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| number = ML102730398
| number = ML102730398
| issue date = 09/07/2010
| issue date = 09/07/2010
| title = Kewaunee Nuclear Power Plant Calculation C11116, Revision 0, Kewaunee Unit 1 Steam Generator Narrow Range Level Protection Channel Statistical Allowance (Csa) Calculation.
| title = Calculation C11116, Revision 0, Kewaunee Unit 1 Steam Generator Narrow Range Level Protection Channel Statistical Allowance (Csa) Calculation.
| author name = Baugus A W
| author name = Baugus A W
| author affiliation = Dominion Energy Kewaunee, Inc
| author affiliation = Dominion Energy Kewaunee, Inc

Revision as of 03:50, 13 April 2019

Calculation C11116, Revision 0, Kewaunee Unit 1 Steam Generator Narrow Range Level Protection Channel Statistical Allowance (Csa) Calculation.
ML102730398
Person / Time
Site: Kewaunee Dominion icon.png
Issue date: 09/07/2010
From: Baugus A W
Dominion Energy Kewaunee
To:
Office of Nuclear Reactor Regulation
References
10-527, TAC ME2139 C11116, Rev 0
Download: ML102730398 (49)


Text

{{#Wiki_filter:KEWAUNEE NUCLEAR POWER PLANT DESIGN BASIS DATABASE LOAD FORM Form GNP-05.27.07-1 Rev. 9 Date: MAR 20 2008 Page 11 of 11INFORMATION USE DOCUMENT INFORMATION 6.2.1.1 Document Type Calculation / Evaluation 6.2.1.2 Document ID C11116 6.2.1.3 Document Title Kewaunee Unit 1 Steam Generator Narrow Range Level Protection Channel Statistical Allowance (CSA) Calculation. 6.2.1.4 KPS Revision 0 6.2.1.5 Addendum N/A 6.2.1.6 Document Date 10/14/2009 6.2.1.7 Topic Development of the Steam Generator Narrow Range Level High Level Turbine Trip and Feedwater Isolation, Low Level Coincidence with Steam Flow Feed Flow Mismatch Reactor Trip, and the Low Low Level Reactor Trip Channel Statistical Allowances (CSA) to support Kewaunee's conversion to Improved Technical Specifications (ITS) 6.2.1.8 Document Status Current 6.2.1.9 Superceded By N/A 6.2.1.10 Attachments Y 6.2.1.11 Safety Related Y AUTHOR INFORMATION 6.2.2.1 Author/Submitter AW Baugus 6.2.2.2 Vendor N/A 6.2.2.3 Vendor Author N/A 6.2.2.4 Discipline Instrument and Control DOCUMENT RELATIONSHIPS 6.2.3.1 System(s) 05A-975 6.2.3.2 DCR(s) N/A 6.2.3.3 Keyword(s) CALC INDEX 6.2.3.4 Inputs 6.2.3.5 Outputs

ADMIN/RECORDS USE ONLY 6.2.4.1 Comments 6.2.4.2 Record Type 6.2.4.3 Retention Period 6.2.4.4 Software Application 6.2.4.5 Vault Location 6.2.4.6 Film Reel 6.2.4.7 Reel Odometer

Calculation Cover Sheet Station: Kewaunee-KPS Calculation Number: C11116 Unit(s): 1 Revision: 0 System Code(s): DSA (Feedwater) Addendum: N/A Calculation Quality Class:'Safety Related 0 Non-Safety Related Status: Current Installation Verification Required:Yes 0 No Keyword(s): CSA, Steam Generator Narrow Range Level Supersedes: C11116-1, Rev.OJ C11116-2, Rev.1, C11116-3 J Rev.1, C11116-4, Rev.0, C11116-1 0, Rev.1.SUbject (Calculation Title): Kewaunee Unit 1 Steam Generator Narrow Range Level Protection Channel Statistical Allowance (CSA)Calculation. Initiating Document: Kewaunee Improved Technical Specifications (ITS)CM-AA-CLC-301, Revision: 1 Station: Unit: System: Equipment Location (Mark Number): Tag Number (If Applicable): KPS 1 D5A 24042 L T-461 KPS 1 05A 24043 LT-462 KPS 1 GSA 24044 LT-463 KPS 1 GSA 24046.L T-471 Objective: The objective of this calculation is to determine the Channel Statistical Allowance (CSA)value(s)associated with Kewaunee's Unit 1 Steam Generator Hi Level Turbine Trip and Feedwater Isolation J Low Level Coincidence with Steam Flow/Feed Flow Mismatch Reactor Trip, the Low-Low Reactor Trip functions and the AMSAC Low-Low Level Trip.This calculation supports Kewaunee's conversion to Improved Technical Specifications (ITS).Reviewer (Print): D.M.McGrath Originator (Print): A.W.Baugus

Conclusion:

The Channel Statistical Allowance (GSA)values associated with the Steam Generator Narrow Range Level Trips are: CSA-NORMAL(Low Level Coincidence) CSA-NORMAL(LOw Low Level RX Trip)CSA-NORMAL(AMSAC Low Low Level TUrb/AX Trip)CSA-NORMAL Hi Level Turb Tri I FW Isol Owners Review (Print): Victor Myers Approval (Print): B.R.Morrison (1)This Is the revision of CM-AA..CLC-301 and CM..AA-CLC-301-1 001 in effect at the time the calculation was Initiated. Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 2 of 23 Affected Components (Cont.): Station: KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS KPS Unit: 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 System: 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 05A 047 05A 047 05A 047 05A 047 Equipment Location (Mark Number): 24047 24048 4848601 4848401 4845801 4848301 4848101 4848201 4848602 4848402 4845803 4848302 4848102 4848202 4848403 4845802 4848103 4848203 4848404 4809808 4845804 4809808 4848104 4809807 4848204 4809807 Tag Number (If Applicable): LT-472 LT-473 LQ-461 LQ-462 LQ-463 LQ-471 LQ-472 LQ-473 LC-461A/B LC-462A/B LC-463C/D LC-471A/B LC-472A/B LC-473C/D LC-462C LC-463E LC-472C LC-473E LM-462 LC-462G LM-463B LC-463G LM-472 LC-472G LM-473B LC-473G

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 3 of 23 TABLE OF CONTENTS SECTION DESCRIPTION PAGE Calculation Cover Sheet 1 Table of Contents 3 Attachments 3 Record of Revision 3

1.0 Purpose

4

2.0 Method

of Analysis 4

3.0 Design

Inputs 5

4.0 Assumptions

6 5.0 References 7 6.0 Computer Codes 9

7.0 Functional

Block Diagram 10

8.0 Calculation

12

9.0 Conclusion

23

ATTACHMENTS

Attachment 1 SG Narrow Range Level, PMA Calculation Attachment 2 50.59 Applicability Review Attachment 3 50.59 Pre-Screening RECORD OF REVISION

Rev. 0 Original Issue. This calculation replaces Calculations C11116-1, Rev. 0, C11116-2, Rev. 1, C11116-3, Rev. 1, C11116-4, Rev. 0, and C11116-10, Rev. 1. This calculation is written as a Channel Statistical Allowance (CSA) Calculation versus a Setpoint Calculation.

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 4 of 23

1.0 PURPOSE

The purpose of this calculation is to determine the Channel Statistical Allowance (CSA) values associated with the Steam Generator Narrow Range Level Loops. The functions addressed in this calculation are the Steam Generator Low Level Coincident Reactor Trip, Steam Generator Hi Level Turbine Trip and Feedwater (FW) isolation, Steam Generator Lo-Lo Level Reactor Trip and ESFAS Initiation, and the AMSAC Low-Low Level Trip. The applicable instrumentation loops are L-461, L-462, L-463, L-471, L-472, and L-473. The loops are similar; therefore the CSA values presented in this calculation will be applicable for all of the loops.

2.0 METHOD

OF ANALYSIS

This calculation uses the methodology presented in STD-EEN-0304, Revision 6, Calculating Instrumentation Uncertainties by the Square Root of the Sum of the Squares Method (Reference 5.1).

The CSA determined in this calculation is a derivation of the following generic equation presented in STD-EEN-0304, Revision 6, Section 6.1: CSA = SE +/- [EA² + PMA² + PEA² + (SCA + SMTE)² + SD² + SPE² + STE² + SPSE 2 + (M1 + M1MTE)² + (M2 + M2MTE)² + ...+ (Mn + MnMTE)² + RD² + RTE² + RRA²] (Equation 1) The terms M1 through Mn refer to individual rack modules within the Steam Generator Narrow Range Level Loops. The term MnMTE refers to the Module Measuring and Test Equipment where n is the module number as shown on the Functional Block Diagram in Section 7.0. Finally, the EA term will be removed from the equation for normal conditions since there is no environmental allowance for non-harsh conditions. These changes result in the following equation.

For normal conditions:

CSA = SE +/- [PMA² + PEA² + (SCA + SMTE)² + SD² + SPE² + STE² + SPSE 2 + (M1 + M1MTE)² + (M2 + M2MTE)² + ...+ (Mn + MnMTE)² + RD² + RTE² + RRA²] (Equation 2) The error terms in the equations above are consistent with standard industry definitions and are described in Section 8.0 and in detail in Reference 5.1.

2.1 Process

Measurement Accuracy (PMA) Terms The Process Measurement Accuracy Terms used in this calculation are extracted from Calculation C11116-5, Rev. 0, Attachment 4 (Ref 5.19). Because they are applied deterministically as process measurement bias to the Channel Statistical Allowance, no additional uncertainty is added to these biases. For conservatism, the PMA is ignored when evaluating low or low-low level trips when the resultant CSA is a net positive (i.e. Actual level is Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 5 of 23 higher than indicated level), correspondingly the PMA is ignored when evaluating high level trips when the resultant CSA is a net negative (i.e. Actual level is lower than indicated level). The PMA terms from Attachment 1 include downcomer affects, mid deck plate affects, and Fluid Velocity effects at the lower tap. The reference leg temperature effect was determined at 95°F and per Reference 5.18, page 17 the maximum temperature could be 120°F and the minimum temperature could be 40°F. The reference leg temperature variation for 120°F and 40°F was determined in Reference 5.21 to be +0.74% of span and - 0.83% of span. Table 2-1 Function MDP + TH (1) % span Reference Leg Temperature Error (2) % span Total PMA

% span Low Level 25.5%

Level Setpoint - 1.8291%(3)- 0.83% - 2.659 Low Low Level 17% Level Setpoint - 1.6875%(4)- 0.83% - 2.518 AMSAC Low Low Level 13% Level Setpoint -1.5781%(5) -0.83% -2.408 Hi Hi Level 66.5% Level Setpoint + 5.2050 % (6)+ 0.74% + 5.945 (1) MDP + TH is the combination of the mid deck plate and thermal & hydraulic errors as shown on Attachment 1, "SG Narrow Range Level, PMA Calculation".

(2) Reference Leg Temperature Error is derived from Calculation CN-SSO-02-8, Rev. 1, page 17. The values above are for the two temperature extremes of 40°F and 120°F. 
(3) The value for the Low Level Setpoint @ 25.5% is the bounding value between the Hi Tave 0% TP, Lo Setpoint 25.5% value and the Low Tave, 10% TP Lo Setpoint 25.5% value (Ref. pg 17 of 23 of  ). 
(4) The value for the Low Low Level Setpoint @ 17.0% is the bounding value between the Hi Tave 0% TP, Lo-Lo Setpoint 17.0% value and the Low Tave, 10% TP Lo-Lo Setpoint 17.0% value (Ref. pg 11 of 23 

of Attachment 1).

(5) The value for the AMSAC Low Low Level Setpoint @ 13.0% is the bounding value between the Hi Tave 0% TP, Lo-Lo Setpoint 13.0% value and the Low Tave, 10% TP Lo-Lo Setpoint 13.0% value (Ref. pg 11 of 23 of Attachment 1). 
(6) The value for the Hi Hi Level Setpoint @ 66.5% is the bounding value between the Hi Tave 0% TP, Hi-Hi Setpoint 66.5% value and the Low Tave, 10% TP Hi-Hi Setpoint 66.5% value (Ref. pg 7 of 23 of  ). 

3.0 DESIGN

INPUTS The design inputs are manufacturer's published data sheets, active (current) calculations, station controlled drawings and other controlled documents as listed in Section 5.0, References.

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 6 of 23

4.0 ASSUMPTIONS

4.1 The Environmental Allowance (EA) term is assumed to be zero for Normal (non-accident) conditions. This term includes the effects due to degradation of cable insulation (IR) and the effects of high temperatures and radiation during an accident. The Steam Pressure/Temperature Effect (SPTE) has also been assumed to exist only during exposure to the temperature pressure profile. 4.2 Based on Reference 5.15, all test data is referenced to the rack 10 Test Point Resistor (TPR), therefore the errors associated with the installed DB Box resistors used to convert the loop current to an applied input voltage to the Foxboro or NUS module under test is included in the overall error of the Foxboro or NUS module as referenced to the rack TPR. 4.3 According to References 5.14 and 5.15, a Fluke 45 Digital Multimeter (DMM) is used to perform the transmitter and rack module calibration. According to Reference 5.13, the DC Voltage accuracies for the ranges of interest are as follows: Range Desired Acceptance Range 300 mV 300 mV 299.92 to 300.08 mV 3 V 3 V 2.9992 to 3.0008 V 30 V 30 V 29.992 to 30.008 V Range Desired Acceptance Range 1000 mV 900 mV 899.76 to 900.24 10 V 9 V 8.9976 to 9.0024 At Kewaunee, there are six possible voltage spans that could be present in the Reactor Protection System; i.e., 40 to 200 mVDC, 100 to 500 mVDC, 1 to 5 VDC, 0.4 to 12.4 VDC, 2 to 10 VDC, and 0 to 10 VDC. The DC voltage accuracies converted to % of span are given below.

100 to 500 mVDC (1000 mV range) accuracy = (0.24 mVDC / 400 mVDC)

  • 100% = 0.06% of span

0.4 to 12.4 VDC (30 V range) accuracy = (0.008 VDC / 12 VDC)

  • 100% = 0.07% of span 2 to 10 VDC (30 V range) accuracy = (0.008 VDC / 8 VDC)
  • 100% = 0.10% of span 0 to 10 VDC (30 V range) accuracy = (0.008 VDC / 10 VDC)
  • 100% = 0.08% of span

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 7 of 23 40 to 200 mVDC (300 mVDC range) accuracy = (0.08 mVDC / 160 mVDC)

  • 100% = 0.05% of span 1 to 5 VDC (10 V range) accuracy = (0.0024 VDC / 4 VDC)
  • 100% = 0.06% of span This calculation will be bounded using an accuracy of + 0.1% of span for the Fluke 45 DMM for all possible conditions for ranges 30 VDC or less. It is acceptable for the calibration procedures to use a DMM with accuracy specifications equal to or better

than the Fluke 45 DMM. 4.4 For this calculation, when terms are treated as a bias or the net CSA is made up of two values, then a net (+) means that the actual process is higher than the indicated value and a net (-) means that the actual process is lower than the indicated value.

5.0 REFERENCES

5.1 Dominion

Standard, STD-EEN-0304, Revision 6, "Calculating Instrumentation Uncertainties by the Square Root of the Sum of the Squares Method".

5.2 Kewaunee

Updated Safety Analysis Report (USAR), Chapters 7, 10, and 14.

5.3 Kewaunee

Technical Specifications, Section 2.3.a.5, Table TS 3.5-2, Table TS 3.5-3, and Table TS 3.5-4.

5.4 Kewaunee

Vendor Technical Manual KW-VTM-000-FOXBO-0031 (100-1762-1), Revision 15, Nuclear Energy Systems - In strumentation Reference Manual.

5.5 Kewaunee

Vendor Technical Manual KW-VTM-000-FOXBO-0015 (100-1744-1), Revision 10, Instrumentation Documentation.

5.6 Kewaunee

Vendor Technical Manual KW-VTM-000-NUSIN-0017 (240730), Revision 2, NUS Instruments Series SPS500 Power Supply.

5.7 Kewaunee

Vendor Technical Manual KW-VTM-000-NUSIN-0022 (C-N-430-9), Revision 4, SAM504-3 Single & DAM504-3 Dual Alarm Module IOM.

5.8 Kewaunee

Vendor Technical Manual KW-VTM-000-ROSEM-0006 (2566-1), Rosemount Instruction Manual, Rosemount 1154 Alphaline Nuclear Pressure Transmitter, Product Manual 00809-0100-4514, Rev. AA, June 1999.

5.9 Kewaunee

Instrument and Control Procedure ICP-82B-137, Revision 6, ICE - "Precision Test Resistor Calibration". 5.10 Kewaunee General Instrument Procedure GIP-007, Revision E, "Protection Loop mV Data Collection". Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 8 of 23 5.11 Kewaunee Instrument and Control Procedure ICP-82B-168, Revision 3, ICE - Heise PTE-1 Calibrator and HQS-2 Pressure Module Calibration. 5.12 Kewaunee Instrument and Control Procedure ICP-82B-06, Revision T, ICE - Pressure Gauge Calibration.

5.13 Kewaunee Instrument and Control Procedure ICP-82B-129, Revision 10, ICE - Fluke 45 Dual Display Multimeters Calibration.

5.14 Instrument Surveillance Procedure MA-KW-ISP-FW-028A, Rev. 0, "Steam Generator Level Transmitters Calibration".

5.15 Instrument Surveillance Procedures:

  • SP-05A-028B-1, Rev. B, "Steam Generator Level Instrument Channel 461 (Red) Calibration".
  • SP-05A-028B-2, Rev. B, "Steam Generator Level Instrument Channel 462 (Blue) Calibration".
  • SP-05A-028B-3, Rev. 3, "Steam Generator Level Instrument Channel 463 (Yellow) Calibration".
  • SP-05A-028B-5, Rev. B, "Steam Generator Level Instrument Channel 472 (Red) Calibration".
  • SP-05A-028B-6, Rev. B, "Steam Generator Level Instrument Channel 473 (White) Calibration".
  • SP-05A-028B-4, Rev. 3, "Steam Generator Level Instrument Channel 471 (Yellow) Calibration".

5.16 Interconnecting Wiring Diagrams:

  • XK-100-622, Rev. 2M
  • XK-100-663, Rev. 2Q 5.17 Station Drawings:
  • XK-100-554, Rev. 2B
  • XK-100-149, Rev. 4K
  • E-3602, Rev. H 5.18 Kewaunee Power Station Environmental Qualification Plan, Rev.
27.

5.19 Kewaunee Calculation C11116-5, Rev. 0, "Steam Generator NR Level, Control Room Indication".

5.20 Kewaunee DCR 2939, "Replace all Six Narrow Range Steam Generator Level Transmitters 24042 (LT-461), 24043 (LT-462), 24044 (LT-463), 24046 (LT-471), 24047 (LT-472), 24048 (LT-473)".

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 9 of 23 5.21 Kewaunee Calculation CN-SSO-02-08, Rev. 1, Kewaunee Steam Generator Water Level Trip Setpoints Uncertainty Calculations for 7.4% Power Uprate, Replacement Steam Generators and WCAP-15821, Rev. 0. 5.22 Kewaunee Calculation C10746, Revision 0, Addendum A, "Instrument Loop Calibration Resistor Check".

5.23 Instrument Surveillance Procedure SP-47-281, Rev. 14, "AMSAC Quarterly Functional Test". 5.24 Kewaunee Vendor Technical Manual KW-VTM-000-NUSIN-0010, Revision 0, NUS Instruments Series 500 Analog Isolator Module Operations & Maintenance Manual.

6.0 COMPUTER

CODES No computer codes were used to perform this calculation. All calculations were performed by hand using the method described in Section 2.0.

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 10 of 23

7.0 Functional

Block Diagram

This drawing is representative of Loop A Channel 3. Loop A Channel 4 and Loop B Channels 1 and 2 are similar. Loop A Channel 1 and Loop B Channel 2 are similar to the other Channels with the exception of the Steam Generator Low Level Reactor Trip, and the AMSAC Low-Low Level Turbine Trip / Reactor trip.

LM-462FOXBORO LEAD/LAG M4LC-462GFOXBORO OR NUSBISTABLE M5LQ-462FOXBORO OR NUSPOWER SUPPLY M1LC-462C FOXBORO OR NUS BISTABLE M2LC-462A/BFOXBORO OR NUSBISTABLE M3 A MSACLow - Low Level Logic S/G Level Low RX Trip S/G Low LowLevel Rx Trip High Level FW IsolationLT-462ROSEMOUNTTRANSMITTER1154DP430 to 137 In-H20 Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 11 of 23 The channels listed below (Table 7-1) develop the Steam Generator Low Level Coincidence Reactor Trip, Low Low Level Reactor Trip, the High Level Turbine Trip & Feedwater Isolation, and the AMSAC Low-Low Level Trip. This calculation is applicable for all four Steam Generator Level Channels.

TABLE 7-1 Channel Tag/ Mark No. Tag/ Mark No. Tag/ Mark No. Tag/ Mark No. Tag/ Mark No. Tag/ Mark No. SG "A" Level Channel 1 (Red) LT-461 (24042) LQ-461 (4848601) LC-461A/B (4848602) SG "A" Level Channel 3 (Blue) LT-462 (24043) LQ-462 (4848401) LC-462A/B (4848402) LC-462C (4848403) LM-462 (4848404) LC-462G (4809808)SG "A" Level Channel 4 (Yellow) LT-463 (24044) LQ-463 (4845801) LC-463C/D (4845803) LC-463E (4845802) LM-463B (4845804) LC-463G (4809808)SG "B" Level Channel 1 (Red) LT-472 (24047) LQ-472 (4848101) LC-472A/B (4848102) LC-472C (4848103) LM-472 (4848104) LC-472G (4809807)SG "B" Level Channel 2 (White) LT-473 (24048) LQ-473 (4848201) LC-473C/D (4848202) LC-473E (4848203) LM-473B (4809807) LC-473G (4809807)SG "B" Level Channel 4 (Yellow) LT-471 (24046) LQ-471 (4848301) LC-471A/B (4848302)

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 12 of 23

8.0 CALCULATION

SE = Systematic Error No Systematic Error has been identified for these loops.

SE = 0.000% of span

PMA = Process Measurement Accuracy The PMA terms from Section 2.1 are given below for the various loop functions considered in the calculation. PMA 1 (Low Level Coincidence) Section 2.0, Table 2-1 shows a PMA value of - 1.8291 % of span for the Low Level Coincidence circuit. This PMA value is based on Low Tave, 10% tube plugging, Low Setpoint of 25.5% Level and 100% power. For conservatism, the above is the most bounding PMA value between the Hi Tave 0% tube plugging, low setpoint of 25.5% and the Low Tave 10% tube plugging, low setpoint of 25.5% level. This value will be added to the Reference Leg Temperature error (from Table 2-1) to determine the overall PMA to be applied to the Steam Generator Low Level Coincidence Trip Function. PMA 2 (Low Low Level ESFAS Initiation) Section 2.0, Table 2-1 shows a PMA value of - 1.6875 % of span for the Low Low Level ESFAS Initiation circuit. This PMA value is based on Hi Tave, 0% tube plugging, Low Low Setpoint of 17.0% Level and 100% power. For conservatism, the above is the most bounding PMA value between the Hi Tave 0% tube plugging, Lo-Lo setpoint of 17.0% and the Low Tave 10% tube plugging, Lo-Lo setpoint of 17.0% level. This value will be added to the Reference Leg Temperature error (from Table 2-1) to determine the overall PMA to be applied to the Steam Generator Low Level Coincidence Trip Function. PMA 3 (Hi Level Turbine Trip / Feedwater Isolation) Section 2.0, Table 2-1 shows a PMA value of + 5.2050 % of span for the Hi Hi Turbine Trip & Feedwater Isolation circuit. This PMA value is based on Hi Tave, 0% tube plugging, Hi Hi Setpoint of 66.5% Level and 100% power. For conservatism, the above is the most bounding PMA value between the Hi Tave 0% tube plugging, Hi Hi setpoint of 66.5% and the Low Tave 10% tube plugging, Hi Hi setpoint of 66.5% level. This value will be added to the Reference Leg Temperature error (from Table 2-1) to determine the overall PMA to be applied to the Steam Generator Low Level Coincidence Trip Function.

PMA 4 (AMSAC Low Low Level Turbine Trip / Reactor Trip)

Section 2.0, Table 2-1 shows a PMA value of - 1.5781 % of span for the AMSAC Low Low Level Turbine Trip / Reactor Trip. This PMA value is based on Hi Tave, 0% tube plugging, Lo- Lo Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 13 of 23 Setpoint of 13.0% Level (AMSAC) and 100% power. For conservatism, the above is the most bounding PMA value between the Hi Tave 0% tube plugging, Lo-Lo setpoint of 13.0% and the Low Tave 10% tube plugging, Lo-Lo setpoint of 13.0% level. This value will be added to the Reference Leg Temperature error (from Table 2-1) to determine the overall PMA to be applied to the Steam Generator Low Level Coincidence Trip Function. PMA 1 = - 2.659% of span PMA 2 = - 2.518% of span

PMA 3 = + 5.945% of span

PMA 4 = -2.408% of span PEA = Primary Element Accuracy PEA is not applicable for this loop configuration.

PEA = +/- 0.000% of span

SCA = Sensor Calibration Accuracy Reference 5.14 provides a transmitter calibration accuracy of + 0.25% of span. SCA = + 0.250% of span (Reference 5.14) SMTE = Sensor Measuring and Test Equipment The following Measuring and Test Equipment or its equivalent is used for calibration of the Transmitters:

1) SMTE 1 = DMM, Fluke Model 45 or equivalent SMTE 1 = +/- 0.100% of span (Assumption 4.3)
2) SMTE 2 = 10 Precision Test Resistor with an accuracy of

+/- 0.01% of span SMTE 2 = +/- 0.010% of span (Reference 5.9)

3) Reference 5.14 states that a pressure measuring device with an accuracy of + 0.2 in-H2O or better is used for the calibration of the Steam Generator Level transmitters.

SMTE 3 = 100%

  • 0.2 "H 2 O / 107 "H 2O = 0.187% of span SMTE 3 = +/- 0.187% of span

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 14 of 23 The Transmitter Measuring and Test Equipment (SMTE) accuracy is equal to:

SMTE = [(SMTE 1 + SMTE 2)2 + SMTE 3 2] 1/2 SMTE = [(0.1 + 0.01) 2 + (0.187) 2] 1/2 SMTE = +/- 0.217% of span

SD = Sensor Drift The sensors are Rosemount Model 1154DP4 transmitters (Ref. 5.20). The calibration span of the instrument is 107" W.C. (Ref. 5.15). Based on Reference 5.8, the Rosemount Model 1154 transmitter has a drift value of +/- 0.2% of the upper range limit (URL) for a 30-month period following calibration. For a calibration cycle up to 30 months the drift value is:

SD = +/- 0.2% of the URL per 30 Months, URL = 150" W.C. SD = +/- {[(0.2% / 100%)

  • 150" W.C.] / 107" W.C.}
  • 100

SD = +/- 0.280% of span SPE = Sensor Pressure Effect The Sensor Pressure effect (SPE) will have two components, Static Pressure Zero (SPZ) effect and Static Pressure Span (SPS) effect. SPE will have a random component derived from the Static Pressure Zero (SPZ) effect and the Static Pressure Span (SPS) effect uncertainty i.e. the generally accepted value of SPE is computed for a pressure max of 1020 psia (Attachment 1).

Per Reference 5.8, the URL for the Rosemount Series D transmitter (Range Code 4) is 150" W.C. Also per Reference 5.8, the Static Pressure Zero (SPZ) effect is + 0.2% of URL per 1000 psi for model 1154DP range code 4 transmitters. The Static Pressure Span uncertainty effect is + 0.5% of input per 1000 psi.

The maximum operating pressure of the main steam header, as shown in Attachment 1 is 1020 psia. From Reference 5.14 the calibration span of the sensor is 107" W.C.

SPZ = {{[(0.2% / 100%)

  • 150" W.C.] / 107" W.C.}
  • 100%} * (1005.3 psig / 1000 psig)

SPZ = + 0.282% of span

Per Reference 5.19 the Rosemount transmitters have been corrected for a static pressure of 785 psig. Per Reference 5.8 this correction has an uncertainty of + 0.5% of input per 1000 psi. SPS = + 0.5% of input per 1000 psi

SPS = 0.5% * (1005.3 psig / 1000 psig)

SPS = + 0.503% of span Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 15 of 23 The overall Transmitter Sensor Pressure Effect (SPE1) term is equal to:

SPE= (SPZ 2 + SPS 2)1/2 SPE = (0.282 2 + 0.503 2)1/2 SPE = +/- 0.577% of span

STE = Sensor Temperature Effect Rosemount Instruction Manual (Ref. 5.8) states the temperature effect for Range Code 4 is:

+/- (0.75% of URL + 0.5% span) / 100

°F (Reference 5.8)

Upper Range Limit = 150" W.C. Transmitter Span = 107" W.C. Temperature Span = 80°F (Based on the EZD Zone L02 (Ref. 5.18) minimum temperature of 40°F and Maximum temperature of 120 °F) STE = [(0.75%

  • 150" W.C / 107" W.C.) + 0.5%] * (80°F / 100°F)

STE = +/- 1.241% of span SPSE = Sensor Power Supply Effect According to Reference 5.20, Rosemount Model 1154DP4 differential pressure transmitters are used for the Steam Generator Level Channels. According to Reference 5.8, the Sensor Power Supply Effect for this model is less than 0.005% of output span per volt. The nominal load resistance for the Steam Generator Level Channels is approximately 650 (Reference 5.15). Based on Figure 2-3 in Reference 5.8, the nominal power supply voltage at 650 at 20 mA is 25.4 VDC. From Figure 2-3, the high end qualified power supply voltage is 45 VDC and the low end voltage is 13.5 VDC.

Based on References 5.14 and 5.15, the power supply output voltage is not checked during the performance of the Channel Calibration Procedure or the Steam Generator Level Transmitter Calibration Procedure, therefore to bound all possible conditions, a power supply output tolerance of + 11.9 VDC (i.e. 25.4 VDC - 13.5 VDC) will be used to determine the Sensor Power Supply Effect.

SPSE = +/- [(0.005% / 100%) * (11.9 VDC / 1.0 VDC)]

  • 100% = 0.060%

SPSE = + 0.060% of span

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 16 of 23 M1 = Foxboro / NUS Loop Power Supply Model 610AC-0/SPS500 According to References 5.15 and 5.16, the loop power supply is either a Foxboro H/610AC-0 or a NUS Instruments SPS500. Based on References 5.14 and 5.15, these power supplies are not used as a current to voltage converters. Therefore, the accuracy for M1 is + 0.0 % of span. M1 = + 0.000% of span M1MTE = Loop Power Supply Measuring and Test Equipment According to References 5.15 and 5.16, the loop power supply is either a Foxboro H/610AC-0 or a NUS Instruments SPS500. Based on References 5.14 and 5.15, these power supplies are not used as a current to voltage converters. Therefore, the accuracy for M1MTE is + 0.0 % of span. M1MTE = 0.000% of span

M2 = Foxboro/NUS Bistable Modul e Model 63U-AC-OHBA/SAM504-3

Based on Reference 5.16, either a Foxboro Model M/63U-BC or NUS Instruments Model SAM504-3 may be installed as a Steam Generator Low Level bistable. The calibrated accuracy is +/- 0.500 % of span.

                                 (Reference 5.15)                M2 = +/- 0.500% of span M2MTE = Foxboro/NUS Bistable Module Model 63U-AC-OHBA/SAM504-3 Measuring and Test Equipment Based on Reference 5.15, the following M&TE is used to calibrate the bistable: 

M2MTE = +/- (Fluke + TPR) Fluke Accuracy = +/- 0.100% of span (Assumption 4.3)

Test Point Resistor Accuracy = +/- 0.100% of span (Reference 5.22) M2MTE = +/- (0.100 + 0.100) = +/- 0.200% of span M2MTE = +/- 0.200% of span M3 = Foxboro/NUS Bistable Modul e Model 63U-AC-OHBA/DAM504-3 Based on Reference 5.16, either a Foxboro Model M/63U-BC or NUS Instruments Model DAM504-3 may be installed for the Steam Generator Level Low- Low and Hi Level bistable. The calibrated accuracy is +/- 0.500 % of span. (Reference 5.15) M3 = +/- 0.500% of span Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 17 of 23 M3MTE = Foxboro/NUS Bistable Module Model 63U-AC-OHBA/DAM504-3 Measuring and Test Equipment

Based on Reference 5.15, the following M&TE is used to calibrate the bistable:

M3MTE = +/- (Fluke + TPR)

Fluke Accuracy = +/- 0.100% of span (Assumption 4.3) Test Point Resistor Accuracy = +/- 0.100% of span (Reference 5.22)

M3MTE = +/- (0.100 + 0.100) = +/- 0.200% of span M3MTE = +/- 0.200% of span M4 = Foxboro/NUS Signal Converter I/I Module Model M/66BC-0/ OCA504 Based on Reference 5.16 and 5.24, either a Foxboro Model M/63U-BC or NUS Instruments Model OCA504 may be installed for the Steam Generator Signal Converter Module. The calibrated accuracy is +/- 0.500 % of span.

                                 (Reference 5.23)                M4 = +/- 0.500% of span M4MTE = Foxboro/NUS Signal Converter I/I Module Model M/66BC-0/OCA504 Measuring and Test Equipment Based on Reference 5.15, the following M&TE is used to calibrate the Signal Converter Module: 

M4MTE = +/- (Fluke + TPR) 2 + (Fluke + TPR) 2 Fluke Accuracy = +/- 0.100% of span (Assumption 4.3)

Test Point Resistor Accuracy = +/- 0.100% of span (Reference 5.22)

M4MTE = +/- (0.100 + 0.100) 2 + (0.100 + 0.100) 2 = +/- 0.283% of span M4MTE = +/- 0.283% of span M5 = Allen Bradley Processor Mini PLC-2 Based on Reference 5.17, an Allen Bradley Mini PLC-2 is installed for use as the Steam Generator AMSAC Low-Low Level trip function. The calibrated accuracy is +/- 0.500 % of span.

                    (References 5.17 & 5.23)

M5 = +/- 0.500% of span

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 18 of 23 M5MTE = Allen Bradley PLC Module Measuring and Test Equipment Based on Reference 5.15, the following M&TE is used to calibrate the Allen Bradley PLC AMSAC Low-Low Level trip function:

M5MTE = +/- (Fluke + TPR)

Fluke Accuracy = +/- 0.100% of span (Assumption 4.3) Test Point Resistor Accuracy = +/- 0.100% of span (Reference 5.22)

M5MTE = +/- (0.100 + 0.100) = +/- 0.200% of span M5MTE = +/- 0.200% of span RD = Rack Drift The superseded calculations specified a drift value derived from previous testing. However, that data is not current and Kewaunee is replacing Foxboro rack modules with NUS Instruments equivalents where sufficient drift trends have not been established. Therefore, the standard and conservative value of + 1.0% of span as referenced in STD-EEN-0304, Revision 6 will be used in this calculation.

RD = + 1.000% of span (Reference 5.1) RTE = Rack Temperature Effect For Kewaunee calculations the Rack Temperature Effect term was either assumed to be embedded in the Rack Drift term or set to zero percent of span. However, the effects of rack temperature changes have not been monitored or documented. Therefore, the standard and conservative value of + 0.5% of span as referenced in STD-EEN-0304, Revision 6 will be used for this calculation.

RTE = + 0.500% of span (Reference 5.1) RRA = Rack Readability Allowance Rack Readability Allowance (RRA) is applicable for the indication portion of the loops. This calculation is determining the CSA value associated with the applicable trips and not the indication. Thus, RRA = + 0.000% of span (Reference 5.1)

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 19 of 23 Steam Generator Low Level Coincidence Reactor Trip Uncertainty (Normal Conditions) The Channel Uncertainty for the Steam Generator Low Level Coincident Reactor Trip based on NORMAL conditions is given by the following equation: CSA = SE + PMA 1 + [PEA 2 + (SCA + SMTE) 2 + SD 2 + SPE 2 + STE 2 + SPSE 2 + (M1 + M1MTE)2 + (M2 + M2MTE) 2 + RD 2 + RTE 2]1/2 Where: SE = 0.000% of span

PMA 1 = - 2.659% of span PEA = 0.000% of span SCA = 0.250% of span SMTE = 0.217% of span SD = 0.280% of span SPE = 0.577% of span STE = 1.241% of span SPSE = 0.060% of span M1 = 0.000% of span M1MTE = 0.000% of span M2 = 0.500% of span M2MTE = 0.200% of span RD = 1.000% of span RTE = 0.500% of span

CSA = 0.0 - 2.659 +

[0.0 2 + (0.25 + 0.217) 2 + 0.28 2 + 0.577 2 + 1.241 2 + 0.060 2 + (0.0 +        0.0)2 + (0.50 + 0.20) 2 + 1.00 2 + 0.50 2]1/2 CSA-NORMAL (SG Low Level Coincidence)
= - 0.681% of span to - 4.637% of span = - 0.681% Level                 to - 4.637% Level Note: When the resultant CSA is a net negative (-) the actual level is lower than indicated level. 

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 20 of 23 Steam Generator Low Low Level Reactor Trip Uncertainty (Normal Conditions) The Channel Uncertainty for the Steam Generator Low Low Level Reactor Trip based on NORMAL conditions is given by the following equation: CSA = SE + PMA 2 + [PEA 2 + (SCA + SMTE) 2 + SD 2 + SPE 2 + STE 2 + SPSE 2 + (M1 + M1MTE)2 + (M3 + M3MTE) 2 + RD 2 + RTE 2]1/2 Where: SE = 0.000% of span

PMA 2 = - 2.518% of span PEA = 0.000% of span SCA = 0.250% of span SMTE = 0.217% of span SD = 0.280% of span SPE = 0.577% of span STE = 1.241% of span SPSE = 0.060% of span M1 = 0.000% of span M1MTE = 0.000% of span M3 = 0.500% of span M3MTE = 0.200% of span RD = 1.000% of span RTE = 0.500% of span

CSA = 0.0 - 2.518 +

[0.0 2 + (0.25 + 0.217) 2 + 0.28 2 + 0.577 2 + 1.241 2 + 0.060 2 + (0.0 +        0.0)2 + (0.50 + 0.20) 2 + 1.00 2 + 0.50 2]1/2 CSA-NORMAL (SG Lo-1 Level)
= - 0.540% of span to - 4.496% of span = - 0.540% Level to                              -4.496% Level Note: When the resultant CSA is a net negative (-) the actual level is lower than indicated level. 

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 21 of 23 Steam Generator Hi Level Turbine Trip & FW Isolation Uncertainty (Normal Conditions) The Channel Uncertainty for the Steam Generator Hi Level Turbine Trip / FW Isolation for NORMAL conditions is given by the following equation: CSA = SE + PMA 3 + [PEA 2 + (SCA + SMTE) 2 + SD 2 + SPE 2 + STE 2 + SPSE 2 + (M1 + M1MTE)2 + (M3 + M3MTE) 2 + RD 2 + RTE 2]1/2 Where: SE = 0.000% of span

PMA 3 = +5.945% of span PEA = 0.000% of span SCA = 0.250% of span SMTE = 0.217% of span SD = 0.280% of span SPE = 0.577% of span STE = 1.241% of span SPSE = 0.060% of span M1 = 0.000% of span M1MTE = 0.000% of span M3 = 0.500% of span M3MTE = 0.200% of span RD = 1.000% of span RTE = 0.500% of span

CSA = 0.0 + 5.945 +

[0.0 2 + (0.25 + 0.217) 2 + 0.28 2 + 0.577 2 + 1.241 2 + 0.060 2 + (0.0 +        0.0)2 + (0.50 + 0.20) 2 + 1.00 2 + 0.50 2]1/2 CSA-NORMAL (Hi Level Turb Trip/FW Isol)    = + 3.967% of span to + 7.923% of span = + 3.967%                     Level to + 7.923% Level Note: When the resultant CSA is a net positive (+) the actual level is higher than indicated level. 

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 22 of 23 Steam Generator AMSAC Low Low Level Turbine Trip / Reactor Trip Uncertainty (Normal Conditions)

The Channel Uncertainty for the Steam Generator AMSAC Low Low Level Turbine Trip / Reactor Trip based on NORMAL conditions is given by the following equation: CSA = SE + PMA 4 + [PEA 2 + (SCA + SMTE) 2 + SD 2 + SPE 2 + STE 2 + SPSE 2 + (M1 + M1MTE)2 + (M4 + M4MTE) 2 + (M5 + M5MTE) 2 + RD 2 + RTE 2]1/2 Where:

SE = 0.000% of span

PMA 4 = - 2.408% of span PEA = 0.000% of span SCA = 0.250% of span SMTE = 0.217% of span SD = 0.280% of span SPE = 0.577% of span STE = 1.241% of span SPSE = 0.060% of span M1 = 0.000% of span M1MTE = 0.000% of span M4 = 0.500% of span M4MTE = 0.283% of span M5 = 0.500% of span M5MTE = 0.200% of span RD = 1.000% of span RTE = 0.500% of span

CSA = 0.0 - 2.408 +

[0.0 2 + (0.25 + 0.217) 2 + 0.28 2 + 0.577 2 + 1.241 2 + 0.060 2 + (0.0 +        0.0)2 + (0.50 + 0.283) 2 + (0.50 + 0.20) 2 + 1.00 2 + 0.50 2]1/2 CSA-NORMAL (SG Lo-1 Level)
= - 0.281% of span to - 4.535% of span = - 0.281% Level to                     - 4.535% Level Note: When the resultant CSA is a net negative (-) the actual level is lower than indicated level. 

Engineering Work Sheet Calculation Number: C11116 Revision: 0 Addendum: N/A Page 23 of 23

9.0 CONCLUSION

S The results of this calculation are summarized below: Steam Generator Low Level Coincidence CSA-NORMAL (Low Level Coincidence) = - 0.681% Level to - 4.637% Level Steam Generator Low-Low Level Reactor Trip CSA-NORMAL (Low Low Level RX Trip) = - 0.540% Level to - 4.496% Level Steam Generator Hi Level Turbine Trip & FW Isolation CSA-NORMAL (Hi Level Turb Trip / FW Isol) = + 3.967% Level to + 7.923% Level Steam Generator AMSAC Low-Low Level Reactor Trip CSA-NORMAL (AMSAC Low Low Level Turb/RX Trip) = - 0.281% Level to - 4.535% Level

CALCULATION NO: C11116-5 ORIGINATOR: PDesotelte Calctrlation C11116, Rev.0 Attachment 1 Page 1 of 23 DATE: 5/6/2004 CALCULATION REV: 0 REVIEWER: JWerner DATE: 5/11/2004 Page 91 of 131 W ednesday, May 12, 2004 Attachment 4 SG Narrow Range Level, PMA Calculation Pages: 22 Page 75 of 115 Pages GALeUU TION NO: C11116-5 --0 Attachment 1 Page 2 of 23 ORIGINATOR: PDesotelJe DATE." 5/6/2004 CALCULATION REV: 0 REVIEWER: JWerner DATE: 5/11/2004 Actual vs.Indicated S/G Level and PMA Calculation for KNPP 7.4%Power Uprate Purpose: Determine the Process Measurement Accuracy (PMA)for the Narrow Range Steam Generator Leve I setpoints and indication The PMA will be used in Loop Accuracy Calculations to determine Total Loop Error.

References:

1 Westinghouse Calculation No.CN..OPES(99)-025 t Actual vs.Indicated S/G Level and PMA Input Calculations for Kewaunee RSG.2.Westinghouse Nuclear Safety Advisory Letter NSAL-02-3. S/G Mid..deck Plate Pressure Loss Issue.3.Westinghouse Nuclear Safety Advisory Letter NSAL..024, Maximum Reliable lndicated S/G Water Level.4.Westinghouse Nuclear Safety Advisory Letter NSAL-02-5, S/G Water Level Control System Uncertainty Issue.5.Westinghouse I&CEJPOED(02)-49 Maximum Reliable Indicated Level (MIRL)for Kewaunee 7.4%Uprating..April 5, 2002 6.Westinghouse 1&CEIPOED(02)-32 Rev.-l Thennal and Hydrolic Parameters Input for Steam Generator Level Process Measurement Accuracy for Kewaunee Power Uprate and RTSR Program.July 11, 2002 7.Westinghouse CN...SSO-02-80 Kewaunee S team Generator Water Level Trip Setpoints Uncertainty Calculations for 7.4%Power Uprate, Repacement Steam Generators, and WCAP-15821, Rev.O Background Notes: Th is calculation uses the same methodology as Reference 1.Combining of the PMA uncertainties in an Excel spread sheet to detel1l1ine bounding PMA values for KNPP Steam generator level setpoint calcUlations. Reference 1 was accomplished for the Steam Generator Replacement(SGR) project and Reference 7 was accomplished for the KNPP 7 a4%Power U prate.This KNPP generated PMA calculation will use parameters from both Westinghouse generated calculations. This calculation will use a transmitter calibration curve detennined through an iterative process using the PMA calculation to evaluate a best fit and minimize errors.The (W)Power-uprate PMA calculation used High Tave.(573°F)with 0%Tube Plugging and Low Tave..(556 3Op)with 10%tube plugging as bounding conditions and calculated the PMA for a HI...HI and LO-LO setpoint of 78%and 10%respectively ..This calculation will determine the PMA for 78%, 100/0.a programmed level of 44%, the KNPP Tech.Spec.value of 15%and KNPP setpoints of 66.5%, 25.5%,20%and 19%for the bounding conditions. The 78%level is 6 inches above the mid deck plate and is the maximum recommended leveL Reference 5.Page.92 of 13IWednesday, May 12, 2004 Page 76 of 115 Pages CALCULA TION NO: C11116-S ORIGINATOR: PDesotelle Calculation C11116, Rev.0 Attachment 1 Page 3 of 23 DA TE: 5/6/2004 CALCULATION REV: 0 Method of Analysis: REVIEWER: JWerner DATE: 5/11/2004 The analysis will largely use an Excel spreadsheet to calculate the actual vs.indicated levels.The methodology is similar to that used in Reference 1..Computer Code used: The computer code used is Microsoft Excel 97 SR-2 for Windows 95 The steam table conditions were obtained from an Excel add-in called Winsteam from Techware Engineering .applications inc., desk top version 3.1.Inputs I calculations: Tap to tap height plus thermal expansion, Reference 1 Thennal and Hydraulic parameters, Reference 6 Maximum Reliable Indicated Level (MRIL), Reference 5 Nerative (w)error=actual level lower than indicated Positive (+)error=actual level higher than indicated Ltnear interpolation of the Downcommer temperature (IDC)parameter is used to determine those temperatures for speciflc levels not included in reference 6.The Following IS a column by column description of the spread sheet A.Power LevelInches of water above the lower tap e..Percent level in decimal form.D..Steam flow (pPH xlOE6)from.Reference 6 E.Steam pressure (PSIA)at the tube bundle.Reference 6.F.Temperature G.Spectfic volume of saturated fluid at specified pressure (cot-E)from W1nsteam add in.H.SpeCIfic volume of saturated gas at speCIfied pressure (coL-E)from Winsteam add in.I.Specific volume of the downcommer water at pressure (col.-E)and temperature (col.-F)from Winstearn add in.J.DIfferentIal pressure (PSI)across Mid Deck Plate (MDP)Reference 6.K.Velocity Head Effect, flow past lower level tap.Reference 6, Square of flow interpolatlon. L.SpeCIfIc volume of the Reference Leg water at pressure (col-E)and temperature 9SoF from Winsteam add in M.Reference Leg Pressure (PSI)=144.53/(Col-L*1728)Sub-cooled region Process Leg Pressure (pL..I)=30.27/(Col ..I*1728)O.Saturated water region Process Leg Pressure (PL-2)=(Col...B..30.27)/(Col-G* 1728)P.Saturated Steam regIon Process Leg Pressure (PL-3)=(144.53-Col-B)/(Col-H*1728) Q.PL-Total (PSI)Total Process Leg Pressure::: SUM(Col-N thru Col-P)Page 93 of 131Wedta,sda,Y, May 12 1 2004 Page 77 of 115 Pages CALCULATION NO: C11116-5 ORIGINATOR: POesoteJle Calculation C11116, Rev.0 Attachment 1 Page 4 of 23 DATE: 5/6/2004 CALCULATION REV: 0 REVIEWER: JWerner DATE: 5/11/2004 R.Differential Pressure (DP)across the Xmtr at specified level (pSn=(Col-M)-(Col-Q) This is the DP due to the differences in Density and height of water between the RL ands.Xmtr DP minus the rvIDP effect Plus VelQcity effect (PSI)(DP)=(Col-R)-(Col-I)+(Col-K)The MDP has a negatIve effect and the velocity a positive effect.This is the combined or resultant DP across the Xmtr for the given conditions. T.The actual water level in the steam generator when the indicated level is at the specIfied level.The actual DP t Col-S is calculated for a specific height of water and SInce the actual DP will likely differ from the Xmtr calIbrated DP for the specIfic level.The error is calculated as follows.The Indicated level is calculated based on the cal1brated DP span uSIng the actual DP.[(Col:M,Row:38)-(CoJ:S)] I the result isa%of cahbrated span.ThlS result is then subtracted from the specified%level, the resultant difference wlll be a posItive or negatlve This difference or error is then algebrmcally added to the specified%level to obtain the actual level when the indicated level is equal to the specified level.IE for a specifled level of 78%(78%+(78%-(Col:M,Row:38 ...Col:S)/Col:M,Row:39)))* 100 u.Xmtr calibrated DP for the specIfied Level.($M$38)-{O.78*$M$39) Where ($M$38)=calibration 0%DP, spread sheet location ($M$39)=Calibration Span, Spread sheet location v.Thermal Hydraulic DP error.(Col:R-Col:U) w.MOP+VelocIty DP error.(Col:S-Co):R)MOP+Velocity+thermal Hydrolic errors combined.(Col:SThermal HydrollC%error.(Co]:V I$M$39)z.MDP+Velocity%error.(Col:W I$M$39)AA.1\1DP+Velacity+Thermal Hydraulic Errors combined.(Col:X I$M$39)Page 94 of 131Wednesday, May 12, 2004 Page 78 of 115 Pages '=I r t\M QReference.,.t--c Elevation of tower Tap from top of tube sheel(.nches) 44108 Reference 1: Elevallon of feedn ng J-Tube dIscharge from lop of tUbe!:h?et{1nches) 47124 Reference 1Elevation of upper Tap from top of tube shee\{mches}too,.56506 Reference 1Reference leg Temporature (oF)95 Reference 5 Assumption......-.DP for Mld-Deck PJaie (ps.J worst case power 0164 Aefe"ence 2 lower Tap 10 J...Tube Olschatge (471 24 11.441 08 tC)+11 lor thermal expansion 3027 u Reference 1 0 0.....Programmed water Leve'44°,{, (14453" 44)=635932 5046748 Reference 1.....&.0)Conversion Factor used to convert from denSity to pressure pSI 1728 Reference 1en COnvers1on Factor to convert from pressure ps, to callbrallon"H 2 0@6S 0 F (pst-2:1729648) 27729648 Reference 1 SpeCifiC Volumes at specified pressures0;;23 Pressure (psla)200 300 4CtO 500 600 700 800 900 1020 S2425@95 Q F Ref Leg 0016105 0016101 0016096 0016091 0016086 0016081 0016076 0016071 001605626 VaF@sat 0018387 0018897 0019343 0019752 0020140 0020514 0020879 0021240 o 02Hi72a 27 V*G@sat 2288035 1 543446 1 161596 0928152 0770162.0655866 0559179 0501069 043630028..29 Reference leg (RL)and Process leg (PL)pressures I I-0 52012 52027 52043 5206183 0 51933 51949 51964 51980 51996<D 454B9 44261 43241 42344 41530 40773 40059 39379 3859409 (IJ 0 r+()0366 00542 00720 00901 01086 01275 01469 01669 o 191703XMTR m Differential Pressure (DP)psi calibraUo OP*Htgh 1 Lvi 06444 07687 08723 09636 10466 1123g 1l96S 12664 13468 1 0818745'"U>>()DP-low 0%lvl 51567 51407 51244 51079 509tO 50736 50558 50374 50145 49405604 Q)::+Q) fIl Span 4 43720 42521 41443 40444 39498 38590 37709 366n 38586858 (CQ)-CD (')g , 40 CJ1 3 Q)Differential Pressure (DP)UH20b 0 CD--h:::J 0 DH*HIgh 100%Lvi 178685 213163 24188B 267195 290229 311645 331865 351179 373456 30I\.)r-+:::Jc..u()DH-Low 0%Lvi 1429943 1425491 1420989 141 6404 1411715 1406903 140 1952 1396848 1390498 137-.,..,.,...til Callbraliol1 error atle\1ellndlcated for specified pressures 32427386.............0)..-.N J',J..ACluallvl Ok 424167 434116 442531 450052 456996-163546 469824 475914 483065 a 0;0 16996 23546 29824 55914 43065 0 0 An Error.,*05884 02531 10052CD:<0 Page 95 of 131---_..."._............ -_PO..._.."....__---- t--c 1\\a§A M50 51 Hi Tave, 00;0 TP.MRIL..18%;a,..",.,.52w 53 MId-Deck VelocIty RL&154 POWER SG lEVEL 5G Level STMnow P-STM TOG V-F V*G V..Oc DP Effect V=AL pressure...55%II abovelT%PPH x 10E6 PSIA DEGF@P..STM@P-STM PS'PSI PSl56 0 9 57 100 1127334 078 3863 7935 49922 0020855 0574175 0020397 0164 00010422 0016076 520263 58 90 1127334 078 8099 501 64 o (j209t5 OS6l718 0020451 0147 00008275 0016076 520289..............59 80 1127334 078 3041 8269 50432 0020976 0549306 0020512 0129 00006392 0016075 520316.....<>>60 70 1127334 078 26295 50732 0021040 0536961 0020582 o 111 00004777 0016074 520343 I 01 61 60 1127334 078 222 8635 51062 0021108 0524176 0020661 0094 00003401 0016073 520373 62 50 1127334 078 182 8831 51432 0021179 0511540 0020751 0077 00002290 0016072 520404 63 40 1127334 078 1 421 9035 51804 0021253 0498947 0020844 0060 00001396 0016071 520436 64 30 1127334 078 1 037 9262 52262 0021334 0485559 0020963 0044 00000743 0016070 520471&s65 20 1127334 (J 78 0674 9500 52824 0021420 0472181 0021114 0029 00000314 001-6069 520509;S66 10 1127334 078 0322-9769 53482 0021517 0457811 0021299 0014 00000072 0016068 520551 tlj67 0 1127334 078 0 10200 547 0021672 0436300 0021670 O{lOO 00000000 0016066 520618;j>: 68(S 69...::tt 70 HI T Ave.0%TP, HI-HI Selpolnl66 5%...71 72 Mid-Deck RL I r-U 73 POWER SG LEVEL SG Leval STM Row P-STM TOC V-F V-G V-DC DP Effect V;;RL pressure a CD-74 DiE.*above IT 0/0 PPH x 10E6 PSfA DEGF@P-STM@ PSI PSI PSJ tb 0 15 m: 76 100 961125 0665 3883 7935 4988 0020855 0574175 0020386 0164 00010422 0016076 520263 CD 17 90 961125 0665 346 8099 5012 0020915 0561718 0020441 0147 00008275 0016076 520289 78 80 961 1 25 0665 3041 8269 5039 0020976 0549306 0020501 0129 00006392 0016075 520316 79 70 961125 0665 2629 8445 5069 0021040 0536961 0020571 0111 00004777 0016074 520343""U>>O 80 60 96 1125 0665 222 8635 5102 0021108 0524176 0020549 0094'00003407 0016073 520373 Ol::+Ol;p 81 50 961125 0665 1 82 8831 5139 0511540 0020739 0077 00002290 0016072 520404 COOl-CD (')g82 40 961125 0665 1 421 9036 5176 (}O21253 0498947 0020833 0060 00001396 0016071 520436 (j)3Q)83 30 961125 0665 1037 9262 5222 0021334 0485559 0020950 0044 00000743 0016070 520471t::l°CD!::!:84 20 96 0665 0674 9500 5278 0021420 0472181 0021102 002S 00000314 0016069 520509-h:::J 0i'.)r-t-:::J 85 10 961125 0665 0322 9769 5344 0021517 0457811 0021285 0014 00000072 0018068 52055186 10200 5470 0021672 0436300 0021670 0000 00000000 0016066 52{)618..0 961125 0665 0.....87tR...aV1-J.o:ii\5 i\5 (j)00 0::0 0CD:<0 Page 96 of 131 &?§o r-<r-<l 2 C")§N AA50::J....51 HI Tave, 0%TP, MRIL.78%Hi Tave, 0%TP, MRIL.78%...MinusN PL-1 PL-2 PL-3 PL-Tolal OP-XMTR MDP OP Aatual XMTR TH MDP-I-V MOP T TH THonly MOP+V MDP+TH fgsubcooled sal waler sat steam@78%LVL+Velocl!y Level CALlBDP DPError DP Error OP E:IOT%%%:0:: " PSI PSI PSI PSI PSI PSI@78%lnd@78%LVl PSI PSI PSI Error Error Error 0 (')085883 228823 003205 317911 202353 186G57 7618026 193079 00927-01630-007022 24034%-42231%-18197%.....085655 228172 003276 317104 203186 188568 7683115 01011.....193079-01462-004510 -37981%-11689%.....085400 227503 003350 316253 204063 191227 77 52019 19307g 01098-01284.{l018S1 28467%-33265%-04798 0'"......m 085109 226816 003427 315351 204992 193940 7822321 193079 01191-01105 000861 30875%*28642%02232%01 Oa4785 226079 Q03510 314374 205999 196833 78 92111 193079 01292-00937 003554 33483%-24272%09211%084415 225325 003597 313337 207066 199389 7963549 193079 01399-00768 008311 36251%-19896%16355%084039 224547 003688 312273 208163 202177 8035786 193079 01508-005[;3 009098 39092%-15513%23579%083564 223687 003790 311041 209430 205038 8109928 193079 01635.{l0439 011959 423760/0-11384%30993%0 082966 222793 003897 309656 210853 207956 8165560 193079 01m-00290 014876 46063%-07507%38556%082244 221791 004019 308055 212496 211097 8266957 193079 01942-00140 018018 50322%-03626%46696%080838 220203 004217 305259 21535S 215359 8S 77419 193079 02228 00000 022281 57742%00000%57742%>:>::i c:s'.:=tl Hi T Ave, 00/0 TP, HI*HI Selpolnt 6$.5%HI T Ave, 0%TP, HI-HI SelpolnI66.5% '.MUl\lS PL-2 PL-3 PL-Tolal OP-XMTR MOP OP AclIJal XMTR TH MOP..V MOP+TH THonly MOP+V MOP+TH c....-C sat water sal steam@665'3'0 LVL+VelOCIty Level CALIBOP DP Error OPError DP ElTor%%C!<.:iE 0<IlPSIPSIPSIPSIPSI@665%lnd@66S%LVL PSI PSI PSI Error Error Error...::l So (I)...!!l 085929 182702 OU4880 273512 246752 230456 6469655 237453 00930-0 le30.{l06998 24097*....-42231%-18134%<P 085697 182183 004988 272869 247421 232803 6529491 237453 00997-01462-004650 25831%-31881%-1 2051%085447 1 91649 005101 272196 248120 235264 6593767 237453 01067-01284-002170 27642<11.*33265%-05623%085156 181100 005218 271474 248869 237817 66 69421 237453 01142.{l1105 000364

  • 28642%00942%-0>>084833 1 80512 005345 270690 249683 240317 6724215 237453 01223-00937 002864 31694%-24272%07422%Q):::I:005477 269851 250553 242876 6190522 237453 01310-00168 005422 33948%-19896%14052%(CQ)084464 179910 CD ()084083 179268 005616 268987 251449 245463 6857568 237453 01400.{l0599 008009 36270%-15513%.20757%.......:::r 083615 178602 005771 267987 252484 248092 6925692 237453 01503-00439 010638 38953%-11384%275690/03 o CD083012 177888 005934 266834 253674 250777 6995299 237453 01622*fr029D 013324 42037%-01507%34530%-::::lN....O 082297 177098 006120 265506 255045 253646 7069633 237453 01759*00140 016192 45590%-03626%..11163%W-"080838 175820 006422 263080 257538 257538 7170501 237453 02006 OODOO 020084 52060%00000%52050%....>........>........>.....-.a.OJ....>.....N (j)i\3 0!0 0::u.....CD:<0 Page 97 of 131

&?Qr.-..nA M88:;j89 Hi TAVG, O%TP, Programmed Level, 44%""""" 90 J'J91 Velocity AL&1CJ92 POWER sa LEVEL SG Leve'STM Flow P...sTM.DC V..F V*G V-DC OP Effect V=Rl pressure..93%II above IT%PPHx 10E6 PSIA DEGF@P-STM@P-STM PSI PSI PSI 94 0 0 95 100 635932 044 3883 7935 4978 0020855 0574175 0020363 0164{)0010422 0016076 520263............96 90 635932 044 346 8099 5003 0020915 0561718 0020419 0147 00008275 0016076 520289......a..97 80 635932 044 3041 8269 6029 0020976 0549306 0020478..L 0129 00006392 0016075 520316 0>98 70 635932 044 2629 8445 5059 0021040 0536961 0020547.0111 o 0OO4n7 0016074 520343 c.n 99 80 635932 04-4 222 8635 5092 0021 f08 0524176 0020625 0094 00003407 0016073 520373 10 50 635932 044 182 8831 5128 0021179 0511540 0020712 0077 00002290 0016072 520404 101 40 635932 G44 1 421 9035 5166 0021253 0498947 0020806 0060 00001396 0016071 520436 102 30 635932 044 1037 9262 5211 0021334 0485559 0020921 0044 00000743 0016070 52047110 20 635932 044 0674 9500 5267 00214:20 0472181 0021070 0029 00000314 0016069 52050910 10 635932 044 0322 9769 5333 0021517 o 457B11 0021254 0014 00000072 0016068 520551105 0 635932 044 0 10200 5470 0021672 0436300 0021672 0000 00000000 0016066 520618106107108 HI T0%TP, LO Se.tpolnt 25.5%..109 110 M1d-Deck Vefocety RL I i" 0 111 POWER SG LEVEL SG level STM Flow P*STM TDe V-F V-G V.QC DP V=RL pressure (1)112 II above LT o/Ct PPH x PSIA DEGF@P-STM@P-STM PSI PSI PSJ C/)%0....113 5Q.114 100 368552 0255 3883 7935 4970 0020855 0574175 002C3d4{)164 00010422 0016076 520263 m 115 90 368552 0255 3-16 8099 4994 0020915 0561718 0020397 0147 00008275 0016076 520289 116 80 368552 0255 3041 8269 5020 0020976 0549306 0020455 0129 00006392 0016075 520316 17 70 368552 0255 2629 8445 50&0 0021040 0536961 0020524 0111 00004777 0016074 520343-"U>>()118 60 366552 0255 222 8635 5083 0021109 0524176 0020602 0094" 00003407 0016073 52037$tu::+tu CCtu-119 50 368552 025582 8831 511 9 0021179 0511540 0020688 0077 Oc\OO2290 0016072 520404 CD (")g120 40 368552 0255 1 421 90S 5 5156 0021253 0498947 0020780 0060 o COO1396 0016071 520436 (>>3 tu 121 30 368552 0255 1037 9262 5201 0021334 0485559 0020895 0044 O'.';{)OO743 0016070 5204710 CD122 20 368552 0255 0674 9500 5257 0021420 0472181 0021043 0029 00000314 0016069 520509-+':::J 0I\.)r-+:::J 123 10 368552 0255 0322 9769 5321 0021517 0457811 0021218 0014 0(000072 0016088 520551W()124 0 36 0255 0 10200 5470 0021672 o 43630G 0021670 0000 o (JOOOOO 0016066 520618....125U'I-a.0>i\:i 0')i\s 00 0;:u0CD:<0 I Page 98 of 131:

c t'-..=N p-I Q AA88:;!89 HtTAVG., QOkTP, Programmed level 1 44%Hi TAVG, O%TP, programmed level!44%90 MinusN 91 PL-1 PL**2 PL*3 PL-Total DP-XMTR MDP DP Actual XMTR TH MDP+V MOP+TH TH only MDP...V MCP+TH>=<:92 subcooled@44%LVL-+VeJoCtly level OP Error DP E nor DP ErrorCsat water sal'Steam CALlBO?%%%...93 PSI PSI PSI PSI PSI@440/0 Ind@44%LVL PSJ PSt PSI Error Error Error 94 0 ()95 086025 092467 008158 1 86650 333614 317318 421974 324274 00934*0 1630-006956 24205%*42231%., a026 G k.......96 085791 092204 008338 1 86333 333956 319339 427211 324274 00968*01462-004935 25093°kt*37881%-1 27894:1".........&.97 085544 091933 006527 1 86005 334311 321475 432747:3 24274 01004-01284-002799 26013%-332650/0-01253%m 98 085255 334710 323658 438403 01044*01105 I 091655 008723 1 85634 324274-000616 27045°/0-286420/0-0 01 99 08'933 091358 008936 1 85227 335147 325781 443905 324274 01087*00937 001507 28177%..24272%03905%100 084576 091053-009156 184786 335618 327941 449504 324274 01134*00168 o ()3667 29400%-,9896°h 09504%101 084193 090739 009387 1 84320:3 36116 330t30 455177:3 24274 ()1184**00599 005856 30691%..1 1 5177 C1 1o 102 083731 090391 009646 1 83769 336703 332310 460827 324274 01243*00439 o 0803S 32210%-1 13840/0 2 C82"1C1k103 083139 090030 009920 1 83088 337420 334524 466563 324274 01315..00290 010250 340700/(1-07507%265630/D;S104 082420 089625 010231 1 B2276 33B275 336875 472657 324274 01400-D 0140 012601 362B40/0 326570/p t:r.i105 080830 088984 010735 1 60549 340069 340069 480934 324274 01580 00000 o 15795 40934%1 00000°,6 40934%10610718 HI T Ave, OOk TP J lO Setpolnt Hi T Ave, 0%fP.LO Se'polnt 25.5%".109 c..110PL-Total MOP DP Actual TH MOP+V MOP+TH TH only MDP+V MDP+TH'"'U Pl-2 PL*3 DP-XMTR XMTR0 111 subcooled sat water sat steam@25 5%LVl+Veloclly level CALIS DP DP Error DP Error DP Error 0'%<D<D'0 3<n 112 PSI PSI PSI PSI PSI PSI@25 5%Ind@25 5%LVL PSI PSi PSI Error Error Error 0<D.....113...,114 086108 018273 010852 115233 405031 388735 2370544 395660 00937-01630-006925 2428610/0-422310/1>

-1 79460/0<D 115 085884{)18221 011093 115198 405092 390474 2415623 395660 00943..01462-005185 24444%-37881"0-13438%116 085636 018167 011344 115149 405166 392330 2463724 395660 00951*01284-003329 24638%..33265%..08628%117 085350 018112 011605 115067 405276 394224 2512797 395660 00962*01105-001436 249220/0-28642 1%*03720%lJ>>()118 085029 018054 011888 114971 405403 396031 2559775 395660 00974-()0937" 000377 25250%w24272%00977%Q)=Q)(QQ)-119 084674 017993 o 12181 1 405556 397879 2607507 395660 00990..00168 002219 256460;0-1 98960/0 05751%(1)(')g120 084297 o 17931 012489 1147'7 405719 399733 2655557 395660 01006-00599 004073 260690/0*1 55130/1)10556%(030)121 083837 017863 012833 114533 405939 401546 2702558 395660 01028-00439 005887 26639%....1 1384%t 5256%122 o B3247 017791 o 131g7 114235 406274 403377 2750000 395660 01061*0 Q290 007717 27507%..07507°/0 200000/0-h::J 01\.),...p::J 123 Q 82560 017711 o 13611 113882 406669 405269 2799047 395660 01101-00140 009610 28531%-036260/0 24905%W()...124 OSQ838 011584 014282 112704 407914 407914 2S 67578 395660 01225 00000 012254 00000%317580/0.....Q!too..t 125-.t.til......I.i\s I\)Q)8 00;UCD:<0 Page 99 of]3 J_____4oA...._...---.___.", r_.__...*_......_"............ ".-...-..---__..t._._._______ Q g.n tA M126127 Hi T Ave, 0%fP.LO..!.0 Setpulnt 170ft.....128129l\.l Mtd*Deck Veloc,ty Rlt!1 130 POWER SG LEVEL SG Level STMFlo\\p..sTrvt TDe V..F V*G V*DC DP Effect V=RL pressure-.131 o/l)III above LT%PPH x 10t:S PSfA DEGF@P*STM@p*STM PSI pst PSI 132 0 ()133 100 245701 017 3883 7935 4965 0020855 0574175 0020333 0164 00010422 0016076 520263-r........134 90 245701 017 346 8099 49B 9 0020915 0561718 0020386 0147 00008275 0016076 520289....-I.135 80 245701 017 3041 8269 5015 0020976 ()549306 0020444 0129 00006392 0016075 5203H)C>>" 136 70 245701 017 2629 8445 5045 0021040 0536961 0020513 0111 On004777{)016074 520343 01 137 60 245701 017 2:22 8635 5018 0021108 0524176 0020590 0094 o{)OO3401 0016073 520373 138 50 245701 017 1 82 8831 511 4 0021119 0511540 0020676 0077 0<)002290 0016072 520404 1 40 245701 017 1 421 9035 5151 002125$0498947 0020767 0060 00001396 0016071 520436 140 30 245701 017 1031 9262 5196 0021334 0485559 0020880 0044 00000743 0016070 520471141 20 245701 017 0674 9500 0021420 04721 B1 0021027 0029 00000314 0016069 520509142 10 245 7 01 o 17 0322 9769 5315 0021517 0457811 0021199 0014 00000072 0016068 520551 t:j143 0 245701 (}17 0 10200 5470 0021572 0436300 0021670 0000 00000000 0016066 520618144145=ts 146 HI T Ave, 0"0 TP, LO*LO Serpolnt 13%(AM SAC)-.147 148 Mid-Deck VelocIty RL c...-00 149 POWER SG SG Level f'TM Flow P-STM TOG V-F V-G V..DC DP Effer:l V=RL pressure<D (I)3 tI'J 150 0" II above LT 0'PPH x 10E6 PSIA DEGF@P-STM@ PSI PSI PSIlQ<D 151m..152 100 187889 013 3883 7935 4963 0020855 0574175 0020327 0164 00010422 001ti076 520263 CD 153 90 187889 013 346 8099 4987 0020915 0561718 0020380 0147 00008275 0016076 52028914 80 187889 013 3041 8269 5013 0020976 0549306 0020438 0129 o 0016075 520316 155 70 187889 013 2629 8445 5043 0021040 0536961 0020507 0111 00004777 0016074 520343"'0>>156 60 187889 013 222 8635 5076 o 0211ilB 0524176 00.20584 0094 00003407 0016073 520373 Q)::+157 50 187S89 013'82 8831 5112 0021179 0511540 0020670 0077 00002290 0016072 520404 COQ)CD (")158 40 187889 013 1421 9035 5149 0021253 0498947 0020761 0060 00001396 0016071 520438 159 30 187889 (}13 1037 9262 5193 0021334 0485559 0020872 0044 00000743 0016070 52047103160 20 187889 013 0674 9500 5249 0021420 0472181 0021020 0029 00000314 00113069 5205090 CD::J 161 1\)187889 013 0322 976g 5311 0021517 0457811 0021190 0014 00000072 0016068 520551r-+0016066 520618..-.()162 0 187889 013 0 10200 5470 0021672 0438300 0021670 0000 00000000h.t 163.....-'"'-'I....&.mi\3 i\)0')a 0-0 0;UCD:<0 Page 100 of J3] a=nN I 0 I P I Q I R t s 1 T l U l v!w[x i Y I z I AA!""3I 127 Hi T0%TP.LO-LO 5etpoint 17%HI T Ave, 0%TP, LQ*lO Setpolnl17%CMinUs<:<:Pl*t PL*2 PL-3 PL*TotaJ DP-XMTR MDP DP Actual XMTR TH r/lop.,'J MOP+TH n-t only MDP+V MDP+TH<;I subcooted sat water sat steam@17%LVL+Velocity level CAllB DP OP Error OF Error DP Error%%%5?PSI psr PSI PSI PSI@17%Ind@17%LVl PSI PSI PSI Error Error Errol"-.o 0 069930 000000 012091 082021 438243 421947 1531254 428458 OiJ978*01630*006511 25357"/..*42231%*16875%....069749 000000 012359 Oa2107 438182 423565 1573174 428458 00972-0146:l-004894 251990/.. -12683%o 0 00000 0 12638 I)82188 4 38128 4 25292 1 G 17942 4284SB 0 0967-0 1284-003166 25060%-3 3265%-0 8206%m 069316 000000 012929 082245 438099 427046 1663405 428458 00964-01105-00141224985% -28642%-03660%<it069056000000 0 13244 0 B2300 438073 428707 17 06443 428458 00961-00937 000249 24917%-24272%00644%068768 000000 013571 082339 438065 430388 1749997 428458 00961-00768 001929 24895%*1 05000%068468 000000 013914 082382 438054 432068 1793551 428456 00960-00599 003610 24868%-15513%09355%o 68098 (}00000 0 14297 0 82395 4 38076 4 336841B 35419 4 28458 0 0962-0 0439 0 052.25 2 4926%-1 1364%1 3542%Il:o Cl 067620 000000 014702 082323 438186 435289 1817027 428458 00973-00290 006831 25210%*07507%17703%;: 067072 000000 015154082236 438315 436916 1919182 428458 00986-0014000845825544%-iJ3626% iii S 065616 0 00000 0 15911 081527 4 39091 4 39091 1975546 428458 0 1063 00000 0 10632 27555%00000%27555%::a*.C HI T Ave.0%TP, LO-LO SetpoInt 13%(AMSAC)f IMmus PL-2 PL*3 Pl-Total np*XMTA MOP OP Actual XMTR TH MOP+V MDP+TH only MDP+V MDP+TH I I"U sat waler sat steam@13%LVl+VelOClly Level CALISDPDP Error DP Error DP Erter'"k%a..(t)5?PStPSIPSIPSI PSI@13%tnd@13%lVL PSI PSt PSIErrorError Error 3<D o 53491 000000 0 12673 0 66164 4 54099 4 37804 11 42188 44389301 021 1630-0 06089 26450"{,-42231%-1 5781%I I ijf o 53352 0 00000 0 12954 0 66306 4 53983 4 39365 11 82664 4 43893 0 1009-0 1462-0 04528 2 6148%-3 7881%-1 1734%053200 000000 013247 0664'17 453869 441033 1225867 443693 00998..()1284-002861 25852%-33265%-07413%o 53022 0 00000 0 13552 0 66573 453nO 4 42718 12 69539 4 43893 0 0988-0 1105-0 01175 25596%-2 8642%-0 3046%""U>>()052823000000013882 066705 453668 444302 1310593 443893 00977-00937 000409 25332%-24272%01059%Ol::+Ol0 52603 0 00000 a 14225 0 66828 4 53516.445899 13 51976 4 43893 00968-00768 0 02006 2 5093%*1 9896%0 5198%cgg052374 000000 014584 066958453478447492 1393266 443893 00958-00599 003599 24840%*15513%09327%3" m052094000000 0149860.67080 453392 448999 1432321 443893 00950-00439 005106,24616%

  • 11394%13232%1;:1=:0 51729 0 00000 a 15411 0 G 7140 4 53309 4 50472 1470498 443893 0 0948-0 0290 0 06579 2 4557%-0 7507%1 7050%9,::J g 051313 0 00000 015895 067208 453343 451944 1508644 443893 00945*00140 008051 24491%-03626%2 0864%1'\): ()050177 000000 0 16678 066655 453763 453763 1555786 443893 00987 00000 009870 25579%00000%25579%-...w.Ioao."'-l01\It:=05-...N" 0'>000CIj 0CD:<o Page 101 of 131

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    • W100.,.200 000000 000000 019170 019170 501448 501448 191566 494056 00739 00000 007392.19157%00000%19157%......201U1VI.-L m.-L N_0>0;::0 0aCD=<0 Page 103 of 13 J---_..-

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407914 407914 2867576 395660 01225 00000 012254 31758%o QOOO%31758%277 CJ1 0'1'""-.......(;i't",.-'"i\)0 0;U0 0COb Page 107 of 1.31 EI-g (')M:;j'<....J'J w Mlrl-Dock Ve1oc'ly RLc:.SG LEVEL SG lovel 81M Ftow P-STM TDC V-F V*G V-DC DP Effect V=RL pressure..%*above LT o/g PPH x lOEB PStA DEGF@P-STM@'P-STM PSI PSI pst 0 0 100 246701 017 3861 6557 4805 0020349 0702361 0020002 0164 00010422 0016083 520047..L-.a..90 245701 017 3441 6843 4842 0020456 0671682 0020076 0146 00008275 0016082 520092.....80 245701 017 303 7141 4883 0020566 0642232 0020161 0128 00006392 0016080 520139-"'" 0)70 245701 017 262 7449 4928 0020678 n 614179 0020256 0111 00004777 0016079 520187.01 60 245701 017 2214 7769 4976 0020795 0587299 ()0203Gl 0094 00003407 0016077 520237 50 245701 017 1 815 81Q3 5029 0020918 0560914 0020482 0077 00002290 0016076 52.0291 40 245701 017 1 418 8454 5083 0021043 0536343 0020607 0060 00001396 0016074 520345 30 245701 017 1 035'eS21 5144 0021176 0512172 0020754 0044 00000743 0016072 520402 I i20 245701 017 0673 9205 5217 0021314 0488861 0020940 0029 00000314 0016070 520463 10 24 b101 017 1)322 9620 5298 0021463 0465676 0021154 0014 00000072 0016068 520528 0 0 245701 017 0 10200-5470 0021672 0436300 0021670 0000 00000000 0016066 520616..<II.Mtd-Deck VeloClly Rl I J J\J 0 SG LEVEL SG Level STM Flow P..STM TOC V*F V*G V-OC DP Effect V=RL pressure m*above LT PPH X 10E6 PSIA DEGF@P-STM@P-STM PSI PSI PSI S?-CD.,100 187889 013 3867 6557 4803 0020349 0702361 0019999 0164 00010422 0016083 520041 I I a;90 187889 013 3447 6843 4840 0020456 0671662 0020072 0146 00008275 0016082 620092 80 187889 013 303 7141 4ao 1 0020566 (J 642232 0020156 0120-00006392 0016080 520139 70 187889 013 262 7449 4926 0020678 0614179 0020252 o 111 0OOO47n 0016079 520187-0>>60 187889 Q 13 2214 77690020795 0587299 0020356 0094*00003407 0016077 520237 Q)60 187889 013 1 815 8109 5027 0020918 0560974 0020476 oon 00002290 0016076 CCQ)CD (')40 181889 013 1418 8454 5081 0021043 0536343 0020601 0060 00001396 0016074 520345 30 187889 013 1035 8821 5142 0021176 0512172 0020748 0044 00000743 0016072 520402003 CD20 1878B9 013 0673 9205 521 5 0021314 0486861 0029 00000314 0016070 520463 9,;:L::J 10 187889 013 0322 962<J 5294 0021463 0465676 0021145 0014 00000072 0016068 520528()5470 0021612 0436300 0021670 0000 00000000 0016066 520618-.VJ0 187B89 013 0 10200......01U.-&'m-A.i\J(j)0 0: 0::0 0.r::..CDa Page 108 of 1.3 J---................ __6-.-...-..._....-_..-.._.--_.......-.......-.....--......-._-......----.....--........... --.. t'-tN AA278:j279 Low T ave.10%TP, LO..LO Selpolnt 17°,4 low Tavel 10 0 k TP, LO-LO Setpoint 17%Q"""'..N 280 Minus<:281 PL-l PL-3 PL-Tolat DP-XMTH MOP DP Actuat XMTA TH MDP+V MDP+TI-i TH only MDP+V MDP+TH§;282 subccoled sat water sat steam@17°1b LVL+Velocity leve'CAUBDP OP Error OP Error DP Error 0A.%.....283 PSiPSIPSIPSI PS.@17°k Ind LVL PSI PSI PSI Error Error Error 284 0 0 285 011086 000000 009884 080970 439077 422781 1552864 428458 01062-01630-005678 27518%-42231%*14714%........286 070825 000000 o 10335 081160 438932 424414 1595200 428458 01047-01452-004044-37622%*104S0"()......2 ........287 070527 000000 010809 081337 438802 426066 1638000 428458 01034-0 1.274 02392 25806%...33006°'"-062000/1)m 288 070195 000000 011303-081498 438689 427637 1678712 428458 01023-01105-000821 26514'%*28642%-0:21290/0 en 289 069834 000000 011820 081654 438583 429217 1719660 428458 01012-00937 000759 26238%-242720/0 01966%290 069422 000000 012375 081797 438494 430817 1761120 42B459 01004-00768 002$58 2600BOk..1 9896%06112%291 068999 000000 a 12943 081943 438402 432416 1802565 428458 00994-00599 2-15513<<)k 1 292 068510 000000 013554 082064 43833B 433945 1842202 428458 00988-00439 005487 2 -11384%1 4220%>J C 293 067904 ()00000 014201 082105 438358 435461 1881.475 426458 00990*00290 007003 25655%-07507%1 8147%:s Q 294 057215 000000 014908 082122 438405 437006 1921512 428458 00995-00140 008547 -03626°k 22151%tl-j295 065616 000000 015911 081521 439091 439C91 1975546 428458 01063 00000 010632 275550;0 o 27555%296>:I t-.3 297..298 Low T Ave, 10%TP J LQ..LO Setpolnt Li)W T Ave t 10%TP.lO..LO Selpoint 13%iAMSAC)..299 Mlnus 300 Pl-1 PL*2 PL-3 PL*Total Dp..XMTA MOP DP Actual XMTR TH MDP+V MOP+TH TH only MDP+V MOp-+TH I i""1J 301 subcoolpd sat water sal steam@11°k LVL+Velocity level CAl'S OP DP Error DP Error DP Error'o/G°10 0'0CD 302 PSI PSI PSl PSI PSl PSI@13%rnd@13ifo LVL PSI PSI PSI Errol'Error Error CJ)0 303.....304 o tJ4370 000000 010360 064730 455317 439021 11 73747 443893 01142-0 1630..004872 29606%-42231%*12625%<D 305 054172 000000 010834 (}65006 455086 440569 1213860 443893 o 1-0 1452*003324 2

  • 376220/0*0 8614°k 306 053945 000000 011330 065275 454864 442128 1254249 443893 o t097-01274-001765 28431%..33006°",..0..4575%J 307 653691 000000 011848 065538 454849 443596 1292312 443693 01076-0 1105..000297 218740/0-2 B642%)-00769%-a>>()308 053415 000000 012390 065805 454432 445066 1330409 443893 01054-00937 o 0117:l 273130/0-242720/0 03041%tu=tu CCtu-39 053102 000000 012972 066074 454217 446540 1368590 443893 01032..00768 002647 26755%..19696'GJo a 885g e/*CD (')g310 052780 000000 o 066347 453998 448012 1406741 443893 01010..00599 o Cl4119

..15513°k t 0674"....311 052406 000000 014208 066613 453789 449396 1442622 443893 00990-00439 005503 25646%-1 13B40/0 1 4262CYa0 CD o*312 051943 000000 o 148B5 066828 453635 450738 1477380 443893 00974*00290 006845 2 ...(J 75070/0 1 ......,::J::J 313 0514.22 000000 015626 067048 453479 452080 1512170 443893 00959*00140 008187 24843%.03626%21217%i'):: ()314 016678 066855 453763 453763 1555786 443893.00987 00000 009870 25579%o 00000/a-255790/0..**W.....Jr..050177 000000.....Jr........315<.n.....Jr.........Q!til--..............Jr..-L Q')i\)f\j 00 a;0 0CD:<0 Page 109 of 131---------- ...---...---.--...----...--------......------1_.*__.._...._.-1...II. Q f}tooclA Mf316:;lG: 317 Low T Ave, 10%TPl'Tech Spec Limit 5°"0318<:N 319 Mid-Deck VelocIIV RLc:::.320 POWER SG lEVEL SG level STMFlow P..STM TOe V-F V-G V-DC OP Erfect V;:;ALprassure-.321 0'II aboveLT%PPH x 10E6 PSIA DEGF@P-STM@P*STMPSI PSI ItJ 322 0 0 323 100 72265 005 3867 6557 4800 0020349 0102361 0019991 0164 o 00t0422 0016083 520047.......324 90 005......72265 3447 6843 4836 0020456 0671882 0020Q64 0146 00008275 0016082 520092.....325 80 12265 005 303 7141 4817 0020568 0642232 0020147 0128 00006392 0016080 520139-"-0>326 70 72265 005 262 4922 0020678 0614179 0020242 o 111 0OOO4n7 0016079 520187 J 01 327 60 72265 005 2214 7789 4970 0020795 0587299 0020347 0094 00003407 0016077 520237 328 50 72265 005 1 815 8109 5022 0020918 0560974 0020464 0077 00002290 0015076 520291 329 40 72265 nos 1418 6454 5076 0021043 0536343 0020588 0060 00001396 0016074 520345 330 30 005 1035 8821 5137 0021176 0512172 0020734 0044 00000743 0016072 520402C 331 20 72265 005 0673 9205 5209 0021314 0488861 0020917 0029 00000314 0016070 520463=s332 10 72265 005 0322 9620 5287 o 021&i63 0465676 0021124 0014 00000072 0016068 520528333 0 72265 005 0 1020{)5470 0021672 0436300 0021670 0000 00000000 0016066 520618334>:i335...336 Low T Ave, 10%TP, Analytical Lim.t 0%..337 338 Mid-Deck Veloctly RL C'-"U 339 POWER 56 LEVEL SG level 8TM Flow P*STM TDC V-F V-G V-DC DP Effect V=RLa pressure (D CD 340 0/0*abovelT%PPH x 10ES PSIA DEGF@P-STM@P-STM PS'PSI PSI(J)::::J 0 341 (I)342 1tlO 00000 0 3867 6557 4797 0020349 0702361 0019985 0'64 00010422 0016063 520047 ar 343 90 00000 0 3447 6843 4834 0020456 0671682 0020060 0146 00008275 0016082 520092 344 80 00000 0 3il3 7141 4874 0020566 0642232 0020142 0128 Q OOOG392 0016080 520139 345 70 00000 0 262 7449 4919 0020678 0614179 0020237 0'11 00004777 0016079 520187""0>>346 60 00000 ()2214 7769 4967 0020795 0587299 0020341 0094-00003407 0016077 520237 0)=(co):r 347 50 o OOOf}0 t 815 8109 5019 0020918 0560974 0020457 0077 00002290 0016076 52029'CD (")348 40 00000 0 1 418 8454 5072 0021043 0536343 0020579 0060 Q 0001396 0016074 520345 I\.)::r 349 30 00000 0 1035 8821 5133 0021176 0512172 0020725 0044 00000743 0<116072 52040203 CD:f 350 20 00000 0 0673 9205 5205 0021314 0488861 0020906 0029 00000314 0016070 520463 351 10 00000 0 0322 9620 5282 0021463 0465676 0021109 0014 00000072 0016068 520528352 10200 5470 0021672 0436300 0021670 0000 00000000 0016066 520618..--VJD 00000 0 0353 01......til.-L C>>0)d'i\>i\)00 a;00.f::.CD:<0 Page 110 of 13] Qt'-4n E Q.§N AA316317 LDW T Ave, 10%TP., Tech Spec limit 5%low T Ave, 1 0%TP, Tech Spec Llm,t 5%318 MInusw 319 PL-1 PL-2 PL-:)PL-Tolal DP-;<MTA MOP DP Actual XMTR TH MOP+V MDP+THTH only MDP+V MDP+TH<::=t320 subcooled sal water sat steam@5%LVL+Velocity Level CALIB DP DP Error Of'Error DP Error%ok%6..t.,321 PSI PSI psr PSI PSI PSI@5%lnd@LVL PSI PSIError Error Error 322 0 0 323 020920 000000 011313 032233 487814 471519 415930 474763 01305-0 1630..Q03244 3 -42231%-{)8407%...A....,A.324 020843 000000 011830 032673 487419 472902 451174 474763 01266-01452-001961 32800%..376220/0-048230/0.-L325 020757 000000 o 12372 033129 481009 474273 487322 474163 01225-01274..000489 3 17380/0*33006%*0 0>26 020660 000000 012937 033597 486SQO 475538 520096 474763 01183 000775 f-01105 306520/0-2 02010 0 k c.n 327 020554 000000 013529 034089 486154 476768 474763 01139-00937 002026 295220/0*24272%05250%28 020436 000000 0141&4 034600 485891 476014 584254 474763 01093-00768 003251 28321 q/G*1 98960/0 o 8425 Cl/a 329 020313 000000 014815 035128 485217 479231 615802 474763 01045-00599 004468 27093"0*1 55130/0 1 1580(1/0 330 020170 000000 015514 035683 484719 480326 644t87 474763 00995*00439 005564 25802%-1 1384°.{.1 44194foC 331 019993 000000 016254 036247 4B4216 48'319 669906 474763 00945-00290 006556 24498%-07507%1 6991%332 019798?OOOOO 017063 o 3SSG1 483667 482268 694495 474763 00890-00140 007505 2 -0 3626°k 1 94490/0333 019299 000000{)18212 037511 4831(18 483108 716266 47478S 00835 00000 008345 2 00000%21627%334335336 Low T Ave, 10%TP, Analytical Limit 0%Low T Ave, 1{)%TP, Analytical limit 00/0-.337 Minus 338 PL-1 PL-2 PL-3 PL-Total DP-XMTR MDP OP Actual XMTR TH MDP+V MOP+TH TH only MDP+V MOP+TH II'"U 339 subcooled sat water sal steam@ lVL+Velocity Level CAUBDP DP Error DP Error DP Error Ok o,{.01 a.0<D 340 PSI PSI PSI PSI pst PSI@00/0'lnd@COk lVL PSi PSI PSl Error Error Error en 0 341.....(342 000000 000000 011908 011908 508139 491843-057356 494056 01408-01630-002213 36496%*42231%*05736%CD 343 000000 000000 012452 012452 507640 493122*024196 494056 01358-01452-000934 35203%-37622%-02420cro 344 o DOOOO 000000 013023 013023 507115 494379 008380 494056 01306-01214 000323 338440/0-33006%00838%345 000000 000000 013618 013618 506569 495517 037855 494056 01251*01105 001461 32428%.28642%037860/0""U>>()346 000000 000000 014241 014241 505996 496630 066705 494056 01194*00937'002574 30943%-24272%()66710/0 D)=D)(CD)-;p 347 000000 000000 014910 014910 505381 497704 094535 494056 011:32..00768 003648 29349%*1 9896%09454%(1)(")g O'Q 348 000000 000000 015595 015595 504750 498764 122017 494056 01069-00599 004708 27715%-15513°k 1 r-v:J'"-349 000000 000000 016330 016330 5 (!4072 499679 1 45731 494056 01002.()O439 005623 259570/0-113B4%1 4573%0o*350 000000 000000 o t7109 017109 503353 500457 1 65872 494056 00930-00290 006400 240950/0-075070/0 1 6587%Si--+'r-+-:J 35 000000 000000 017961 017961 502567 5011G7 1 84291 494056 00851-00140 007111 220550/0-0362&0/0 18429%tt1 r-v()501448 494056 00739 00000 ()07392 1915J<l'/c 00000%1 9157%*.**W352 000000 000000 019170 o 19170 5014J18 1 91566flAot 353 Q!m-10 N 0'>i\3 0 ()Q 0 0;00(1):<0 Page III of131.-..-....---_..._--_.... t:-tCO")M'<35 C355 Downcommer temperatures Ironl Reference 6w 356 00/0 10%20%30%40 0 k 50°4 60%10%c::>357 Leva'Leve'level Level Level Level Level Leve'love I...358 loTave loTave LoTav&Lo Tave La Tave loTave LoTave La lave LoTave 359*F*F"'F"'F"F*F*F 6F a 0 360......361 47974806 4809 48136 4619 4822 4825-10-.I.62 4834 4838 4843 4847 4851-4854 4858 4861 4864 m 363*4874 4879 4884 4888 4892 4898 4900 4902 4900 0'1 364 4919 4924 4929 4934 4938 4942 4946 4949 4953 365 4961 4972 4977 4982 4987 4991 4995 499 B 5002 366 501 9 5025 5031 5035 5040 5044 5048 5052 5056 367 5072 5079 5085 5090 5095 5099 5104 S108 511 1§i 368 5133 5140 5146 5152 5157 5162 5166 5170 5174 S.....369 5205 5213 521 9 5225 5231 5236 5240 5244 5248370 5282 5292 5aO 0 5307 5313 531 8 5323 5327 5331371 547 5470 5470 5470 5470 5470 5470 5470 5470372C 373374 375 InterjJolation of downcommer temperature to various levels Co-"'U:?: CJ 376 500/0 130%170%255%440%665%780%(I)!tl 377 loTave lo lave LoTave." en Lo Tave loTave loTave loTave J 0 m 4""+378379 479950 480320 480480 480765 420 482095 482440 m 380 483600 483950 484150 484520 485220 485995 486340 381 487650 488050 488250 488620 4B9360 490130 490520 382 492150 492550 492750 493175 493960 494795 495220-0>>383 496950 497350 497550 497975 498860 499695 500120 Q);p 384 502200 502680 502920 503320 504160 505060 505520 CO Q)CD (")385 507550 508080 SOB 320 508715 509560 510660 511040 I'V::::TI'V 3 386 513650 514180 514420 514930 515900 516860 517320'0 387 520900 521 480 521720 522230 52330\l 524250 524720>0 CD 0\388 52870D 529440 529760 530385 531 500 532560 533020I'V..-.c..v 389 547000 547000 547000 547000 547000 547000 547QOO N Q:!01....l.1........-I.()).-..i\5 N-O'>0..0 0;0 0CD:<0 Page 112 of 131**1____ Q);0 CD:<o a-..A.--L......-A.<r enn::j-,.m i\5 o-u a CD o o.........m..(j)'""0>>OJ::+(Q tu CD (')I\.):::J b<.V 30 CD t;!-;,::l-.ot)jQ h:;!tt1c....CD 3 CD"""l Q!--L--a.i\s o o..p..AA vetocily psi 0001042 00006275 00006392 00004777 00003407 00002290 00001396 00000743 00000514 00000072 00000000%DP 07546 05992 04628 03459 02467 o 165B 01011 00538 00227 00052 00000 08687{)7740 06803 05881 04966 04072 03179 02320 01508 00720 00000%Flow 4993 5017 5044 5074 5107 5144 5181 5227 5283 5349 547 80%Level HI Tave'tF Veloolty Effects power Flow 0/0 E6 PPH 100 3883 90 346 80 3041 70 2629 60 222 50 1 B2 40 1421 30 1 037 20 0674-10 0322 o 0 4989 501 4 5040 5070 5103 5140 5178 5.223 5280 5345 5470 70%level H.l'ave AF 4985 5009 5036 5066 5099 5136 5173 5219 5275 5341 5470 60%Level HI Tave AF 499220.501 640 504320 507320 510620 514320 51B 040 522620 526240 534820 547000 4981 5005 5032 5062 5094 5131 5169 521 4 5270 5336 5470 498760 501 225 503860 506860 510 160 513860 517625 522160 521825 534360 547000 50%level Ht Tave-F 4976 5001 5027 5051 5090 5126 6164 5209 5265 5331 547Q 40 0 k level l-lITav8 4rF 491 Bob 500260 502900 50.5 900 5U9160 512800 516600 521100 526700 533300 547000 4972 4996 5022.5052 5085 5121 5159 5204 5260 5324 5470 496975 499375 501 976 504975 508275 511875 515630 520130 525730 532085 547000 4967 4991 5017 5047!)080 5116 515::1 5198 5254 531 7 5470 496 t 4985 5011 5041 5074 511 0 5147 5191 5247 5309 5470 496 280 496 520 49B 680 498920 501 280 501 520 504 280 504 520 507 580 501820 511 180 511 420 5148BO 515 120 519310 519590 52491{)525190 531 140 531 460 547 000 5.47 000 4955 4979 5005 5035 50S 8 5103 514 5184 5239 5.299 547 495 BOO 498200 500800 503 BOO 507100 510650 514350 518750 524300 530400 541000 Downcommer temperatures from Refetsnce 6 0%10%200/0 300/0 level level HI Tave H.Tave HtTave HI Teve-F*F-F-F Interpotation of downcommer temperature to vtldous levels 50%13 170%255%440°'" 665°kJ 780%HI Tave H&Tavo HI Tave HI Tavo Hi Tave HI Tave HI Tave N......-....Va:PPage 113 of 131-----.-_....._....... Calculation C11116, Rev.0 Attachment 2 Page 1 of 1 50.59 APPLICABILITY REVIEW (Is the activity excluded from 50.59 review?)Document/Activity number: 0_0_0_Brief description of proposed activity (what is being changed and why): This calculation supercedes calculation C11116-1, Revision 0, C11116-2.Revision 1 and C11116-3, Revision l.Calculation Cl1116, Revision 0 dev-el-ops-t:he-..bhannel-Stat-i-stical-AUowanee-(CSA)- values-asseciated with Unit-l Steam'6ener-at-e>r Hi Level-'Furbine-Trip-and" FeedwaterIsolation, Low Level Coincidence with Steam FlowlFeed Flow Mismatch Reactor Trip, and the Low-Low Reactor Trip functions. This calculation supports Kewaunee's conversion to Improved Technical Specifications (ITS).Does the proposed activity involve or change any of the following documents or processes? Check YES or NO for EACH applicability review item.Explain in comments if necessary. [Ref.USA 50.59 Resource Manual]3.1.2.NOTE: Ifyouare unsure if a document or process may be affected, contact the process owner.Yes No Docmnent or Applicable Contact!Action../../Process Regulation a DTechnical Specifications or Operating License lOCFR50.92 Process change per LI-AA-I01. Contact Licensing. Activity/change previously approved by NRC in Identify NRC letter in comments below.Process b 0lOCFR50.90 change: license amendment or NRC SBR Contact Licensing for assistance. c 0Activity/change covered by an existing approved lOCFR50 Appendix.B Identify screening or evaluation in comments below.lOCFRS0.59 review t screening, or evaluation. Process change.d 0Dominion Quality Assurance Program Description lOCFR50.54(a) ContactQA.(DOM-QA-l) Refer to NO-AA-I01. DEmergency Plan lOCFR50.54(q) ContactEP. e Refer to FP-R-BP-02. f 0Security Plan 10CFR50.54(p) Contact Security.Refer to FP-S-SPE-OL g 0 t81 1ST Plan 1.0 CFRS 0.55 a(t)Contact 1ST process owner.Refer to ER-AA-IST-IO. h 0lSI Plan lOCFR50.55a(g) Contact lSI process owner.Refer to BR-AA-NDB-122, NAD-ol.05, and i 0BeeS Acceptance Criteria lOCFRSO,46 Contact Licensing. USAR or any document incorporated by reference-Process USAR change per NEP-05.02. j 0Check YES only if change is editorial (see lOCFR50.71 Attachment A).Contact USAR process owner for assistance. Commitment -Commitment changes associated Contact Licensing. k 0with a response to Generic Letters and Bulletins t or 10CFR50 Appendix B if described in the USAR require a pre--screening. Refer to LI-AA-I10. Maintenance activity or new/revised maintenance Evaluate under Maintenance Rule.1 0procedure-Check YES only if clearly maintenance 10CFRSO.65 Refer to ER-AA-MRL-IO. ER-AA-MRL-IOO, and and equipment will.be restored to its as-designed NAD-08.21. condition within 90 days (see Attachment C).New/revised administrative or managerial directive/procedure (e.g., NAn, GNP, Fleet m 0-121 Procedure) or a change to any procedure or other 10CFR50 Appendix B Process procedure/document revision.controlled document (e.g., plant drawing)which is clearlyeditoriaVadministrative. See Attachments A andB.n 0Fire Plan lOCFR50.48 Fire Protection Program Document Change Control, GNP-05.30.01. 0 0Independent Spent Fuel Storage Installation (ISFSI)lOCFR72.48 Implement DNAP-3004, starting with Applicability. Date: 10-11/-.0 q Date:/0/1<//29 4.5.Reviewed by: D.M.McGrath (print!sign).Conclusion. Check one of the following: [8J All documents/processes listed above are checked NO.1 OCFR50.59 applies to the proposed activity.A 50.59 pre-screening shall be performed. o One or more of the documents/processes listed above are checked YES, AND controls all aspects of the proposed activity.lOCFRSO.59 does NOT apply.Process the change under the applicable program/process/procedure. o One or more of the documents/processes listed above are checked YES t however, some portion of the proposed activity is not controlled by any of the above processes. lOCFR50.59 applies to that portion.A 50.59 pre-screening shall be performed. Comments: ET-CEE-09-0009, Rev.0 will transmit the SO.59/72.48 Evaluation and program/document updates.6.Print name followed by signature. Attach completed Conn package.Prepared by: AndrewBaugus.c>----.I(print/sign) Form GNP..04..04.01-1 Rev.12 Date: APR 08 2008 Page 15 of 16 Calculation C11116, Rev.0 Attachment 3 Page 1 of 1 1.2.3.50.59 PRE-SCREENING (Is a 50.59 screenIng required?) Document/Activity number:_C_l_1_11_6...:.,,_R_ev_i_si..;,.o_n_O _Brief description of proposed activity (what is being changed and why): This calculation supercedes calculation C11116-L Revision 0, C11116-2, Revision 1 and Clll16-3, Revision l.Calculation Cll116, Revision 0 develops the Channel Statistical Allowance (CSA)values associated with Kewaunee's Unit 1 Steam Generator Hi Level Turbine Trip and Feedwater Isolation, Low Level Coincidence with Steam FlowlFeed Flow Mismatch Reactor Trip, and the Low-Low Reactor Trip functions. This calculation supports.Kewaun.ee's to I!J1proved Technical .Does the proposed activity involve or change any of the following documents or processes? Explain in Comments if necessary. Check YES or NO for BACH pre-screening item.[Ref.USA 50.59 Resource Manual]NOTE: If you are unsure if a document or process may be affected, contact the process owner.NOTE: An asterisk (*)indicates that the document is incorporated by reference in the USAR or is implicitly considered part of the USAR.NOTE: Check NO if activity/change is considered editorial, administrative, or maintenance as defmed in Attachments A, B, and C.Explain in Comments if necessary. Yes t/No./DocumentlProcess Directive! Procedure a 0Updated Safety Analysis Report CUSAR)NEP-05.02 b 0*Technical Specifications Bases or Technical Requirements Manual (TRM)U-AA-IOl, LI-AA-I01-l 00 1 c 0*Commitments made in response to NRC Generic Letters and Bulletins, and those described in the USAR LI-AA-I10 d D*Environmental QUalification (EQ)Plan NAD-QI.08 e D*Regulatory Guide 1.97 eRG 1.97)Accident Monitoring Instromentation Plan NAD-05.22 f 0*Fire Plan NAD-Ol.02 g 0*Appendix.R Design Description NAD-Ol.02 h 0*Fire Protection Program Analysis (FPP A)NAD-Ol.02 i 0*Offsite Dose Calculation Manual (ODCM)NAD-05.l3 j 0*Radiological Environmental Monitoring Manual tREMM)NAD-05.l3"k 0*Station Blackout Design Description 1 0*Control Room Habitability Study 0Plant Drawing ChangeslDiscrepancies-Check YES only if: 1)the change adds information to, deletes information m from, or alters the configuration of a drawing that is incorporated in the USAR, or 2)configures an sse NAD..05.01 differently than described or credited in USAR text.n 0CalculationslEvaluationsl Analyses/Computer Software-Check YES only if: 1)It affects a method of evaluation Various described in the USAR t or 2)It independently (Le., not part of a modification) affects the licensing or design basis.0 0Permanent Plant Physical Changes-All require a screening. NAD-04.03 p 0Temporary Plant Physical Changes (rCRs)-Check No only if installed for maintenance AND in effect for less NAD-04.03 than 90 days at power conditions. q 0QA Typing DeterminationsCheck YES only ifreduction in classification, or affects design function as described NAn-OI.Ol in USAR.r 0Setpoint or Acceptance Criteria-Check YES only if change affects plant monitoring, performance) or operation. Various s 0Plant ProcedureslRevisions -Check YES only if the change directly or indirectly involves operating, controlling NAD-03.01 or configuring an sse differently than described or credited in USAR.t DEngineering Specifications -Check YES only if a design function or design requirement may be affected.NAn-OS.03 u 0Operations Night Orders or Operator Work Arounds-Check YES only if SSCs are operated or configured GNP-03.30.01 differently than described in USAR.NAD-08.14, 0Temporary plant alterations (e.g., jumpers, scaffolding, shielding, barriers)-Check YES only if installed (or in GMP-127, v effect)for for longer than 90 days at power conditions. GNP-01.23.04, FPP-08-09 w 0Temporary plant alterations -Check YES only if not associated with maintenance. x 0Corrective/Compensatory Actions-Check YES only if degraded/non-conforming plant condition accepted"as-is" OP-AA-I02 or compensatory action taken..Ib-ltI-tJ9 Date: Date: lD.Desrochers Andrew W.Baugus 4 Conclusion. Check one of the following:All of the documents or processes listed above are checked NO.A 50.59 screening is NOT required.Process change in accordance with the applicable o.One or more of the documents or processes listed above are checked YES.A 50.59 screening shall be performed. 5 Comments: ET-CEE-09-0009, Rev.0 will transmit the 50.59/72.48 Evaluation and program/document updates.6 Print name followed by signature. Either the preparer or reviewer shall be 50.59 screening qualified. Attach completed form to document/activity/change package.Prepared by: (print/sign) Reviewed by: (print/sign) I:nrnt nl1 01.?RO\f 1?}}