W3P84-1805, Forwards Proposed FSAR Chapter 14 Changes Re Venting of Sys During Hydrostatic Testing & Testing of nonsafety-related Supplementary Chilled Water Sys.Changes Will Be Incorporated in Future FSAR Amend: Difference between revisions

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Louisiana POWER & L1GHT
Louisiana
                                    ,4,om.soNoe s1em, P O BOX 6008
,4,om.soNoe s1em, POWER & L1GHT P O BOX 6008
* NEW ORLEANS. LOUISIANA 70174 * (504) 366 2345 NuS$$rsM June 29, 1984                       W3P84-1805 Q-3-A29.22.14 Director of Nuclear Reactor Regulation Attention: Mr. G.W. Knighton, Chief Licensing Branch No. 3 Division of Licensing U.S. Nuclear Regulatory Commission Washington, D.C. 20555
* NEW ORLEANS. LOUISIANA 70174 * (504) 366 2345 NuS$$rsM June 29, 1984 W3P84-1805 Q-3-A29.22.14 Director of Nuclear Reactor Regulation Attention:
Mr. G.W. Knighton, Chief Licensing Branch No. 3 Division of Licensing U.S. Nuclear Regulatory Commission Washington, D.C. 20555


==SUBJECT:==
==SUBJECT:==
Line 25: Line 26:


==Dear Sir:==
==Dear Sir:==
Per your request and in an effort to complete LP&L's response for Allegation 28, use of high-point vents in hydrostatic testing, attached are proposed FSAR changes which will be implemented in a future amendment in accordance with 10 CFR 50.71(e) requirements. The changes clarify that venting of systems during hydrostatic testing was performed in accordance with the requirements of ASME Boiler and Pressure Vessel Code, Section III.
Per your request and in an effort to complete LP&L's response for Allegation 28, use of high-point vents in hydrostatic testing, attached are proposed FSAR changes which will be implemented in a future amendment in accordance with 10 CFR 50.71(e) requirements. The changes clarify that venting of systems during hydrostatic testing was performed in accordance with the requirements of ASME Boiler and Pressure Vessel Code, Section III.
Article NC-6211 (Summer, 1981 Addenda).
Article NC-6211 (Summer, 1981 Addenda).
Also, attached are proposed changes which reflect that testing of the non-safety related Supplementary Chilled Water System may not be completed prior to fuel load (this does not violate any NRC requirements).
Also, attached are proposed changes which reflect that testing of the non-safety related Supplementary Chilled Water System may not be completed prior to fuel load (this does not violate any NRC requirements).
If you have any questions please do not hesitate to call.
If you have any questions please do not hesitate to call.
ry truly, 0
ry truly, b '. ook \\g 0
bK. '. ook     \g Nuclear Support & Licensing Manager KWC/PC/pco Attachment cc:   E.L. Blake, W.M. Stevenson, J.T. Collins, D.M. Crutchfield, J. Wilson, G.L. Constable 8407060030 840629 PDR ADOCK 05000302                                                                 hO4I A                   PDR                                                             y I
K.
Nuclear Support & Licensing Manager KWC/PC/pco Attachment cc:
E.L. Blake, W.M. Stevenson, J.T. Collins, D.M. Crutchfield, J. Wilson, G.L. Constable hO4I 8407060030 840629 PDR ADOCK 05000302 A
PDR y I


WSES-FSAR-UNIT-3 14.2.12.2.90         SECONDARY SYSTEM HYDROSTATIC TEST                             15 14.2.12.2.90.1         Objective To hydrostatically test the secondary side of the steam generators and non-isolable piping.                                                                 8 14.2.12.2.90.2         Prerequisites A.     The steam generators and main steam piping to the main steam isolation valves are filled, vented, and at the required tem-           l15 pe rature .                                                                 8 l
WSES-FSAR-UNIT-3 14.2.12.2.90 SECONDARY SYSTEM HYDROSTATIC TEST 15 14.2.12.2.90.1 Objective To hydrostatically test the secondary side of the steam generators and non-isolable piping.
B.     Reactor Coolant System (RCS) is filled, vented, and at the               l 15 required temperature.                                                   l   9 C.     The reactor coolant pumps are operable.
8 14.2.12.2.90.2 Prerequisites A.
D.     Test pump is available.
The steam generators and main steam piping to the main steam isolation valves are filled, vented, and at the required tem-l15 pe rature.
E.     Main steam safety valves are gagged or removed.
l 8
F.     Test instrumentation is available and calibrated.                           29 G.     Permanently installed instrumentation necessary for testing is             34
B.
Reactor Coolant System (RCS) is filled, vented, and at the l 15 required temperature.
l 9
C.
The reactor coolant pumps are operable.
D.
Test pump is available.
E.
Main steam safety valves are gagged or removed.
F.
Test instrumentation is available and calibrated.
29 G.
Permanently installed instrumentation necessary for testing is 34 operable and calibrated.
^
^
      .,          operable and calibrated.
14.2.12.2.90.3 Test Method A.
14.2.12.2.90.3       Test Method A.     Increase RCS pressure to a value that will ensure that the                   8 secondary to primary differential pressure does not exceed design value.
Increase RCS pressure to a value that will ensure that the 8
B.     Perform the test in accordance with the ASME code.
secondary to primary differential pressure does not exceed design value.
14.2.12.2.90.4       Acceptance Criteria The Secondary System hydrostatic test meets the requirements of ASME               18 Boiler and Pressure Vessel Code, Section IIIj (bhwg iw p e rler=4*q Mc ky 'bo-4d ;e. 4c d ton ., ricac neu>rd!"3   10 UC -(c u - s%y , gd 14.2-109           Amendment No. 34, (1/84)
B.
Perform the test in accordance with the ASME code.
14.2.12.2.90.4 Acceptance Criteria The Secondary System hydrostatic test meets the requirements of ASME 18 Mc k 'bo-Boiler and Pressure Vessel Code, Section IIIj (bhwg iw p e rler=4*q y
4d ;e. 4c d ton., ricac neu>rd!"3 10 UC -(c u - s%y, gd 14.2-109 Amendment No. 34, (1/84)


WSES-PSAR-UNIT-3 14.2.12.2.91                   REACTOR COOLANT SYSTEM HYDROSTATIC TEST l
WSES-PSAR-UNIT-3 14.2.12.2.91 REACTOR COOLANT SYSTEM HYDROSTATIC TEST l
14.2.12.2.91.1                   Objective                                                           l 8 l To verify the integrity of the Reactor Coolant System (RCS) pressure                                     l boundary and associated Safety Class I piping.                                                         )
14.2.12.2.91.1 Objective 8
14.2.12.2.91.2                   Prerequisites A.       The RCS is filled, vented, and at the required temperature.
To verify the integrity of the Reactor Coolant System (RCS) pressure boundary and associated Safety Class I piping.
B.     The reactor coolant pumps are operable.
)
O C.     Test pump is available.
14.2.12.2.91.2 Prerequisites A.
D.     Primary safety valves are gagged or removed.
The RCS is filled, vented, and at the required temperature.
E.     Permanently installed instrumentation necessary for testing is                             34 operable and calibrated.
B.
F.     Test instrumentation is available and calibrated.                                           29 14.2.12.2.91.3                   Test Method A.     Operate reactor coolant pumps to sweep gases from the steam generator tubes.                      .
The reactor coolant pumps are operable.
B.     Vent the RCS and all control element drive mechanism housings.
O C.
8 C.     Operate the reactor coolant pumos to increase the RCS temperature to that required for pressurization of RCS to test pressure.
Test pump is available.
D.     Perform the test in accordance with the ASME code                     .
D.
14.2.12.2.91.4                   Acceptance criteria The RCS hydrostatic test meets the requipements of ASME Boiler and Pressure Vessel Code, SectionIIIj(t/cJ in pedc m img O c hydroSInhe 4csl was, done                           13 ae co,d     lo             uc. P1tl- L,a.me, , t%i /}dJ..yk l
Primary safety valves are gagged or removed.
E.
Permanently installed instrumentation necessary for testing is 34 operable and calibrated.
29 F.
Test instrumentation is available and calibrated.
14.2.12.2.91.3 Test Method A.
Operate reactor coolant pumps to sweep gases from the steam generator tubes.
B.
Vent the RCS and all control element drive mechanism housings.
8 C.
Operate the reactor coolant pumos to increase the RCS temperature to that required for pressurization of RCS to test pressure.
D.
Perform the test in accordance with the ASME code.
14.2.12.2.91.4 Acceptance criteria The RCS hydrostatic test meets the requipements of ASME Boiler and Pressure pedc m img O c hydroSInhe 4csl was, done 13 Vessel Code, SectionIIIj(t/cJ in ae co,d lo uc. P1tl-L,a.me,, t%i /}dJ..yk l
lk I
lk I
l 14.2-110     Amendment No. 34, (1/64)
l 14.2-110 Amendment No. 34, (1/64) m,,
        ,-            - - - - - - - , -          m,, . - . , . . . , ,


      . .                                              WSES-FSAR-UNIT-3
WSES-FSAR-UNIT-3 14.2.12.2.30 CHILLFD WATEF -..
                                                                                                . ... II.I.E0 ".^. YSTFMy            15 14.2.12.2.30                     CHILLFD WATEF -..         ...               .     -
.... II.I.E0 ".^.
8 14.2.12.2.30.1                         Objective To verify the proper operation of the Chilled Water -=d 0 pplementary A 15
YSTFMy 15 8
      . Chi-Iled-Wat       System 8
14.2.12.2.30.1 Objective A
14.2.12.2.30.2                         Pterequisites 18 A.       Construction activities on the systems to be teated are complete.
To verify the proper operation of the Chilled Water -=d 0 pplementary 15
B.       Test instrumentation is available and calibrated.                                                               l 29 C.       Plant systems required to support testing are operable, or temporary                                               15
. Chi-Iled-Wat System 8
,                  systems are installed and operable.
14.2.12.2.30.2 Pterequisites 18 A.
i Permanently installed instrumentation is operable and calibrated.                                                   29 D.
Construction activities on the systems to be teated are complete.
14.2.12.2.30.3                         Test Method                                                                           .
B.
A.        Verify all control logic.
Test instrumentation is available and calibrated.
8 B.       Demonstrate that each chilled water trais can be operated from its local and reeote manual station.
l 29 C.
C.       Verify that each chilled water unit performs as designed and supplies chilled water at rated flow and teeperature.                                                                     l 15 8
Plant systems required to support testing are operable, or temporary 15 systems are installed and operable.
i ra s    D.       Verify chilled water flow to all supplied components.                                                           l
i D.
:s E.       Verify that the chilled water systems respond automatically to the                                             ! 18 l                   appropriate engineered safety features actuation signal (ESFAS).                                               l 15 l     8 F.       Verify the proper operation of all protective devices, controls, interlocks, instrumentation, and alarms, using actual or simulated                                               l 15 inputs.
Permanently installed instrumentation is operable and calibrated.
'                                                                                                                                          8 14.2.12.2.30.4                         Acceptance Criteria
29 14.2.12.2.30.3 Test Method A.
'          The Chilled Water System rf "_;pi:_:;teey-Wetee-System perform 3as 15
Verify all control logic.
!          described in Subsection 9.2.9.
8 B.
l 4
Demonstrate that each chilled water trais can be operated from its local and reeote manual station.
f 14.2-59                               Amendment No. 29, (10/82)
C.
                      - + -   _ - , - - - . . -          . _ _ _ ,      _ _ _ _ _ _ _ _ _ _    _    __
Verify that each chilled water unit performs as designed and supplies chilled water at rated flow and teeperature.
l 15 D.
Verify chilled water flow to all supplied components.
l 8
i ra s
! 18
: s E.
Verify that the chilled water systems respond automatically to the l
appropriate engineered safety features actuation signal (ESFAS).
l 15 l
8 F.
Verify the proper operation of all protective devices, controls, interlocks, instrumentation, and alarms, using actual or simulated l 15 inputs.
8 14.2.12.2.30.4 Acceptance Criteria The Chilled Water System rf "_;pi:_:;teey-Wetee-System perform 3as 15 described in Subsection 9.2.9.
l f
4 14.2-59 Amendment No. 29, (10/82)
- + -


              ~
~
l~           ,\                                                                               l ESES-FSAR-UNIT 3 TABLE 14.2-1 (Cont'd)
l~
  #                \
,\\
s 8
ESES-FSAR-UNIT 3 TABLE 14.2-1 (Cont'd)
Subsection y                             N      Titic N
\\
14.2.12.2.21 '                                   Annulus Negative Pressure And Vacuum Relief Systems 14.2.12.2.22 \                                    Containment Combustible Gas Control System                     ,
8 s
l15 14.2.12.2.23                                     Airborn Ra'dioactivity Removal System 14.2.12.2.24                                     CEDM Coolip System 8
N Titic Subsection y N
14.2.12.2.25                                     Turbine Building Ventilating System 14.2.12.2.26                                     Cable Vault and Switchgear Area HVAC System 12.2.12.2.27                                   i Control Room Envelope'i'.VAC System
14.2.12.2.21 '
                                              ;                    \
Annulus Negative Pressure And Vacuum Relief Systems
14.2.12.2.28               .                    RAB Normal Ventilation and Containment Purge, Systems .
\\
15 N
14.2.12.2.22 Containment Combustible Gas Control System l15 14.2.12.2.23 Airborn Ra'dioactivity Removal System 14.2.12.2.24 CEDM Coolip System 8
s 3
14.2.12.2.25 Turbine Building Ventilating System 14.2.12.2.26 Cable Vault and Switchgear Area HVAC System 12.2.12.2.27 i Control Room Envelope'i'.VAC System
12.2.12.2.29                                     Controlled Ventilation Area System kh' 14.2.12.2.30                                     Chilled Wate'dd.nd Sppi; ::tm Chill:dA
\\
                                                        -Wete         ystem 14.2.12.2.31                                     RAB Miscellaneous HVAC System 14.2.12.2.32                                       Fuel Handling Build (ng Ventilating                 l15 x     Systes 14.2.12.2.33                         \           Primary -hter Storage System 8
14.2.12.2.28 RAB Normal Ventilation and Containment Purge, Systems 15 3
14.2.12.2.34                                       ReactoriCoolant System Quench Tank Subsystem         ,
N s
12.2.12.2.35                                       Pressurizer Pressure And Level Control System                                               l15
12.2.12.2.29 Controlled Ventilation Area System kh' 14.2.12.2.30 Chilled Wate'dd.nd Sppi; ::tm Chill:dA
                                                                                      \
-Wete ystem 14.2.12.2.31 RAB Miscellaneous HVAC System 14.2.12.2.32 Fuel Handling Build (ng Ventilating l15 Systes x
14.2.12.2.36                                       Pressurizer ScfetylV'alve                             8 i-14.2.12.2.37
14.2.12.2.33
                                                    .' g Chemical'AndYVoluse" Control System l15 Charging Subsyntem 8
\\
l 14.2.12.2.38                                       Chasical And Voluse Control System                   l15     l Letdown Subsystem \                                           l h         s                               8     )
Primary -hter Storage System 8
14.2.12.2.39                                       Volume Control Tank Subsystem                             .
14.2.12.2.34 ReactoriCoolant System Quench Tank Subsystem 12.2.12.2.35 Pressurizer Pressure And Level Control System l15
1 I
\\
14.2.12.2.40                                       Boronometer l15 l
14.2.12.2.36 Pressurizer ScfetylV'alve 8
14.2-147                   Amendment No. 15, (2/81)         ,
Y i -
l l
14.2.12.2.37 g Chemical'And Voluse" Control System l15 Charging Subsyntem 8
l
14.2.12.2.38 Chasical And Voluse Control System l15 Letdown Subsystem \\
                ,                                                .-.                      - , . , , - -              -}}
h s
8 14.2.12.2.39 Volume Control Tank Subsystem 14.2.12.2.40 Boronometer l15 l
14.2-147 Amendment No. 15, (2/81) l
-}}

Latest revision as of 10:52, 13 December 2024

Forwards Proposed FSAR Chapter 14 Changes Re Venting of Sys During Hydrostatic Testing & Testing of nonsafety-related Supplementary Chilled Water Sys.Changes Will Be Incorporated in Future FSAR Amend
ML20092P180
Person / Time
Site: Waterford Entergy icon.png
Issue date: 06/29/1984
From: Cook K
LOUISIANA POWER & LIGHT CO.
To: Knighton G
Office of Nuclear Reactor Regulation
References
W3P84-1805, NUDOCS 8407060030
Download: ML20092P180 (5)
v  d  e


Text

,-

Louisiana

,4,om.soNoe s1em, POWER & L1GHT P O BOX 6008

  • NEW ORLEANS. LOUISIANA 70174 * (504) 366 2345 NuS$$rsM June 29, 1984 W3P84-1805 Q-3-A29.22.14 Director of Nuclear Reactor Regulation Attention:

Mr. G.W. Knighton, Chief Licensing Branch No. 3 Division of Licensing U.S. Nuclear Regulatory Commission Washington, D.C. 20555

SUBJECT:

Waterford 3 SES Docket No. 50-382 FSAR Chapter 14

Dear Sir:

Per your request and in an effort to complete LP&L's response for Allegation 28, use of high-point vents in hydrostatic testing, attached are proposed FSAR changes which will be implemented in a future amendment in accordance with 10 CFR 50.71(e) requirements. The changes clarify that venting of systems during hydrostatic testing was performed in accordance with the requirements of ASME Boiler and Pressure Vessel Code,Section III.

Article NC-6211 (Summer, 1981 Addenda).

Also, attached are proposed changes which reflect that testing of the non-safety related Supplementary Chilled Water System may not be completed prior to fuel load (this does not violate any NRC requirements).

If you have any questions please do not hesitate to call.

ry truly, b '. ook \\g 0

K.

Nuclear Support & Licensing Manager KWC/PC/pco Attachment cc:

E.L. Blake, W.M. Stevenson, J.T. Collins, D.M. Crutchfield, J. Wilson, G.L. Constable hO4I 8407060030 840629 PDR ADOCK 05000302 A

PDR y I

WSES-FSAR-UNIT-3 14.2.12.2.90 SECONDARY SYSTEM HYDROSTATIC TEST 15 14.2.12.2.90.1 Objective To hydrostatically test the secondary side of the steam generators and non-isolable piping.

8 14.2.12.2.90.2 Prerequisites A.

The steam generators and main steam piping to the main steam isolation valves are filled, vented, and at the required tem-l15 pe rature.

l 8

B.

Reactor Coolant System (RCS) is filled, vented, and at the l 15 required temperature.

l 9

C.

The reactor coolant pumps are operable.

D.

Test pump is available.

E.

Main steam safety valves are gagged or removed.

F.

Test instrumentation is available and calibrated.

29 G.

Permanently installed instrumentation necessary for testing is 34 operable and calibrated.

^

14.2.12.2.90.3 Test Method A.

Increase RCS pressure to a value that will ensure that the 8

secondary to primary differential pressure does not exceed design value.

B.

Perform the test in accordance with the ASME code.

14.2.12.2.90.4 Acceptance Criteria The Secondary System hydrostatic test meets the requirements of ASME 18 Mc k 'bo-Boiler and Pressure Vessel Code, Section IIIj (bhwg iw p e rler=4*q y

4d ;e. 4c d ton., ricac neu>rd!"3 10 UC -(c u - s%y, gd 14.2-109 Amendment No. 34, (1/84)

WSES-PSAR-UNIT-3 14.2.12.2.91 REACTOR COOLANT SYSTEM HYDROSTATIC TEST l

14.2.12.2.91.1 Objective 8

To verify the integrity of the Reactor Coolant System (RCS) pressure boundary and associated Safety Class I piping.

)

14.2.12.2.91.2 Prerequisites A.

The RCS is filled, vented, and at the required temperature.

B.

The reactor coolant pumps are operable.

O C.

Test pump is available.

D.

Primary safety valves are gagged or removed.

E.

Permanently installed instrumentation necessary for testing is 34 operable and calibrated.

29 F.

Test instrumentation is available and calibrated.

14.2.12.2.91.3 Test Method A.

Operate reactor coolant pumps to sweep gases from the steam generator tubes.

B.

Vent the RCS and all control element drive mechanism housings.

8 C.

Operate the reactor coolant pumos to increase the RCS temperature to that required for pressurization of RCS to test pressure.

D.

Perform the test in accordance with the ASME code.

14.2.12.2.91.4 Acceptance criteria The RCS hydrostatic test meets the requipements of ASME Boiler and Pressure pedc m img O c hydroSInhe 4csl was, done 13 Vessel Code, SectionIIIj(t/cJ in ae co,d lo uc. P1tl-L,a.me,, t%i /}dJ..yk l

lk I

l 14.2-110 Amendment No. 34, (1/64) m,,

WSES-FSAR-UNIT-3 14.2.12.2.30 CHILLFD WATEF -..

.... II.I.E0 ".^.

YSTFMy 15 8

14.2.12.2.30.1 Objective A

To verify the proper operation of the Chilled Water -=d 0 pplementary 15

. Chi-Iled-Wat System 8

14.2.12.2.30.2 Pterequisites 18 A.

Construction activities on the systems to be teated are complete.

B.

Test instrumentation is available and calibrated.

l 29 C.

Plant systems required to support testing are operable, or temporary 15 systems are installed and operable.

i D.

Permanently installed instrumentation is operable and calibrated.

29 14.2.12.2.30.3 Test Method A.

Verify all control logic.

8 B.

Demonstrate that each chilled water trais can be operated from its local and reeote manual station.

C.

Verify that each chilled water unit performs as designed and supplies chilled water at rated flow and teeperature.

l 15 D.

Verify chilled water flow to all supplied components.

l 8

i ra s

! 18

s E.

Verify that the chilled water systems respond automatically to the l

appropriate engineered safety features actuation signal (ESFAS).

l 15 l

8 F.

Verify the proper operation of all protective devices, controls, interlocks, instrumentation, and alarms, using actual or simulated l 15 inputs.

8 14.2.12.2.30.4 Acceptance Criteria The Chilled Water System rf "_;pi:_:;teey-Wetee-System perform 3as 15 described in Subsection 9.2.9.

l f

4 14.2-59 Amendment No. 29, (10/82)

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l~

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ESES-FSAR-UNIT 3 TABLE 14.2-1 (Cont'd)

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8 s

N Titic Subsection y N

14.2.12.2.21 '

Annulus Negative Pressure And Vacuum Relief Systems

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14.2.12.2.22 Containment Combustible Gas Control System l15 14.2.12.2.23 Airborn Ra'dioactivity Removal System 14.2.12.2.24 CEDM Coolip System 8

14.2.12.2.25 Turbine Building Ventilating System 14.2.12.2.26 Cable Vault and Switchgear Area HVAC System 12.2.12.2.27 i Control Room Envelope'i'.VAC System

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14.2.12.2.28 RAB Normal Ventilation and Containment Purge, Systems 15 3

N s

12.2.12.2.29 Controlled Ventilation Area System kh' 14.2.12.2.30 Chilled Wate'dd.nd Sppi; ::tm Chill:dA

-Wete ystem 14.2.12.2.31 RAB Miscellaneous HVAC System 14.2.12.2.32 Fuel Handling Build (ng Ventilating l15 Systes x

14.2.12.2.33

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Primary -hter Storage System 8

14.2.12.2.34 ReactoriCoolant System Quench Tank Subsystem 12.2.12.2.35 Pressurizer Pressure And Level Control System l15

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14.2.12.2.36 Pressurizer ScfetylV'alve 8

Y i -

14.2.12.2.37 g Chemical'And Voluse" Control System l15 Charging Subsyntem 8

14.2.12.2.38 Chasical And Voluse Control System l15 Letdown Subsystem \\

h s

8 14.2.12.2.39 Volume Control Tank Subsystem 14.2.12.2.40 Boronometer l15 l

14.2-147 Amendment No. 15, (2/81) l

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