Rev 1 to Test Procedure for Environ Qualification Testing of Coaxial Instrument Cables (RG 58)

ML20151T591
Person / Time
Site:	Seabrook
Issue date:	06/22/1988
From:	Drain B, Whittles J INTERNATIONAL TELEPHONE & TELEGRAPH CORP., NTS (NATIONAL TECHNICAL SYSTEMS)
To:
Shared Package
ML20151T547	List: ML20151T543 ML20151T591 ML20151T621 ML20151T644
References
24843-89N, NUDOCS 8808160415
Download: ML20151T591 (29)
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Test Procedure No. 24843-89N Page Nos. 24 Revision 1, dated 22 June 1988

< . TEST PROCEDURE FOR ENVIRONMENTAL QUALIFICATION TESTING OF COAXIAL INSTRUMENT CABLES (RG 58)

FOR NEW HAMPSHIRE YANKEE A DIVISION OF PUBLIC SERVICE CO. OF N.H.

P.O. BOX 300 SEADROOK, NH 03874 Purchase Order No. 61917 Prepared by: .j . [W ____ Date # 8

,driand. Drain, NEQ Project Engineer /

NTS/Acton 533 Main Street, Acton, MA 01720 ppro e b / Date 9hittles,'E eering Manager

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KT/ PRO /2484389N.NHY l l

l 6808160415 880804 PDR ADOCK 05000443 1 P PDC ,

REVISION RECORD PARA. CHANGES OR REVISION l PAGE APPROVED DATE NUMBER NUMBER NUMBER ADDITIONS BY 0 --------------FIRST ISSUE------------------------

06/21/88 '

cover add: Co. of NH sheet 1-1 1.0 chng: degradation per- Gfs8Y

, .formance to degration &,,/

, of performance /

chngswill not be com-ducted to is not required i

chng: 50,40 to 50.49 I1 f 2-2 2.0 chng: 1973 to 1988 y 'I' and 1977 to 1988 delt 1st clause, 2nd f'g

,g#

sentence, 2nd para.

s3-1 3.0 chng: Implementation i to Instrumentation )

. add: Seabrook cable code, chng: limited DBE to Test Spares )

4-1 4.0 ' add: Functional to step 5 5-1 5.1 ,

chng: Forwarded to, to, provided to ,

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,delt for their evalua 1 l tion and approval Test Report No. 24843-89N i

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REVISION RECORD

' REVISION "

PAGE "

PARA. CHANGES OR APPROVED DATE NUMBER NUMBER NUMBER ADDITIONS BY 0 --------------FIRST ISSUE------------------------ ,

06/21/88 5-1 5.2 addreach test item will be secured....

chng: transmitted to

,/ J ' gh l l provided dcl for evaluation gz

, 6-1 ,6.0 chng: service temp to design conductor temp.

add: Irradiated add:specified by NHY 3 chng: 1.29 to 1.26 j >

l add: design conductor  ;

temp activation energy j chng: was to were g dels t.ie 1.29 ev activation energy... _j {

9-1 9.0 add:A N.H. Yankee representative... -

l 10-1 10.0 add: A 10.2 chng: The four to eight l chngswill be to were previously e i

i add see section 5.1 I delt each test item

l iwill be...

j l add: 4 aged specimens and i  ! !four unaaed...  !

l Test Report No. 24843-89H

E REVISION RECORD REVISION l PAGE PARA. CHANGES OR l APPROVED' DATE NUMBER j NUMBER , NUMBER ADDITIONS BY 0 --------------FIRST ISSUE------------------------  :

ll LO6/21/88 '10-3 10.4 Lchng changing to l

charging 10-3 n10.4 ' adds as shown in fig 10-5. /

! add at approximately...

2 fi' 1 10-4 '10.4 del due to the e duration.... i 1

, i dels circuit l l

l jadd: drop across the monitoring circuit j

j ,

l , load j del 30-day LOCA ,

l l l 10-5 figure chng: to reflect 30 day } 7 l

g test not 100 day tect  ;

t 10-7 '10.7 adde shown in the flg.l

• on page 10-5 l i

I, 11-1 ,11.0 delt subsequent to

.LOCA testing...

add: Post LOCA h

' functional testing shall consist of... -

A-1 dels a I r

del: , and as l

, ,chng all to ALL '

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add: will l i lA-1 to i l add: T.E. List l n , lA- '

, i j i L  !  !  !  !  ! l j Test Report No. 24843-89N i

bf TABLE OF CONTENTS SECTIDH PAGE NO 1.0 PURPOSE l-1 q

2.0 REFERENCES

2-1 3.0 TEST ITEM DESCRIPTION 3-1 4.0 TEST SEQUENCE 4-1 5.0 BASELINE FUNCTIONAL 5-1

+

6.0 THERMAL AGING 6-1 7.0 POST-THERMAL FUNCTIONAL 7-1 f

8-0 RADIATION EXPOSURE 8-1 9.0 POST-IRRADIATION FUNCTIONAL 9-1 10.0 LOCA SIMULATION 10-1 11.0 POST-LOCA FUNCTIONAL 11-1 i -

APPENDIX A - REPRESENTATIVE TEST EQUIPMENT LIST A-1 l l

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Procedure No. 24843-89N '

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i 1.0 PURPOSE The purpose of this document is to describe the procedures which shall be followed during environmental qualification testing of ten (10) ITT Surprenant RG 58 Coaxial Cables supplied by New Hampshire Yankee. Section 3.0 of this procedure provides .

specific identification of the subject test specimens.

The intent of the test program is to evaluate the performance and durability of the coaxial cables during and following exposure to postulated in-service and end-of-life accident environment simulations. Qualificatio:. acceptability of the cables will be dependent on their ability to withstand the specified environmental simulations without loss of physical integrity or degradation of performance capability.

As detailed herein, the cable qualification program shall be conducted in accordance with the guidelines of IEEE Std. Nos.

323-1974 and 383-1974. Per the stipulation of New Hampshire Yankee, the vertical flame test described within Section 2.5 of i

IEEE 383-1974 is not required for any test specimen. l The subject program shall be conducted in accordance with l

j the provisions of NTS/Acton's Quality Assurance Manual. This fact shall ensure compliance with all pertinent provisions of 10CFR, Part 21, 10CFR, Part 50.49 and 10CFR, Part 50, Appendix i

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Procedure No. 24843-89N i

Page No. J-1 l

i 2.0 REFERENCE REGULATIONS AND DOQ,yjgtg 2.1 New Hampshire Yankee Purchase Order No. 61917.

2.2 IEEE383-1974 Institute of Electrical and Electronics Engineers, Standard for Type Test of Class 1E Electric Cables, Field Splices, and Connections for Nuclear Power Generating Stations.

2.3 IEEE323-1974 Institute of Electrical and Electronics Engineers, Standard for Qualifying Class I Electric Equipment for Nuclear Power Generating Stations.

2.4 10CFR50 Appendix B -

Quality Assurance Criteria for Nuclear 'Jower Plants and Fuel Reprocessing Plants (1988). .

2.5 10CFR21 - Reporting of Defects and Noncompliance (1988).

2.6 10CER50.49 -

Environmental Qualification of Electric Equipment Important to Safety for Nuclear Power Plants.

2.7 NEP 160 - Environmental Qualification (EQ) Program.

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Procedure No. 24843-89N l Page No. 2-2  ;

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3.0 TEST ITEM DESCRIPTION Four (4) Coaxial Instrumentation Cables shall be subjected to the environmental and performance tests described in this procedure.

Each cable shall be inspected upon its receipt at NTS/Acton.

to document the pre-test condition of each test item. Each item shall be tagged with a unique identification number. This number will remain unchanged throughout the test program.

The test specimens shall consist of Cable Type: Coaxial Manufacturer ITT Surprenant Cable Code: TA6Y (Seabrook Cable Code) 1 Cable Color: Black w/ Red Tracer Sample Length: Fifty (50) feet No. of Samples: Ten (10)

The test samples will be numbered one through ten and will [

be divided into test groups as follows:

Group No. Aged Unaaed DDE Exposure 1 1, 2 7, 8 30-day LOCA Simulation i 2 3, 4 9, 10 Limited DBE Test (Optional) 3 5, 6 N/A Test Spares Initially, only the Group 1 test specimens will be subjected i to the test sequence described in Section 4.0 of this document.

l The remaining test items will be rese rved for any additional i testing which might be deemed to be required by New Hampshire Yankee.

Proceduro No. 24043-89N Page No. 1-1 i

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l 4.0 TEST ITEM SEOUENCE Following receipt and inspection, the cables shell be j

< l subjected to environmental and performance testing in the  !

j following sequence:

1) Baseline Functional

2) Therrnal Aging

3) Post Thermal Aging Functional

4) Irradiation g

5) Post-Irradiation Functional '

6) Cable Preparation and LOCA Setup

7) LOCA Simulation '

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8) Post-LOCA Functional l i

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Procedure No. 2484,1-89N j j Pace No. 4-1 1

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5.0 BASELIN0 FUNCTIONAL Subsequent to receipt and inspection at NTS/Acton, the cables shall be subjected to Baseline Functional Testing. The results of these tests shall be used as a benchmark for comparison to the results of similar tests at critical points in the test program. This process shall provide a means of monitoring cable performance characteristics in order to identify and qualify any test item deficien:y or verify qualification acceptability.

5.1 Continuity Chen)5 Using an ohmmeter, each conductor and shield of each cable shall be checked for continuity. Results shall be recorded on test data sheets.

Acceptance Criteria The measured values (a total of twenty) shall be recorded on a test data sheet and subsequently provided to New Hampshire Yankee.

5.2 Insulation Resistance The cables shall be wrapped around mandrels having a diameter of approximately twenty times the cable diameter.

Each test item wi11 be secured to its mandrel via Sager TY25M Tyraps. A minimum cable length of ten feet shall contact the mandrel surface. Insulation resistance measurements shall be made between the center conductor and Procedure No. 24843-89N Page No. }-1

5.0 BASE!.INE FUNCTIONAL (continued) 5.2 Insulation Resistance (continued) the shield, and between the shield and the mandrel. The insulation resistance test shall be performed by applying a 500 Vdc potential to one conductor for a minimum of one minute. After the one minute energization, the insulation resistance shall be measured using an I.R. Bridge and the results shall be recorded on data sheets.

A Acceptance Criteria The measured insulation resistance shall be acceptable if it is greater than one megohm. The data shall be provided to Nest Hampshire Yankee.

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l j Procedure No. 24843-89N Page No. 5-2 l l

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6.0 THERMAL AGING  !

Subsequent to the Baseline Functional Test, the cables shall be subjected to thermal aging. The cables shall be placed in a ,

forced hot air aging chamber as attached to the mandrels. Only the test cables and spares (six cables total) shall be in the aging oven during the aging process.

Aging temperature shall be monitored and recorded a minimum of twice daily.

Thermal aging duration is based on the following information

Design Conductor Temp. = 1670F (750C) (specified by NHY)

Weak-Link Material = Irradiated Crosslinked Polyethylene Activation Energy = 1.26eV (1500C) (specified by NHY)

Aging Temperature = 302'F (specified by NHY)

Aging Time = 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> (specified by NHY)

Qualified Life = 40 years The previously listed design conductor temperature, activation energy, aging time and temperature were specified by New Hampshire Yankee, based on existing qualification data provided by the manuf acturer for the identical cable insulation

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and jacketing materials.

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Procedure No. 24843-89N Page No. [u-l

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l 7.0 POST THERMAL AGING FUNCTIONAL A New Hampshire Yankee representative may be present at NTS/Acton to witness the post-thermal aging functional test.

Following completion of thermal aging testing, the test cables shall be subjected to identical functional tests as those specified for baseline functional testing, except that the cables and mandrels shall be submerged in tap water for a minimum of one a

j hour prior to the insulation resistance test.  ;

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j Procedure No. 24843-89N Page No. 7-1

f 8.0 RADIATION Subsequent to the post-thermal aging fianctionals , the test samples will be packaged in two cardboard boxes. 'They will be i

placed carefully in paper insulation to protect the samples during shipping and handling. The box containing the test j samples will be shipped to Isomedix's radiation facility _ in Whippany, New Jersey and tested in the sealed box.

At Isomedix, the specimens will be exposed to a Cobalt-60 gamma field at a dose rate not to exceed 1.0 x 106 rads per hour providing a T.I.D. of 2 x 108 rads +10% (2.2 x 108 rads).

Halfway through the exposure, the specimens will be rotated 180 degrees to insure a more uniform dose.  ;

Dosimetry will be performed using Harwell Red Perspex dosimeters, utilizing a Bausch and Lomb Model 70 Spectrophoto- l

meter as the readout instrument, or an equivalent dosimetry j i '

i system. This system which is calibrated directly with Atomic 3

Energy of Canada, Limited (AECL) is traceable to NBS. A copy of l

the correlation report will be available upon request. 1 1

! Irradiation will be conducted at ambient temperature and pressure ]

J l for the Isomedix facility.

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I Procedure No. 24843-89N Page No. 3-1 l l i

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4 9.0 POST-IRRADIATION FUNCTIONAL l

A New Hampshire Yankee representative may be present at tits /Acton to witness the Post-Irradiation funtional and unpacking prior to LOCA simulation.

Subsequent to completion of the gamma irradiation exposure, the tast specimens will be subjected to the identical functional tests cs those specified for baseline functional testing, except that the cables and mandrels shall be submerged in tap water for a-minimum of one hour prior to the insulation resistance test.

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i Procedure No. 24843-82H l

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l 10.0 LOCA SIMULATION -

The following test vill be performed to simulate the postulated LOCA at the end of the cable rervice life.

10.1 Calibration Run ,

Prior to performing the LOCA test, a calibration run will be performed to demonstrcte systen capability. The calibration run will be performed 'to the transient conditions. A New Hampshire Yankee representative may be present to witness the calibration tun, if desired. ,

10.2 Test Fixturina Eight cable test specimens, each approximately ten feet in length, were previously wrapped around a steel mandrel whose outside diameter is approximately twenty (20) times that of each test item (see Section 5.1).

Four aged specimens and four unaged specimens shall be placed in the LOCA Chamber. The eight specimens shall be divided into two groups, each group having 2 aged and 2

] unaged specimens. Both groups shall be subjected to the margin transient and 15 days of the 30 day LOCA test. At the 15 day mark, at New Hampshire Yankee's option, the LOCA test shall be interrupted and both groups of specimens shall be subjected to continuity and an immereed Insulation J

resistance test. One group shall then be removed and subjected to a voltage withstand test, as described in l Procedure No. 24843-89N Page No. 10-1

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r 10.0 LOCA SIMULATION (continued)

I 10.2 TREA Fixturina section 11.0. The remaining four samples shall then be subjected to the remainder of the 30 day LOCA test.

The fixtured test unite will then be 91 aced onto a horizontal metal base inside NTS/Acton Test Autoclave No. 1.

> The cable ends will be trimmed to permit elwetrical measurements from outside the test autoclave. The cable i ,

specimens will be of suffi'clent length to allow each ,

3 specimen to be brought through a sealed autoclave  ;

l penetration without need for any special connection within ,

the autoclave. The minimum test specimen length physically  ;

located in the autoclave shall be 30 feet. l i

L 10.3 Test Condition Monitorina  ;

l NTS/Acton will use three (3) Type "J" thermocouples to  ;

l monitor the LOCA simulation test. One thermocouple (T 1) l will be placed approximately 2" from the steam outlet, one thermocouple (T2) will be placed one inch off the test fixture on the left hand side near the steam outlet, and one thermocouple (T3 ) will be placed on the right hand side i

furthest from the steam outlet approximately one inch of f j the test fixture.

Autoclave pressure will be monitored using a calibrated

pressure transducer.

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Procedure No. 24843-89N 1

Page No. 10-2 4

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- - - - . . ..,e..- -. , - . , ,-- ,,., , ,.,-,...-c ,-.,-.nn--en., , - ~ , . , , , . .--,w, ,,,m,m- , - , , -- - ,-

i 10.0 LCCA SIMULATION (continued) 10.3 Test Condition Monitorina The environmental test conditions will be monitored during the LOCA simulation using a Gould Strip Chart Recording System (or equivalent instrument).

10.4 Test Item Loadina Each test cable conductor will be energized with an AC potential of 600V at a test current of 1.0 amperes per conductor. The cable shields, mandrel and test vessel will 1

be at ground potential. The test circuit will be designed ,

such that the applied potential will be interrupted if the leaking / charging current exceeds approximately 1.0A. i 10.5 Test Iten Monitorina l The test items will be energized as detailed in Section l

l 10.4 during the LOCA simulation with the following exception:

The circuit will be de-energized to perform I.R.

measurements as detailed in Section 5.0 of this procedure at )

the following test intervals, ac shown in the figure on page 10-5:

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1) After interconnection of the test specimens and ,

placement of the sample sets on the base fixture, test l specimens submerged. -

2) At the test temperature of 345'F, as time permits, at approximately the 1.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> mark.

j Procedure No. 24843-89N l j

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_ _______ _ _- - ____ __-__ _ ____-_- - __- _ ____ _____- _ __-_ - ____ _ _ __ a

Y 10.0 LOCA SIMULATION (continued) 10.5 Test Item Monitorina (continued)

3) At a minimum of once per day during LOCA. If the IR reading monitored drops below 1 megohm, the recover / of the IR reading to megohn will be determined as a function of temperature by more frequent monitoring of readings within this period.

4) After LOCA, at ambient conditions, while still fixture in the autoclave, with the specimens covered with water.

Voltage drop across the monitoring circuit load will be j monitored continuously during the test.

If failure occurs during the LOCA test, the failed test sample (s) will be identified utilizing the insulation resistance measurements described in this section of this procedure. Subsequent to isolating the failed sample (s), it t will be jumpered out and the test circuit reenergized. This action would be a contingency plan allowing NTS/Acton to '

address failure if failure occurs. New Hampshire Yankee will be notified as soon as possible if failure occurs.

10.6 Chemical Sorav The test cables will be subjected to a chemical-spray exposure based on the profile specified.  !

Fresh chemical spray will be used for a minimum of one

! (1) hour at each dwell at 3460F(1740C); thereafter, the spray solution will be recirculated from the pool of solution collected in the bottom of the vessel. The  !

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Procedure No. 24843-89N Page No.10d

346'F(174* C)/113t'e s/:n 2 (779tp3) 390'F(199'C)/113 tbs /:n 2 (779kPa)

• 346*T(174*C)/113tb s/;n 2 (779tPa) h *:NSULAT:CN I3 AyCh 199 --

390- M i g 335'F(168'C)/ 95 tbs /tn 2 (655kPa) p 317'r(158'C)/7:lesr/;n (4eskPa) 37, 3,3 O 158 9 t@ 260'F(136'C)/35Ec s /:n 2 (24kPa) v 9317 v

v 2 138 a '

$ 200 230'r(n0 C)/1:ces/;n 2(69aP g g

!- MO ! !R$$j '

230 TO i (60'C)  ! - het.R CNCE DAY

,2 EMICAL _ CSEMICAL i HUMID SPRAY SPRAY CONDITICNS 1 2.25 10.2 5 60 140 DAYS CAYS ,

0 12 MIN 3 FR 0 12 MIN 3 4R 5 24 51 246 FR 30 OAYS RESET TIMER

= alt. PRESSURES ARE

-FRETEST TCMP GAgg pgEstgggS ELAPSED TIME Procedure lio. 24043-89t1 Page tio. 10-5

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10.0 LOCA_SINULATION (continued) l 10.6 Chemical Soray (continued) chemical spray will consist of 3000 ppm boron as boric acid,-

l 0.064 molar sodium thiosulfate, and' sufficient sodium f

hydroxide to obtain a pH of 10.5 at room temperature. The spray shall be applied at a total flow rate of 0.63 gal / min, l which is calculated to provide a spray intensity of approximately 0.15 (gal / min)/ft 2 over the cylindrical area of the mandrels.

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l Frocedure No. 24843-89N ,

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10.0 LOCA SIMULATION (continued) [

10.7 M)CA Simulation i The LOCA Simulation will consist of injecting saturated .

steam into the autoclave to achieve the temperature / pressure profile shown in the figure on page 10-5. Due to the length of the fixture, and autoclave volume, Acton anticipates varying temperatures internal to the autoclave during transient conditions Therefore, thermocouple placement has j been designed to demonsttete a general test condition envelope. Subsequent to achieving the transient condition the chemical condensate will submerge NTS/Acton's immersion heeter and saturated conditions will be maintained by the [

immorsion heater. At the conclusion of the LOCA test, at [

s ambient conditions, photographs will be taken of the test  :

samples.

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Procedure No. 24843-89N '

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i 11.0 POST-LOCA FUNCTIONALS l Post-LOCA functional testing shall consist of continuity checks, and immersed insulation resistance testing and voltage 1

withstand testing. These post-LOCA functional tests shall be  ;

conducted on one group of four specimens at the end of the first 2

fifteen days of the LOCA test. The continuity checks and  ;

immersed insulation resistance test shall alse be conducted for  :

. i the second group of four specimens at the end of ^he first 15 .

I days of the LOCA test. The second group of four specimens shall ,

not be subjected to the voltage withstand test at this time.  ;

1 i At the conclusion of the complete 30-day LOCA test the >

l second group of four specimens shall be subjected to continuity t

checks and immersed insulation resistance test while still i

fixture in the sealed chamber. Following these two tests, the i chamber shall be drained and opened and the specimens shall be  !

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j visually inspected for damage or deterioration. The specimens  !

i shall then be subjected to the voltage withstand test.

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A New Hampshire Yankee representative may be present to  !

witness all Post-LOCA activities and specimen handling.  !

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! Acceptance Criteria l 1 1 The results of the post-LOCA functional tests will be forwarded to New Hampshire Yankee for their review and evaluation.

I i I Procedure No. 24841-89N  !

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i 11.0 POST-LOCA FUNCTIOttAL_S i

g Voltaae Withstand Teat 1

The cables will be atraightened and then re-wrapped around  ;

i mandrels having a diameter of approximately forty timas the cable diameter. The cables and mandrels will be immersed in tap water l for a minimum of one hour and subjected r- a. voltage withstand s test for five (5) minutes at a potentiu1 of 80 Vac/ mil. The ,

leakage current shall be measured after five (5) minutes of }

energization. ,

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Procedure No. 24841-89N I

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Y APPENDIX A - REPRESENTATIVE TEST EOUIPMENT LIST The following equipment is representative of the test equipment to be used during this test program. Acton .

may use substitutions for test equipment, but the replacement equipment will have accuracies equal to or better than those listed in this Appendix. All calibrated test monitoring equipment used in this project will have certification traceable to the NBS.

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Procedure No. 24843-89N l

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l TEST EQUIPMENT LIST Test Report #

Page NAME MFR. MODEL SER.NO. RANGE ACCURACY il_NV. # CP 9 ATE ,

LCD Digital NTS/ CAL-S '

T i.,e r OKP01 Acton To 9hr/59 min /59sec lsec/ day FM322 Digital Fluke 8502-03 2215048 Multimeter 100 MV to 1000 VDC .003% MLS45 100 Micro ohms to 1 A OC o Digital Fluke 8050A 2876259 Multimeter 10 U to 1000 VDC t.03% DC MLS46 10mV to 750 VAC, true rms + 2 digits 0 to 20 megohm, res dB volt.

Precision Omega CL-505 Calibrator 85014-0740 Type J,K,T ,E ,R,S ,B, THRM0 See Mfr MLS64 CPLE SMLTR 100 RTO specs MEAS )1 10V output: 0.5 ma ,

00TPUT,.0-130 ma input 0 to 1 10V input Voltage Reference lleathsen E016 674?265 Source 0 - 100 VDC 4 ranges + 3% POSO4 Power Supply Sorensen QRS30-1 1549 0-30 VDC, 0-1 amp .03% PD320 Digital PH Meter Orion 701A A52810 6 to 8 pH Research ~

+ .002 ph P0391 Digital Pressure 1 1 mv Jay 3502-8 10307 Indicator 0 to 350 psi 11.0 psi PI403 Flow Gauge Fisher A 10A1755 8103Al- 0.2 to 1.9 GPM Porter 004A1 ~+ 3% PI416 Pressure Wiancko PP2-3239-1 Transducer 0 to 350 psi l

1 2% PI417 i Heavy Duty OllAUS 20KG-45 lb Solution Balance 1 Gm to 20 KGms

• e i gram PP395

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4 TEST EQUIPMENT LIST Test Report #

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j Page NAME MFR. MODEL SER.NO. RANGE INV.#

ACCUR AC_Y_ __ CAL DATE Pressure Gauge US Gauge 1903 N/A 0 to 400 PSIG + .5% span P1456 f Pressure Omega PS906- 150164 0 to 500 psig 1.4% P1496 Transducer 500GV Digital -245* F to 1999*F Omega 199 19843 tl.S*F fl326 Temp. Indicator Fluidized Bath Teche FB-07 1063-18 100 to 600C 1."F fl336 212 to 1112 F Digital Temp. CMEGA 650JX None ~245*F to 1999*F- + 1*F Il358'

~

Indicator

, Digital Tempera- Omega 650JX None -245 to 1999*F il.0*F II359 ture Indicator Mercury Ertco ASTMllC 45800 0 to 400 C + 1*C TI364 Thermometer Digital Temp. Omega 650 JX None -245 to 1999*F tl*F TI3/5 Indicator TC Temp. Omega 650 JX None -245 to 1999*F tl*F TI3/6 Indicator Thermocouple Omega Type J N/A -300 to 1600*F +2.2 C TP324 Probe or +.75%

4 Thermocouple Omega Type J N/A. -300 to 1600*F + 2.2*C TP334 .;

Probe or + .75% '

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l IEST EQUIPMENT LIST Test Report #

Page __

NAME 11FR . MODEL SER.NO. RANGE ACCURACY INV.# CAL.DATE i

i Thermocouple Omega Type J N/A -300 to 1600*F 2.2*C TP336 j Probe or t.75%

whichever is greater Thermocouple Omega Type J N/A -300 to 1600*F .12.2 C TP337 Probe or.t.75%

whichever

is greater Dual Thermocouple Omega Type J None -300 to 1600 F t2.2*C TP341 4 Probe -

t.75%

I Thermocouple Omega, Type J None -300 to 1600 F Probe + 2.2[ C TP343'

+ .75%

i Thermocouple Omega Type J N/A -300 to 1600 F 12.2 C TP344 Probe or t.75%

Dual Omega Type J N/A -300 to 1600*F + 2.2 C or TP348 Thermocouple ~ .75%

Dual Omega Type J N/A -300 to 1600*F Thermocouple ,

+ 2.2*C or .TP349

~ .75%

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