -97.
0-100% span on SG narrow range level transmitters corres-ponds to 76-100/o 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. Inputfrom Point ID's2L0441Aand2L0440A.
ERDS Point Number:
11 SG LEVEL 4ID 2UL1004 Steam Generator 4 Water Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogtDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
05/14/1997 SE2 N/A SG LEVEL 4/D 2UL1004 SG #4 NR LEVEL AVG Steam Generator 4 Water Level A
% LEVEL N/A 0
100 Notes Above U tubes PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
P 2
Average Located outside of Polar Crane Wall Low at 25 %, High at 70 %
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range y
WET Steam Generator #4 Water Level. Avg. of 2-LT-3-1 07 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 US tubes is approximately 71% on the wide range. Therefore, the entire narrow range span is above the U" tubes. Input from Point ID's 2L0461A an 2L0460A.
ERDS Point Number:
12 SG PRESS 1/A 2UP1002 Steam Generator Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A SG PRESS 1/A 2UP1 002 SG #1 MS PRESSURE AVG Steam Generator 1 Pressure A
PSIG N/A 0
1200 N/A N/A p
2 Average Remote Location in Penetration Room Low at 700 PSIG, High at 1020 PSIG NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
WET Steam Generator #1 Pressure. Average of 2-PT-1-2A and 2-PT-1 -2B.
Input from computer point ID's 2P0400A and 2P0401A.
ERDS Point Number 13 SG PRESS 2/B 2UP1003 Steam Generator 2 Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A SG PRESS 2/B 2UP1 003 SG #2 MS PRESSURE AVG Steam Generator 2 Pressure A
PSIG N/A 0
1200 N/A N/A P
2 Average Remote location in East Valve Room Low at 700 PSIG, High at 1020 PSIG NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
WET Steam Generator #2 Pressure. Average of 2-PT-1 -9A and 2-PT-1 -9B.
Input from computer point ID's 2P0420A and 2P0421 A.
ERDS Polnt Number:
14 SG PRESS 31C 2UP1004 Steam Generator 3 Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A SG PRESS 3/C 2UP1 004 SG #3 MS PRESSURE AVG Steam Generator 3 Pressure A
PSIG N/A 0
1200 N/A N/A P
2 Average Remote Location in East Valve Room Low at 700 PSIG, High at 1020 PSIG NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
WET Steam Generator #3 Pressure. Average of 2-PT-1 -20A and 2-PT-1-20B.
Input from computer point ID's 2P0440A and 2P0441A.
ERDS Point Number:
15 SG PRESS 41D 2UP1005 Steam Generator 4 Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A SG PRESS 4/D 2UP1 005 SG #4 MS PRESSURE AVG Steam Generator 4 Pressure A
PSIG N/A 0
1200 N/A N/A P
2 Average Remote location in Penetration Room Low at 700 PSIG, High at 1020 PSIG NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
WET Steam Generator #4 Pressure. Average of 2-PT-1-27A and 2-PT-1 -27B.
Input from computer point ID's 2P0460A and 2P0461A.
ERDS Polnt Number:
16 MN FD FL IIA 2U0410C Stm Gen 1 Main Feedwater Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/1411997 SE2 N/A MN FD FL 1/A 2U0410C SG #1 CORR FW 12 AVG Stm Gen 1 Main Feedwater Flow A
MLB/HR N/A a
4.5 N/A N/A P
3 Average Stm Gen FW Line 1, Aux. Bldg High at 3.9 MLB/HR, Hi-Hi at 4.0 MLB/HR NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET Steam Generator 1 Main Feedwater Flow. Average of 2F0403A (2-FT-3-35A) and 2F0404A (2-FT-3-35B). Corrected for temperature 2T041 BA (2-TE-3-36).
ERDS Polnt Number:
17 E P tN D FL 2/B 2U0430C Stm Gen 2 Main Feedwater Flow Date:
Reactor Unit:
Data Feeder.
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc: /
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A MN FD FL 2/B 2U0430C SG #2 CORR FW 1/2 AVG Stm Gen 2 Main Feedwater Flow A
MLB/HR N/A 0
4.5 N/A N/A P
3 Average Stm Gen FW Line 2, Aux. Bldg High at 3.9 MLB/HR, Hi-Hi at 4.0 MLB/HR NID Power Cutoff Level:
N ID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET Steam Generator 2 Main Feedwater Flow. Average of 2F0423A (2-FT-3-48A) and 2F0424A (2-FT-3-48B). Corrected for Temperature 2T0438A (2-TE-3-49).
ERDS Point Number:
MN FD FL 3/C 2U0450C Stm Gen 3 Main Feedwater Flow Date:
Reactor Unit:
Data Feeder NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A MN FD FL 3/C 2U0450C SG #3 CORR FW 1/2 AVG Stm Gen 3 Main Feedwater Flow A
MLB/IHR N/A 0
4.5 N/A N/A P
3 Average Stm Gen FW Line 3, Aux. Bldg High at 3.9 MLB/HR, Hi-Hi at 4.0 MLB/HR NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range Y
WET Steam Generator 3 Main Feedwater Flow. Average of 2F0443A (2-FT-3-90A) and 2F0444A (2-FT-3-90B). Corrected for Temperature 2T0458A (2-TE-3-91).
ERDS Point Number:
19 MN FD FL 4D 2U0470C Stm Gen 4 Maln Feedwater Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A MN F FL 4/D 2U0470C SG #4 CORR FW 1/2 AVG Stm Gen 4 Main Feedwater Flow A
MLB/HR N/A 0
4.5 N/A N/A P
3 Average Stm Gen FW Line 4, Aux. Bldg High at 3.9 MLB/HR, Hi-Hi at 4.0 MLB/HR NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
NA NA Out of Range Y
WET Steam Generator 4 Main Feedwater Flow. Average of 2F0463A (2-FT-3-103A) and 2F0464A (2-FT-3-103B). Corrected for Temperature 2T0478A (2-TE-3-104).
ERDS Point N~umber:
20 AX F FL 1A 2U0066 Stm Gen Auxiliary FW Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A AX FW FL 1/A 2U0066 SG #1 AUX FEEDWATER FLOW Stm Gen 1 Auxiliary FW Flow A
GPM N/A 0
440 N/A N/A P
1 Pseudo point caps flow at 440 GPM Downstream of MDAFW, TDAFW tie to S/G 1 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A There are two electric and one turbine-driven AFWPS. Each electric pump feeds two SG's and the turbine-driven pump feeds all four SGs. 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. Input from 2-FM-3-163C (computer point ID 2F1 049A).
ERDS Point Number:
21 AX FW FL 21B 2U0067 Stm Gen 2 Auxiliary FW Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A AX FW FL 2/B 2U0067 SG #2 AUX FEEDWATER FLOW Stm Gen 2 Auxiliary FW Flow A
GPM N/A 0
440 N/A N/A P
1 Pseudo point caps flow at 440 GPM Downstream of MDAFW, TDAFW tie to S/G 2 No alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A There are two electric and one turbine-driven AFWPS. Each electric pump feeds two SG's and the turbine-driven pump feeds all four SGs. 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. Input from 2-FM-3-155C (computer point ID 2F1 048A).
ERDS Polnt Number:
22 AX FW FL 3/C 2U0068 Stm Gen 3 Auxiliary FW Flow Date:
Reactor Unit:
Data Feeder NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A AX FW FL 3/C 2U0068 SG #3 AUX FEEDWATER FLOW Stm Gen 3 Auxiliary FW Row A
GPM N/A 0
440 N/A N/A P
1 Pseudo point caps flow at 440 GPM Downstream of MDAFW, TDAFW tie to S/G 3 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 MDAFWPs and turbine-driven AFWP, is 440 and 880 gpm, respectively. Input from 2-FM-3-147C (computer point ID 2F1047A).
ERDS Point Number:
23 AX FW FL 41D 2U0069 Stm Gen 4 Auxiliary FW Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A AX FW FL 4/D 2U0069 SG #4 AUX FEEDWATER FLOW Stm Gen 4 Auxiliary FW Flow A
GPM N/A 0
440 N/A N/A P
1 Pseudo point caps flow at 440 GPM Downstream of MDAFW, TDAFW tie to S/G 4 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A There are two electric and one turbine-driven AFWPS. Each electric pump feeds two SG's and the turbine-driven pump feeds all four SGs. 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. Input from 2-FM-3-170C (computer point ID 2F1 050A).
ERDS Point Number:
24 HL TEMP 1/A 2T0419A Stm Gen Inlet Temperature Date:
Reactor Unit:
Data Feeder NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A HL TEMP 1/A 2T041 9A LOOP 1 HOT LEG WIDE RANGE TEMP Stm Gen 1 Inlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 1 RCS Hot Leg piping No Alarms N ID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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.
Input from 2-TM-68-1 B.
ERDS Polnt Number:
25 HL TEMP 2/1 2T0439A Stm Gen 2 Inlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A HL TEMP 2/B 2T0439A LOOP 2 HOT LEG WIDE RANGE TEMP Stm Gen 2 Inlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 2 RCS Hot Leg Piping No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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.
Input from 2-TM-68-24B.
ERDS Polnt Number:
26 HL TEMP 3/C 2T0459A Stm Gen 3 Inlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogIDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A HL TEMP 3/C 2T0459A LOOP 3 HOT LEG WIDE RANGE TEMP Stm Gen 3 Inlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 3 RCS Hot Leg Piping No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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.
Input from 2-TM-68-43B.
ERDS Point Number:
27 HL TEMP 4/D 2T0479A Stm Gen 4 Inlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A HL TEMP 4/D 2T0479A LOOP 4 HOT LEG WIDE RANGE TEMP Stm Gen 4 Inlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 4 RCS Hot Leg Piping No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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.
Input from 2-TM-68-65B.
ERDS Point Number:
28 CL TEMP 1/A 2T0406A ttm Gen Outlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogtDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A CL TEMP 1/A 2T0406A LOOP 1 COLD LEG WIDE RANGE TEMP Stm Gen 1 Outlet Temperature A
DEGF
! N/A 0
700 N/A N/A S
1 N/A On Loop 1 RCS Cold Leg Piping High at 650 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 RHR. The temperature indication is also used in maintaining stable plant conditions and verifying natural circulation.
Input from 2-TM-68-18B.
ERDS Point Number:
29 CL TEMP 2IB 2T0426A Stm Gen 2 Outlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A CL TEMP 2/B 2T0426A LOOP 2 COLD LEG WIDE RANGE TEMP Stm Gen 2 Outlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 2 RCS Cold Leg Piping High at 650 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 RHR. The temperature indication is also used in maintaining stable plant conditions and verifying natural circulation.
Input from 2-TM-68-41 B.
ERDS Point Number:
30 CL TEMP 3/C 2T0446A Stm Gen 3 Outlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A CL TEMP 3/C 2T0446A LOOP 3 COLD LEG WIDE RANGE TEMP Stm Gen 3 Outlet Temperature A
DEGF N/A 0
700 N/A N/A S
1 N/A On Loop 3 RCS Cold Leg Piping High at 650 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 RHR. The temperature indication is also used in maintaining stable plant conditions and verifying natural circulation.
Input from 2-TM-68-60B.
ERDS Point Number:
31 CL TEMP 41D 2T0466A Strn Gen 4 Outlet Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A CL TEMP 4/D 2T0466A LOOP 4 COLD LEG WIDE RANGE TEMP Stm Gen 4 Outlet Temperature A
DEGF N/A 0
700 NIA N/A S
1 N/A On Loop 4 RCS Cold Leg Piping High at 650 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 RHR. The temperature indication is also used in maintaining stable plant conditions and verifying natural circulation.
Input from 2-TM-68-83B.
ERDS Point Number:
32 RCS PRESSURE 2UP1000 Reactor Coolant System Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A RCS PRESSURE 2UP1 000 RCS WIDE RANGE PRESSURE AVERAGE Reactor Coolant System Pressure A
PSIG N/A 0
3000 N/A N/A P
3 Average RCS Hot Legs 1, 3, 4 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A 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 -69) 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.
Input from computer point ID's 2P2000A, 2P0129A and 2P2001A.
ERDS Point Number:
33 PRZR LEVEL 2UL1005 Primary System Pressurizer Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 NA PRZR LEVEL 2UL1005 PZR LEVEL AVERAGE Primary System Pressurizer Level A
% LEVEL NA 0
100 Notes Top of HTR = 14%
P 3
Average TAPs from Pressurizer No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
WET The pressurizer level is an averaged signal from 3 level transmitters (2-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 isolated at approx-imately 1/o level. Input from computer point ID's 2L0482A, 2L0481A, and 2L0480A.
ERDS Point Number:
34 ACS CHGIMU 2UF1016 Primary System Charging I Makeup Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/1411997 SE2 N/A RCS CHG/MU 2UF1016 NET CHG FLO Primary System Charging / Makeup A
GPM N/A
-200 176 N/A N/A P
6 Subtraction CCP Pmp, RCP Seal/Leakoff, RCS Letdown No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Multiple due to number of sensors N
N/A The net charging flow is calculated by subtracting RCP seal retum, 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. Input from Point ID's 2F0128A, 2F0134A, 2F1 018A, 2F1020A, 2F1022A, and 2F1024A.
ERDS Point Number:
35 HP SI FLOW 2UF1010P high Pressure Safety InI. Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A HP SI FLOW 2UF1 010 SI FLOW TOTAL High Pressure Safety Inj. Flow A
GPM N/A 0
1600 N/A N/A P
2 Sum Discharge of Safety Injection Pumps No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A The total flow is measured by adding the discharge flow rates from two Safety Injection Pumps. The total accident flow rates for cold leg injection or recirculation and hot leg 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 rate is 425 GPM 2500 ft of head for each SI Pump.
(Sum of 2-FT-63-20 and -151). Input from Point ID's 2F1059A and 2F1066A.
ERDS Point Number:
36 LP SI FLOW 2UF1011 Low Pressure Safety Inj. Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A LP SI FLOW 2UF1011 RHR COLD LEG TOTAL FLOW Low Pressure Safety Inj. Flow A
GPM N/A 0
9000 N/A N/A P
4 Sum RHR Cold Legs 2, 3 and 1, 4 Piping No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low N
N/A The RHR Cold Leg Flow Rate value Is calculated by summing the flow from cold legs 2 and 3 with the flow from cold legs 1 and 4. The design flow rate for a RHR pump is 3000 GPM at 375 feet of head. Flow sensors are 2-FT-63-91 B and 2-FT-63-92B.
Input from computer point ID's 2F1061A and 2F1064A.
ERDS Point N~umber 37 CNTMT SMP WR 2UL1011 Containment Sump Wide Rng LvI Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
05114/1997 SE2 N/A CNTMT SMP WR 2UL1 011 CONTAINMENT SUMP LEV AVG Containment Sump Wide Rng Lv A
% LEVEL N/A 0
100 CNTFLR The containment floor is elevation 680 PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
P 4
Average, Redundant Sensor Algorithm Containment Sump No Alarms N/A N/A Low N
N/A The containment average sump level is calculated by a redundant sensor algorithm using four sump level transmitters. LT-63-176, -177, -178, and -179. The transfer from RWST to containment sump setpoint is 11%, which is approximately 2.5 feet above containment floor elevation.
Gallons/% level varies with level in a nearly linear rela-tionship. (78,000 gallons)
Input from computer point ID's 2L1 052A. 2L1053A, 2L1054A, and 2L1 055A.
ERDS Point Number:
38 EFF GAS RAD 2R9102XA Release Rt of Radioactive Gases Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A EFF GAS RAD 2R91 02XA UNIT 1 SHIELD BLDG RELEASE RATE Release Rt of Radioactive Gases A
uCi/sec N/A 1.0 E-2 1.0 E10 N/A N/A S
1 Sampled Totalized times flow rate Auxiliary Bldg 220,000 uCVsec NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Unit 1 Shield Bldg Exhaust. To obtain true release rate, Unit 2 monitor must also be checked.
Input from 1 -RM-90-400.
ERDS Point Number:
39 EFF GAS RAD 2R9102A Release Rt. of Radioactive Gases Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A EFF GAS RAD 2R91 02A SHIELD BUILDING VENT RADIATION Release Rt. of Radioactive Gases A
uCi/sec N/A 1.0 E-2 1.0 El0 N/A N/A S
1 Sampled Totalized times flow rate Auxiliary Bldg 220,000 uCisec NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Unit 2 Shield Bldg Exhaust. To obtain true release rate, Unit 1 monitor must also be checked.
Input from 2-RM-90-400.
ERDS Point Number:
40 EFF UQ RAD OR1022A Radioactivity of Released Liquid Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/1 4/1997 SE2 N/A EFF LIQ RAD OR1 022A WDS LIQUID EFFLUENT RADIATION Radioactivity of Released Liquid A
CPM N/A 1.0 El 1.0 E7 N/A N/A S
1 N/A Auxiliary Bldg Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Waste Disposal System Liquid Effluent.
This computer point is in counts per minute.
Input from 0-RE-90-1 22.
ERDS Point Number:
41 COND A/E RAD 2UR1006 Cond Ar Eector Radioactivity Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/0112003 SE2 N/A COND A/E RAD 2UR1006 COND VAC EXH LOW RNG RELEASE RATE Cond Air Ejector Radioactivity A
ua/sec N/A 0.0 E0 1.0 E8 N/A N/A P
2 Cond Flow
- Dose Turbine Bldg Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Condenser Air Ejector Noble Gas Monitor.
This is one of three computer points needed to cover full range. This point uses inputs from 2-FT-2-256 with 2-RM-90-119 or 2-RM-90-99 to compute dose rates.
These two monitors cover the same range, one of which may be valved out. This point utilizes the monitor with the highest radiation level.
Input from computer point ID's 2F2700A with 2ROO01A.
or 2R001 4A.
ERDS Point Number:
42 COND A/E RAD 2UR1007 Cond Air Elector Radioactivity Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A COND A/E RAD 2UR1007 COND VAC EXH MID RNG RELEASE RATE Cond Air Ejector Radioactivity A
uCi/sec N/A 0.0 E0 1.0 ES N/A N/A P
2 Cond Flow
- Dose Turbine Bldg.
Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Condenser Air Ejector Noble Gas Monitor.
This is one of three computer points needed to cover full range. This point uses inputs from 2-FT-2-256 & 2-RM-90-255 to compute dose rates. Input from computer point ID's 2F2700A and 2R9022A.
ERDS Point Number:
43 COND A/E RAD 2UR1008 Cond Air Elector Radioactivity Date:
Reactor Unit:
Data Feeder NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A COND AE RAD 2UR1008 COND VAC EXH HI RNG RELEASE RATE Cond Air Ejector Radioactivity A
uCi/sec N/A 0.0 EO 1.0 E8 NIA N/A P
2 Cond Flow
- Dose Turbine Bldg Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Condenser Air Ejector Noble Gas Monitor This is one of three computer points needed to cover full range. This point uses inputs from 2-FT-2-256 & 2-RM-90-256 to compute dose rates. Input from computer point ID's 2F2700A and 2R9023A.
ERDS Polnt Number:
44 CNTMNT RAD 2UR6021 Upper Containment Radiation Lvl Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A CNTMNT RAD 2UR6021 UPPER CNTMT RADIATION Upper Containment Radiation LvI A
R/HR N/A 1.0 E0 1.0 E8 N/A N/A P
2 Average Upper Containment 1 00 R/HR NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Upper Containment High Range Area Monitors Inputs are 2-RM-90-271 & 2-RM-90-272.
Input from computer point ID's 2R901 8A and 2R901 9A.
ERDS Point Number:
45 CNTMNT RAD 2UR6022 Lower Containment Radiation Lvi Date:
Reactor Unit:
Data Feeder.
NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A CNTMNT RAD 2UR6022 LOWER CNTMT RADIATION Lower Containment Radiation Lv A
R/HR N/A 1.0 EO 1.0 E8 N/A N/A P
2 Average Lower Containment No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Lower Containment High Range Area Monitor Inputs are 2-RM-90-273 & 2-RM-90-274 (computer point ID's 2R9020A and 2R9021 A).
ERDS Point Number:
46 MAIN SL 11A 2URt Sea1001e Strn Gen Steam Line Rad Level Date:
Reactor Unit:
Data Feeder NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A MAIN SL 1/A 2UR1001 SG #1 RELEASE RATE Stm Gen 1 Steam Line Rad Level A
ua/sec N/A 0.0 EO 1.0 E8 N/A N/A P
4 Sampled Totalized Main Steam Line prior to ATM reliefs No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Value calculated as product of SG #1 release rate, radioactivity, specific volume, and a conversion constant.
2-PCV-1-5 position (2PD1 002) is monitored & if PORV is 'NOT CLOSED' valve is assumed to contribute 890,000 lb/hr flow to the atmosphere. 5 code safety valves for each SIG. MS line header pressure (2-PT-1 -2A & 2B) is monitored to determine condition of valves. Each open valve is assumed to contribute 890,000 lb/hr to the flow rate.
Input from rad monitor 2-RM-90-421 (computer point 2R9027A).
ERDS Point Number:
47 MAIN SL2/B 2UR1002 Stm Gen 2 Steam Lne Rad Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A MAIN SL 2/B 2UR1002 SG #2 RELEASE RATE Stm Gen 2 Steam Line Rad Level A
uCi/sec N/A 0.0 E0 1.0 E8 N/A N/A p
4 Sampled Totalized Main Steam Line prior to ATM reliefs No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Value calculated as product of SG #2 release rate, radioactivity, specific volume, and a conversion constant.
2-PCV-1-12 position (2PD1003) is monitored & if PORV is 'NOT CLOSED' valve is assumed to contribute 890,000 lb/hr flow to the atmosphere. 5 code safety valves for each S/G. MS line header pressure (2-PT-1 -9A & 9B) is monitored to determine condition of valves. Each open valve is assumed to contribute 890,000 lb/hr to the flow rate.
Input from rad monitor 2-RM-90-422 (computer point 2R9028A).
ERDS Point Number:
48 MAIN SL 3C 2UR1003 Stm Gen 3 Steam Lne Rad Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A MAIN SL 3/C 2UR1003 SG #3 RELEASE RATE Stm Gen 3 Steam Line Rad Level A
uCi/sec N/A 0.0 E0 1.0 E8 N/A N/A P
4 Sampled Totalized Main Steam Line prior to ATM reliefs No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Value calculated as product of SG #3 release rate, radioactivity, specific volume, and a conversion constant.
2-PCV-1 -23 position (2PD1 004) is monitored & if PORV is 'NOT CLOSED' valve is assumed to contribute 890,000 lb/hr flow to the atmosphere. 6 code safety valves for each S/G. MS line header pressure (2-PT-1-20A & 20B) is monitored to determine condition of valves. Each open valve is assumed to contribute 890,000 lb/hr to the flow rate.
Input from rad monitor 2-RM-90-423 (computer point 2R9029A).
ERDS Point Number:
49 MAIN SL 4/D 2UR1004 Stm Gen 4 Steam Lne Rad Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A MAIN SL 4/D 2UR1004 SG #4 RELEASE RATE Stm Gen 4 Steam Line Rad Level A
uCi/sec N/A 0.0 E0 1.0 E8 N/A N/A P
4 Sampled Totalized Main Steam Line prior to ATM reliefs No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Value calculated as product of SG #4 release rate, radioactivity, specific volume, and a conversion constant.
2-PCV-1 -30 position (2PD1 005) is monitored & if PORV is 'NOT CLOSED' valve is assumed to contribute 890,000 lb/hr flow to the atmosphere. 5 code safety valves for each S/G. MS line header pressure (2-PT-1 -27A & 27B) is monitored to determine condition of valves. Each open valve is assumed to contribute 890,000 lb/hr to the flow rate.
Input from rad monitor 2-RM-90-424 (computer point 2R9030A).
ERDS Point Number:
0 SG BD RAD 1A 2R1020A Stm Gen Header Blowdown Rad Levi Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A SG BD RAD 1A 2R1 020A SG BLOWDOWN RADIATION Stm Gen Header Blowdown Rad Levi A
CPM N/A 1.0 El 1.0 E7 N/A N/A S
1 N/A Turbine Bldg Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Steam Generator Blowdown Header Liquid Monitor.
This is one of two monitors, one of which may be valved out.
The monitor is for the header and not individual loops.
Input from 2-RM-90-120A.
ERDS Point Number:
51 SG BD RAD 1 2R1021A Stm Gen Header Blowdown Rad Levi Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnaloglDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A SG BD RAD 1B 2R1021A SG BLOWDOWN RADIATION Stm Gen Header Blowdown Rad Levi A
CPM N/A 1.0 El 1.0 E7 N/A N/A S
1 N/A Turbine Bldg Variable NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Low on Loss of Power N
N/A Steam Generator Blowdown Header Liquid Monitor.
This is one of two monitors, one of which may be valved out.
The monitor is for the header and not individual loops.
Input from 2-RM-90-121A.
ERDS Point Number:
52 CTMNT PRESS 2UP6000 Containment Pressure Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
05/14/1997 SE2 N/A CTMNT PRESS 2UP6000 CNTMT PRESSURE AVERAGE Containment Pressure A
PSIG N/A
-1 15 N/A N/A P
2 Average Annulus No Alarms N/A N/A Out of Range N
N/A Containment Pressure. This is actually a differential between containment and the annulus. Average of 2-PDT-30-44 and 45 (computer points 2P1002A and 2P1003A).
ERDS Point Number:
53 CTMNT TEMP 2QV0020 Containment Temperature Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A CTMNT TEMP 2QV0020 CALCULATED LOWER CTMT TEMP - LCTTEMP Containment Temperature A
DEGF N/A 0
200 N/A N/A p
19 Weighted Average Lower Containment Low at 60 DEGF, High at 130 DEGF NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Fail Low N
N/A Weighted Average of 19 Lower Containment Temp. Elements.
ERDS Point Number:
54 H2 CONC 2UY1005 Containment H2 Concentration Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A H2 CONC 2UY1 005 H2 CONC AVG Containment H2 Concentration A
% H2V N/A 0
10 N/A N/A P
2 Average Sample line from both uppr & lowr cntmnt High at 10%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Downscale on loss of power N
N/A Samples H2 gas concentration in containment. Average of 2-H2AN-43-200 and 2-H2AN-43-21 0 (computer points 2C1 OOOA and 2C1001A). Analyzers are normally valved out.
ERDS Point Number:
55 RWST LEVEL 2UL1000 Refueling Water Storage Tank Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
07/01/2003 SE2 N/A RWST LEVEL 2UL1 000 RWST LEV AVG Refueling Water Storage Tank Lev AnalogfDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
A
% LEVEL 0 -387 IN = 0- 100%
0 387 27.6" 20,000 gal below zero reference PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
P 2
Average RWST taps 20,000 Gals in tnk at 0% Level No Alarms N/A N/A Low N
N/A The RWST average level is calculated by a redundant sensor algorithm from the 2 RWST level transmitters.
The RWST tank capacity is 380,000 gallons.
0% = 20,000 gallons, 100% = 380,000 gallons.
Input from 2-LT-63-50 and -51 (computer points 2L2201 A and 2L1041 A).
ERDS Point Number:
56 WIND SPEED MET001 Wind Speed - Upper Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A WIND SPEED MET001 91M VECTOR WIND SPEED (15 MIN AVG)
Wind Speed - Upper Level A
m/sec N/A 0
44.6 N/A N/A S
1 N/A At the 91 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Point Number:
7 WIND SPEED MET002 Wind Speed - Intermediate Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogIDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/1411997 SE2 N/A WIND SPEED MET002 46M VECTOR WIND SPEED (15 MIN AVG)
Wind Speed - Intermediate Level A
m/sec N/A 0
44.6 N/A N/A S
1 N/A At the 46 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Point Number:
58 WIND SPEED MET003 Wind Speed - Lower Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/1411997 SE2 N/A WIND SPEED MET003 1OM VECTOR WIND SPEED (15 MIN AVG)
Wind Speed - Lower Level A
m/sec N/A 0
44.6 N/A N/A S
1 N/A At the 10 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Point Number:
9 WIND DIR MET004 Wind Drection - Upper Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A WIND DIR MET004 91M VECTOR WIND DIR (15 MIN AVG)
Wind Direction - Upper Level A
DEG N/A 0
360 N/A N/A S
1 N/A At the 91 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Point Number:
60 WIND DIR METOS W
Wind Drection - Intermed. Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A WIND DIR MET005 46M VECTOR WIND DIR (15 MIN AVG)
Wind Direction - Intermed. Level A
DEG N/A 0
360 N/A N/A S
1 N/A At the 46 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Point Number:
61 WIND DIR MET006 Wind Direction - Lower Level Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogtDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A WIND DIR MET006 1OM VECTOR WIND DIR (15 MIN AVG)
Wind Direction - Lower Level A
DEG N/A 0
360 N/A N/A S
1 N/A At the 10 Meter Level of the Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A
ERDS Point Number:
62 STAB CLASS MET007 Alr Stabzility - Upper Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation Level Reference Leg:
Unique System Desc:
05/14/1997 SE2 N/A STAB CLASS METoo7 Stability Class Upper Air Stability - Upper A
STABA See Below See Below See Below N/A N/A P
2 See Below Met Tower No Alarms N/A N/A LOW N
N/A Differential Temperature Upper-Lower (deg C)
Difference Stability Class Point Value
<=
-1.9
-1.7
-1.5
-0.5 1.5 4.0
-1.9
-1.7
-1.5
-0.5 1.5 4.0 A
B C
D E
F G
1 2
3 4
5 6
7
ERDS Point Number:
63 STAB CLASS MET008 Air Stabilty - Intermediate Date:
Reactor Unit:
Data Feeder NRC ERDS Parameter Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
05/14/1997 SE2 N/A STAB CLASS MET008 Stability Class Intermediate Air Stability - Intermediate A
STABA See Below See Below See Below N/A N/A P
2 See Below Met Tower No Alarms N/A N/A LOW N
N/A Differential Temperature Upper-intermediate (deg C)
Difference Stability Class Point Value
<=
-1.9 A
-1.9
-1.7 B
2
-1.7
-1.6 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 Number:
64 STAB CLASS MET009 Air Stability - Lower Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogtDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A STAB CLASS MET009 Stability Class Lower Air Stability - Lower A
STABA See Below See Below See Below NA NA P
2 See Below Met Tower No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A LOW N
N/A Differential T Difference c=
-1.9
-1.9
-1.7
-1.7
-1.5
-1.5
-0.5
-0.5 1.5 1.5 4.0 4.0 emperature Intermediate-Lower (deg C)
Stability Class Point Value A
B C
D E
F G
1 2
3 4
5 6
7
ERDS Point Number:
65 SG LEVEL 1A 2L0403A Steam Gen 1 Wide Range Water Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A SG LEVEL 1/A 2L0403A SG #1 WIDE RANGE LEVEL Steam Gen 1 Wide Range Water Lev A
% LEVEL 1% = 5.5" 0.0 100.0 LOWTAP See Below S
1 N/A See Below Low at 60/, High at 80%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Sensor Out Low N
WET 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 of
'U tubes: Top of U' tubes is approximately 70% level.
Input from 2-LT-3-43.
ERDS Point Number:
66 SG LEVEL 23 2L0423A Steam Gen 2 Wide Range Water Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
AnalogtDigital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum nstr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A SG LEVEL 2/B 2L0423A SG #2 WIDE RANGE LEVEL Steam Gen 2 Wide Range Water Lev A
% LEVEL 1% = 5.5, 0.0 100.0 LOWTAP See Below S
1 N/A See Below Low at 60%, High at 80%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Sensor Out Low N
WET 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 1700 above the top of SU tubes: Top of U" tubes is approximately 70% level.
Input from 2-LT-3-56.
ERDS Point Number:
67 SG LEVEL 31C 2L0443A Steam Gen 3 Wide Range Water Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum nstr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A SG LEVEL 31C 2L0443A SG #3 WIDE RANGE LEVEL Steam Gen 3 Wide Range Water Lev A
% LEVEL 1% = 5.5 0.0 100.0 LOWTAP See Below S
1 N/A See Below Low at 60%, High at 80%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A WA Sensor Out Low N
WET 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 of U' tubes: Top of 'UY tubes is approximately 700/. level.
Input from 2-LT-3-98.
ERDS Point Number:
68 SG LEVEL 411D 2L0463A Steam Gen 4 Wide Range Water Lev Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
07/01/2003 SE2 N/A SG LEVEL 4/D 2L0463A SG #4 WIDE RANGE LEVEL Steam Gen 4 Wide Range Water Lev A
% LEVEL 1% = 5.5u 0.0 100.0 LOWTAP See Below S
1 N/A See Below Low at 60%, High at 80%
NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Sensor Out Low N
WET 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 1700 above the top of
'U tubes: Top of 'U" tubes is approximately 70% level.
Input from 2-LT-3-1 11.
ERDS Polnt Number:
69 CORE FLOW 2PA003 Total RCS Flow Date:
Reactor Unit:
Data Feeder:
NRC ERDS Parameter:
Point ID:
Plant Specific Point Desc:
Generic Cond Desc:
Analog/Digital:
Engr Units/Dig States:
Engr Units Conversion:
Minimum Instr Range:
Maximum Instr Range:
Zero Point
Reference:
Reference Point Notes:
PROC or SENS:
Number of Sensors:
How Processed:
Sensor Locations:
Alarm/Trip Set Points:
05/14/1997 SE2 N/A CORE FLOW 2PA003 TOTAL REACTOR COOLANT FLOW Total RCS Flow A
% FLOW N/A 0.0 120.0 N/A See Below P
4 Average RCS Flow loops 1-4 No Alarms NID Power Cutoff Level:
NID Power Cut-On Level:
Instrument Failure Mode:
Temperature Compensation:
Level Reference Leg:
Unique System Desc:
N/A N/A Out of Range N
N/A This point is generated from an Average of 2-FT-68-6A, -29A,
-48A, -71A. Input from Point ID's 2F0400A, 2F0420A, 2F0440A, and 2F0460A. Design Flow = 138 MLB/HR per Loop.