ML20217M642
| ML20217M642 | |
| Person / Time | |
|---|---|
| Site: | San Onofre  |
| Issue date: | 01/12/1996 |
| From: | Greene B, Trotta K SOUTHERN CALIFORNIA EDISON CO. |
| To: | |
| Shared Package | |
| ML20217M648 | List: |
| References | |
| CAP-96125, NUDOCS 9708250126 | |
| Download: ML20217M642 (24) | |
Text
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LOCA Simulation Conxici Ccblo Pego 1 of 19 Toot Monitoring Procedure fh Southern California Edison Company San onofre Nuclear Generating Station Units 2&3 i
Coaxial Cable LOCA Simulation Procedure for Monitoring Test Specimen Electrical Parameters Prepared By
=- M Date ///2/f4 Bob Gree N
C yA L-d Ked Trotta Date ///2/f/
Reviewed By:
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LOCA Simulction Coaxici Cablo Page 2 of 19 Test Monitoring Procedure l
TABLE OF CONTENTS SECTION TITLE PAGE
1.0 INTRODUCTION
3 2.0 SCOPE / PURPOSE 3
3.0 TEST EQUIPMENT 3
4.0 REFERENCES
1 5.0 ACCEPTANCE CRITERIA 4
6.0 PROCEDURE 5
LIST OF TABLES TABLE TITLE PAGE 1
TEST SPECIMEN IDENTIFICATION 9
2 PRE LOCA FUNCTIONAL TESTS 10 3
POST LOCA FUNCTIONAL TESTS (POST TRANSIENT) 11 4
POST LOCA FUNCTIONAL TESTS (132.6F CHAMBER TEMP) 12 5
POST LOCA FUNCTIONAL TESTS (MANDREL AND CONDUIT) 13 6
POST LOCA FUNCTIONAL TESTS (SHORT PENETRATION) 14 7
POST LOCA FUNCTIONAL TESTS (LONG PENETRATION) 15 8
POST LOCA FUNCTIONAL TESTS (CONDUIT PENETRATION) 16 LIST OF FIGURES 1
FIGURE TITLE PAGE 1
ELECTRICAL TEST SCHEMATIC 17 2
ASTROMED CONNECTION DIAGRAM 18 3
LOCATION OF TEST SPECIMENS 19 l
LIST OF ATTACHMENTS ATTACHMENT TITLE 1
POST LOCA SIMULATION VISUAL INSPECTION NOTES (5 PAGES) 2 TRACE OF TEST SPECIMEN, SIGNALS vs TIME (98 PAGES)
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I LOCA Simulation Coaxial cable Page 3 of 19 Test Monitoring Frocedure i
j
1.0 INTRODUCTION
l 4
This procedure establishes the requirements and instructions for
+
measuring the performance of the coaxini cable test specimens 3
before, during, and after simulated LOCA environmental
{
conditions.
The simulated LOCA conditions are identified in the WYLE Laboratories Test Procedure 45145 (Reference 1).
1 a
2.0 SCOPE / PURPOSE i;
The scope of this test measuring procedure is limited to the Southern Californie Edison supplied coaxial cable test specimens as identified in Tab:e 1.
The purpose of this procedure is to document the test specimen monitoring of "noisa" affects occurring during simulated LOCA pressure, temperature and chemical spray conditienn.
2.1 Continuity and Static Insulation Resistance Verification Continuity and insulation resistance (IR) between the test specimen center conductor and shield must be verified prior to and following the end of LOCA simulation.
Additional IR data may be taken as required.
This test will be performed using a megger with suitable test leads.
Test data shall be recorded in Tables 2 through 8.
i 2.2 Dynamic Cable Performance
(
The purpose of this test is to identify and quantify any LOCA i
simulation induced " noise" on the individual coaxial cable test specimens.
This cable noise may be from piezoelectric,
)'
triboelectric, or any other effects.
Figure i shows schematically the test specimen and measuring equipment j
configurations.
Coaxial cable current levels during LOCA simulation will bc monitored and recorded as described in Section 6.2.
4 3.0 TEST EQUIPMENT i
all test measuring equipment used in this procedure.is calibrated i
in accordance'with the Wyle Laboratories Quality AssuJance i
Program and is identified in the Wyle Test Report (Reference 2).
3.1 Static Insulation Resistance Test (1)
Eight test specimens with BNC connectore on each end.
(1)
Megger, 500V 3.2 Dynamic Cable Performance Test (1)
Eight test specimen 9 with BNC connectors on each l'
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LnCA simulation coaxici Ceblo Pago 4 of 19 Test Monitoring Procedure end.
(7) Keithly 610C or 610CR recorders (1)
Astromed MT95K2 Mainframe including the following subcomponents:
(3) AWP1 analog input cards (1) AWP3 thermocouple lead plus 4 thermocouple plugs type J 1
(1) V0P1 video module (1) SVGA compatible video monitor 1
(1) Keithly 263 for testing 610C (equipped with triax to coax adapters)
(3)
"D" submini with BNC female connectors (7) PL-259 connectors for 610C input (7) Cables to go from Keithly 610C to Astromed recorder (1) Pack of 400 sheet Z fold paper for Astromed (1) configuration disk for Astromed recorder
4.0 REFERENCES
1 4.1 WYLE Laboratories Test Procedure 45145, " Test Procedure for LOCA Simulation of Coaxial Cable for Southern California Edison" Dated December 8, 1995.
4.2 WYLE Laboratories Test Report 45145-1, " Test Report for LOCA Simulation of Coaxial Cable for Southern California Edison" Dated u 1)
ACCEPTANCE CRITERIA 5.1 Continuity and Static Insulation Resistance Test Pre and Post LOCA coaxial cable test specimens must have continuity and a minimum signal to shield resistance of IE8 ohms.
5.2 Dynamic Cable Performance Test As discussed in Section 2.1, the purpose of this test is to identify and quantify any noise induced on the test specimens by the simulated LOCA environmental conditions.
This information will be used in some future, separate evaluation outside the scope of this test measuring procedure.
Therefore, there is no specific acceptance criteria for the dynamic cable performance test.
LOCA Simulation Coaxial Cable Page 5 of 19 Test Monitoring Procedure 1
6.0 PROCEDURE 6.1 Pro LOCA Continuity and Static Insulation Resistance 4
Test Prior to exposure to the simulated LOCA environmental conditions, the following steps shall be performed on each test specimen.
6.1.1 Connect the megger to the test specimen using the megger test lead.
6.1.2 Verify continuity.
Apply megger voltage (500V)and derive insulation resistance.
Record under " Pretest Value" in the applicable Table.
Verify the resistance reading is g. eater than the acceptance criteria and indicate pass "P" or fail "F."
6.1.3 Turn megger off and disconnect test specimen.
6.2 Dynamic Cable Performance Test 6.2.1 Preliminary Checks.
Ensure test cables on the outside of chamber are wrapped with thtrmal insulating material.
Ensure thermocouples are affixed per Figure 1.
Ensure thermocouple field wires are installed and coming out of the penetrations per drawing.
Ensure test equipment is present as per Section 3.2 6.2.2 Setting up and configuring the Astromed iu:. order.
Set up and checkouts:
Install all cards in required position in back of recorder.
See Figure 2.
6.2.3 Install connectors on analog module cards (AWP1).
6.2.4 Install cables from Keithly 610C into appropriate channels on AWP1 amplifier per drawing.
Tape each BNC with scotch 33 tape.
6.2.5 Install thermocouple wires to AWP3 thermocouple amplifier.
There will be a total of four inputs for thermocouple per Figure 2.
6.2.6 Connect Astromed recorder to a power source.
6.2.7 Turn Astromed to the ON position (1).
6.2.8 Set recorder internal date and time by performing the following.
6.2.8.1 Depress the front panel SYS key.
_m LOCA Simulation Co2xial Ceblo Pago 6 of 19 Test Monitoring Procedure 6.2.8.2 Depress the soft key above SYSTEM CLOCK.
6.2.8.3 Use selection arrows to select each component date and time.
6.2.8.4 Depress EXIT 6.2.9 Downloading of the configuration program.
6.2.9.1 Insert the disk labeled Wyle Labs Cable tecting Astromed setup in disk drive.
6.2.9.2 Press the MODE key 6.2.9.3 Press the soft key above FROM DISK 6.2.9.4 Use the encoder wheel to select file you want to download.
6.2.9.5 Press the soft key above RUN.
This should download the entire recorder configuration and labels.
6.2.9.6 Depress SAVE.
6.2.9.7 Depress the soft key above ENTIRE MODE in the left display.
6.2.9.8 Use INC or DEC to select one of four soft keys into which the mode will be saved.
6.2.9.9 Use the keypad to type a label for the grid.
6.2.9.10 Press the soft key above ACCEPT to store the chart into the selected soft key.
This will be displayed whenever the MODE key is depressed.
NOTE:
If any labels need to be changes depress EDIT and edit buffers 1-9 as required.
6.2.10 To activate recorder to begin recording 6.2.10.1 Ensure that inputs are approximately in the middle of each chart and that the temperature channels are reading approximately ambient.
If not, the zero suppression may need to be used to center the channel.
6.2.10.2 Ensure there is enough paper in the recorder to last the duration of the test to be performed.
This can be done by checking the printed number on the peper.
The paper goes from 400 downward to 1.
The lower the number, the less paper you have.
6.2.10.3 Verify chart speed is correct for application.
6.2.10.4 Start recording by depressing the RUN/ HALT button.
LOCA Simuletion Cocxici Cablo Pago 7 of 19 Toot Monitoring Procedure 6.2.11 Stopping the recorder.
6.2.11.1 Depress the RUN/ HALT button 6.2.11.2 Remove, label and store the trace, l
6.2.12 Setting up and configuring the Keithly 610C Electrometer (set up and checkouts).
6.2.12.1 Set METER SWITCH to POWER OFF 6.2.12.2 Lock ZERO CHECK 6.2.12.3 Set range switch to VOLTS and MULTIPLIER SWITCH to 1.0 6.2.12.4 Turn meter switch to CENTER ZERO.
Meter should read the center zero.
If not, adjust as required.
6.2.13 Current Measurement 6.2.13.1 Install Keithly 263 to input.
6.2.13.2 Ensure FEEDBACK switch is set to FAST.
6.2.13.3 Place MULTIPLIER SWITCH to the 1
position.
6.2.13.4 Place the RANGE SWITCH to the X10-9 position.
6.2.13.5 Hook up recorder leads to back of Keithly to provide output to the Astromed.
6.2.'.3.6 Place meter switch to CENTER ZERO position.
6.2.13.7 Unlock the zero check lock.
6.2.13.8 Ensure that both Astromed and Keithly reopend to input signals.
Run through the listed range of -5E-10 to
+5E-10 amps.
If required, edit buffers to reflect true range of the testing being done on cable.
6.2.13.9 Disconnect Keithly 263.
6.2.13.10 Hook test specimen inpat cable to front input connection.
6.2.14 Testing procedure checklist.
6.2.14.1 Ensure all cables are connected to test equipment.
This includes verifying that cables are installed per Figure 1.
6.2.14.1.1 Test cable to Keithly 610.
6.2.14.1.2 Keithly 610 recorder output to Astromed.
LOCA Simulation Conxial cablo Pago 8 of 19 Test Monitoring Procedure 6.2.14.1.3 Thermocouple to Astromed AWP3 module.
6.2.14.2 Ensure all test equipment is powered up, functional and cn the correct range.
6.2.14.2.1 Astromed 6.2.14.2.2 Keithly 610C 6.2.14.3 Ensure the Astromed recorder is selected to desired chart speed for testing.
For the first 60 seconds or so, set recorder speed to 50 mm/sec.
6.2.14.4 Start the Astromed recorder.
6.2.14.5 Start steam testing.
6.2.14.6 Adjust Keithly range as necessary to avoid bottoming out on Astromed recorder.
Annotate recorder with any range changes.
6.2.14.7 After readings stabilize somewhat, reduce chart speed to 1 n.a/sec for balance of test.
6.3 Post LOCA Continuity and Static Insulation Resistance Test Following exposure to the simulated LOCA environmental conditions, the following steps shall be performed on each test specimen.
6.3.1 Connect the megger to the test specimen using the megger test lead.
6.3.2 Verify continuity 6.3.3 Apply megger voltage 500VDC) and derive insulation resistance.
Recorded under " Pretest Value" in the appropriate Table.
Verify the resistance reading is greater than the acceptance criteria and indicate par "P" or fail "F."
6.3.4 Turn megger off and disconnect test specimen.
I
,.c._.
LOC \\ Simulation Coaxial Cablo Pego 9 of 19 Test Monitoring Procedure TABLE 1 TEST SPECIMEN DESCRIPTIONS SPECIMEN DESCRIPTION NUMBER 1
30' Rockbestos RSS-6-105/LE coaxial cable in conduit fixture.
2 90' Rockbestos RSS-6-105/LE coaxial cable 3
250' Rockbestos RSS-6-105/LE coaxial cable 4
90' Rockbestos RSS-6-104/LE coaxial cable 5
196' Rockbestos RSS-6-104/LE coaxial cable 6
90' BrandRex CS 75146 coaxial cable 7
250' BrandRex C6 75146 coaxial cable 8
20' Rockbestos RSS-6-105/LE coaxial cable Item 1 is installed in the conduit fixture such that 25' is installed inside the conduit.
Flexible conduit is used to connect the test fixture junction box to the test chamber penetration.
The conduit fixture contains drain holes at all low points.
Items 2,3,4,5,6 and 7 are marked with tape 20' from one end and 5' from the other.
These cables were wrapped around the test mandrel are were installed in the test chamber such that the 20' and 5' marks are aligned with the inside edge of the test chamber penetration ports to ensure that a known amount of cable is exposed to the test chamber environment.
Item 8 is wrapped around the mandrel, with both end inside the chamber.
This specimen is used to monitor cable surface and center conductor temperature only.
All cables outside the chamber are thermally insulated such that they are not appreciably affected by ambient temperature changes outside the chamber during testing.
LOCA Simulction CoOxial Cablo Pego 10 of 19 Test Monitoring Procedure 1
TABLE 2
{
PRE-LOCA TEST CONTINUITY AND STATIC INSULATION RESISTANCE TEST
'p eimen Time /Date Continuity Resistance Acceptance (Y/N) 0500 VDC Criteria P/F Number 1
4PM Y
8.4E11
>10' Ohms P
12/12/95 2
4PM Y
1.5E12
>10' Ohms P
12/12/95 3
4PM Y
1.4E12
>10' Ohms P
12/12/95 4
4PM Y
3.OE13
>10' Ohms P
12/12/95 5
4PM Y
1.1E12
>10' Ohms P
12/12/95 6
4PM Y
1.OE12
>10' Ohms P
12/12/95 7
4PM Y
6.4E11
>10' Ohms P
12/12/95 8
Note 1 N/A N/A N/A N/A Notes:
1.
This test specimen is the 20" of Rockbestos RSS-6-105/LE used to monitor cable surface and center conductor temperature only.
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LOCA FAmulation Coaxial Cablo Page 11 of 19 Te a '. Monitoring Procedure TABLE 3 POST-LOCA TEST (POST TRANSIENT)
CONTINUITY AND STATIC INSULATION RESISTANCE TEST
==
Specimen Time /Date Continuity Resistance Acceptance (Y/N) 0500 VDC Criteria P/F Number 1
1354 Y
3.08E8
>10' Ohms P
12/14/95 2
1354 Y
1.5E7
>10' Ohms F
12/14/95 3
1354 Y
3.5E8
>10' Ohms P
4 12/14/95 4
1354 Y
2.8E8
>10' Ohms P
12/14/95 5
1354 Y
3.05E6
>10' Ohms F
12/14/95 (NOTE 2) 6 3354 Y
500K 910VDC
>10' Ohms F
12/14/95 7
1354 Y
100K 010VDC
>10' Ohms F
12/14/95 8
Note 1 N/A N/A N/A N/A Notes:
2 1.
This test spkg;2en is the 20" of Rockbestos RSS-6-105/LF used to monitor cable surface and center conductor temperature only.
2 Can't use megger, 10V as low.
I 4
LOCA Simuletion Coaxial Cable Page 12 of 19 Test Monitoring Procedure TABLE 4 POST-LOCA TEST (132.6F CHAMBER TEMPERATURE)
CONTINUITY AND STATIC INSULATION RESISTANCE TEST 4
Specimen Continuity Resistance Acceptance Number me/Date (Y/N) 0500 VDC Criteria P/T 1
SPM Y
4.5E7
>10' Ohms F
12/14/95 NOTE 2 2
SPM Y
1.6E6
>10' Ohms F
12/14/95 0100VDC 3
SPM Y
2.0E8
>10' Ohms P
12/14/95 NOTE 2 4
SPM Y
2.0E9
>10' Ohms P
12/14/95 NOTE 2 4
5 SPM Y
550
>10' Ohms F
12/14/95 NOTE 3 6
SPM Y
2.15ES
>10' Ohms F
12/14/95 010VDC
- s.
n 7
SPM Y
2.9E5
>10' Ohms F
[!
12/14/95 010VDC l
8 Note 1 N/_A N/A N/A N/A Notes:
1.
This test specimen is the 20" of Rockbestos RSS-6-105/LE used to monitor cable surface and center conductor temperature only.
2.
Unstable, average.
3.
Hand held multimeter.
t
LOCA Simulation Coaxial Cable Page 13 of 19 Test Monitoring Procedure t
TABLE 5 POST-LOCA TEST MANDREL AND CONDUIT (NOl'E 2) l CONTINUITY AND STATIC INSULATION RESISTANCE TEST
\\
Specimen Time /Date Continuity Resistance Acceptance
_ Number (Y/N) 0500 VDC Criteria P/F 1
10AM N/A 2.5E13
>10' Ohms P
}
12]15/95 2
10AM N/A 6.SE10
>10' Ohms P
12/15/95 3
10AM N/A 3.5E10
>10' Ohms P
12/15/95 4
10AM N/A 4.0E10
>10' Ohms P
12/15/95 5
10AM N/A 3.9E10
>10' Ohms P
12/15/95 6
10AM N/A 1.3E11
>10' Ohms P
12/15/95 7
10AM N/A 2.5E10
>10' Ohms P
12/15/05 8
Note 1 N/A N/A N/A N/A Notes:
This test specimen is the 20" of Rockbestos RSS-6-105/LE 1.
used to monitor cable surface and center conductor temperature only.
?
Post LOCA - mandral mounted specimens and conduit.
Penetration sections tested separately.
Ambient temperature, r
- - - - - - ' ^ - - - ' ' " '
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i LOCA simulation Coaxial Cable Page 14 of 19 Test Monitoring Procedure TABLE 6
+
POST-LOCA' TEST SHORT PENETRATION (NOTE-2)
CONTINUITY AND STATIC INSULATION RESISTANCE TEST Specimen Time /Date continuity Resistance _
Acceptance i
(Y/N) 9500 VDC Criteria P/F Number 1
10:15 AM N/A NOTE 3
>10' Ohms N/A 31 12/15/95 2
10:15 AM-N/A 2.5E7
>10' Ohms F
1 12/15/95 NOTE 4-3 10:15 AM N/A 1.8E8
>10' Ohms P
j:
12/15/95 i-4 10:15 AM N/A 3.2E11
>10' Ohms P
i 12/15/95 4
5 10:15 AM N/A NOTE 5
>10' Ohms F
12/1S/95 6
10:15.AM N/A 3.5E6
>10' Ohms F
12/15/95 NOTE'4 7
10:15 AM N/A 2.5E5
>10' Ohms F
12/15/95 910VDC 8
Note 1-N/A N/A N/A N/A t
Notes:
1 1.
This test specimen is the.20" of Rockbestos RSS-6-105/LE used to monitor cable surface and center conductor l
temperature only.
1 2.
Short penetration section only (five foot pigtail end).-
Mandrel.and conduit section evaluated separately.
This penetration had a little too:much epoxy in it, fouling the pipe union, and the cables-had to be wrenched around to grt l_
the union loose =-No visual physical damage to the cables.
Ambient temperature.
J 3.-
See: separate evaluationifor the conduit penetration.
1 j
4._
_ Reading very unstable, average.
5.-
130K. Ohm short.
i i
I i-
LOCA Simulation coaxial Cablo Page 15 of 19 Test Monitoring Procedure TABLE 7 POST-LOCA TEST LONG PENETRATION (NOTE 2)
CONTINUITY AND STATIC INSULATION RESISTANCE TEST Specimen Continuity Resistance Acceptance Number
"*/ "*
(Y/N) 0500 VDC Criteria
/F 1
10:20AM N/A NOTE 3
>10' Ohms N/A 12/15/95 2
10:20AM N/A 5.7E11
>10' Ohms P
12/15/95 3
10:20AM N/A 5.6E10
>10' Ohms P
12/15/95 4
10:20AM N/A 5.5E10
>10' Ohms P
12/15/95 5
10:20AM N/A 7.3E10
>10' Ohms P
12/15/95 6
10:20AM N/A 6.8E10
>10' Ohms P
12/15/95 7
10:20AM N/A 1.1ES
>10' Ohms F
12/15/95 010VDC 8
Note 1 N/A N/A N/A N/A Notes:
1.
This test specimen is the 20" of Rockbestos RSS-6-105/LE used to monitor cable surface and center conductor temperature only.
2.
Long penetration section only (20').
Mandrel and conduit section evaluated separately.
3.
Conduit penetration evaluated separately.
.-....... - ~ - - - -. -.. -
LOCAiSimulation Coaxial Cable Page 16 of 19
. Test Monitoring-Procedure TABLE 8 POST-LOCA TEST CONDUIT PENETRATION (lvoTE 2)
CONTINUITY AND STATIC INSULATION RESISTANCE TEST.
Specimen Time /Date Continuity Resistance Acceptance (Y/N) 0500 VDC Criteria P/F Number 1
10:30AM N/A 2.1E7
>10' Ohms F
(NOTE 4) 12/15/95 (NOTE 3) 1 10:30AM N/A 5.4E10-
>10' Ohms P
(NOTE-5) 12/15/95 3
N/A N/A N/A
>10' Ohms N/A 4
N/A N/A N/A
>10' Ohms N/A 5
N/A
'N/A N/A
>10' Ohms N/A 6
N/A N/A N/A
>10' Ohms N/A 7
N/A N/A N/A
>10' Ohms N/A 8
Note 1 N/A' N/A N/A N/A Notes:
1.
This test specimen is the 20" of Rockbestos RSS-6-105/LE used to monitor cable surface and center conductor temperature only.
2.
Conduit penetration-only.
Ambient temperature.
3.
Unstable reading.- Average.
4.
Short section.
5.
~Long.section (to test monitoring equipment).
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LOCA Simulation Coaxial Cable Page 17 of 19 Test Monitoring Procedure FIGURE 1 ELECTRICAL TEST SCHEMATIC WYLE CHAMBER SCE CABLE TESTING ROCKBESTOS RSS-4-105/LE INSIDE 20 ' or 3/4 CONDtfIT r""..""""*"."..*.".."."""".*."....."""'. ". ".
K,itk1,y 610C
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LOCA Simulation Conxicl Cablo Pago 18 of 19 Test Monitoring Procedure FIGURE 2 ASTROMED CONNECTION DIAGRAM nnA o
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LOCA Simulction Coaxial Cabl'o
- 9" f 19 Test Monitoring Procedure 9
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