Primary Reactor Containment Integrated Leakage Rate Test, Final Rept for Apr 1987

ML20236J763
Person / Time
Site:	Callaway
Issue date:	04/30/1987
From:	BECHTEL POWER CORP.
To:
Shared Package
ML20236J768	List: ML20236J763 ML20236J917
References
ULNRC-1555, NUDOCS 8708060274
Download: ML20236J763 (74)
v • d • e

Text

.,

1 1

q UNION EWCIRIC CNPANY  !

i 1

CAIIAIOLY PIANP l ID3ET NO. SIN 60483 J

1 i

4 PRIMME MEN 3Gt 03rfAIltp3-I!EBGRAHD IEAIGGE RA's HSP - >

O, FINAL REFORP u l

Papared By:

Dechtel Western Power. Corporation April, 1987 O

870B060274 870724 PDR ADOCK 05000483 P PDR

TMEE OF CGflUtIS i u

Section Title Pace

1.0 INTRODUCTION

1 2.0 ut.ruodiCES 1 j i

l 3.0

SUMMARY

1 4.0 DISCUSSION 2 4.1 01ronology 2 4.2 Methodology and Instrumentation 2 4.3 Test Results 3 l 5.0 OIHER DATA 4  ;

1 APPDIDIX A DESCRIPITON OF BOP IIRT COMRJIER PROGRAM f l

B IOCAL IEAIGGE RATE .(TYPE B AND C) TEST RESULTS l

l.

o I

O ,

.l

- _ _ _a

p 1. INTRODUCEICN gj 1

'Ihe first periodic Integrated Isakage Rate (Type A) Test on the Callaway l Plant reactor building was completed on April 28, 1987. 'Ihe test was perfomed to demonstrate that leakage fram the reactor building at design basis accident pressure does not exceed the limit stated in Ref. j

1. The test followed the procedural steps of Ref. 2 and conformed to  ;

the requirements of Ref. 3. Isakage rate calculations were done in I accordance with the methods developed in Ref. 4. l

2. REFERENCES

1. Callaway Plant Technical Specifications.  ;

1

2. Callaway Plant Procedure ESP-GP-01007, Reactor Building Integrated l Imakage Rate Test, Revision 2. l

3. Appendix J to 10 CFR 50, Reactor Containment leaPage Testing for Water Cooled Reactors. i

4. Bechtel Topical Report BN 'IOP-1, Testing Criteria for Integrated )

Ieakage Rate Testing of Pri%ry Containment Structures for Nuclear l Power Plants, Revision 1. ]

I

5. ANSI /ANS 56.8-1981 - Containment System Isakage 'Ibsting Requirements. j l

(m) v

3. SUMARY l Reactor building leakage rate calculated using the Total Time method developed in Ref. 4, plus additions for non-stardard penetration alignments, was well below the allowable limit. 'Ihe calculated leakage rate was verified by imposing a known additional leak on the reactor building and verifying that the combined rate fell within the tolerance barx1 established in Ref. 2. 'Ihe Type A test was conducted at a reactor building pressure of 49.7 psig and had a duration of 24 hr. Test results and acceptance limits are listed below.

Wt.%/ day

a. Calculated leakage rate 0.014

b. Upper 95% confidence limit on rate 0.038

c. Additions 0.006

d. Sum of b and c 0.044

e. Acceptance limit on d 0.150

f. Verification imposed leak 0.199

g. Calculated combined rate 0.213

h. Upper acceptance limit on g (f+a+0.05) 0.263 l

i. Iower acceptance limit on g (f+a-0.05) 0.163 i

'Ihe Instrument Selection Guide value was 0.011 wt.%/ day, well below the j h

V allowable limit of 0.050 wt.%/ day specified in Ref. 2. l i

l CALIIRT1 J i

w____. . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ _ _ _ _ - _ _ _ _ _ _ ______ ..

k 4. DISWSSICN l

4.1 Chronology Valve positioning, draining and venting of penetrations, test instrumentation placement and other prerequisite activities were done in accordance with Ref. 2. The exterior and interior surfaces of the reactor building were examined for darage prior to the start of pressurization as required by Ref. 3. No damage was found.

Pressurization commenced at 9:30 AM on April 26, 1987, following the completion of all test prerequisites. Dates and times for the various

• test phases are listed in the table below.

HMSE STARP END DURATION l Pressurization April 26, 9:30 AM April 26, 9:39 R4 12 hr 9 min Stabilization April 26, 9:45 Rd April 27, 4:00 AM 6 hr 15 min Type A Test April 27, 4:00 PM April 28, 4:00 AM 24 hr 0 min Verification Stabilization April 28, 4:15 AM April 28, 5:15 A'i 1 hr 0 min Verification Test April 28, 5:15 AM April 28, 11:30 AM 6 hr 15 min  ;

Blowdown April 28, 5:52 R4 N/A N/A he reactor building was pressurized to 49.9 psig by oil free air  !

r cw g ussors having an aggregate capacity of approximately 12,000 SG M. I i," ]/ Se compressed air was cooled, dried and filtered prior to discharge into the building. Following the completion of pressurization, the i reactor building ahmphmE was allowed to stabilize for six and a (

garter hours. During stabilization the pressure dww de to 49.7 psig, )

which was within the allowable range (48.1 to 50.1 psig) for starting i the Type A test. Following the cmpletion of the Type A test, a verification leakage of 15.0 SOM (equivalent leakage rate of 0.199 wt.%/ day) was 4W through a flow meter. B e verification test was started after the one-hour stabilization period mandated by Ref. 2.

Blowdown was commenced after all data had been evaluated.

4.2 Meth,aningy and Instrt-adation 1 Containment leakage rate was calculated using reactor building atmospheric condition data provided by 24 drybulb temperature sensors, 6 dewpoint temperature sensors ard 2 precision manometers. Volume weighted mean temperatures and vapor pressures were computed using volume fractions calculated for each sensor. Sensor locations and associated volume fractions are listed in Table 1. Volume fraction calculations are retained in permanent plant records. S e precision nanometers were connected to a single pressure sensing line exterding from a reactor building piping penetration. Manometer pressure .

indications were averaged. H e leakage imrm ad during the verification test was controlled at the specified rate (15.0 SGM) by adjusting a regulating valve to maintain a fixed indication on a therm 1 mass flow p) 4 v

meter digital display.

CATlIRT1 t

4.2 MethvWrr3y and Instruuad2 tion (Cbnt'd)

(]

LJ

'Ibst instrument specifications are listed in Table 2. 'Ihese specifications weru used to calculate the Instrument Selection Guide (lSG) described in Ref. 5. ISG calculations and results are shown in  !

Table 3. 'Ihe values used in the calculation for temperature sensor i sensitivity and re p tability were dictated by the analog to digital conversion resolution of the BOP computer. Calibration data for all test instrumentation is retained in permanent plant records.  ;

)

Instruments were interfaced to the BOP computer which recorded raw aata '

at 15-minute intervals, converted raw data to engineering units, and  ;

calculated leakage rates. 'Ihe interface is illustrated graphically in j Figure 1. The leakage rate was calculated using the Total Time method  !

developed in Ref. 4 and summarized below. 1 l

o Partial pressure of dry air is determined for each 15 minute data set )

by subtracting volume weighted mean water vapor pressure frum j measured absolute pressure. Water vapor pressures are calculated using = mtred dewpoint temperatures.

o Dry air pressure / volume weighted mean temperature (P/T) ratios are I calculated for each 15-minute data set. i o Measured leakage rates are mimlated for each P/T ratio (except the l p first) by subtracting current P/T from initial P/T and dividing the j Q difference by the time interval.

o 'Ihe method of least squares is used to fit a straight line to the I

= mired leakage rate vs. time data.

o 'Ihe calculated leakage rate is the ordinate of the straight line at i the end of the test.

l 1

o The deviations of the individual measured leakage rates from the line l are used to calculate the upper 95% confidence limit on leakage rate.

l t

h e BOP computer leakage rate sw am r is delbed in Appendix A. ~

Backup-calculations were done on a personal computer with a data link to l

{

the BOP camputer. 'Ihe Bechtel integrated leakage rate test pr@rcua was l used to perform calculations on the PC.

{

r 4.3 Test Results

'Ihe leakage rate calculated for the 24-hour Type A test was 0.014 {

wt.%/ day (the percentage of the initial mass or weight of air in the reactor building lost in a 24-hour period) . The calculated upper 95%

confidence limit (UCL) on leakage rate is 0.038 wt.%/ day. Several penetrations as listed in Table 4, were not in the normal- post accident lineup during the Type A Test. Measured local (Type C) leakage through these penetrations, as noted in Table 4, is equivalent to 0.006 (q-) wt.%/ day. With this leakage added to the UCL, the expected leakage with g

j all penetrations in the normal post accident lineup is 0.044 wt.%/ day.

3 1

l r'ALIIRI'1 >

l 1

L ]

I l

l 1

(N 4.3 Test Results (Cbnt'd) l W e allowable leakage rate per Ref. 1 is 0 2 wt.%/ day. Hcraever, Ref. 3 '

requires that the Type A test leakage rate (UCL plus additions) be less I than 75% of this value to allow for deterioration in leakage paths between tests. % erefore, the acceptance limit on UCL plus additions is 0.15 wt.%/ day. W e actual value of 0.044 wt.%/ day is less than one third of the acceptance limit.

The 15 SCFM leak imposed for the verification test is equivalent to 0.199 wt.%/ day. The limits on calculated combined leakage rate are equal to the original calculated leakage rate plus the i p ed leakage rate plus or minus 25% of the allowable leakage rate. These limits are:

0.014 + 0.199 + 0.050 = 0.263 wt.%/ day and 0.014 + 0.199 - 0.050 = 0.163 wt.%/ day me leakage rate ml<,Jiated for the verification test is 0.213 wt.%/ day I which is midway between the acceptance limits.

All data recorded durirg the Type A test, verification test and stabilization periods are retained in permanent records. Individual te:u@wture and pressure measurements, volume weighted average l temperatures, dry air (corrected) pressures and calculated air masses e are plotted for the Type A test period in Figures 2 through 12.

Q) Calculated leakage rates for the Type A arrl verification test periods are plotted in Figures 13 and 14, respectively. Figure 13 also includes plots of measured leakage rates and upper 95% confidence limits.

l 5.0 OIHER DNIA Various plant and test parameters of interest are listed in Table 5.

mis table also recapitulates the test results and presents Mass Point calculation results for information. We Pass Point method is developed in Ref. 5.

Ref. 3 contains the requiw.us=nts for local leakage rate (Type ~ B and C)~ -

testing as well as those for the Type A test. For completeness, this report includes, as Appeniix B, the results of all Type B and C tests corrtucted between the preoperational and current periodic Type A tests.

l 1

i l l o

l  %.)\

l l

CALIIRP1 u

i l

ThBEE 1 senvaura sem rocmms Ano wrIms naarcas 1

IRYIIJIB 7B(PERAsURE SENSOPS Elevation Azimtith Distance From Volume Tac No. (ft) (Decree) RB Center (ft) Fraction l l

GP-TE-1 2192 N/A 0 .0257 j GP-d'E-2 2181 N/A 0 .0392 GP-TE-3 2170 N/A 0 .0476 GP-TE-4 2160 270 50 . 0502 GP-TE-5 2151 45 50 .0518 GP-TE-6 2142 135 50 .0541 GP-TE-7 2133 225 50 .0544 GP-TE-8 2124 270 50 .0544 GP-TE-9 2115 0 50 .0547  :

GP-TE-10 2106 90 50 .0547 l GP-TE-11 2097 180 50 .0547- l GP-TE-12 2088 270 50 .0534 i GP-I'E-13 2079 60 50 .0511 GP-TE-14 2070 180 50 .0497 n GP-TE-15 2061 335 45 .0473.  !

GP-TE-16 2052 180 50 .0473 f.V) GP-TE-17 2029 180 22 .0185 l

GP-TE-18 2042 0 61 .0314 GP-TE-19 2030 120 59 .0331 GP-TE-20 2018 240 61 .0325 GP-TE-21 2037 0 27 .0186 4 GP-TE-22 2022 90 33 .0212 GP-TE-23 2007 270 22 .0218 GP-TE-24 2006 30 60 .0326 1.0000 IEW1VDfI'.1DfPERATURE SEN9CES GP-ME-19 2180 N/A 0 0.1309-GP-ME-20 2140 N/A 0 0.2213 GP-ME-21 2100 N/A 0 0.2119 GP-ME-22 2060 N/A 0 0.2025 GP-ME-23 2030 115 66 0.1141 GP-ME-24 2010 0 27 0.1193 1.0000 0

CAIZIRP1 L------__________________________-____________________________

I N2 INSTIUDFIATION AND DNIA AtyummON  !

Absolute Pressure .I Precision Pressure Gauge Range: 0-100 psia Mensor Model 10100-001 Accuracy: +/-0.02% FS =3 Sensitivity:- 0.001 psia '

Repeatability: 0.0005% FS Resolution: 0.001% FS Calibr. Date: 02/25/87 Drybulb Temperature Resistance Temperature Range: 0-150'F Detectors, Platinum Accuracy: +/-0.10*FS 100 ohm RID's Sensitivity: 0.10'F Repeatability: 0.10'F Calibr. Date: 02/25/87 Dewpoint Temperature Dewpoint Detectors Range: (-58)-212*F Chilled Mirror Accuracy: +/-0.54*F Sensitivity:-- 0.10*F EG&G Model 660-1 Repeatability: 0.10*F i Calibr. Date: '02/18/87-Flow Mass Flowmeter Range: 0-20 scfm Volumetrics Accuracy: +/-1.0% FS Model W-096-7B Sensitivity: 0.1% FS Repeatability: 0.10 scfm Calibr. Date: 03/10/87 Om CALIIRP1 w_-___________-___-_----______

I l

TABLE 3 ISG CALCULATION l

(

( ANSI /ANS 56.8 - 1981 )

============================================================

CALIBRATION DATA

1. OF SENSORS SENSITIVITY (E) REPEATABILITY (r) ]

I TEMPERATURE (T) 24 0.1070 deg. F 0.1070 deg. F i l

PRESSURE (P) 2 0.0010 psia 0.0010 psia VAPOR PRESS (Pv) 6 0.1070 deg. F 0.5400 deg. F l Length of Test (t) 24.0 hrs j l

Test Pressure (P) 49.7 psig ==> 63.9 psia From Steam Table 0.0148 psi /deg. F (at 76 deg. F) l La 0.2000 wt%/ day 1

/~T

(,,2NSTRUMENT MEASUREMENT ERRORS j 2 2 1/2 1/2 eT = [(ET) + (rT) ] /[# of sensors]

eT = 0.0309 deg. F 2 2 1/2 1/2 eP = [(EP) + (rP) ] /[# of sensors] I eP = 0.0010 psia 2 2 1/2 1/2 ePV = [(EPV) + ( rPv) ] /[# of sensors]

ePV = 0.0033 psia INSTRUMENT SELECTION GUIDE 2 2 2 1/2 ISG = 2400/t[ 2 (eP/P) + 2 (ePv/P) + 2(eT/T) ]

gJSG= 0.0111 wt%/ day v% 25 of La 0.0500 wt%/ day

============================================================

1 7

TAB E 4 I l

IEMGCE IHROUGH PENPIRATICNS IN NCN-SMNTRRD AUQMNP j 1

Firrst:Ltaticxi Ir!akage ,

No. M2nction and Reason for Alimmm:nl Rate, SC04 )

14 Post Accident Sampling system connection to 2 valve encapsulation not vented to reactor i building I J

15 Post Accident Sampling system connection to 20 )

valve encapsulation not vented to reactor building i

22 Seal water injection - in service 86 39 Seal water injection - in service 20 _1 40 Seal water injection - in service 63 J

l 41 Seal water injection - in service 116 .

34 Test pressurization line 522 O

51 Test pressure sensing and verification 1092 c

I flow lines ]

l 67 Fire protection system - in service 2468 71 Essential service water - in service 10 73 1%aaritial service water - in service 7445  : -

• _,.17 Fuel transfer canal - fuel transfer J - - -

canal in fuel handling building full _-- -

-I wmL us64 Scm EQUlVAIENT 0.006 wt.%/ day

]

1 V

i cauum -e-

i

.O PIANT AND 'IEST PARAMEIERS >

k i A. Plant Information Owner Union Electric Company Plant Callaway Nuclear Station location Fulton, Missouri Containment Type Post-tensioned Cencrete Date Test Completed ' April 28, 1987 B. Tedmimi Data

1. Containment Net Free 2.5 x 106 cu. ft. ,

Air Volume a

2. . Design P asure 60 psig i

3. Containment IIRT Average 40 - 120*F Temperature Limits C. Test Taeults

- Type A Test I

)

i

1. Test Method Absolute i

2. Dab. Analysis Wque Isakage Rate: 'Ibtal-Time 1 (per BN 'IOP-1) and Mass point j (per ANSI 56.8-1981) 1

3. Test Pressure 48.1 (+2,-0) psig

4. Maximum allowable Isakage 0.2 wt% per day Rate, la )

)

5. 75% of Ia 0.15 wt% per day.

6. Integrated Isakage Rate Calculated . Upper 95%

Isakace Rate,Iam- Confidence wt%/ day wt%/ day.

i\

a. Total Time Analysis 0.014 0.038

'b. Mass Point Analysis 0.042 0.044 --r

7. Verification Test T W 15.0 scfm

. Isakage Rate, Li 0.199 wt%/ day

~

8. VerifichtionTestResults Isakace Rate, wt%/ day 4:

s , , . y

a. Total Time Analysis 0.213 .

O. b. Mass Point Analysis 0.247- {

_-'j 0 ,

4

l l

i i

I l

i <

' N 9. Verification Test Limits l

\ l

'~~

a. ,'Ibtil Time Analysis wt%/ day Upper Limit (Li + Iam + .25Ia) 0.263

)<,- Iower Limit (Li + Lam .25La) 0.163

/

b. Mass Point Analysis l Upper Limit (Li + Iam + .25La) 0.291 I Ioher Limit (Li + Lam .25La) 0.191 l 1

1 D. LIRI' Mjustments ard other Penalties: 0.006 wti/ day j

.I l

l l

l l .

\ ,

l

/ T. i )

l NY l

\

l l

l 1

i i

I t

i v) j ': ' CALTIRI'1 , , i )

(

(

j O

llg l i,Ill;i]

l Y N Y A O S S SR A

L L

P I

T SR FM AE AE M ,

MT MT F E C S

P I K A S E C S ,

S A C LM E D LM g I E I A 0 s A 0 u _

D R L LF MW 2 MW2 U A I RO - RO -

T S U R EL 0 EL 0 S N HF HF R E A E T T _

C RM P V l m "

l lig!lll l _

R E E C FP FM A UA F B R

_ E

- " T

_ N

- I l glgI li lgli]gg lgIllg R

_ 1 E

- T R R T

N E O " a _ EU A

T S ' RP L PS O* ' As

_ UM O U To ,

- P P OE t T U "" Ac 4O

- P M BC O A^ " Do t _ IC F/

O C O R *

- B P _ T N

! I; '

- E!I

- - '  ? m M

ra !l !lI llIigl Iln . !l( *. U R

i T

_ i q IIl l i l J. S N

L AT I T _

_ Im G

I I

_i l l O

D 7 _

1i L E C D R

_ I R

2 R

_ j ji n

T P- N T E _ E T

N ET E _

H M O NML OU R IT C B E I C 1EL 0TO _ 8 TI I S

I S M L rSR SM B A uYT _ 5E N S C S S E EN N ESN E R G R A R R A _

I D O C

_ P pR P PR S T T

?

TN NO EI

?

ply Illg i L MT I I NA I R lAT^l f3z ph , ,

1u TE NN OE i [+ ,

CP T s N S O D I R T

R O O S 6P N 4 WE E S 2 D

=

, O

- l~

. a 9 _

> . 3 _

. ~

y .

M t

4 ._

O ,_

.. T

._ P

_ O e

. G TM  :

O -

_ NM* j c.

3 =

A* ._ P ELM+ ._

4M MPe A u.

E I M T m=._

TYM * .

AM ) T _

.WM c 3M S AM =

T M S OT VLM T

C P 0 A TC ._

)L = G M

E .

H

(

P 4 A7 4 2

- V T 1 a

5 G.

C8 0 T

A 0 1 G T E =V P P (1=LI w ::-

G G M A -

I 3 I T EYANP S 2 E E R AA s_ ::: [

T MT RU UP g: S Ne A G

=  : "

E 3T M1 -

T 2C FI AO# A;._: .

0 OI .

RC H -

. D TD PN nS E CP a 0 E -

PIA MRA 3

0 f~. .

1 B P

A GI

-E T .

ETG P

• L N T CE ++ G '

" s, M, E 2I L

TL+++ * .T ME+M .

• O

. 2 .

I TNM* o '

0 T .Y 1L g.

CO* '

P G

O OO IM TS y,

a .

NM .Y P UM .

S

_ . G V_

.Y 1

%1 .

_ - t

, e

=

l'

) (-

. ~ - . -

b g_, -

- ~ ) ' 4 O

_ - O o O 0 O d

1 0 9

_ e e 8 7

's 7 N:;4 URE I. N OEOF 5,

1*

P

45 a

n _

2 R _

W 6 0

T P

G 0 5

TM 0 NM 2 AM ,

ELM ,

MPM I

TYMAM M

4,,, 8 0 )

Ma

.WM T S AM P G S V LM 0 R

[ y' .

M i (

8 A7 C8 5 h 85 1

0 - E T

(5L I P M G  % I M

T EYRNP O R AA T UP &~- S E

TM2 -

T AOM H 0

RC H \y

- D E CP 3

0. ES PIA 1 MAA E TG yv P A

L C

T EM M, T t

E j TePM TLMEM C E M*

T N +*

7 0

T P

g G T V

A COM C u,

IM 0 A 3 .

NM 5 UM m,

[g 0

4 .

0 O 0 2

o 1

O 0

S 8 8 TEMPERA

O " i5 2

4'"v Y

Me O

TM p~ 0 NM V 2 E AMLM

~q T

MPM I *

• M P T

C M M" ~^1 1

T Y*

• G T E

T P

SWM VAM

.AM LM V

A N /" "w

+

G )

S R

)L  % _ O H 2 A7 1 C8 N Ye a5 1

(

9IYR

(

L 'v "v

> E M

I T

ENP O RAA UPM3 0

1 T

%p -

~

T S

E

^ h P ~

T OaW G T AC RH v 9 0 O D p\ - T .

2 E

ECP 1

T P

G i0 S P 1 PIA AA G  % P A

MTG EC .% L T E **

TEM L*

%w E M +++

T N+

C O+I*

NM

+

g sg py m

e O

5 UM .

., s_

u"g.

A

. O a .

- d 1

.:- - O O o 0

o 3 2

• o e 8

• s yEM A[AE " ,"

O 45 2

/

l O TM 50 NM 2 EAM -

g MLM IPM 4

1 t

T T M P G

T M

.YM - -

T AM S WM C )

V AM G

V

• S

[M A A 3 5 O 6L  : 1 H 2 T .

C 1 A7 P 55 C8 G 1 E

3L 1 I p

3 M

I

1 fR - T  : T

P E NP G O

AA

! T RP S UM4 TOWv q E T

AC u ,

O D RH CP - &0 E

S E IA -

1 P

PAA -

- A MTG E

T C

E*

p W '

L E

L* -

m

&5 T E e*M MN**

\

TO*

C I **

N*e U+

mp O

5

- \n

\

/.

s p 1  %

5 O

'- . . ^

- 0 O O O

2 , o 8 , s T=M ;E IN O

0 O i5 h Y h

2 g g a

• O 2

T

- 't 0 P

. G T***

No b_

i0 2 -

EAM  :

P ML**  :  : 4M IP M  : .  : E T M T w

.YM '

T S AM - $ )

W **  : . 9M V **

A M

S 1T

)L M h 0 R TC 0L ,

H P 0  : (

2 A7 Ce 2

T '

5 G.

G

- P j  : 1 G E =V 7L  :[

4 M A 1 I 3 I 3

_ fR r 9

1 T S6

\

EER T 3 E NP T

- O RP AA *

,m_,gG P

S E

MT U A G UM5 /. -

Y T sC F I

TO# -

0 iI AC F D TD o

f .

R CP ' a E PN

't 0 S GI E IA 1 PRR 7 b :

P A =E MTGC T L

E RI N

E E**

T L**

TEw**

8 1

T P

G 4

p1 P G

• O L

I MN**  :

7L TO**  :

0 1O CI**  ;

_ s . TS N*  :

5 P U **  : G

=

y  :

i s

y hY M A -

- 0

- a .

- O O 0 2

O a

0 0

S e 8 TEMPER T AE I -

55 2

M%, e e I

-  ?

?

O TM I 40 N** 2 EAM MLM IPM Q&".

T M 4 2

m-

.YM T

. w-S WMAM P P

G .<

V Ae* .

[M O

_ 4L .

2 A7CB 55

_ 3 1 2

1 L T P

2I (Y R E NP O

AA RP -

_ UM6 TO#

AC 1

2 T

T M P T

CM m.G O

RH P E .

G 2 .

50 G T E CP 2 .

1 IA V T . ,

A P P AR .

_ G . .

_ MTG C E EM 3

3 T

LM .

TEM M

_ MNM .

TOM CIM . O

_ E .

_ NM 5 UM

-_ O

_ 5 .

- 0 O 0 3

o a

o i

o o

o e

8 s s e 7 TEMPEAATUA IN OE

i5 2

4 -

4

o TM  :

a0 ENM  :

2 MA**

I L **

e -

TPMM @ -

_ .YM  :

S AM

)

- VWM - .

1 AM r -

S 2 L **

L 1 0

2

'n O

A H

A7  : M - a C

1 P 5

- 9C8  :

2 M -

G 1 E

- 1L  :

P G M I

- S I

T

- YA  :

PNP O MAA E PM7 W

• 9 1

M T

S E

- T O# T P

G T

TC P WT O D D

N H E E a0 I CP GT - 1 s V

O IA RR A ^

P A

P TG - L WC  % ^

E EEM*  : -

D L*

? ^

EM '

T M m M NO***

• %+

TIM

• p O CNM s .

U **

5

)54 ? ~ 1j ' ::i: 1:

% '4' t

r i .

O

~ O O O s

o e

0 0

0 9

o s

o 7

o e

o 5

O 3

O 2

e e

• 8 7 7 7 v 7 7 7 7EMPEAATUAE IN DEGF

0 O , ,

5 2

'g

/4 4

7

,/

Y -

'g -

,g _

y 0 M.P fv TM / 0 _

ENM 't t i 2 4 M M AM 2E I LM TPMM N ,if

' P M T .

GT

.YM P S AM ,s- ) W VWM . D 4 LMAM S 3 -

4 2 L A7 T P

2 M

P G

v ,5 0

A H

(

T M

T 2CB WP D1 . 1 *C _

E E 2~L GT 2 .

M 3 _

S I V 2 . - I 2G .

A M [

M T

PNP YR P G

Y%

/

= 3 P V 9 A E _

vM 2 _

O MAA EPM8 <Y > vG P T

S E

G

=S R _

U _

G_

I E

T O# T F TC H < 0

. D 2 TA N

I CP

,0 1

E S M C

I O IARR -

P D 2N P TG WC \

s A L

E 2I ME EEM (, P N

D LM E ** ~ GI A

T

• e 3

- =L MNM O4* iD TIM  !

0 I

- CNe+  :

5 L U ++  : M O

- - S 3

- 3 N

0 9

~ 0 O 0 o

7 e #

7 7 PERATuRE [4 O lf l ll1ll

&5

^

3

^

+

2

=

^

^ _

= _

O M  ; _

5 T - , 0 EN MM -

2 MA M - _

IL M TP M -

S .YM M  ;

A _

M _

VW M S AL M _

E L _-

E TE _

O RA 78 _- T R

U NR I U

_ 5 5

UC ,- M T TA C

OT PA 1

T L G E R WR EE AI RRY N V P AM E T

DP GE VT M

EN PA A

PA -

MPM 2 ^

r E O1 TC #

O W

E CH

_ 30 GI P 1

_ AR AR . _

RT G e -

EC

- .m V EL M .

A EMM -

T NM , =

- =

- MO M  :

_ TI MM r O

CN .

5 M

U** -

_5 e

r e O

_  ; 3 .

2 . :- 2 - j1- .l

- : . : , : , s"Ai : ^ _

- O 0 o O 0 O O 0

_ 2 i 0 9 e 7 5 B e e 7 7 7 7

[MPEAATURE IN DEG*F

, i1ll

~

O

a

5 N 2 -

C

T

Z e

2

~

- {Z e r

- e O

_ e .

s

• e sO _

T**  : s R

o N*M  : o o E A

L**

P**

M  :

s e

m e

R U - _

- m S

• : e E e S -

Y+  :

s E ) R E

A* UR o R EW MM o U S

_ s S S P MA* ,

e p S E O R S IL*

TL 7

, E R

a m

R P i

. H

(

E RD A

U e 5 P E

S e D 1 S s E E T

_ S.C 5 ,

E o o T M TC R C

_ VI E R L ,

P T

c e

s e

E R

R I

T M

TR E 1 1

CR E M O RPNY , a .

_ , T e C T O RU -

, C s EC G UA A SP e

c o

S E

TE I

F -

SM 01

_  : c T

_  : e A CT EO O _

_  : m _

e D A RC*

e a E I _

a o DI C -

PHC P  :

t S P N ID T IAA r- A

c-L N _

s I

_ MT AG  : s -

E S TC  : a e RS _

_ CE.+ e a e A E

L+ e T A

E+w  : c S o

D A N **

e U

_  : c Q

_ O*  : s e

O I **

8 s . S

8 S N ** m e

U*

e

_  : D O

^

^

=

=

• i .

O

_ - O O

o 4 s

_ e e PAEsSURE IN psi ^

1

.4 1

1 l

i O.

,~) . .2 ~h  ;

n

.v l

0

/ .

o N

F2 i 23 i

(* i Jr

0.

• I

• ,, W

' >* - E

(* a (  ;

g 31 O E I

~

9 YA J s ~

U E Hj

• H E-*<3 w <

09 I i y H p

>1J F I N F

m M>Ha MZa F

m oy 1 (s, s 44 w a, a

da e F w 1

1. • I m O O 4 gas 0 _'w -

0 g a

H U k H< J H i

l

.TW E-< F 8 <

}y W j

l l

U WI J*  % F  ;

Wt

~

' e W Z* O O* s H*

Z*

32 7.

0 7-, r-crvm . . . . .. . . . . , r,-e, . . .i. .

.,"O O O O O O O O O O O O O O O l C G E b e D 4 m e e e e e e G G G G G. G G b b b b b b b I4mm HZ 103Z0m 1

l

. i-

. i

2 f%

j _

D _

O

- 5 0

TM _

2 NM E '  ;

C _

AM N  ;

E Let D PM IT F1 M N1  ;

YM OU CL 7

)

AM WM  % -

E AM 5

9 S

A O

MLM e H

(

IL  : 4 5

T A7 D r

1

.CB E  ; E R

S U -

M I

L S VI E YR A

E M

T T

GNP O

^

D - S A AA P

• s EE TT E K1M 'e A R

+  ;

T AO1 CK O D EC# LA B

E L AE 0 1 S CH P TIP C_ L A MAA L TTA , E C CG E s e

L **

E**

M .,

NM OM O B .

IM NM+ 5 U+ '

/

}

j1 hl s}

y g .F L\! i t

O I .

-  : ~

- - - : ~  : - . - - :

_ - 0 O 0 0 0 0 0 O s E

0 2

5 1

0 1

5 0

0 0

O O O O 0 O LEAaAGE IN PE NT R

lll llIa M

3 _

6 -

1 O

.. O .

I . -

O-

._ 7 D

N

_ A

^

3 2

O 6 I .

2 ._

6 .

O 5 - _

T M # T 1 -

N** A:S -

A* _

O T L*

M O S T:7 S P**

3 . _

5 I _

8 -

EY* M

) M IA T A ** . _

L PA W* S NA MM A 8 OL H D N2 M C IL TA* M O A T

AC* _

5 .

4 M E B A

C F7 I

IY 8

/

I T

E CD NE E 4 -

1 _

RN LI , T A T RU O EA VPMP A

• S E

T A GI P

A F EO A N 5 O T

. E CS T

3 D -

GC A 3 x E S

CT A

S K IC 1 P A M E -

AR # T -

L RT TC H E E P

O TN O E 5 .

AI T LA 3 A ME RG ~TA .

T KC C NO*M AI EF -

IeM LI ._

N* O U* 4 . DR E -

- 1 E

\ V T

\

A L

U C _

L O A .

- ~ - . -

3 .

C -

- O .

0 0 0 0  :

1 1 1 1 S O 3 O

2 O

1 O

R A

O O T S

LEAKAGE IN PEA ENT PER DAY M~

M O '

}

f APPM D n A f

N W OFInpIrpp 4

1 O

O

1

.i .

O 1 CALLAWAY ILRT DATA ACQUISITION AND REDUCTION PROGRAM DESCRIPTION The Callaway ILRT Data Acquisition and Reduction Program performs the entire task of 1) Obtaining the required values from instruments-tion located in the field for ILRT, 2) storing the . values obtained in l a historical file, 3) Performing the necessary calculations to obtain the containment leak rate by using the Total Time Method; and 4) Per-

~

forming the necessary calculations to obtain the statistical 95% cor.-

fidence leak rates. In addition to the above functions, the program prints a summary of all values obtained including averages and calcu-

' laced leak rate. Test parameters such as test start-time, volume fractions, sampling interval, and statistically bad samples can be selectively changed or deleted before, during, or after ILRT by opera- .,

ter interface. - )

The Callaway ILRT Data Acquisition and Reduction Program consists ,

of two separate programs that work together simultaneously. The first 1 is the Data Acquisition Program (DAP) and the second is the Data l Reduction Program (DRP). Each program is written in a combination of l Fortran IV and PAL (Process Assembly Language) and is designed to be-run on the Honeywell 4500 BOP computer systear in a real time environ-ment with the existing BOP real time programs. l Using standard Honeywell Seer System calls', the DAP periodically obtains the required values from the ILRT instrumentation in the field and stores these values in engineering units along with the additional ,

2 data needed. for calculating, leak. cate.

The DRP prints a summary'of the values obtained by the DAP and performe the necessary calculations needed to obtain containment Ieak -

rate. Through operator action the DRP: (I) can selectively change ,

volume fractions. associated with each ILRT instrument in the field, (2) delete a sample of leak rate, and (3) change the start-time of <

leak rate calculations to obtain a new value of.lekk rate. Calculated leak rate and 95% confidence leak rate summaries are printed after each sample summary is printed and also after any test parameter is selectively changed. Average temperature, pressure, and air mass are also printed at the end of each sample summary printout and when any associated test parameter is selectively changed.

l

.k O .

l Page 1 of 13

i i

NOTE: Two types of numbering systems will be used in the follow-ing descriptions, decimal (conventional) and octal. Octal numbers will be preceded by "/", (example) /14 is equiva-lent to 12 decimal.

l l

DATA ACQUISITION PROGRAM (DAP)

The following information is required to calculate leak rate;

1) Containment Pressure j

2) Containment Drybulb Temperature 1

3) Containment Dewpoint Temperature  :

)

I The computer points associated with instrumentation used to meas-ure containment pressure are:

Point ID No. Point Description Internal Point ID -

GPP0031 Containment Pressure 2728 GPP0032 Containment Pressure 2727  !

1 n The computer points associated with instrumentation used to meas-ure containment drybulb temperature are:

U l GPT000I Containment Drybulb Temp. 348 1 GPT0002. 349 GPT0003 350 GPT0004 351 GPT0005 . 352 i GPT0006 353 .

GPT0007 354 GPT0008 355 GPT0009 356 GPTGGIO 357 GPT0011 358 GPT0012 359 GPT0013 360 GPT0014 368 GPT0015 369 GPT0016 370 GPT0017 371 GPT0018 372 GPT0019 364 GPT0020 365 GPT0021 363 GPT0022 366 GPT0023 367 GPT0024 362 '

0 Page 2 of 13

I i

1 The computer points associated with instrumentation used to meas- -

i ure containment dewpoint temperature are: j Point ID No. Point Description Internal Point ID .l GPM0019 Containment Dewpoint Temp. 298 GPM0020 299 I

" " " I GPM0021 300 GPM0022 301 GPM0023 302 GPM0024 303 The main function of the DAP is to periodically collect the values associated with the previously mentioned ILRT computer points. Values are collected periodically at some fixed interval specified by the 4 operator when the DAP is first initialized. )

k After the required values have been collected, they are stored on I bulk memory along with the time and date when the values are f collected. The value status number and point status number associated (

with each computer point, at the time their associated values are col- l lected, is also stored. A complete " sample" of ILRT data consists of computer point values, status, time and date.

Each data sample is stored in seqGential locations on bulk memory, to be used later by the DRP.

Obtaining Values The DAP uses standard Honeywell Seer Systeur software calls to ob-  ;

tain the values and status of the required ILRT' comupter points. Tha. _li Seer System continuously scans and updates all of the computer points values and status for the entire system, thus the computer points l required for ILRT are scanned and updated approximately every 5 seconds. j The following HoneyweII Seer System caIIs are used by the DAP to j obtain ILRT computer point values and status: .)

GETVT2 - This call is used terobtain the value of the computer  !

point specified by the number in the CPU's accumulator  !

register at the time of the call. The desired computer point internal ID number is placed in the CPU's accumula-tor (A) register prior to the call. When the call is completed the desired computer point's value, in en-gineering units, at the time the call was made, is placed in the CPU's accumulator (A) register.

O Pass. 3 of 13 1

n

'U GETST1 - Same as GETVT2 with the exceptien that when the call is completed the desired computer point's point status, at l the time the call was made, is placed in the CPU's accu-mulator (A) register. The following is an explanation of point status numbers:

Point Status Number Meaning 0 Spare 3

'1 Unknown l 2 Good l 3 Low Reasonable Limit reached ~ l' 4 High Reasonable Limit reached S Invalid process 6 Open process 7 Bad process -

.8 Overflow process

~9 Deleted point .j 10 Locked out/ stopped j GETST2 - Same as GETST1, except digital (rather than analog) point status is 'obtained. j

~

)

utnu - Same as the GETSTI call except the desired computer I points value status is obtained. The following is an ex- l (t/'T planation of value status numbers:  !

Value Status Number Meaning 0 No value L Normal Z Questionable 3 Computer Substituted value .

4 Operator inserted value 5 Test routine simulated value l

The internal point ID numbers used with these three calls are j stored in the DAP in a table at tha location labled CBLK. The decimal  !

values of the CBLK table represent the internal ID numbers of the com-puter points whose values and status are needed for ILRT.

Data Storage After a sample of data has been obtained for a specific time, it is stored in sequential locations on bulk memory by the Fortran IV call SETBLK. The area of bulk memory used to store data samples is part of the In Core Data Buffer (INCDEF).

1 (7

t)

Page 4 of 13 j

I 1

1 1

0 -The In Core Data Buffer covers octal' memory locatons /2610600 to

/3023177. The area of the In Core Data Buffer used to store data' sam-ples covers octal memory locations /2610602.(725378 decimal) to

/3014645 (792997 decimal).

NOTE: The memory locations that'specify the In Core Data Buffer are subject to design change.~ -

A' sample of ILRT data used 84 memory locations.. A' total of 805 samples can be stored in the In Core Data Buffer area by the DAP. ]

With a periodic sampling interval of 10. minutes-a'little more than 5' j 1/2 days worth of ILRT data can be' stored. A. sample of data is stored R in the following sequence: l l

DATA SAMPLE FORMAT Memory Locations Used Data 3 1 Time.(in system counts)  !

1 year 'j 1 month ]

1 day i 2- tese time (double. precision) 26 point values (in engineering units)r 26 point status 1 O Total = 5 -

26 value status Sample Size .

i

{;

NOTE.:. Point values and. status are stored. in. the saan order that ther appear in the CBLK table. ,

Definitions Time - The time of day in system time counts when the sample was taken.

Year - The year when the sample was taken, l Month - The month when the sample was taken.

The day of the month when the sample was taken, j Da_I -

. Test Time - The elapsed time since the beginning of ILRT data sam-pling (Program Status'= 3) in double precision.

Equals zero for program status of one or two.

O.

Page 5 of 13.

r

R 1 n I V- 1 Program Status Memory _ location /2610601 (725377 decimal) of the In Core Data '

Buffer contains the current program status number. The DAP runs in )

one of three'different configurations represented by a program status number defined as follows:

Program Status equals one - pressurization 3 Pressurization data samples are. collected and stored.in requential memory locations beginning with the first memory location of the In Core Data Buffer storage area. -Any previous data stored before pressurization will be over written by pressurization data, and '

lost. Test time is. equal to zero during pressurization.

Program Status equals two - temperature stabilization -

Temperature stabilization data samples are collected and stored in '

i sequential memory locations beginning with the first memory loca-tion of the In Core Data Buffer storage area. Any previous data l

stored before temperature stabilization will be overwritten by tem- ] i perature stabilization data, and lost. Test time'is equal to zero  :

during temperature stabilization.

Program Status equals three - ILRT  ;

. I ILRT. data samples are collected and stored in sequential memory ' -

locations-beginning where the data stored before status three left-off in. tha In, Core Data Buffer. storage area . Any pr.svious data. -

stored before ILRT is retained along, with IIRT data.

Program Status eouals four - chanze sample intervaI A program status of four is used to-request a new sampling interval. The new sampling interval.is entered on the I/O typer and the Program Status returns to its original value, before the request was made. Note of caution: ILRT procedures prohibit changing the sample interval during ILRT (program status of three).

Program Status eauals five - terminate program

( A program status of five will terminate both the DAP and DRP.after .

l the next sample is taken, stored, and the appropriate calculations

( are completed.

l O-Page 6 of 13 i

= _ _ - _ _ - _ - - - - _ _ _ _

1 1

'p Program Status fo six, seven. eight, or nine Program Status of six, seven, eight,' or nine.is used by the DRP l and can only be entered after a status of three. . Program status is returned to three by the DRP after. entering a Program Status of six, seven, eight or nine.

Program Status is changed by pushing the demand button on the online CPU's operator console. After the next sample is obtained and stored, '

the I/O typer outputs a request for the new Program Status. number. 1 The new Program Status number is entered on the I/O typer making the- 1 request. .After entering the new Program Status number and pushing the )

return key of the I/O typer the program continues with the new program-status.

When the DAP is first initialized a request for the sample interval is output on the I/O typer. After the desired sample interval is entered on the I/O typer and the return key is pushed the DAP begins Its task of obtaining data and storing it. 1 i

Prerequisites for DAP

]

q BOP Computers are running satisfactorily in Dual Copr Mode

1) I l

2) The instrumentation regiured for ILRT data is insta11edi tested, calibrated, and verified to be working properly.

• l J

3) The required computer points associated generic test have i been. completed.

4) Seer System fx in operation. l

5) The required computer points scan and update is initialized. I

6) DAP program has been properly loaded into the online CPU.

7) Programs that utfIize the In Core Data Buffer are . locked out.

8) Required BOP computer peripheral devices are working properly. .

After the DAP has obtained the required data and stored it on bulk memory, it makes a call to turn on the DRP. After turning on the DRP, the DAP delays itself for the specified interval until the next data sample is needed.

l 0

Page 7.of 13 q L___________._____________ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _

I k

I i

(,) ;l DATA REDUCTION PROGRAM (DRP)

The DRP takes'the data previously stored by the'DAP~and prints out. .

a summary listing of. all.the values obtained and stored at. a given time. .ILRT data is read from the In Core Data Buffer area, described in the DAP description,1by the Fortran'IV SETBLK subroutine' call. The 4

DRP also runs in one of three' configurations represented by the' cur-

-rent program status number stored by the DAP in location /2610601

.(725377. decimal) of the In Core Data Buffer.

When the DRP is first initiated a request' for volume fractions is output'on the I/O typer. .The proper volume fracton associated with each ILRT computer point is entered on the I/O typer. ;After all the 1

'~

volume fractions have been entered, the DRP begins the task of print -

ing ILKr data summaries corres y M a* tothecurrentprogramstatusl J number as'follows:

Program statuseauals one - pressurization- ]

The latest pressurization data is read fros'the In Core Data Buffer storage area by the Fortran IV'SETBLK call, along with~the time,'date, and status when,the data was obtained. After the data is  ;

read from memory, a summary is printed on tho'line printer. The sum-mary printout heading indicates that the data obtained is for . j pressurization. Data, page number, time, test time, and sample inter-O val are printed as'part of the summary heading. Point values, statua, and description are printed for each of the, required computer points.*

.I J

at the time they were sampled. 'The change in engineering units of.

]

1 each computat point, sinca the last sample was. taken, is. Also' printed.. 1 Weighted averages, based on individual volume fractions, are calcu-l laced and printed.for drybulb-temperature, dowpoint temperature, and j air pressure (containment pressure - weighted' average vapor pressure). :j Vapor pressure for each 'dowpoint temperature value is obtained by no-ing the Fortran IV call PSATT. The PSA'IT call is.an internal' function that the Honeywell System provides for' finding the vapor pressure at a specified temperature, according to ASMF, steam tables.

~

1 Paga 8 of 13

O '

Average vapor pressure is the weighted average of each vapor pres-sure value. 'After the average pressure and temperatures are printed, the containment air mass for the sample time is calculated'and printed.

Containment Air Mass is calculated using the following formula:

Air Mass (1ba) = (averare drv air pressure) (containment volume) (144)

(gas constant)-(average drybulb temperature)

Where Containment volume = 2,500,000 sq. ft.

Gas constant = 53.35 for dry air Averges~and Air Mass are calculated and printed double precision for greater accuracy.

Program Status equals two - Temperature stabilization During temperature stabilization, sample summaries are printed. l identical to the summary printouts for pressurization, with the excep-tion that the summary heading indicates,that the printout is for tem-perature stabilization data. Average weighted drybulb temperature for each data sample is stored in the In Core Data Buffer. - The area of pl the In Core Data Buffer used for storing, temperature averages is bulk memory location /3017760 to /302.3072. (794608 to 796218).- Temperature averages are stored as double precision numbers by using the Fortran -

~

IV SETBLK call, and use two memory locations per number. Temperature.

averaget ara read, from. the In Cors Data Buffer by the Fortran. I.V SEI-BLK call and used to determine when the temperature staktlization criteria has been met.

Proaram Status eouals three - ILRT .

ILRT sample summary printouts are identical to the printouts dur-ing pressurization, with the exceprion that the sunssary headings indi-care that the summary printout is for ILRT data. In addition to the usual printout, leak rate and start time is prfaced. Start Time is the test time for the first ILRT data sample used in calculating leak rate values. Start time is initialized equal to zero.

Leak Rates are calculated using two methods, Mass Point method and- )

Bechtel BN-TOP-1 total time method. For a more detailed explanation j of the methods used for calculating-leak rates see  ;

" ANSI /ANS-56.8-1981, American National Standard, Containment System Leakage Testing Requirements", and "Bechtel Topical Report BN-TOP-1, testing criteria for integrated leakage rate testing of primary con-tainment structures for nuclear power plants".

O-Page 9 of 13

Leak rate, and 95'. confidence leak rate are printed for the Mass Point method. All leak rate calculations and results are in double precision for greater accuracy. Average pressure and' temperatures for each ILRT data sample is stored in the In Core Data' Buffer, to be used in calculations for leak rate. Weighted dry air pressure values are stored in bulk memory locations /3014646 to /3017757 (792998 to 794607) of the In Core Data Buffer. Weighted average dry air tempera-ture values are stored in bulk mamory locations /3017760 to /3023971 (794608 to 796217) of the In Core Data Buffer. Any previous tempera-ture and pressure averges stored in the In Core Data Buffer during pressurization or temperature stabliziation, are overwritten by ILRT averages.  ;

Program Status equals five - program termination A Program Status of five will terminate both the DAP 'nd a the DRP after the last sample is obtained and printed. Before the DRP termi-nates a final summary of all calculated leak rates for each sample time is printed, along with a. summary of any samples that can be sta-tistically rejected. Rejection calculations use the method' described in Ref. 1. After all appropriate summaries'have been printed the DRP terminates with a message output to the line printer and I/O typer. ._

i Program Status Equals six-change start time

]

O Vith a Program Status of six, a request for a new start time is output on the I/O typer. The operator inputs the test time of the 1

l ILRT data sample desired to be the starting point of leak rate calculations. .j After the new start time is input, new leak rates are calculated.

and a summary of the new values are printed. After the summary is l

printed, the DRP continues running with a Program Status of three. j Program Status equals seven-add / delete sample With a Program Status of seven, a request is output on the I/O typer for the sample to be added or deleted. The operator inputs the j test time of the ILRT data sample to be added or deleted. Each ILRT j data sample has an associated value in a table called IDEL. A value  !

of one in the corresponding IDEL table, indicates that the data sample l is to be included in leak rate calculations. If the corresponding i IDEL value is zero, the data sample is not included in leak rate l calculations. If a data sample has been previously deleted, it is i' added by entering its associated test time. After all of the desired data samples have been added or deleted, new leak rates are calculated and a summary of the new leak rate values is printed. When the DRP is ,

initialized, all the values of the IDEL table are set to one. After j the summary of the new leak rate values is printed, the DRP continues to run with a status of three.

O EJ Page 10 of 13

l

.O. -4 Program Status eat.als eight - change volume fractions -]

I With a Program Status of eight, a request-is output on the I/O ]

typer for new volume fractions. After all of the desired volunie frac- 1 tions have been changed, new average temperatures and pressures are j calculated for all of the ILRT data previously.obtained. New average pressure and temperature are stored in the appropriate' area of the in Core Data Buffer, replacing the old stored values. A srmmary of new average temperatur'es, pressures, and leak rates is printed, and then i the DRP continues running with a Program Status of three. I Program Status equals nine - print summary A Program Status of nine will initiate a summary printout of all-previously calculated leak rates. After the. summary is printed, the DRP continues running with a Program Status of three.

l Test Completion

-After all the required ILRT data has been collected and both'the DAP and DRP have been terminated, any of the operations initiated by a Program Status of six, seven, eight, or nine can be done on the stored data. Final test parameter changes and summary printouts are accoar-plished by manually starting the DRP with the desired Program Status number stored in the In Core Dat'a Buffer location /2610601 (723377 O- decimal). A summary of sample summaries have been printed, and then the DRP will terminate itself. Only a Program Status of'six, seven, j eight, et nine can be used after the DRP has been terminated with a l Program Status of five. -

Prerequisites for DRP

1) BOP Computers are running satisfactorily in Dual Copy Mode.

2) DRP has been properly loaded into the online CPU.  !

~

3) Programs that uti!Ize the In Core Data Buffer are locked out.

4) DAP'is loaded and running correctly.

5) The required BOP computer peripheral devices are working properly.

6) Line printers and I/O typers have a sufficient amount of paper to last the entire test.

O 1 Page 11 of 13 ,

t

l':

c':  ;

r i

/N (

U '1 l

References:

1) ANSI /ANS-56.8-1981, Containment System leakage Testing j l Requirements, published by the American Nuclear Society, 555  !: -I North Kensington Manue, La Grange Park, Illinois, 60525, USA.

2) Topical Report BN-TOP 1, Testing Criteria for Integrated - j Leakage Rate Testing of Prinary Containment Structures for- J Nuclear Power Plants, Bechtel Corp., San Francisco, Californian , ,-

s

3) PrimaryReactorContainmentintegratedLeakaghRateTest',

Procedure number S-030001 Rev. D, for Callaway; Bechtel Job Number 10466, issued 8/9/82. . y

4) Integrated Leak Rate Test of Primary Containment Unit No. 1 .-i-

'/'

at LaSalle Nuclear Power Station for Commonwealth Edison Com-

.pany, report prepared by Wiss, Janney, Elstner and Associ-  !

ates, Inc., Consulting and Research Engineers, 330 Pfingsten l Road, Northbrook, Illinois, 50052, WJE NO. 78438Q. '

1

5) American Nuclear Society, Reactor Operations Division Work- 1

- shop, Proceedings Integrated Leak Rate Tests, state of the art technology, January 18-19, 1983, San Diego, California.

6) Reactor Containment Building Preoperational integrated Leak j Rate Test for Crystal River Unit 3 Nuclear Generating Plant,  !

Florid.a. Power Corporation,. prepared. by GGilbart/ Commonwealth.,.

Engineers / Consultants, Reading, PA and Jackson, M1. GAI Report No. 192.7, December 10, 1976. 1

7) Power Engineering, pp 46-49, Data Analysis During Containment Leak Rate Test, February, 1974.

8) Snupps ILRT Computer Program, September,1981 by F. Sch-woerer, Nuclear Projects, Inc., 5 Choke Cherry Road, Rock- l ville, Maryland 20850.

9) SLBE 81-059,1-26-81,

Subject:

Containment InteFrated Leak Rate Test Calculations.

10) BLSE-9371, April 13, 1983, S.ibj ect: Containment Integrated Leak Rate Test Calculations.

11) SLT 18-151, October 6, 1981,

Subject:

Containment Integrated Leak Rate Tests. a

12) Honeywell TDC 4500/ES4400 Process Computers Fortran IV Lan-guage Manual', PTS-047.

Page 12 of 13 ',

i 1

yp -i m . 1 ,

f .

a li , ,

y.

- 3 4

O '

i

13) Honeywell TDC 4500/HS4400 Process Computers Instruction Ref- .l erence Manual, PTS-046. .;

l

14) Honeywell TDC 4500/RS440 Process Computers Programming Man- '

ual, PTS-04'. 4

15) Honeywell.TDC 4500/HS4400 Process Computers PAL Process As-sembint Language Manual, PTS-043.

16) HoneywelbTEC4500/HS4400ProcessComputers'Real-TimeMulti-programming Operating System Application Manual, PTS-051.

17) Honeywell 4500 System Specification Section 3, Drawing No. .

10466-J106-0179-02, 4500 Nuclear Seer, SNUPPS BOP, Section 4.2,-1967 ASME Steam Table Formulations Pagea~22 and 23. l I

18) Honeywell.4500 Standard System Specification Section 9, )

4500/7100 Seer, Sec. 3.4.5, Pages 94, 95 and 96, GETST1, GETST2, GETST3,-GETVT2.

19) Drawing No. 10466-E-03GP01

20) . Drawing No. 10466-M-02GP01 O 21) Econometrics, c1970, by Ronald J. Wonnacott and Thomas H.

Wannacott, Wiley.

l

22) Callaway.ILRT Data Acquisition and Reduction Program 'Operat-ing,Instmetiona.

23) SNUPPS FSAR, Sections 6.2.6 ,

i 24) Rules and Regulations, Title 10-Chapter 1, Code of Federal '

l Regulations, Part 50, appendix J (10CFR50, App. J), Primary i Reactor Containment Leakage Testing for Water Cooled Power Reactors, U. S. Nuclear Regulatory Commission.

l l

l i

i, i

).

, .l. ' j

'i l Paae 13 of 13 1

' '! k.

p.. l w___----__ _ _ - - . _ _ - _ - _ _ _ _ _ _ _ _ _ - - _ _ _ _ _ _ - ---. - .. . . _ _

j 1

APPENDIX B N E RATE (TIPE B AND C) TEST RESUIHS ,

4 l

1

nune LLR7 h4TASET nn*n

?

mmmumumuman j q

.....-- PEN i =L-0'01 ----- -

)

l I

OBS 'JATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM TCM SQUARED

.i. 29JULB4 ' L-001 BARREL 1932.M 20.00 409.M f

2. 20.00 400.M i?JAN85' L-001 BARREL s 1640.00 3 04APRBs L-001 BARREL- s 043.40 20.00 400.00-4 iiUCT85 L-001 BARREL 843.00 20.00 4M.00 L-001 B E EL 166.M 2.00 4.00 j 5 27FEPS4 6 25JUL66 L-001 BARREL ' 710.90 20.00 400.00 l 7 15DEC86 L-001 BARREL ' 556.00 20.00 400.00 8 22APR87 L-001 BARREL 1864.60 20.00 400.00 9, 06)AN84 L-001 INNER DR 20.M 2.00 4.00 to 2GJUL84 L-001 INNER DR 5.70 0.20 0.04  ;

11 .10AUG84 L-001 INNER DR 3.84 0.20 0.04 i 12 tiAUG84 L-001 . INNER DR 2.00 0.20 0.94 l

) 13 ' 16AUG84' L-001 INNER DR 6.70 6.26 - 0.64 ]

l;' 14 19AUG04 L-001 INNER M 2.M 0.29 0.04 i

15 25AUG84 L-001 INNER DR 29.00 0.26 0.04

.16

• 28SEP84 L-Mi INNER DR 16.10 0.29 0.04 l

% 17 030CT84 L-001 INNER DR 68.40 2.00 4.M l

~

. 18 1200T84 L-001 INNER M 101.70 2.M 4.06 i

,- 19 190CT84 L-Mi INNER DR 17.66 0.26 9.H  !

20 17JAN85 L-Mi INNER R 419.H 20.M .4M.00 21 30NAR85 L-091 INNER DR 2.M 9.26 6.H i l 22 04APR85 L-091 INNER M 22.62 2.H 4.M i 23 07APR85 L-Mi INNER M 86.20 2.M 4.M O 24 25 26 ti)UN85 tiOCT85 27FEB86 L-Mi L-001 L-Mi INNER M INNER M INNER M 287.00 586.M 134.70 29.H 29.M

- 2.M 4M.#

490.M 4:09 i

27 05APR86 L-Mi INNER DR 882.M 20.M 400.00 28 25JUL86 L-Mi INNER M 20.M 2.00 4.00 29 15DEC86 L-Mi INNER R 29.M 2.M 4.M l 30 02APR87 L-Mi INNER M 2.H 0.20 9.64 31 22APR87 L-Mi INNER M 2.M 0.29 0.H 32 MJAN64 L-Mi OUTER M 26.M 2.M 4.H 33 26JUL84 L-691 OUTER DR 6.99 9.29 0.H 34 itAUG84 L-Mi CWER M 44.M 2.# 4.00 35 iiAUG84 L-Mi WiER 3R 2.M 9.26 0.94 36 16AUG84 L-Mi OUTER R 27.M 2.M 4.H 37 1940G84 L-Mi OUTER R  % 2.M 0.26 6.64 38 2540G84 L-Mi OUTER DR 27.60 2.# 4.00 .

39 29EP84 L-601 OUTER DR ' 2.37 9.20 - 0.04 49 e30CT84 L 001 OUTER M 16.38 9.29 9.04 41 120CTB4 L-001 OUTER DR 53.99 2.M 4.M 42 190CT84 L-001 OUTER M 8.31 0.20 0.94 43 17)AN85 L-001 OUTER H liie.M 20.M - 490.90

' " " 44 30NAR85 1-901 OUTER M . 2.M 6.29 6.H 45 044PR85 L-001 OUTER DR 9.50 9.26 -0.64 46 07APR85 L-901 OUTER DR 1749.60' 20.M 4M.M

! 47 11JUN85 L-001 OUTER DR 2.M 0.29 0.04 I 48 cilDC185 L-001 OUTER DR 9.36 0.20 '0.04 L 49 120CT85 ^t-001 OUTER DR 2.M 0.20 0.04 l

4 50 27FEBS6' ' L-191 OUTER DR i3.80 0.20 0.04 I

' ' 51 #5AFRt6 L-001 OUTER DR 23.50 2.00 4.M

+ 52 25JUL86' *L-001 OUTER DR 20.00 2.00 4.00

, g Im

_ . . _ _ _ _ _ _ _ _ _ _ _ _ _ _ -- mw

WWUW UdSW U L%duWm u wwww '

• munmunmmneum

- PEN i =L-001 - ------- ----- - - - - -

DBS DATE PEN i VALVE LEAKAGE ERROR ERROR NDTES ,

SCCM

(~~

• SCCM SQUARED lj

\

' l 53 15DEC86 L-001 OUTER DR 87.60 2.00 4.00 54 02APR87 L-001 20.00 2.00 4.00 l OUTER DR 55 22APR87 L-001 OUTER DR 30.30 2.00 4.00

.. - . .. . . ... _. _...... . . . _. .. ..... .. - P E N i = L-0 0 2 -------- - -- ----- - - - - - - - - - - -

j

. 0BS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES i SCCM SCCM SQUARED l l

56 29JUL84 L-002 0-RINGS 801.00 30.00 900.00 57 08APR86 L-002 0-RINGS 217.60 20.00 400.00 58 03APR87 L-002 0-RINGS 216.40 20.00 400.00 59 2iAPR87 L-002 0-RINGS 20.00 2.00 4.00

..________ ... ... PEN i =L-003 -------- - - - - - - - - - -

OBS DATE PEN 4 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM. SQUARED 60 05AUG84 L-003 BARREL 530.00 20.00 400.M 61 19AUG84 L-003 BARREL 773.60 20.00 4M.00 955.00' 20.M 0 62 63 64 100CT84 27 MAR 85 liOCT85 L-003 L-003 L-003 BARREL BARREL BARREL 1332.25 804.60 20.00 20.00 400.00 400.00 4M.M j 65 28FEB86 L-003 BARREL 699.60 20.00 4M.00 l 66 25JUL86 L-M3 BARREL 1589.00 20.00 400.M 67 16DEC86 L-003 BARREL 1421.00 20.00 400.00 68 04JAN84 L-M3 INNER DR 3.48 0.55 0.30 69 06JAN64 L-003 INNER DR 29.60 2.00 4.00 70 05AUG84 L-003 INNER DR 2.00 0.20 0.04 71 14AUG84 L-003 INNER DR 2.00 0.20 0.04 72 16AUG84 L-M3 INNER DR 17.60 0.20 0.04 73 19AUG84 L-M3 INNER DR 2.M 0.20 0.04 74 20AUG84 L-003 INNER DR 2.00 0.20 0.04 q 75 22AUG84 L-003 INNER DR 2.00 0.20 0.04 . )'

76 23AUG84 L-M3 INNER DR 2.00 0.20 0.04 77 25AUG04 L-003 INNER DR 2.00 0.20 0.04 78 28AUG84 L-003 INNER DR 8.20 0.20 0.04 79 31AUG84 L-003 INNER DR 4.27 0.20 0.04 80 ' 03SEP84 L-003 INNER DR 12.30 0.20 0.04 81 09SEP84 L-003 INNER DR 5.35 0.20 0.04 82 12SEP84 L-003 INNER DR 2.00 0.20 0.04 83 26SEP84 L-003 INNER DR 2.00 0.20 0.04 84 28SEP84- L-003 INNER DR 2.00 0.20 0.04 85 - GiOCT84 L-003 INNER DR 2.00 0.20 0.04 86 040CT84 L-003 INNER DR 2.00 0.20 0.04 87 070CTB4 L-003 INNER DR 2.00 0.20 0.04-

'O 88 89 100CT84 130CT84 L-003 L-003 INNER DR INNER DR 2.00 2.00 0.20 0.20 0.04 0.04 90 160CT84 L-003 INNER DR 2.00 0.20 0.04

anno LLRT DATASET *nctu nunxmunnumnun*

. .. . ___.. .____ _. PEN 0 -L-003 --- - - - - - - - - - - - - - - - - - - -

OBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES

( SCCH SCCH SQUARED 91 190CTB4 L-003 INNER DR 2.00 0.29 0.04 92 220CT84 L-003 INNER DR 2.09 9.20 0.04 s 93 260CT84 L-003 INNER DR 2.09 0.20 0.04 i 94 290CT84 L-003 _ INNER DR 88.00 2.00 4.00 l 95 01N0VB4 L-093 INNER DR 2.00 0.29 9.04 )

i 96 04H0V84 L-003 INNER DR 2.00 0.20 0.04

?? 27NAR85 L-003 INNER DR 26.60 2.00 4.00 98 01APR85 L-003 INNER DR 2.00 0.20 0.04 99 04APR85 L-003 INNER DR 2.00 0.29 0.04 j 100 07APRB5 L-903 INNER DR 2.12 9.29 0.04 l 101 10APR85 L-003 INNER DR 4.15 0.29 0.04 102 23MAYB5 L-003 INNER DR 2.00 0.20 0.04 i 103 31MAY85 L-903 INNER DR 2.00 0.29 9.64-104 i4JUN85 L-903 INNER DR 2.90 0.20 0.04 -l 105 21JUN85 L-903 INNER DR 20.00 2.00 4.90 .

106 24JUN85 L-903 INNER DR- 2.00 0.20 0.04 (

107 27JUN85 L-003 INNER DR 2.00 0.20 0.94 j 108 02JUL85 L-003 INNER DR 325.00 200.00 49000.00 1 109 13JUL85 L-003 INNER DR 2.00 9.20 0.04 ile 20JUL85 L-903 INNER DR - 7.00 9.29 0.04 til 27JUL85 L-903 INNER DR 2.00 9.20 0.04 112 GiAUG85 L-003 INNER DR 20.00 2.90 4.00 113 12AUG85 L-003 INNER DR 2.00 0J0 0.04 .

O

\

114 115 116 16AUG85 23AUG85 30AUG85 L-003 L-003 L-903 INNER DR INNER DR INNER DR 20.00 2.90 20.00 2.00 0.20 2.00 4.00 0.04 4.00 117 04SEP85 L-903 INNER DR 20.00 2.00 4.00 118 10SEP85 L-903 INNER DR 803.90 20.00 400.00 119 13SEP85 L-903 INNER DR 2.90 0.29 0.04 120 16SEP85 L-H3 INNER DR 2.00 0.20 0.04 121 20SEP85 L-003 INNER DR 2.90 0.20 0.04 122 22SEP85 L-003 INNER DR 20.90 2.90 4.00 123 28SEP85 L-903 INNER DR 2.00 0.20 0.04 l 124 040CT85 L-003 INNER DR 2.90 0.20 0.04 125 110CT85 L-903 INNER DR 2.00 0.29 0.04 126 170CT85 L-903 INNER DR 2.90 9.20 0.04 .

I27 310CTB5 L-903 INNER DR 2.90 0.20 0.04 128 06N0VB5 L-003 INNER DR 255.90 20.00 409.90 129 09N0Y95 L-903 INNER DR 179.00 2.99 4.09 130 12NOV85 L-903 INNER DR 33.50 2.00 4.00 131 18MOV85 L-003 INNER DR 114.50 2.09 4.90 132 03DEC85 L-903 INNER DR 294.80 20.00 400.90 133 95DEC85 L-003 INMR DR 158.99 2.00 4.90 l 134 98DEC85 L-003 INNER DR 167.40 2.00 4.00 l 135 liDEC85 L-903 INNER DR 54.20 2.00 4.00 l 136 17DEC85 L-003 INNER DR 2.90 0.20 0.04  ;

137 29DEC85 L-903 INNER DR 68.30 2.00 4.00 138 10JAN86 L-003 INNER DR 2.00 0.20 0.04 O 139 140 141 14JAN86 30JAH86-03FEB86 L-003 L-003 L-903 INNER DR INNER DR INNER DR 2.99 2.00 2.00 0.20 0.29 0.29 0.04 0.04 0.04 I

l 142 06FEB86 L-903 INNER DR 59.40 2.00 4.00

• nem LLR1 DAIASET m****

mmnmunumumm

---

PEN 0 -L-003 --- ---- - - - - - - - -

4 OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES

] SCCM SCCM SQUARED

[G l 143 iiFEB86 L-003 INNER DR 2.00 0.20 0.04 1 144 14FEB86 L-003 INNER DR 20.00 2.00 4.00 l 145 19FEB86 L-003 INNER DR 2.00 0.20 0.04 j 146 2BFEB86 L-003 INNER DR 266.80 20.00 400.00 147 03 MAR 86 L-003 INNER DR 154.40 2.00 4.00 148 10APR86 L-003 INNER DR 20.00 2.00 4.00 149 12APR86 L-003 INNER DR 29.00 2.00 4.00 150 15APR86 L ' 03 IM ER DR 20.00 2.00 4.00 151 18APR86 L 003 INNER DR 16.12 0.20 0.04 j 152 20APR86 L-003 INNER DR 2.00 0.20 0.04 j J

153 24APR86 L-003 INNER DR 9940.00 200.00 40000.00 154 28APR86 L-003 INNER DR 2.00 0.20 0.04 155 01MAY86 L-003 INNER DR 2.00 0.20 0.04 -

156 04MAYB6 L-003 INNER DR 2.00 0.20 0.04 157 10MAY86 L-003 INNER DR 2.00 0.20 0.04 158 19MAYB6 L-003 INNER ')R 2.00 0.20 0.04  !

159 22MAY8A L-003 INNER DR 2.00 0.20 0.04 f

160 26MAYB6 L-003 INNER DR 2.00 0.20 0.04 161 28MAY86 L-003 INNER DR 2.00 0.20 0.04 162 08JUN86 L-003 INNER DR 2.14 0.20 0.04 163 16JUN86 L-003 INNER DR 2.00 0.20 0.04 164 20JUN86 L-003 INNER DR 20.00 2.00 4.00 165 24IUNB6 L-003 INNER DR 20.80 2.00 4.00 f 166 167 27)UNB6 04)UL86 L-003 L-003 INNER DR INNER DR 2.00 20.00 0.20 2.00 0.04 4.00 168 OBJUL86 L-003 INNER DR 2.00 0.20 0.04 169 42JUL86 L-003 INNER DR 2.79 0.20 0.04 170 25JUL86 L-003 INNER DR 2.00 0.20 0.04 171 28)UL86 L-003 INNER DR 2.00 0.20 0.04 P2 Gi AUG86 L-M3 INNER DR 25.60 2.00 4.00 173 04AUG86 L-003 INNER DR 27.00 2.00 4.00 174 16AUG86 L-003 INNER DR 2.00 0.20 0.04 175 22AUG86 L-M3 INNER DR 5.50 0.20 0.04 -

176 27AUG84 L-003 INNER DR 5.60 0.20 0.04 177 29AUG86 L-003 INNER DR 2.44 0.20 0.04 '

178 07SEP86 L-003 INNER DR 2.00 0.20 0.04 179 tiSEP86 L-003 INNER DR 27.00 2.00 4.00 100 19SEP86 L-003 INNER DR 2.00 0.20 0.04 181 295EP86 L-003 INNER DR 2.00 0.20 0.04 182 040CT86 L-003 INNER DR 2.00 0.20 0.04 183 100CT86 L-003 INNER DR 200.00 20.00 400.00 184 170CTB6 L-003 IMNER DR 2.00 0.20 0.04 185 15NOV86 L-003 INNER DR 2.00 0.20 0.04  ;

186 2iNOV86 L-003 INNER DR 2.00 0.20 0.04 l 187 25NOV86 L-003 INNER DR 2.00 0.20 0.04 l 188 03DEC86 L-003 INNER DR 20.00 2.00 4.00 l 189 04DEC86 L-003 INNER DR 20.00 2.00 4.00 190 tiDEC86 L-003 INNER DR 2.00 0.20 0.04  :

tO 191 16DEC86 L-003 INNER DR 20.00 2.00 4.00  !

V 192 21JAN87 L-003 INNER DR 2.00 0.20 0.04 193 24)AN87 L-003 INNER DR 20.00 2.00 4.00 194 29JAN87 L-003 INNER DR 20.00 2.00 4.00 )

_-_________A

n:nnu LLRT DATASET unun umn*nn:nunauxn*u*

PEN t =L-003 - - - - - - - - - - -

OBS DALE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 195 31JAN87 L-003 ' INNER DR 2.00 0.20 0.04 196 07FEB87 L-003 INNER DR 2.20 0.20 0.04 197 19FEB87 L-003 INNER DR 2.00 0.20 0.04 198 13 MAR 87 L-003 INNER DR 2.00 0.20 0.04 .

i 199 17MAh87 L-003 INNER DR 2.00 0.20 0.04 1

200 26 MAR 87 L-003 INNER DR 2.00 0.20 0.04 201 26APR87 L-003 INNER DR 20.00 2.00 4.00 202 04JAN84 L-003 PUTER DR B.55 0.55 0.30 203 06JAN84 L-003 OUTER DR 20.00 2.00 4.00 204 05AUG84 L-003 OUTER DR 3.50 0.20 0.04 205 14AUG84 L-003 OUTER DR 2.00 0.20 0.04 206 16AUG84 L-003 OUTER DR 14.90 0.20 0.04 207 19AUG84 L-003 OUTER DR 2.50 0.20 0.04 208 19AUG84 L-003 OUTER DR 2.00 0.20 0.04 1 209 20AUG84 L-003 OUTER DR 2.00 0.20 0.04 210 22AUG84 L-003 OUTER DR 2.00 0.20 0.04 {

211 23AUG84 L-003 OUTER DR 2.00 0.20 0.04

{

212 25AUG84 L-003 OUTER DR 2.00 0.20 0.04 j 213 28AUG84 L-003 OUTER DR 7.73 0.20 0.04 1 2i4 31AUG84 L-003 OUTER DR 4.90 0.20 0.04 l 215 216 03SEP84 09SEP84 L-003 L-003 OUTER DR OUTER DR 13.00 4.43 0.20 0.20 0.04 0.04

) '

217 12SEP84 L-003 OUTER DR 2.00 0.20 0.04 O

218 '6SEP84 L-003 OUTER DR 2.00 0.20 0.04 b 219 28SEP84 L-003 OUTER DR 2.00 0.20 0.04 )

220 040CT84 L-003 OUTER DR 2.00 0.20 0.04 l 221 070CT84 L-003 OUTER DR 2.00 0.20 0.04 222 100CTB4 L-003 OUTER DR 2.00 0.20 0.04 223 130CT84 L-003 OUTER DR 2.00 0.20 0.04 224 160CTB4 L-003 OUTER DR 2.00 0.20 0.04 l 225 190CT84 L-003 OUTER DR 2.00 0.20 0.04 l 226 220CT84 L-003 OUTER DR 2.00 0.20 0.04 227 260CT84 L-003 OUTER DR 2.00 0.20 0.04 228 290CTB4 L-003 OUTER DR 82.00 2.00 4.00 229 GiNOV84 L-003 OUTER DR 2.00 0.20 0.04 230 04NOY84 L-003 OUTER DR 2.00 0.20 0.04 231 27 MAR 85 L-003 OUTER DR 2.00 0.20 0.04 232 GiAPR85 L-003 OUTER DR 2.00 0.20 0.04 233 04APR85 L-003 OUTER DR 2.00 0.20 0.04 234 07APR85 L-003 OUTER DR 10.16 0.20 0;04 235 10APR85 L-003' OUTER DR 2.13 0.20 0.04 236 23MAY85 L-003 OUTER DR 2.61 0.20 0.04 237 31MAY85 L-003 OUTER DR 2.81 0.20 0.04 238 14)UN85 L-003 OUTER DR 2.00 0.20 0.04 239 21JUN85 L-003 OUTER DR 20.00 2.00 4.00 -

240 24JUN85 L-003 nUTER DR 2.00 0.20 0.04 241 27JUN85 L-003 uuTER DR 2.00 0.20 0.04 242 02JUL85 L-003 OUTER DR 2000.00 200.00 40000.00

/]

(/

243 244 13JUL85 20)ULB5 L-003 L-003 OUTER DR OUTER DR 2.00 2.00 0.20 0,20 0.04 0.04 245 27JUL85 L-003 OUTER DR 2.00 0.20 0.04 246 GiAUG85 L-003 001ER DR 20.00 2.00 4.00

xnx*x* LLRT DATASET **nen

• • ns**ns*********xxe**nzenne 1

- PEN i -L-003 ----------- - - - - - - - - - - - - - - - - - - - - - ----------- ,

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED

(

247 12AUG85 L 003 OUTER DR 2.09 9.20 0.04 248 16AUG85 L-003 OUTER DR 20.00 2.00 4.90 1 249 23AUG85 L-003 OUTER DR 2.00 0.20 0.04 250 30AUG85 L-003 OUTER DR 20.00 0.20 0.04 251 04SEP85 L-003 OUTER DR 20.00 2.00 4.00 252 10SEP85 L-003 OUTERDR 786.00 20.00 400.00 l i

253 13SEP85 L-003 OUTER DR 2.00 0.20 0.04 254' 16SEP85 L 003 OUTER DR 2.00 0.20 9.04 255 20SEP85 L-003 OUTER DR 2.00 0.20 0.04 256 22SEP85 L-003 OUTER DR 29.00 2.00 4.00 '

257 28StP85 L-003 OUTER DR 2.00 9.20 0.04 258 640CT85 L-003 OUTER DR 2.00 0.20 9.94  !

259 110CT85 L-M3 OUTER DR 2.00 0.29 0.04 j 260 170CTB5 L-M3 OUTER DR 19.12 9.29 0.04 261 310CT85 L-M3 OUTER DR 14.25 0.29 0.04 262 06N0VB5 L-003 OUTER DR 8.24 0.29 9.94 263 09NOV85 L-M3 OUTER DR -22.40 2.00 1.00 264 12NOV85 l-963 OUTER DR 11.27 9.20 0.04 j 265 18N0V85 L-M3 OUTER DR 17.29 0.29 9.64 i 266 93DEC85 L-903 OUTER DR 13.17 9.29 9.64 1 267 0$DEC85 L-M3 OUTER DR 23.20 2.00 4.99 l 268 00DEC85 L-M3 OUTER DR 29.89 2.H 4.00 )

269 ilDEC85 L-M3 OUTER DR 2.00 0.29 0.94 l 279 "17DEC85 L-M3 OUTER DR 2.99 0.29 9.94 I k 271 29DEC85 L-M3 OUTER DR 2.90 9.20 9.04 272 10JAWB6 L-M3 OUTER DR 2.00 0.29 0.04 l 273 14)AN86 L-M3 OUTER DR 2.09 9.20 0.04 1 274 30JAN86 L-063 OLITER DR 2.90 9.29 0.04

, 275 03FEB86 L-M3 OUTER DR 2.99 9.29 0.04 276 96FEB86 L-M3 OUTER DR 2.H 9.29 9.94 277 liFEB86 L-M3 OUTER DR 2.M 9.20 0.94 I 278 14FEB86 L-M3 OUTER DR 29.99 2.M 4.M 279 19FEB86 L-M3 OUTER DR 2.M 0.20 0.04 l

286 28FEB86 L-M3 OUTERDR 2.69 0.29 9.04 281 93MR86 L-M3 OUTER DR 20.M 2.00 4.M 282 19APR86 L-M3 OUTER DR 20.00 2.99 4.M 283 12APR86 L-963 OUTER DR 29.M 2.00 4.09 284 15APR86 L-M3 OUTER DR 20.H 2.99 4.09 'i 285 18APR86 L-M3 OUTER DR 70.69 - 2.09 4.00 286 29APR86 L-093 OUTER DR 2.99 9.29 0.04 287 24APR86 L-963 OUTER DR 429.99 2M.09 40MO.09  !

288 28APR86 L-003 OUTER DR 2.00 0.29 0.04 289 GiMY86 L-M3 OUTER DR 2.00 0.20 0.64 290 04MAYB6 L-M3 OUTER DR 2.H 9.20 0.04  ;

291 10MYB6 L-903 OUTER DR 2.M 9.29 0.04 292 19MAYB6 L-003 OUTER DR 2.H 9.29 9.04 293 22MY86 L-003 OUTER DR 2.06 9.29 0.04 294 26MAYB6 L-963 OUTER DR 2.H 9.29 0.04 O

\

295 296 297 28MAY86 98JUN86 16JUN86 L-093 L-003 L-003 OUTER DR OUTER DR OUTER DR 5.92 2.00 2.00 0.29 0.20 0.29 0.04 9.94 0.04 298 29JUN06 L-003 UUTER DR 2.09 0.20 0.04 L

1 unen* LLRT DATASET *****n i

• annunnemanunnu l

.... PEN 0 =L-003 - - - ---- - ---- --- -

OBS DATE PEN i VALVE LEAKALE ERROR ERROR NOTES-SCCM. SCCM SQUARED 27f 24J'JN84 L-003 OUTER DR 2.M 0.20 0.04 1 3M 27JUN86 L-003 OUTER DR 2.00 0.20 0.04 1 l

301 04JUL86 L-003 OUTER DR 20.00 2.00 4.00 302 08JUL86 L-003 OUTER DR 2.46 0.20 - 0.04 303 22JUL86 L-003 OUTER DR 2.00 0.20 0.04 304 25JUL86 L-003 OUTER DR 2.00 0.20 0.04 )

305 2BJUL86 L-003 OUTER DR 2.00 0.20 0.04 )

306 DiAUG86 L-003 OUTER DR 2.00 0.20 0.04 307 04AUG86 L-003 OUTER DR 20.00 2.00 4.00 308 16AUGB6 L-003 - OUTER DR 2.70 ' O.20 0.04 309 22AUG86 L-003 OUTER DR 2.00 0.20 0.04 310 27AUG86 L-003 OU1ER DR 2.M 0.20 0.04 311 29AUG86 L-003 OUTER DR 2.00 . 0.20 0.04 1

312 0?SEP86 L-003 OUTER DR 2.M 0.20 0.04 i l 313 tiSEP86 L-003 OUTER DR 2.M 0.20 0.04 1

314 19SEP86 L-003 OUTER DR 2.M 0.20 0.04 315 040CT86 L-003 OUTER DR 2.00 0.20 0.04 316 100CT86 L-003 OU1ER DR 2.00 0.20 0.04 317 170CT86 L-M3 OUTER DR 2.00 0.20 0.04 318 15HOV86 L-M3 OUTER DR 2.00 0.20 0.04 l 319 2iNOV86 L-003 OUTER DR 2.M 0.20 0.04 320 25NOV86 L-003 OUTER DR 2.00 0.20 0.04 321 04DEC86 L-003 OUTER DR 20.M 2.M 4.00

[b 322 323 itDEC86 16DEC86 L-003 L-003 OUTER DR OUTER DR 2.00 20.M 0.20 2.M 0.04 4.00 324 21JAN87 1-903 OUTER DR 2.00 0.20 0.04 325 24JAN87 L-003 OUTER DR 20.M 2.M 4.00 326 29JANB7 L-003 OUTER DR 20.00 2.00 4.00 327 31JAN87 L-M3 OUTER DR 2.M 0.20 0.04 328 07FEB87 L-003 OU1ER DR 2.M 0.20 0.04 329 19FEB87 L-M3 OUTER DR 2.38 0.20 0.04 330 13 MAR 87 L-003 OUTER DR 2.00 0.20 0.04 33t 17 MAR 87 L-M3 OUTER DR 2.M 0.20 0.04 332 26MARB7 L-M3 OUTER DR 2.M 0.20 0.04 333 26APR87 L-M3 OUTER DR 106.40 2.M 4.00

. . _ .-- PEN 0 :P-014 ---- -- --------- - - - - - - - - - - - - - - -

OBS DATE PEN 4 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 334 27JUL84- P-014 EJHV0024. 40.10 2.00 4.M 3 35 03MARB6 P-014 EJHVM24 4.97 0.44 0.19 336 '08APR87 P-014 EJHV0024* 2.60 0.20 0.04 337 03AUGB4 P-014 EJHV0026 98.30 2.00 4.00 338 03 MAR 86 P-014 EJHY0026 2.04 0.44 0.19 339 08APR87 P-014 EJHV0026 2.00 0.20 0.04

__----_.---_--.x.. - _ _ . . _ _ _ . - _ - - . - _ - . . _ - _ _ . - - - _ - - - - - _ _ - -

y nous LLRT DAfASET uu>en {

I uunnenunnunuxnun

---

PEN t =P-015 --- - - - - - - - - - - - - - - - -------- - - - - - - - -

j 00S DATE PEN t VALVE LEAKAGE ERROR. ERROR HOTES SCCM SCCM SQUARED l l

340 06)UL84 P-015 EJHVM23 6.46 0.20 0.04 j 341 03MARB6 P-015 EJHV0023 10.64 0.44 0.19 l 342 09APR87 P-015 EJHV0023 61.20 2.00 4.00 343 06JUL84 P-015 EJHV0025 15.28 0.20 0.04 344 03 MAR 86 P-015 EJHV0025 2.00 0.44 0.19 t 3 45 09APRB7 P-015 EJHV0025 20.00 2.00 4.00

--........ . . . .... pgn =p.g1; ..... _ . . . . . . . . . . . . . . . . . . - - - - . . . . .

l 1

OBS DATE PEN t VALVE LEAKAGE ERROR ERROR NOTES .)

SCCM SCCM SQUARED 346 29JUN84 P-017' FUEL TUBE 20.M 2.00 4.H 0-RING SEAL 347 03APR86 P-017 FUEL TUBE 10.80 2.40 5.76 0-RING SEAL 348 20APR87 P-017 FUEL TUBE 20.00 2.00 4.H 0-RING SEAL PD t =P-022 - - - - - - - - - - - - - - - - - - - - - - - - - - -

DBS DATE PEN t val.VE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 349 GiAPR85 P-022 BBHV835tB 1224.80 20.M 400.00 350 25 MAR 86 P-022 BBHVB351B 43.90 2.00 4.M 351 08APR87 P-022 BBHV8351B 84.10 2.M 4.00 352 OlAPR85 P-022 BBV0148 448.40 20.M 4M.H 353 25 MAR 86 P-022 BBV0148 54.60 2.H 4.M 354 GBAPR87 P-022 BBV0148 112.80 2.H 4.H j PD 0 =P -023 -- ------- ----------------- - - - ------ - - - - - - - - -

OBS DATE PEN t VALVE LEMAGE ERROR ERROR NOTES SCCM SCCM SQUARED i

355 3tMAR85 P 023 BGHV8152 2.M 0.20 0.04 354 02APR86 P-923 BGHV8152 2.33 2.40 5.76 357 05APR87 P-023 BGHV8152 2.H 0.20 0.G4 358 3tMAR85- P-023 BGHV8160 2.00 0.20 0.04 359 02APR86 - P423 BGHV8160 2.33 2.40 5.76 360 05APRB7 P 023 BGHV8160 2.00 0.20 0.04 361 21APR87 P-023 BGHV8160 66.20 2.M 4.00

• • • • • • • LLRT DATASET **<<***

= m m x m m m e m ** m m

)

~~-- ' - PEN 0 uP-024 ~

- - - - - - - - - - - - - - ~ ~ ~- - - - - ~ - - - - - - - = - - - - - - ~ ~ - - - - 1

' OBS DATE PEN e VALVE LEMAGE ERROR F '

HOTES

'( SCCM SCCM ' aED L

362 10SEP84- P-024 BGHV8100 42.50 2.00 4.00 363 26 MAR 06 P-024 BGHV8100 22.80 2.00 1.00 364 06APR87 P-024 BGHV8100 20.00 - 2.00 4.00 i 365 24JUL84 P-024 BGHV8112 40.80 2.00 4.00'

]

366 10SEP84 P-024 BGHV8112 2.00 0.20 0.04  ;

367 26 MAR 86 P-024 BGHV8112 .3.88 0.20 0.04 368 06APR87 P-024 BGHV8112 20.M -2.00 1.00 i 369 17APRB7 P-024 BGHV8112 20.00 2.00 1.00 370 31 MAR 85 P-024 BGV0135 2.00 2.00 4.00 371 26MARB6 P-024 BGV0135 2.00 0.20 0.04 a PEN 0 =P-025 -------------- ----- -- --- ---- - - - - - - - - - - - - - - - -

OBS DATE PEN i VALVE LEMAGE ERROR ERROR NOTES 1 SCCM .SCCM SQUARED 1 372 02APR85 P-025 BLHV8947 20.00 2.00 ' 4.00 373 10MM86 P-025 BLHV8047 2.M 0.20 0.04 -

i- 374 02APR85 P-025 BLM46 20.00 2.M 4.00 l 375 07 M 86 P-025 BL8046 7.85 9.44 0.19 1

1-b------------------- --- PEN 0 =P-026 -- -- - - - - - - - - - - - - - - - - - - - - - - - - - -

IO i OBS DATE PEN 0 VAL'VE LEMAGE ERROR ERROR NOTES-  ;

SCCM SCCM SQUARED 1 376 21AUG85 P-026 HBHV7136 26.30 2.E0 4.M 377 07 MAR 86 P-026 HBHV7136 2.M 0.44 0.19 378 05APR87 P 026 HBHV7136 2.00 0.20 0.04 379 17APR87 P-026 HBHV7136 20.00 2.M 4.00 300 2iAUG85 P-026 HBHV7176 20.00 2.M 4.00 381 07 MAR 86 P-026 HBHV7176 2.M 0.44 0.19 382 05APR87 P-026 HBHV7176 2.M 0.20 0.04 l

. . . _ . . . . . _ _ _ _ . . _ _ _ _ ___._ pen 0 =P-028 - ---~ ~ - - - - - - - - - - - - - - ---

OBS DATE PEN 0 VALVE LEMAGE ERROR ERROR- NOTES 1 SCCM SCCM SQUARED  ;

383 23JUL84 P-028 EFHV0032 1590.00- 30.M 900.00 384 12 MAR 86 P-028 EFHV0032 2210.M 2M.M 4 M M.00 l 385 23)UL84 P-028 EFHVH34 1590.M 30.M 900.00 l

386 12MARB6 P-028 EFHVH34 2210.M 200.00 40M0.00 f

t t

L______1-

an* m e LLRT DATASET ** m **

. amesmemamm**mm l

---

Pelf 6 :P-029 --- ------ -

DBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED L 387 23JUL84 P-029. EFHV0046 19740.00 570.00 324900.00 -

388 02FE886 P-029- EFHV0046 14480.00 200.00 40000.00 389 .15 MAR 86 P-029 EFHV0046 12070.00 200.00 40000.00 ,

390 23JUL84 P-029 EFHV0048 19740.00 570.00 324900.00 391 02FEB86 P-029 EFHV0048 14480.00 200.00. 40000.00 392 14 MAR 86 P-029 EFHY0048 . . . UNABLE TO PRESSURIZE-393 15 MAR 86 P-029 EFHV0048 12070.00 200 40 40000.00 394 23JUL84 P-029 EFHV0050 10740.00 570.00. 324900.00 395 02FEB86 P-029 EFHV0050 14480.00 200.00 40000.00 396 .15 MAR 86 P-029 EFHV0050 t2070.00 200.00 40000.00 g

.. - PEN t : P-030 - --- ------ ----- -- - - - - - - - - - -

OBS DATE PEN 0 VALVE LEAKAGE ERROR - ERROR NOTES SCCM SCCM SQUARED j 397 04AUG84 P-030 KAFV0029 318.M 20.M . 4M.M. j 398 18HAR86 P-030 KAFVM29 il59.M 20.M 4M.M 399 18MARM P-030 KAFV0029 . . . UNABLE TO PRESSURrlE I 400 13APR87 P-030 KAFV0029 101.20 2.00 4.00 j 401 17APR87 P-030 KAFVH29 422.20 0.20 0.H 402 04AUG84 P-030 KAV0204 10.M 0.20 0.04 O 403 18 MAR 86 P-030 KAV0204 814.M 20.00 400.00

\ 404 13APR87 P-030 KAV0204 305.H 20.00 400.00 405 17APR87 P-030 KAV0204 1436.20 20.00 400.00

..... ---- -- PEN 0 =P-032 -- -- - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 406 05JUN84 P-032 LFFV0995 20.M 2.M 4.00  !

407 04 MAR 86 P-032 LFFV6095 . 2.M 0.20 0.04 400 28JUL84 P-032 LFFV0996. 88.20 2.00 4.M 409 26SEP84 P-032 LFFV0996 755.00 20.M 4M.00 41 0 22FE886 P-032 LFFV0096 3540.M 2M.00 40H0.M 411 MMAR86 P-032 LFFVM96 4260.M 200.00 40M0.00

.. _....__ ____...._____ _ ___._ _______... ..._.. PEN 0 =P -0 3 4 - -- ------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN 0 VALVE LE6KAGE ERROR ERROR .N0TES SCCM SCCM SQUARED 412 17JAN84 P-034 FLANGES 9.27- 0.55 0.30 3 413 150CT85 P-034 FLANCES 2.00 0.20 . 0.04 1 414 OfAPR86 P-034 FLANGES 11.34 2.40 5.76

\ 415 07APR87 P-034 FLANGES 522.20 20.00 iM.00 .

l u nt u LLRT DATASET unu**

nannununnunnun l

. _ _ ..... ...-- PF.N i =P-039 -- - - - -

DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES

,m OBS SL,rl (GI SCCM SQUARED 416 Gi)UN84 P-039 BBHV835tC 20.00 2.00 4.00 l 20.00 2.00 4.00 l 417 25MARB6 P-039 BBHV835tC 43.10 2.00 4.00 l 418 08APR87 P-039 BBHV8351C 2.00 4.00  :

419 OlAPR85 P-039 BBV0i?8 35.18 P-039 BBV0178 20.00 2.00 4.00 i 420 25 MAR 86 421 08APR87 P-039 BBV0i?8 20.00 2.00 4.00 l PEN i =P 040 OBS DATE PEN i VALVE LEALAGE ERROR ERRDR NOTES SCCM SCCM SQUARED l 422 01APR85 P-040 BBHV8351D 277.20 20.00 400.00 423 25 MAR 86 P-040 BBHV8351D 434.80 57.00 3249.00 l 08APR87 P-040 BBHV8351D 62.70 2.00 4.00 1 424 425 GiAPR85 P-040 BBV0208 205.40 20.00 400.00  !

P-040 BBY0208 20.00 2.00 4.00 j 426 25 MAR 86 427 08APR87 P-040 BSV0208 122.60 0.20 0.04 4

PEN i =P-041 --- -----

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES  ;

'" .'";CM SCCM SQUARED j l

428 OlAPR85 P-041 BBHY8351A 867.00 20.00 400.00 429 25 MAR 86 P-041 BBHV8351A 20.00 2.00 4.00 l i

430 08APR87 P-041 BBHV8351A 115.60 2.00 1.00 '

4 31 61APR85 P-041 BBVeli8 9.23 0.20 . 0.04 432 25 MAR 86 P-041 BBVeli8 60.96 2.00 4.00 433 06APR87 P-041 BBV0118 161.40 2.00 4.00

---

PEN 8 =P-043 -- - - - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN t VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 434 28AUG85 P-043 HDY0016 12.96 0.20 0.04 435 03 MAR 86 P-043 HDV0016 21.40 2.00 4.00 436 28AUG85 P-043 HDV00i? 8.98 0.20 0.04 437 03 MAR 86 P-043 HDV00i? 20.00 0.20 0.04 V(~h

4 unna LLM DAI ASET *nnue vuunnumnuunamu

.. . ---= - - - - - - - - - - - - - -

--- PEN 0 =P-044 -------- --- -- - - - - - - - -

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES y SCCM 'SCCM SQUARED 438 14AUG85 P-044 HBHV7126 11.57 0.20 0.04 i 439 06 MAR 86 P-044 HBHV7126 2.00 0.44 0.19 440 05APR87 P-044 HBHV7126 2.00 0.20 0.04 441 17APRB7 P-044 HBHV7126 345.40 20.00 400.00 442 14AUG85 P-044 HBHV7150 2.00 0.20 0.04 443 06HAR86 P-044 HBHV7150 2.00 0.44 0.19 ,

444 05APR87 P-044 HBHV7150 2.00 0.20 0.04 j 445 17APR87 P-044 HBHV7150 259.40 20.00 400.00 l

---

PEN i =P-045 ------ -

)

---

= - - - - - - - - - ------

OBS DA1E PEN i VALVE LEAKACE ERROR ERROR NOTES SCCM SCCM SQUARED 1 1

446 22AUG85 P-045 EPHV9880 27.35 2.00 4.00 -

447 06 MAR 86- P-045 EPHV8880 42.06 2.00 4.00- i 448 09SEP85 P-045 EPV0046 2.M '

0.20 0.04 449 06 MAR 86 P-045 EPV0046 57.70 2.00 4.00 l

l . . . . _ _ _ _ . _ - _ _ _ .

_. PEN i -P 051 --- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

O OBS DAIE PEN $ VALVE LEAKAGE SCCM ERROR SCCM ERROR SQUARED NOTES 450 17JAN84 P-051 003H8901 2.?! 9.55 0.30 451 150CTB5 P-051 003HBB01 2.00 0.20 0.04 452 10 MAR 86 P-051. 003HBB01 2.74 0.20 0.04 453 07APR87 P-051 ,003HBMi 544.00 20.M 400.00 454 17JAN84 P-051 005HBMI -2.53 0.55 0.30 455 150CT95 'P-051 005HBMi 16.65 0.20 0.04 456 10 MAR 86 P-051 005HBMt 3.00 'O.20 0.04 157 07APR87 P-051 005HBMi 548.00 20.00 400.00

. - PEN i =P -053 ------------ - - - - - - - - - - - - - - - - ----

GBS DATE PEN ? VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 458 05AUG85 P-053 ECVM83 11.00 2.00 4.00 459 06 MAR 86 P-053 ECY0083 3.92 9.44 0.19 460 05AUG85 P-053 ECV9084 40.10 2.00 4.M 461 06 MAR 86 P-053 ECV9084 6.93 0.44 0.19 O

m m LLRT DATASET m m

• m.mmm.mmmmo l

.. ...... --.... PEN t =P -054 --- ----- - --------- -- -- --- --

ERROR N01ES  !

OBS DATE PEN i VALVE LEAKAGE ERROR SCCM SCCM SQUARED 462 05AUG85 P-054 ECV0087 175.00 20.00 400.00 463 06HAR86 P-054 ECV0087 289.80 20.00 400.00 464 05AUG85 P-054 ECV0088 48.10 2.00 4.00 165 06HAR86 P-054 ECV0088 81.90 2.00 4.00

.--- PEN i -P-05 5 -------- --------- - - - - - - - - - - - - - - = - - - - - - - - - - - - - -

OBS DATE PEN t VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 466 05AUGB5 P-055 ECV0095 278.20 20.00 400.00 467 06 MAR 86 P-055 ECV0095 2.00 0.20 0.04 468 05AUG85 P-055 ECVH96 337.80 20.00 #0.H 469 06 MAR 86 P-055 ECV0996 48.H 2.00 4.M

- - - - - - - - - - - - - - ------ ---------- PEN i =P-056 ----- -

OBS DATE PEN t VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 470 09SEP85 P-056 GSHV0M8 2.H 0.20 0.04 j l ,'. 471 18 MARS 6 P-056 GSHV0M8 2.00 0.20 0.04 472 09SEP85 P-056 GSHV0M9 59.88 2.00 4.00 473 18 MAR 86 P-056 GSHV0H9 66.30 2.00 4.00 474 09SEP85 P-056 GSHVH38 43.20 2.00 4.00 475 IBMAR86 P-056 GSHVH38 51.10 2.00 4.00 476 09SEP85 P-056 GSHV0039 20.00 2.00 4.00

. 477 18 MAR 86 P-056 GSHVH39 14.47 0.20 0.04  ;

- - - - - - - - - - - - - - - - - - - - - - - - - - PEN 0 =P-057 -------- - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN t VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 418 liSEP85 P-057 SJHV0131 74.40 2.00 4.00 479 06 MAR 86 P 057 SJHV0131 714.20 20.00 400.00 480 tiSEP85 P-057 SJHV0132 74.40- 2.00 4.00 481 06 MAR 86 P-057 SJHV0132 714.20 20.00 400.00 482 tiSEP85 P-057 SJVolit 20.00 2.00 1.00 483 06MARB6 P-057 SJVeiti 20.10 2.00 4.00

)

O .

- - , . _ - - . - - _ _ J

1 mun LLRT DATASET *nnu un* munununnownn

---

- - = ----- -

PEN i =P-058 --------------- ---------

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES t SCCM SCCM SQUARED 484 28AUG85 P-058 EMHV8888 20.00 2.00 4.00 485 10 MAR 86 P-058 EMHV8888 2.27 0.20 - 0.04 1 486 28AUG85 P-058 ENV0006 20.00 2.00 4.00 .

487 10 MAR 86 P-058 EMV0006 2.00 0.20 0.04

---

- ------ PEN i =P-062 -- - -- ---- - - - - - - - - - - - - -

OBS DATE PEN t VALVE LEAKAGE ERROR ERROR NOTES l SCCM SCCM SQUARED q 488 06AUG85 P-062 BBHV8026 20.00 2.00 4.00 489 03 MAR 86 P-062 BBHV8026 2.00 9.44 0.19 490 06AUG85 P-062 BBHV8027 20.00 2.00 4.M 491 03 MAR 86 P-062 BBHVB027 2.00 0.44 0.19 i

_.._.- PEN 4 =P-063 ------- - - - - - -

OBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES I SCCM SCCM SQUARED l

.]

492 2iAUG85 P-063 KAV0039 4130.M 200.00 40000.00 )

493 27 MAR 86 P-063 KAV0039 . . . UNABLE TO PRESSURIZE l b 494 04APR86 P-063 KAV0039 2760.00 2M.00 40MO.00 I 495 21AUG85 P-063 KAVoli8 3614.00 2M.00 40HO.M )

496 27 MAR 86 P-063 KAV0 iib 200M.00 200.00 4H00.00 l 497 04APR86 P-063 KAVoti8 2640.M 200.00 40HO.M )

1

- PEN 0 rP-06 4 -- ---- ---- - --- - ------ ---- ----------- --

OBS DATE PEN 4 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED

]

498 11SEP85. P-064 SJHV0128 1128.40 20.00 400.M 499 05 MARS 6 P-064 SJHV0128 9.54 0.44 0.19 5M 160CT86 P-064 SJHV0128 192M.M 200.00 4M00.M 501 06APR87 P-064 SJHV0128 8260.H 200.00 40000.00 1 502 25APR87 P-064 SJHV0128 8340.M 2M.00 40000.00 503 ilSEP85 P-064 SJHVoi29 1613.20 20.M 400.00 504 05 MAR 86 P-064 SJHV0129 2.68 0.44 0.19 505 160CT86 P-064 SJHV0129 14200.00 200.00 40000.00 506 15 MAR 87 P-064 SJHV0129 133.02 2.00 4.00 i 507 06APR87 P-064 SJHV0129 95020.00 2MO.00 4M0000.00 508 -25APR87 P-064 SJHV0129 2640.00 200.00 40000.00 540 tiSEPB's P-064 SJHV0130 1613.20 20.00 400.00 510 05 MAR 86 P-064 SJHV0130 2.68 0.20 0.04 O 511 512 160CT86 15 MAR 87 P 064 P-064 SJHV0130 SJHV0130 142M.00 133.02 200.00 2.00 40M0.00 4.00-513 06APR87 P-064 SJHV0130 95020.00 -2000.00 400M00.00 514 25APR87- P-064 SJHV0130 2640.M 200.M 40000.00

• • n** LLRT DA1ASET *******

n*nnannnannun**m i

. . . . . . . . . . . . . . . . . . . . . . . . . _ .. .. .. .._- ... . pgH ; ; p. 9 6 5 . . . .. -- .. .... . . . .. . . . . _ . . .

p) g x

OBS DATE PEN i VALVE LEAKAGE SCCM ERROR SCCM ERROR SQUARED NOTES 515 06AUG85 P-045 GSHV0020 453.40 20.00 400.00 516 07MARB6 P-06' GSHV0020  !?34.40 20.00 400.00 517 06AUG85 P-065 GSHV0021 453.40 20.00 400.00 518 07 MAR 86 P-065 GSHV002i 1234.40 20.00 400.00 l

.... .... .. PEN i =P-067 - - - - - = ------ - - -- - - -

OBS DALE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED .I i

519 3tMAY84 P-067 KCHV0253 340.00 20.00 400.00 520 08MAY65 P-067 KCHV0253 15744.00 200.00 40000.00 521 13SEP85 P-067 KCHV0253 620.40 20.00 400.00 522 10 MAR 86 P-067 KCHV0253 10080.00 ,200.00 40000.00 l 523 26 MAR 86 P-067 KCHV0253 641.00 20.00 400.00 1 524 tiAPR87 P-067 KCHV0253 3880.00 200.00 40000.00 525 17APR87 P-067 KCHV02 3 4228.00 200.00 40000.00 526 14SEP85 P-067 KCV0478 1853.00 20.00 400.00 l 527 07 MAR 86 P-067 KCV0478 574.80 20.00 400.00 l 528 li APRM P467 FCV0478 8120.00 200.00 40000.00 529 17APR87 .P-067 KCV0478 2468.00 200.00 40000.00  !

l l (%

l A .l . . _ . . .. . .. . . . . . . . .

PEN 0 =P-069 ------- - ------------ - - - -

1 1

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES l SCCM SCCM SQUARED 530 09sEP85 P-069 SJHV0012 72.80 2.00 4.00 531 05MARB6 P-069 SJHV0012 92.96 2.60 4.00 532 07APR87 P-069 SJHV0012 586.40 20.00 400.00  !

533 25APR87 P-069 SJHV0012 804.80 20.00 400.00 1 534 09SEP85 P-069 SJHV0013 70.43 2.00 '4.00 l 535 05 MAR 86 P-069 SJHV0013 94.40 2.00 4.00  ;

536 OTAPR87 P-069 SJHV0013 572.00 20.00 400.00 537 25APR87 P-069 SJHV0013 812.60 20.00 400.00

- - PEN % =P-071 - - - - - - - - - - - ---- ----

OBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 538 12JUL84 P-071 EFHV0031 2710.00 206.00 40000.00 539 19 MAR 86 P 071 EFHV0031 . . . UNABLE TO PRESSURIZE 540 22 MAR 86 P-071 EFHV0031 20.00 2.00 4.00 541 20APR87 P- 071 EFHV003i 1970.00 20.00 400.00 O 542 23APR87 P-071 EFHV003l 20.00 2.00 4.00 U 543 12JULB4 P-071 EfliV0033 2710.00 200.00 40000.00 544 22 MAR 86 P-071 EFHV0033 20.00 2.00 4.00 545 20APR87 P-071 EFHV0033 1970.00 20.00 400.00 g

• • upe LLRI DAI ABET unne j

• nun *u*uusununu*n  !

-- PEN i =P-071 - - - - - - - - - - ---- I l

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES O SCCM SCCM SQUARED V

546 23APR87 P-071 EFHV0033 20.00 2.00 4.00 PEN i :P-073 --------- - -- - - - - - - - - - - - - - -

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 547 12JUL94 P-073 EFHV0045 10590.00 570.00 324900.00 548 19 MAR 86 P-073 EFHV0045 15730.00 200.00 40000.00 549 20APR87 P-073 EFHV0045 46400.00 2000.00 4000000.00 550 24APR87 P-073 EFHV0045 14890,00 200.00 40000.00 551 12JUL84 P-073 EFHV0047 19590.00 570.M 324900.00 i 552 19HAR86 P-073 EFHV0047 15730.00 200.00 40000.00 553 20APR87 P-073 EFHV0047 46400.00 2000.00 4000000.00 554 24APR87 P-073 EFHV0047 14890.00 200.00 40000.00 555 12JUL84 P-073 EFHV0049 19590.00 310.00 324?00.00 j 556 19MARB6 P-073 EFHV0049 15730.00 200.00 40000.00 557 20APR87 P-073 EFHV0049 46400.00 20M.00 4000000.00 558 24APR87 P-073 EFHV0049 14B90.00 200.00 40000.00

=. ... .-

. PEN i -P-074 -- ---------- - - --

(v) OBS DATE PEN i YALVE LEAKAGE ERROR ERROR N01ES SCCM SCCM SQUARED l

559 24MAY84 P-074 EGHV0059 1992.M 20.00 400.00 j 560 05 MAR 86 P-074 EGHVM58 1957.00 20.00 400.00 1 561 07APR87 P-074 EGHV0058 6830.00 200.M 40000.M l 562 13APR87 P-074 EGHYM58 3480.00 200.00 40000.M l 563 24MAY84 P-074 EGHV0127 1092.00 20.00 400.M i 564 05 MAR 86 P-074 EGHV0127 1957.00 20.M 400.00 j 565 07APRB7 P-074 EGHV0127 6830.00 200.M 40000.00 566 13APR87 P-074 EGHVoi27 3480.H 200.00 400M.M 567 02APR85 P-074 EGV0204 1933.80 20.00 400.M 568 05 MAR 86 P-074 EGV0204 1901.00 20.00 400.00 569 13APR87 P-074 EGV0204 2110.00 200.00 40000.M i

l

.O V

• nnue LLRT DATASE1 unn*

ununnununuumun

.. .. .- PE N i = P -07 5 -- -- --- --- -- - -- - -- -- -- - - -

,, OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES i

( SCCM SCCM SQUARED 570 23MAY84 P-075 ECHV0059 387.00 20.00 400.00 571 06 MAR 86 P-075 EGHV0059 53.28 2.00 4.00 572 06APR87 P-075 EGHV0059 1355.60 ?0.00 400.00-573 14APR87 P-075 EGHV0059 11190.00 200.00 40000.00 574 23MAY84 P-075 EGHV0060 590.00 20.00 400.00  ;

575 29JUL84 P-075 EGHV0060 496.00 50.00 2500.00 l 576 06 MAR 86 P-075 EGHV0060 501.80 20.00 400.00 577 23MAYB4 P-075 EGHV0130 590.00 20.00 400.00 l I

578 29JUL84 P-075 EGHV0130 496.00 20.00 400.00 579 06 MAR 86 P-075 EGHV0130 501.80 20.00 400.00 g 580 23MAY84 P-075 EGHV0131 387.00 20.00 400.00 l 581 06 MAR 86 P-075 ECHV0131 53.28 2.00 4.00 582 06APR87 P-075 EGHV0131 1355.60 20.00 400.00 583 14APR87 P-075 EGHV0131 11190.00 200.00 40000.00

]

- .______ PEN i =P-076 - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES j SCCM SCCM SQUARED l 584 02APR85 P-076 EGHV0061 689.80 20.00 400.00 585 06 MAR 86 P-076 EGHV0061 126.96 2.00 4.00 1 O

586 23MAY84 P-076 EGHV0062 36.90 2.00 4.00 I 587 02APR85 P-076 EGHV0062 1345.60 20.00 400.00 l 588 06 MAR 86 P-076 ECHV0062 102.20 2.00 4.00 {

589 02APRB5 P-076 EGHV0132 1345.60 20.00 400.00 590 06 MAR 86 P-076 EGHV0132 102.20 2.00 4.00 591 02APR85 P-076 EGHV0133 689.80 20.00 400.00 592 06 MAR 86 P 076 EGHV0133 126.96 2.00 4.00 '

i i

_____. .. ___. . . __. . .-- P EN 0 = P - 0 78 ------ - - - - - - - - - - - - - --

OBS DATE PEN i VALVE LEAKAGE ERROR CRROR NOTES SCCM SCCM SQUARED 593 15AUG85 P-078 BMV0045 200.00 20.00 400.00 594 03APR86 P 078 BMV0045 92.90 13.20 174.24 595 15AUG85 P-078 BMV0046 200.00 20.00 400.00 596 03APR86 P-078 BMV0046 10.81 0.20 0.04

. _ _ _ _ . _ - __ ~ _

-_________ PEN i =P-080 = - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN ? VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED C)

V 597 598 07MAY84 27 MAR 86 P-080 P-080 SGHV8105 BCHV8105 129.00 461.00 2.00 20.00 4.00 400.00 599 02APR85 P-080 BGV8381 874.00 20.00 400.00 600 27 MAR 86 P-080 BGV8381 734.00 20.00 400.00

_ - - - _ _ _ _ _ _ _ ~

• • • • • • • L.LRl DAIASET

• ut***: ,

• • • • • ne*****<****seen n****

........ pg ; =p.092 .... .. . ... ..........._..___ _ _ . . . . . . . . . . . . . . . . . . .

OBS DALE PEN i VALVE LEAKAGE ERROR ERROR NOTES --

SCCM- SCCM SQUARED -

601 22AUG85 P-092 EMHV8871 2.00 0.20 0.04 602 04 MAR 86 P-092 EMHV8871 237.60 20.00 400.00 603 04APR87 P-092 EMHV8871 92.40 2.00 4.00 604 2tAPRB7 P-092 EMHV8871 2.00 0.20 0.04 1 605 22AUG85 P-092 EMHV8964 2.00 0.20 0.04 i 606 04HAR86- P-092 EMHV8964 371.00 20.00 400.00 l 607 04APR87 P-092 EMHV8964 120.00 2.00 4.00 600 2iAPR87 P-092 EHHV8964 2.00 0.20 0.04  !

i

- PEN 0 =P-093 -------- ---- - - - = - - - - -

l OBS DATE' PEN 0 VALVE LEAKAGE ERROR ERROR NOTES l SCCM SCCM SQUARED I l

609 02AUG84 P-093 SJHV0005 2.00 0.20 0.04- 1 610 05 MAR 86 P-093 SJHV0005 2.00 0.44 0.19 611 06APR87 P-093 SJHV0005 1197.80 20.00 400.00 1 612 25APR87 P-093 SJHV0M5 23.60 2.00 4.00 l 613 tiSEP85 P-093 SJHV0006 - 193.50 2.00 4.00 l 614 05 MAR 86 P-093 SJHV0M6 2.00 0.44 0.19 -

l 615 06APR87 P-093 SJHVH06 4862.00 2M.H 4H00.M 616 25APR87 P-093 SJHV0M6 37.40 2.60 4.00 617 iiSEP85' P-093 SJHV0127 193.50 2.00 4.00 j 618 05HAR86 P-093 SJHV0127 2.00 0.44 0.19  ;

619 06APR87 P-093 SJHV0127 4862.00 2M.00 40MO.M i 620 25APR87 P-093 SJHV0127 37.40 2.00 4.00

____.________.....-.-____________---PEN 0=P-095----------------------------------------------------

OBS DATE PEN t VALVE LEAKAGE ERROR ERROR HOTES SCCM SCCM SQUARED 621 09SEP85 P-095 SJHV0018 125.20 2.M 4.00 622 04 MAR 86 P-095 SJHV0018 27.30 2.M 4.00 623 09SEP85 P-095 SJHVH19- 20.00 2.00 4.00 624 04 MAR 86 P-095 SJHV0019 92.60 2.00 4.00 l

O

u n m LLRT DATASET n a u

• muunuununmmun P E N i = P - 0 9 7 ---- ----- ----- - -- --~ ~ - ------ ------ - -- - ---- --

,s OBS DATE PEN t VALVE LEAXAGE ERROR ERROR NOTES (w/ ) SCCM SCCM SQUARED 625 10SEP85 P-097 GSHV00i? 20.00 2.00 4.00 626 06 MAR 86 P-097 CSHV0017 55.46 2.00 4.00 627 10SEP85 P-097 GSHV0018 20.00 2.00 1.00 628 06 MAR 86 F-097 GSHV00iB 53.76 2.00 4.00 629 10SEP85 P-097 GSHV0033 21.48 2.00 1.00 630 06MARB6 P-097 GSHV0033 20.88 2.00 4.00 631 10SEP85 P-097 GSHV0034 20.00 2.00 4.00 632 06MARB6 P-097 GSHV0034 2.13 0.20 0.04 PEN i :P-098 -- --

CBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED l

633 tiSEP85 P-098 KBV0001 133.60 2.00 4.00 634 06 MAR 86 P-098 KBV0001 88.90 2.00 4.00 635 11SEP85 P-098 KBV0002 131.60 2.00 4.00 636 06 MAR 86 P-098 KBV0002 89.00 2.00 4.00

~ ~ - ~ ~ ~ -- ---

--~~~ PEN 0 =P-099 -- - -- - - - - - - - -

( OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES k SCCM SCCM SQUARED 637 09SEP85 P-099 GSHV0003 64.00 2.M 4.00 638 itSEP85 P-099 GSHV0003 79.80 2.00 4.H 639 18 MAR 86 P-099 GSHV0M3 1336.H 20.00 400.00 640 09SEP85 P-099 GSHV0H4 50.80 2.00 4.00 641 18 MAR 86 P-099 GSHV0H4 9.38 0.20 0.04 642 09SEP85 P-099 GSHV0HS 43.60 2.00 4.00 643 18 MAR 86 P-099 GSHV0005 52.64 2.00 4.00 644 tiSEP85 P-099 GSHV0036 79.80 2.00 4.00 645 18 MAR 86 P-099 GSHV0036 212.60 20.M 400.H 646 095EP85 P-099 GSHV0037 200.00 20.00 400.00 647 18 MAR 86 P-099 GSHV0037 145.60 2.00 4.H

. .... ... ... . .. .. .............. pgu q rp.ges ...._ ... ...... - ..... ... . . - . . . . . . . .

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 648 11SEP85 P-101 GSHV0012 140.40 2.00 4.00 649 05MARB6 P-101 GSHV0012 129.80 2.00 4.00 650 tiSEP85 P-101 GSHV9013 20.00 2.00 4.00 651 05 MAR 86 P-101 GSHV0013 10.26 0.20 0.04 O 652 liSEP85 P-101 GSHV0014 20.00 2.00 1.00 653 05 MAR 86 P-101 GSHV0014 9.79 0.20 0.04 654 tiSEP85 P-101 GSHV0031 75.20 2.00 4.00 655 05MARB6 P-101 GSHV0031 64.30 2.00 4.00

annu LLRI DATA 5El n*un up*unsuusunuunun-

_. . _ _ . . . . . . . . ... .... ...__... __ ....... PEN 0 =P - 101 ----- ----- =------ --- ---- -------

i UDS DA1E PEN 0 VALVE LEAKAGE. ERROR ERROR NOTES SCCM SCCM SQUARED 656 tiSEP85 P-tel' GSHV0032 64.20 2.00 4.M 657 0$ MAR 86 P-101 GSHV0032 'i00.00 2.00 4.00

... .. . . ........ ...... ......... PEN =P-160 --------------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEH 0 VALVE LEAKAGE ERROR ERROR NOTES SCCH SCCM SQUARED 658 31JUL84 P-160 , GTHZ8008 800.00- 20.00 400.00  ;

659 06APR86 P-160 GTHZGM8 606.20 57.00 3249.00- j 660 31JUL84. . P-160 . GTHZ8009 725.M 20.00 ~ 400.M 641 06APR86 P-160 GTHZGM9 1480.20- 57.00 3249.M ,

662 03JUL84 P-160 'GTHZMit 4850.00 . 200.M 40M0.M )

663 15FEB85' 'P-160 GTHZMit 102.10- 2.M 4.M l 664 14 HAY 85 P-160 GTHZMit- 645.60 20.00  ; 400.M t 645 29JUL85 P-160 GTHZHit 14220.H 200.00 40000.M 666 300CT85 P-160 GTHZMit- 1961.M 20.M - ~400.M 667 310CT85 P-160 GTHZMit 8010.00 2M.M 40M0.00 668' 06FEB86 P-160 GTHZ80li 8244.00 200.H 40006.H j 669 29APR86- P-160 GTHZMii 8546.00 2M.M 4M00.00 '

-l 670 3tJUL86' P-160 GTHZ00ii 1927.M- 57.M 3249.M I 671 220CT86 P-160 GTHZ60ii 7604.00 2M.M :40000.00 0 672 673 674 26)ANB7 03JUL84 310CT84 P-160 P-160 P-160 GTHZMit GTHZMi2 GTHZMi2 1489.80 4850.00 8010.00

-20.00 200.M 2M.00 400.M 40000.00 40006.M 675 15FEB85 P-160 GTHZMi2 li52.H 20.M - 400.00 676 14MAY85 P-160 GTHZM12 61.92 2.00 4.M .l 2M.M 4MM.M 677 29JUL85 P-160 GTHZM12 14220.H 678 300CT85 P-160 GTHZMt2 1961.00 20.M 400.M 679 %FEB86 P-160 GTHZM12 8244.M 2M.M 49000.M 680 29APR86 P-160 GTHZ8012 8546.M 200.M 40000.00 681 31JUL86 P-160 GTHZMi2 1927.90 57.M 3249.M 682 ~26JAN87 P-160 GTHZMi2 1489.80 20.M 400.M 683 22APR87 P-160 GTHZM12 67.70 2.M 4.M 684 24APR87 P-160 GTHZM12 105.M 2.00 4.M l _ _____. ._ .

. _...--- PEN 0 rP-161 --- ---- -

OBS DATE PENi VALVE LEAKAGE- ERROR ERROR NOTES SCCM- SCCM SQUARED +

685 31JUL84 P-161 GTH20004 4330.00- 2M.M 4H M.00 686 310CT84 P-161 GTHZ6M4. 7540.M- 200.M 4M00.00 687 15FEB05 P-161 GTHZ6M4 113.H 20.00. 400.M 688 14MAY85 P-161 GTHZ8004 43.26 2.00 4.M 689 29JUL85 P-161 GTHZ6M4- 4956.M 2 # .00 4M00.00 '3 690 - 300CT85' P 161 GTHZM64 2796.00 200.00 49000.00 l

\ 691 '06FEB86 P-161- GTHZ0004 10150.00 200.00' 40M0.00 692 NAPRB6- P-16i GTHZ6H4- 12376.00 200.00 40000.00 693- 31JUL84 ' P-161 GTHZ8004 1429.00 57.00 3249.M

_ - - _ _ - - _ - _ _ _ _=_________-________ _. _A

untn* LLRT DATASET

• nun mnun:nmanutunm

. ........ ..._. . . . . _ . . . . . ....... ycy ::ep.;61 --...... ..........

PEN i LEAKAGE ERROR ERROR NOTES

[]

V OBS DATE VALVE SCCM SCCM SQUARED 694 220CT86 P-161 GTHZ8004 7404.00 200.00 40000.00 695 26JAH87 P-161 GTHZ0004 1822.00 20.00 400.00 696 31JUL84 P-161 GTHZ8005 4330.00 200.00 40000.00 697 310CT84 P-161 GTHZ8005 7540.00 200.00 40000.00 698 15FEB85 P-161 GTHZ8005 2600.00 200.00 40030.00 699 14MAY85 P-161 GTHI00'05 736.00 20.00 400.00 700 29JUL85 P-161 GTHZ8005 4956.00 200.00 40000.00 701 300CT85 P-161 G1HZ8005 2796.00 200.00 40000.00 102 06FEB86 P-161 GTH20005 10150.00 200.00 40000.00 l GTHZ8005 12376.00 200.00 40000.00 j 703 29APRB6 P-161 704 3tJUL86 P-161 GTHZ0005 1429.00 57.00 3249.00 l 705 ?6JAN87 P-161 GTHZ8005 1822.00 20.00 400.00 l 706 30JUL84 P-161 GTHZ0006 260.00 20.00 400.00 707 06APR86 P-161 GTHZ8006 448.20 57.00 3249.00 709 30JUL84 P-161 GTHZ8007 161.70 2.00 4.00 l 709 06APR86 P- 161 GTHZ0007 179.40 2.00 4.00 l I

. _ ____ ___ m.. .-- PEN i =ZNE264 -----------

MS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED  !

(Q/ 710 711 2iMAY85 20NOV86 ZHE264 INE264 E PEN E PEN 2.00 2.00 0.20 0.53 0.04 0.28 l

j

... _. _ _ _ _ _ _ _ _ _ _ _ _ - - - PEN i =ZNE265 ------------ - -- - - - - - - - - -

i l OBS DATE PEN i VALVE LEAXAGE ERROR ERROR NOTES SCCM SCCM SQUARED I

11 2 2iMAY85 ZNE265 E-PEN 2.00 0.20 0.04 713 20NOV86 ZHE265 E-PEN 2.00 0.53 0.28 l .. . _ _ . . _ _ _ _ . _ . ... ----- PEN 4 = ZNE267 ---- ------- ---------------- ---------

UBS DATE PEN ? VALVE LEAXAGE ERROR ERROR NOTES l SCCM SCCM SQUARED 714 21MAYB5 ZNE267 E-PEN 2.00 0.20 0.04 715 20H0V86 INE267 E-PEN 2.00 0.53 0.28

. _ . _ . . _ . . . . . . . . . - ..... . _ . ------ -- PEN i =ZNE268 -- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

p DBS DATE PEN i VALVE LEAKAGE ERROR ERROR N01ES d SCCM SCCM SQUARED 716 2iMAY85 ZNE268 E-PEN 2.00 0.20 0.04 717 20NOV86 ZHE268 E-PEN 2.00 0.53 0.28 l l

l l

,,, m . m m . m ... m .. m a j

___ ....... .. .... ..............-........ ....-- P EN 4 . ZNE26 9 --------------- ------- ------------- - - - - - - - - = - --

OBS DATE PEN 0 Vt.LVE LEMAGE ERROR- ERROR NOTES

.I SCCM SCCM

( SQUARED 718 2tMYB5 ZNE269 E-PEN 2.00 0.20 0.04 i 719 20NOV86 INE269 .E-PEN 2.00 0.53 0.28

._____...- .... PEN i =ZHE271 -- -= - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN 0 VALVE LEAKAGE . ERROR ERROR- NOTES SCCM SCCM SQUAPED 720 2tMAY85 ZNE271 E-PEN 2.00 0.20 0.04 721 25NOV86 ZNE271 E-PEN 2.00 0.53 0.28 l

--- PEN 4 =ZNE272 --------- - - - ------- - - - - - - - - -

OBS DATE PEN i VALVE LEMAGE ERROR ERROR NOTES ,

SCCM I

-SCCM SQUARED l

722 2tMYB5 ZNE272 E-PEN 2.00 0.20 0.04 723 25NOV86 ZNE272 E-PEN 2.00 0.53 0.28

---

PEN 0 =INE274 ' - - - - - - - -- - -- - - - - - -

O 1

l OBS DATE PEN 0 VALVE L EMAGE ERROR ERROR NOTES i SCCM SCCM SQUARED 724 21MY85 ZNE274 E-PEN 2.00- 0.20 0.04 725 25NOV86 ZNE274 E-PEN 2.00 0.53 0.28

- PEN 0 =ZNE275 -- - -- - - - - - - - - ----

i 08S DATE PEN $ VALVE LEMAGE ERROR ERROR NOTES  !

SCCM SCCM SQUARED j i

726- 21MYB5 ZNE275 E-PEN 2.00 0.20 0.04 727 25NOV86 INE275 E-PEN 2.00 0.53 0.28

.I

__ .. _..__ _ _. _ ... _ _ __.. _ __.. PEN i =INE276 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

UBS- DATE PEN ? VALVE LEMAGE ERROR ERROR NOTES 1 SCCM 'SCCM SQUARED 128 2tMY85 ZNE276 E-PEN 2.00 0.20 0.04 >

729 03DEC86 ZNE276 E-PEN 2.00 0.53 0.28 s

i M

unna LLRT DATASET ***nn .

nennnennunsunmu .

---

= = - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

- PEN i =ZNE2 77 -------- -- - =-- -------- -- --

OBS DATE PEN ? VALVE LEAKAGE ERROR ERROR NOTES

-r O. SCCM SCCM SQUARED 730 2iMAY85 INE277 E-PEN 2.00 0.20 0.04 731 03DEC86 ZNE277 E-PEN 2.00 0.53 .9.28 l

.-------- P EN i = ZNE 27 8 ------------------- ---- - =

1 1

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED j 732 21MAY85 ZNE278 E-PEN 2.00 0.20 0.04 733 03DEC86 INE278 E-PEN 2.00 0.53 0.28

. __ _ ..___._...______ _ . PEN i =ZNE279 -- -

OBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED l

734 2iMAY85 ZNE279 E-PEN 2.00 0.20 0.04 1 735 09DEC86 INE279 E-PEN- 2.00 0.53 0.28 I

- PEN i = ZNE 280 -- ------------------------- -- --------- --

U OBS DATE PEN 0 VALVE LEAKAGE SCCM ERROR SCCM ERROR SQUARED NOTES

/

736 2iMAY85 ZNE280 E-PEN 2.00 0.20 0.04 737 09DEC86 ZNE280 E-PEN 2.00 0.53 0.28

- PEN 4 =ZNE281 OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 738 21 HAY 85 ZNE281 E-PEN 2.00 0.20 0.04 739 09DEC86 ZNE281 E-PEN 2.00 0.53 0.28 PE N i = ZNE282 --------------------------------------------- -- ---

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 740' 21MAY85 ZNE282 E-PEN 2.00 0.20 0.04 741 09DEC86 ZNE282 E-PEN 2.00 0.53 0.28

n u na 1.LRf DAIASEI **n n*-

nu*nn*unnunnuunne

.... ... ........ PEN i =lNE283 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ---- ---

OBS DATE PEN ? VALVE LEAKAGE ERROR ERROR 'HOTES I-)

SCCM SCCH. SQUARED 742 22MAY85 INE283 E-PEN 13.80 0.20 0.64 743 15DEC86 INE283 E-PEN 2.00 0.53 0.28

- .....-- PEN i =ZNE284 ------- ----- - --- -- ------- ---- -- --

OBS DATE PEN ? VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 744 21MAY85 ZdE284 E-PEN 2.00- 6.20 0.04  ;

745 15DEC86 ZNE284 E-PEN 2.00 0.53 0.28 I

---

- - - - - - - - - - - - - - - - - - - - - - PEN i -ZNE285 -- - - - - - - - - ---- - -

l l OBS DATE PEN 4 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED. g 746 2tHAY85 ZNE285 E-PEN 2.00 0.20 0.04 i 747 15DEC86 ZNE285 E-PEN 2.00 0.53 0.28 1 l

1 J

. -------- ----~~--------------- PEN i =ZNE28 7 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

OBS DA1E PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 748 2iMAY85 ZNE287 E-PEN 2.66 0.20 0.04 749 15DEC86 INE287 E-PEN 2.00 0.53 0.28 1

.....___. .... . ...__._____.._.. -- PEN 0 =ZNE288 ----- --- ---- - ----------------------------- ---  ;

OBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 750 04)UL84 ZNE288- E-PEN 495.00 20.00 400.00 751 21MAY85 INE288 E-PEN 2.00 0.20. 0.04 752 14JAN86 ZNE288 E-PEN 2.00 0.20 0.04 753 07APR86 ZHE288 E-PEN 2.00 0.20 0.04 754 03 MAR 87 ZNE288 E-PEN 2.00 0.20 0.04 755 15APR87 ZNE288 E-PEN 2.00 0.20 0.04

. ... .. ....___....-- PEN i =ZNE289 ----- - - - - - - - - - - - - - - - - - ----------------------

OBS DATE PEN i VALVE . LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 756 21MAY85. ZHE289 E-PEN 2.00 0.20 0.04 l

757 03FEB87 INE289 E-PEN 2.00 0.20 0.04 l

L__________________________-________-. - - - - - - -

. neun LLRT DATASET nenne ununnunnannunne

..... . - .___ ..... _ _ _ . ..__...__... . .. . ..._ _ ... - PEN t = ZNE2 9 0 -------------- -- ~4---------------- - - - - - - -

OBS DATE PEN i YALVE LEAKAGE' ERROR ERROR HOTES SCCM SCCM SQUARED 758 21 HAY 85 ZNE290 E-PEN 2.00 0.20 0.04 759 03FEB87 2NE290 E-PEN 2.00 0.20 0.04

._______ _ _...- . .. __........___ _ .. -- PEN 4 =INE291 ---------- ---------- - - - - - - ------ - ---------

OBS DALE PEN t VALVE LEAKAGE -ERROR ERROR NOTES SCCM SCCM SQUARED 760 2iMAY85 ZHE291 E-PEN 2.00 0.20 0.04 761 03FEB87 ZNE291 E-PEN 2.00 0.20 0.04

-- - - PEN t =ZNE292 --- - - - - - - - - - - - - - - - - - - - - - - - --- -- - - ,

OBS DATE PEN i VALVE LEAKAGE ERROR- ERROR NOTES SCCM BCCM SQUARED 762 06JUL84 INE292 E-PEN 2.00 0.20 0.04' )

763 14JAN86 INE292 E-PEN 2.00 0.20 0.04 764 03 MAR 87 ZNE292 E-PEN 2.00 0.20 0.04 ,

i .. _ . _ _ . . _ _ _ _ _ _ . . -

___ .__. .. .. PEN i nZNE293 ---- --- -- ----

l l OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES l SCCM SCCM SQUARED l

1 765 21MAY85 ZNE293 E-PEN 2.00 0.20 0. 04 766 03FEB87 ZNE293 E-PEN '2.00 0.20 0.04

---

PEN i =ZNE294 -- - - - - - - - - - - - - - - -

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR- NOTES SCCM SCCM SQUARED 767 04JUL84 ZNE294 E-PEN 2.00 0.20 0.04 768 14JAN86 INE294 E-PEN 2.00 0.20 0.04 769 03 MAR 87 ZNE294 E-PEN 2.00 0.20 0.04 j

. ... ..... PEN 0 =ZHE295 - ---- - --- - - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN 4 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 770 04JUL84 ZNE295 E-PEN 2.00 0.20 0.04 j

. 3.16 0.20 0.04 I A./

f) 771 14JAN86 772, 03 MAR 87 ZNE295 ZNE295 E-PEN E-PEN 2.00 0.20 0.0i l

l l

L_.______________________

• ace <** LLRI DATASET anance F ;j n*nenun**n** nuns m u un Yll.>

.t

./

. .._ . ..... . . . . . . .. . ..... . . ... _ . ... . PE N 0 -Z NE 29 6 - ---- ----------- --------- - --------- -- -

=1 5 1 OBS DATE PEN 0 VALVE lEMAGE iRROR ERROR NOTES ( l O 'SCCM SCCM SQUARED i b I 773' .24JUL85 ZNE296 E-PEN 2.M 0.20 0.04 ,

'I I

774 12FEB87 ZNE296 E-PEN 2.00 0.29 0.04

___... ..........______..____ ..__.......' PEN 0 =ZNE297 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE JEN 0 VALVE LEAKAGE ERROR ERROR NOTES l SCCM SCCM SQUARED 775 24JUL85 > G E297 'E-PEN 2.00 0.20 0.04 .J 0.04

.2,00 0.20

]

4 776 12FEB87 2NE297 E-PEN

(

PEN 0 =ZNE298 ---- ------------------------------------~ j OBS DATE PEN 0 VALVE LEMAGE ERROR ERROR NOTES SCCM SCCM SQUARED.

777 24JUL85 ZNE298. E-PEN 2.M 0.20 0.04 778 12FEB87 20E298 E PEN' 2.00 0.20 0.04  !

l

___. PG 0 =ZSE207 - - - - - - - - - - - - - -

OBS DATE PEN 0 VALVE LEMAGE ERROR ' ERROR NOTES- .

SCCM SCCM _ SQUARED 1

779 22MAY85 ZSE207 E-PEN 2.H 0.20 0.04 J 780 06 JAW 87 ZSE207 E-PEN 2.M 0.53 0.28 y k.,l i

---

PEN 0 =ISE2M - - - - - - - - - - - - - - - - - - - - - ~ ~ ~

OBS DATE PEN ? VALVE LEMAGE ERROR ERR 9R NOTES SCCM SCCM SQUARED i

781 22MAY85 ZSE208 E-PEN 2.00 0.20 0.04 )

782 MJAN87 ZSE208 E-PEN 2.00 0.53 0.28 PEN 0 =ISE210 -------------------------------------------

OBS DALE PEN 0 YALVE LEMAGE ERROR- ERROR' NOTES-SCCif SCCM SQUARED 783 22MAY85 ZSE210 E-PEN 2.M 0.20 . 0.04 -

784 65J6N87 ZSE210 E-PEN 2.00 0.53 0.28 i' -

1

~l i

-l l

._ --___-_--___--_____0

N y@U WUW U WN nmen*uun unannen

---

PEN 4 =lSE215 - ------- --

UBS' DATE PEN $ VALVE LEAKAGE ERROR ERROR NOTES

/ SCCM SCCM SQUARED

(

785 24)UL85. ISE215 ,E-PEN 2.00 .0.20 0.04 796 . 12FEB87 ISE215 E-PEN 2.00 - 0.20 0.04

... __. - .....__........._.....__.......... PEN i -ZSE216 --- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN i VALVE lEMAGE ERROR ERROR NOTES i SCCM SCCM SQUARED 787 24JUL85 - ZSE216 E-PEN 2.00 0.20 0.04 788 12FEB87 ZSE216 E-PEN 2.00 0.20 '0.04 I

. ___ ___ . . . _.. PEN 4 =ZSE217 ---- - - - - - - - - - - - - - - - - - - - - - - - - - - - -

I OBS DATE PEN i VALVE LEMAGE ERROR ERROR , NOTES SCCM: SCCM SQUARED 789 24)UL85 ZSE2i? E-PEN 2.99 0.29 0.94 .

790 12FEB87 ISE217 E-PEN 2.09 0.29 0.04

--- PEN 8 =ZSE218 ----- --- --------- -

)

' UBS DATE PE' A 0 VALVE L EM AGE ERROR ERROR NOTES SCCM ~ SCCM SQUARED l

791 25)UN05 ISE218 E-PEN 2.09 0.20 0.04 1 i

792 23FEB87 ISE218 E-PEN 2.00 0.20 0.04 PEN # =ZSE219

{

OBS DATE PEN 4 VALVE LEMAGE ERROR ERROR NOTES SCCM SCCM SQUARED .

793 25JUN85 ZSE219 E-PEN 2.09 9.20 0.04 .

794 23FEB87 ZSE219- E-PEN 2.09 0.29 0.94

__..--- PEN 0 =ZSE222 -------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

CBS DATE PEN i VALVE LEMAGE ERROR ERROR NOTES SCCM SCCM SQUARED 795 22MAY85 ZSE222 E-PEN 2.00 0.29 0.04 796 09JAN87- ZSE222- E-PEN -2.99 0.20 0.04 h_ . ~ ..

-~ o u uum u ~~~~

m*xnu nnun a n nm * ** *

._. .......____... _ _ _. PEN 8 ZSE223 - -------- ----------- =- - - - - - - - - - - - - - -

l OBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTEC l t

fl ) SCCM SCCM SQUARED l

%/ l 797 22MAY85 ZSE223 E-PEN 2.00 0.20 0.04 1 798 09JAN87 ZSE223 E-PEN 2.00 0.20 0.04 799 23FEB87 ZSE223 E-PEN 2.00 0.20 0.04

. .. ._ . . ...___. . . . .. .- PEN 0 r ZSE224 -- --- ----- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

DBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED l 800 22MAY25 ZSE224 E-PEN 2.00 0.20 0.04 i Bei 09JAN67 ZSE224 E-PEN 4.43 0.20 0.04 )

'1

.__.--- PEN i = Z SE225 -------------------- ----- - - - - - - - - - - - - - -

l 4

OBS DATE PEN i VALVE 1EAKAGE ERROR ERROR NOTES i SCCM SCCM SQUARED 1

i 302 22MAY85 ISE225 E-PEN. 13.07 0.20 0.04 803 09JAN87 ZSE225 E-PEN 29.50 2.00 4.00 l

l C ._ ____ . --.

PEN i =ZSE226 - - - -- - - - - - - - -

l OBS DATE PEN t VALVE LEAKACE ERROR ERROR NOTES l i SCCM SCCM SQUARED I 804 25)UN85 ZSE226 E-PEN 2.00 0.20 0.04 805 23FEB87 ISE226 E-PEN 2.00 0.20 0.04 l

-- PEN i =ZSE233 - - - - - - - - - - - -

I OBS DATE PEN V/d VE LEAKAGE ERROR ERROR NOTES I SCCM SCCM SQUARED 006 25JUN85 ZSE233 E-PEN 2.00 0.20 0.04 067 23fEB87 ZSE233 E-PEN 2.00 0.20 0.04

._____.--- PEN t Z SE23 4 ----------------------------- ------------

OBS DATE PEN 0 VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED I 808 25)UN85 ZSE234 E-PEN 3.71 0.20 0.04 l 809 23fEB87 ZSE234 E-PEN 3.36 2.00 4.00 1 ,m l

t _ - __ _ _ _ -

l .V L%Uu U CNd V W U WN

. umemumumumem <

l -

I

---

PEN D =ZSE240 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE FEN 0 VALVE LEAKALE ERROR ERROR N01ES O SCCM . SCCM SQUARED l V s 810 22MAY85 ZSE240 E-PEN 2.00 0.20 0.04

. 811 .22JAN87 ZSE240 E-PEN 2.00 0.20 0.04

_____ ..______ - PEN i sISE243 --- --------* ------ - - - - - - - - - - - - - - - - - - - - - - -

DBS DATE PEN i VALVE 1EAKAGE ERROR FRROR NOTES j SCCM SCCM SQUARED  ;

,s. -

812 22MAY85 ZSE243 E-PEN 2.00 0.20 0.04 .

i 813 22JAN87 ZSE243 E-PEN 2.00 0.20 0.04

.s ' i ib

^

~ . .____ _ ____ _ __.

_ __. PEN i =ZSE249 - -- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

L i I i OBS DATE PEN 0 VALVE LEAXAGE ERROR ERROR NOTES SCCM SCCM SQUARED h ,

814 25JUN85 ZSE249 E-PEN 2.H 0.20 0.04 815 23FEB87 ZSE249 E-PEN 2.H 0.20 0.04 1

. PEN 4 =ZSE250 - - - - - - - - - - - -

l ~.

% DBS s MTE PEN i VALVE LEAKAGE ERROR ERROR NOTES

~

SCCM SCCM SQUARED l 816 30JUNB4 ZSE250 E-PEN 20.M 2.H 4.H 817 14JANB6 ZSE250 E-PEN 7.68 0.20 0.04 818 31 MAR 87 ZSE250 E-PEN 2.M 0.20 0.04

't-

)

- PEN t r.ZSE252 -- - - - - - - - - - - - - - - - - - - - - - ------

1  !

l l

PEN i

~

OBS DATE VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQl#: RED 819 22MAY85 ZSE252 E-PEN 2.M 0.20 0.04 l 2.00 0.20 820 22JAN87 ZSE252 E-PEN 0.04

)

.:_ l

_____.... ....- PEN i = ZSE253 ----------------- r---------- ------------- 'l l

I CBS DATE PEtt 0 VALVE LEAKAGE EidOR . ERROR NOTES SCCM SCCM SQUARED 2

821 22MAY85 ZSE253 E-PEN 2.00 0.20 0.04 f 822 30JAN87 ZSE253 E-PEN 2.M 0.20 0.04 823 12MARB7 ZSE253 E-PEM 2.00 0.20 0.04 .

f

\

v, ^

, ]

I i $

l1 >  ;

2 i

+

r W - * * ,

.%w g. &

'l . _.  %. -

• 3***** LLRT DATASET 22aseen

• • • • • • n*>:n*********:n*****

PEN 0 ZSE254- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED-824 22MY85 ISE254 E-PEN 2.99 9.29 0.04 825 39JAN87 ISE254 E-PEN 2.99 9.29 0.04 826 12 MAR 87 ZSE254 E-PEN 2.00 9.20 0.04

.. .. .. .. .. ....... .. ...... pgg g .zgg255 .... . .. ................. ._. ........

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR NOTES SCCM SCCM SQUARED 827 22MAY85 ZSE255 E-PEN 2.99 9.29 0.04 828 39JANB7 ZSE255 E-PEN 2.99 9.29 0.04 829 12 MAR 87 ZSE255 E-PEN 2.99 9.29 9.94

_. PEN 0 =ZSE258 ------ - - ------ ----------- ---- ---

OBS DATE PEN i VALVE LEAKAGE ERROR ERROR MOTES SCCM SCCM SQUARED 839 29JUN64 ZSE258 E-PEN 29.99 2.99 4.M '

831 14JAN86 ZSE258 E-PEN 2.99 ' 9.29 0.04 B32 39JAN87 ZSE258 E-PEN 2.99 9.29 0.04

[

s 833 12 MAR 87 ZSE258 E-PEN 2.99 9.29 9.94 e

\

• n u n STEAN GENERATOR LEAKACE ***n n uunn**nntnanennuexusunun

... __..... ........ .___ ...___ .... .__..... ..---- PEN % -NONE --- - - - - - - - - - - - - - - - - - - - . . - - - . - - . - - . - -

DATE- PEN i VALVE LEAKAGE ERROR ERROR NOTES

(

OBS SCCM SCCM SQUARED 1 05APRB7 NhME NONE 57800.00- 2H6.M 4H0000.00 STEAM GENERn10R.'A' HANDHOLE STEAM GENERATOR LEAKAGE IS NOT CONSIDERED TO BE PART OF APPEN111X J TYPE A,B, OR C TESTINC. THIS DATA IS INCLUDED FOR COMPLETENESS ONLY AND HA6 NO IMPACT ON 0.75LA OR 0.60LA ACCEPThriCE CRI1ERIA. .

__ rx__-___ - _