ML20150F752
| ML20150F752 | |
| Person / Time | |
|---|---|
| Site: | Zion File:ZionSolutions icon.png |
| Issue date: | 07/05/1988 |
| From: | Cascarano R, Tiemann J, Trzyna G COMMONWEALTH EDISON CO. |
| To: | Office of Nuclear Reactor Regulation |
| References | |
| NUDOCS 8807190036 | |
| Download: ML20150F752 (97) | |
Text
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1988 INTEGRATED LEAK RATE TEST OF ZION UNIT 1 REACTOR CONTAINMENT BUILDING Written By* /- ~
James A. Tiemann Primary Group Leader Approved By R. N. Cascarano Technical Staff Supervisor 8807190036 StsO705 PDR ADOCK OW'j295' h
45 P WJ y, N
1065t 0509A 1 *@\j lL c.- _ , , ~ . , . _ . . - - . .
-TABLE OF CONTENTS SECTION TITLE PAGE
- 1. Abstract 4
- 2. Introduction 5
- 3. Test Procedure 6
.4. Instrumentation 7
- 5. Containment Pressurization 14
- 6. Calculation of Instrument Selection Guide 15
- 7. Containment Leak Rate Calculation 16
- 8. Supplemental Verification Test Calculation 20
- 9. Log of Significant Events 21
- 10. Summary Analysis of Type B and C Test Results 23
- 11. Test Results and Conclusions 33 t
i i
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v-j' LIST OF GRAPHS AND FIGURES DESCRIPTION TITLE PAGE FIGURE 1 SYSTEM ARRANGEMENT 10 FIGURE 2 . INSTRUMENTATION AB0VE 617' 11 FIGURE 3 INSTRUMENTATION BETWEEN 617' AND 590' 12 FIGURE 4 INSTRUMENTATION BETWEEN 590' AND 56B' 13 GRAPH 1 BN-TOP-1 NORMAL TEST 34 GRAPH 2 10TAL- TIME NORMAL TEST 35 GRAPH 3 BN-TOP-1 VERIFICATION TEST 36 TABLE 1 STATISTICAL LEAK RATE CALCULATIONS 37 APPENDIX A CALIBRATION RECORDS 38 1065t 3 0509A
- 1. ABSTRACT Zion Station successfully completed the Primary Containment Integrated Leak Rate Test (ILRT) on Unit 1 between March 2 and March 4, 1988. This represents the first ILRT performed on Unit 1 during the second 10 Year Inservice Inspection Interval. The test was verified by Station personnel and the NRC as being performed in accordance with 100tR50 Appendix J, RN-Top-1 Revision 1 and Zion Technical Specifications.
The test was performed at full accident design pressure in the beginning of a refueling outage to obtain an accurate representation of as-found containment leakage.
The total primary containment leak rate was measured to be 0.0266 weight percent per day during a 13 hour1.50463e-4 days <br />0.00361 hours <br />2.149471e-5 weeks <br />4.9465e-6 months <br /> period, employing the BN-Top-1 method. The 95 percent upper confidence limit was calculated to be 0.0689 weight percent per day. Both values are well within the acceptance criteria of 0.075 weight percent per day.
A leak rate of 0.100 weight percent per day was imposed for 6.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> to verify the accuracy of the test. The calculated leak rate of 0.1266 weight percent per day (0.100 + 0.0266) was measured to be 0.1193 weight percent per day, a dif ference of 5.8%. This is within the allowable 25% error.
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- 2. " Y9. ' _J.f iris report details results of the Zion Station Unit 1 Primary Containment Integrated Leak Rate Test performed between March 2 and March
- 4. 1988. These results are reported in accordance with the requirements of 10CFR50 Appendix-J. Subsections of this report discuss the Procedure, Instrumentation Local Leak Rate Results and the Chronology of Significant Events. Calculated data are included to further demonstrate the success of this test.
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- 3. TEST PROCEDURE The test was performed according to Zion Technical Staff Surveillance Procedure TSS 15.6.10. A, Revision 16 as amended. This >
procedure is in compliance with Zion Technical Specification 3.10, 10CFR50 Append!x J ANSI N45.4-1972 and BN-TOP-1 Revision 1.
I l
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- 4. INSTRUMENTATION The instrument and Data Acquisition System Arrangement are shown in Figure 1. Idealized cross sectional views of the Zica Containment, illustrating the relative placement of the temperature and humidity
-sensors are shown in Figures 2, 3 and 4. Initial instrumentation calibrations were performed by Volumetrics Corporation. Final signal conditioning adjustments were made by plant personnel with technical assistance from Volumetrics Corporation. Sensor placement and calibration documentation were reviewed by an NRC Region III representative prior to test initiation.
4.1 Temperature Sensors Twenty-nine rlatinum rrsistance thermometers (RTD's) (Burns Engineering Moiel CN Al-5'/2-3A) were used for accurate measurement of :ontt.inment temperature. All RTD's were suspended to prevent therma; in'luence from metal surfaces. Twenty-one of the RTD's were located symmetrically throughout the upper 82 percent of the containment volume (subvolumes 1, 2 and 3). The eight remaining RTD's were placed in the lower 18 percent containment volume. Four of these sensors were outside the missile barrier (subvolume 4) and four were inside the missile barrier (subvolume 5) at approximately symmetrical locations.
Prior to the test, each RTD was calibrated against a platinum resistance reference standard traceable to the National Bureau of Standa rds. Accuracy was verified to be 10.05'F over the range 60*
to 120*F with a repeatability of 10.006*F. Additionally, an in situ test was performed on each RTD at ambient conditions which verified all instruments were within 10.6*F of ambient temperature.
A temperature survey of the accessible subvolumes (3, 4 and 5) was performed to ensure sensors were placed in areas which are representative of the entire subvolume.
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4.2 Dewpoint Sensors Ten lithium chloride dewcells (Foxboro Model 2781-18-MGN) were used to accurately monitor containment dewpoint (i.e. partial pressure of water vapor). The dewcells were placed at symmetrical locations within containment. All dewcells were suspended to allow for full exposure of the sensing element. Eight dewcells were suspended in the upper 82 percent of the containment volume. The remaining two dewcells were placed in the lower 18 percent of containment, one outside the missile barrier (subvolume 4) and one inside the missile barrier (subvolume 5).
All dewcells were calibrated against a platinum resistance reference standard traceable to the National Bureau of Standards. Accuracy was certified to be i 1.5'F over a range 40* - 100*F, with a repeatability of 10.005'F. An in situ test was performed on each dewcell at ambient conditions which verified all sensors were within 15.0*F of ambient dewpoint.
4.3 Pressure Sensors Two precision pressure gauges (vibrating cylinder elements) were used to monitor containment pressure. These sensors were physically located in the data acquisition system console. Each gauge was linked to containment via 1/4 inch diameter stainless steel tubing connected to sensing lines of the containment pressure transmitters (See Figure 1).
The pressure gauges were calibrated over a range of 0 to 100 psia in 10 psi increments using a pressure transfer standard traceable to the National Bureau of Standards. The gauges were certified accurate to within 10.015 percent of reading with an average repeatability of 10.001 psia.
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4.4 Flowmeter (Verification Test)
A Rotometer (Fischer and Porter Model 10A35555) was used to monitor induced leakage in the instrumentation verification phase of the test. The flowmeter was linked to containment via 3/8 inch diameter copper tubing connected to the sensing line of a containment pressure transmitter. The flowmeter was throttled at its inlet due to its calibration at atmospheric pressure. 3 The flowmeter was calibrated over a range of 0.8 to 10.2 SCFM at 14.7 PSIA with an accuracy of i 1.0 percent of full scale.
l 1065t 9 0509A
i LEGEND l 1 P1 AND P2 MAY BE CONNECTED TO A!O OF THE INDICATED 1/a Tnm CONTAINMENT PRESSURE TRANSMITTER VENT LINES VIA 1/4" TUBING.
n/4 m z 2. THE INDUCED LEAKAGE FLOWMETER MUST BE CONNECTED TO EITHER PT-CS50 OR PT-CS51 VENT LINE VIA 3/8" TUBING. (TUBINC/ PIPE l- - 8/*~ "8 OF LARGER I.D. MAY BE SUBSTITUTED.)
- 3. INDUCED LEAKAGE SHOULD BE CONTROLLED AT THE THROTTLE DATA VALVE IMMEDIATELY UPSTREAM OF THE FLOWMETER.
PRIME ACQUISITION SYSTEM P1 P2 OWMETER m
'NDUCED]
LEAKAGE DISCHARGE l 5 LOWMETE TEMPER @
INDICATOR to
/ ~
~
>N '
PDT PT PT PT PT PT RV85 CS22 CS21 CS51 CS20 CS50 CS16 N / f \/ N \/
% X / 'N /N /'/N ~
/\
N /
N
/ g j N'/ \'/
N,\
/ \ /j j g / N / N / / N
).#
).(CS0059 h(CS0057 ) (CS0055 CS0053
)( '
1AB1090 or
/
AUXIUARY BmG. ).(CS0058 )( .
CS0056
\.(CS0054
, CS0052 ,
\ 2AB794 coNTAINF.NT i
, 1RB551 or I 3 2RB551 (29RTDsj QO DEW CELL}S-3012T 146SA
FIGURE 2 INSTRUMENTATION ABOVE 617' ELEVATION 775 O 764 O O O 735-730 h h
[5Il h h subvolume 1
[30) 710 690 M h 13d [361 subvolume 2 0 @ @ @
e50 @ @ @ @
645 5 -h 13 7 34 subvolume 3 64o @ @ @
O caete l617 O r4a cnanaet l l dewcell chan..el 11
FIGURE 3 l
INSTRUMENT LOCATIONS BETVEEN 590' AND 617' ELEVATIONS l
y" y D SUBVOLUME 5
]
I i 35 33 SUBVOLUME 4 SUBVOLUME 4
% 617 SUBVOLUME 5 SJE VIEW @ @ as @ @
33 590 12
' FIGURE 4 INSTRUMENT LOCATIONS BETWEEN 568' AND 550' ELEVATIONS l 1
--],7 y"{y SUBVOLUME 5 SUBVOLUME 4 SUBVOLUME 4 %
N w 590 SUBVOLUME 5 s:at v:tw @ @ e @
568 13
- 5. CONTAINMENT PRESSURIZATION ,
12 Diesel Driven. oil free air compressors .otaling 15,000 SCFM were used to pressurize containment. Output from the compressors was directed through 2 af tercoolers and 2 dryers to ensure relatively cool dry air was introduced into containment.
The compressors were located by Unit 1 containment. Compressed air was directed to Unit 1 containment via the ILRT test connection to the pressure and vacuum relief line.
F 1065t 14 0509A
6.0 CALCULATION OF INSTRUMENT SELECTION GUIDE (ISG)
The ISG analysis associated with the ability of the instrumentation to measure the Type A containment leakage rate is given by: l ISG 2400 /
/ 2 (ep/p)Z + 2 (er /T)Z d (ed P)#
t \/ N p Nr Nd ,
where: t is the ' test time',-in hours p is test pressure, psia T is the volume weighed average containment temperature, *R Np is the number of pressure transmitters Nr is the number of RTDs Nd is the number of dew cells ep is the combined pressure transmitters' error, psia er is the combined RTOs' error, *R ed is the combined dew cells' error, *R e p= , /(S )2 + (RP y p p + RSp )2 where: Sp is the sensitivity of a pressure transmitter RPp is the repeatability of a pressure transmitter RS p is the resolution of pressure transmitter er"
.y /(Sr)2 + (RPr + RSr)2 where: S r is the sensitivity of an RTO RPr is the repeatability of an RTO RSp is the resolution of an RTO APy ATd Td (Sd )2 + (RPd + RSd )2 where: Sd is the sensitivity of a dew cell RPd is the repeatability of a dew cell RSd is the resolution of a dew cell
= = change in vapor pressure ATd Td change in saturation temperature The above ratio is from ASME steam tables and evaluated at the containment's saturation temperature at that time.
The ISG was calculated to be less than 0.0156 %/ day. This meets the acceptance criteria of ISG < 0.25 La (0.025 %/ day).
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7.0 CONTAINMENT LEAK RATE CALCULATION The Absolute method was selected to determine containment leak rate. This method is based upon the ideal gas law by which containment dry air mass can be calculated as a function of time by measuring containment temperature, pressure and vapor pressure.
Containment parameters were statistically analyzed in accordance with BN-TOP-1, revision 1; the only approved method for short duration testing. This method calculates the rate of change with respect to time of dry air mass using the Total Time Method. Containment leak rate is assumed to be constant during the testing period and would ideally yield a straight line with a slope of zero. Because of imperfect sampling techniques, test conditions and instrumentaton, a least squares fit statistical analysis must be performed.
Initially, a reference time (tr) is chosen. For every data set the rate of change of the data item between tr and the most recent time, (ti) is calculated using the two point method shown below:
. 2400 M1- (1 - Hj/Mr)
(tj - tr)
Hj = Dry Air Mass at tj Mr = Dry Air Mass at tr tr = Reference Time tj = Time at interval Hj = Total time leak rate at tj Then the least squares fit of the Total Time leakrates and the BN-TOP-1 95% UCLs are calculated as shown below.
B= ( I Mj I(tj)2 - I tj I Mi t)i
~
N I (tj)2 - ( I tj )2 A-( N I tj At - I tj I A t )
N I (tj)2 - (I tj)2 L- 8 + At 2.37226 2.8225 T - 1.95996 + g , g + (N - 2)2 F= 1+
1
+
(tp - I (t)) / N)2 N I (t t)2 - (I tj)2 /N
/ /
/ F /
o j/ f
/ I (Aj)2 - B I Aj - A I At ti UCL = L + To
\/ N \/
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The following related calculations also performed by the software are outlined below:
7.1 Average temperature of subvolume #1 (Tj)
= The average of all RTD temps in subvolume #1 1 N T i= r Tg,3 N j=1 where N = The number of dewcells in subvolume #1 7.2 Average dew temperature of subvolume #1 (Dj)
= The average of all dew cell dew temps in subvolume #1 1 N D i= I Dj,j N j=1 where N = The number of dewcells in subvolume #1 7.3 Total corrected pressure #1, (P 1)
C1 First correction f actor for raw pressure #1, (f rom program initialization data set).
M1 Second correction f actor for raw pressure #1, (f rom program initialization data set).
Pr) Raw pressure #1, from CUFFILE.
P1 C1+M1 Prj/1000, for 5 digit pressure transmitters P1=C1+M1 Pr1 /10000, for 6 digit pressure transmitters 7.4 Total corrected pressure #2, (P 2)
C2 First correction f actor for raw pressure #2, (f rom program initialization data set).
M2 Second correction factor for raw pressure #2, (from program initialization data set.)
Pr2 Raw pressure #2, from BUFFILE.
P2=C2+H2 PR2 /1000, for 5 digit pressure transmitters P2 = Cg + H2 Pr2/10000, for 6 digit pressure transmitters 1065t 17 0509A
I 7.5 Whole Containment Volume Weighted Average Temperature, (Tc)
Approximate N Method Tc - I fj Tj 1-1 1
l 1
Tc =
Exact N ft Method I i-1 Tj where: f i= The volume fraction of the ith subvolume N = The total # of subvolumes in containment 7.6 Average Vapor Pressure of Subvolume i, (Curve fit of ASME steam tables.) (Pvj)
Pvi = 0.01529125 + 0.001653476 0j
- 1.44734 X 10 6 (Dj)2 + 7.081828 X 10 7 (Dj)3
- 2.28128 X 10 9 (Dj)4 + 3.03544 X 1011 (Dj)5 7.7 Whole Containment Average Vapor Prex ure, (Pvc )
Approximate N Method Pvc= E fi Pvj 1-1 Exact N ft Pvt Method Pyc - Tc I i-1 Tj N = The total of subvolumes in containment fj= Volume traction of the ith subvolume 7.9 Whole Containment Average Dew Temperature, (Dc )
Approximate Method Dc = I fi 0 i i-1 Exact Method The whole containment average vapor pressure, (Pvc )
calculated with the exact method is used to find 0.
4 An initial value of Oc is guessed and used with the equation in 0.6 to calculate Pv c. This value is then compared to the known value from 7.7.
A new value of Oc is guessed and the process is repeated until a value of Oc is found that results in a calculated value of Pvc that is within .0001 psia of the value from 7.7.
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7.9 Average total containment pressure, (P) ;
l P =
(P1 + P2 )/ 2 j Average total containment dry air pressure, (Pd)
Pd = P - PVe 7.10 Total Containment dry air mass, (M)
PVdc M=
R Tc where: R = Perfect gas constant, Vc = Total containment free volume.
7.11 BN-TOP-1 Temperature Stabilization Criteria Calculation A. The rate of change of temperature is less than 1 *F/Hr averaged over the last two hours.
K 1=lT)-Tj_1l K - Tj_1 - Ti2l K< and K 2 must both:beessthanItomeetthecriteria l'sted in A.
B. ]he rate of change of temperature changes less than 0.5 F/ hour / hour averaged over the last two hours.
K 1 = (Tj - Tj_1)/(t K
2=(Tj_1l-T-2)/j-tj_1)
Z= (K)-K)/(tj-tj_1)l i (ti_1 - t i-2) 2 Z must be less than 0.5 to meet the criteria listed in B.
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.g-8.0 SUPPLEMENTAL VERIFICATION TEST CALCULATIONS A leak rate of 8.05 SCFM was induced from containment to verify the accuracy of the instrumentation and adequacy of containment modeling.
The acceptance criteria for this phase of the test is that the leak be measured within i 25% of the target leak rate.
The accuracy of the test is calculated by:
LT"LO+LS P =
LT-L x 100 LT
.1266 - 1 P =
26 x 100 = 5.8%. .* Supplemental test is acceptable Where: P = Percent dif ference between measured and target (calculated) imposed leak rates. Must be less 25%
L = Total measured leak rate during imposed test
~
(weight %/ Day)
L g
= Imposed leak rate as measured by flowmeter (weight %/ Day)
L s
Containment leak rate measured measured during 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test (weight %/ Day)
L = Maximum allowable leak rate (weight %/ Day)
L = Target (calculated) leakage for the induced T
test.
10'5t 6 20 0509A
9.9 LOG OF SIGNIFICANT EVENTS Date Time Event 3-2-08 0350 Containment integrity set 0430 Compressors started - unloaded 0445 Compressors loaded 1000 Helium injection started 1255 Closed outer personnel hatch door per P.C. TA88-116 Opened inner equalizing door ball valve per P.C.
TA88-116 1230 1 compressor tripped off (low oil pressure) 1530 Observed pressurizer level at 65.4%
Observed no makeup to pressurizer required during during containment pressurization 1549 Containment pressure @ 51 psig, 65.7 psia pressurization stopped 1555 1 RV0005,6 observed closed 00S on RV0005, 6 MOV 8105,6 requested 1605 Temp. stabilization phase started 2116 Temp. stabilization complete 2120 Leak rate test started at data set #22 2200 Leakage past vents 1PR0011 and 1PR0042 will fill a glove in 30 min. Glove would not be taut. Leakage past vent 11A0555 will fill 1/2 glove in ~30 min All gloves removed.
2245 1CS 37 through 45 snooped for packing leaks. All ok RCFC SW pressure gauges all ~ 120 psig.
2330 Checked the following for packing leakage:
1 WD 17A/B ok, DWOO33 & 38 ok, PR19-23 ok, RV0005
& 6 ok, VF01A/B ok, PP0101-0104 ok, IA018 ok, IA01A packing leaks cause snoop beard.
2345 Accessible purge valves ok 3-3-88 0000 Outer persennel hatch. Minor ball valve leakage.
0045 Escape hatch inner door snooped - no leakage detected. However, helium leak detector did identify leakage.
0430 Main steam line pressure gauges checked. All t
~1.25 psig.
0831 After review of data and discussion with NRC in-spector, ILRT terminated at data set 66,11 hours1.273148e-4 days <br />0.00306 hours <br />1.818783e-5 weeks <br />4.1855e-6 months <br /> into test using BN-TOP-1 method. L.R. ~ 0.0262%/
day. IC: ~0.0725%/ day 1
\
1065t 21 0509A-l
l l
)
l Date Time Event 3-3-88 0920 Identified multiple fitting leakage after valving in induced flowmeter and leakage upstream of rig isolation valve. Decision made to abandon rig in place, reinstalling flowmeter to 1 PT CS 50, pro-cedurally allowed per Page 41 1040 Based on flowmeter problem, recalled end of test data set 74, 1010 hrs. 0266%/ day, UCL .0689%/ day.
1045 Induced leak test, stabilization period started.
1055 Data set 77 @ 1055 called beginning of temp.
stabilization.
1155 Data set 81 start of imposed test.
1830 Imposed test terminated @ data set 107.
1845 Main steam line pressure gauges checked. All
~ 1.25 psig.
1950 Containment vent initiated.
2100 1 MOV-SI8811 A stroked, ok.
2140 1 MOV-SI88118 stroked, ok.
3-4-88 0600 Cont. pressure @ 15 psia. Rad / Chem requested to obtain a cont. sample. MM's are standing by to break the interlocks.
0730 Containment sample analysis completed. MM's break-ing cont. integrity.
0800 Containment entry made by T. Printz, F. Maura (NRC)
- 8. Peecher. All instruments foured in place.
Cont. basement floor dry.
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10.0
SUMMARY
ANALYSIS OF TYPE B AND C TEST RESULTS The following table summates periodic Type B and C tests that have been performed since the most recent Unit 1 Type A test, completed 8/01/84. The total allowable leakage of all Type B and C tests, per refueling cycle, is 285 SCFH. The increase in Type B leakage in 1985 and 1986 was due, to a large extent, to leakage through the escape and the personnel lock volumes. Door seals were replaced and seals around lock shatts were tightened. Consequently, Type B leakage returned to historical levels. In 1988, the total type C leakage has been higher than previous years. Planned maintenance in upcoming outages will lower type C leakage.
1984 1985 1986 1987 1988 Total Type B leakage (SCFH) 13.2 29.8 25.0 4.9 3.0 Total Type C leakage (SCFH) 14.5 50.2 44.2 21.6 49.7*
150V-PR250 is isolated by ISOV-PR260 which is administrative 1y out of service in the closed position, such that only the lowest leakage between 150V-PR250 & PR260 is included in the 1988 total C (i.e.159 SCFH, measured f rom 1S0V-PR25D is not included in above total).
The following list describes Type B and C leakages from individual components.
Type B Components Item Date Tested Leak Rate (SCFH)
Electrical Fenetrations Zone 1 06-03-85 0.01 02-12-87 0.02 04-21-88 0.02 Zone 2 06-03-85 0.03 02-12-87 0.0 04-21-88 0.005 Zone 3 06-03-85 0.0 02-12-87 0.0 04-21-88 0.0 Zone 4 06-03-85 0.0 02-12-87 0.0 04-21-88 0.02 1065t 23 0509A
Type B Components Item Date Tested Leak Rate (SCFH)
Mechanical Penetrations Zone 1J 05-13-85 0.0 02-13-87 0.15 03-26-88 0.05 Zone 2J 04-22-85 0.4 02-13-87 0.0 03-24-88 0.1 Zoner 3D 05-14-85 0.0 02-13-87 0.0 03-24-88 0.5 Zone 3K 04-22-85 1.9 02-13-87 0.1 03-26-88 0.05 Zone 4B 04-27-85 0.4 02-13-87 0.0 03-24-88 0.1 Zone 4H 04-23-85 4.5 02-13-87 0.2 03-26-88 0.2 Zone 18 05-14-85 0.6 02-17-87 0.0 04-21-88 0.35 1065t 24 0509A
Item Date Tested Leak Rate (SCFH)
Personnel Lock Door Seal 10-02-84 0.0 06-05-85 0.5 06-16-86 0.6 02-24-87 0.6 02-24-88 0.7 04-25-88 0.528 Volume Between Doors of Personnel Lock
.10-02-84 15.0 06-05-85 17.0 12-12-85 16.0
.06-16-86 15.0 02-24-87 3.2 08-18-97 10.0 02-04-88 >30.0 02-18-88 25.0 04-24-88 0.2 Escape Lock Door Seal 10-02-84 25.5 10-04-84 8.0 06-04-85 0.5 06-13-85 2.5 06-14-85 1.7 12-17-85 20.0 1065t 25 0509A
Item Date' Tested Leak Rate (SCFH)
Escape Lock Door Seal (cont'd) 05-27-86 0.25 05-30-86 0.0 06-18-86 0.0 02-24-87 0.1 -
06-22-87 2.2 8-19-87 0.0 11-12-87 0.0 ,
02-22-88 0.06 04-21-88 0.0 05-04-88 0.032 Volume Between Doors of Escape Lock 10-02-84 27.5 06-03-85 1.75 i Tt-17-85 20.0 06-17-86 1.3 02-19-87 0.5 08-17-87 C.5 02-05-88 12.0 02-17-88 0.2 4-21-88 0.1 Equipment Hatch Seal 10-02-84 0.0 06-04-85 1.0 06-17-86 0.2 02-24-87 0.0 04-21-88 0.7 1065t 26 0509A
l Type C Components Item Date Tested Leak Rate (SCFH) 1MOV-CS0002 08-06-84 0.5 08-22-84 0.5 09-20-84 0.0 02-27-85 0.4
. 05-10-86 0.125 02-07-87 0.2 04-10-88 7.0 1M0V-CS0004 8-06-84 1.5 08-22-84 8.0 09-20-84 0.0 10-02-84 0.0 02-27-85 0.2 05-10-86 0.0 02-07-87 0.0 i L 04-10-88 0.05 )
1MOV-CS0006 08-06-84 1.0-08-22-84 1.5 09-20-84 0.25 02-27-85 2.0 05-10-86 13.0 05-13-86 2.5 02-07-87 2.5 04-10-88 2.5
~1065t 27 0509A f
Item Date Tested Leak Rate (SCFH) 1PR0030
. 08-08-84 7.5 08-22-84 8.0 09-20-84 9.0 05-08-85 1.5 05-12-86 1.8 01-28-87 1.25 04-11-88 0.15 1PR0029 08-08-84 0.0 08-22-84 0.0 09-20-84 0.0 05-09-85 0.0 05-12-86 0.25 01-28-87 0.4 02-20-88 0.1 04-11-88 0.35 1A0V-RV0001, RV0002 05-23-85 2.5 02-20-87 0.3 02-20-88 0.2 04-21-88 0.05 1A0V-RV0003, RV0004 05-23-85 13.
01-27-87 0.0 02-20-88 0.1 04-21-88 0.1 i
1065t 28
\'0509A L
Item Date Tested Leak Rate (SCFH) 1A0V-RC8033 08-06-84 0.0 08-22-84 0.0 09-20-84 0.0 05-24-85 3.0 05-11-86 0,0 10-14-86 2.5 04-12-88 2.0 1DT9157 05-25-85 0.0 01-26-87 0.0
. 4-10-88 0.0 4
- 04-09-85 0.8 05-12-86 0.6 12-22-86 0.4 04-11-88 0.35 150V-PR26A 04-09-85 0.5 05-12-86 0.0 12-22-86 0.0 04-11-88 0.0 150V-PR250 04-11-85 0.0 05-12-86 0.0 12-22-86 0.0 04-17-88 159.0 1065t 29 0509A e
Item Date Testad Leak Rate (SCFH)
, s.
150V-PR260 04-09-85 0.0 05-12-86 0.0 12-22-86 0.0 04-11-88 0.0 150V-PR258 04-09-85 0.0 '
05-12-86 0.0 12-22-86 0.0 04-11-88 0.0 150V-PR26B 04-09-85 0.0 05-12-86 0.0 ,
12-22-86 0.0 04-11-88 0.05 1SOV-PR260 03-22-85 1.2 05-12-86 0.7 12-22-86 0.0 04-11-88 0.0 1SOV-PR25C 03-22-85 1.1 05-12-86 0.375 12-22-86 0.1 04-11-88 0.05 1065t 30 0509A
Item, Date Tested Leak Rate (SCFH) 1FCV-IA01A and IA018 05-13-85 0.0 1FCV-PR24A 05-13-85 7.0 05-13-86 8.0 12-23-86 0.9 04-12-88 4.5 151-8880 & ISI-8857 08-06-84 2.5 08-22-84 2.0 09-20-84 0.6 05-13-85 6.0 05-10-86 1.35 01-24-87 1.5 04-16-88 1.05 FCV-I A018 01-30-87 0.4 04-16-88 4.0 FCV-IA01A 01-30-87 30.5 02-15-87 12.0 04-16-88 11.0 FCV-PR248 05-22-85 11.0 05-13-86 13.0 12-23-86 0.9 04-12-88 9.5 1065t 31 0509A
Item Date Tested leak Rate (SCFH)
DT-9158 04-18-88 2.5 RC-8045 04-12-88 2.0 1
1065t 32 0509A
11.0 TEST RESULTS AND CONCLUSIONS The statistical leakage rate phase of the ILRT began at 2120 on 3-02-88 with data set #22. The test was initiated approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> af ter containment pressurization was secured to permit an adequate period for stabilization. Approximately 2.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> after test initiation, the measured leak rate and the 95% UCL were observed to have stabilized well below the allowable leak rate of 0.075 weight %/ day employing the total time method. 13 hours1.50463e-4 days <br />0.00361 hours <br />2.149471e-5 weeks <br />4.9465e-6 months <br /> after test initiation, the measured leak rate had fully stabilized at 0.0266 weight %/ day and the test was terminated employing 8N-TOP-1 Revision 1 (1040, 03-03-88 at data set #74). The 95% UCL at this time was 0.0689 weight %/ day.
The supplemental verification phase of the test was initiated at 1155 on 3-03-88 at data set 81. The test began 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> af ter completion of the statistical leakage rate test after imposing a leak of 8.05 SCFM (0.100 weight %/ day). The measured combined leak rate and the 95% UCL stabilized within acceptance criteria (125%
La) af ter approximately 2.0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br />. 6.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> after test initiation, the combined measured leak rate stabilized at 0.1193 weight %/ day and the test was terminated (1830, 3-03-88 DS 107).
The final measured leak rate was within 5.8% of the calculated leak rate, thus verifying results of the statistical leakage rate.
Results of the statistical leak rate and supplemental tests verify that leakage through Zion Unit 1 containment and st tems and components penetrating primary containment does not exceed the allowable leak rate as specified by Technical Specifications.
Furthermore, results of the Type B and C tests prove that proper maintenance and repairs are being made to reactor containment penetrations and isolation valves.
1065t 33 0509A
B N --TO P - 1 LEAKRATES VS T!ME CALCULATED LEAK RATE Normal Test 95 x UPPER CONFIDENCE LIMIT Allowed Leak Rote 1.00 - -
-j ---
+----____.-j---_. 1.00 i
.s I
0.80 - - - - - - - ;
--- - - y -- t - ---- - L -----i 0.80
,-- -- - - - --t -
t i
l i 1,t ie 1 6 1 l '
0.60 f-- --h--- ll ] -- -l i
-+ -
- 0.6 0 D l
! g m
0.40 d--
- ---[--- ---t i
't o,40 oc "l
a n- t ,
5
= 95% UCL
! l w 0.20 tbyh3ggggggggggg373 5 g -T"-~~~~~P~~~~
'~
-~ ~ ~~-f 0.20 iA l 5
o y-----y---~~~T^^^^~'^l~~~~M-I i i
~ i-^- - I t
O.00 -"-- 4 --- - - --+ I CALCULATED LEAK RATE t! 0.00 i t
- 1 I I i i
! l l .l
- [ l' ; , s
-0.20 -- 0- -- - - j- - - ---f - 0.20
- f. - - -- --- --- - -- - -- I
- -- t- -- - -- -f ,
, i
- I
{ l g (
-0.40 L- - - - - - - - - - - -
- N-- ---- - 4 - -
l - - - -- + - 0.40
- 0.50 2.30 4.10 5.90 7.70 9.50 11.30 13.10 HOURS STARTING PLOT TIME: MARCH 2 21:10 i
. n .-- _ - _ - - . -_ . .a TOTAL TIME LEAKRATES VS TIME CALCULATED LEAK RATE Normo! Test 95 x UPPER CONFIDENCE LIMIT Allowed Leak Rote 1.00 --- -- -
j - - _ - - - p ...
_ ;- _ _ - ; __ . . _ . . _ . 9 .- .--+ 1.0 0 l : : ! !
i I -
r 0.80 - - --- - -- -
j-- -j - - - - -- -} - - ,- -_ - - -- . -. . . 4._ . - . f 0.8 0 I I I I n , .c .,
i : i I ,
0.60 ------ -4 ---.--------p- --. . -} --- - _f 0.60
-)!
j *l s f l l g
-< lg i i .
- 4 N 0.40
- -- . - !- 0,4 0 [
~ r f, . l ---- -
- - l -- - - - - -
i m a.
1 x w .
i i ,,
S 8 I i : i e i n 2 0.20 -"--
9 5%' UCL - - - -- 4 - - - - - -
-+ 0.20 O N - 'l -- -- - --l- -
! O ED LEAK RATE j
- ! i 7_____
2 l
______7______4_______+____I_ALLW_'___.___3__
l 0.00 #- t--- - -- -:- - --- LEAK - - -! - -RATE- -
j - --- ---+ - - - -----j- 7-CALCULATED !
- ,- 0.0 0 j l l
, ! ! I i
-0.20 f- - - - -- -- l- - -- -- - - ,- - - - - - + -- --- -- l ,
-I-- - - {-0.20
! ! ! l I I
i . i t ,
-0.40 ;---
- --- - - h -- - - - --- - - --
- 0. 4 0 0.50 2.30 4.10 5.90N -- --- . 7 9.50 0 --- - N- 11.30 - 13.10 HOURS L.
STARTING PLOT TIME: MARCH 2 21:10
BN-TOP-1 LEAKRATES VS TIME CALCULATED LEAK RATE Verification Test UPPER At'D LOWER BOUNDS Target Leck Rote 0.1600 -j --t- - --
- - -- p - - --- -- ---
-t--- -- ---f- 0.1 6 0 0 i i i j i f f
__.._~m f l UFPER BOUND}
._.._..u..__.._.. .1
-a - - - -- +
0.1514 :
-j ' ---
-0.1514
- a !
l I
0.1429 l: -- b- -- - - - -
0.1429
- I l
. Q ! !
I I I' ; M cn i o : .
=
us 0.1343 i
(
-j --
- --t- - l
--I -----l' .
--- ---t. 0.13 4 3 m u.a n-n_ : TARGET l
w i "
l l
, ' -0.1257
, 0.1257 - - - -
--[- - -- ; - -- -- q- -- - ; %
, ! 0.1171 l l p
1
-t i N -
-4 i- 0.1171 j l ;
l LEAK RATE
! l
' l l l
0.1086 -
-! - - hj -- ---- -- -h - -- '-- 4---- -- If -f- 0.1086 I
' l LOWER BOUND) l 1 -
s
- n. -
- - ~- - - ' ' ' '-'--- -
0.1000 ' - - - - - - - - -- - -
__ _ __. ! -- r----' - -- 4' '---
4.l0.1000 5.90 6.80 0.50 1.40 2.30 3.20 4.10 5.00 HOURS STARTING PLOT TIME: MARCH 3 11:55 L
STATISTICAL LEAKRATE RESULTS CALCULATED USING THE BN-TOP-1 METHOD TABI.E 1 TOTAL TIME LSF 0F BN-TOP
/ATA DATA SET TIME TEST DRY AIR LEAKRATE8 LEAKRATE8 UCL ET-6 DAY HH HM 88 TIMEe(HR) MASBe(LBM) (%/D) e(%/D) (%/D) 22 062 21 10100 0.000 0.89190125E+06 23 062 21825800 0.250 0.89188600E+06 0 1641 24 062 21840100 0 500 0.89190175E+06 -0 0027 25 062 21855800 0.750 0.89188700E+06 0.0511 26 062 22810100 0.0144 0.8870 1.000 0.891894375'P6 0.0185 0.0003 0 3413 27 062 22t25!00 1.250 0.89186537'd'J5 0.0772 28 062 22840800 0.0311 0.3009 1.500 0.8918787 44+4 0.0404 0.0287 0.2338 29 062 22155t00 1.750 0.89187100ct06 0 0445 30 042 23110100 0.0307 0 2011 2.000 0.89186342Ef06 0 0506 0.0340 0.1824 31 062 23125800 2.250 0.89187162Ef06 0 0354 32 0.0307 0 1620 062 23140100 2.500 0.89188112Et06 0.0217 0.0238 0.1424 33 062 23155800 2.750 0.89187925E+06 0.0215 0.0191 0.1278 34 043 00110100 3.000 0.89187137E+06 0.0268 0.0173 35 063 00125100 0.1184 3.250 -0.89187850E+06 0.0188 0.0140 0 1086 36 063 00840100 3.500 0.89184687Ef04 0.0418 37 0.0174 0.1087 063 00155100 3.750 0.89184312E+06 0.0417 0.0202 0.1082 38 463 01110100 4.000 0.89184237E+04 0.0396
.39 0.0221 0.1067 063 01125800 4.250 0.89184675E+06 0 0345 0.0225 0.1038 40 043 01840:00 4.500 0.89184550E+06 0.0333 0 0227 0 1010 41 063 01855100 4.750 0.89183025Ef06 0.0402 0.0243 0.1002 42 063 02t10:00 5.000 0.89183887Ef06 0.0336 43 0.0244 0.0978 043 02125 00 5.250 0.89184912Ef06 0.0247 0.0233 0.0942 44 063 02840100 5.500 0 89182737E+06 0.0361 0.0240 45 063 02155100 0.0930 5 750 0 89183925E+06 0.0290 0.0235 0.0905 46 063 03 10100 6.000 0.89183562Ef04 0.0294 0 0231 47 063 03125t00 0.0883 6.250 0.89182337E+06 0.0335 0.0235 0.0871 48 063 03t40100 6.500 0 89180500E+06 0.0398 0 0247 0.0871
'49 063 03155100 6.750 0.89182975E+06 0.0285 0.0242 0.0852 50 063 04t10100 7.000 0.89181225E+06 0.0342 0.0244 0.0843 51 063 04125!00 7.250 0.89181075Ef06 0.0336 0.0248 0.0833 52 063 04140!00 7.500 0.89179987Ef04 0.0364 53 0.0254 0.0827 063 04!55!00 7.750 0.89180712E+06 0.0327 0.0255 0 0818 54 063 05!10!00 8.000 0 89179337E+06 0.0363 0.0260 0.0814 55 063 05125100 8.250 0.89180262E+06 0.0322 0.0260 0 0804 56 063 05t40100 8.500 0.89177725Ef06 0 03?3 57 063 05855800 0 0268 0.0805 8 750 0.89178800E+06 0 0348 0.0271 0.0799 58 063 06810100 9 000 0.89179612E+06 0.0314 59 0.0270 0.0788 063 06t25:00 9.250 0.89180075E+06 0.0292 0.0266 0 0777 60 063 06:40100 9.500 0 89180707Ef04 0.0264 0 0241 61 063 06tSS100 0.0763 9 750 0.89179312E+06 0.0298 0.0259 0.0753
! 62 063 07!10100 10.000 0.89179450E+06 0.0287 0.0256
' 63 063 07125100 0.0743 10.250 Os09177987Ef06 0.0319 0.0257 0.0737 44 063 07:40100 10.500 0.89175787Ef0'4 0.0367 65 0.0262 0.0737 043 07155100 10.750 0.89176275E+06 0.0347 0.0265 66 063 08110100 11.000 0 0734 0.89178462E+06 0.0285 0.0262 0.0725
. 67 063 08t25100 11.250 0.89176100Ef06 0.0335 0.0264 l 68 063 08:40100 11 500 0 0721 0.89176987Ef06 0.0307 0.0263 0.0715 49 063 08t55100 it.750 0.89178625E+06 70 063 09:10100 0.02(3 0.0259 0.0705 12.000 0.89174462E+06 0.0351 0.0262 0.0704 71 063 09t25!00 12.250 0.89176062E+06 0 0309 0.0262 72 063 09:40!00 0.0698 12 500 0.89174087E+06 0.0345 0.0265 0.0697 73 063 09tS5 00 12.750 0.89175350E+06 0.0312 74 063 10110100 0.0265 0.0692 13.000 0.89174337E+06 0.0327 0.0266 0.0689 37 4
. _ . _ _ _ _ . _ - _ . _ . . _ _ _ _ _ _ _ _ _ . . _ _ _ _ _ . _ _ _ _- - - - _ - ~ . -
s -___.. -____
+.6 B N --TO P '! LEAKRATES VS T!ME CALCULATED LEAK RATE Normal Test 95 x UPPER CONFIDENCE LIMIT Allowed Leak Rote 1.00 -'
- -- - - l ----
-- -- j -t- -- - --- - p -- - -- - ; -+ ; .0 0
- i l,
i . .
0.80 g --+ - - - - - - r - - - - --- 4 -- d; - - -- - --i0.80 l
3
- i i : I >
- 3 I I ! ,
e : >
l 0.60
- --h - l -+ - - -
-- -0.60
- ----- -- l -
t
- l*
4 o lli i r I ,
4 a
m LJ 0.40 -h '
j 1 - - - - - - - - - - i - - - - -t g l e
l 0.40 m uJ A l )\ l ,
a l
E I A
- w j \ 95% UCL i l i ,! l u l e I . ,,
. E 0.20 t-sy,7233noggg ng3g yd7g -- - - - - - - -- - -
'- --- -t 0.20
- g
, i i ! l i o dlK~~~~~~T~~'*~l~~~~~~1~- t _i-----^i 1 0.00 f ~ ~ ~ ~ ~7--- --- I'- - - - -+ L CALCU'ATED I i
-. i i
I L LEAK RATE t i
! 0.00
! l I I
'l I .
-0.20
-0.20
y-----------+l---
i 7 1 j ---- - -
l l l r !* l i i I i -
-0.40 L----=-------- ! - -- - - -- - - - - - - N -- " ---- - +i - - - - - - - b -- -" - ---- -0 +1 0.50 2.3G 4.10 5.90 7.70 9.50 11.30 13.10 40 4
HOURS L
STARTING PLOT TIME: MARCH 2 21:10 1
i
TOTAL TIME LEAKRATES VS TIME CALCULATED LEAK RATE Normal Test 95 x UPPER CONFIDENCE LIMIT Allowed Leak Rate 1.u] -- - - -
l -- - - - - -t -- i1.00 'i l i !
i ! 1
' l ! !
! l 0.80 -
y---- - - - - - - -
-p---- -- li - - - - - -
--- - t 0.80
- l i ! j : I j
, ! e I +
i i ; i 0.60 - - - - - --
+-- - - - -h - 4 0.60 4
m !I I i'
!, 4 m
n m
w 0.40 h,i- - - - - - - - - -
. I
,-------j--- .
r----- - j 0. 4 0 i*
m w
- ,; t
- o_
2 z
a
- 'i i.
i i
I l
}
m I J.20 - -
- 4 - - - - ' - - -
~ + 0.2L e N- -l. - 9 5 %' UCL - -- 't --- j i ALLOWED LEAK RATE l
_ _ _ _ _ !_ _ _ _ 1 _ _ _ _. .__. 1i i :' ' ' -
0.00 F- --t --- - t_ --- - - t - -
7- - = --- 1i - - -- i - i - - -- - -ie LCALCULATED LEAK RATE
---[ 0.C0 l
< i i j i ;
i 8 I I i
- e
-0.20 -----+------- - - - - - -
- --- - -b - 0.20
+- - - - -l - - -- - -- - - +!
,i i i
l l
l
- 9 g
I - ---- N- - - - - b --- -- +g ------4---^- A-- ----- - 0. 4 0
-0.40 --
0.50 2.30 4.10 5.90 7.70 9.50 11.30 13.10 HOURS
, STARTING PLOT TIME: MARCH 2 21:10
BN-TOP-1 LEAKRATES VS TIME CALCULATED LEAK RATE Verification Test UPPER At:D LOWER BOUNDS Target Leak Rote 0.1600 '
- - -+- - - -- i 3
. - --- f - --- -- 0.1 6 0 0 f !
' UPPER BOUND]
0.1514 .
ZZ ~N, --~~ 4 1 -~ZZ Z~~~42T 1- i
--0.1514 l l n 1 i .- g I
0.1429 ! - I-- - - -- - -
0.1429 s )
l m
a l' '
i I ,.
l u
a x 0.1343 .
- - - -i -- -f- 0.13 43 m ua C- ;
-t-- ------+l -- . ! TARGET !
u.s 1
= l
< ; l' =
;-----y----3----- 0.1257 0.1257 f- g -- - - %
h I
N 'l !
o l i O.1171 l
l--
l i- - -
I l
i T-I
-1 LEAK RATE l- 0.1171 i i 1 t
,I :
l, l
, i 0.1086 -
-j --[--- I'~ ~ ~ ~~ ~~ 'i ~
~ ~~ i- -
c j0.1086 l LOWER BOUND 1 I' ; ,
. _ _ _ .pi . _ 1 .
__. . _ 7 0.1000 ' - - - - - - - - - -- --
!-- ! 4 - - -- - + - - - - - - - 0.1000 0.50 1.40 2.30 3.20 4.10 5.00 5.90 6.80 HOURS i.
STARTING PLOT TIME: MARCH 3 11:55 A
STATISTICAL LEAKRATE RESULTS CALCULATED USING THE BN-TOP-1 NETHOD TABLE 1 TOTAL TIME LSF OF BN-TOP BATA DATA SET TIME TEST DRY AIR LEAKRATES LEAKRATES UCL JET 4 DAY HH MM SS TIMEe(HR) MAS 8e(LBM) e(%/D) (%/D) e(%/D) l 22 062 21t10100 0.000 0.89190125E+06 I 23 062 21825100 0.250 0.89188600E+06 0.1641 I 24 062 21140800 0.500 0.89190175E+04 -0.0027 I 25 062 21155100 0.750 0.89188700E+06 0.0511 0.0144 0.8870 26 062 22t10100 1.000 0.89189437E+06 0.0185 0.0003 0.3413 27 062 2?t25100 1.250 0.89186537E+06 0.0772 0.0311 0.3009 28 062 22140800 1.500 0 89187875E+04 0.0404 0.0287 0.2338 29 062 22855100 1.750 0.89187100Ef06 0.0465 0.0307 0.2011 30 062 23110100 2.000 0.89186362Ef06 0.0506 0.0340 0 1824 31 062 23125800 2.250 0.89187162E+06 0.0354 0.0307 0.1620 32 062 23t40800 2.500 0.89108112E+04 0.0217 0 0238 0.1424 33 062 23 55800 2 750 0.89187925E+06 0.0215 0.0191 0.1278
' 34 063 00t10100 3.000 0.09187137E+06 0.0268 0.0173 0.1184 35 063 00125100 3.250 0.89187850E+06 0.0188 0.0140 0.1086 36 063 00140100 3.500 0.89184687E+06 0.0418 0.0174 0.1087 37 063 00155100 3.750 0.89184312E+06 0.0417 0.0202 0.1082 38 063 01110800 4 000 0.89184237E+06 0.0396 0.0221 0.1067 39 063 01425!00 4.250 0.89184675E+06 0.0345 0.0225 0.1038 40 063 01140800 4.500 0.89184550E+06 0 0333 0.0227 0.1010 41 063 01155100 4.750 0.89183025E+06 0.0402 0.0243 0.1002 42 063 02t10100 5.000 0.89183887E+06 0.0336 0.0244 0 0978 43 063 02125100 5.250 0.89184912Ef06 0.0267 0.0233 0.0942 44 063 02t40100 5.500 0.89182737E+06 0.0361 0.0240 0.0930 45 067 02 55100 5.750 0.891839?5E+06 0.0290 0 0235 0.0905 46 063 03810!00 6.000 0.89183562E+06 0.0294 0 0231 0.0883 47 063 03 25t00 6.250 0.89182337Ef06 0.0335 0.0235 0.0871 48 063 03:40100 6 500 0 89180500E+06 0.0398 0.0247 0.0871 49 063 03155100 6 750 0.89182975E+06 0.0285 0.0242 0.0852 50 043 04110100 7.000 0.09181225E+06 0.0342 0.0246 0.0843 51 063 04 25!00 7.250 0.89181075E+06 0 0336 0.0248 0.0833 52 063 04 40!00 7.500 0.89179987E+06 0.0364 0.0254 0.0829 53 063 04!55 00 7.750 0.89180712E+06 0 0327 0.0255 0.0818 54 063 05t10 00 8.000 0.89179337E+06 0 0363 0.0260 0 0814 55 063 05125100 8.250 0.89180262E+06 0.0322 0 0260 0.0804 56 063 05:40!00 8.500 0.89177725Ef06 0.0393 0 0268 0.0805 57 063 05155!00 8.750 0.89178800E+06 0.0348 0 0271 0.0799 50 063 06110100 9.000 0 89179612E+06 0:0314 0.0270 0.0788 59 063 06125100 9.2SO 0.89180075E+06 0.0292 0 0266 0.0777 60 063 06!40800 9.500 0.89180787E+06 0.0264 0.0261 0.0763 61 063 06:55100 9.750 0.89179312E+06 0 0298 0.0259 0.0753 62 063 07810:00 10.000 0.89179450E+06 0.0287 0.0256 0.0743 63 063 07:25!00 10.250 Os09177987E+06 0.0319 0.0257 0.0737 64 063 07840!00 10.500 0 89175787Ef0'6 0.0367 0.0262 0.0737 65 063 07855800 10.750 0.89176275E+06 0.0347 0.0265 0.0734 66 063 08110100 11.000 0 89178462E+06 0.0285 0 0262 0.0725 67 063 08:25100 11.250 0.89176100Ef06 0.0335 0.0264 0.0721 68 063 08 40100 11.500 0.89176987E+06 0.0307 0.0263 0.0715 69 063 08tSS100 11.750 0.89178625E+06 0.0263 0.0259 0.0705 70 063 09110100 12.000 0.39174462Ef06 0 0351 0.0262 0.0704 71 063 09125!00 12.250 0.89176062E+06 0.0309 0.0262 0.0698 72 063 09140!00 12.500 0.89174087E+06 0.0345 0.0265 0.0697 73 063 09855!00 12.750 0.89175350E+06 0.0312 0.0265 0.0692 74 063 10110:00 13.000 0.89174337E+06 0.0327 0.0266 0.0689 37
- - . __ .--g APPENDIX A CALIBRATION 1;ECORDS
{
38
- FISCHER PORTER Cmmonwealth Ediscn Co, Date: 19 January 1906
Subject:
CFRrIFICATICH P.O. Box 767 Acets. Payable Ref: '8801A9415R0001A Chicasp,IL 60690 '8801A9415R00010 (8612A0248A1)
RIVISED COPY - 22 Ibbruary 1988 Customer ID#
ZTS-1315 FIDHMETER CATLIBRATION ACOJRACY CERTIFICATE A. lETER IDENTIFICATICH:
(1) Custczner Purchase Order Nurber: 761904 (2) F&P Serial Number: 8801A9415R0001A-B (8612A0248A1)
(3) W: del Nunber: 10A35555 B. CALIBRATICN SPECIFICATICNS:
(1) Date: 15 January 1988 (2) Flow Range: 10.2 To 0.8 Units: SCFM (3) Metering Fluid: Air (a) Viscosity 0.0181 CPS Density 0.0012 gns/cc.
(b) Specific Gravity: 1.0 60/60 F.
(c) Temperature: 70 F (d) Pressure 14.7 PSIA C. ACCURACY
- 1.0 % of Max. flow.
D. CALIBRATICH FACILITIES .
(1) The equipnent and asscciated procedures used in the calibration l
' of said meter are in accordance with MIL-STD-45662.
(a) Through establishment of values of physical constants for l
prf.msIy standards using tools of NBS accuracy pedigree.
' (b) Through direct, dynamic ecmparison of Fischer & Porter and NBS flow facilities using Fischer & Porter Turbine flownsters as transfer standards. NBS Test No. 213.31/193098.
(c) Through inter-laboratory ccmparison of ccrupatible Fischer
& Porter flow facilities.
- Unit eculd not be calibrated "As Received" since the tube WS8 DrQhen.
Very tnaly yours, .
(-
' u Charles J. hangione I
Mg 8m Sr. Flow Standards Engineer Pf3CM4A & PORTCA COMPANY CJR:m:lt WARWCTER PA. USA.19974 tassi e74-ecco casts. PseonT Tstex: ses.aie y,,,$
.' SERIAL Ho.18801A941SR00013 DATE115 JAH 80
- TUBE:FP-3/4-21-G-10 i FLORT:CHSVCT-54 HAX FLOW: 10.2 SCFM $P GR: 1 PRESSURE: 14.7 PSIA TEMPERATURE: 70 'F
!HSCRIPTIGH:SCFM AIR MET 314.7 PS! A & 70 F .
CFLIBRRTION DRTR FLORT DEH: 8.02 CORRECT 10H FACTOR 1 59.7551 RIC:R-10 CALIBRATION FLUID AIR VISCOSITY: .018076 CPS FLUID SP GR: 1 BAROMETRIC PRESSURE (Pb): 14.060 PSIR METER PRESS.: 1 1H. HG R1G STATIC PRESS.(Pg): .07 PS!
METER TEMP.: 68.2 'F ROOM TEMP. 68.2 #F TEST DATR RESULTS RUN # C_UBIC FT SECONDS SCRLE mm SCFM 01 2.0000 131.710 15.000 02 2 0000 92 12e 0.9874 03 2 0000 25.000 1.2973 51.120 50.000 04 3.0000 53.240 2.3378
.05 4.0000 75.000 3.36?1 06 54.218 100.000 4.4892 4.0000 43.700 125.000 07 5.0000 46.810 5.4696 00 6.0000 159.000 6.4937 47.400 175.000 09 c.0000 41.620 7.5639 le 7 0000 200.000 8.6144 L1 42.990 225.000 947298 8.0000 43.960 250.000 10.9744
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CERTIFICAR W CALIBRATION YOLDEIRICS i
3025 bun'4 "ISEA, PASO ROBU3, CA (805) 239-0110 Dant.1/ / /.B_d RECALL: 'l / / /_8g PURGASD:64<*newa//4 N,You [o., 3rw P.O. No. : $1s N/
TE5T TITLE:,,, R 7 0 JA/ S / T #s-H D L i: /M27 JOB NO.: 09/2 /G S BIAL NO.: b F,m/TCOV'T 021. to. N /A D0C. No.: 83 o 8 2 yor
'1his is to certify that the enclosed Test Data Sheet (s) contain correct and true data obtained in the performance of this test program as set forth in your Purchase Order. '
Insttmentation used in obtaining this data has been calibrated using stardards which are traceable to the National Bureau of Stardards.
CALIBRATION PROCEURE(S): TP 24'OL,Ru 2-TEST STNiDARDS USEL; .
- CERTIFIED CAllBRATION DUE ___
EQUIFMENI'- NO. ACCWACY DAE DAE C.8 C G, 052 $ o Cb'l ,
T-$-8 7 _ 5 ~ $ -88 C, g , c o, 6,iy fl,3y' 2 -gg 2 -97 ENCIDSURES: DATA SHEEPS ( PAGES)
QUALITY ASSURANCE APPROVAL V FDRM-10024 REV. 4
ILRT CAllBRATION REPORT sNEET,or REQUE4 TOR d,um,, Atf,a /4 E//ser,da,, grow CustoWER P.O. NO. '3/$99/
MODEL NO. fygg/ SER. NO. $g e [34[oy W.O. NO.
^" Of[2 /5'G PROCEDURE NO.TP MOL e k. 2. RE 1 ROOT 8' /s p o g A AL SPEC'8: f o,6 0[
FUNCTION TE S TE D: RTO I n 5 rf u 's Aeiua( Jula c-(<t sus ~
Cfannel (op ) (op) S/N 4 I /os,y 68,18b i393 % .M
- 2. 68.9 6 8, '/3'/ 139435 0M
.3 68.V 68,6d '/ I 3 9'/38 . tan 4' 68,y 66,89/ # 3 9 v4.A .44) -
5 6 8, "' b8> 135 is94Yb .02T fp &B,y b8 '706 139447 .30%
__ 7 b8,5 68,150 is9'nes .oso 8 6B,3 ~68, 7di i39449 405~ _
9 G8,3 68.668 1314so .x,9, IO b8'3 bO'536 13945/ .5%
i/ b8,3 68,57? I39453 .> n (2 (38,3 68, l66 I%945b . \ Sa-(3 L,8,3 68,3to Ib9458 OLO
/ '/ 68.3 68,35f l39451 .0%
t5 b8,3 6 8,759 I59 4c4 .H%
I6 b8, ( 68,(3/ Ib9'l&G Dat (7 66,3 68, /g i39y68 ,tg
/8 68,9 68. 5JY I 3 9 'r'o .nq
/9 68,V 6B,539 13947/ .g p !
'2 o 68,'{ 68,385 139 179 .otr at be,Y 6 8, 115 139476 .06 -
V-C-1 '66.8-1961 COMPLETE OTHER StDE
RTo Iu s t ru t
( \
Chaun< ( Adud Iskafd S engoe No. ( *F) (*F) S/N b ^
2A 68, ( 68.Y95 !39477 .W 23 48,/ 68, t93 139477 .oss 2t' 68. t 67,986 I39483 .t\(
25 68.i L,7, 9 W l39485 .tMo 2 fo 68,3 67.776 I 39 YB7 . 534 27 68 3 fo8.580 I59488 .htc
'2 8 68, / 6 7, 997 I 39 VB9 .t%
29 68al G,7. 9% ib 9 'l9/ .\(,f LIST CF STANDARDS TRACEABLE TO M8 8 '
EQU1PMENT SERIAL ATCURACY
^
RECALL DATE C' 8 u d,E.C O, o 98 098 f . 06yA- S s 7 5 . S -g g Cu s. C o o G l'f Illct5 t I. 3y 2-88 2 ~B 7 WonR MMf'ORME9/ COMMENTS
.~
TESTED S Y APPR. 5Y
/DATE k p. M aAA-L 3-/-Bg /DATE O/
y CD EIFICATE OF CALIN ATION VOU.tEIRICS .
3025 BUDR VIsrA, PASO RWLES, CA (805)239-0110 DATE 3] / /8B RID 11: 9 / / /88
, PURGASER:davasn4rea/M fa/,'fou A., 3/o# P.O. NO. : $1B N/
TTSI T11u: DEK/C Et L J A/ S < T- 4 's K0EL #: / Wo 2 7 JOB NO.:
_ o{/2 /56 SERIAL NO. : 5',e My.,tGOV'T CN. NO. N/A 00C. NO. : 83os e vo/
This is to certify that the enclosed Test Data Sheet (s) contain correct and true data obtained in the performance of this test progran as set forth in your Purchase Order.
Instnmentation used in obtaining this data has been calibrated using standards which are traceable to the National Bureau of Standards. , ,
CALIBRATICN PROCEIURE(S): 7 F 2to/ R.v, 2 _
TEST STASTARDS USED:
CFRTIFIED CALIBRATION DlJE EQUIPMENT NO. - ACCL"rMCY DATE DATE
\l M C s o b 2 1.ocf 2-2 -88 8 48 C,E CQ,098 2 , 064 -Q- 5-5-87 6-5-88 C , E, CO, 6 /'/ +l,'5y z. -S S 2 -81 ENCIDSURES: DATA SHEEIS ( PAGES)
QUALITY ASSURANCE APPROVAL V FDRM-10024 REV. 4 l
e
ILRT CAllBRATION REPORT e NE E T, Or REQUESTOR gog,g ,,, pf g, /M [g,50h o,, 2 soy CUSTOWER P.O. NO. $l691/
MODEL NO. (91 g 27 SER. NO. $pg 8 g /'o w w.O NO. c4tlgjg PROCEDURE NO. 79 240/, g 2- RE I N T8' ~ 6. O eg
~
ACTUAL 8PEC'8: Y y,o of FUNCTION TESTE0: (32W CRLL. IN9/Ty&
Ckunel % .g o r- Aefu a l' h <!,edd No, S/N *p L of
'b o 14 9 42.000 N/, 86f .I 39 3( l55 6'2 000 N(, lik .%%
3 2. 2.t2 42 .o 00 40.869 \.ty - .
33 226 42.odo f/,56/a .qM 3 '/ 227 'r2. 0 00 37,455 4.9(f 35 23o 4' 2 o o c 40.65/ t.qqq
% 2'5/ Y2,006 40,770 \. :t 3 __
37 /ot7 et2 doc 4f,Wf .gR 38 7o 2. ~ v2.000 4/, / 78 .b1 3'? 7// 12 0oo 4/. 5 'l5 .(Of 6
t 1
- 66.s-1981 V-C-1 1
COMPLETE OTHER 8lDE 1 .
DEW I N S I YV 's ;
\
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m LIST OF STANDARDS T R ACE ABLE TO M5 8 '
EcuruENT SERIAL AccuRAcv RECALL DATE c AL$a^n!TEo V M C- S olo Sob $1.o*C 2-2 -88 8-2-88 Co E.CQ, 09 8 098 2 . 04Y A 5-S-87 5-5-88 C. E. CO. ht4' ll tots ? ),3y 2-88 2-89<
WORK PTPtFORMED/ COMMENTS e
\
~
TESTED S Y' ; APPh. EY
/DATE ( I? j ,_ g 3-/-88 /DATE c r
- canricAu 0F CALIMATim vo w M m ics 3025 BUDE VISTA, PASO RCRES, CA (805)239-0110 DAu:_3_/ / /_BJ RECALL _ 9 / / /_8g PURO%SS:64<*,,w.//4 Eerou [o., J/o4' P.O. NO. : S/B U/
TEST TYI2 : L o'C S,4,,a v
l don cL% ;ua 4
KOEL f: /962 7 JOB NO.: O r/2 /66 SERIAL to.:_ S<<84,c/fCOV'T O.N. NO. A//A 00C. NO. : e 3 03 4 c>/(a This is to certify that the enclosed Test Data Sheet (s) contain correct and true data obtained in the perfonnance of this test program as set forth in your Purchase Order.
Instrunentation used in obtaining this data has been calibrated using standards which are traceable to the National Bureau of Standards. .
CALIBRATICN PROCEI)URE(S): C P 20/(0 , den 3 TEST STANDARDS USEI):
CERTIFIED CALIBiATION DUE EQUIfttENT NO. A017ACY -
DATE CATE
~
0.E . CO. C 48 $
- bb Y JL 5-5-87 6-5-88 0 E.C G. C/13/ f , o&y JL Af-3-87 V- J -88 EN(10$URES: DATA SHEEIS ( PAGES)
QUALITY ASSUPRKI APPROVAL V Em4-10024 REY. 4
ILRT CAllBRATION REPORT eNEET GF neOueston vowmuy u //4 E// son 6., Etov cusTouen P.o. No. 3fa9ff WOCEL NO. /yff 7 SER. NO. $p, f,[g W.O.NO.C([2/64 PROCEDUR1E NO.dF 2ol(a,4. 3 ou h f,C'F ACTUAL SPEC't: f f, $~ *g FUNCTION TESTEO: Q g gy c g y $ (9 n s { (o n dgYg'o n t'n 3 c igyt . Adu I r,.J,'eded Chw. A edua l le d<'cated Wo. *F *F Wo. 'F *f 30 40.000 6'O.000 3l 90. 00 G 90.o 5 7 70 000 69.9/'l 70i006 (o 9, f 75 100 00v 99 132 l o o. 000 9c7, 97 7 3 2- 'forOOD 'fo.62 3 33 'f0. 0 00 40.098 70 000 (sq. 9% 70 OGC 69.??2.
100.o00 19,978 /00 066 Ico. cG <f 3 '{ 40 000
~
ifo. c6L 35 40.000 0,o05 70 000 70. 0 0Y 70.00C 10.036 too. boo /o0,078 locroc& l 00. 0 3 '(
1 M 40 000 90,07/ 37 10 000 yo, o S2 70 000 (c 9. 96Y 79,0GG fo9.974 Ioo.000 /00.052- , /o&.006 I c c . C 'f 3 -
38 'fD 60G 40.022- 37 4Q 006 4 32 5 70 060 69,9'1L 70,000 69, 953'
/00 000 /00.02 9 (00.000 99. 9 9L. .
l V-C-1 '66.8-1981 CouPLETE OTHER Cl0E
6
%cJ 8,y8./ &uclaIa'ous1,, (
O P
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4 LIST CF STANDARDS TRACEABLE TO M8 8 ' g
' EQUIPdHT SERIAL ACCURACY ^ ^
CAL BR TED l-WORK PtRFORWED<COWWENTS e
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s CHART 4 l-DEWPOINT FIRST SECOND CHANNEL RE ADING. RE ADING ' REPE AT ABILITY NO. 'F 'F- 6*F 30 6 7,9/ V /of. 9/ 5 0,oo/
3/ 69.475 69,976 0 00l 3L 69,9 % 69, 99'& O ,0 0 c>
35 69,99k 69 992 o wo 3y 70,0 0'( 70.cio 5 0,00(
35 7o,o36 7o,o '3 I o 005
% 69,944 69.96& O oO 2-37 69,972. 69,~ 9 75 O,00 3 38 69,99A 69,995 o , oci.3 39 69.953 69, 95 .?- c oo(
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V-FORM 10120
CarIFICAE OF CALIBRATICN VOUMEIRICS
[
3025 BUDu VISTA, PASO ROBLES, CA (805)239-0110 DAR: 2 /J$ /,gg RIrA11:[d/ 26/ 88 PUR WASB:6mmonwen//4 f<//w(o., Etoy_P.O. NO. : 3 /8 ?9/
TEST TITti: A -1 0 0 D. A. S. Ca la ' b r o 'f o' o n FODEL #: / y'(, 2 7 JOB to : O r/2 /@
SGIAL !O. : /%,2W GOV'T (DN. to. NM DOC. NO. : 82 ok iocci i
'Ihis it, to certify that the enclosed Test Data Sheet (s) contain correct and true data obtaincd in the performance of this test prograrn as set forth in your Purchase Order.
Instrunentation used in obtaining this data has been calibrated using standards which are traceable to the National Bureau of Standards.
CALIBRATICN PROCH1'RE(S): CN 2636e b #' O
'IIST STANDARDS USED: -
CERTIFIED CALIBRATION CUE -
EQUIP EYr NO. ACCLTACY CATE DATE
~
V MC 2/O A%,,%, __< 9 .% 81 9-2 5-88 DiClJOSURES: DATA SHEEIS ( PAGES)
QUALIT( ASSURASCE AITRCVAL V FORM-10024 REV. 4
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ILRT CAllBRATION REPORT 8HaaT er CEQUESToa vommmy < /M E4s,*t 6., Etov cu8 TOWER P.O. NO. 3/g9y/
uoOtt No. tyg 7 8ER. No. it/M 7- / w.o.No.oyl2154 P ROCEDURE NO. c/8 30 3$ , g. 8 RE NM. g ACTUAL 8PEC'8: 02 .
FUNCTION TESTED: A -(CO h/} [ da {/8r ( 0,9
$g,,g e Ach a l Inkcubd (v) (n v) (m v)
I0 +9900cc & 964,990
+ 6co.ccG + 5Co. co c
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- 990. c cc -189 '/9&'
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+ % adc + 50 coy
+ 99 000 498,996 V-C-1 '68.8-1981 COMPLETE OTHER S(OE
p oo es.s . ca K J.u, (
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LIST CF STANDARDS TRACEABLE TO NB8 E O4A P uE N T SE RI AL A6 CURACY
^
C RECALL DATE 8 TED WOf1K PtRf0f44ED/COWWENTS TESTED APPh. 8Y
/DATc B Y _//(- p[M4__ '2 -2 P f B /DATE v/
C mTIFICAR Or C m W I VotDE11tIG {
3025 BUDR VISIA PASO XSLES, CA '
(805) 2N10 mlts L/23/.da umLs BJ13/la PURO VSES:_6nr>wowedd f&sou fo,, gioy p,0, NO, s 3jg y/
usr TrIu: RTO S.3 n a [ 8ouc// 6'o n / 9 K0EL #: / y6 2 7 JOB NO.:_07/2/56 SERIAL NO : h B fGOV'T EN. NO. N/A DOC. NO.: 83 o3 2ccV
'Ihis is to certify that the enclosed Test Data Sheet (s) contain correct ard true data obtained in the performance of this test progran as set forth in your Purchase Order.
Instrtmentation used in obtaining this data has been calibrated using stardards which are traceable to the National Bureau of Standards.
CALIBRATICN PROCEDURE (S): C P 2 co 4', /N 3 TEST STANDARDS USED:
CERTIF4FD CALIBRATION DUE ~
EQUIFMENT SO. ACCRACY DAE DATE d E, do. O '/ 8 -
$ %vA 6 B ~7 5 88 C f. co. Giq i I, W 2-88 2-89 LNGDSURf3: DATA SliEEIS ( PAGES)
QUALM ASSURANCE APPRCVAL V FDRM-10024 REV. 4 u
2 .
ILRT CAllBRATION REPORT sHaar , ce naouseron v,wm,ayu /// E// son 6., Etog cueTown P.o. wo. 3/395/ l woost no. /yg,g 7 seR. No. S',e M o y w.o. NO. O F[2 /54 PROCEDURE NO.C# 200V, g,3 . ,Yd, f o f ACTUAL SPEC't: ,f g ,f e h*
FUNCTION TESTEO:
RT0 S,'j p / do M 6'o n t n y
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ActusI Ih d' IA Sen se.e k ov 4tual J r'dic<kl No. C'F) (*P) No, OF) (*F)
I 60,crCo b o, col 2- 60,000 59,994, 90 on 90,Gl? %.000 g o, cc L i 2 ci croo a ll 9, 9 9 0 .
120.cco ll 9. 7 90
.3 6 0. c00 6 g .oc 2. 4/ 60.000 40 oa7 90 0u0 90, o +O S0.000 90.O/y R
t 2v,000 120. c to ito,000 1.L7,980 5 60 000 h o.cty 4, to. Ooc
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V-C-1 '66.8-1981 COMPLETE OTHER 8 t0 E
ILRT CAllBRATION REPORT O NE E T , OF
\
Raoutefon 4%,uq <o //f E// son 6 , Etog cusToWER P.O. NO. 3,f g 9f/
uooEL NO. /ygg 7 *E R. NO. g,, Qg W.O.NO.oy/2/54 PROCEDURE NO.cp Joo./, p. 3 0U1 *kYo,9,g ACTUAL SPEC'8: + g, j vg FUNCTlON TE S TE O: gg g. g / d, f-( o g*gq v v Sr sie Aedue] 2 echcsfed SonSov Actuo / .Tedicdel Alo. C'F) ( op) No. ('F) (1) ll 60.ccG 60 oo? l2- 60'%0 60.018 90.cu o b't, 9 5v' 90 -G00 8%9S3 Izo .cc c p o c* t o - Iloado )20.006
- I3 60. 0 c'o 59 975 14 60 m 60.035 90.000 90.007 90.ccc 90.0/0 I2 0 voc 12 0. c,2 0 - l20 coc t20,03o I ST 60 000 59.?6o 16 60,000 60.035
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90,000 8 9< ?9y 90.000 89,970
/20 000 lt4, '780 t20.GCo (19 970 17 bo. coc go.o2 g 1e co. coo cc o,o e s 40 oGG 89.9 5.2, 90 00& 90, c,t/9
/20 000 120,010 -
/30,oc0 19 60 000 69,995 20 60.000 6 9,9$7 90,000 go,cc] 90,0GO 90,o 50 l 20
- O CQ tI '),190 /20. coo ll9, '/80 t :
V-C-1 '66.8-1981 CouPLETE OTHER Sl0E
l ILRT CALIBRATION REPORT eNast , or neoueston 6m ,uun //4 E// son d,,, Etog CueTowen P.o. wo. 3;g9ff ,
uoon No. ty(,z 7 sen.No. $e< Q ( y w.o. No. o y/a pjg PROCEDUR1E NO.cp h y,g,3 Q. ,f o, $. ,g ACTUAL eMC's:
de / #E FUNCTION TE S TE D: gg gjgp[ dpg/g h'Cttirtg
&nsov Aeta ( .t,J; e a.fd sen 50< A e.lu u l .Tekeded Wo. (* F) (* F) No. ('F) (* F) el 4 0 0c0 59. % 7 22- lo o 000 6 0.048 90 000 89.98/ 90.Gco 90a023
/20 000 f t 9 960 I? Cr.c40 /20; or o
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26 60 000 60,c o t Lg _
f o. c>cc $9,79V 90 000 Go.o sf 9 90ioco g9,975 12a.000 (2 0 , 0)'e> I20,0C0 /.? o r olo 27 60 00G Su, 'j y 28 (00< 0 G0 c.o.c CO 900 Gc) 90, o z c, go,occ 90.05c l /20 000 // 4 9 9c. Iw OCC /ty,990 E7 60.000 60,002,.
90,000 90.o r/
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ACCURACY RECALL DATE C 8R EO
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2-2 9-88 toATE j7
CHART 3 RTO FIRST SECOND .
CHANNEL RE ADING RE ADING REPE AT ABILIT Y !
, NO.
F 'F 6'F l l 90,0t9 g o . o .1 o 0 oo t A l s 003 Co cio .com. O.000 ,
3 '1 0, o 34' 40, o S o cro ,1 i 6' 90.oty 90, o l(o _ a.co x 5 89< 979 89,976 o cco
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t8 90 049 90 050 o cm i t.9 90,007 40 007 0 000 20 go.oSo 90.0 y ? o.oo3 Al _ _ _ _
69 961 81 982
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89.960 67 959 0 00l 2.5 _.. 89 975 e 9 9to9 o oo6
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CHART 3 RTO FIRST SECOND CHANNEL RE ADING RE ADING REPE AT ABILITY A*F NO. F F 2 fo 90009 900y9 0 000
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STXTEd$R DE.GdNFOF4MdADE;
.voL6utTalos cERTipt'E8 THAT T E LISTED VjPMEN7. i EQUlnED "MWM8"8iMG2FifA"9!L #ay#e,Tlou '
CUSTOMER: OGMMONWEALTH EDISON CO.
P.O. N'O.: 761895 REV'. N / A
. WORK ORDER NOa 06/9790
- t. ~
DESDRi& TION OF EQUIPMENT': RESISTANCh TEMPERATURE DE - ,
TECTOR,. DEWPOINT SENSOR M/ N:. N / A S/N: PLEASE SEE CERTIFICATE OF CALIBRATION FOR SERIAL NUMBERS COMMENTSf 0NE._ . - - - - - - _ . . _ _ _
'VOLUMETR}C8 nEPRESENTATIVE "' ' '
O. A. MANAGER TITLE 23 DEC 1987 DATE
~
h tyy pnu t,_oys
.- ' L'- - .
VOLUMETRICS P.O. BOX 2004 PASO ROBLES, CA 93447 e '05 ) 239-0110
============================================================
CERTIFICATE OF CALIBRATION Document. Number 85 10 9790 Purchaser: Commonweal th Edison Company P.O. Number: 761895 Cont <act Number: N/A Volumetrics Job Number: 06/9790 Test Article: 'latinum Resistance Temperature Sensor Manufacturer: Volumetrics '
Model Number: 41100009 .
Serial Numbers: See Report Date of Cer ti f i c ati on:. December 24, 1987 Recommended Recall: June 23, 1988 Reference Document: ANSI /ANS-56.8 (1987), Section 4.3.1.1 STATEMENT OF CONFORMANCE This is to certify that the enclosed Test Data Sheets contain correct and true data and/or results obtained in the performance of the required test program for the listed equipment as set forth in the referenced Purchase Order and applicable specifications.
Instrumentation used in obtaining thi s data has been calibrated using ntandards which are traceable to the National Bureau of Standards.
A list of these standards and their associated attributes is included in the attached Test Data Sheets. Records of traceability are on file end are available for inspection at our laboratory.
This 7 page report was compiled and printed on December 24, 1987.
Tested by: __ h. Mfh0 DO--___--______.________ Date: $_'_2_ _ ___
C. Morones Approved by: _ _ ,,__ _---
Assurance
_________________ Date: ./h d d _ -
Qual i t
=====================================n======================
VOLUMETRICS P.O. BOX 2004 PASO ROBLES, CA 93447 (805) 239-0110
...................................=....................................
Customer: Commonwealth Edison Company P.O. Number: 761895 Test Article: Platinum Resistance Temperature Sensor Serial No(s): See Report WORK PERFORMED The sensors, au received by our lab, were in good condition. No maintenance or adjustment was necessary prior to taking 'as-left' readings.
The calibration was performed using Volumetrics Calibration Procedure number CP2037, Revision 1. The sensors were compared with a standard at nominal values of 60, 90, and 120 degrees Fahrenheit. The accuracy of this comparison.is +/- 0.1 degrees F. The achieveable system occuracy is +/- 0.2 degrees F, as compared with the required accuracy of +/- 0.5 degrees F. Further information regarding this calibration can be f ound in ANSI /ANS-56.8 (1987), Section 4.3.1.1.
This report lasts the resistance readings obtained at the indicated temperatures. Al so li sted i s the calculated ice-point resistance (R(0)), alpha and delta values, and resistance at zero degrees F.
The ambient laboratory conditions at the time of certification were 72.0 degrees F, 14.37 PSIA barometric, and 50*/. rel ati ve humi di ty.
COMMENTS ON WORK PERFORMED V i hN I
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- P.O. BOX 2004 PASO ROBLES, CA 93447 (805) 239-0110 STANDARDS USED
, The following standards were used in the performance of this test:
! A. VMC210 Digital Mul t i meter , serial #20175, +/- O.012% Reading was calibrated September 26, 1987, is due September 25, 1988, and is traceable to test report #521-07-87.
! B. VMC215 Decade Resistnce Box, serial #1327,' +/- 0.01% Reading was calibrated July 7, 1987, is due July 7, 1988, and is traceable to test report #1089.'
C. VMC702B Secondary RTD, serial #135668, +/- 0.02 degrees C l was calibrated December 15, 1987, is due December 15, 1988, I and as traceable to test report #2343131228555.
i e
........... . ..... N .. . .. ....................
VOLUMETRICS P.O. BOX 2004 PASO ROBLES, CA 93447 (805) 239-0110
.......................=..................................................
Customer: Commonwealth Edison Company P.O. Number: 761895 Test Article: Platinum Resistance Temperature Sensor Manufacturer: Volumetrics.
Model Number: 41100009 -
Seri al No(s): See Report ,
--+--------------------------------+--------------------
Sancor #01 1 60.00 deg F = 106.17 ohms I R(0) = 100.01 S/N 139396 I 90.00 deg F = 112.72 chms i Alpha = 0.003889 l 120.00 deg F = 119.23 chms ~ i Delta = 2.089 i l O Dg F = 92.93
---_-----_--_-------+--------------------------------+--------------------
Sansor #02 1 60.00 deg F = 106.08 ohms i R(0) = ,99.94
. S/N 139435 I 90.00 deg F = 112.63 oh,ms i Alpha = 0.003900 1 120.00 deg F = 119.14 ohms ! Delta = 1.489 I I O Dg F = 92.89
__-----_--+--------------------_--_---__---+----------___---_--_
Sansor HO3 1 60.00 deg F = 106.17 ohms 1 R(0) = 100.01 S/N 139438 I 90.00 deg F = 112.73 ohms i Alpha = 0.003876 1 120.00 deg F = 119.22 ohms ! Delta = 2.695
, l , ! O Dg F = 92.90
+--------------------------------+--------------------
Sansor MO4 1. 60.00 deg F = 106.06 ohms i R(0) = 99.91 S/N 139442 1 90.00 deg F = 112.62 ohms I Alpha = 0.003906
! 120.00 deg F = 119.14 ohms !- Delta = 1.487 I I O Dg F.= 92.85
+--------------------------..-----+--------------------
Sein sor #05 1 60.00 deg F = 106.11 ohms i R(0) = 100.04 9/N 139446 I 90.00 deg F = 112.62 ohms 1 Alpha = 0.003913 1 120.00 deg F = 119.14 ohms ! Delta = -0.396 I I O Dg F = 93.11
+--------------------------------+--------------------
Sansor #06 ! 60.00 deg F = 106.05 ohms ! R(0) = 99.91 S/N 139447 1 90.00 deg F = 112. 60 ohins I Alpha = 0.003905 l 120.00 deg F = 119.12 ohms ! Delta = 1.388 1 ! O Dg F = 92.86
+--------------------------------+--------------------
Sensor NO7 1 60.00 deg F = 106.11 ohms i R(O) = 99.97 S/N 139448 1 90.00 deg F = 112.65 ohms ! Alpha = 0.003900 l 120.00 deg F = 119.16 ohms ! Delta = 1.290 l l O Dg F= 92.94
_----_----------_--+-_------------------------------+--------------------
Sensor #08 1 60.00 deg F = 106.05 ohms ! R(0) = 99.97 S/N 139449 I 90.00 deg F = 112.57 ohms ! Alpha = 0.003926 1 120.00 deg F = 119.10 ohms ! Delta = -0.592 I I O Dg F = 93.04
+-------------------- -----------+--------------------
Sensor HO9 1 60.00 deg F = 106.11 ohms I R(0) = 100.06 S/N 139450 1 90.00 deg F = 112.61 ohms I Alpha = 0.003917 l 120.00 deg F = 119.13 chms i Delta = -0.988 I I O Dg F = 93.17
+--------------------------------+--------------------
VOLUMETRICS P.O. BOX 2084 PASO ROBLES, CA 93447 (805) 239-0110
.............................-==========.-============....................
Customer: Commonwealth Edison Company P.O. Number: 761895 '
Test Article: Pl atinum Resi stance Temperature Sensor Manufacturer: Volumetrics '
Model Number: 41100009 .
Serial No(s): See Report
+--------------------------------+--------------------
Scnsor #10 1 60.00 deg F = 106.22 ohms 1 R(0) = 100.14 S/N 139451 1 90.00 deg F = 112.74 ohms ! Alpha = 0.003910 1 120.00 deg F = 119.26 ohms
~
l Delta = -0.198 1 l O Dg F = 93.20
+--------------------------------+--------------------
Ssnsor #11 1 60.00 deg F = 106.10 ohms ! R(0) = 99.98 S/N 139453 l 90.00 deg F = 112.62 ch,ms I Alpha = 0.003900 1 120.00 deg F = 119.13 ohms ! ~ Delta = 0.893 I I O Dg F = 92.98 )
___--___--_---__----+--------------------------------+---_------_-_---_--- ,
Sensor #12 1 60.00 deg F = 106.11 ohms l R(0) = 100.03 l S/N 139456 I 90.00 deg F = 112.62 ohms l Alpha = 0.003901 1 120.00 deg F = 119.13 ohms l Delta = 0.198
! l O Dg F = 93.08
_--------------+_-------------------------------+---_-------------_-_
Sanser #13 ! 60.00 deg F = 106.09 ohms i R(Os = 99.96 S/N 139458 I 90.v0 deg F = 112.63 ohms ! Alpha = 0.003894 1 120.00 deg F = 119.13 ohms 1 Delta = 1.491 1 i O Dg F = 92.92
+--------------------------------+--------------------
Sensor #14 1 60.00 deg F = 106.05 ohms i R(0) = 99.90 S/N 139459 I 90.00 deg F = 112.60 ohms ! Alpha = 0.003893 1 120.00 deg F = 119.12 ohms ! Delta = 1.989 1 1 0 Dg F = 92.83
+--------------------------------+--------------------
Sensor #15 1 60.00 deg F = 106.10 ohms ! R(0) = 100.01 S/N 139464 I 90.00 deg F = 112.61 ohms I Alpha = 0.003911 l 1*20.00 deg F = 119.13 ohms i Delta = -0.099 l l 0 Dg F = 93.07
+- - .----------------------------+--------------------
Sensor #16 60.00 deg F = 106.10 ohms i R(0) = 100.01 S/N 139466 I 90.00 deg F = 112.62 ohms i Alpha = 0.003913 1 120.00 deg F = 119.14 ohms I Delta = .000 1 1 0 Dg F = 93.05
+--------------------------------+--------------------
Sensor #17 1 60.00 dag F = 106.06 ohms ! R(0) = 99.95 S/N 139468 I 90.00 deg F = 112.60 ohms ! Alpha = 0.003916
! 120.00 deg F = 119.13 ohms i Delta = 0.494 I I O Dg F = 92.95
+--------------------------------+--------------------
Sensor #18 1 60.00 deg F = 106.06 ohms l R(0) = 99.91 S/N 139470 1 90.00 deg F = 112.61 ohms ! Alpha = 0.003898 1 120.00 deg F = 119.12 ohms i Delta = 1.688 I I O Dg F = 92.85
+--------------------------------+--------------------
VOLUMETRICS P.O. BOX 2004 PASO ROBLES, CA 93447 (805) 239-0110 Customer: Commonwealth Edison Company P.O. Number: 761895 Test Article: Platinum Resistance Temperature Sensor Manufacturer: Volumetrics Model Number: 41100009 -
1 Serial No(s): See Report '
+--------------------------------+--------------------
Sanser #19 I 60.00 deg F = 106.07 ohms l R(0) = 99.85 S/N 139471 1 90.00 deg F = 112.66 chms ! Alpha = 0.003890 1 120.00 deg F = 119.18 ohms l Delta = 3.486 I I O Dg F = 92.66
+--------------------------------+--------------------
Sansor M20 1 60.00 deg F = 106.09 ohms l R(0) = 99.89 S/N 139474 1 90.00 deg F = 112.67 ohms ! Alpha = 0. 003876 1 120.00 deg F = 119.16 ohms i Delta = 3.597 I I O Dg F = 92.71
.----------------+--------------------------------+--------------------
Sansor #21 1 60.00 deg F = 106.10 ohms i R(0) = 99.94 S/N 139476 I 90.00 deg F = 112.64 chms ! Alpha = 0.003888 1 120.00 deg F = 119.14 ohms ! Delta = 2.091 1 1 0 Dg F = 92.87
+--------------------------------+--------------------
Sansor #22 1 60.00 deg F = 106.07 ohms I R(0) = 99.93 S/N 139477 l 90. ( O deg F = 112.63 ohms I, Alpha = 0.003919 1 120.00 deg F = 119.16 ohms 1. Delta = 0.889 t .I O Dg F = 92.90
_----____-_____-----+-------_-------_---------_-_----+---_-----_----------
Sensor #23 1 60.^) deg F = 106.08 ohms I R(0) = 100.01 S/N 139479 1 90.GS deg F = 112.61 chms I Alpha = 0.003948 1 120.0) deg F = 119.17 ohms ! Delta = -1.471 1 I O Dg F = 93.12
__---------+------------_-------------------+--------_-------___-
Sensor #24 1 60.00 deg F = 106.06 ohms ! R(0) = 99.91 S/N 139483 1 90.00 deg F= 112.62 ohms ! Alpha = 0. 003912 1 120.00 deg F = 119.16 ohms ! Delta = 1.385
! l O Dg F = 92.85
+-----------..--------------------+----------...---------
Sensor #25 1 60.00 deg F= 106.07 ohms 1 R(0) = 99.90 S/N 139485 l 90.00 deg F = 112.65 ohms ! Alpha = 0.003928 1 120.00 deg F = 119.20 ohms I Delta = 1. L'81 1 I O Dg F = 92.81
_--------------+----------------------------_---+--_-------_--____-__
Sensor #26 1 60.00 deg F = 106.09 ohms l R(0) = 99.90 S/N 139487 l 90.00 deg F = 112.66 ohms ! Alpha = 0.003888 1 120.00 deg F = 119.16 ohms ! Delta = 2.889 I I O Dg F = 92.76
+--------------------------------+--------------------
Sensor #27 1 60.00 deg F = 106,07 ohms l R(0) = 99.86 S/N 139e88 1 90.00 deg F = 112.65 ohms ! Alpha = 0.003885 l 120.00 deg F = 119.16 ohms l Delta = 3.490 1 I O Dg F = 92.68
+--------------------------------+--------------------
l VOLUMETRICS l P.O. BOX 2004 PASO ROBLES, CA 93447 (805) 239-0110 l i
Customer: Communwwal th Edi son Company l P.O. Number: 761895 l Test Article: Platinum Resistance Temperature Sensor Manufacturer: Volumetrics Model Number: 41100009 -
Serial No(s): See Report
+--------------------------------+--------------------
Sensor #28 1 60.00 deg F = 106.06 ohms I R(0) = 99.88 S/N 139489 l 90.00 deg F = 112.64 ohms l Alpha = 0.003894 '
1 120.00 deg F = 119.15 ohms l Delta = 2.686 I I O Dg F = 92.74
+--------------------------------+--------------------
Sensor #29 I 60.00 deg F = 106.06 chms I R(0) r 99.83 S/N.139491 1 90.00 deg F = 112.65 ghms l Alpha = 0.003879 1 120.00 deg F = 119.16 ohms i Delta = 4.096 1 1 0 Dg F = 92.61
-__----_------------+------------------------_-------+-----------------___
Sensor 430 1 60.00 deg F = 106.07 ohms I R(0) = 99.85 S/N 139492 1 90.00 deg F = 112.66 ohms ! Alpha = 0.003892 Tag MSPARE I 120.00 deg F = 119.18 ohms i Delta = 3.384 I I O Dg F = 92.66
+--------------------------------+---------------...---
-- - - -=
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'Ihis is to certify that the enclosed Test Data Sheet (s) contain correct and true data obtained in the performance of this test prograra as set forth in your Purchase Order.
Instrunentation used in obtaining this data'ha's' been calibrated using standards Weh are traceable to the National Bureau of Standards.
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VOLUMETRICS LABORATORY CERTIFIES THAT ALL CAllBRATCN EQUIPMENT USED IN THE TEST IS TRACEA8LE TO THE NATIONAL BUREAU OF STANDARDS AND THAT ALL MATERIALS USED ARE EQUAL TO OR SUPERIOR TO ORIGINAL MANUFACTURERS EQUIPMENT.
Wonu . toose
FUNCTION TESTED b,14M'St% Onllballad RANGE TESTED .400 +S 1d0 MA 97ff-/
STEP NOMINAL LIMITS OF ACCEPTANCE 3 d4/ ALE /oA 1 et L '?$lA heNA$ m En e htem Klnd *$.Ol$4mRme *5.oo$4a V'$
3 I . V00 .402 .299 't . 0 0 5' 4.o02. co/
2 /0.000 10 005 /o.6o2 t . 00 7 +.cos + . o 05 3 }9.Q2.8 19.9 72 19.96 9 t
- 0l;8 .00/ .60$ .
4 29.972 29.9 7C 29.967 t .009 +.cos . cog S 39.98 S. 29.922 39.972 2 .0II .co I - oto
(, t/9 9 7 / 4!9.97t/ 4996V t .of2 +. o 05 .co ,
'7 69.9S9 59959 19.9f 7 2 . OILI .9' co2_
.._ 8 />9.995 69 95W 49.946 t .OIT 4.0o9 4. cot 9 7998Y 79 979 79 986 t.of7 . oo s + . c o 2.
/o 89 972 69.979 89374l t ,otA s . co , +.00z II /co.w'7 joo.ozo sos.ot7 1.ozo 4.ci3 4.oto l
l This calibration was accomplished using laboratory Calibrcted Br _
standards which are traceable to the National Bureau of Approved Gr. Standards in Washington, D.C. Traceability records are
/ on file and are available for your inspection at our t laboratory.
CHART 1 Been ck'r Pl- 1 PI-2 SECONDARY
-TP 2eE'Rw. 6 S / N 4759-/ S/N- N,/A GAUGE
. COUNTS COUNTS S / N - t/md A/S OAPSULE TEMPERATURE //[A A//A SS /#6 (STEP 6)
{
FIRST l RE ADING 49,qff/3 .
qq,393 (STEP 9) / l SECOND RE ADING 49,949'O \ e/9313 (STEP 11)
CHART 2 PRESSURE A// owed Bo/O REPE AT ABILITY GAUGE 75'^ VALUES OF NO. STEP 12 PI- 1
,0003 PSI A S / N 9M-/
PI-S/N gg g/4 SIA SECONDARY GAUGE g, gypfg PSI A S/Nt/Mo 6/5 V - F O.R t1 19116
8ENSITIVITY REPORT sHttT//0F6
' Cat.unsion Oommmwen$ GEsm lo * .
- O' N0' 3/8/V/
SER, NO. Q)sf-/ W.0, NO.
uoOn NO. PPM / @ * .
/ /[ef 7ff ,
PCOCEDURE NO.8/24/9,b 7% R UIREMENT8' ,#d/b/A ^ ^L '* ^ '
Th- equipment listed below has been tested for sensitivity of response in ,
cocordance with the above, referenced prodedure to demonstrate compliance
~
eith ANSI /ANS-56.8-1981. - l WOWINAl. CSSERVED INSTRUM$NT TESTED TEST VAL.UE SEN8ITIVITY
. $/Af 97SV~l $0 M PS/A . 000'l $/A
(
C, I
COMMENTS A A t "*1%*:Ad V/
J dyk '
^"b "f64/4 2/ar#r'
/
n a-n ......,.., 4
\
l GENERAL CALIBRATION REPORT - s'ord REQUESTER bmmm41tAIM 6b'W b' CUST. P.O. NO.3/6/4/
uoDEL *PPtn - loco ~ senIAL N o. 97S9- I w.O. No. il4,g9 l M E D I,A , , _ , _ , , , , ,_ _, _
TEMP. /2. # :l~
/
MEASURED VALU18 FUNCTION TESTED 7enos<juece
- Petra m e her s b
(m) t30.so7 -
l {C lo006-Is z /xoo) /o9 5 (ko D 4468 4 (ko2D -/469 -
5 /Po3) -/9 0 -
6 lko4) -sv2 7 /k/0 ) 49W2O B (k// ) /2ze 7 9 /k/2) L/699
/0 (k/3) /4S9
// [NNb /262
/2 (k 20) /9B02
/3 (Jc ZI) 89/3
/# /k 22.) 2V62
/s [4 23) /06 2
/6 (k 24) .
780
/7 [k30) -286
/B (k31) B 19 l'k32) 8 V-C-4 COMPLETE OTHER SIDE
- d e Twsduev %,mtas . con.4.
zo [k33) 8 .
o zz. ( c ') -9toxSC a Lv) 6,osza+' .
2.Y {WR. $$Nb L_
LIST OF STANDARDS TRACEA8LE TO NS8
^ RECALL DATE
~
EOUlPMENT SERIAL ACCURACY C All8 R A T E D M CDoof hih*_
WORX PtRFORMED/COWWENTt; i
t i
i i
- g 5
TESTED BY
, IDATE
,h G y, g, g lg g APPR. 8Y-ID A'5E ,
i.
. a- .i., .. c- .
-~
. . ~
g t' - ) :.) 0
{
e g
CAllBRATION REPORT E CAUBRATION VOLUMETRICS,isc. SERVICES DIVISIC P.0L SOX 2064 e 3026 BUENA VISTA e PASO ROBLES, CA 93447 (406)239 0110 untowen WORK ORDER NO.: /7/4 759 binrnenwg4Uk fd/ son Co. DOCUMENT NO.:
oaf t atC4Nto CUST. P Q NO N/A sigit; /
4=i o . ,,v,,crvata - woon ococwra __ u% ,,o .
N/A 4 /umeho'eS ff/71-/000 Nieisim Ass.rari st/s,,;,tg 9759.z
. u,. mn ,ccvac, - c~. c t. ,ato cY .A. o, . ., ato ,t., out 2 a *c f!/ % t.on@r! cou FE N/9 6 ino45 g -z t/- 88 g M 88 hv81outJ AccaSSoestS RtetNeo WiiH vNIT WORK REQUESTED D estiu4rt Oacua M onart -
ANDITION AS RECEIVEg PHYSICAL: FUNCTIONAL:
INEW EQUIPMENT B"occo conoition GKntHsw tottaunce O cooa cowoirion O ovi o,tott u act O uisxA~otimeo O ateaiaatoviato O ovenioAo<uisuse ,,ove.wsatint., ,,3ou,
- * * *"c t O Act nuo to=o seavice CALIBRATION EQUIPMENT st atAt ACUmACY oA RECALLo^It uANVF ACTVmE n woocL l e3t es fro o sCn PTtoN Nme.Am VH-l 2540 -t.Nc6 tmQ E m12,rs to-n-87 4-//-BB Bi< s . Go s. 9ol.
l l
l l
l i
" " ^ ~
l'f'irl :nd;ea M nas'inos n es de J +o 3 dee;.ns/s besau &
</ "- h eimo / is m +" 4:an;DnsJ :n +h M:ba+;cn .
Q O ctta=<o O atPoato O c^tieurios cutento to cuvirr 9797/4/6 ***' O "C* * O ^
- S ' s,t e,,,c ,.
g,,, y oyp , yg n woain O wAsato O caoss cutexto to
,,,,o ,.es je/,39o Psia O PoNTto Paoctovat useo M </g4;, g./g i < *estestwo oc uset YOLUMETRIC'S LADORATORY CERTIFIES THAT ALL CALIBRAT,0N EQUlFMENT USED IN THE TEST IS TRACEABLE TO THE NATIONAL BUREAU OF ST ANDARDS AND THAT ALL M ATER1ALS USED ARE EQUAL TO OR SUPERIOR TO ORIGINAL MANUFACTURERS EQUIPMENT, T
FUNCTION TESTED v< ht, $/ 4 I
8bJdM RANGE TESTED YM /o /84 M/A 9 7S9- E STEP 110MINAL LIMITS OF ACCT!PTANCE 7/v, ; 7t *f,.,
L ?S/A TMf/CSr % 2sNmC<, d +.0/ffef.l0t.0059e o
f S.
A y I , e/OO .402 .398 4 .00G +. 0 0 2. .005 2 10.000 /0 006 10.00Z t .00 7 + .00 5 '.coi 3 i9975 l9.9 75 19.96 6 i . coa + 00 2. . co s 4 29 972_ 29.9 76) 24.9 7/ t .oc/T +.004_ .001 S 39 983 39 986 39 979 % .01I * .co G - ood 6 t/9 9 7/ </9. 9 79 49.966
- or2 4.coFs oos;'
? S9 9.f9 59.9 % .59. GS 7 2 oM + . cc 7 . 60 L __
l' 49. H5* t,4.95.3 69 9'fV 2 .otC + 0c8
. .00i
'l 19 9B'/ 79.990 79.985 % ori +.006 . cx I
/c (19972 69.920 29 9 % :. .orn . co s .coc i i/ sco.cs ? /00.004 /co.cos .oco .coi .uo i
I l
i i
i l
1 i
This calibration was accomplished using laboratory Calibrated By ,( 7' standards which are traceable to the National Bureau of Standards in Washington, D.C. Traceability records are Approved By _ ,
f on file and are available for your inspection at our laboratory, i
CHART 1 7eodt I PI- 1 PI-2 SECONDARY TP 202( ,ho, 6 S / N 4754 S/N- M,/A GAUGE COUNTS COUNTS S/N#E WS CAPSULE TEMPERATURE N[A. gg 60. / O C (STEP 6)
?
FIRST R E A DI N.G 4/9.9666 k 49 3D ^
'(8TEP 9) i SECOND RE ADING 49 id0b #7 373 (8TEP 11) l 4 CHART 2 -
PRESSURE Allo Jd ,09/O REPE AT ABILITY GAUGE 3#^ VALUES OF NO. STEP 12 PI- 1
,0008 PSI A S/N 9 759 - Z_.
PI-2 /
S/N N/+
N/4 PSI A ;
SECONDARY GAUGE # ### PSI A S/N2%fVS 1 i
v -r o st as $st$s
_ _ _ _ _ - _ _ _ _ _ _ _ _ J
SENSITIVITY REPORT sHtET YoF 6
{ ' nacussion Q ,,,f// pgy,,, gro, , oustouen v.o. No. 3,g,q, (tootL No. 7d/n-/gado
- SSR.No. Q/ fey 2, W.0. NO.
/7/'pg ANSI ^L
- Pnoos0URE No.ygo/9,"Rw,7 k REQUIREMENTS' ,N / D4 ^ I '6W'/ 'PS4
.. -- - -- -.... ... . . . . _ . . . _ . . . . . . l Tho equipment listed below has been tested for sensitivity of response .in ,
accordance with the above, referenced procedure to demonstrate compliance
~
eith ANSI /ANS-56.8-1981. .
OMWED -
INSTRUWsNT TESTED TliST YALUE SENSITIVITY
$ /d Q ~l $ 9- 2 80@ M/A .0004/ 'PSM
( -
l l COMMENTS l
n n
( /DATE d, -
z//4,'[g,'A
/DATE
[m M ,h V-C-4 '66.6-1981
I
- s. rg,, :
GENERAL CALIBRATION REPORT S ord REQUESTER hmmonuJulkk 6dih 0o. CUST. P.o. No. gjq/
u o O E I. PPin -1000
- E R I A '- N 0 97S4 - 2. w.o.No.19lq759 MEDIA
//[/)- . , , , ,_ , TEMP. 7gd
[ ,
MEASURED YALUES FUNCTION TESTED Tran9>hutaf
%ame +a s. .
o //n) iso.s9/
~
} (S) locoG'h
__2 [koo) lHN 3 (ko n szad 4/ (Rod -/93/
5 /Roi)
-2/3
/a (K04) - 36 :2.
? (Rio) 993397 9 (kii) i3/22-9 (k/z) 3977 to (kt3) tozb ll (kly) ///S it (kzo) zos6</
B lkai) 937C
/Y (ktz) 268 C _
/5' (kz3) 724'
/& (kw) S42
/7 (.k 22) -92.7
/B lksh 8' l9 lksd 8 V-C-4 COMPLETE OTHER SIDE ,
6, of f, "i~nnsJuur %avN's - een J. .
2t> (k33) 8 21(k34) 8 .
22 Le) -orsk's C n (v) on?sV 2d i va') swa LIST OF STANDARDS TRACEASLE TO N88 E O4JI P WF.H T SEMIAL ACCURACY CAL BR TED f u om.-su4 .
=e,.
WORK PtRf0fn4ED/COMWENT8 A
S 4 , "
//
' / /
1
F _ 9 NU!! 1 ()
June 1, 1988 OSR/b30/88 To: G. J. Plimi
Subject:
On-Site Review of Zion Unit 1 Integrated Leak Rate Test.
Attached is the Zion Unit 1 2ntegrated Leak Rate Test Report for your review and approval.
i
^
Prepared by: "
Tiemann
{f A:
Station Review: Disciplines required: M 806 k m/
f+ ) f L// h. -
A$d) O # "*
Y , 'h C.
t
' I concur and approve: '
y J. P11m1
/ >[/
Date Station Manag/er Zion Station cc: R. N. Cascarano N. Stone /PNSRC A. J. Ockert W. R. Kurth/ Operating Engineers J. A. Tiemann T. J. Maiman D. 8. Wotniak R. J. Squires T. E. Watts G.:C.:Trzyna-W. J. Shewski Master File 12810 f
CN - Commonwesith Edison h
) One First National Plaza, ChecaQo, Illinois
[(N j^^O "/ Address Reply to: Post Omco Box 767 Chic 6go,lHinois 60690 0767 l
! July 5, 1988 Director of Nuclear Reactor Regulation l U.S. Nuclear Regulatory Commission Mail' Station-Pl-137 Washington, DC. 20555
Subject:
Zion Nuclear Power Station Unit 1 Reactor Containiment Building Integrated Leak Rate Test NRC Docket No. 50-295 Gentlemen: l l
Accorapanying this letter is the technical report of the recently l performed integrated leak rate test of Unit 1 Reactor Containment Building.
This test was conducted between March 2 and March 4, 1988. This report is submitted pursuant to the requirements of 10CFR 50, Appendix J, Section V.
One signed original and fitteen (15) copies of this letter and enclosures are provided for your review.
Please direct any questions to this office.
Very truly yours, G.E.Trzynal l Nuclear Licensing Administrator GET/klj encl.
cc: J. A. Norris Zion Resident Inspector 4895K 0b j
- y. . .
OSR/030/8" June 1, 1988 To: T. E. Watts
Subject:
Zion Station On-Site Review Approval Request This On-Site Review (OSR/030/ 88) applies to The Zion Unit 1 Integrated leak Rate Test.
Please conduct an Of f-Site Review and if acceptable, submit to Nuclear Licensing for transmittal to the NRC.
G. J. Plimi Station Manager Zion Station cc: G. J. Pliml W. Stone /PNSRC R. N. Cascarano/J. A. Tiemann W. R. Kurth/ Operating Engineers T. J. Maiman D. 8. Wozniak G. E. Trzyna R. J. Squires W. J. Shewski Master File F
1 12810
/