ML19257A298: Difference between revisions

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Very truly yours, 77 s 6.9a .
Very truly yours, 77 s 6.9a .
William O. Parker, Jr.
William O. Parker, Jr.
                                                        -
THH/sch Attachment 1668 342 x          s s afRoGeg                              h (        v\    g O    \
* THH/sch Attachment 1668 342 x          s s afRoGeg                              h (        v\    g O    \
_:
s,*owsR s#s s
s,*owsR s#s s
              .-                  .    . . _ . , _ . .


i
i Duke Power Company Response to NUREG 0578 Short Term Requirements for McGuire Nuclear Station 2.1.1    Emergency Power Supolv Recuirements Pressurizer Heaters For each McGuire unit, two groups of pressurizer heaters with a capacity of 416Kw each are supplied from the redundant 600 VAC Essential Auxiliary Power System, one heater group per power train. Power is available to each heater group from the effsite power system or from the onsite emergency power system (Ref. FSAR Chapter 8). Each heater group has the capability to maintain natural circulation under hot standby conditions.
,
                                                                          .
Duke Power Company Response to NUREG 0578 Short Term Requirements for McGuire Nuclear Station 2.1.1    Emergency Power Supolv Recuirements Pressurizer Heaters For each McGuire unit, two groups of pressurizer heaters with a capacity of 416Kw each are supplied from the redundant 600 VAC Essential Auxiliary Power System, one heater group per power train. Power is available to each heater group from the effsite power system or from the onsite emergency power system (Ref. FSAR Chapter 8). Each heater group has the capability to maintain natural circulation under hot standby conditions.
The pressurizer heaters are cutomatically shed from the emergency power sources via the diesel generator load sequencer upon the occurrence of a safety in-jection actuation signal (SIAS). The SIAS and diesel generator load sequencer must both be reset before the operator can manually reload the pressurizer heaters onto the emergency power sources. These resets, and the manual controls for the pressurizer heater feeder breakers are located in the control room.
The pressurizer heaters are cutomatically shed from the emergency power sources via the diesel generator load sequencer upon the occurrence of a safety in-jection actuation signal (SIAS). The SIAS and diesel generator load sequencer must both be reset before the operator can manually reload the pressurizer heaters onto the emergency power sources. These resets, and the manual controls for the pressurizer heater feeder breakers are located in the control room.
Procedures will be provided for the operator as necessary to manually load the pressurizer heaters onto the emergency power sources following an SIAS.
Procedures will be provided for the operator as necessary to manually load the pressurizer heaters onto the emergency power sources following an SIAS.
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A transient analysis of the loss of offsite power event established that the ability to supply emergency power to heaters at 150 Kw capacity within four hours will prevent loss of subcooling in the primary. Conservative assumptions resulting in least margin to subcooling and rapid decrease in pressure were utilized in this analysis.
A transient analysis of the loss of offsite power event established that the ability to supply emergency power to heaters at 150 Kw capacity within four hours will prevent loss of subcooling in the primary. Conservative assumptions resulting in least margin to subcooling and rapid decrease in pressure were utilized in this analysis.
As demonstrated by the above discussion, the pressurizer heater system at McGuire Nuclear Station satisifies the requirements of NUREG 0578, 1668 343
As demonstrated by the above discussion, the pressurizer heater system at McGuire Nuclear Station satisifies the requirements of NUREG 0578, 1668 343
                                        ._ __    .


'                                    Pressurizer PORV The pressurizer power-operated relief valves are air-operated with DC control solenoids. Power for the solenoid valves is supplied from the 125VDC Vital Instrumentation and Control Power System (Ref. FSAR Chapter 8). The solenoid operators and their controls are safety-related.
'                                    Pressurizer PORV The pressurizer power-operated relief valves are air-operated with DC control solenoids. Power for the solenoid valves is supplied from the 125VDC Vital Instrumentation and Control Power System (Ref. FSAR Chapter 8). The solenoid operators and their controls are safety-related.
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These channels are part of the safety-relatad portion of the Process Control System which receives its power from the Vital Instrumentation and Control Power System (Ref. FSAR Chapter) .
These channels are part of the safety-relatad portion of the Process Control System which receives its power from the Vital Instrumentation and Control Power System (Ref. FSAR Chapter) .
I668 344
I668 344
                                              -_ -      - . .


.
2.1.3b  Instrumentation for Inadeouate Core Cooling An indication of the deviation from saturation conditions will be provided in the control room. This saturation readout will utilize output from the Operator Aid Computer and will be displayed on CRTs in conjunction with a graphic display of the margin to saturation conditions. A control room alarm is provided with two separate setpoints, one for operating conditions and one for shutdown conditions.
2.1.3b  Instrumentation for Inadeouate Core Cooling An indication of the deviation from saturation conditions will be provided in the control room. This saturation readout will utilize output from the Operator Aid Computer and will be displayed on CRTs in conjunction with a graphic display of the margin to saturation conditions. A control room alarm is provided with two separate setpoints, one for operating conditions and one for shutdown conditions.
Procedures will be written to provide redundant capability for determining the margin to saturation conditions. These procedures will contain both steam tables and instructions for calculating the degree of subcooling.
Procedures will be written to provide redundant capability for determining the margin to saturation conditions. These procedures will contain both steam tables and instructions for calculating the degree of subcooling.
A detailed description of the plant computer subcooling monitoring package will be provided in our January 25, 1980 response. This description will include input parameters, calculator features, display features, and backup capability (NUREG 0578 clarification list).
A detailed description of the plant computer subcooling monitoring package will be provided in our January 25, 1980 response. This description will include input parameters, calculator features, display features, and backup capability (NUREG 0578 clarification list).
1668 345
1668 345
                                                              . - .


.
2.1.4      Containment Isolation Provisions Containment isolation at McGuire is initiated by any one of the following diverse parameters:      (Figure 7.2.1-1 (8 of 16))
2.1.4      Containment Isolation Provisions Containment isolation at McGuire is initiated by any one of the following diverse parameters:      (Figure 7.2.1-1 (8 of 16))
: a.      low steamline pressure        (2/3)
: a.      low steamline pressure        (2/3)
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The three modifications described above will be complete prior to fuel loading.
The three modifications described above will be complete prior to fuel loading.
1668 346
1668 346
                                                                      - . .    - - - -


.
2.1.7a  Automatic Initiation of the Auxiliary Feedvater System Automatic initiation an d emergency power for the Auxiliary Feedwater System are included as part of the McGuire Nuclear Station design which meets the NUREG 0578 requirements.
2.1.7a  Automatic Initiation of the Auxiliary Feedvater System Automatic initiation an d emergency power for the Auxiliary Feedwater System are included as part of the McGuire Nuclear Station design which meets the NUREG 0578 requirements.
1668 347
1668 347
                                                                            . .


  '
.                                              2.1.7b    Auxiliary Feedwater Flow Indication to Steam Generators Safety grade indication of auxiliary feedwater flow to each steam generator will be provided in the control room in accordance with NUREG 0578 requirements.
.                                              2.1.7b    Auxiliary Feedwater Flow Indication to Steam Generators Safety grade indication of auxiliary feedwater flow to each steam generator will be provided in the control room in accordance with NUREG 0578 requirements.
However, for the short term, existing control grade flow instrumentation in the lines to each steam generator will be relied upon. Backup for these instru-ments, in case of single failure, is available from existing control grade flow instrumentation in the suction piping to each auxiliary feedwater pump. Further backup is available in the form of steam generator level indication.
However, for the short term, existing control grade flow instrumentation in the lines to each steam generator will be relied upon. Backup for these instru-ments, in case of single failure, is available from existing control grade flow instrumentation in the suction piping to each auxiliary feedwater pump. Further backup is available in the form of steam generator level indication.
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1668 348
1668 348


  ' '
                                           ~7-2.2.la  Shift Supervisor Responsibilities The command and control function of the shift supervisor in the safety of operations for both normal and emergency conditions has been re-emphasized.
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                                           ~7-
                                                                        ,
2.2.la  Shift Supervisor Responsibilities The command and control function of the shift supervisor in the safety of operations for both normal and emergency conditions has been re-emphasized.
An administrative procedure (Station Directive 3.1.4, Conduct of Operations) has been written to accomplish this re-emphasis.
An administrative procedure (Station Directive 3.1.4, Conduct of Operations) has been written to accomplish this re-emphasis.
1668 349
1668 349


  ,.
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2.2.lc  Shift and Relief Turnover Procedures An administrative procedure (Station Directive 3.1.9, Relief of Duties) has been revised to incorporate a detailed checklist of applicable items for shif t turnover. In addition, a periodic test procedure, Shift Turnover Verification, has been written to ensure an adequate evaluation of shift turnovers.
2.2.lc  Shift and Relief Turnover Procedures An administrative procedure (Station Directive 3.1.9, Relief of Duties) has been revised to incorporate a detailed checklist of applicable items for shif t turnover. In addition, a periodic test procedure, Shift Turnover Verification, has been written to ensure an adequate evaluation of shift turnovers.
1668 350
1668 350


  ' , .
.
_9-                            ,
_9-                            ,
2.2.2a    Control Room Access and Authority Succession An adminstrative procedure (Station Directive 3.1.4, Conduct of Operations) has been written to limit personnel access to the control room and to establish a clear line of authority for coping with operational transients and accidents.
2.2.2a    Control Room Access and Authority Succession An adminstrative procedure (Station Directive 3.1.4, Conduct of Operations) has been written to limit personnel access to the control room and to establish a clear line of authority for coping with operational transients and accidents.
1668 351}}
1668 351}}

Latest revision as of 22:57, 1 February 2020

Forwards Response to TMI Lessons Learned Task Force short- Term Requirements.Items Discussed Include Emergency Power Supply,Containment Isolation,Auxiliary Feedwater Sys Initiation & Flow Indication
ML19257A298
Person / Time
Site: McGuire, Mcguire  Duke Energy icon.png
Issue date: 12/26/1979
From: Parker W
DUKE POWER CO.
To: Baer R, Harold Denton
Office of Nuclear Reactor Regulation
References
RTR-NUREG-0578, RTR-NUREG-578 NUDOCS 8001030589
Download: ML19257A298 (10)


Text

s

', a DUKE POWER COMPANY Powra Buttotwo 422 Socra Gnuncu Sruzzi, CnAnt.orTz, N. C. asa4a WI L LI AM O. PARM ER, J R.

vice pacs.oc~, December 26, 1979 ruc, o.c 4.c. 7e.

Seca. Paooweview 3 7 3- 4C 8 3 Mr. Harold R. Denton, Director Office of Nuclear Reactor Regulation U.S. Nuclear Regulatory Commission Washington, DC 20555 Attention: Mr. R. L. Baer, Chief Light Water Reactor Project Branch #2 Re: McGuire Nuclear Station Docket Nos. 50-369 and 50-370

Dear Mr. Denton:

Attached is Duke Power Company's initial response to the NRC letters of September 27, 1979 and October 30, 1979, implementing the short term TMI-2 requirements for McGuire Nuclear Station. This response is submitted in accordance with the McGuire response schedule which was transmitted to you in my letter of November 19, 1979. As discussed in my November 19, 1979 letter Duke Power Company will submit an additional response on January 25, 1980.

Very truly yours, 77 s 6.9a .

William O. Parker, Jr.

THH/sch Attachment 1668 342 x s s afRoGeg h ( v\ g O \

s,*owsR s#s s

i Duke Power Company Response to NUREG 0578 Short Term Requirements for McGuire Nuclear Station 2.1.1 Emergency Power Supolv Recuirements Pressurizer Heaters For each McGuire unit, two groups of pressurizer heaters with a capacity of 416Kw each are supplied from the redundant 600 VAC Essential Auxiliary Power System, one heater group per power train. Power is available to each heater group from the effsite power system or from the onsite emergency power system (Ref. FSAR Chapter 8). Each heater group has the capability to maintain natural circulation under hot standby conditions.

The pressurizer heaters are cutomatically shed from the emergency power sources via the diesel generator load sequencer upon the occurrence of a safety in-jection actuation signal (SIAS). The SIAS and diesel generator load sequencer must both be reset before the operator can manually reload the pressurizer heaters onto the emergency power sources. These resets, and the manual controls for the pressurizer heater feeder breakers are located in the control room.

Procedures will be provided for the operator as necessary to manually load the pressurizer heaters onto the emergency power sources following an SIAS.

The Class 1E interfaces for main power and control power are protected by safety-grade circuit breakers.

A study was performed by Westinghouse to determine the heater capacity required to maintain Reactor Coolant System pressure with a loss of offsite power and the time frame when emergency power supplies must be available to the heaters.

Pressurizer heat losses can be divided into two basic components: 1) losses through the pressurizer walls, insulation, supports, connections, etc., and

2) losses due to continuous spray flow. Spray flow is driven to the top of the pressurizer by reactor coolant pump head; without offsite power, the pumps will coast down and no spray flow will be supplied. Thus, without offsite power, only heat losses through insulation, supoorts, etc. , must be of fset by heaters.

A review of heat loss calculations for a typical 1800 ft pressurizer, such as that installed at McGuire, resulted in the determination that a heatur capacity of 150 Kw will conservatively compensate for heat losses from the pressurizer at or below normal operating pressure with no allowance for continuous spray.

A transient analysis of the loss of offsite power event established that the ability to supply emergency power to heaters at 150 Kw capacity within four hours will prevent loss of subcooling in the primary. Conservative assumptions resulting in least margin to subcooling and rapid decrease in pressure were utilized in this analysis.

As demonstrated by the above discussion, the pressurizer heater system at McGuire Nuclear Station satisifies the requirements of NUREG 0578, 1668 343

' Pressurizer PORV The pressurizer power-operated relief valves are air-operated with DC control solenoids. Power for the solenoid valves is supplied from the 125VDC Vital Instrumentation and Control Power System (Ref. FSAR Chapter 8). The solenoid operators and their controls are safety-related.

Pressurizer PORV Block Valves The pressurizer PORV block valves are motor-operated valves with both motive and control power supplied from the 600VAC Essential Auxiliary Power System (Ref. FSAR Chapter 8). The block valves including their power and control circuits are safety-related.

Pressurizer Level Indication Three redundant channels of pressurizer level instrumentation are orovided.

These channels are part of the safety-relatad portion of the Process Control System which receives its power from the Vital Instrumentation and Control Power System (Ref. FSAR Chapter) .

I668 344

2.1.3b Instrumentation for Inadeouate Core Cooling An indication of the deviation from saturation conditions will be provided in the control room. This saturation readout will utilize output from the Operator Aid Computer and will be displayed on CRTs in conjunction with a graphic display of the margin to saturation conditions. A control room alarm is provided with two separate setpoints, one for operating conditions and one for shutdown conditions.

Procedures will be written to provide redundant capability for determining the margin to saturation conditions. These procedures will contain both steam tables and instructions for calculating the degree of subcooling.

A detailed description of the plant computer subcooling monitoring package will be provided in our January 25, 1980 response. This description will include input parameters, calculator features, display features, and backup capability (NUREG 0578 clarification list).

1668 345

2.1.4 Containment Isolation Provisions Containment isolation at McGuire is initiated by any one of the following diverse parameters: (Figure 7.2.1-1 (8 of 16))

a. low steamline pressure (2/3)
b. low pressurizer pressure (2/4)
c. high containment pressure (;/4)
d. manual Containment isolation valve control systems will be designed such that resetting of the containment isolation signal will not cause any containment isolation valve to automatically reposition. Deliberate ooerator action will be required to reposition a containment isolation valve following reset of a containment isolation signal Table 6.2.4-1 of the McGuire FSAR lists the containment piping penetrations, their functions, and other pertinent information. The McGuire Containment Isolation System design has been reviewed with careful consideration given to the definition of essential and non-essential systems. Our review has resulted in no change in the list of systems considered essential. However, we will make the following modifications to the Containment Isolation System,
a. At present, the Containment Ventilation Unit Drain Header containment isolation valves (see item 102 of Table 6.2.4-1) close upon receipt of the high-high containment pressure signal (Phase B Isolation Signal). This will be changed to signal the valves to close on a Phase A Isolation Signal. The purpose of this line is only to prevent draining ventilation unit condensate ta the containment floor susps during normal operation and then having to process it through the waste system. It does not serve to protect the ventilation units. Therefore, since containment isolation takes priority over waste processing concerns, it is necessary to isolate this line as early as possible,
b. Two 50 gpm sump pumps are provided in each of two Containment Floor and Equipment Sumps and one 50 gpm pump is provided in the Incore Instrumenta-tion Sump. These pumps start automatically on high sump level signals. They discharge to the 10,000 gallon Floor Drain Tank in the Auxiliary Building.

The automatic start feature for these pumps will be replaced with manual start capability only. The automatic stop on low sump level will be retained.

Sump level indication and high level alarm will be provided to the operator in the Control Room. For pump protection, an interlock will be provided to trip the pumps or prevent them from starting if one of the Containnent isolation valves in the sump discharge header closes. The pumps will also be tripped on a high Containment radioactivity signal.

The three modifications described above will be complete prior to fuel loading.

1668 346

2.1.7a Automatic Initiation of the Auxiliary Feedvater System Automatic initiation an d emergency power for the Auxiliary Feedwater System are included as part of the McGuire Nuclear Station design which meets the NUREG 0578 requirements.

1668 347

. 2.1.7b Auxiliary Feedwater Flow Indication to Steam Generators Safety grade indication of auxiliary feedwater flow to each steam generator will be provided in the control room in accordance with NUREG 0578 requirements.

However, for the short term, existing control grade flow instrumentation in the lines to each steam generator will be relied upon. Backup for these instru-ments, in case of single failure, is available from existing control grade flow instrumentation in the suction piping to each auxiliary feedwater pump. Further backup is available in the form of steam generator level indication.

The control room safety grade indication will be installed by January 1,1981 contingent upon delivery of required instrumentation components.

1668 348

~7-2.2.la Shift Supervisor Responsibilities The command and control function of the shift supervisor in the safety of operations for both normal and emergency conditions has been re-emphasized.

An administrative procedure (Station Directive 3.1.4, Conduct of Operations) has been written to accomplish this re-emphasis.

1668 349

2.2.lc Shift and Relief Turnover Procedures An administrative procedure (Station Directive 3.1.9, Relief of Duties) has been revised to incorporate a detailed checklist of applicable items for shif t turnover. In addition, a periodic test procedure, Shift Turnover Verification, has been written to ensure an adequate evaluation of shift turnovers.

1668 350

_9- ,

2.2.2a Control Room Access and Authority Succession An adminstrative procedure (Station Directive 3.1.4, Conduct of Operations) has been written to limit personnel access to the control room and to establish a clear line of authority for coping with operational transients and accidents.

1668 351