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| issue date = 03/15/1984 | | issue date = 03/15/1984 | ||
| title = Application to Amend License DPR-74,revising Tech Specs Re Flowrate for Flow Balance Test of Safety Injection Pumps | | title = Application to Amend License DPR-74,revising Tech Specs Re Flowrate for Flow Balance Test of Safety Injection Pumps | ||
| author name = | | author name = Alexich M | ||
| author affiliation = INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG | | author affiliation = INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG | ||
| addressee name = | | addressee name = Denton H | ||
| addressee affiliation = NRC OFFICE OF NUCLEAR REACTOR REGULATION (NRR) | | addressee affiliation = NRC OFFICE OF NUCLEAR REACTOR REGULATION (NRR) | ||
| docket = 05000316 | | docket = 05000316 | ||
| Line 17: | Line 17: | ||
=Text= | =Text= | ||
{{#Wiki_filter:REGULATORY IN OR@ATION DISTRIBUTION SYSTEM (RIDS)ACCESSION NBR 840320 02 1 0 DUC~DATE 84/03/15 NOTAR I ZED NO FACIL:50 316 Donald C.Cook Nuclear Power Pl anti Unit 2~Indiana AUTH INANE AUTHOR AFFILIATION ALEXICH~M.P. | {{#Wiki_filter:REGULATORY IN OR@ATION DISTRIBUTION SYSTEM (RIDS) | ||
Indiana | ACCESSION NBR 840320 02 1 0 DUC ~ DATE 84/03/ 15 NOTAR I ZED NO DOCKET ¹ FACIL:50 316 Donald C. Cook Nuclear Power Pl anti Unit 2~ Indiana 05000316 AUTH INANE AUTHOR AFFILIATION ALEXICH~M.P. Indiana Il Michigan El ectr i c Co ~ | ||
RECIP,NAME RECIPIENT AFFILIATION DENTONtH ~ RE Office of Nuclear Reactor Regulationr Director | |||
==SUBJECT:== | ==SUBJECT:== | ||
Application to amena License DPH-74<revising Tech Specs re f lowrate for tlow balance test of safety injection | Application to amena License DPH-74<revising Tech Specs re f lowrate for tlow balance test of safety injection CODE: IE2c S COPIES RECEIVED:LTR ENCL SIZE: | ||
pumps'ISTRIBUTIUN TITLE! Start-Up Report/ Refuel ing Report (50 Dkt). | |||
NOTES: | |||
RECIPIENT COPIES RECIPIENT COPIES ID CODE/NAME LTTR ENCL ID CODE/NAME LTTR ENCL NRR ORB1 BC 04 3 INTERNAL: IE FILE 01 1 1 . NRR/DHFS DEPY07 1 | |||
'RR/DHFS'DIR 08 1' NRR/DHFS/PSRB11 ] | |||
NRR/OS I/CPB 1 1 Rf /DDAMI/MIB 09 1 EXTERNAL; ACRS .13 5 LPDR 03 NRC PDR 02 1 1 NSIC 05 NTIS 1 1 lg TOTAL NUHBEH OF COPIES REQUIRED: LTTR ~ ENCL b | |||
INDIANA & MICHIGAN ELECTRIC COMPANY P.O. BOX 16631 COLUMBUS, OHIO 43216 March. 15, 1984 AEP:NRC:0860A Donald C. Cook Nuclear Plant Unit No. 2 Docket No. 50-316 License No. DPR-7'4 AMENDMENT TO THE APPLICATION FOR UNIT 2 TECHNZCAL SPECIFICATION CHANGES FOR CYCLE 5 RELOAD Mr. Harold R. Denton, Director Office of Nuclear Reactor Regulation U., S. Nuclear. Regulatory Commission Washington, D. C. 20555 | |||
Attachment 1 to this letter addresses the Significant Hazards Consideration, as required to be submitted by 10 CFR 50.91(a)(1), for the modified version of the seventh proposed change of letter AEP:NRC:0860. | ==Dear Mr. Denton:== | ||
The seventh proposed change concerned the flowrate for the flow balance test for the Safety In'jection (SZ)pumps'he SI pump flowrate would be affected by planned modifications to increase the miniflow of the SZ pumps.The increased miniflow would provide added assurance of adequate pump cooling while the pump is operating but not injecting to the core.Zn order to make the physical modifications for this change on a reasonable time table, we are requesting an early indication by March 23, 1984 of the acceptability of this T/S change request.Attachment 2 to this letter addresses the additional T/S change that is being requested as part of the Unit 2 Cycle 5 reload application and our Significant Hazards Consideration analysis pursuant to 10 CFR 50.92 for this change.Attachment 3 to this letter contains the revised pages for the additional T/S changes (including the modified version of the seventh change proposed in AEP:NRC:0860). | |||
The changes to the revised pages are 84032002l0 8403l5 PDR*DOCK 0500031h P PDR grad>~.g~file e/I Mr.Harold R.Dent | By this letter and its attachments, we request an amendment to the application for Technical Specification (T/S) changes, which was addressed in our letter AEP:NRC:0860 dated March 1, 1984. This letter includes additional information related to the seventh proposed change addressed in AEP:NRC:0860; and requests one additional T/S change. | ||
Very truly yours, q5~M.P.exich 4;~'Vice President MPA/pb Attachments cc: John E.Dolan W.G;'Smith, Ji.-Bridgman R.C.Callen G.Charnoff E.R.Swanson, NRC Resident Inspector-Bridgman Mr.Harold R.Denton AEP NRC 0860A ATTACHMENT 1 TO AEP:NRC: 0860A SIGNIFICANT HAZARDS CONSIDERATICN FOR CERNGE IN FLCNRATE FOR THE SAFEZY INJECTICN PUMPS FECN BALAN~TEST | The wording of the seventh change has been slightly modified in this submittal to make the change easier to understand. | ||
'Mr.Harold R.Dento AEP:NRC:0860A The seventh proposed change addressed in letter AEP:NRC:0860 requested the footnote (**)on page 3/4 5-6 for T/S 4.5.2.h be changed to read:**Total SIS (single pump)flow, including | Attachment 1 to this letter addresses the Significant Hazards Consideration, as required to be submitted by 10 CFR 50.91(a) (1), for the modified version of the seventh proposed change of letter AEP:NRC:0860. The seventh proposed change concerned the flowrate for the flow balance test for the Safety In'jection (SZ) pumps'he SI pump flowrate would be affected by planned modifications to increase the miniflow of the SZ pumps. The increased miniflow would provide added assurance of adequate pump cooling while the pump is operating but not injecting to the core. Zn order to make the physical modifications for this change on a reasonable time table, we are requesting an early indication by March 23, 1984 of the acceptability of this T/S change request. | ||
Mr.Harold R.Dento | Attachment 2 to this letter addresses the additional T/S change that is being requested as part of the Unit 2 Cycle 5 reload application and our Significant Hazards Consideration analysis pursuant to 10 CFR 50.92 for this change. | ||
...following each removal of the reactor vessel head, etc.T/S 4.10.5 states rod position indication channels shall be determined to be OPERABLE by verifying the demand position indication system and the rod position indication channel agree within 12 steps within 24 hours prior to the start of rod drop time measurement... | Attachment 3 to this letter contains the revised pages for the additional T/S changes (including the modified version of the seventh change proposed in AEP:NRC:0860). The changes to the revised pages are 84032002l0 8403l5 PDR *DOCK 0500031h P PDR grad>~. g~ file e/I | ||
Zn order to verify the 12 step agreement between the individual RPZs and the demand position indication system, the individual RPIs have to be calibrated. | |||
The RPZ for each individual rod is calibrated at the~beginning of a fuel cycle when the reactor coolant system is at operating temperature. | Mr. Harold R. Dent AEP:NRC:0860A | ||
Calibration is performed at operating temperature because the RPIs are extremely temperature sensitive and therefore become increasingly inaccurate over the large temperature change between MODES 5 through 3.Coil operating temperature is not established until the Reactor Coolant System (RCS)reaches equilibrium after ascending through MODES 5, 4, and 3..The coil takes approximately six (6)hours to reach equilibrium temperature, thus delaying startup of the reactor.Utility experience indicates that the (group)demand position indication systems have proven to be extremely reliable in Westinghouse reactors.Demand position indication systems are the most accurate means of determining rod position and are in fact used to calibrate the RPXs.Furthermore, the T/Ss require that the reactor be maintained in a subcritical, condition (k (0.99)to prevent inadvertent criticality in MODES 3, 4, and 5.Subcriticality can be adequately maintained with sufficient boron concentration and all but one shutdown or control bank being fully inserted.Criticality is normally not reached until the shutdown banks and three of the four control banks are fully withdrawn. | ~ ~ | ||
indicated by vertical lines on the right, hand maxgin of the page. The T/S change contained in this Attachment has been reviewed and approved by the Plant Nuclear Safety Review Committee and will be reviewed by the AEPSC Nuclear Safety and Design Review Committee (NSDRC) at their next scheduled meeting. | |||
Attachment 4 to this letter is the summary of the safety evaluation performed by Westinghouse to support an increase from 30 gpm to 60 gpm in the safety injection pump miniflow. | |||
As required by 10 CFR 50.91(b)(1), a copy of. this amended application is being transmitted to the appropiiate official of the State of Michigan. | |||
Our letter'EP:NRC:0860 transmitted the Class IV fee levied for the review of the Cycle 5 reload of Unit 2. We consider the Technical Specification change requests contained in this letter to be part of that x'eview. Therefox'e, we believe that no fee, as defined in 10 CFR 170.22, .is required for the requests addressed in this letter. | |||
This document has been prepared following Corporate procedures which incorporate a. reasonable set of controls to insure its accuracy and completeness prior to signature by the undersigned. | |||
Very truly yours, q5 ~ M. P. exich 4; ~'Vice President MPA/pb Attachments cc: John E. Dolan W. G;'Smith, Ji. - Bridgman R. C. Callen G. Charnoff E. R. Swanson, NRC Resident Inspector - Bridgman | |||
Mr. Harold R. Denton AEP NRC 0860A ATTACHMENT 1 TO AEP:NRC: 0860A SIGNIFICANT HAZARDS CONSIDERATICN FOR CERNGE IN FLCNRATE FOR THE SAFEZY INJECTICN PUMPS FECN BALAN~ TEST | |||
'Mr. Harold R. Dento AEP:NRC:0860A The seventh proposed change addressed in letter AEP:NRC:0860 requested the footnote (**) on page 3/4 5-6 for T/S 4.5.2.h be changed to read: | |||
**Total SIS (single pump) flow, including miniflow/ | |||
shall not exceed 700 gpm with no more than 640 gpm being delivered to the core. | |||
We request that this proposed change be modified for clarity, to read: | |||
**Combined Loop 1, 2, 3, and 4 Cold Leg Flow (single pump) (640 gpm. Total SIS (single pump) flow, including miniflow, shall not exceed 700 gpm. | |||
The above change will allow for increased (miniflow) cooling of the Safety Injection pumps which provides increased assurance of adequate | |||
*pump cooling while using miniflow cooling. The increase in miniflow may result in a small decrease i:n flow from'the pumps to the core. | |||
Westinghouse has performed a safety evaluation of the increased SI pump miniflow and decreased injection flow to the core. The summary of their evaluation is enclosed as Attachment 4. The results of their evaluation concluded that the 0 impact 's negligible for large break LOCA and an increase of 86.1 F in peak clad temperature (PCT) for the most limiting small break LOCA, based on a sensitivity analysis performed on Unit 1. The addition of this increase in small break LOCA 0 PCT to the current D. C. Cook Unit 2 small break LOCA PCT of 1668 F results in a value well below the 10 CFR 50.46 limit of 2200 0 F. Based on discussions with your staff, we understand further information regarding the Westinghouse evaluation is needed. Therefore, we will submit additional clarification of the evaluation in the near future. | |||
We have also performed a review of the proposed flowrate on the integrity of the SI pumps. Our review included a calculation to determine the Net Positive Suction Head (NPSH) available to the Safety Injection (SI) pumps. In the calculation we assumed that SI was in the injection phase and aligned with the Refueling Water Storage Tank (RWST); | |||
0 the RWST was at it's low low levels the water temperature was 100 F; all safety pumps were running (i.e., Residual Heat Removal, Containment Spray, Centrifugal Charging, and SI pumps); and all pumps were producing maximum flow. We believe the assumed conditions constitute the worst case conditions for the SI pumps. The results of the calculation indicated that with the above conditions, there would be a NPSH margin of over sixteen (16) feet for both of the SI pumps. | |||
Therefore, the increased flowrate is within the safety bounds of the pump runout and has no significant adverse effect on the integrity of the pumps. | |||
Based on the above, the proposed T/S change may result in some increase to the consequences of a previously analyzed accident or may reduce in some way a safety margin, but it is our belief that the results of the change are clearly wi.thin all acceptable criteria with respect to the system and component's as they may affect the Safety Analysis of the plant. Thus the proposed change does not involve a significant hazards consideration as defined in 10 CFR 50.92. | |||
Mr. Harold R. Dento AEP:NRC:0860A ATTACHMENT 2 TO AEP:NRC:0860A ADDITIONAL TECHNICAL SPECIFICATION CHANGE REQUEST FOR DONALD C. COOK NUCLEAR PLANT UNIT NO. 2 CYCLE 5 | |||
Mr. Harold R. Den AEP:NRC:0860A The eighth proposed change concerns T/S 3/4.10.5 which addresses the Rod Position Indication (RPI) Channels during shutdown (MODES 3, 4, and 5). Specifically, we are requesting that T/S 3/4.10.5 be changed to address the demand position indicators instead of the individual RPXs. | |||
The reasons and justification for this change are as follows: | |||
T/S 4.1.3.4 requires rod drop time measurements of full length rods be demonstrated ...following each removal of the reactor vessel head, etc. | |||
T/S 4.10.5 states rod position indication channels shall be determined to be OPERABLE by verifying the demand position indication system and the rod position indication channel agree within 12 steps within 24 hours prior to the start of rod drop time measurement... | |||
Zn order to verify the 12 step agreement between the individual RPZs and the demand position indication system, the individual RPIs have to be calibrated. The RPZ for each individual rod is calibrated at the ~ | |||
beginning of a fuel cycle when the reactor coolant system is at operating temperature. Calibration is performed at operating temperature because the RPIs are extremely temperature sensitive and therefore become increasingly inaccurate over the large temperature change between MODES 5 through 3. | |||
Coil operating temperature is not established until the Reactor Coolant System (RCS) reaches equilibrium after ascending through MODES 5, 4, and 3.. The coil takes approximately six (6) hours to reach equilibrium temperature, thus delaying startup of the reactor. | |||
Utility experience indicates that the (group) demand position indication systems have proven to be extremely reliable in Westinghouse reactors. Demand position indication systems are the most accurate means of determining rod position and are in fact used to calibrate the RPXs. Furthermore, the T/Ss require that the reactor be maintained in a subcritical, condition (k (0.99) to prevent inadvertent criticality in MODES 3, 4, and 5. Subcriticality can be adequately maintained with sufficient boron concentration and all but one shutdown or control bank being fully inserted. Criticality is normally not reached until the shutdown banks and three of the four control banks are fully withdrawn. | |||
T/S 3.10.5 will continue to require only one shutdown or control bank be withdrawn from the fully inserted position at a time, during rod drop time measurements. | T/S 3.10.5 will continue to require only one shutdown or control bank be withdrawn from the fully inserted position at a time, during rod drop time measurements. | ||
Therefore, we believe there is adequate justification. | Therefore, we believe there is adequate justification. for the proposed change, which would eliminate the delay in startup. | ||
for the proposed change, which would eliminate the delay in startup.This change may result in some increase to the probability or consequences of a prev'ously analyzed accident or may reduce in some way a safety margin, but it is our belief that the results of the change are clearly within all acceptable criteria with respect to the system or components as they may affect the Safety Analysis of the plant.Thus, the proposed change does not involve a significant hazards consideration as defined in 10 CPR 50.92. | This change may result in some increase to the probability or consequences of a prev'ously analyzed accident or may reduce in some way a safety margin, but it is our belief that the results of the change are clearly within all acceptable criteria with respect to the system or components as they may affect the Safety Analysis of the plant. Thus, the proposed change does not involve a significant hazards consideration as defined in 10 CPR 50.92. | ||
Mr.Harold R.Denton AEP: NRC: 0860A ATTACHMENT 3 TO AEP:NRC:0860A REVISED TECHNICAL SPECIFICATION PAGES FOR THE SEVENTH AND EIGHTH PROPOSED CHANGES}} | |||
Mr. Harold R. Denton AEP: NRC: 0860A ATTACHMENT 3 TO AEP:NRC:0860A REVISED TECHNICAL SPECIFICATION PAGES FOR THE SEVENTH AND EIGHTH PROPOSED CHANGES}} | |||
Latest revision as of 12:52, 22 October 2019
| ML17334A518 | |
| Person / Time | |
|---|---|
| Site: | Cook  |
| Issue date: | 03/15/1984 |
| From: | Alexich M INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG |
| To: | Harold Denton Office of Nuclear Reactor Regulation |
| Shared Package | |
| ML17326B107 | List: |
| References | |
| AEP:NRC:0860A, AEP:NRC:860A, NUDOCS 8403200210 | |
| Download: ML17334A518 (8) | |
Text
REGULATORY IN OR@ATION DISTRIBUTION SYSTEM (RIDS)
ACCESSION NBR 840320 02 1 0 DUC ~ DATE 84/03/ 15 NOTAR I ZED NO DOCKET ¹ FACIL:50 316 Donald C. Cook Nuclear Power Pl anti Unit 2~ Indiana 05000316 AUTH INANE AUTHOR AFFILIATION ALEXICH~M.P. Indiana Il Michigan El ectr i c Co ~
RECIP,NAME RECIPIENT AFFILIATION DENTONtH ~ RE Office of Nuclear Reactor Regulationr Director
SUBJECT:
Application to amena License DPH-74<revising Tech Specs re f lowrate for tlow balance test of safety injection CODE: IE2c S COPIES RECEIVED:LTR ENCL SIZE:
pumps'ISTRIBUTIUN TITLE! Start-Up Report/ Refuel ing Report (50 Dkt).
NOTES:
RECIPIENT COPIES RECIPIENT COPIES ID CODE/NAME LTTR ENCL ID CODE/NAME LTTR ENCL NRR ORB1 BC 04 3 INTERNAL: IE FILE 01 1 1 . NRR/DHFS DEPY07 1
'RR/DHFS'DIR 08 1' NRR/DHFS/PSRB11 ]
NRR/OS I/CPB 1 1 Rf /DDAMI/MIB 09 1 EXTERNAL; ACRS .13 5 LPDR 03 NRC PDR 02 1 1 NSIC 05 NTIS 1 1 lg TOTAL NUHBEH OF COPIES REQUIRED: LTTR ~ ENCL b
INDIANA & MICHIGAN ELECTRIC COMPANY P.O. BOX 16631 COLUMBUS, OHIO 43216 March. 15, 1984 AEP:NRC:0860A Donald C. Cook Nuclear Plant Unit No. 2 Docket No. 50-316 License No. DPR-7'4 AMENDMENT TO THE APPLICATION FOR UNIT 2 TECHNZCAL SPECIFICATION CHANGES FOR CYCLE 5 RELOAD Mr. Harold R. Denton, Director Office of Nuclear Reactor Regulation U., S. Nuclear. Regulatory Commission Washington, D. C. 20555
Dear Mr. Denton:
By this letter and its attachments, we request an amendment to the application for Technical Specification (T/S) changes, which was addressed in our letter AEP:NRC:0860 dated March 1, 1984. This letter includes additional information related to the seventh proposed change addressed in AEP:NRC:0860; and requests one additional T/S change.
The wording of the seventh change has been slightly modified in this submittal to make the change easier to understand.
Attachment 1 to this letter addresses the Significant Hazards Consideration, as required to be submitted by 10 CFR 50.91(a) (1), for the modified version of the seventh proposed change of letter AEP:NRC:0860. The seventh proposed change concerned the flowrate for the flow balance test for the Safety In'jection (SZ) pumps'he SI pump flowrate would be affected by planned modifications to increase the miniflow of the SZ pumps. The increased miniflow would provide added assurance of adequate pump cooling while the pump is operating but not injecting to the core. Zn order to make the physical modifications for this change on a reasonable time table, we are requesting an early indication by March 23, 1984 of the acceptability of this T/S change request.
Attachment 2 to this letter addresses the additional T/S change that is being requested as part of the Unit 2 Cycle 5 reload application and our Significant Hazards Consideration analysis pursuant to 10 CFR 50.92 for this change.
Attachment 3 to this letter contains the revised pages for the additional T/S changes (including the modified version of the seventh change proposed in AEP:NRC:0860). The changes to the revised pages are 84032002l0 8403l5 PDR *DOCK 0500031h P PDR grad>~. g~ file e/I
Mr. Harold R. Dent AEP:NRC:0860A
~ ~
indicated by vertical lines on the right, hand maxgin of the page. The T/S change contained in this Attachment has been reviewed and approved by the Plant Nuclear Safety Review Committee and will be reviewed by the AEPSC Nuclear Safety and Design Review Committee (NSDRC) at their next scheduled meeting.
Attachment 4 to this letter is the summary of the safety evaluation performed by Westinghouse to support an increase from 30 gpm to 60 gpm in the safety injection pump miniflow.
As required by 10 CFR 50.91(b)(1), a copy of. this amended application is being transmitted to the appropiiate official of the State of Michigan.
Our letter'EP:NRC:0860 transmitted the Class IV fee levied for the review of the Cycle 5 reload of Unit 2. We consider the Technical Specification change requests contained in this letter to be part of that x'eview. Therefox'e, we believe that no fee, as defined in 10 CFR 170.22, .is required for the requests addressed in this letter.
This document has been prepared following Corporate procedures which incorporate a. reasonable set of controls to insure its accuracy and completeness prior to signature by the undersigned.
Very truly yours, q5 ~ M. P. exich 4; ~'Vice President MPA/pb Attachments cc: John E. Dolan W. G;'Smith, Ji. - Bridgman R. C. Callen G. Charnoff E. R. Swanson, NRC Resident Inspector - Bridgman
Mr. Harold R. Denton AEP NRC 0860A ATTACHMENT 1 TO AEP:NRC: 0860A SIGNIFICANT HAZARDS CONSIDERATICN FOR CERNGE IN FLCNRATE FOR THE SAFEZY INJECTICN PUMPS FECN BALAN~ TEST
'Mr. Harold R. Dento AEP:NRC:0860A The seventh proposed change addressed in letter AEP:NRC:0860 requested the footnote (**) on page 3/4 5-6 for T/S 4.5.2.h be changed to read:
- Total SIS (single pump) flow, including miniflow/
shall not exceed 700 gpm with no more than 640 gpm being delivered to the core.
We request that this proposed change be modified for clarity, to read:
- Combined Loop 1, 2, 3, and 4 Cold Leg Flow (single pump) (640 gpm. Total SIS (single pump) flow, including miniflow, shall not exceed 700 gpm.
The above change will allow for increased (miniflow) cooling of the Safety Injection pumps which provides increased assurance of adequate
- pump cooling while using miniflow cooling. The increase in miniflow may result in a small decrease i:n flow from'the pumps to the core.
Westinghouse has performed a safety evaluation of the increased SI pump miniflow and decreased injection flow to the core. The summary of their evaluation is enclosed as Attachment 4. The results of their evaluation concluded that the 0 impact 's negligible for large break LOCA and an increase of 86.1 F in peak clad temperature (PCT) for the most limiting small break LOCA, based on a sensitivity analysis performed on Unit 1. The addition of this increase in small break LOCA 0 PCT to the current D. C. Cook Unit 2 small break LOCA PCT of 1668 F results in a value well below the 10 CFR 50.46 limit of 2200 0 F. Based on discussions with your staff, we understand further information regarding the Westinghouse evaluation is needed. Therefore, we will submit additional clarification of the evaluation in the near future.
We have also performed a review of the proposed flowrate on the integrity of the SI pumps. Our review included a calculation to determine the Net Positive Suction Head (NPSH) available to the Safety Injection (SI) pumps. In the calculation we assumed that SI was in the injection phase and aligned with the Refueling Water Storage Tank (RWST);
0 the RWST was at it's low low levels the water temperature was 100 F; all safety pumps were running (i.e., Residual Heat Removal, Containment Spray, Centrifugal Charging, and SI pumps); and all pumps were producing maximum flow. We believe the assumed conditions constitute the worst case conditions for the SI pumps. The results of the calculation indicated that with the above conditions, there would be a NPSH margin of over sixteen (16) feet for both of the SI pumps.
Therefore, the increased flowrate is within the safety bounds of the pump runout and has no significant adverse effect on the integrity of the pumps.
Based on the above, the proposed T/S change may result in some increase to the consequences of a previously analyzed accident or may reduce in some way a safety margin, but it is our belief that the results of the change are clearly wi.thin all acceptable criteria with respect to the system and component's as they may affect the Safety Analysis of the plant. Thus the proposed change does not involve a significant hazards consideration as defined in 10 CFR 50.92.
Mr. Harold R. Dento AEP:NRC:0860A ATTACHMENT 2 TO AEP:NRC:0860A ADDITIONAL TECHNICAL SPECIFICATION CHANGE REQUEST FOR DONALD C. COOK NUCLEAR PLANT UNIT NO. 2 CYCLE 5
Mr. Harold R. Den AEP:NRC:0860A The eighth proposed change concerns T/S 3/4.10.5 which addresses the Rod Position Indication (RPI) Channels during shutdown (MODES 3, 4, and 5). Specifically, we are requesting that T/S 3/4.10.5 be changed to address the demand position indicators instead of the individual RPXs.
The reasons and justification for this change are as follows:
T/S 4.1.3.4 requires rod drop time measurements of full length rods be demonstrated ...following each removal of the reactor vessel head, etc.
T/S 4.10.5 states rod position indication channels shall be determined to be OPERABLE by verifying the demand position indication system and the rod position indication channel agree within 12 steps within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> prior to the start of rod drop time measurement...
Zn order to verify the 12 step agreement between the individual RPZs and the demand position indication system, the individual RPIs have to be calibrated. The RPZ for each individual rod is calibrated at the ~
beginning of a fuel cycle when the reactor coolant system is at operating temperature. Calibration is performed at operating temperature because the RPIs are extremely temperature sensitive and therefore become increasingly inaccurate over the large temperature change between MODES 5 through 3.
Coil operating temperature is not established until the Reactor Coolant System (RCS) reaches equilibrium after ascending through MODES 5, 4, and 3.. The coil takes approximately six (6) hours to reach equilibrium temperature, thus delaying startup of the reactor.
Utility experience indicates that the (group) demand position indication systems have proven to be extremely reliable in Westinghouse reactors. Demand position indication systems are the most accurate means of determining rod position and are in fact used to calibrate the RPXs. Furthermore, the T/Ss require that the reactor be maintained in a subcritical, condition (k (0.99) to prevent inadvertent criticality in MODES 3, 4, and 5. Subcriticality can be adequately maintained with sufficient boron concentration and all but one shutdown or control bank being fully inserted. Criticality is normally not reached until the shutdown banks and three of the four control banks are fully withdrawn.
T/S 3.10.5 will continue to require only one shutdown or control bank be withdrawn from the fully inserted position at a time, during rod drop time measurements.
Therefore, we believe there is adequate justification. for the proposed change, which would eliminate the delay in startup.
This change may result in some increase to the probability or consequences of a prev'ously analyzed accident or may reduce in some way a safety margin, but it is our belief that the results of the change are clearly within all acceptable criteria with respect to the system or components as they may affect the Safety Analysis of the plant. Thus, the proposed change does not involve a significant hazards consideration as defined in 10 CPR 50.92.
Mr. Harold R. Denton AEP: NRC: 0860A ATTACHMENT 3 TO AEP:NRC:0860A REVISED TECHNICAL SPECIFICATION PAGES FOR THE SEVENTH AND EIGHTH PROPOSED CHANGES