NRC Generic Letter 1986-09: Difference between revisions

From kanterella
Jump to navigation Jump to search
(Created page by program invented by StriderTol)
(Created page by program invented by StriderTol)
 
Line 14: Line 14:
| page count = 4
| page count = 4
}}
}}
{{#Wiki_filter:UNITED STATES NUCLEAR REGULATORY  
{{#Wiki_filter:UNITED STATES
COMMISSION
                        NUCLEAR REGULATORY COMMISSION
WASHINGTON, D. C. 20555 March 31, 1986 TO: ALL LICENSEES  
                                WASHINGTON, D. C. 20555 March 31, 1986 TO:       ALL LICENSEES OF OPERATING BWRs AND PWRs AND LICENSE APPLICANTS
OF OPERATING  
BWRs AND PWRs AND LICENSE APPLICANTS
GENTLEMEN:
GENTLEMEN:
SUBJECT: TECHNICAL  
SUBJECT:   TECHNICAL RESOLUTION OF GENERIC ISSUE NO. B-59-(N-1) LOOP
RESOLUTION  
          OPERATION IN BWRs AND PWRs (GENERIC LETTER NO. 86-09)
OF GENERIC ISSUE NO. B-59-(N-1)  
The staff has been studying (N-1) loop operation in BWRs and PWRs under Generic Issue No. B-59. We have recently completed our review of this issue and the purpose of this letter is to inform you of our findings on the resolution of Generic Issue No. B-59.
LOOP OPERATION  
IN BWRs AND PWRs (GENERIC LETTER NO. 86-09)The staff has been studying (N-1) loop operation in BWRs and PWRs under Generic Issue No. B-59. We have recently completed our review of this issue and the purpose of this letter is to inform you of our findings on the resolution of Generic Issue No. B-59.The majority of the presently operating BWRs-and PWRs are designed to operate with less than full reactor coolant flow. If a PWR reactor coolant pump or a BWR recirculation pump becomes inoperative, the flow' provided by the remaining (N-1) loops is sufficient for steady state operation at a power level less than full power. Although the FSARs for the licensed BWRs and PWRs present (N-1) loop calculations showing allowable power and protective system trip set-points, the NRC staff has disallowed this mode of operation for most plants primarily because of insufficient ECCS analyses as well as thermal-hydraulic stability concerns associated with BWRs. At present, the Technical Specifica- tions for most BWRs and PWRs require shutdown within several hours if one of the reactor coolant loops becomes inoperable.


The staff recently completed a safety evaluation report (SER) (Ref. 1) for the request by Beaver Valley Unit 1 for (N-1) loop operation.
The majority of the presently operating BWRs-and PWRs are designed to operate with less than full reactor coolant flow. If a PWR reactor coolant pump or a BWR recirculation pump becomes inoperative, the flow' provided by the remaining (N-1) loops is sufficient for steady state operation at a power level less than full power. Although the FSARs for the licensed BWRs and PWRs present (N-1) loop calculations showing allowable power and protective system trip set-points, the NRC staff has disallowed this mode of operation for most plants primarily because of insufficient ECCS analyses as well as thermal-hydraulic stability concerns associated with BWRs. At present, the Technical Specifica- tions for most BWRs and PWRs require shutdown within several hours if one of the reactor coolant loops becomes inoperable.


Based on that SER, it is expected that Beaver Valley Unit 1 will be authorized to operate with (N-1) loops when the Technical Specifications are revised and updated appropriately in the near future. The review by the staff of the Beaver Valley Unit 1 submittal has not identified any unacceptable consequences associated with (N-1) loop operation.
The staff recently completed a safety evaluation report (SER) (Ref. 1) for the request by Beaver Valley Unit 1 for (N-1) loop operation. Based on that SER,
it is expected that Beaver Valley Unit 1 will be authorized to operate with (N-1) loops when the Technical Specifications are revised and updated appropriately in the near future. The review by the staff of the Beaver Valley Unit 1 submittal has not identified any unacceptable consequences associated with (N-1) loop operation. Therefore, other PWR owners may wish to evaluate the merits of (N-1) loop submittals for their plants based on the Beaver Valley 1 experience or on the approval of (N-1) loop operation for Millstone 3 (Docket No. 50-423), including technical specifications, in conjunction with its operating license review. However, the specific design characteristics of each plant must be reviewed in the same detail as Beaver Valley 1 and Millstone 3 to assure that all safety considerations relative to (N-1) loop operation are evaluated. Some examples of PWR considerations which are highly plant specific in nature are:
                                                                          LZID/P-*


Therefore, other PWR owners may wish to evaluate the merits of (N-1) loop submittals for their plants based on the Beaver Valley 1 experience or on the approval of (N-1) loop operation for Millstone
- 2 -
3 (Docket No. 50-423), including technical specifications, in conjunction with its operating license review. However, the specific design characteristics of each plant must be reviewed in the same detail as Beaver Valley 1 and Millstone
1.    the impact of the down loop on instrumentation and control systems, including contributions of the down loop instruments to voting logic;
3 to assure that all safety considerations relative to (N-1) loop operation are evaluated.
2.    human factors considerations of indications and alarms from instruments in the down loop;
                                                                                  spray;
3.   effects of the down loop on operational systems such as pressurizer
4.   effects of the down loop on safety systems such as steam to turbine driven safety pumps;
5.    considerations relating to piping and status of valves for systems connecting to the down loop;
6.    effects on core flow distribution, potential for cold water reactivity insertion, etc.


Some examples of PWR considerations which are highly plant specific in nature are: LZID/P-
Plant specific aspects of the safety analyses, including considerations relating to plants which do not have loop isolation valves, may identify of safety questions which could affect decisions regarding theloop    desirability (N-1) loop operation. Both PWR plants reviewed for      (N-1)        operation were equipped with loop isolation valves.
-2 -1. the impact of the down loop on instrumentation and control systems, including contributions of the down loop instruments to voting logic;2. human factors considerations of indications and alarms from instruments in the down loop;3. effects of the down loop on operational systems such as pressurizer spray;4. effects of the down loop on safety systems such as steam to turbine driven safety pumps;5. considerations relating to piping and status of valves for systems connecting to the down loop;6. effects on core flow distribution, potential for cold water reactivity insertion, etc.Plant specific aspects of the safety analyses, including considerations relating to plants which do not have loop isolation valves, may identify safety questions which could affect decisions regarding the desirability of (N-1) loop operation.


Both PWR plants reviewed for (N-1) loop operation were equipped with loop isolation valves.The review of BWR (N-1) loop operation has been complicated by potential thermal-hydraulic instability and jet pump vibration problems during single loop operation (SLO). In low flow operating regions, it has been necessary to develop special operating procedures to assure that General Design Criteria 10 and 12 are satisfied in regard to thermal-hydraulic instabilities.
The review of BWR (N-1) loop operation has been complicated by potential       single thermal-hydraulic instability and jet pump vibration problems during     necessary    to loop operation (SLO). In low flow operating     regions,   it has been that  General  Design    Criteria  10
develop special operating procedures to assure                               Technical and 12 are satisfied in regard to thermal-hydraulic     instabilities.


Technical Specifications consistent with these procedures have been accepted by the staff for reactors which are not demonstrably stable based on analyses using approved analytical methods; details of the operating limitations were developed for the General Electric Safety Information Letter (SIL) 380 and contributed to the technical resolution of Generic Issue B-19, which is the subject of our Generic Letter No. 86-02 (Ref. 2). In addition, in an effort to resolve certain plant specific concerns about jet pump vibration or thermal hydraulic instability in the single loop operating mode at Browns Ferry Unit 1, TVA completed tests for that reactor on February 9, 1985, and those concerns have been resolved.
by the Specifications consistent with these procedures have been accepted               using stable  based  on  analyses staff for reactors which are not demonstrably                             were approved analytical methods; details of the operating     limitations
                                                                            380 and developed for the General Electric Safety Information Letter (SIL)   which    is the contributed to the technical resolution   of Generic   Issue B-19, (Ref. 2).   In addition,   in an effort subject of our Generic Letter No. 86-02                                      or  thermal to resolve certain plant specific concerns   about   jet pump vibration loop operating   mode at Browns   Ferry Unit hydraulic instability in the single                                      those  concerns
1, TVA completed tests for that reactor   on February   9, 1985,   and stability have been resolved. These tests demonstrated that SLO has similar under  the  same  power/flow    operating characteristics as two loop operation conditions. They also confirmed the staff's finding that Technical BWRs are Specifications based on GE SIL 380 which have been proposed. for some appropriate for the detection and suppression of thermal hydraulic 380 were instabilities. Recently Technical Specifications based on GE SIL


These tests demonstrated that SLO has similar stability characteristics as two loop operation under the same power/flow operating conditions.
- 3 -
        submitted for Duane Arnold. Permanent SLO has been approved for Duane Arnold (Ref. 3), and the staff expects to approve permanent SLO for other owners who have submitted SLO ECCS analysis as soon as Technical Specification changes similar to those for Duane Arnold are submitted.


They also confirmed the staff's finding that Technical Specifications based on GE SIL 380 which have been proposed.
This Generic Letter does not involve any reporting requirements so that no OMB
        clearance is necessary.


for some BWRs are appropriate for the detection and suppression of thermal hydraulic instabilities.
Sincerely, evnadSir.ed kj
                                                        1LLRcntfOW
                                                  Harold R. Denton, Director Office of Nuclear Reactor Regulation DISTRIBUTION
          Central Files BWR reading HDenton DEisenhut FMiraglia HThompson RBernero RHouston GLainas LPhillips BWR:RSB
      MHodges
      2/21/36              *SEE PREVIOUS CONCURRENCE PAGE
OF*C :R.B:BWR*        :BWR:AD*      :BWR:DD*      :BWR:.*
                                                                  _-______
                                                                _______                                    -----------
                                                      _
NAME :LPhillips
                  _-_        _____-
                      :GLainas      :RHouston      :RBernero                :H      ompson :FMi      ta DATE : 2/20/86        : 2/25/86        2/26/86    : 2/27/86                                    /86 OFC  :NRR:DD          :NRRg4-4fW                  :
                                    ___~~--- - - -  --    -  --    -  -    ------------. ----
                                                                                            __  ---  --- :------_-----______:______ _____
NAME :DE      t      :HDe  on DATE:    [f/86      :Izbrl/86 OIFICIAL RECORD COPY


Recently Technical Specifications based on GE SIL 380 were
* -                                    -
-3 -submitted for Duane Arnold. Permanent SLO has been approved for Duane Arnold (Ref. 3), and the staff expects to approve permanent SLO for other owners who have submitted SLO ECCS analysis as soon as Technical Specification changes similar to those for Duane Arnold are submitted.
                                        -4- REFERENCES
    1.   Letter from S. Varga (NRC) to J. J. Carey (Duquesne Light Company),
        "Beaver Valley Unit 1 - Operation with Two Out of Three Reactor Coolant Loops - Safety Evaluation", dated July 20, 1984, Docket No. 50-334.


This Generic Letter does not involve any reporting requirements so that no OMB clearance is necessary.
2.   Generic Letter 86-02, "Technical Resolution of Generic Issue B-19, Thermal Hydraulic Stability," dated January 23, 1986
 
    3.   Letter from Mohan Thadani (NRC) to L. Liu (Iowa Electric Light and Power Company), dated May 28, 1985, Docket No. 50-331.}}
Sincerely, evnadSir.ed kj 1LL RcntfOW Harold R. Denton, Director Office of Nuclear Reactor Regulation DISTRIBUTION
Central Files BWR reading HDenton DEisenhut FMiraglia HThompson RBernero RHouston GLainas LPhillips BWR:RSB MHodges 2/21/36 *SEE PREVIOUS CONCURRENCE
PAGE OF*C :R.B:BWR*
:BWR:AD* :BWR:DD* :BWR:.*_____- _-_ _ _-______ _______ -----------
NAME :LPhillips
:GLainas :RHouston
:RBernero
:H ompson :FMi ta DATE : 2/20/86 : 2/25/86 2/26/86 : 2/27/86 /86 OFC :NRR:DD :NRRg 4-4fW :___~~- -- ----- --- --------------.
__ ---- --- --- :------_-----______:______
_____NAME :DE t :HDe on DATE: [f/86 :Izbrl /86 OI FICIAL RECORD COPY
* ---4-REFERENCES
1. Letter from S. Varga (NRC) to J. J. Carey (Duquesne Light Company),"Beaver Valley Unit 1 -Operation with Two Out of Three Reactor Coolant Loops -Safety Evaluation", dated July 20, 1984, Docket No. 50-334.2. Generic Letter 86-02, "Technical Resolution of Generic Issue B-19, Thermal Hydraulic Stability," dated January 23, 1986 3. Letter from Mohan Thadani (NRC) to L. Liu (Iowa Electric Light and Power Company), dated May 28, 1985, Docket No. 50-331.}}


{{GL-Nav}}
{{GL-Nav}}

Latest revision as of 02:48, 24 November 2019

NRC Generic Letter 1986-009: Technical Resolution of Generic Issue No. B-59-(N-1) Loop Operation in BWRs and PWRs
ML031150298
Person / Time
Site: Beaver Valley, Millstone, Hatch, Monticello, Calvert Cliffs, Dresden, Davis Besse, Peach Bottom, Browns Ferry, Salem, Oconee, Mcguire, Nine Mile Point, Palisades, Palo Verde, Perry, Indian Point, Fermi, Kewaunee, Catawba, Harris, Wolf Creek, Saint Lucie, Point Beach, Oyster Creek, Watts Bar, Hope Creek, Grand Gulf, Cooper, Sequoyah, Byron, Pilgrim, Arkansas Nuclear, Braidwood, Susquehanna, Summer, Prairie Island, Columbia, Seabrook, Brunswick, Surry, Limerick, North Anna, Turkey Point, River Bend, Vermont Yankee, Crystal River, Haddam Neck, Ginna, Diablo Canyon, Callaway, Vogtle, Waterford, Duane Arnold, Farley, Robinson, Clinton, South Texas, San Onofre, Cook, Comanche Peak, Yankee Rowe, Maine Yankee, Quad Cities, Humboldt Bay, La Crosse, Big Rock Point, Rancho Seco, Zion, Midland, Bellefonte, Fort Calhoun, FitzPatrick, McGuire, LaSalle, 05000000, Zimmer, Fort Saint Vrain, Washington Public Power Supply System, Shoreham, Satsop, Trojan, Clinch River, Crane
Issue date: 03/31/1986
From: Harold Denton
Office of Nuclear Reactor Regulation
To:
References
GL-86-009, NUDOCS 8604160018
Download: ML031150298 (4)
v  d  e


UNITED STATES

NUCLEAR REGULATORY COMMISSION

WASHINGTON, D. C. 20555 March 31, 1986 TO: ALL LICENSEES OF OPERATING BWRs AND PWRs AND LICENSE APPLICANTS

GENTLEMEN:

SUBJECT: TECHNICAL RESOLUTION OF GENERIC ISSUE NO. B-59-(N-1) LOOP

OPERATION IN BWRs AND PWRs (GENERIC LETTER NO. 86-09)

The staff has been studying (N-1) loop operation in BWRs and PWRs under Generic Issue No. B-59. We have recently completed our review of this issue and the purpose of this letter is to inform you of our findings on the resolution of Generic Issue No. B-59.

The majority of the presently operating BWRs-and PWRs are designed to operate with less than full reactor coolant flow. If a PWR reactor coolant pump or a BWR recirculation pump becomes inoperative, the flow' provided by the remaining (N-1) loops is sufficient for steady state operation at a power level less than full power. Although the FSARs for the licensed BWRs and PWRs present (N-1) loop calculations showing allowable power and protective system trip set-points, the NRC staff has disallowed this mode of operation for most plants primarily because of insufficient ECCS analyses as well as thermal-hydraulic stability concerns associated with BWRs. At present, the Technical Specifica- tions for most BWRs and PWRs require shutdown within several hours if one of the reactor coolant loops becomes inoperable.

The staff recently completed a safety evaluation report (SER) (Ref. 1) for the request by Beaver Valley Unit 1 for (N-1) loop operation. Based on that SER,

it is expected that Beaver Valley Unit 1 will be authorized to operate with (N-1) loops when the Technical Specifications are revised and updated appropriately in the near future. The review by the staff of the Beaver Valley Unit 1 submittal has not identified any unacceptable consequences associated with (N-1) loop operation. Therefore, other PWR owners may wish to evaluate the merits of (N-1) loop submittals for their plants based on the Beaver Valley 1 experience or on the approval of (N-1) loop operation for Millstone 3 (Docket No. 50-423), including technical specifications, in conjunction with its operating license review. However, the specific design characteristics of each plant must be reviewed in the same detail as Beaver Valley 1 and Millstone 3 to assure that all safety considerations relative to (N-1) loop operation are evaluated. Some examples of PWR considerations which are highly plant specific in nature are:

LZID/P-*

- 2 -

1. the impact of the down loop on instrumentation and control systems, including contributions of the down loop instruments to voting logic;

2. human factors considerations of indications and alarms from instruments in the down loop;

spray;

3. effects of the down loop on operational systems such as pressurizer

4. effects of the down loop on safety systems such as steam to turbine driven safety pumps;

5. considerations relating to piping and status of valves for systems connecting to the down loop;

6. effects on core flow distribution, potential for cold water reactivity insertion, etc.

Plant specific aspects of the safety analyses, including considerations relating to plants which do not have loop isolation valves, may identify of safety questions which could affect decisions regarding theloop desirability (N-1) loop operation. Both PWR plants reviewed for (N-1) operation were equipped with loop isolation valves.

The review of BWR (N-1) loop operation has been complicated by potential single thermal-hydraulic instability and jet pump vibration problems during necessary to loop operation (SLO). In low flow operating regions, it has been that General Design Criteria 10

develop special operating procedures to assure Technical and 12 are satisfied in regard to thermal-hydraulic instabilities.

by the Specifications consistent with these procedures have been accepted using stable based on analyses staff for reactors which are not demonstrably were approved analytical methods; details of the operating limitations

380 and developed for the General Electric Safety Information Letter (SIL) which is the contributed to the technical resolution of Generic Issue B-19, (Ref. 2). In addition, in an effort subject of our Generic Letter No. 86-02 or thermal to resolve certain plant specific concerns about jet pump vibration loop operating mode at Browns Ferry Unit hydraulic instability in the single those concerns

1, TVA completed tests for that reactor on February 9, 1985, and stability have been resolved. These tests demonstrated that SLO has similar under the same power/flow operating characteristics as two loop operation conditions. They also confirmed the staff's finding that Technical BWRs are Specifications based on GE SIL 380 which have been proposed. for some appropriate for the detection and suppression of thermal hydraulic 380 were instabilities. Recently Technical Specifications based on GE SIL

- 3 -

submitted for Duane Arnold. Permanent SLO has been approved for Duane Arnold (Ref. 3), and the staff expects to approve permanent SLO for other owners who have submitted SLO ECCS analysis as soon as Technical Specification changes similar to those for Duane Arnold are submitted.

This Generic Letter does not involve any reporting requirements so that no OMB

clearance is necessary.

Sincerely, evnadSir.ed kj

1LLRcntfOW

Harold R. Denton, Director Office of Nuclear Reactor Regulation DISTRIBUTION

Central Files BWR reading HDenton DEisenhut FMiraglia HThompson RBernero RHouston GLainas LPhillips BWR:RSB

MHodges

2/21/36 *SEE PREVIOUS CONCURRENCE PAGE

OF*C :R.B:BWR* :BWR:AD* :BWR:DD* :BWR:.*

_-______

_______ -----------

_

NAME :LPhillips

_-_ _____-

GLainas :RHouston :RBernero :H ompson :FMi ta DATE : 2/20/86  : 2/25/86 2/26/86  : 2/27/86 /86 OFC :NRR:DD :NRRg4-4fW  :

___~~--- - - - -- - -- - - ------------. ----

__ --- --- :------_-----______:______ _____

NAME :DE t :HDe on DATE: [f/86 :Izbrl/86 OIFICIAL RECORD COPY

  • - -

-4- REFERENCES

1. Letter from S. Varga (NRC) to J. J. Carey (Duquesne Light Company),

"Beaver Valley Unit 1 - Operation with Two Out of Three Reactor Coolant Loops - Safety Evaluation", dated July 20, 1984, Docket No. 50-334.

2. Generic Letter 86-02, "Technical Resolution of Generic Issue B-19, Thermal Hydraulic Stability," dated January 23, 1986

3. Letter from Mohan Thadani (NRC) to L. Liu (Iowa Electric Light and Power Company), dated May 28, 1985, Docket No. 50-331.

Template:GL-Nav

Retrieved from "https://kanterella.com/w/index.php?title=NRC_Generic_Letter_1986-09&oldid=2200693"