ML20151T621
ML20151T621 | |
Person / Time | |
---|---|
Site: | Seabrook |
Issue date: | 07/21/1988 |
From: | Rotti T, Whittles K INTERNATIONAL TELEPHONE & TELEGRAPH CORP., NTS (NATIONAL TECHNICAL SYSTEMS) |
To: | |
Shared Package | |
ML20151T547 | List: |
References | |
24843-89N-1, NUDOCS 8808160422 | |
Download: ML20151T621 (91) | |
Text
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Test Report No. 24843-89N-1 Page Nos. __
TEST REPORT FOR ENVIRONMENTAL QUALIFICATION TESTING OF COAXIAL INSTRUMENT CABLES (RG 58)
FOR NEW liAMPSHIRE YANKEE A DIVISION OF PUBLIC SERVICE P.O. BOX 300 SEABROOK, NH 03874 Purchase Order No. 61917 l
Prepared by: _2,aI7IM Date o7lYd# 88 Brimot'h'y J . Rotti, Associate Engineer NTS/Acton 533 Main Street, Acton, MA 01720 Reviewod and Approved by:
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4 / /ad<.v h. Date2/s1/a'002 Ke'ith G. Whittles, Engineering Manager J l NTS/Acton KT/RPT/2484389N.NH1 880816041? 800804 l PDR ADOCK 05000443 P PDC
hf TABLE OF CONTENTS SECTION PAGE NO 1.0 PURPOSE AND ACCEPTANCE CRITERIA 1-1
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 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 12.0 RESULTS AND CONCLUSIONS 12-1 13.0 TEST EQUIPMENT LIST 13-1 14.0 PHOTOGRAPHS 14-1 15.0 LOG SHEETS 15-1 16.0 DATA SHEETS 16-1 l
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Report No.24843-89N-1 ,
1 Page No, i 1
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DM 1.0 PURPOSE AND ACCEPTANCE CRITERB 1.1 Purpose The purpose ~ of this document is to describe the testing which was conducted during environmental qualification testing of ITT Surprenant RG 58 Coaxial Cable supplied by New Hampshire Yankee. Section 2.0 of this report provides specific identification of the subject test specimens.
The intent of the test program is to demonstrate the ability of the coaxial cables to perform satisfactorily during and following exposure to postulated in-service and end-of-life accident environment simulations.
As detailed herein, the cable qualification program was conducted in accordance with the guidelines of IEEE Std. Nos.
323-1974 and 383-1974. The tested environmental conditions reported herein are based on the test sequence, duration and environmental parameters reported in Franklin Research Report No.
F-A5550-8. Per the stipulation of New Hampshire Yankee, the vertical flame test described within Section 2.5 of IEEE 383-1974 was not required for any test specimen.
The subject program was conducted in accordance with the provisions of NTS/Acton's Quality Assurance Manual. This fact ensured compliance with all pertinent provisions of 10CFR, Part 21, 10CFR, Part 50, 49 and 10CFR, Part 50, Appendix B.
Report No.24843-89N-1 Page No. 1-1
1.0 PURPOSE AND ACCEPTANCE CRITERIA (continued)
Ten cable samples were submitted for testing. Six of the ten samples were subjected to aging tests (thermal and radiation aging). The remaining four samples were retained as unaged items to be subjected only to LOCA tests.
The LOCA testing was completed using four aged and four unaged cable specimens. The remaining two aged specimens were set aside as spares prior to LOCA testing. The eight tested specimens were divided into two groups (specimens 1,2,7 and 8 in Group 1 and specimens 4,6,9 and 10 in Group 2). the Group 1 specimens were subjected to only the first fifteen days of,LOCA exposure. The Group 2 specimens continued though the entire thirty day test duration.
This report documents only the testing of the 15-Day LOCA test group. The 30-Day LOCA test group program is documented in NTS/Acton Test Report No. 24843-89N-2, 1.2 Acceptance Criteria l the test specimens were considered to have met the requirements of IEEE STD 383-1974, Section 2.4, if they (a) remained energized with client specified potential and current l during the steam, chemical-spray, and high-humidity exposure, and (b) passed a final bend test at a diameter 40 times the cable diameter and an ac high-potential-withstand test at 80 V per mil Report No.24843-89N-1 Pago No. 1-2
hf 1.0 PURPOSE AND ACCEPTANCE CRITERIA (continued) 1.2 Acceptance Critoria (continued) insulation thickness. It was assumed that the first criterion was met if the total leakage / charging current of the specimens connected to an energizing source for potential did not exceed approximately 1.0 A.
Report No.24843-89N-1 Page No. 1-3
2.0 REFERENCE REGULATIONS AND DOCUMENTS 2.1 New Hampshire Yankee Purchase Order No. 61917.
2.2 IEEE383-1974 Institute of El,ectrical 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 Power Plants and Fuel Reprocessing Plants (1973).
2.5 10CFR21 -
Reporting of Defects and Noncompliance (1977).
2.6 10CFR50.49 -
Environmental Qualification of Electric Equipment Important to Safety for Nuclear Power Plants.
2.7 NEP 160 - Environmental Qualification (EQ) Program.
2.8 Franklin Research Institute Report Number F-A5550-8, dated January 14, 1983 2.9 NTS/Acton Test Procedure No. 24843-89N, Revision 1 2.10 Attachment 1 to NTS/Acton Report Numbers 24843-89N-1 and 24843-89N-2; four LOCA profile thermal chart recordings.
2.11 Attachment 2 to NTS/Acton Report Numbers 24843-89N-1 and 24843-89N-2; Visicorder oscillographic recordings i of test item electrical loading during LOCA. I l
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Report No.24843-89N-1 l Page No. 2-1 l
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3.0 TEST ITEM DESCRIPTION Each cable was inspected upon its receipt at ilTS/Acton to document the pre-test condition of each test item. Each item was tagged with a unique identification number. This number reme.17ed unchanged throughout the test program.
The test specimen description is as follows:
Cable Type RG-58 type coaxial cable with 0.040 inch thick irradiation cross-linked ;
polyethylene insulation and 0.029 l I
inch thick Exane (irradiation cross-linked polyolefin) jackot Manufacturer ITT Surprenant Cable Code: TA6Y (Seabrook Cable Code)
Cable Color: Black w/ Red Tracer Sample Length: Fifty (50) feet No. of Samples: Ten (10) l 1
The test samples were numbered one through ten and were divided into test groups as follows:
- Group No. Aced Unaaed 1 1, 2 7, 8 2 3, 4 9, 10 3(Spares) 5, 6 N/A Report No.24843-89N-1 Page No. 1-1
4.0 TEST SEOUENCE Following receipt and inspection, the cables were subjected to environmental and performance testing in the followir.g sequence:
- 1) Baseline Functional
- 2) Thermal Aging
- 3) Post Thermal Aging Functional
- 4) Irradiation
- 5) Post-Irradiation Functional
- 6) Cable Preparation and LOCA Setup
- 7) LOCA Simulation (First 15 Days)
- 8) Post-15-Day LOCA Functional on Group 1 only l
- 9) LOCA Simulation (Second 15 Days)
I
- 10) Post-30-Day LOCA Functional on Group 2 only ;
Unaged test specimens 7, 8, 9 and 10 were not subjected to l
the thermal aging, post thermal aging functional or radiation aging tests. However, these specimens were subjected te post- l irradiation functional testing because these functional tests were completed after the samples were fixtured in the autoclave prior to the start of the LOCA test sequence.
The scope of this report covers only the testing on Group 1 test items. NTS/Acton Test Report No. 24843-89N-2 covers testing on the Group 2 test itums.
Report No.24843-89N-1 Page No. 4-1
h 5.0 BASELINE FUNCTIONAL Subsequent to receipt and inspection at NTS/Acton, the cables were subjected to Baseline Functional Testing.
The cables were wrapped around steel mandrels having a diameter of approximately twenty times the cable diameter. Each test item was secured to its mandrel via Sager TY25M Tyraps. A minimum cable length of ten feet was in contact with the mandrel surface. The cable ends were trimmed to permit electrical measurements.
S.1 Continuity Check Using an ohmmeter, the conductor and shield of each cable was checked for continuity. The results were recorded on test data sheets (see Section 16.0).
5.2 Insulation Resistance Insulation resistance measurements were made between the 1
center conductor and the shield, and between the shield and j the mandrel. The insulation resistance tests were performed by applying a 500 Vdc potential to the conductor for a 1 minimum of one minute, measuring the insulation resistance, i
and then repeating the test for the shield. The insulation resistance was measured using an I.R. Bridge and the results were recorded on data sheets (see Section 16.0).
Report No.24843-89N-1 Page No. 5-1 l
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l 6.0 THERMAL AGING Subsequent to the Baseline Functional Test, the cables were subjected to thermal aging at a temperature of 3020F for 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br />.. The cables were placed in a forced hot air aging chamber as attached to the mandrels. Test Sample Nos. 1, 2, 3, 4, 5 and 6 were in the aging oven during the aging process. Samples 7 through 10 were retained as unaged samples and subjected only to baseline and post-irradiation (pre-LOCA) functional tests and the LOCA tests. ,
Aging temperature was recorded continuously on a strip chart recorder.
The thermal aging parameters were based on the following information provided by New Hampshire Yankee:
Design Conductor Temp.= 167 F (75oC)
Weak-Link Material = Irradiation Cross-linked Polyethylene Activation Energy = 1.26eV (1500C)
Aging Temperature = 3020F Aging Time = 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> Qualified Life = 40 years The listed design conductor temperature, activation energy, aging time and temperature specified are based on existing qualification data provided by the manufacturer for the identical cable insulation and jacketing materials tested in Reference 2.8.
Report No.24843-89N-1 Page No. 1-1
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7.0 POST THERMAL AGING FUNCTIONAL Following completion of thermal aging testing, the test cables were removed from the aging chamber. The samples were observed to be not as pliable as they were prior to the aging process and they were slightly discolored (darkened). the cable jacket showed no visible signs of cracking and the cable code, manufacuter's name, model number and rating and red tracer were clearly readable.
The samples were subjected to identical functional tests as ;
those specified for baseline functional testing, except that the cables and mandrels were submerged in tap water in a 50 gallon plastic drum for a minimum of one hour prior to measuring insulation resistance, and the insulation resistance of the shield was measured between the shield and the water. All results are included on the data sheets in Section 16.0.
A New Hampshire Yankee representative was present at NTS/Acton to witness the post-thermal aging functional test.
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Report No.24843-89H-1 Page No. 7-1
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8.0 RADIATION I i
Subsequent to the post-thermal aging functionals, test 1 samples 1, 2, 3, 4, 5, and 6 were packaged in two cardboard ,
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boxes. They were placed carefully in paper insulation to protect the samples during shipping and handling. The boxes containing the test samples were shipped to Isomedix's radiation facility in Whippany, Ncv Jersey and tested in the sealed boxes.
At Isomedix, the specimens were exposed to a Cobalt-60 gamma field at a minimum dose rate of 0.73 x 106 rads per hour providing a minimum T.I.D. of 2.2 x 108 rads. Halfway through the exposure, the specimens were rotated 180 degrees to insure a more uniform dose.
Dosimetry was performed using Narwell Red Perspex dosimeters, utilizing a Bausch and Lomb Model 1001 Spectrophoto-meter as the rendout instrument, or an equivalent dosimetry system. This system which is calibrated directly with Atomic Energy of Canada, Limited (AECL) is traceable to NBS. A copy of the correlation report is available upon request. Irradiation was conducted at ambient temperature and pressure for the Isomedix facility. A certificate of irradiation is included herein.
Report No.24843-89N-1 Page No. 8-1
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307.7.___ __ 1 SPECIMEN ROT /. TION: TWO WAY.-___N/A FOUR WAY X
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__ DATE OUT: __ 6/9/38 ,
DOSINETRY:
DOSIMETER' TYPE: HARWELL 4034 8%
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. _ . . _ _ - BATCH ^_ _ TOLERANCE - ------
CALIBRATION DATE:3.L9,.[88__,,_,,_,, l READOUT INSTRUMENT: .B.- .&. _L .S..I..E. .C.T. R O.N. 1. I.C. 0._0_1 SERIAL NO. - - - -0715
- _4 _9_3. _N - - - _ _ CALIBRATION DATE: 3/31/88 COMMENTS:- _ .N..o..n.c_ _-- __- _ - - ___ _ ___ _- _- -- -
+ - - - - - - . - _ - _ _ - _ - _ _ _ _ - - -
ATTACHMENTS: - WORMSHEETS , _N /,A . DRAWINGS ,N/A ,
NOTICE OF ANOMOLY d AUTHORIEED SIONATURE: k 14. - _ - l- _ .
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TITLE: General Manager 6-10 88
_-__--___-_----_____ DATE -----_---__.
A ISOMEDIX CNEW JEASEY), INC. * ~ ~
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l 9.0 POST-IRRADIATION FUNCTIONAL l
A New Hampshire Yankee representative was present at NTS/Acton to witness the Post-Irradiation functional and unpacking prior to LOCA simulation. The following observations were made when the specimens were unpacked. The specimens were noticeably stiffer and discolored. The specimens also had semi-permanent bends (the bend radius did not diminich upon removal from the boxes). The bends were not forcibly stra1ghtened until after LOCA testing and just prior to the voltage withstand test, as required by IEEE 383-1974.
Subsequent to completion of the gamma irradiation exposure, the test specimens were subjected to the identical functional tests as those specified for baseline functional testing, except that the cables and mandrels were submerged in tap water in a 50-gallon plastic drum for a minimum of one hour prior to the insulation resistance test,as detailed in Sections 5.0 and 7.0.
Results are on data sheets contained in Section 16.0 of this report.
Report No.24843-89N-1 Page No. 9-1 i -
Y 10.0 LOCA SIMULATION The following test was performed to simulate the postulated LOCA at the end of the cable service life.
10.1 Calibration Run Prior to performing the LOCA test, a calibration run was performed to demonstrate system capebility. The calibration run was performed to the transient conditions.
10.2 Test Fixturina Each cable test specimen was previously wrapped around a steel mandrel whose outside diameter was approximately twenty (20) times that of each test item (Section 5.2).
Four aged specimens and four unaged specimens were placed in the LOCA Chamber. The eight specimens were divided into two groups, each group having two aged and two unaged specimens.
Report tio.24843-89tt-1 Page No. 10-1
h 10.0 LOCA SIMULATION (continued) 10.2 Test Fixturina (continued)
The fixtured test units were placed over horizontal metal rails inside NTS/Acton Test Autoclave No. 1. The loose portions of the cable samples were rested on a horizontal metal perforated plate.
The cable ends were trimmed to permit electrical connection to a terminal strip immediately outside the chamber. The cable specimens were of sufficient length to allow each specimen to be brought through a sealed autoclave penetration (three part alumina epoxy) without need for any special connection within the autoclave. The minimum test specimen length physically located in the autoclave was 30 feet. Monitoring wires were connected to the terminal block at the chamber and then run to a remote monitoring / load setup in the temperature-controlled LOCA control room. The monitoring setup schematic is included in Section 15.0.
Test specimens 1,2,7, and 8 (Group 1) and 3,4,9 and 10 (Group 2) were originally to be fixtured in the autoclave.
i However, specimens 5 and 6 were inadvertently installed i i
instead of specimens 3 and 4, and specimen 5 was damaged during fixturing and replaced by specimen 4.
Report No.24043-89N-1 Page No. 10-2
10.0 LOCA SIMULATION (continued) 10.2 Test Fixturina (continued)
The Inadvertent use of specimens 5 and 6 (designated spares) had no impact on the satisfactory outcome of the test because all of the aged samples (Nos. 1,2,3,4,5 and 6) were equally tested to environmental conditions prior to the LOCA sequence. The original designation of specimens 5 and 6 as spares prior to the start of any testing was purely arbitrary.
Upon the fixturing of all specimens in the autoclave and the preparation of the penetrations, specimen 5 was found to be mangled and its outer jacket, metal shield, insulation and conductor severed where the cable is secured to the mandrel with the tywrap. This mechanical damage was judged to be the result of mishandling during fixturing in the autoclave because the separation of the metal shield and conductor would not be environmentally induced.
Therefore, specimen 5 was removed and replaced by specimen 4.
10.3 Test Condition Monitorina NTS/Acton used three (3) Type "J" 'thermocouples to monitor the LOCA simulation test. One thermocouple (T1) was placed approximately 2" from the steam outlet, one thermocouple (T2) was placed one inch off tne test fixture Report No.24843-89N-1 Page No. J_Q.l
l 10.O LOCA SIMULATION (continued) 10.3 Test Condition Monitorina (continued) on the left hand side near the steam outlet, and one thermocouple (T3) was placed on the right hand cide furthest from the steam outlet approximately one inch off the test fixture.
Autoclave pressure was monitored using a calibrated pressure transducer.
All four chamber monitoring channels were continuously recorded on a Gould thermal strip chart recorder.
10.4 Test Item Loadira The test cable conductors were wired in series and energized with an AC potential of 600V at a test current of 1.0 ampere. The cable shields, mandrel and test vessel were at ground potential. The test circuit was assembled such that the applied potential would be interrupted if the leaking / changing current exceeds approximately 1.0A. This was accomplished by inclusion of an in-line fuse.
10.5 Test Item Monitorina The test items were energized as detailed in Section 10.4 during the LOCA simulation with the following exception:
4 Report 11o.24843-8911-1 Page No. 10-4
10.0 LOCA SIMULATION (continued) 10.5 Test Item Monitorina (continued)
The circuit was de-energized to perform I.R.
measurements as detailed in Sections 5.0 and 7.0, at the following test intervals. (See figure on page 10-7):
- 1) After interconnection of the test specimens and placement of the sample sets on the base fixture, test specimens submerged.
- 2) At a test temperature of 3460F, 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.
9
- 3) At a minimum of once per day during LOCA.
- 4) After LCCA, at ambient conditions, while still fixtured in the autoclave, with the specimens covered with water, voltage drop across the monitoring circuit load was monitored continuously during the test and reccrded on visicorder paper.
10.6 Chemical Spray The test cables were subjected to a chemical-spray exposure in accordance with the profile shown in the following figure.
Fresh chemical spray was used for a minimum of one (1) hour at each dwell at 3460F(1740C); theresiter, the spray solution was recirculated from the pool of solution collected in the bottom of the vessel. The chemical spray consisted of 3000 ppm boron as boric acid, 0.064 molar l
Report 110.24843-89!i-1 Page No. 10-5
10.0 LOCA SIMl[QLTJ.Q!! (continued) 10.6 Chemical Spray (continued) r esdium thiosulfate, and sufficient sodium hydroxide to obtain a pH of 10.5 at room temperature. The spray was ,
applied at a total flow rate of 0.63 gal / min, which was 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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j Report No.24843-89N-1
- Page No. 10-6
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l Report No.24843-89N-1 Page No. 10-7 l
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10.0 LOCA SIMULATION (continued) 10.7 LOCA Simulation The LOCA Simulation consisted of injecting steam into the autoclave to achieve the temperature / pressure profile shown in the figure. Subsequent to achieving the transient condition the chemical condensate submerged NTS/Acton's immersion heater and saturated conditions were maintained by the immersion heater.
All eight spec! mens were subjected to the margin transient and 15 days of the 36-day LOCA test. At the 15 day mark, the LOCA test was interrupted and both groups of specimens were subjected to an immersed insulation resistance test. Group 1 was then removed at;d subjected to a voltage withstand test, as described in Section 11.0. The renaining four samples (Group 2) were then subjected to the remaining 15 days of the 30-day LOCA test.
During the margin transient the in-line fuse blew at
- 3850 seconds into the test; however, no cable failure could be found. The fuse was replaced and blew again at 5000 seconds. Again the fuse was replaced; however, it blew whenever power was applied. Insulation resistance readings I
taken in all semples showed no failures had occurred and therefore, the resolution of this problem centered on the test setup.
Raport No.24843-89N-1 Page No. 10-10
10.0 LOCA SIMULATION (continued) 10.7 LOCA Simulation (continued)
In pursuit of a resolution to the fuse problem, it was noted that the test circuit connections, fuses and resistors, monitoring equipment and IR bridge were all located adjacent to the autoclave in an open area outside of the air conditioned autoclave control room. With outside air temperatures in the order of 100*F and the autoclave operating, the temperature of the sir around the equipment circuitry was estimated to be at least 125'F. It was therefor concluded that fuse problems were heat related and that all equipment would be moved inside the air conditioned control room after the completion of the margin transient.
Once moved into the control room, the fuse never blew during the remainder of the test. Further, the cooling of the IR bridge resultect in stabilized readings.
Report No.24843-89N-1 Page No. 10-11
Y l1.O POST LOCA FUNCTIONALS Post-LOCA functional testing consisted of immersed insulation resistance testing and voltage withstand testing.
These post-LOCA functional tests were conducted on one group of four specimens at the end of the first fifteen days of LOCA test.
The immersed insulation resistance test was also conducted for the second group of four specimens at the end of the first 15 days of the LOCA test. The second group of four specimens was not subjected to the voltage withstand test at this time.
A New Hampshire Yankee representative was present to witness all Post-LOCA activities and specimen handling. ,
Voltaae Withstand Test The cables were removed from the mandrels, straightened and then re-wrapped around mandrels having a diameter of approximately forty times the cable diameter. The cables and mandrels were immersed in tap water and subjected to a voltage withstand test for five (E) minutes at a potential of 80 Vac/ mil (3200 Vac). The leakage current was measured after five (5) minutes of energization and recordeu on a data sheet.
Report No.24843-89N-1 i Page No. 11-1 l k
N 12.0 RESULTS AND CONCLUSIONS Results Comparison of functional test data for the aged samples and unaged samples shows some acceptable decrease in insulation ability due to the thermal aging and irradiation.
Also, during LOCA, some decrease in insulation property was observed, however, the insulative ability of the inner insulation recovered to a point which is actually better than the unaged samples. This characteristic has been demonstrated in other cable test programs.
The mechanical properties of the aged samples were degraded by exposure to the environmental conditions. It should be noted, however, that the aged samples were handled more than the unaged samples and that despite excess handing coupled with insulation embrittlement, the cables performed satisfactorily. Also, the mandrel diameter used during the test program was slightly less than the minimum bend specified by the manufacturer, constituting an overtest of the mechanical properties of the insulation materials.
The cable specimens maintained continuity throughout the test program and demonstrated their ability to carry the specified potential and current continuously throughout the LOCA exposure. The inner insulation of each sample withstood a 80V per mil (3200 Vac) High potential withstand test.
Report No. 24843-89N-1 Page No. .L2-1
bf 13.0 TEST EOUIPMENT LIST l
f Report No. 24838-89N-1 Page No. 13-1 l l
I ll l
TEST EQUIPMENT LIST INVENTORY NUMBER: RE389 ITEM: TEMPERATURE RECORDER i MANUFACTURER: OMEGA MODEL NO. RD250-24 SERIAL NUMBER: EA59A017 RANGE: -100 TO +4000F ACCURACY: 12.50F CALIBRATION DUE: 11/88 INVENTORY NUMBER: CH325 ITEM: HI TEMP. OVEN MANUFACTURER: DUVAL MODEL NO.: N/A SERIAL NUMBER: CH325 RANGE: AMBIENT TO 6000F ACCURACY: 120F CALIBRATION DUE: UWCE INVENTORY NUMBER: ZB327 ITEM: MEGOHMMETER MANUFACTURER: GENERAL RADIO MODEL NO.: 1862C SERIAL NUMBER: 2477 RANGE: 0.5 MEGOHMS TO 2 M MEGOHMS, 100/500 VOLTS ACCURACY: 13%
CALIBRATION DUE: 06/88 INVENTORY NUMBER: PA312 ITEM: HI-POT MANUFACTURER: ASSOCIATED RESEA.RCH MODEL NO.: 404 SERIAL NUMBER: 404570 RANGE: 60 Hz, 0-2.5 KVA ACCURACY: 15%
CALIBRATION DUE: 10/88 INVENTORY NUMBER: ML574 1 ITEM: DIGITAL MULTIMETER MANUFACTURERt FLUKE MODEL NO.: 8840A SERIAL NUMBER: 4382012 RANGE: DC VOLTS: 0-1500 AC VOLTS: 0-750 AC+DC CURRENT: 0-2 AMPS RESISTANCE: 0-20 MEGOHMS ACCURACY: SEE MFGR'S MANUAL
> CALIBRATION DUE: 11/88 Report No. 24838-89N-1 Page No. 13-2
INVENTORY NUMBER: PI391 ITEM: DIGITAL PH METER MANUFACTURER: ORION RESEARCH MODEL NO.: 701A SERIAL NUMBER: A52810 RANGE: 6 TO 8 PH ACCURACY: 1.002 PH, 1.1mV CALIBRATION DUE: 05/09 INVENTORY NUMBER: PI402 ITEM: DIGITAL PRESSURE INDICATOR MANUPACTURER: JAY MODEL NO.: 3502-8 SERIAL NUMBER: 10306 RANGE: 0 TO 150 PSI ACCURACY: 11.0 PSI CALIBRATION DUE: 07/88 INVENTORY NUMBER: PI403 ITEM: DIGITAL PRESSURE INDICATOR MANUFACTURER: JAY MODEL NO.: 3502-8 SERIAL NUMBER: 10307 RANGE: 0 TO 350 PSI ACCURACY: 11.0 PSI CALIBRATION DUE: 07/88 INVENTOnY NUMBER: PI404 ITEM: DIGITAL PRESSURE INDICATOR MANUFACTURER: JAY MODEL NO.: 3502-8 SERIAL NUMBER: 10308 RANGE: 0 TO 150 PSI ACCURACY: 11.0 PSI CALIBRATION DUE: 07/88 INVENTORY NUMBER: PI406 ITEM: PRESSURE GAUGE MANUFACTURER: U.S. GAUGE MODEL NO.: 0-160 SERIAL NUMBER: N/A RANGE: 0 TO 160 PSI ACCURACY: 11.0 PSI CALIBRATION DUE: 07/88 I
Report No. 24838-89N-1 j l
Page No. 13-3
INVENTORY NUMBER: PId15 ITEM: FLOW METER MANUFACTURER: FISHER & PORTER MODEL NO.: 10A1755 SERIAL NUMBER: 8103A1004 RANGE: 0.2 TO 1.9 GPM ACCURACY: 13%
CALIBRATION DUE: 07/88 INVENTORY NUMBER: PI416 ITEM: FLOW METER MANUFACTURER: FISHER & PORTER MODEL NO.: 10A1755 SERIAL NUMBER: 8103A1004 RANGE: 0.2 TO 1.9 GPM ACCURACY: 13%
CALIBRATION DUE: 07/88 INVENTORY NUMBER: PI443 ITEM: PRESSURE TRANSDUCER MANUFACTURER: C.J. ENTERPRISES MODEL NO.: CJDL-4010 SERIAL NUMBER: 1917 RANGE: 0 TO 150 PSI ACCURACY: 12%
CALIBRATION DUE: 07/88 INVENTORY NUMBER: PI449 ITEM: PRESSURE TRANSDUCER MANUFACTURER: VIATRAN MODEL NO.: 218-28 SERIAL NUMBER: 173475 RANGE: 0 TO 200 PSI ACCURACY: 1.5% SPAN CALIBRATION DUE: 07/88 INVENTORY NUMBER: TI326 l ITEM: DIGITAL TEMPERATURE INDICATOR MANUFACTURER: OMEGA MODEL NO.: 199 SERIAL NUMBER: 19843 RANGE: -245 TO +193*F ACCURACY: 11.50F i CALIBRATION DUE: 07/88 1 l
Report No. 24838-89N-1 Page No. 13-4 I
l Y
l TI334 INVENTORY NUMBER:
ITEM: DIGITAL TEMPERATURE INDICATOR MANUFACTURER: OMEGA MODEL NO. 199 SERIAL NUMBER: 19862 RANOE: -245 TO +1990F ACCURACY: 11.5'F CALIBRATION DUE: 07/88 INVENTORY NUMBER: TI352 ITEM: DIGITAL TEKPERATURE INDICATOR MANUFACTURER: OMEGA MODEL NO.: 199 SERIAL NUMBER: 43242 RANGE: -178 TO +1400*F, TYPE "J" 0.1F RESOLUTION ACCURACY: 11.50F CALIBRATION DUE: 07/88 INVENTORY NUMBER: TI375 ITEM: DIGITAL TEMPERATURE INDICATOR MANUFACTURER: OMEGA MODEL NO.: 650JX SERIAL NUMBER: NONE RANGE: -245 TO +19990F ACCURACY: il'F CALIBRATION DUE: 07/88 INVENTORY NUMBER: TP338 ITEM: THERMOCOUPLE PROBE MANUFACTURER: OMEGA MODEL NO. TYPE J SERIAL NUMBER: NONE RANGE: -300 TO 1600 F ACCURACY: 12.20F OR 1.75%
CALIBRATION DUE: 07/88 INVENTORY NUMBER: TP340 ITEM: DUAL THERMOCOUPLE PROBE MANUFACTURER: OMEGA MODEL NO.: TYPE J SERIAL NUMBER: NONE RANGE: -300 TO 16000F ACCURACY: 12.2*F OR t.75%
CALIBRATION DUE: 07/88 I
Report No. 24838-89N-1 i Page No. 13-5 I
- - - - - - m e
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INVENTORY NUMBER: TP342 i ITEM: THERMOCOUPLE PROBE MANUFACTURER: OMEGA MODEL NO.: TYPE J SERIAL NUMBER: NONE l RANGE: -300 TO 16000F ACCURACY: 12.2'F OR 1.75%
CALIBRATION DUE: 07/88 INVENTORY NUMBER: TP343 i ITEM: THERMOCOUPLE PROBE '
MANUFACTURER: OMEGA MODEL NO. TYPE J SERIAL NUMBER: NONE RANGE: -300 TO 16000F ACCURACY: 12.20F OR i.75%
CALIBRATION DUE: 07/88 INVENTORY NUMBER: TP352 ITEM THERMOCOUPLE PROBE MANUFACTURER: OMEGA MODEL NO.: TYPE J SERIAL NUMBER: NONE RANGE: -300 TO 16000F ACCURACY: 12.2*F OR 1.75%
CALIBRATION DUE: 09/88 INVENTORY NUMBER: RENTAL ITEM: TYPE J THERMOCOUPLE AMP MANUFACTURER:
MODEL NO.: TYPE J SERIAL NUMBER: 016139B l RANGE:
ACCURACY: '
CALIBRATION DUE: 03/89 INVENTORY NUMBER: RENTAL ITEM: TYPE J THERMOCOUPLE AMP MANUFACTURER:
MODEL NO.: TYPE J SERIAL NUMBER: 045097B RANGE:
ACCURACY:
CALIBRATION DUE: 03/89 ,
l l
Report No. 24838-89N-1 Page No. 13-6 !
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hf INVENTORY NUNBER: RENTAL '
MODEL NO. !
. SERIAL NUMBER: 1450985 RANGE:
ACCURACY:
CALIBRATION DUE: 03/89 ,
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HallSnst Acton Olvision Technical 533 Main Street Systems Acton, MA 01720 DATA SHEET Job Number #M ~ Date-- 5 '2 8 ' 0 0 Page of Customer Public Service of New Ham.oshire Speelfication IEEE 323. IEEE 383 NTS/Acton Test Procedure 24843-89N Test Sample Coaxial Instrument Cables Model/ Serial Number RG 8iR Test Insulation Resistance Mode of Operation Pandrel Remarks (243F 0
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DATA SHEET J:b Number 8MO43 ~0T N Date_ 4 3o B6 Page of Public Service of New Hampshire IEEE 323, IEEE 383, NTS/Acton Customer Speellication Test Procedure 24843-89N Test Sample Coaxial Instrument Cables ModellSerialNumber RG 58 Test Insulation Resistance Mode of Operation Mandrel Remarks #errarun/< be'e,p /@ C[rstdar. I.R. 0 500 Vdc for 1 minute V / 06
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Date 6 3 o 88 p.g, or , , , _
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