ML17251A791

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Reactor Containment Bldg Integrated Leakage Rate Test
ML17251A791
Person / Time
Site: Ginna Constellation icon.png
Issue date: 03/31/1986
From:
ROCHESTER GAS & ELECTRIC CORP.
To:
Shared Package
ML17251A790 List:
References
NUDOCS 8609220200
Download: ML17251A791 (190)
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Text

R.

E.

G INNA NUCLEAR POWER PLANT REACTOR CONTAINMENT BUILDING INTEGRATED LEAKAGE RATE TEST MARCH 1986 ROCHESTER GAS AND ELECTRIC CORPORATION S609220200 860916 PDR ADOCK 05000244 P

PDR

0 g

4~

ROCHESTER GAS AND ELECTRIC CORPORATION TABLE OF CONTENTS Section 1.0 2.0 Item Title SYNOPSIS INTRODUCTION Page 4

r 3.0 3.1 3.2 3.3 GENERAL AND TECHNICAL DATA GENERAL DATA TECHNICAL DATA TEST RESULTS 4.0 5.0 5.1 5.2 5;3 5.4 5.5 5.6 ACCEPTANCE CRITERIA TEST INSTRUMENTATION

SUMMARY

OF INSTRUMENTS SCHEMATIC ARRANGEMENT CALIBRATION CHECKS INSTRUMENTATION PERFORMANCE INSTRUMENT SELECTION GUIDE SUPPLEMENTAL VERIFICATION 8

8.

9 10 10 10 12 7.0 6.1 6.2 6.3 6.4 TEST PERFORMANCE PRERBQUISITES PRESSURIZATION PHASE TYPE A TESTING PHASE VERIFICATION TEST PHASE METHODS OF ANALYSIS 13 13 13 14 14 15 8.0 9.0 10.0 8.,1 8.2 8.3 DISCUSSION OF RESULTS TYPE A RESULTS SUPPLEMENTAL TEST RESULTS SCHEDULE FOR RETESTING TYPE B

AND C

LEAKAGE RATE REFERENCES 16 16 16 17 18 19 4

TABLE 1

INSTRUMENTATION LOCATIONS AND SCHEMATIC TABLE 2 TYPE B

C

SUMMARY

Appendices A

ILRT COMPUTER PROGRAM

SUMMARY

B STABILIZATION DATA AND CALCULATIONS C

TYPE A

SUMMARY

DATA By Sensor Enviroment Mass Loss D

TYPE A CALCULATIONS Mass Point Analysis Total Time Analysis E

VERIFICATION TEST CALCULATIONS Mass Point Analysis F

TYPE A PLOTS Average Temperature vs'ime Average Pressure vs Time Average Dew Point vs Time Containment Mass vs Time Mass Point Leakage Rate vs Time Total Time Leakage Rate vs Time G

VERIFICATION TEST PLOTS Average Temperature vs Time Average Pressure vs Time Average Dew Point vs Time Containment Mass vs Time Mass Point Leakage Rate vs Time 3

+R E

tt

4

1. 0 SYNOPSIS The R.

E.

Ginna Nuclear Power Plant reactor containment building was subjected to periodic integrated leakage rate test (ILRT) during the period from March 8,

1986 to March ll, 1986.

The purpose of this test was to demonstrate the acceptability of the building leakage rate at an internal pressure of 35 psig (Pt).

Testing was performed in accordance with the requirement's of 10 CFR 50, Appendix J, ANSI N45.4-1972 and R.

E.

Ginna Technical Specifications.

In addition, the recommendations of ANSI/ANS 56.8 1981 were considered where appropriate for reduced pressure testing.

The calculated leakage rate based on the mass point method of analysis was found to be 0.06216%/day with an associated 95K confidence interval of, 0.06407%/day.

The post test repair leakage and local leakage from valves in service during the ILRT was 0.0000%/day.

Thus, the combined leakage rate at the upper bound of the 95K confidence interval is 0.06407 percent by weight per day which is well below the acceptance criterion of 0.1146 percent by weight per day.

The supplemental instrumentation verification at Pt demonstrated an agreement between calculated reactor containment building integrated leakage rates of 16.7 percent of Lt which is well within the 25K requirement of 10 CFR 50, Appendix J, Section III A.3.b.

All testing was performed'y Rochester Corporation with the technical assistance Services Corporation.

Gas and Electric of Quadrex Energy

1

2.0 INTRODUCTION

The objective of the periodic integrated leak rate test was the verification of the overall leak tightness of the reactor containment building at an internal pressure of 35 psig.

The allowable leakage is defined by safety analyses and in accordance with the site exposure guidelines specified by 10 CFR 100.

For R.

E.

Ginna Nuclear Power

Plant, the maximum allowable integrated leakage rate at a pressure of 35 psig (Pt) is 0.1528 percent by weight per day (Lt).

Testing was performed in accordance with.

the procedural requirements as stated in R.

E.

Ginna Nuclear Power'lant Containment Integrated Leak Rate Test Procedures RSSP-6.0, 6.1, 6.2 and 6.3.

These procedures were reviewed by the Plant Operations Review Committee and approved by the Plant Superintendent prior to the commencement of the test.

Leakage rate testing was accomplished at the pressure of 37.1 psig for a

period of 24

hours, followed by a

4.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> supplemental test for a verification of test instrumentation.

t

\\;I iJ'

3. 0 GENERAL AND TECHNICAL DATA
3. 1 GENERAL DATA Owner:

Docket No.:

Location:

NSSS Supplier:

t 3.2 TECHNICAL DATA Containment Net Rochester Gas and Electric 50-244 South shore of Lake Ontario, 16 miles east of Rochester, N.

Y.

Containment

==

Description:==

Reinforced concrete vertical cylinder with pre-stressed tendons in the

-vertical

wall, a

reinforced concrete ring anchored to bedrock and a

reinforced hemispherical dome.

Westinghouse Free Volume:

Design Pressure:

Design Temperature:

3.3 Test Results -- ILRT Test 5

9.7 x

10 cubic feet 60 psig 286 deg F

Absolute Mass Point 36.973lpsig 0.1528%/day 0.1146%/day Mass Point Analysis

9. Verification Test Limits Uppers Lowered Mass, Point Analysis 0.25206%/day 0.17566%/day WUpper Limit = Lo +

Lam

+ 0.25 La WLower Limit =

Lo +

Lam 0.25 La

1. Test Method 2.

Data Analysis Technique 3.

Test Pressure (At Completion) 4.

Maximum Allowable Leakage

Rate, La 5.

75%. of La (Operational Allowable)

6. Integrated Leakage Rate Test Results Mass Point Total Time Allowable Oper.

Type A LSF L.R.%/day 0.06216 0.0480 0.1528 0.1146 Type A UCL L.R.%/day 0.06407 0.08162 0.1528 0.1146 7.

Imposed Verification Leakage Rate 0.1517%/day (3.703SCFM)

8. Verification Test Results Leakage Rate 0.1890%/day
10. Report Printouts The report printout's and plots for the Type A

and verification test calculations are provided in Appendices B-G.

4.0 ACCEPTANCE CRITERIA Acceptance criteria established prior to the test and as specified by Ginna Plant Technical Specifications and an exemption to 10 CFR 50, Appendix J, dated March 28, 1978 are as follows:

a.

The measured leakage rate (Lt) for reduced pressure testing at 35 psig (Pt) shall be less than 75 percent of the maximum allowable leakage rate (Lt) specified as.0.1528 percent by weight of the building atmosphere per day.

The acceptance criteria is determined as follows:

1/2 Lt

= La (Pt/Pa) where La -"0.2C/day Pa

= 60 psig.

Pt

= 35 psig b.

Substituting the values for La, Pa, and Pt, Lt

= 0.152896 per day and

.75 Lt

= 0.1146% per day.

The test instrumentation shall be verified by means of a

supplemental test.

Agreement between the containment leakage measured during the Type A test and the containment leakage measured during the supplemental test shall be within 25 percent of Lt.

5.'0 TEST INSTRUMENTATION 5.1

SUMMARY

OF INSTRUMENTS Test-instruments employed following subsections.

An formula.,

as discussed in

+0.00702K/day.

5.1.1 Temperature Indicatin Components:

are described, by. system, in the instrumentation Selection Guide (ISG)

Section 5.,5 was calculated to be g System-a.

Resistance Temperature Detectors (RTD sensors)

Quantity Manufacturer Type

Range, deg F
Accuracy, deg F

Sensitivity, deg F

24 Leeds

& Northrup 100

ohm, copper

-325 to 250

+0.1

+0.1 b.

Temperature Indicator Quantity Manufacturer Type

Range, ohms
Accuracy, Repeatability, 5.1.2 Dewpoint Indicating Components:

a.

Dewcell Elements 1Fluke 2280 B Datalogger 0

256

+0.0142%input

+0 00379o input System b.

Quantity Manufacturer Type

Range, deg F

Accuracy,deg F

Dewpoint 'Indicator Quantity Manufacturer Type

Range, ohms
Accuracy, Repeatability, 6

Foxboro Model 2711A 0-100

+0.5 1

Fluke, 2280 B Datalogger 0

256

+0.0142%input

+0.0037%input

e t

e'.

4'I

5.1.3 Pressure Monitoring System Precision Pressure Gauges:

Quantity Manufacturer Type Range," psia Accuracy, psia Sensor Sensitivity, Repeatability, psia 2

Texas Instruments Model 145 0-100

+0.015% of indication

+0.001% of full scale psia

+0.0003'4 of full scale-5.1.4 Supplemental Test Flow Monitoring System Flowmeter:

Quantity Manufacturer Type

Range, scfm Accuracy 2Wallace

& Tiernan Model 1866 0-7 at 110 deg F

+1% of full scale 5.2 SCHEMATIC ARRANGEMENT A

mathematical model of the containment was developed using elevation and plan view construction drawings to define containment subvolumes boundaries.

Subsequent to subvolume boundary definition, volume fractions were assigned to each subvolume in the containment.

Sensors were then placed as near to the centroid of each subvolume as possible to detect changes in containment atmospheric conditions.

Sensors were also placed with consideration given to'ir stratification, ventilation fans, and slight thermal updrafts caused by natural convection.

This was especially true for those sensors in the containment where large open vertical spaces existed.

Sensor placement considered the three criteria (nearness to subvolume

centroid, air stratification, and natural convection occurring in large open areas) and provided stable

'accurate representation of containment atmospheric conditions during the ILRT.

All.sensors were placed in accordance w'ith the above considerations and operated without the disturbance yielding highly reliable test data.

0 The 24 temperature sensors and 6 dewcells were placed thro'ughout the reactor containment volume to permit monitoring of internal temperature and dewpoint.

A temperature survey was performed with the sensors installed which verified no large areas of temperature variation.

l

+i

The table below indicates sensor location relative to volume fraction assignment.

Placement of the temperature sensors and dewcells can be grouped into five elevations as follows:

Elevation RTD's 243' 2611 6

286$

3 301'301'1 330' The two pressure gages RTD WTFAC (L'ach)

.0203

.'0171

.0865

.0865

.0389

.0507 were weighted at Dewcells 50 X

each.'CWTFAC (X each)

.1215

.1025

.2358

.1522 5.3 CALIBRATION CHECKS Temperature,

dewpoint, pressure and flow measuring systems were checked for calibration before the test in accordance with RG8cE procedures as required by ANSI N45.4-1972, Section 6.2 and 6.3.

Results of the calibration and calibration checks are on file at R.

E.

Ginna Nuclear Power Plant.

The supplemental test at 35 psig confirmed the instrumentation acceptability.

0 5.4 INSTRUMENTATION PERFORMANCE The two TI pressure

gauges, the twenty-four temperature
sensors, six dewcells and rotameter performed satisfactorily during the integrated leakage rate test.

The two pressure gauges had a

slight servo drive oscillation and were operated manually rather than include the random instrument oscillation in the measurement error.

5.5 INSTRUMENT SELECTION GUIDE (ISG)

Justification of instrumentation selection was accomplished, using manufacturer's sensitivity, accuracy and repeatability tolerances stated in Section 4.1, by computing the ISG formula.

Utilizing the methods, techniques and assumptions in Appendix G

to ANS 56.8-1981, the ISG formula was computed for the absolute method as follows:

a. Actual Conditions Acceptance Criteria at reduced Actual Pressure Actual Drybulb Temperature Actual Dewpoint Test Duration pressure (Lt)

= 0.1528%/day (P't)

= 51.3761 psia (T)

= 49.5348 deg F

or 509.205 deg R

(Tdp)

= 26.4484 deg F

(t)

= 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> 10

f

~ip I

l

e

b. Total Absolute Pressure:

P No. of sensors:

2 Range:

0-100 psia Sensor sensitivity error (E):

+0.001% of full scale Measurement system error (e):

+0.0003% of full scale e

2 2

1/2 1/2 P

= +f(EP)

+ (eP)

]

/[no. of sensors]

e 2

2 1/2 1/2 P

= +[(0.001)

+ (0.0003)

]

/[2]

e P

= +0.00074 psia e

c.

Water Vapor Pressure:

Pv No. of sensors:

6 WSensor sensitivity error (E):

+0.5 deg F

IMeasurement system error (e) excluding sensor:+0.0142%

WValues given are accuracy; true sensitivity and repeatability values would be lower but are unknown.

At a dewpoint temperature of 26.4484 deg F,

the equivalent water vapor pressure change (as determined from the steam tables) is 0.00364 psia/

deg F.

E Pv

= +0.5 deg F x (0.00364 psia/deg F)

E Pv

= +0.00182 psia ePv

= +(0.000142 x 100deg F) x (0.00182 psia/deg F) ePv

=

+ 0.0000258 psia e

E 2

2 1/2 1/2 Pv

= +[( Pv)

+ (ePv)

]

/[no. of sensors]

e 2

2 1/2 1/2 Pv

= +[(0.00182)

+ (0.0000258)

]

/[6]

e Pv

= + 0.000743 psia e

d.

Temperature:

T No. of sensors:

24 Sensor sensitivity error (E):

+O.l deg F

= O.l deg R

Measurement system error (e),

+0.0142% fs Range:

40-130 deg F

eT

= 0.000142 X (130 deg.F)

= 0.01846 deg F

e 2

2, 1/2 1/2.

T

= +f(ET)

+ (eT)

]

/[no. of sensors]

e 2

2 1/2 1/2 T

= +[(0.1)

+ (0.01846)

]

/[24]

T

= +0.0208 deg R

j.a

,l

'I P

k

e.

Instrumentation Selection Guide (ISG) e 2

e 2

e 2 1/2 ISG

= +(2400/t)

[2( P/P)

+ 2( Pv/P)

+ 2( T/T)

]

2 2

ISG

= +(2400/24)

[2(.00074/36.973)

+ 2(.000743/36.973)

+

2 1/2 2'('.0208/509.205)

]

ISG

+100 [8.0 x 10E-10

+ 8.08 x 10E-10

+ 3.32 x

1/2 9]

10E-ISG

= +0.00702K/day The ISG formula does not exceed 0.25 Lt (0.0382'/day) and it is therefore concluded that the instrumentation selected was acceptable for use in determining the reactor containment integrated leakage rate.

5.6 'UPPLEMENTAL VERIFICATION In addition to the calibration checks described in Section 5.2, test instrumentation operation was verified by a

supplemental test subsequent to the completion of the 24.hour leakage rate test.

This test consisted of imposing a

known calibration leakage rate on the reactor containment building.

After the flow rate was established it was not altered for the duration of the'est.

During the supplemental

test, the measured leakage rate was:

Lc

= Ltm'+ Lo

where, Lc

= measured composite leakage rate consisting of the reactor building leakage rate plus the imposed leakage rate Lo

= imposed leakage rate Ltm'= leakage rate of the reactor building during the supplemental test phase Rearranging the above equation:

Ltm'= Lc Lo The reactor containment building leakage during the supplemental test

~ can be calculated by subtracting the known superimposed leakage rate from the measured composite leakage rate.

The reactor containment building leakage rate during the supplemental test (Ltm')

was then compared to the measured reactor containment building leakage rate during the preceding 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test.

(Ltm) to determine instrumentation acceptability.

Instrumentation is considered acceptable if the difference between the two. le'akage rates is within 25 percent of the maximum allowable leakage rate (Lt).

12

4 gc',

1 4 II

6;0 TEST PERFORMANCE

6. 1 PREREQUISITES Prior to commencement of reactor containment building pressurization, the following basic prerequisites were satisfied:

a.

b.

c ~

d.

e.

g 0 h.

Proper operation of all test instrumentation was verified.

All automatic containment building isolation valves were closed by a manual containment isolation signal without any preliminary exercising or adjustment.

Equipment within the reactor containment

building, subject to
damage, was protected from external differential pressures.

Portions of fluid systems

which, under post-accident conditions become extensions of the containment
boundary, were drained and vented.

The 'penetration pressurization system was depressurized and isolated with test gauges installed to detect any leakage.

Pressure gauges were provided on the following systems to provide a means of detection for leakage into these systems:

1.

Personnel Access Hatch 2.

Equipment Access Hatch Containment recirculation fans were operational Potential pressure sources were removed or isolated from the containment.

A general inspection of the accessible interior and exterior areas of the containment was completed.

6. 2 PRESSURIZATION PHASE During the entire ILRT period, data was collected and recorded electronically at

. fifteen minute intervals via the computer.

(See Appendicies B-G.)

Following the satisfaction of the prerequisites, pressurization of the reactor building containment was started on March 8, 1986 at 1410.

Building pressure and temperature were monitored continuously 'hroughout the pressurization stage.

The pressurization rate was approximately 5.0 psi per hour.

During pressurization, a

decrease in pressurizer water level was observed.

Water level was maintained through refilling the pressu'rizer as needed.

n

'When containment internal pressure reached 37.2385 at 2250 on March 8,

1986, pr'e'ssurization was secured.

At 0545 on March 9,

1986, the containment stabilization criteria had been met.

The Pressurizer level was stable with the absence of adding pressure.

13

r'r

0 6.3 TYPE A TESTING PHASE Leakage rate testing started at 0600 on March 10,

1986, and was initiated at the 37.1015 psig pressure level.

The Type A

test ran without

. abnormalities or perturbating events and was completed at 0600 on March. 11, 1986.

6.4 VERIFICATION TEST PHASE Immediately following the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Type A

test, a

superimposed leakage rate started at 0615 on March ll, 1986., for an additional 4.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> period.

The Verification test also ran without abnormalities or perturbating events and was corn'pleted at 1130 on March ll, 1986.

When a air sample was taken by Chemistry, the test was considered complete.

Depressurization was complete at 1800.

14

7.0 METHODS OF ANALYSIS The absolute method of leakage rate determination was employed during testing at the 37.1015 psig pressure level.

The LEAKER computer code (described in Appendix A) calculated the percent per day leakage rate using.the mass point technique of data an~lysis.

The mass point technique of computing leakage rates uses the Ideal Gas Law equation to calculate the weight of air inside containment for each fifteen minute interval.

A superimposed induced flow method was used. for the 4.5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> supplemental test.

LEAKER computer code fits a straight line using a linear least squares fit.

In addition, the computer code also computes the upper bound of the 95K confidence interval.

15

l A~,

S

8

~ 0 DISCUSSION OF RESULTS The ILRT data and calculated leakage rates are presented as reports and plots in Appendices B through G.

These reports and plots illustrate an ILRT that was performed uninterrupted and without perturbation.

The Type A containment mass and mass point leakage rate plot shows that the leakage rate remained essentially constant for the entire test period data.

8.1 TYPE A RESULTS The method used in calculating the mass point leakage rate is defined in Section 7.0.

The result of this calculation is a

mass point leakage rate of 0.06216%/day.

In addition, the local leakage rate of the instrumentation valves which were in service during the ILRT were also considered but had no leakage.

The 95 UCL associated with this leakage rate is 0.06407%/day.

Thus, the leakage rate at the upper bound of the 95 percent confidence interval becomes:

Ltm

= 0.06407+

0.00 Ltm

= 0.06407%/day

'he calculated leakage rate and the calculated leakage rate at the upper bound of the 95 percent confidence level are well below the acceptance criteria of 0.1146 percent per day (0.75 Lt).

Therefore, reactor containment building leakage at 35 psig (Pt) is considered acceptable.

8.2 SUPPLEMENTAL TEST RESULTS After conclusion of the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test at 35 psig, flowmeter FI-2A was placed in service and a flow rate, corrected for pressure and temperature conditions of

.3.703 SCFM was established.

This flow rate is equivalent to a leakage rate'f 0.1517 percent per day.

The calculated leakage rate(Lc) during the supplemental test was calculated to be 0.1890 percent per day using the mass point method of analysis.

The building leakage rate during the supplemental test is

'then determined as follows:

Ltm'= Lc Lo Ltm'= 0.1890%/day 0.1517%/day Ltm'= 0.03734/da~

16

Comparing this leakage rate with the building leakage rate during the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> test yields the following:

(Ltm Ltm')/.Lt = (0.06216 0.0373)/0.1528=

0.1627 The building leakage rates agree within 16.7 percent of Lt which is below the acceptance criteria of 25 percent of Lt.

Using the formulation of ANS 56.8 1981, (Lo + Ltm 0.25 Lt)< Lc

< (Lo + Ltm + 0.25 Lt.)

(0.1517

+ 0.06216 0.0382)<Lc<(0.1517

+ 0.06216

+ 0.0382) 0.17566

< Lc

< 0.25206 Since Lc was measured to be 0.1890 percent per

day, this value falls within the acceptable range 0.17556 to 0.25216 percent per day.

Therefore, the acceptability of the test instrumentation is considered to have been verified.

SCHEDULE FOR RETESTING The thorough examination of the containment penetration boundaries revealed no structural deterioration or abnormalities.

All portions of the containment were found

.to be in good repair.

Therefore, the next periodic Type A retest is proposed to be performed in approximately three years.

17

9.0 TYPE B

AND C

LEAKAGE RATE Table 2

illustrates the on-going B and C

testing program from 1986 to 1983 including the respective outages.

All local Type B and Type C tests were performed at 60 psig.

The local "as found leakage (pre-1986 ILRT) minus the "as left leakage" represents an addition to the Type A leakage rate of'.00334 R/day (2306.32 sccm or 8.816 lbs/day).

Assuming a Type A

mass of 263,776.89

lbs, this added to the 95K UCL yields an "as found" ILRT leakage rate of 0.06741 X/day which is well within the operational allowable

(.1146%/day).

18

- iC t

REFERENCES 1)

RSSP 6.0, 6.1, 6.2 and 6.3, "Containment Integrated Leakage Rate Test'rocedure)"

2)

Code of Federal Regulations, Title 10, Part 50, Appendix J,'1-1-82).

3)

ANSI N45.4 1972, "Leakage Rate Testing of Containment Structures for Nuclear Reactors,"

American Nuclear Society, (March 16, 1972).

4)

Steam Tables, American Society of Mechanical Engineers, (1967).

5)

Quadrex LEAKER Computer Code.

6)

ANSI/ANS-56.8 1981, "Containment System Leakage Testing Requirements,"

American Nuclear

Society,

.(February 19, 1981).

7)

"Rochester Gas and Electric Corporation" Reactor Containment Building Integrated Leak Rate Test, R.

E.

Ginna Nuclear Power Plant, (March 1982).

8)

R.

E. Ginna Nuclear Plant Technical Specification, Appendix A to Operating License Number DPR 18.

9)

Appendix J Exemption Safety Evaluation Report, dated March 28,

1978, Amendment 17 to Operating
License, DPR 18, Dennis L. Ziemann to Leon D. White, Jr.

19

TABLE l INSTRUMENTATION LOCATIONS L SCHEMATIC

INSTRUMBNTATION LOCATION X

X X

X X

ELEVE 330' x

x x

ELEVE 30l' x

x x

'ELEY 286'l 2A X

X Cjg x

x x

x ELEVE 261' X

X X

X X

X X =gab

= ORNCB.

El-EY.

243'LEVe 23S'4" Pl 3A PI 3B

921 0439 7440 0435924 7452 7450 5

7451 923 8437 7450 7440 7447 P

7454 CONTAIIOIENT PENETRATION PI-2A V AT 0-100

~SI r I 2 A rx 2 b PI-1A VAT 0-100 PSIA 7449 745 PI - 3A

~

PI - 30 INSTRUMENThTION SCHBMhTIC

TABLE 2 TYPE B

C

SUMMARY

k" S

TYPE B AND C LEAKAGE RATE HISTORIES Di5cu551 on of Leakage H15tol"y:

For.the years

1983, 1984, 1985 and 1986 al 1 required type B

and C testing was performed during the reactor shutdowns for refueling.

In addition tests were performed at more frequent intervals on the Purge valves, Containment hatches and post maintenance.

The shutdown for 1983 was from March 26 to June 25, the 1984 shutdown was from March 3 to May 14, the 1985 shutdown" was from March 2 to April 17 and the shutdown for 1986 was from February 7 to March 22.

All local type B and,C tests were performed at 60 psig.

The acceptance criteria for the test period of 1983 to 1986, per plant Technical Specifications 4.4.2.2 was that total leakage from all penetrations and isolation valves not exceed 0.60 LA (equivalent to 22,930 cc/min.).

In January

1985, as the result of a Quality Assurance audit.

.concern,

- an additional Administrative limit of 2/

was subtracted from the total allowable leakage (reducing the allowed total to 22,471 cc/min.) to allow for instrument inaccuracies.

Following is a summary of the total leakage tabulated for each of the years from 1983 to 1986 with di5cus51on of significant leak rates and their resolution:

1983 Leakage at Shutdown for Ref uel ing Leakage at Startup After Ref uel ing Type B

Type C

. Total 1,824.

1 cc/min.

3,499 '

cc/min.

5,323.5 cc/min.

1,738 '

cc/min.

1,047 '

cc/min.

2,786 '

cc/min.

Significant Type B Leakage'(Penetrations):

1)

Manifold D Personnel Hatch (See LER 83-12)

PT-22.3 During the period from Mare/ 21-23, 1983-testing of the between door volume of the Personnel hatch revealed leakage through the handwheel shaft packings.

Although leakage through the inner door

~ packing was determined to be in excess 'of plant al 1owable before repair, the combined "through" leakage was analyzed to be within limits.

After repairs the leak rate for this penetrat ion was 273. 5 cc/min.

Significant Type C Leakage (Isolation Valves):

Purge Supply Penetration

¹204 PT-23.35.

During a

quarterly leakage test of this penetration with plant at power the total between valve leakage was determined to be 1596 cc/min.

which was below the Administrative allowable leak rate of 2000 cc/min.

per valve.

Leakage was identified at the outside valve shaft/seat interface and was documented on a Work Order Trouble Card.

While the plant was shutdown for the Maintenance/

Refueling Outage additional testing was performed with maintenance personnel.

Adjustments were made to the valve seats which reduced the total leakage for this penetration to 160 cc/min.

before the plant was returned to power operation.

Purge Exhaust Penetration

¹300 PT-23.36 When this penetration was tested on January 14, 1983 the leakage indicated for the volume was 160 cc/min.

which was well within the Admi'nistrative allowable of 2,000 cc/min.

When the between damper volume was tested on June 1,

1983, just prior to plant startup af ter refueling, the indicated leakage was 432,373 cc/min.

This leak rate was measured following use of the Purge system and was attributed to stroking of the

valves, dirt buildup on the seats and temperature differential between Containment and the Intermediate Building.

Adjustments were made to the valve 'eats resulting in a final leak rate of 155 cc/min.

Since this sytem is Administratively maintained out of sevice during power operation the leak rate measured on January 14, 1983 of 160 cc/min.

is considered the at power value for integrity of Containment'A" Steam Generator Sample Penetration

¹206 PT-23,. 13A.

Initial leakage of 660 cc/min.

was through isolation valve AOV-5735.

Valve stroke was adjusted and leakage was reduced to 140 cc/min.

"A" Steam Geneator Blowdown Penetration

¹321 PT-23 ~ 16A ~

Initial leakage of 1437 cc/min.

was through isolation valve AOV-5738.

Repairs were made to the valve which reduced the leakage to 5.6 cc/min.

5)

Reactor Coalant Drain Tank Penetration

¹i43 PT-23.22.

Leakage from

system, which is bounded by three isolation
valves, was 355 cc/min.

through AOV-1003B.

Replacement of the diaphragm on this valve reduced the leakage to 59 cc/min.

6)

"A" Hydrogen Recombiner Penetration

¹304 PT-23.5iA.

Solenoid valve IV5A was leaking through during initial test at 635 cc/min.

This leakage was reduced to 20 cc/min.

by cleaning valve and replacing" discs.

1 4

1984 Leakage at Shutdown for Refueling Leakage at Startup After Refuel ing Type B

Type C

Total 3, 132 ~ 7 cc/min.

1,902.8 cc/min.

5,035.5 cc/min.

2,299 '

cc/min.

1,447.4 cc/min.

3,746.8 cc/min.

+

This number does not include leakage from Pressurizer Liquid Space Sample penetration which is discussed below.

Significant Type B Leakage

<Penetrat,ions):

Manifol d D Personnel Hatch PT-22. 3 The initial

test, of this hatch performed 10/18/83 indicated a leak rate of 12,026 cc/min.

which was above the Administrative limit of 500 cc/min.,

but still within plant allowable when all other known leakage was evaluated.

The primary leakage path was identified as the inner door shaft packings.

A Containment entry was made to adjust the packing and a retest showed a

leak rate of 1,551.8 cc/min.

Due to low Oxygen levels in Containment which made supplied air a necessity for workers it was decided not to make further attempts at reducing the leak rate.

During the next scheduled test in January 1984 further corrections were made to reduce the leak rate to 206.6 cc/min.

2)

Mechanical Manifold 6 Penetration 8125 PT-22. 13 Manifold 6 is a penetration pressurization system which includes 10 individual penetrations.

A pressure decay

test, on this manifold indicated a leak rate of 2013 cc/min.

By a

process of elimination, isolating individual penetrati ons, penetration N125 was determined to be the source of leakage.

Further investigation showed there was no leakage at the primary boundary

<flange.inside Containment).

An Emergency Maintenance procedure was written to allow opening the penetration outside Containment to make repairs.

The expansion bellows was found to be the source of leakage.

After repairs the manifold leak rate was reduced to 0.0 cc/min.

Significant Type C Leakage (Isolation Valves):

1)

Pressurizer Liquid Space Sample Penetration 0206 PT-23. 12B.

On January 11, 1'984 manual valve 956E was replaced using Emergency Maintenance procedure EM-370 due to visible leakage and tested with 0 cc/min.

leak rate.

Since other series isolation valves exist in this line, this was a

condition allowed by Tech.

Specs.

for Containment Integrity.

During the next test of this valve on March 17, 1984 after the plant was shutdown for Refueling it was found to have a leak rate which could not be

~ measured on available test equipment.

Valve 956E was again replaced on April 4, 1984 and a

retest showed 0.0 cc/min.

leakage.

2)

Auxiliary Steam Supply and Condensate Return Penetration 0303 PT-23.40

'he leakage found for manual valve 6152 was 70.9 cc/min

~

which exceeded the Administrative limit of 58 cc/min.

After replacing the valve diaphragm the leak rate was 0 '

cc/min

~

0 C'

1985 Leakage at Shutdown for Ref uel ing Leakage at Startup After Ref uel ing Type B

Type C

Total 1,693.7 cc/min.

5,306.8 cc/min.

7,000.5 cc/min.

1, 156. 8 cc/mi n.

2,345.

1 cc/min.

3,501. 9 cc/min.

Significant Type B Leakage

<Penetrations):

1)

Manifold D Personnel Hatch PT-22.3.

.The "As Found" leakage for the hatch was 1,486

'cc/min.

at the beginning of the 1985 Refueling Outage.

After maintenance and prior to startup the leak rate was reduced to 624 cc/min.

NOTE:

A new electrical penetration was added

<CE3) during the 1985 Refueling outage.

Leakage for this penetration after installation was 0.0 cc/min.

Significant Type C Leakage

< Isolation Valves):

"A" Steam Generator Blowdown Penetraiton 0321 PT-

23. 16A.

The leakage for this isolation path was measured at 537 cc/min.

Because of the significant difficulty of making the repairs and the relatively low leakage this valve remained in service for the next operating cycle.

2)

Fire Service Water Penetration 0307 PT-23.52.

The leak rate of the outside Containment

'isolation valve for this line was found at 3,400 cc/min.

During power operation the leaking

valve, AOV-9227, is maintained closed and the downstream line which feeds the fire hose reels in Containment is depressurized.

It was determined that service water crud buildup on the upstream side of this valve had caused fouling of the seat.

A hot water flush method was used to reduce the leak rate'o 437 cc/min..

1986 Leakage at Shutdown for Ref uel ing Leakage at, Startup After Refueling Type B

Type C (Min. Path)

Total 4,050. 9 cc/min.

617.7 cc/min.

4,668.6 cc/min ~

2, 175. 5 cc/min.

186. 8 cc/mi n.

2,362.3 cc/min.

A.

Significant Type B Leakage (Penetrations):

1)

Manifold D Personnel Hatch PT-22.3.

This penetration was tested on 12/2/85 using a

new instrumentation system (e><ternal digital pressure gage and temperature indication).

The leakage measured at this time was 2,260 cc/min.

No leakage was'ound to the outside atmosphere and total plant leakage was well within acceptable

limits, therefore, no repairs were attempted at this time.

On January 13, 1986 a test.

was performed which showed an initial leakage of 1.702 cc/min.

After adjustments to the inner door shaft packing the leakage was reduced to 805 cc/min.

2)

Manifold I Equipment Hatch PT-22. 4.

The ful 1 volume test of this hatch was performed on 12/4/85 and the leakage measured was 2,278 cc/min.

Repairs to this volume were deferred until January 1986'he hatch was retested on January 17, 1986 and the leakage was 1,985 cc/min.

After repairs were made to the inner door equalizing valve flange gasket the leakage was reduced to 1,060 cc/min.

B ~

Significant Type C Leakage (Isolation Valves):

NOTE:

Reporting of leakage starting with the 1986 Refueling Outage is based on the "Minimum Path" criteria for as found and as 'eft determination of individual penetrations as discussed in NRC IE Information Notice No. 85-71 "Containment.

Integrated Leak Rate Tests. "

~">> $

"A" Containment Spray Header Penetration

¹105 PT-23. 18A "B"

Containment Spray Header Penetration

¹109 PT-23.18B Check valves 862A and 862B were replaced diiring the 1986 Refueling outage due to problems which had been encountered in the past with verifying prompt closure of these valves for In-Service Inspection requirements.

Leakage for these valves was 0 '

cc/min.

for 862A and 6 ~ 04 cc/min. for 862B.

Purge Supply Penetration

¹204 PT-23.35/23.35.

1 Purge Exhaust Penetration

¹300 PT-23.36/23.36.

1 During the 1986 Refueling Outage the inside Containment valves for the Purge Supply and Purge Exhaust penetrations were removed and replaced with double 0-ring seal blank flanges (see Engineering Work Request EWR-2504).

These penetrations have been the largest contributor to total plant allowable leakage. 'n the future these penetrations will only be opened for Cold or Refueling outages as specified in Technical Specification Table 3.6-1, Amendment 13.

Leakage for

these, volumes was reduced from an as found of 258 cc/min.

for the Purge Supply and 145 cc/min.

for the Purge Exhaust to

. 49 cc/min.

and

~ 37 cc/min.

respectively.

Fire Service, Water Penetration

¹307 PT-23.52 Similar to the 1985 test of AOV-9227, initial leakage on 2/12/86 could not be measured on available instruments.

This initial leakage was determined after the Fire Service line had been placed in service.

The actual At Power leakrate would be the 1985 "As Left" leakage of 439.5 cc/min.

since the line is maintained isolated and depressuri ed during Power operation.

Discussions the same day with the Instrumentation Dept.

revealed a

flow transducer was available which was capable of measuring higher range leak rates.

Leakage indicated by tis instrument was 8,070 cc/min.

During this time the in series isolation check valve 9229 was tested and had a leak rate of 1 ~ 18

'cc'/min.

After repairs were attempted on AOV-9227 the leakage was reduced to 1,693 cc/min.

These repairs included

flushing, valve stem adjustment and rotating the stem for better seating.

APPENDIX A

ILRT COMPUTER PROGRAM

SUMMARY

0 V.I

QUADREX CORPORATION LEAKER PROGRAM

SUMMARY

1.0 INTRODUCTION

The Type A

Test is an integrated leakage rate test (ILRT) designed to verify the leak test integrity of the entire containment building.

This test is.performed at approximately three-year intervals as required by Appendix J of 10 CFR'0.

Generally, ILRT',s are performed in accordance with the American National Standard "Containment System Leakage Testing Requirements,"

(ANSI/ANS-56.8-1981),

American National Standard Leakage Rate Testing of Primary Containment for Nuclear Power Plants," Bechtel Topical Report (BN-TOP-l).

The LEAKER program computes total time leakage

rates, mass point leakage
rates, LSF leakage
rates, and 95% upper confidence level (UCL) leakage rates during the course. of the test from measured input values of containment
pressure, temperature and dew point.

A

,The LEAKER program is also capable of performing the verification

~

~

phase and will generate specific verifications features to aid in verifying the Type A test.

Those features will be described in detail later.

The LEAKER program is designed to automate the task of sampling and reducing the data to a usable form in accordance with the above documents.

This greatly limits the possibility of human error and provides intermediate results after a

short delay.

This makes i't possible to monitor the progress of the test very closely in approximately real time.

For each of the two test

periods, the LEAKER program receives data on the

.containment's environment and calculates the values needed to assess the status of the test.

Interim results are provided as desired and the program checks to see if the acceptance criteria have been satisfied for the two test periods.

The program also produces a

printout of all data gathered as well as a

record of its calculations.

In addition, the data is, stored on hard or floppy computer disks for future reference.

The program can recover from a power failure or any other'ccidental 'interruptions of the program's execution by reloading the old data and restarting the data sampling routine at the proper location.

Lastly, ~ should one of the RTDs fail during the test, the program will detect the problem and the user can remove that sensor from further calculations.

When the test is completed, the program has the ability to recalculate all values for the test, suppressing any failed RTDs or a cell from the entire series of calculations in order to verify the results of the test.

lp P'

.The LEAKER program is written in a high level language

'(BASIC) and is designed for use on a micro-computer with direct data input from the data acquisition system.

The program has been verified accurate and validated in accordance the Quadrex'.s QA Program.

Brief descriptions of program use, formulae used for leakage rate computations, and program logic are provided in the following paragraphs.

2. 0 EXPLANATION OF PROGRAM The Quadrex LEAKER computer program is written,. for use by experienced ILRT personnel, to determine containment integrated leakage rates based on the Absolute Method described in ANSI/ANS 56.8-1981 and BN-TOP-l.

Information loaded into the program prior to or at the start of the test:

a.

'o Number of containment atmosphere drybulb temperature

sensors, dew point temperature (water vapor pressure) sensors and pressure gages to be used in leakage rate computations for the specific test.

Volume fractions assigned to each of the above sensors.

Calibration data for above sensors.

d.

Test title.

e..

Test pressure.

Maximum available leakage rate at test pressure.

Data recorded from the data acquisition system during the

test, and used to compute leakage rates:

a.

Time and date.

b.

Containment atmosphere drybulb temperatures.

c.

Containment atmosphere pressure(s).

d.

Containment atmosphere dew point temperatures.

e.

~ Containment free air volume.

If the drybulb or dew point temperature sensors fail during the

test, the data from the sensor(s) are not used.

The volume fractions for the remaining sensors are recomputed and reloaded into the program for use in ensuing leakage rate computations.

t

%l

-4

3. 0 PROGRAM LOGIC AND OPERATION

SUMMARY

The Quadrex LEAKER computer program logic flow is controlled by a

set of user options after executive questions.

The user options and a 'brief 'escription of their associated function are presented below:

3.1 System diagnostics, self tests and executive questions are perform initially for setup.

3;2 The various keys listed and described below:

START This key initiates or suspends the system in gathering data and displaying it on the main screen.

MAINT This key redefines weighting factor

values, changes the logging of data to a file, deletes a record in the file, displays the individual record's key environmental
contents, and changes the individual record's content.

UPDATE If the records are changed or deleted, this key redefines the entire file so that the calculations can be made without interfering with the computer's file handling capabilities.

REPORTS This key performs the calculations of program and prints the results.

PLOTS This function implements the graphics portion of the program.

Any channel or leakage rate can be plotted.

MANUAL ON This key de-activates the automatic data entry and allows manual entry.

END JOB This key will properly terminate the program.

4.0 COMPUTER REPORTS AND PLOTS 4.1 Reports REPORTS does the analysis of the data accumulated by the ILRT system and then prints out a report of the results.

The types of analysis performed are:

mass point, total time, environmental

averages, mass
loss, temperature stabilization, and data rejection.

All results from the

0 analysis are printed off'a thermal printer.

The subprogram REPORTS requires the user to select a valid time window or record window as listed below as a prerequisite for doing analysis.

MASS POINT The mass point analysis is based on the ANSI/ANS 56.8-1981 Standard acceptance criteria and calculations.

TOTAL TIME The total time analysis is based on the Bechtel Topical Report (BN-TOP-1) and its respective acceptance criteria and calculations.

ENVIRONMENT The environment analysis is based on the Bechtel Topical Report (BN-TOP-1) and the ANSI/ANS 56.8-1981 Standard with 'heir respective acceptance criteria and calculations.

MASS LOSS The mass loss analysis is based on the ANSI/ANS 56.8-1981 Standard acceptance criteria and calculations.

TEMP STAB The temperature stabilization analysis is based on the Bechtel Topical Report (BN-TOP-1) and the ANSI/ANS 56.8-1981 Standard with their respective acceptance criteria and calculations.

DATA REJECTION The data rejection analysis is based on the Bechtel Topical Report (BN-TOP-1) and the ANSI/ANS 56.8-1981

Standard, Appendix D, with their respective acceptance criteria and calculations.

4.2 Plots The Graphics subprogram allows the user to plot the mass point analysis, total time analysis, and displayed channels.

Further, plots can" be made in a batch mode by instrument

.type to a printer or a plotter.

PLOTS performs autoranging on the data being plotted for axes values.

PLOTS requires the user to select any 'valid time window or record window as a prerequisite for doing plotting.

t

APPENDIX B

STABILIZATION DATA & CALCULATIONS

I 0

a~

w+++++++++++++++++++++++++

ENVIROHt'1ENT LISTING

++~+++~++++++++++++++++++++

k JUL I Rl'1 DATE - 65 REC DRTE T I l'1E NUM TIME 2388 TEMP YFIPOR CONTFI I Ht1EHT PRESSURE PRESSURE RELFIT I VE RIR PS IFI HUt'1 I D I TY DENS I TV VFIR I RNCE 118 119 128 121 122 123 124 125 126 127 128 129 138 131 132 133 134 135 136 13?

138 139 148 144 145 146 65 2388 65 2315 65 2338 65 2345 66 8888 66 8815 66 8838 66 884S 66 81,88 66 8115 66 8138 66 8145 66 8288 66 8215 66 8238 66 8245 66 8388 66 8315 66 8338 66 G.l45 66 8488 66 841S 66 8~38 66 8445 66 8:i88 66 8.'i15 66 8:i38 66 8'i45 66 8688 511. 112 518. 981 518. 887 518.795 S18. 728 518. 643 518. 681 518. 571 518. 537 518. 497 518.476 518.431 518.398 518.366 518 '26 518 '87 518.266 518 '67 518.224 518.222 518.189 518.151 518.134 518.898 518 '28 518.888 518.874 518.853 518 '29

.8932

.8911

.8917

.8913

.8934

.8918

.8918

.8898

.8987

.8981

.8897

.8988

~ 8898

.8896

~ 8898

.8882

.8898

.8989

.8897

~ 8892

.8873

.8878

.8873

.8877

~ 8889

.8869

.8879

.8867

.8873 51.5483 51.5378 51.5251 51.5899 51.5128 51 '928 51 '918 51.4877 5'838 51.4779 51.4739 51.4675 51.4657 51.4618 51.4561 51.4547 51.4491 51.4438 51.4474 51 F 4488 51 '483 51.4353 51.4218 51.4221 51.4265 51 F 4228 51.4288 51.4196 51.4172

49. 78
48. 79
49. 28
49. 25
58. 55
49. 82
49. 47 48.

87'9.42

49. 18 48

~ 95 49

~ 66 49

~ 21

49. 18
48. 85
48. 45
49. 44 58'4
49. 46
49. 14
48. 19 48

~ 54 48

~ 27 48

~ 68

49. 18
48. 17
48. 71
48. 12
48. 49

~ 2722

~ 2722

~ 2722

~ 2722

. 2722

~ 2722

. 2722

~ 2722

~ 2722

~ 2722

.2722

.2722

.2722

.2722

.2722

.2722

.2722

.2721

.2722

.2721

.2721

.2721

.2721

.2721

.2721

~ 2721

.2721

.2721

.2721 8 ~ 88888

.81132

~ 81184

~ 81522

~ 88285

.81995

~ 88188

~ 88329

.88476

.88585

.88481

.88636

.88188

~ 88472

-.88492

-.88145

.88555

.88536

.88369

.88663

.88852

.88588

.81348

.88833

.88434

-.88366

.881'98

.88122

.88243

4 Cy r,

W4 I

El

++++++++++e:++++++++++w+

TEMPERRTURE STRB I LI ZRT ION JUL'I RN DFITE 65 T I ME - 2388 TIME TEMP (DELTR)

DIFF (HOURS)

TEMP INCR TEMP BN-TOP-1 FIVG FIVG (1

HR)

<2 HR)

BN-TOP-1 R FIT E

<2 HR)

TEMP RVG.

(4 HR)

RNSI CRIT.

8. 88

~ 25

.SG

~ 75 1

~ 68 1

~ 25 1

~ 58

1. 75
2. 88
2. 25 2 ~ 58 2'5

'3. 88

'3 ~ 25

3. 58 3 ~ 75 4 ~ 88
4. 25 4 ~ 58 4 ~ 75 5 ~ 88 5 ~ 25 5 ~ 58 S. 75 6 ~ 88"
6. 25
6. 58 6 ~ 75 7 ~

88'ill.112

ill981
ill887 518.795 518.728 518.643
i18.681 518.571 518.537
ill497
i18.476

.'ii8.431

'i18 ~ 398

'i 1 G. 366 518. 326

i 18. 387

'i18 ~ 266

i18. 267
i18. 224 518. 222 518. 189
i18. 151

'i 18. 134

-::i 1 G. 898

'i 1 G. 128

ii8. 888
i 18

~ 874

i 1 6 ~ 953
i 1 8 ~ 829
8. 888

-. 131

-. 894

-. 892

, -.675

.878

~ 841

.631

.834

~ 848

~ 821

~ 845

~ 648

.824

- ~ 841

.618

.842

~ 881

.843

.892

.833

.839

.817

~ 836

. 822

.848

- ~ 986

.821

.024

8. 888
8. 688 8 ~ 888 8 ~ 888 518 916 518 '12 518.?44 518.683 518.629 518.578 518.539 518.581 518.464 516.431 518.481 518.369 518.328 518.316 516.275 518.265 518 '28 518.289 518 '79 518.168 518.155 518.115 518.184 518.875 518.874 G. 888
8. 888
8. 888 8 ~ 888 8 ~ 888
8. 888
8. 888
8. 888

-. 288

.242

.286

-. 182

- ~ 165

-. 138

-. 138

.132

..136

- ~ 115

.126

.184

.188

.188

.896

.185

.873

.893

-. 875

-. 885

.988 6 ~ 888

8. 888 G. 868
8. 888
8. 888 G. 888 G. 888
8. 888

~ 288

. 242

. 286

.182

~ 165

.138

~ 138

.132

.136

.115

.126

~ 184

.188

~ 188

~ 896

~ 185

. 873

. 893

~ 875

. 885

. 989

8. 886 8'88

~ 8. 888 G. 888

8. 868
8. 888
8. 888 8 ~ 888
8. 888
8. 888
8. 888
8. 688 8.688 8

~ 888 8.688 8.888

-.212

-.179

-.'166

.143

.133

-. 123

-. 117

~ 118

.184

.184

.181

- ~ 894

.698

8. 888 8 ~ 888 9

~ 608 8 ~ 886 9 ~ 888

8. 888 6 ~ 888
8. 888
8. 888 8 ~ 888 G. 868 G. 888 8.888

~

8.888 8 ~ 888 8.888

.887

.879

.864

.858

.857

.887

.826

.886

.835

.834

.841

.849

.981

++++++++++s'+

t1RSS LOSS CFILCULRTION RESULTS JUL IRI'1 DFITE 65 TINE - 2388

REC, T Il'IE CONT NUN (DELTR R I R HOURS)

NRSS NFISS LOSS INCR NRSS LOSS (1

HR) t'1FISS LOSS (x 24) 118 119 128 121 122 123 124 125 126 127 128 129 138 131 132 133 134 135 136 137 138 142 143 144 145 146 8e 88

%5

~ 58

~5 1

~ 88

i. 25
1. 'i8 1

~ r'5

2. 88
2. 25 2 ~.'i8
2. r'5
3. 88 3 ~ c 5 3.'.i8 3.75 88
4. 25 4.:i8
4. 75
5. 88 5..5
5. 58
5. 75 6 ~ 88
6. 25 6 58
6. r'5
7. 88 264857.2 264867.1 264854.8 264824 '

264873.5 264811.4 264827.6 264826.6 264819 '

264814.6 264884.7 263995.6 264887.1 263995.4 263991.1 263993.2 263986.3 263958.3 263999 '

263966 '

263988 '

263974 '

263914.5 263934.7 263945.6 263947.4 263948.S 263945.8 263945.8 8.8 9.9

-12.3

-38.4 49 F 1

-62.2 16

~ 2

-1

~ 8

-6 ~ 9

-5 ~ 1

-9. 9

-9.

1

11. 5

-11. 7

-4 ~ 2 2.1

-6 ~ 9

-28

~ 8 48

~ 9

-32

~ 9 14

~ 2

-5. 6

-68. 4 28

~ 2 18

~ 9 1.8

-6. 9 4 ~ 6 8.8 8 ~ 8 8.8 8 ~ 8 8.8

-16. 3 55 ~ 7 27 ~ 2 2 ~ 2

53. 8

-3 ~ 2 22 ~ 9

31. 8 12 ~ 6
19. 2 13 ~ 5 2 ~ 3
28. 8 37.

1

-8. 8

27. 8 5.8

-16. 6

84. 7
31. 6
34. 9 27

~ 5

-26

~ 8

-18

~ 4

~ 5 8 ~ 8 8.8 8 ~ 8 8.8

-391. 8 1337.4 652.3

-52 '

1292.3

-77.8 558.4 744.4 382. 8 461. 4 324. 6

55. 8 499. 3 898',

-193 '

647.1 139.7

-398.8 2833.2 758.9 837.8 659.1

-623.8

-248.7 12.9

RTD RVG 65: 2388 TO BB: 8688 DELTR TIME (IN HOVRS)

CONT PRESSURE 65:P388 TO 66:8688 2

DELTR TIME (IN HOURS)

DEN CELL RVG.

65:2388 TO 66:8688 DELTR TIME (IN HOURS)

0

MP MERSURED 65:2388 TO 66:8688 4

DELTR TIME (IN HOURS)

APPENDIX C

TYPE A

SUMMARY

DATA By Sensor Enviroment Mass Loss

I g

6 4'1 sp" h

RECORD NUtlBER 146 PRESSURES RTD'S 81

46. 1535 85
46. 9895 89
46. 8966 13 46

~ 2464 17 52

~ 8419 21

52. 7498 IHACT 8 ~ 8888 INACT
8. 8888 IHACT
8. 8888 INACT G. 8888 I NFICT 8.8888 INACT 6.8888 INRCT 8.8888 RVG

'6.3587

52. 6678
58. 3412 RVG 82 86 18 14 18 22 INRCT I NFIC7 INRCT INRCT IHRCT IHRCT INACT
46. 4786
46. 7188
48. 5686 45

~ 7828

58. 6123 87 11 15 19 53 '788,23
8. 8888 8 ~ 8886
8. 8868
8. 8888
8. 8898
8. 8888 Go 8888 I HFICT I NFICT INRCT INDICT I NFICT INFICT DFITE 66 T I f'1E 689
51. 5845 94 88 12 16 28 24, INRCT I NFICT IHRCT IHRCT INRCT I HFICT 48.7888 46.8966 46.7188 55 '291 53.2135 53.4458 8.8688 8.8688 8.6888 9.6888 9.8888 8.8888 48.8577 46.9438 46.2464 52.7954 53 '664 52.8522 8.8888 8 ~ 8868 8 ~ 8888 6 ~ 8888 8 ~ 9888 8.8888 DEW CELLS DC Gi 24.8888 DC 85 32.7116 INACT 6.8888

" INACT

8. 6888 RVG
31. 2223 RNBIEHT PRESS VAPOR PRESSURE

'RY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14.4638

.8873 51 '172 8.8898

34. 1146
34. 3688
8. 8888 8.9698 DC 83 I NFICT INRCT INRCT 33

~ 5572 DC 64 8 ~ 8888 I NRCT

8. 8688 INRCT
8. 8888 25

~ 3384 8.8686 8.8868 RECORD NUt'1EtER 147 DATE 66 T I tlE 615 PRESSURES S2. 6678 58 '372 RVG 51.5825 RTD'S 81 85 89 13 17 21 INACT INACT INRCT INACT INACT INACT I NACT.

RVG 46.1535 46.9438 46.8966 46 '464 52.8883 52.7825 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 58.3471 62 66 18 14 18 22 I HFICT I NRCT IHRCT IHRCT IHRCT INRCT INRCT 46.4322 46.7188 48.5222 45.7828 58.6123 53.7245 8 ~ 9989 8.8868 Ge8888 8.8988 8.8888 8.8868 8.8888 83 87 11 15 19 23 I HFICT I HFICT, INRCT INRCT INRCT INRCT

48. 6615
46. 8582
46. 7573 5S. 2574 53

~ 2135 53 F 4458 9.6888 8.8688 9.8899 8.8888

8. 8886
8. 6888 84 88 12 16 28 INRCT IHRCT INRCT I NFICT INRCT IHRCT
48. 8577 46.8562 46.2464 52 '419 53.3664 52 '522 8.8688 8 ~ 8886 8 ~ 8886 9.6888 8.6888 8.8888

DEW CELLS DC 81 24 '441 DC 85 38.6269 IHACT 8.8888 INRCT 8.8888 RVG 38.6858 RtlB IEHT PRESS VRPOR PRESSURE DRY PRESSLIRE FLOWS DC 82 DC 86 I NFICT INRCT

14. 4838

.8857 51.4168 8.8688 34.1146 34.4835 8.6888 8.8888 DC 83 I NFICT INRCT INRCT 33

~ 5572 DC 84

8. 8888 INRCT 8 ~ 8888 I NRCT 8.8888 24.8886 9.9888 8.8886

a

%+/II 4

K fp'C

RECORD NUMBER 148 DFITE 66 T I I'IE - 638 PRESSURES RTD'S 52 '641 58

~ 3238 RYG 51.4935 81 85 89 13 17 21 INRCT IHRCT INRCT IHRCT INACT IHRCT IHRCT

'RVG 46..1535 46.9438 46.8837 46 '464 52.7954 52.6561 9.8888 8.8888 9.8898 8.8888 8.8888 8.8888 6.8888 58.3278 82 86 18 14 18 22 I I'I FIG T INACT INRCT I NFICT I NFICT INRCT INRCT 46, 4322

46. 6644 48.4757 45.7828 58.6123 53.6316 9". 8888 8.8888 8.8888 9.8888 8.8888 9.6888 Go8888 63 87 11 15 19 23 IHRCT IHRCT INRCT INRCT INRCT INRCT 48

~ 8888

46. 9438 46.6644 55 F 4897 53.1671 53.3529 8.6888 8.8888 8 ~ 8888 9.6888 8 ~ 8888 8.9888 84 88 12 16 28 24 IHRCT INFICT INRCT INRCT INRCT I NFICT 48 '577 46 '837 46.2928 52.7498 53.3864 52.8987 9 ~ 8888 8 ~ 8886 8.8888 8.8888.

8.8866 8.8888 DEW CELLS DC Gi 24.6556 DC 85 34 '146 INRCT 8 ~ 8888 INRCT

6. 8888 RVG
31. 3793 RMBI El'lT PRESS VFIPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 96 INRCT I NFICT
14. 4838

.8878 51.4857 8.8888

34. 1146 34

~ 8529

8. 6888
8. 8888 DC 83 I NFICT I NFICT I NRCT 33

~ 6584 DC 84 8 ~ 8888 I NFICT

8. 8888 I NFICT
8. 8888
24. 4746 8 ~ 8888 8 ~ 8888 RECORD NUMBER -

149 DFITE 66 TIME - 645 PRESSURES 52.6592 58

~ 3278 FIYG 51.4931 RTD'S Gi GS 89 13 17 21

,INRCT IHRCT INRCT INRCT INACT IHACT INRCT RVG 46.

46.

. 46.

46.

52

~

52

~

6 ~

8 ~

8.

8 ~

Ge 8.

8.

58.

2464 7954 6561 8888 8869 8888 8888 8888 8888 8888 3176 14 18 22 INRCT I HFICT IHACT INRCT INRCT INRCT INRCT 1535 82 9438 86 858Z'18 46

~

46

~

48.

45.

58.

53.

G.

9 ~

8.

6 ~

8.

G.

8 ~

4322 6644 3828 7828 5658 6316 6888 8888 8888 8888 8988 8868 8888 83 67 11 15 19 23 INRCT I HFICT I NFICT INRCT I NFICT I NFICT 48.7544 46.8966 46.7188 55.5362 53.1671 53.3964 8

~ 8888 8

~ 6888 8.8888 8.8888 8.8688 8.6888 84 88 12 16 29 24 INRCT I NFICT I NFICT I HFICT IHRCT I NFICT 48.8577 46 '573 46 '464 52 '498 53.2688 52.8987 8.6966 8.8986 8.6886 8.8886 8.8868 8.8666 DEW CELLS DC Gi 24.8888 DC 85 38.9848 INRCT '.8986 INRCT 9.8888 FIVG

38. 7939 RMBIEI'IT PRESS VFIPOR PRESSURE DRY PRESSURE FLOWS DC 62 DC 86 INRCT I HFICT
14. 4836

. 8868 51

~ 4871 8 ~ 8888 33

~ 9692 34

~ 5754

8. 8888
8. 8888 DC 83 IHFICT INRCT I NFICT,
33. 5572 DC 84
8. 8888 INRCT 8 ~ 6888 I HRCT 8 ~ 8888 25

~ 8878

8. 8886 8 ~ 8888

'l Wg,'

RECORD NUMBER 158 DRTE 66 TIME 788 PRESSURES 52.6567

58. 3291 RVG 51.4929 RTD'S 81 85 89 13 17 21 INACT I NFICT INACT IHRCT INRCT INRCT I HFICT FIVG
46. 1871 46.8966 46.8966 46.1999 52.7954 52.6896 8 ~ 8888 8.8888 8 ~ 8988 8 ~ 8888 8.8888 8.8888 8.8888 58.2877 92 86 18 14 18 22 INRCT IHRCT INRCT INRCT INRCT I NFICT INRCT
46. 3857
46. 6179
48. 5222 45.7828 58.5194 53.5851 8 ~ 8888 8, 8888 8 ~ 8888 8 ~ 8888
8. 8888
8. 8888 8 ~ 8888 83 87ii 15 19 23 INRCT INRCT INRCT I NFICT IHRCT I HFICT
48. 6615
46. 8837
46. 6644
55. 4897
53. 1671 53.3993 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 84 88 12 16 28 24 IHRCT IHRCT INRCT INRCT I NFICT INFICT
48. 8113
46. 8837 46.1535 52.7825 53.2135 51.9593 8.8888 8.8888 8.8888 8.9888 8 ~ 8888 8.9888 DEW CELLS DC Gi 23.5974 DC 85 33.8261 INACT G. 8888 INACT
8. 8888 RVG
38. 9963 RtlB I ENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT I HFICT
14. 4838

. 8866

51. 4862
8. 8888
33. 8984 34.2993 8.8888 8.8888 DC 83 INRCT IHRCT I NFICT 33.2453 DC 84 8.8888 INRCT 8.8888 INRCT 8.8888
25. 8168 G. 8888 8.8888 RECORD NUMBER 151 DATE 66 T I ME 715 PRESSURES 52.6555

,58.3362 RVG

51

~ 4958 RTD'S Gi 85 89 13 17 21 IHACT IHACT INACT INACT INACT INRCT I NFICT RVG

',46. 8686

46. 8966
46. 8937 46

~ 1535

52. 7498
52. 6896 G. 8888 G. 8888 G. 8888
8. 8888 8 ~ 8888
8. 8888 G. 8888
58. 2559 82 86 18 14 18 22 IHRCT INRCT I HFICT INRCT I HFICT IHRCT INRCT
46. 3857
46. 6179
48. 3828
45. 6891 58.5658 53 '851 9.8888 8.9888 8.8988 8.8888 8.8888 8.8888 8.8888 83 87 11 15 19 23 IHRCT INRCT INRCT I HFICT
INRCT, INRCT 48 '151 46.8837 46.6179 55.4433 53.1286 53.3864 8 ~ 8889 8.8889 8.8888 8.8888 8.8888 8.8889 84 88 12 16 28 24 I HFICT IHRCT INRCT INRCT I NFICT INRCT 47

~ 9648

46. 6644 46

~ 1999 52

~ 6561

53. 2135
52. 8858 8.8988 8.8888 8.8888 8.8888 8.8898 8.9889 DEW CELLS DC Gi 24 '194 DC 85 31.2437 INACT 8.8888 INACT 8.8888

'RVG

38. 5261 RthB I EHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14 F 4838

~ 8852 51 F 4186 8.8888

33. 8365
33. 8365 8 ~ 8888 8.8889 DC 83 IHRCT INRCT IHRCT
33. 3782 DC 84"
8. 8888 INRCT G. 8888 I NFICT 8 ~ 8888 24

~ 1837 8 ~ 8898 8.8888

P'l Fj t +

I,

+1

RECORD HUl'1BER 152 DRTE - 66 T INE - 738 PRESSURES RTD'S Gi

'85 89 13 17 21 INACT IHACT INRCT INRCT INRCT INACT INRCT RVG

46. 8686 46.8966 46.8837 46.1871 52.7954 52.6561 9.8888 8.8889 8.8888 6 ~ 6888 8 ~ 8888 8.8888 8.8888 58.2527 52.6518 82 86 18 14 18 22 I NFICT INRCT I HFICT IHRCT INRCT INRCT INRCT 46.3393 46.6179 48.4757 45.6891 58.5194 53.5387 9.8888
8. 888.8 8.8888 6 ~ 8888 8.8888 8.8988 8.8688 83 87 11 15 19 23 I HFICT IHRCT IHRCT I HFICT I NFICT IHRCT 58.3381

'IVG 51 F 4989 84 88 12 16 28 24 IHRCT I HFICT I NFICT I HFICT I HFICT IHRCT 48 '151 46.8637 46.6644 55.4433 53 '741 53 '864 8 ~ 8888 6.8888 8.8688 8.8888 8.8888 8.8898 48 '113 46 '188 46 '999 52 '561 53.2135 52 '858 8 ~ 8888 8 ~ 8866 8 ~ 8866 8.8988 8.8888 8 ~ 9898 DEW CELLS DC 81 24.4746 DC 85 32.7746 INACT 6 ~ 8888 INRCT 8.8888 FIVG

31. 9176 Rl'1B I El'lT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHRCT IHRCT 14.4838

.8867 51.4842 8.8868 33

~ 7745 33.6584 8.8888 6.8888 DC 83 IHRCT I HFICT IHRCT

33. 3678 DC 84 8 ~ 8888 I NRCT 8.8888 IHRCT 8.8888 25

~ 4811 8.8888 8.8888 RECORD NUNBER 153 DATE 66 TIl'1E 745 PRESSURES 52.6586 58.3228 RVG 51.4863

.RTD'S 81 65 89 13 17 21 IHACT IHACT INACT IHACT INRCT I NFICT IHRCT RVG

46. 8686
46. 8582
46. 8637
46. 1871
52. 7954
52. 6896 G. 8999 8 ~ 8888
8. 8688 8 ~ 8888 G. 8888 Go 8888 Ge 8888
58. 2372 82 86 18 14 18 22 IHRCT INRCT INRCT I NFICT INFICT INRCT INRCT 46.3393 46.5715 48.4293 45 '426 58.5194 53.5387 8.8888 8 ~ 8988 8 ~ 8888 8.8888 8.8888 8.8888 8.8888 83 87 11 15 19 23 I NFICT I NFICT I HFICT I HFICT INRCT INRCT 48

~ 5222 46

~ 7573 46

~ 6179

55. 3594 53.1286 53.3529 6 ~ 8888 6.8888 6.6888 8.6888 8.8889 6.8888 84 98 12 16 26 24 IHRCT IHRCT I NFICT I NRCT IHRCT I NRCT 4?.9648 46.7168 46.1535 52 '561 53 '135 51.9593 8.8686 8.8888 8.8888 8.8888 9.8888 9.8888

'DEW CELLS DC 81 24.1187 DC 85 31.8543 IHACT

8. 8888 INRCT
8. 8888 RVG
38. 8147 RI1B I EHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I NFICT INRCT
14. 4838

. 8861

~

51.4882 8.8888

33. 7125 33.8365 8.8888 9.8888 DC 83 INRCT INRCT INRCT
33. 3782 DC 84 8.8888 INRCT 9.6888 INRCT 8 ~ 8888 25

~ 6235 8.8889 8.8888

4-Z t'I'

~

'r

~tf h

RECORD NUMBER 154 DRTE 66 'IME 888 PRESSURES

52. 6456 58

~ 3189 RVG

51. 4823 RTD'S 81 85 89 13 17 21 INACT INRCT INACT IHRCT INACT INRCT INRCT FIVG 46 8686 46.8582 46.7573 46.1871 52.6561 52.5167 8.8888 8.8888 8.8888 8.8888 8.8888 6.8888 8.8888 58.2828 82 86 18 14 18 22 INRCT INRCT INRCT INRCT IHRCT IHRCT INRCT 46

~ 3393

46. 5715 48

~ 3828

45. 6891
58. 4729 53.4922 8 ~ 8888 Gi8888 8.6666 8.8888 8.8888 6.8886 8.8888 63 87 11 15 19 23 I HFICT IHRCT INRCT IHRCT IHRCT IHRCT
48. 6615
46. 8582 46

~ 5251

55. 3968 53.8277 53.2688
8. 8888 8.8888
8. 8688
8. 8886 8 ~ 8888 8 ~ 8888 84 88 12 16 28 24 I HFICT I HFICT INRCT INRCT INRCT I NFICT 47.9184 46.6644 46.1871 52.6896 53.1671 51.9S93
8. 8888
6. 6666 6.8888 G. 6666
8. 6666 G. 6666 DEN CELLS DC 81 24.1187 DC 85 32.4985 IHACT 8.8888 INRCT

'Go8888 RVG 38

~ 6754 RMBIENT PRESS VAPOR PRESSURE DRY PRESSLIRE FLOWS DC 82 DC 86 I NFICT INRCT

14. 4838

~ 8857 51.'3966 8 ~ 8888 33.6193 33.3878 8.8888

8. 8888 DC 83 IHRCT IHFICT INRCT 32.9633 DC 84 8.8888 IHFICT 8.8888 IHFICT 8.8888
24. 9441 8 ~ 8888 8 ~ 8866 RECORD NUMBER 155 DATE 66 TIME 815 PRESSURES 52.6432
58. 3159 FIVG 51

~ 4795 RTD'S 81 85 89 13 17 21 INACT IHACT

'NACT INRCT I HFICT I NFICT I HFICT RVG 46, ~ 8686 46.8582 46.5715 46.1535 52.6896 52.5167 8.8888 6.8888 8.8888 8.8888 8 ~ 8888 8.8888 8..8888 S6.1774 82 86 16 14 18 22 IHRCT IHRCT I HFICT I NFICT I NFICT IHRCT INRCT

46. 3393
46. 5715
48. 2899 45

~ 6891

58. 4729
53. 4458 8 ~ 8688 8.8888 8.8888 6.8688 G.UGGG 8.8888 8.8888 83 87 11 15 19 23 I NFICT INRCT IHRCT INRCT INRCT INRCT 48.7544 84 46.7573 88 46.5715 12 55.1645 16 53 '277 28 53.1671 24 6 ~ 8888 IHFICT 8 ~ 8868 IHRCT 8.8888 IHRCT 8.8888 IHRCT.

8.8888 INRCT 6.8886 IHFICT

47. 9184 46

~ 5715 46.1871

'2.5632 53.1671 51.9593 6.8668 6.6666 6.6666 6.6666 8.8888 6.6666 DEW CELLS DC Gi 24.2565 DC 85 31.6621 INACT

8. 8888 IHACT
8. 8888 RVG 38 ~ 4781 Rt'IBI ENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 66 INRCT IHRCT 14.4838

.8851 51.3944 8.8888 33 '584 34 '529 8.8888 8.8888 DC 83 IHFICT IHFICT I NFICT

33. 8888 DC 84 8.8888 IHRCT 8.8888 INRCT 8.8888
23. 8547 G. 8888 6.6666

J(

T'

RECORD NUMBER 156 DRTE 66 TINE 838 PRESSURES

52. 6487
56. 3139 FIVG 51.4773 RTD'S 81 85 89 13 17 21

'INACT INACT INRCT IHACT INRCT INACT INRCT RVG 46o8686 46.8837 46.,7188 46.1871 52.6896 52.5167 8.8888 8.8868 Go8888 8.8888 8.8888 8.8888 G. 8888 56.1783 82 86 18 14 18 22 IHRCT I NFICT I HFICT IHRCT IHFICT INRCT INRCT

46. 3393 46.5251 48.3364 45.6891 58.4729 53.4458 8.8888 8". 8888
8. 8888
8. 8888
8. 8888
6. 8888
8. 8888 83 87 11 15 19 23 INRCT INRCT INRCT INRCT I NFICT INRCT
48. 6615
46. 8837 46.5251 55.1645 53.8277 53 '135 8 ~ 8888 8.8888 8 ~ 8888 8.8888 8.8888 8.8888 84 88 12 16 28 24 IHRCT INRCT INRCT IHRCT INRCT IHRCT 47 '719 46.6644 46.8686 52.5632 53.1286 51.9129 6.8888 6.8888 8.8888 8.8868 8.8888 8.8888 DEW CELLS DC 81 24.8811 DC 85 32.1414 INACT 8 ~ 8888 INACT 8 ~ 8888 RYG
38. 6184 RI'IBI E}'lT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHRCT INRCT 14.4838

.8855 51.3918 8.8888 33.5572 33.8984 6.8888 8.8888 DC 83 I NFICT INRCT INRCT 33.1828 DC 84 8.8888 IHRCT 8 ~ 8888 INFICT 8 ~ 8888

24. 2565 8.8888 8.8888 RECORD NUNBER 157 DRTE - 66 TINE 845 PRESSURES
52. 6487
58. 3128 FIVG 51.4768 RTD'S Gi 85 89 13 17 21 INACT INACT INACT INRCT INACT INRCT I NF}CT RVG
46. 6142
46. 8837
46. 7188
46. 8686
52. 6561
52. 5167 G. 8888 G. 8888 G. 8888 G. 8888
8. 8888
8. 8888 8'.8888 58.1698 82 86 18 14 18 22 INRCT INRCT IHRCT IHFICT I.HAG T IHRCT INRCT 46.2928 46 '251 48.3828 45.5962 58.4729 53.4922 8.8888 11 15 19 23

'NRCT I NFICT G. 8888 8.8888 I HFICT 8.8888 IHRCT 8.8888'INRCT 8.8888 INRCT 48.4293.84 46.7188 88 46.5251 12 55.3839 16 53.62?7 28 53.2688 24 8.8606 INRCT 8.6888 IHRCT 8.6888 INRCT 8.8888 INRCT 8.8888 INRCT 8.8888 INRCT 47

~ 8719 46.6644 46.8686 52 '896 53.1286 51 '129 8.6688 8 ~ 8868 8 ~ 8888 8.8888 8 ~ 8888 8 ~ 8888 DEW CELLS DC Gi 23.9279 DC 85 32 '985 INRCT 8 ~ 8888 IHRCT 8.8888 RVG

38. 7734 Rf'IBIEHT PRESS YAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I NFICT INRCT 33.5572 DC 83 14.4838' 8868 51e3988 8.8888 33.8984 IHFICT 8.0888 IHFICT 8.8868 INRCT 33

~ 8261 DC 84 8.8886 IHRCT 8 ~ 8888 INRCT 8.8888

25. 8878
8. 8888 8.8888

4 p

it~

RECORD NUMBER 158 DFITE 66 TIME - 988 PPESSURES RTD'S 81 85 8913.

17 21 INRCT INRCT INRCT IHRCT I NFICT INRCT INFICT RVG 45 ~ 9677

46. 8837
46. 7188
46. 8686
52. 7498
52. 5167 8 F 8888 8 '888 8.8888 8 ~ 8888 8 ~ 8888 8 ~ 8888 8 F 8888 58 '638 52

~ 6382 82 86 18 14 18 22 INRCT IHRCT I HFICT INRCT I HFICT I NFICT INRCT

46. 2928
46. 5251
48. 3828 45.5962 58.4265 53.4922 8 F 8888
8. 8888 8.8888 8 '888 8.8888 8.8888 8.8888 83 87 11 15 19 23 INRCT IHRCT IHRCT INRCT INRCT IHRCT
58. 3128 RVG
51. 4755 84 88 12 16 28 24 I NFICT I NFICT IHRCT INRCT I NFlCT INRCT 48.5222 46.6644 46.4786 55.1645 53 '277 53.2135 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888
47. 8719
46. 6179 46.8686 52.6896
53. 1286 51.9129 8.8888 8.8888 8.8888 8 F 8888 8.8888.

8.8888 DEW CELLS DC 81 23 '547 DC 85 31.5988 IHRCT

8. 8888 INRCT 8.8888 RVG 38>> 2359 RMB I EHT PF! ESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14.4838

~ 8844 51>>3911 8.8888

33. 3782 DC 83
33. 5572 I NFICT 8.8888 IHF}CT 8.8888 INRCT
32. 7746 DC 84
8. 8888 IHRCT 8 ~ 8888 IHFICT
8. 8888
23. 8547 8.8888 8.8888 RECORD NUMBER 159 DRTE 66 TIME 915 PRESSURES 52.6358 58.3898 RVG 51.4728 RTD'S 81 85 89 13 17 21 IHRCT INRCT INRCT INRCT INRCT INRCT INRCT RVG 45.9677 46 '573 46.7188 46.8142.

52.7825 52 '167

8. 8888
8. 8888
8. 8888 G. 8888 G. 8888 8.8888 8.8888 58.1443 82 86 18 14 18 22 INRCT INRCT INRCT INRCT INRCT IHRCT IHRCT
46. 2464 46.4786 48.3364 45.5962 58 '265 53.4458 8.8888 8.8888 83 87 11 15 19 23 IHRCT IHFICT 8.8888 8.8888 INRCT 8.8888, IHRCT 8.8888 INRCT 8.8888 INRCT 48

~ 6151 84 46.7188 88 46.4322 12 55 '181 16 53.8277 28 53.2135 24 8.8888 IHRCT 8.8888 INRCT 8.8888 IHRCT 8.8888 INFICT 8 F 8888 INFICT 8.8888 INRCT 47

~ 8719 46 '644 46 '686 52 '632 53.1286 51.8664 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 DEW CELLS DC 81 24.1187 DC 85 31 '863 IHRCT 8 ~ 8888 IHRCT 8.8888 RI/G.

38.5979 AMBIENT PF!ESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT

14. 4838

. 8854

51. 3873 8 ~ 8888
33. 4326
33. 6193
8. 8888 8 ~ 8888 DC 83 INRCT IHRCT IHRCT 33.8261 DC 84 8.8888 INFICT 8.8888 INFICT 8>>8888
25. 8878
8. 8888 8 ~ 8888

~t gl 1

f I \\y

~9 (t,

F

RECORD HUNEKER 168 DRTE 66 T It'IE 938 PRESSURES 52.6321 58.3888 RVG 51 '784 RTD'S 81 85 89 13 17 21 INACT INRCT IHRCT INACT INRCT IHRCT ENACT RVG 46.8142 46; 7573 46'5715

46. 8686 52

~ 6561

52. 4783
8. 8888
8. 8888
8. 8888
8. 8888
8. 8888 8 ~ 8886
8. 8988 58

~ 1358 82 86 18 14 18'2 I NFICT INRCT I NFICT I HFICT I HFICT I HFICT I HFIC7 46.2928 46.5251

48. 2435
45. 5962
58. 4265 53

~ 4458 8 ~ 8698 8; 8688 8 ~ 8888 8.8888 8.8888'.8088 8.8888 63 8?

11, 15 19 23 I HFICT INRCT I HFICT INRCT INRCT' NFICT

48. 6151
46. 7573
46. 4322
55. 2574 52

~ 98.1 2

53. 1671 8

~ 6888 8 ~ 8888 8.8888 8.8888 6.8888 8.8988 84 88 12 16 28 24 INRCT I NFICT I I'IRCT INACT IHRCT I NFICT 47.8255 46.5251 46.8686 52.5167 53 '741 51.9129 8.8869 8

~ 8888 8.8888 8.8888 8.8886 8.8888 DEW CELLS DC 81 23.7813 DC 85 33.6193 INRCT 8.8888 IHRCT

8. 8888 RVG 38.7214 Rt1B I EHT PPESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I NFICT INRCT 14.4838

~ 8858 51.3846 8.8888 33

~ 3878

33. 5572 8.8888 8.8888 DC 83 I HFICT INRCT INRCT 32

~ 7116 DC 84 8 ~ 8888 I HRCT 6.8888 INRCT 8.8888 24.1187 8.8888 8 ~ 8888 RECORD NUNBER 161 DATE 66 TEIDE 945 PRESSURES

52. 6333 58.3888 RVG 51.4718 RTD'S Gi 85 89 13 1?

21 INACT IHACT IHRCT IHRCT INACT IHACT IHRCT RVG

'6.

8142 46

~ 7573 46

~ 4322

46. 1871
52. 5167 52.4783 9.8888 6.8888 8 ~ 8888 8.8888 8.8888 Ge8888 8.8888 58.1189 82 96 18 14 18 22 I NFICT INRCT IHRCT I NFICT INACT INRCT INRCT 46.2928 46 '786 48 '566 45 '498 58.4729 53.3993 8.8888 8.8888 8.8986 6.8880 6.8888 8.8868 8.8888 83 97 11 15 19 23 INRCT INRCT INRCT INRCT INRCT INRCT 48

~ 7888 84

46. 6644 68
46. 4322 12 55

~ 9252 16

52. 9812 28
53. 1286 24 8 ~ 6666 I NRCT
0. 8888 IHRCT
8. 8688 INRCT 8 ~ 0898 INFICT 8 ~ 8888 INRCT 6.8888 INRCT 47.8255 46.4786 46.1671 52.5167 53.1266 51.9129 8.8880 8.0888 8.8898 6.8889 9.8888 8 ~ 8888 DEW CELLS DC 81 24.4746 DC 85 32.3328 IHFICT 8.8888 INACT
8. 8888 RVG 38.5311 RtlB I EHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I NFICT IHRCT 14.4838

~ 8852 51.3858 8.8888

33. 1828 33

~ 6584 G. 8888 8 ~ 8888 DC 83 IHRCT IHRCT I NFICT

33. 8888 DC 84 8.8888 INRCT 8.8888 IHRCT 9.6888
23. 7878 8.8888 8 ~ 8888

<>8888 8.8888 8>>8888 49.8974 82 86 18 14 18 22 INFICT INRCT INRCT INRCT IHRCT IHRCT IHRCT 46.8666 46.2464 48.8113 45.3648 58.2487 53.1671 8.8888 8.8888 8 ~ 8888 8.8888 8 ~ 8888 8.8688 8.8888 83 87 11 15 19 23 IHRCT IHRCT I HFICT INRCT INRCT I NFICT

48. 3364 46.3857 46.1535 54 '323 52'.7498 52.8883 8.8688 8.8888 8.6888 8.6888 8.8888 8 ~ 8868 84 88 12 16 28 24 INRCT INRCT IHRCT IHRCT
INRCT, INRCT
47. 5933 46

~ 2928

45. 8284
52. 2845 S2.9348 51.6886 8.8888 8.8888 8.8868 8.8888 8.8888 8.8888 DEW CELLS DC Gi 23.3821 DC 85 36.1354 INACT 8.8888 INFICT

,= 8.8888 FIVG

29. 1914 FIMBIEHT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14.4838

~ 8815 51.3568 8.8888

32. 2686 32.3328 8.8888
8. 8888 DC 83 INRCT IHRCT IHRCT 31.8863 DC 84 8 ~ 8888 IHFICT

'.8888 IHFICT 8.8888

23. 8423
8. 8888
8. 8888

d

'k t

t ljI f,

RECORD NUNBER 184 DFITE 66 TINE 1538 PPESSURES K

RTD'S 81 85 89 13 17 21 IHRCT I NFICT INRCT IHRCT INRCT INRCT INRCT AVG 45.7828 46 '715 46 '857 45 '284 52.3774 52.2845 8 ~ 8888 6.8888 8.8889 8.8886 6.8888 8.8888 8.8888 49.9837 K

. 52.5951 82 86 18 14 18 22 I NFICT INRCT INRCT INRCT IHRCT INRCT I NFICT

46. 8142 46

~ 2464

48. 8113 45

~ 4184 58

~ 1943

53. 2688 8 ~ 6888
8. 8888.
6. 8888
8. 8688
8. 8888 G. 8888
8. 8888 83 87il 15 19 23 INRCT INRCT INRCT INRCT INRCT INRCT 58.2814 RVG
51. 4382 84 88 12 16 28 24 INRCT I NFICT I NFICT INRCT INRCT INRCT
48. 3828 46

~ 3393

46. 1999 54.7465 52.7954 52.9348 8.8888 8.8688 8 ~ 8888 8 ~ 8888 8 ~ 8898 8.8888
47. 6397
46. 3857
45. 7828
52. 3389 52.8883 51.6886 8.6688 8 ~ 6868 8 ~ 8888 8.8688 8 ~ 8888 8 ~ 8868 DEW CELLS DC Gi 22.9679 DC 85 31.8543 INACT
8. 8888 INRCT

'8. 8888 RVG

29. 5591 RI'IBI El'IT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT I HFICT 14.4838

.8825 51.3558 8.8888

32. 8148 32

~ 2858 8 ~ 6888 8.8888 DC 83 INRCT I HFICT INRCT

31. 6621 DC 84
8. 8888 INRCT 8.8888 INRCT 8.8888
23. 7878 8.8888 8.8888 RECORD NUI'1BER 185 DRTE - 66 T II'1E -

1545 PRESSURES 52.5951 58.2814 RYG

51. 4382 RTD'S 81 85 89 13'7 21 INRCT IHRCT IHRCT INRCT INRCT INRCT I NFICT FIYG
45. 7828
46. 5715 46.4786
45. 8748 52

~ 3774

52. 3389 62 86 18 18 22 8.8888 6.8888 6 ~ 8888 8.8888 49.9147 INRCT INRCT INACT INRCT 8.8888 INRCT 8.8888 IHRCT 8.8688 IHRCT 46

~ 9142 46 '464 48.8113 45 '648 58.1478 53 '688 8 ~ 8886 8 ~ 8668 8 ~ 8888 6.6988 6.8988 8.8888 8.8888 93 87 11 15 19 23 I HFICT I NFICT INRCT INRCT INRCT INFICT 48.2435 84

. 46.2928 88 46.1999 12 54.9787 16 52 '954 28 52.9812 24 9 ~ 6888 INRCT ~

8.8888 INRCT 8.8868 IHRCT 8.8668 INRCT 8."6666 IHRCT 8.8686 INRCT

47. 6397
46. 3393
45. 7826 52

~ 3774 52

~ 8883

51. 6886 G. 9889
8. 8986
8. 8866 G. 8888 8.8888 8.8888 DEW CELLS DC Gi 22 '866 DC 85 38.8224 INRCT 8 ~ 9868 INRCT
8. 8888 RYG
29. 2165 RIIBI ENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 62 DC 86 INRCT INRCT 14.4838

.8815 51.3567 8.8988

32. 1414 32

~ 8148

8. 8888 8.8888 DC 83 INRCT INRCT INACT 31.5988 DC 84 8.8888 IHRCT 8.6888 IHRCT 8.8888
23. 7878
8. 8668
8. 8888

a' ll

RECORD HUNEKER -

186 DFITE 66 T I I'1E 1688 PRESSURES RTD'S 81 85 89 13 1?

21 IHRCT INRCT I HFICT IHRCT IHRCT IHRCT INRCT RVG 45.7828 46.5715 46.5251 45.7828 52.3774 52.3389 8.8888 8.8888 8.8886 8.8888 8.8888 9.8888 8.8888 49.9878

52. 5939 82 86 18 14 18 22 I HFICT IHRCT INRCT INRCT IHRCT INRCT INRCT 58 ~ 2884 RVG 46.8142 46.1999
48. 8577
45. 3648
58. 1943
53. 2688 83 87 11 15 19 23
8. 8888
8. 8888
8. 8888 I HFICT IHRCT

,8. 6888 I NFICT G. 8888. I HFICT

8. 8888 INRCT INRCT 51.4371 48

~ 1978 84

46. 3393 88 46.1999 12-54.9323 16 52.7954 28 52.9812 24 8.8888 INRCT 8.8886 INRCT 8.8888 IHRCT 8.6898 INRCT 8.8888 IHRCT 8.8888 INRCT
47. 6397
46. 3393 45.7828 52.3774 52.8883 51.6342 8.8888 8.8888 8.9999 9.8886 8 ~ 8886 8.8888 DEW CELLS DC 81 22.6692 DC 85 38 ~ 8874 INRCT 8 ~ 8888 INRCT 8.8888 RVG 29.1698 RI'IBIENT PF?ESS VRPORPRESSURE DRY PRESSURE FLOWS RECORD NUNEIER 187 DC 82 DC 86 INRCT INRCT
32. 1414
31. 8543 8.6888 9.8888 DC 83 IHRCT INRCT INRCT 14.4838

~ 8814 51.3557 Ge8888 DRTE 66 T I I'1E 1615 31.4694 DC 84 8.8888 IHFICT 8.8868 INFICT 8.8888 23

~ 4499

8. 8888 8 ~ 8888 PRESSURES 52

~ 5939 58.2884 RVG

51. 4371 RTD'S 91 85 89 13 17 21 IHRCT INRCT INRCT INRCT IHRCT INRCT INRCT FIVG
45. 7355 46.52Si 46.4322
45. 8748 86 16 14
52. 3774 G. 8888
8. 8888
8. 8888 G. 8888
8. 8888 G. 8888 49.9892 22 INRCT INRCT I HFICT IHRCT IHRCT IHRCT INRCT 52.4238'18

'46. 8142 46.1999

48. 8577 11
45. 3175 15 58.1943 19
53. 2688 23 INFICT 8.8888 8.8888 INFICT 9.8888 IHRCT 8 ~ 8888 IHRCT 8.8888 IHFICT IHRCT
48. 2435 84
46. 2928 88,
46. 1999 12 54

~ 7929 16

52. 79S4 28 52

~ 9812 24 8.6888 IHRCT 8 ~ 9898 IHFICT 8.9888 IHRCT 8 ~ 9988 IHFICT 8.8888 IHFICT 8 ~ 8888 INF}CT

47. 5933
46. 3857 45.7826 52.3389 52 '348 51 '886 9.6888 8.8666 8.6888 8.8886 8.8888 8.8889 DEW CELLS DC 81 22 '188 DC 85 31.4858 INRCT 8.8888 INRCT 8.8888 RVG 29.3824 RIIBIEHT PRESS VFIPOR PRESSURE DRY PRESSURE FLOWS DC 62 DC 86 INRCT INRCT
31. 8543
32. 5537 8; 8886
8. 8888
14. 4838"

. 8818 51e3554 8.8888 DC 83 I NFICT INRCT IHRCT 31.4694 DC 84 8.8888 INRCT 8.8888 INRCT 8.8888 22.8934 8.8888 8.8888

RECORD HUMI>ER 188 DRTE 66 T I HE 1638 PRESSURES RTD'S 81 85 89 13 17 21 INRCT IHRCT INRCT INRCT IHRCT IHRCT INRCT RVG 45.'7829 46.5251

46. 2928
46. 8142
52. 2845
52. 1916
9. 8888
8. 8888
8. 8888
8. 8888 G. 8888 G. 8888 8.8888 49.8586

'82 86 18 14 18 22 INRCT I NFICT IHRCT INRCT I HFICT I HFICT IHRCT

46. 8142 46.1999 48.8113 45.3648 58.1943 53.1286 8.8888 8.8889 8.8888 8.8898 8.8888
8. 8888
8. 8888 83 87 11 15 19 23 INFICT IHFICT INRCT INRCT I NFICT INRCT 52.5865 58.2743 FIVG
51. 4384 84 88 12 16 28 24 INRCT I NFICT IHRCT I HFICT INRCT INRCT 48

~ 2435

46. 3393 46.1535 54.6871 52.7825 52.8419 8 ~ 8888
8. 8888 8.8888 8.9888 8.8888 8.8888 47

~ 5468 46

~ 3393 45.7828 52.2388 52.8419 51 '342 8.8888 8 ~ 8888 8.8888 8.8888 8.8888.

8.8888 DEW CELLS DC 81 22.6692 DC 85 39.6921 I HFICT

8. 8888 INRCT
8. 8888 RVG 29.8879 RHBIENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I HFICT IHRCT 31.8543 32.2686 G. 8888
8. 8888 14

~ 4838

. 8812 S 1 e 3492 8 ~ 8888 DC 83 I HFICT IHRCT I HFICT 31.5337 DC 84 8.8888 INRCT 8.8888 INRCT 8.8888 22

~ 8934

8. 8888 8.8888 RECORD HUNBER 189 DRTE 66 TINE 1645 PRESSURES 52

~ 5865 58.27S3 RVG 51.4389 RTD'S 81 85 89 13 1?

21 INRCT

,IHRCT INRCT INRCT IHRCT I NFICT INRCT RVG

45. 7828 46 ~ 5251
46. 3857 86 18 52.3774 52o2845 8.8888 8.8888 8.8888 8.8888 9.8888 Ge8888 8 ~ 8888 49

~ 8781 18 22 I NFICT INRCT INRCT IHRCT INRCT INRCT I NFICT, 4S. 7828" 14

46. 8142 46

~ 1999 48

~ 8113

45. 3175 58

~ 1943

53. 1671 8 ~ 8888 9 ~ 8899 G. 8888 8.8888
8. 8888
8. 8888
8. 8888 83 87 11 15 19 23 I HRCT I HFICT I NRCT.

IHRCT IHRCT I NFICT 48

~ 3364 84

46. 3393 88
46. 1535 12
54. 8858 16 52.7498 28 52

~ 9348 24

9. 8889 I HFICT 8

~ 8888 INRCT 8.8888 INRCT 8.8888 INRCT 8.8888 INRCT 8.8889 INRCT 47.5468 46.2464 45.7828 52.2845 52.8883 51.6886 8.8889 8.8888 8.8888 8 ~ 8889 8 ~ 8898 8.8888 DEW CELLS DC 81 22.7448 DC 85 29.8397 IHRCT 8.8888 INRCT 8.8888 RVG-

28. 6414 RNBIENT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHRCT I HFICT
14. 4838

.8888 51.3589 8.8888 31

~ 8543 31.7263 8 ~ 8888 8.8888 DC 83 IHFICT IHFICT I HFICT

31. 3485 DC 84 8.8888 INRGT 8.8888 IHRCT 8.8888 23.3821 8.8888 8.8888

RECORD HUNEKER -

198 DFITE 66 TINE 1788 PRESSURES 52.5877 58.2753 RYG 51.4315 RTD'S Gi 85 89 13 17 21 IHRCT IHRCT INRCT INRCT INRCT INRCT I HFICT RVG

45. 7355
46. 5251 46.3857 45.7828 52.3389 52 '388 8.8888 8 ~ 8888 8 ~ 9888 6.8888 8.8888 8.8888 8.8888 49.8718 82 86 18 14 18" 22 I NFICT IHRCT INRCT INRCT INRCT INRCT IHRCT
45. 9677
46. 1535
47. 9648
45. 3648 58.1943 53.1671 83 87li 15 19 23 INRCT G. 9888
8. 8888 INRCT 8-.8868 INRCT 8.8888 INRCT 8 ~ 8868 INRCT INRCT 48.1978 46.3857 46.1535 55 '252 52.7498 52.8883 8.8888 8.8888 8.8888 8.8888 8.9868 8.8888 84 88 12 16 28 24 INRCT IHRCT INRCT IHRCT INRCT INRCT 47.5933 46.1999 45 '828 52.2845 52.8419 51.6886 8.8888 6.8866 8.8888 9.8888 8.8888 8.8888 DEW CELLS DC Gi 22.1427 DC 85 32.3638 INRCT G. 8688 INRCT
8. 8888 RVG 29.2392 RI'1B IENT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I HFICT INRCT
14. 4838

.8816 51 '499 8.8898

31. 8543
32. 2858 G. 8888
8. 8888 DC 83 I HFICT INRCT INRCT 31

~ 1791 DC 84

8. 8888 INRCT 8 ~ 8888 I HRCT
8. 8888 22.3313 8.8866 8.8888 RECORD HUNEKER 191 DFITE 66 T I HE 1715 PRESSURES
52. 5865 58.2743 FIYG 51.4384 RTD'S 81 85 89 13 17 21 IHRCT INRCT IHRCT IHRCT IHRCT INRCT INRCT FIVG
45. 7355
46. 5251
46. 3857
45. 7828
52. 3389 52

~ 2388

8. 8868 6 ~ 8868 8 ~ 8888 G. 8888 8 ~ 8888 8 ~ 8888 Go 8888
49. 8633 62 66 18 14 18 22 I NFICT I NFICT I HFICT INRCT INRCT I NFICT I NFICT
48. 9113 45

~ 3175 58

~ 1478

53. 1671
6. 8889
8. 8999
8. 8868 8 ~ 9889
8. 8888
8. 8888 G. 8988 11 15 19 23 I NFICT IHRCT I t>FICT IHRCT I HFICT INRCT
45. 9677 93 46.1535 87 48.2435 84 46.3393 88 46 '999 12 54 '323 16 52.7498 28 52.9348 24 8

~ 6688 IHRCT 8.6886 IHRCT 8.8888 INFICT 8.8986 IHRCT 8.8888 INRCT 8.8888 IHRCT 47 '468 46.2464 45.7828 52.2845 52.8419 51.6896 8.8898 9.8886 8.8988 8.8888 8.6896 8.8888 DEW CELLS DC Gi 22.3313 DC 85 31.1144 INFICT 8.8888 INRCT

8. 8888 RVG 29.8586 RI'1B I EHT PRESS YRPOR PRESSURE DRY PRESSURE FLOWS DC 62 DC 66 INRCT IHRCT 14 '838

~ 8811 51 '493 8.8888

31. 7263 31

~ 9581 G. 8888 8 ~ 8888 DC 63 I NRCT INRCT IHFICT

31. 3485 DC 84 8.8888 INRCT 8.8886 IHRCT 8.8888 22

~ 9679 8.8888 8.8888

RECORD NUNIlER -

192 DATE 66 TINE 1738 PRESSURES RTD'S

.81 85 89 13 17 21 IHRCT I HRCT INRCT IHRCT IHRCT IHRCT I HFICT FIYG 45 ~ 7355 46." 525 1 46.3393 45.7828 52.3774 52.2388 8.8888 8.8888 8 ~ 8888 8.8888 6.8888 8.8888 8.8888 49.8534

52. 5848 82 86 18 14 18 22 I HFICT
IHFICT, IHRCT I HFICT IHFICT IHRCT INFICT RVG
45. 9677 46

~ 1535 4?. 9184 45.3648

58. 1478 53.1671 8 ~ 8888 9; 6688
8. 8888
8. 8888 G. 6696
8. 8888
8. 8688 83 67 11 15 19 23 INRCT INRCT INRCT INRCT INRCT INRCT
56. 2723
51. 4281
48. 2435 84 46 '928 88 46.1535 12 54.8394 16 52.7498 28 52.8883 24 8.8888 IHRCT 8.8888 INRCT 8.8888 INRCT 8 ~ 9888 INRCT 8 ~ 8888 INRCT 8.8888 INRCT 47 '468 46.1999 45.7355 52.2388 52.8419 51.6342 8.8888 8.8888
8. 8888 8.8888 8 ~ 8888 8.8888 DEW CELLS DC Gi 22.4817 DC GS 28.5686 INACT 6.8888 INRCT 8 ~ 8888 RYG
28. 4454 AMBIENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 06 IHFICT INRCT 14.4838

.8795 51.3487 8.8888

31. 6621
31. 7983 G. 8688 8.8888 DC 83 INACT IHRCT I HFICT 31.4694 DC 84 8.8888 IHRCT 8.8888 IHRCT 8.8888
22. 8188 8.8888 8 ~ 8888 RECORD NUHBER 193 DATE 66 TINE 1745 PRESSURES 52

~ 5848 59.2733 RVG 51.4286 RTD'S 81 05 89 13 17 21 IHACT IHRCT INRCT INRCT I NFICT I NRCT.

INRCT RVG 45.7355 46.4786 46.4786 45.7355 52.4238 52.2845 8.8886

8. 6886
8. 8888 8 ~ 8888 Ge8888 8 ~ 8888 8.8888 49.8642 82 86 16 14 18 22 INRCT I NFICT INRCT IHRCT I NFICT IHRCT INRCT
45. 9213
46. 1535
48. 6113
45. 3175
58. 1478
53. 2135
8. 8888
8. 6666
9. 8989 8.8688 8.8888 8.8868 8.8888 83 87 11 15 19 23 IHRCT I HFICT INRCT I NFICT I NFICT I NFICT
48. 1842
46. 1999
46. 1535 S4. 7465
52. 7498
52. 9348 8 ~ 8899 6.6988 8.8888 8.8888 6.8888 8.8888 84 88 12 16 28 24 I HRCT I HFICT IHRCT IHRCT INACT I NFICT 47.5933 46.3393 45.7355 52.3369 S2.8883 51.6342 6.0866 8'. 8866 8.9888 8.8888 8.8898 6.8888 DEW CELLS DC 81 22.8671 DC 85 29.4738 INRCT 8.8888 INRCT G. 8888 RVG 28.4827 RNBIEHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14.4838

.8796 51.3491 8.8888 31.6621 31 '263 8.8888 8.8888 DC 83 I NFICT INRCT INRCT

31. 2437 DC 84 8.8888 INRCT 8 ~ 8868 INRCT 8.8888 22 '866 8.8888 8.8886

rj wf1 1

RECORD NUI'1DER 194 DFITE 66 T INE 1888 PRESSURES 52

~ 5815 58.2783 RVG 51.4259 RTD'S 81 85.

89 13 17 21 IHACT INRCT I NFICT INRCT IHRCT I NFICT IHRCT RVG 45."7355

46. 4786 46.3393 45.7355 52.3389 52.1916 8.8888 8.8888 8>>8888 8.8888 8>> 8888 8 ~ 8888 8 F 8888 49 '466 82 86 18 14 18.

22 INACT INRCT I HFICT IHRCT INRCT IHRCT I HFICT 45.9677 46.1871 47.9184 45.2711 58.1478 53.2135 8.8888 8, 8888 8 F 8888 8.8888 8 F 8888 8.8888

8. 8888 83 87 11 15 19 23 INACT IHRCT IHRCT IHRCT INRCT INACT 48.3364 46.2928 46 '871 54 '323 52.7498 52.9348 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 84 88 12 16 28 24 INRCT INRCT INACT INACT INRCT INACT 47.5468

. 46.2464 45.?355 52.3389 52 '954 51.5877 8.8888

=

8.8888 8.8888 8.8888 8.8888 8.8888 DEW CELLS DC 81 22.2568 DC 85 29.3485 IHRCT 8 ~ 8888 INRCT 8 F 8888 RVG 28 '5839 RNB I ENT PF! ESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT

14. 4838

.8796 51.3463 8.8888 31

~ 5337

32. 8148
8. 8888
8. 8888 DC 83 INRCT INACT IHRCT 38.7573 DC 84 8.8888 IHACT 8.8888 IHRCT 8.8888 23

~ 1538

8. 8888 8.8888 RECORD NUI1BER 195 DATE 66 TINE 1815 PRESSURES 52.5815 58.2682 RVG 51.4249 RTD'S 81 85 89 13 17 21 INACT I NFICT INRCT IHACT INRCT IHRCT INRCT RVG
45. 6891 46>> 4786 46 '393 45.6891 52 '389 52.1916 8

F 8888 8.8888 8.8888 8.8888 8.8888 8>>8888 8'888 49.8288 82 86 18 14is 22 IHACT IHRCT INACT INACT IHRCT IHACT IHACT 45.9213 46 '871 47.9648 45 '711 58.1814 53.1286 8.8888 8.8888 8

F 8888 8

F 8888 8.8888 8.8888 8.8888 83 87 11 15 19 23 IHRCT IHRCT IHRCT I HRCT IHACT IHRCT 48.1586 46.2464 46.1535 54.8858 52.7825 52.8883 8.8888 8.8888 8.8888 8.8888 8.8888 8 F 8888 84 88 12 16 28 24 INRCT INRCT INRCT IHACT INRCT IHACT

47. 5468 46

~ 2928 45

~ 6891

52. 2845
52. 7954 51.6342 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 DEW CELLS DC 81 21.9156 DC 85 29 '386 IHRCT 8.8888 INRCT 8.8888 RVG 28.6751 AMBIENT PF>>ESS, VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I HFICT I NFICT 14.4838

.8881 51 '448 8.8888 31.4694 31.7983 8.8888 8 '888 DC 83 INRCT INACT INRCT 31 '858 DC 84 8.8888 INFICT 8.8888 IHRCT 8.8888 23.8423 8.8888 8.8888

if.

tg'g J(

~l A

E'P I

RECORD NUtlBER 196 DRTE " 66 TINE 1838 PRESSURES 52.5883 56.2682 RVG

51. 4243 RTD'S 81 85 89 13 17 21 IHACT INACT INRCT INACT IHACT I HFICT INRCT RVG 45>> 6891
46. 4786 46 ~ 3393 45

~ 6891 52

~ 3389 52>> 2845 8.8888 8.8888 9.8888 8.8888 8.8888 8.8888 8 ~ 8888 49.8221 82 86 18 14 18 22 I NFICT IHRCT I NFICT IHRCT IHRCT INRCT INRCT 45

~ 9213 46.1671 47.9184 45.2247 58.1914 53.1671 83 87il 15 19 23 6.8888 8.6888 8.8888 8.8888 IHFICT IHRCT IHRCT 8.8888 IHFICT 6.6888.

IHRCT 8.8888 IHFICT 48

~ 2899 84

46. 1535 88
46. 1535 12
54. 8858 16
52. 7825 28
52. 9348 24 8 ~ 8888 I NFICT G. 8888 I NFICT 8 ~ 8888 I NRCT
8. 8888 INRCT 8 ~ 8888 INFICT 8 ~ 8888 INRCT 47.5933 46.2464 45.6891 52 '845 52.7954 51.5413 8 ~ 8888 8.8888 8 ~ 6888 8.8888 8.8888 8 ~ 8888 DEW CELLS DC Gi 21.9156 DC 65 28 '818 INRCT G. 8888 INRCT 8 ~ 8888 FIVG 28

~ 2725 Rt'1B IEHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14.4838

.8798 51->>3452 G. 6888 31

~ 4858 31.7263

8. 6888 G. 8688 DC 83 IHFICT IHFICT IHFICT 39.9848 DC 84 8.8888 INRCT 8.6888 INRCT 8.8888
23. 2288 8.8888 8.8888 RECORD NUt'1BER -

197 DATE 66 T I tlE -

1845 PRESSURES RTD'S 91 85 89 13 17 21 I NRCT IHACT I NFICT INACT INACT IHRCT INRCT RVG

45. 6891
46. 4786
46. 2928
45. 7355
52. 2388
52. 1916 Gi 6888 G. 8888
8. 8888
8. 8888 G. 8888
8. 8888
8. 8888
49. 7974 52.5883 82 86 18 14 18 22 INRCT ~

INRCT IHRCT INRCT IHRCT IHRCT IHRCT 45.9213 46.1871 47.9184 45.2247 58.1814 53.1286

8. 8888 8.8888 8.8988 83 87ii 15 19 23 I NFICT I HFICT IHACT 8.8888 INFICT 8.8868 8.8888 8.8888 I HFICT IHRCT 56.2662 RYG 51.4233 48.1978 64 46.2464 88 46.8686 12 54.7929 16 52.7825 28 52.8419 24 6.8888 INRCT 9.8888 INRCT 8.6886 IHRCT 8.8868 INRCT 8.8888 INFICT 8.8888 INRCT
47. 5468 46 '464 45.6891 52 '386 52 '954 51 '877 6.8888 8 ~ 8888 8.8688 8.8888 8 ~ 8888

~

8.8888 DEW CELLS DC Gi 21.5358 DC 85 29.6867 INRCT 8 ~ 8888 IHACT 8 ~ 8888 RVG

28. 3991 RtlBI EHT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 62 DC 86 I NFICT I HFICT 14.4838

.8794 51.3439 8 ~ 8888 31.4858 31.5337 8;8888 8.8888 DC 83 INRCT INRCT INACT 38.9523 DC 84 8.8888 INRCT 8.8888 IHRCT 8.8888

22. 8934 8.8888 8.8888

C%

~

fg t,'(

iy ~

'g

RECORD NUMBER 198 DATE 66 T I ME 1988 PRESSURES

52. 5766
58. 2662 FIVG 51.4214 RTD~S 81 85 89 13 17 21 INRCT IHACT IHACT IHACT IHACT INACT INRCT RVG 45.'6891 46',4786 46.3857 45.6891 52.2845 52.2388 8.6888 8.8888 8.8888 8.8888 8.8888 8 ~ 8888 8 ~ 8888 49.8136 82 86 18 14 18

~

22 I HFICT INRCT I NFICT INRCT I NFICT IHRCT INRCT

45. 9213
46. 1871
47. 9648
45. 2711
58. 1814
53. 1286 8.8888
8. 8888
8. 8888
8. 6888 8.8688 8.8888
8. 8888 83 87 11 15 19 23 INRCT INRCT IHRCT I NFICT INRCT I NRCT 48.1642 46.1535 46 '535 54.7465 52.7498 52.8883 8.8888 6.8888 8.8888 8.8888 8.8888 8.8888 88 12 16 28 24 INRCT INRCT INRCT IHRCT I NFICT INRCT 47.5468 46.2464 45.6891 52.2845 52.8419 51.5877 8.8888 8.6888 6.8888 8.8888 8.8888.

6.8888 DEW CELLS DC Gi 21.6113 DC 85 38.8837 INACT

8. 8888 I NFICT
8. 8888 RVG 28

~ 4689 FIMBI ENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT

14. 4838

.8795 51.3419 Go8888

31. 3485
31. 5988 G. 8888
8. 8888 DC 83 I NFICT INRCT I NFICT
38. 6921 DC 84 8.8888 INRCT 8.8888 INRCT 8.8888 23.8851 8 ~ 8888 8.8888 RECORD NUMBER -

199 DATE 66 TIME 1915 PRESSURES 52.5754

58. 2652 FIVG 51.4283 RTD'S Gi 85 69 13 17 21 IHACT IHACT INACT IHACT INRCT IHACT INRCT RVG 52 '916 8.8888 6.8888 8 ~ 8888 6.8888 8 ~ 8888 8.8888 8.8888 49.8875 22 I HFICT INRCT INRCT I NFICT INRCT INRCT INRCT 45

~ 6891 46

~ 4322

46. 38S7 18 45.6891--14 52.3389 18
45. 9213 46.1871 47 '184 45.2711 S6.1814 53 '286 8.8666 8.8886 8.8888 8.8688 8 ~ 8888 6.8888 8.8888 83 8?

11 15 19 23 INRCT I HFICT INRCT I NFICT I HFICT IHRCT 48.1586 46.1999 46.1871 54.7929 52.7825 52.8883 8.6888 6.8888 6.8888 8.8888 6.8688 8.8886 84 88 12 16 28 24 I NFICT INRCT I HFICT INRCT INFICT IHRCT

47. 5468 46.2464 45 '891 52.2388 52 '954 51.5877 8.6866 8.8888 6.6888 8.8866 6.8888 8 ~ 8886 DEW CELLS DC 81 21 '156

, DC 85 29.6399 IHACT G. 8888 IHRCT 6.8888 RVG.

28. 4819 FIMBIENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 62 DC 86 INRCT I HFICT 14

~ 4838

. 8794 51

~ 3469 8 ~ 8888

31. 3883 31

~ 5988 8 ~ 8888 8 ~ 8888 DC 83 INRCT INRCT IHRCT

31. 8496 DC 84
8. 8886 INFICT 8.8888 IHRCT 8.8888
22. 4866 8 ~ 8888 8 ~ 8888

Y

~w

RECORD NUMBER 280 DFITE 66 T I ME 1938 PRESSURES 52.5741 58.2642 51;4192 RTD'S Gi 85 89 13 17 21 INRCT INRCT INRCT INRCT INRCT I NFICT INACT FIVG

45. 6891
46. 4322
46. 3393 45.6891 52.3389 52 '451 8.8888 8.8888 6.8888 8.8888 8.8888 8.8888 8.8888 49.8858 82 86 18 14 18 22

.I NFICT INRCT INRCT INRCT IHRCT IHRCT INRCT

45. 8748 46

~ 1871 47 ~ 9648

45. 2711 58.1814 53.1671 8.6888 6". 6688
8. 8888
8. 8888 8 ~ 8888 8 ~ 8888 8.8888 83 87il 15 19 23 I HFICT IHRCT INRCT IHRCT IHRCT IHRCT
48. 1978
46. 1871
46. 8686 54.7465 52.7825 52 '883 6.8888 8 ~ 8888 8.8688 8.8888 8.8888 8.8888 64 88 12 16 28 24 INRCT INRCT INRCT IHRCT I HFICT IHFICT 47.5468 46 '928 45.6426 52.2845 52.7954 51.5413 8.8868 8.8868 8.8888 8.8888 8.8888

~

8.8888 DEW CELLS DC Gi 21.7637 DC 85 31 '437 IHRCT

8. 8868 INRCT 8 ~ 8888 RYG 28'885 AMBIEHT PRESS YAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14.4838

.8882 51.3398 8.8888 31.4694 31 '683 8.8888 8.8888 DC 83 I HFICT I NFICT I NFICT 38.6269 DC 84 8.8888 INRCT 8 ~ 8888 IHRCT 8.8888

22. 8934 8.8868 8.8888 RECORD NUMBER 281 DRTE 66 TIME 1945

,PRESSURES 52 '741 58.2632 RVG 51.4187 RTD'S Gl GS 89 13 17 21 INRCT INACT IHACT IHRCT INRCT IHRCT IHRCT RVG

'45. 6891

46. 4322
46. 8686
45. 7355 S2. 2388
52. 1916 8 ~ 8888
8. 8888 6.8888 8.8888 8.8888 8.8888 Ge8888 49.7823 62 86 18 14 18 22 I NFICT IHRCT I HFICT INRCT INRCT IHRCT IHRCT
45. 9213 46.1871 47.8255 45.2247 58.1814 53.8741 8 ~ 8888 8.8886 8.8868 8.8888 8.8888 8.8888 8.8888 83 87 11 15 19 23 I HFICT INRCT IHRCT INFICT IHRCT IHRCT
48. 1976
46. 1999
46. 8142
54. 8394
52. 6561
52. 8419 8 ~ 8888 8.8888 8 ~ 8888 8 ~ 8888 8.8888 8.8888 84 88 12 16 28 24 I NFICT I NFICT I NFICT I HFICT IHRCT IHRCT
47. S864 46.8686 45.6891 52.2388" 52.7954 51.5877 8.6888 8.8888 8 ~ 8888 8.8886 8 ~ 8888 8.8688 DEW CELLS DC Gi 22.2568 DC 85

~

38.4963 INFICT 8.8888 INACT Go 8886 RVG

28. 3753 RMBIENT PRESS VFIPOR PRESSURE DRY PRESSURE FLOWS DC 82'C 86 INRCT IHRCT 14.4838

.8793 51.3394 8 ~ 8888

31. 2437
31. 6621
8. 8888 8.8688 DC 83 INRCT INRCT INFICT 38

~ 6269 DC 84 8 ~ 8888 I NACT 8 ~ 8888 I NRCT 8 ~ 8888

21. 2671
8. 8888 G. 8888

RECORD NUNIlER 282 DRTE 66 TII'1E 2888 PRESSURES RTD'S

.Gi 85 89 13 1?

'1 INACT INRCT INACT INACT I NFICT INRCT INRCT RVG

45. 6891
46. 4322 46.3393 45.7355 52.2388 52.1451 8.'8888 8.8888 8.8888 8 ~ 8888 8.8888 6.8888 8.8888
49. 7625 52.5784 82 86 18 14 18 22 I HFICT I NFICT INRCT INRCT INRCT I HFICT INRCT 58.2611 83 87li 15 19 23 INRCT INRCT INRCT INRCT INRCT INRCT 45.S?4S 46.1871 "47.8719 45.2711
58. 1614 53

~ 8741

8. 8888 8-. 8888
8. 8888
8. 8888 G. 8888
8. 8888 8.8888 FIVG 51 '158 84 88 12 16 28 24 INRCT IHRCT INRCT IHRCT IHRCT I HFICT
48. 1586 46.1999 46.8142 54.3748 52.6561 52.8419 8.8888 8.9888 8.6888 8.8898 8.8888 8.8888 47

~ 5468

46. 1999
45. 6891
52. 1451
52. 7498
51. 5877
8. 8888
8. 8888
8. 8888 8 ~ 8868
8. 8688 8.8888 DEW CELLS DC

- Gl 21.9914 DC 85 29'?724 INACT 8.8888 INACT 8.8888 RVG 28.1885 RHBIEHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14 ~ 4838

.8788 5'378 8.8888

31. 2437
31. 2437
8. 8888
8. 8888 DC 83 INRCT IHRCT INRCT 38

~ 4635 DC 84 6 ~ 8888 I HRCT 8 ~ 8888 I HRCT

8. 8888 21 '914 G. 8686 8 ~ 8888 RECORD HUHBER 283 DRTE 66 TINE 2815 PRESSURES 52.5688 58

~ 2681 RVG 51.4141 RTD'S Gi 85 69 13 17 21 INACT INACT INACT INRCT INACT I HRCT.

INACT RVG

45. 6891
46. 3857 46

~ 1999

45. 6891 52

~ 2388

52. 14Si 6 ~ 8888 8 ~ 8688 8 ~ 8888 8 ~ 8888 8 ~ 8888 8 ~ 8888 8 ~ 8888 49'754 62 66 18 14 18 22 INRCT IHFICT IHRCT INRCT INRCT INRCT IHRCT
45. 9213
46. 8686
47. 8719
45. 2247 SG. 1814 53

~ 8741

8. 8868
8. 8888 6 ~ 8688 G. 8888 8.8888 8.8888 8.8888 83'7 11 15 19 23 I HFICT IHRCT IHFICT INRCT I HFICT I NRCT 48

~ 2435 46

~ 1999 45.96?7 54.9323 52.6561 52.8419 8.8886 8 ~ 6888

8. 8886 G. 6888
8. 8888 8 ~ 8888 84 88 12 16 28 24 INRCT IHRCT IHRCT IHRCT INRCT IHRCT
47. 4539 46.1871 45.6426 52.2388 52.7496 51.5413 8.6968 8.8988 8.9868 8.6888 8 ~ 8886
8. 8888 DEW CELLS DC 81

. 22.1427 DC 85 38.7573 INACT

8. 8888 IHRCT
8. 8888 RVG 28 ~ 5415 RIIBI EHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 66 INFICT IHRCT 14.4838

.8797 51.3343 8.8888 31.1791 31.4694 8 ~ 8888 8.8868 DC 83 I NFICT IHFICT IHRCT 38.6921 DC 84 8.8888 INRCT 8.8888 IHRCT 8.8888 22.1885

8. 8888
8. 8988

RECORD NUHBER 284 DFITE 66 TINE 2838 PRESSURES

. 52. 5688

58. 2591 RVG 51.4135 RTD'S 81 85 89 13 17 21 INACT IHRCT IHRCT IHFICT INACT INACT INFICT RVG 45.'6426
46. 4,322 46" 1999 45'891
52. 2388 52.1451 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 8 ~ 8888 49o7735 82 86 18 14 18 22 INACT IHACT INRCT IHRCT INRCT IHRCT IHRCT
45. 8748
46. 8686
47. 8719 45.2247 58.1814 53.8741 83 87ii 15 19 23 INRCT 8.8888 8.8888 8.8888 8.8888
8. 8888 INRCT INRCT INRCT INRCT G. 8888. I NR C 7
48. 2435
46. 1999
46. 8686 54

~ 8858 52

~ 6561

52. 8419 8 ~ 8888
8. 8888 8 ~ 8888
8. 8888
8. 8888
8. 8888 84 88 12 16 28 24 INACT INFICT IHRCT IHACT' NFICT IHRCT 47.5884 46.1871
45. 6426
52. 1916
52. 7498
51. 5877 8 ~ 8888 8 ~ 8888 8 ~ 8888
8. 8888 G. 8888
8. 8888 DEW CELLS DC 81 21.7637 DC 85 31 '496 I NFICT 8 F 8888 INRCT 8.8888 RVG
28. 5734 RtiBI ENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I HFICT INRCT 14.4838

.8798 51.3337 8 F 8888 31 '883 31.3485 8.8888 8.8888 DC 83 I NFICT INRCT INRCT 38

~ 7573 DC 84 8

F 8888 IHRCT 8.8888 INRCT 8.8888 22.1885 8.8888 8.8888 RECORD NUNBER 285 DRTE 66 TINE 2845 PRESSURES 52.5692 58.2591 RVG 51.4142 RTD'S 81 85 89 13'7 21 INRCT INACT INRCT IHACT I HFICT IHRCT I NFICT RVG

45. 6426
46. 3857
46. 1999
45. 6891 52

~ 2845

52. 1916 8 ~ 8888
8. 8888 8 ~ 8888 8 '888 8.8888

.8.8888 Go8888 49.7733 82 86 18 14is 22 INRCT INRCT I NFICT INRCT IHRCT I HFICT INRCT

45. 8748 46.8686 47.8255 45 F 1782
58. 1814 53.1286 8.8888 8 F 8888 8.8888 8.8888 8.8888 8.8888 8.8888 83 87 11 15 19 23 IHACT INRCT INRCT INACT INACT INACT 48.1586 46.1871 46 '142 54.7929 52 '561 52 F 8419 8

F 8888 8.8888 8 F 8888 8

F 8888 8

F 8888 8.8888 84 88 12 16 28 24 IHACT IHRCT IHRCT IHACT IHACT IHRCT

47. 4539
46. 3393
45. 6426 52

~ 2388 52.7498 51.5413 8 F 8888 8 ~ 8888 8 F 8888 8 F 8888 8 F 8888 8.8888 DEW CELLS DC Gi 22.1427 DC 85 29.1481 IHACT 8 ~ 8888 INACT 8.8888 RVG

28. 2858 Rt'IBI EHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INACT INRCT
14. 4838

. 8791 51.3351 8.8888

31. 1?91
31. 5988
8. 8888
8. 8888 DC 83 INRCT INACT IHRCT
38. 5616 DC 84
8. 8888 I HFICT,
8. 8888 INRCT G. 8888 23

~ 8795 8.8888 8 F 8888

I v

4

'I, r

1$

RECORD NUMBER 286 DRTE 66 T I ME 2188 PRESSURES 52.5688 58.2591 FIVG 51.4135 RTD'S 81 85 89 13 17 21 IHRCT INRCT INACT IHRCT INRCT INRCT INRCT RVG

45. 6426 46 '857 46.2928 45.6426 52.2845 52.2388 8.8888 6.8888 8.8888
8. 8886 8.6888 8.8888 8.8888 49.7636 82 86 18 14 18.,

22 INRCT INRCT I NFICT IHRCT IHRCT IHRCT I NFICT 45.8748 46.8666 47.7798 45.1782 58.1814 53.8741 83 87 11 15 19 23 INRCT INRCT 8.6888 6.8888 IHRCT 8.8888 INRCT 8.8688 INRCT 6.8888 INFICT

48. 8577 46

~ 1535 46

~ 8686

54. 7888
52. 6561 52 '419 8.8888 8.8888 8 ~ 8888 8.8888 8.8888 8.8888 84 88 12 16 28 24 I HFICT IHRCT IHRCT IHRCT IHRCT I NFICT
47. 4539 46 '535 45.6426 52.1916 52.7954 51.5877 8.6888 8.8888 8.8888 8.6888 8.8888 8.8888 DEW CELLS DC Gi 21.6876 DC 85 31.1144 IHRCT
8. 8888 INRCT G. 8888 RVG
28. 4653 RMBIEHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHRCT INRCT 14.4838 o8795 51.3348 6.8888 31.1144 38.8224 8.8888 8.8888 DC 83 INRCT I HFICT IHRCT
38. 6921 DC 84 8.8888 INRCT 8.8888 IHRCT 8.8888
22. 1885 8.8888 8 ~ 8888 RECORD NUI'1BER 287 DFITE 66 TIME 2115 PRESSURES 52 '688 58.2591 RVG
51. 4135 RTD'S Gi 85 89 13 17 21 INACT INRCT I NFICT I NF}CT INRCT INACT INRCT RVG
45. 6426 46.3857 46.1999 45.6891 52.1916 52 '987 6 ~ 8688 8 ~ 8888 6 ~ 8888 8.8888 8.8868 8.8888 Go8888 49 '382 82 86 18 14 18 22 IHRCT I HFICT INRCT IHRCT I HFI C T INRCT INRCT
45. 8284
46. 8686
47. 8255
45. 1782
58. 8549 S3. 8277
8. 8888
8. 8888 G. 8888 G. 8888 G A G@68 8.8888 8.8888 83 87 11 15 19 23

~

INRCT INRCT INRCT IHFICT I NRCT I NFICT

48. 1842 84
46. 1535 88
46. 6142 12
54. 7888 16 52.6896 26 52.7954 24 8.8888 INRCT 8.8888 IHRCT 6.8888 INRCT 8.8888 INRCT 8.8888 INFICT 8.8888 INRCT 47.4875 46.1535 45.6426 52.1451 52 '498 51.5413 6.8886 8 ~ 8888 8 ~ 8688 8.8886 8.8888 8.8888 DEW CELLS DC 81 21.5358 DC 85 38.5/16 INFICT G. 8888 INRCT G. 8888 RVG
28. 3543 RMBIENT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 62 DC 86 IHRCT INRCT
31. 8496 31.4858 8;8888 8.8888 14.4838.

~ 8792 51.3343 8.8888 DC 83 I NFICT I NFICT I NFICT

38. 6269 DC 84
8. 8888 IHRCT
8. 8888 INRCT 8.8888 21.9914 8.8888 6.8868

RECORD NUHBER 288 DRTE 66 TINE 2138 PRESSURES RTD'S 81

45. 6426 46'3857
46. 2'464
45. 5962 52 '388 52.1451 8.8888 8 F 8888
8. 8888
8. 8888 8 ~ 8888 8.8888 8 F 8888 49 '249 85 89 13 17 21 I NRCT INRCT INRCT INRCT I HFICT INRCT INRCT RVG DEW CELLS DC Gi 21.8397 DC 85 27 '359 INRCT
8. 8888 INRCT
8. 8888 RVG 27

~ 7286 RNB I El'IT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS

52. 5643 82 86 18 14is 22 I NFICT IHRCT I HFICT INRCT INRCT INRCT IHRCT DC 82 DC 86 IHRCT INRCT 14.4838

.8777 51 '325 8.8888

58. 2561 RVG
45. 8284
46. 8686
47. 7326
45. 1782 58

~ 8549

53. 8741 83 87 11 15 19 23 8.8888 INFICT 8;8888 IHRCT 8.8888 IHRCT
8. 8888
8. 8888
8. 8888 8.8888 INRCT I NFICT INRCT
31. 1144
31. 3485 8 F 8888 8.8888 DC 83 I HFICT IHRCT I NFICT 51.4182
48. 1842 84
46. 1535 88
45. 9677 12
54. 6871 16 52 '896 28 52.7954 24 8.8888 IHRCT 8.8888 INFICT 8 F 8888 INFICT 8.8888 IHFICT 8.8888 IHFICT 8.8888 IHFICT
38. 9848 DC 84
8. 8888 IHRCT 8.8888 IHRCT 8.8888 47.4875 46.1871 45.6426 52 '451 52.7498 51.5413 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 22.2568 8.8888 8 '888 RECORD NUHBER 289 DRTE 66 TINE 21,45 PRESSURES 52.5643 58.2561 RVG 51.4182 RTD'S Gi 85 89 13 17 21 IHRCT

.I NRCT INRCT I NRCT.

INRCT INRCT I NFICT RVG 52.1916

52. 8987 G. 8888
8. 8888 G. 8888
8. 8888
8. 8888 8.8888 8.8888 49 '479 18 22 INRCT IHRCT INRCT INRCT INRCT I NFICT INRCT
45. 6426
46. 3857 86 46.1999 18 45.689'1"14 45

~ 8284

46. 8686
47. 7798 45.2247 58.8549 53.8741 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888
8. 8888 83 87 11 15 19 23.

INRCT I HFICT INRCT IHRCT INRCT IHRCT

48. 1842 '84
46. 1535 88 45.9677 12 54.8394 16 52.6896 28 52.8419 24 8.8888 IHFICT 8.8888 INRCT 8.8888 INRCT 8.8888 IHFICT 8.8888 INFICT 8 F 8888 INRCT 47.5884 46.1535 45 '962 52.1916 52 '498 51 '413 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 DEW CELLS DC 81 21.5358 DC 85 28.5686 INRCT 8.8888 INRCT '.8888 RVG-
27. 7298 RNB I El'lT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT IHRCT 14.4838

.8777 51.3325 8.8888

31. 1144
38. 8874
0. 8088 8 ~ 8888 DC 83 INFICT IHRCT IHFICT
38. 6921 DC 84 8.8888 IHRCT 8.8888 IHRCT 8.8888
21. 3438 8 ~ 8888 G. 8888

Jt (I

fE1'4 2.

JI4

RECORD HUNBER 218 DRTE 66 T It'1E 2288 PRESSURES 52.5594 58.2S38 FIVG 51.4862 RTD'S Gi 85 89 13 17 21 I NFICT INRCT INRCT I NFICT INRCT INRCT INRCT FIVG

45. 6426 46.3857 46.2464 45.6891 52>>2388 52.8987
8. 8888 G. 6888
8. 8888 G. 6888 8 ~ 8888
8. 8888
8. 8888
49. 7126 82 86 18 14 18 22 INRCT INRCT INRCT INRCT INRCT INRCT INRCT
45. 8284
46. 8142 47.8255 45 '782 S9.8885 53.8277
8. 8868 8-. 8888 8 ~ 8888 G. 8888 8 ~ 8888 8.8888 8 ~ 8888 83 87 11 15 19 23 IHRCT I NFICT I NFICT INRCT INRCT IHRCT 48

~ 8113

46. 1535 46.8142 54.5686 52.6896 52 '498 8 ~ 8888 8.8688 9.8888 9.8888 8.6888 8.8888 88 12 16 28 24 I NFICT INRCT IHRCT I NFICT INFICT I NFICT 47.4539 46 '686 45.5962 52.8987 52.7498 51.4948 8.8688 6.8868 8.8688 8.8888 8.8868 8 ~ 6888 DEW CELLS DC 81 21.8364 DC 85 29 '399 IHRCT G. 8888 I NFICT
8. 8888 RVG 27.9431 Rt1B I El'lT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I NFICT INRCT 14.4838

.8782 51.3288 8.8888 31

~ 8496

31. 3485 8 ~ 8886 8 ~ 8888 DC 83 INRCT INRCT I NFICT
38. 3981 DC 84
8. 8888 I HRCT 8.8888 IHRCT 8.8888 21.5358 8.8888 9.8888 RECORD NUHBER 211 DRTE 66 TINE 2215 PRESSURES 52.5594 58.2538 FIVG 51.4662 RTD'S 81 85 89 13 17 21 I HRCT IHRCT IHRCT INACT IHRCT IHRCT INRCT RVG

'45. 6426 46.3857 46.1535 45.5962 52.2388 52.8987 8.8868 8.8988 8.8888 8.8888 8.8888 9.8888 8>>8888 49.7287 82 66 18 14 18 22 INRCT INRCT INRCT INRCT INRCT INACT INRCT 45 ~ 8284 46.8142 47.8255 45.1782 58.8549 53.8277 8.9899 9.8888 9.8888 8.8688 9.8868 8.8888 8.8888 83 67 11 15 19 23 INRCT IHRCT INRCT INRCT INRCT INRCT

48. 8577 84 46.1535 88 45.9677 12 54.7465 16 52.6896 28 52.7954 24 8.6886 INRCT 8.8898 INRCT 9.8898 IHRCT 8.6888 IHRCT 8.8888 INRCT 8.8888 INRCT 47.4539 46.8686 45.5962 52 F 1451 52 '825 51.5413 6 ~ 8898 6.8888 9.8998 8.8888 8.8888 8.8868 DEW CELLS DC 81 21.4586 DC GS

.'2.3638 INRCT 8.8888 I.HRCT 8 ~ 8888 RVG 28>>7767 Rt IBI El'IT PRESS VFIPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I HFICT IHRCT

14. 4838

.8883 51.3259 8.8888 38.9848 31.4858 8.8888 8 ~ 8888 DC 83 I NFIC7 INRCT INRCT 38.5616 DC 84 8.8888 INRCT 8.8886 IHRCT 8.8888

22. 1885 8.8888 8.8888

J'V 11

RECORD NUMBER 218 DRTE - 67 TIME 8 PRESSURES 52.5532 58.2469 RVG

51. 4681 RTD'S Gi 85 89 13 17 21 I HFICT I NFICT I NFICT INACT INACT IHRCT INRCT RVG
45. 5962
46. 3393 46 e,1999
45. 6426
52. 8987

~ 52.8522 6.8888 6.8888 8.8888 8 ~ 8888 6.8888 8.8888 8.,8888 49.6778 82 86 18 14 18 22 INRCT IHRCT I HFICT INRCT INRCT

~

INRCT I HFICT

45. 7828 45

~ 9677 47

~ 7326

45. 1782
58. 8885
52. 9812
8. 8888 8.. 8888.

8.8888 8.8888 8 ~ 8888 8 ~ 8888 8.8888 83 87ii 15 19 23 IHRCT IHRCT IHFICT I HFICT I HFICT IHRCT 47.9648 46.8142 45.8748 54.6535 52 '896 52.7498 6.8888 6.8888 8.8888 8 ~ 8688 8.8688 8.8888 84 88 12 16 28 24 INRCT I NFICT INRCT INRCT INRCT I NFICT 47.3618 46.1871 45.S498 52.8987 52 'S61 51.4948 8.8888 8 ~ 8888 8 ~ 8888 8.8888 8.8888 6 ~ 8888 DEW CELLS DC 81 21.6113 DC 85 31.1791 INRCT

8. 8988 INRCT G. 8888 RVG 28.4855 Flt1B I EHT PRESS VAPOR PRESSURE DRY PRESSLIRE FLOWS DC 82 DC 86 INRCT I NFICT 14.4838

.8?94 51.3287 8 ~ 8888 38.6921 31.2437 8.8888 8.8886 DC 83 INRCT INRCT IHRCT

38. 3981 DC 84 G. 8888 I NFICT
8. 8888 I NFICT
8. 8888 22.8671 8.8888 8.8888 RECORD NUMBER - 219 DRTE 67 TIME 15 PRESSURES 52.5587 58.2439 RVG 51.3973 RTD'S 81 85 89 13 17 21 IHACT INRCT

'I NRCT IHACT IHRCT I NACT.

INACT AVG 45.5962 46.2928 46.1871 45.7355 52.8987 52 '522 8.8886 6.9996 8.8888 8.8888 8.8888 8.,8888 8.8888 49.6631 82 86 18 14 18 22 INRCT IHRCT I HFICT INRCT INRCT INRCT INRCT

45. 7828
45. 9677 47.7326 45 '318 58.8885 52 '812 8 ~.8688 8.8888 8.8868 8.8888 8.8888 9.8888 8.8888 83 87 11 15 19 23 IHRCT IHRCT IHRCT INRCT INRCT INRCT
48. 6113
46. 1871 45.9213 54.5666 52.5632 52.6561 8.6896 8.6888 6.6886 8 ~ 6696 8 ~ 9888 6.8688 84 88 12 16 28 24 INRCT I NFICT INRCT I HFICT IHRCT I NFICT 47 ~ 3618
45. 9677
45. 5962
52. 8522
52. 6561 51.4484 8.6888 8.8886 8.8888 6.9669 8.8888 8.8888 DEW CELLS DC Gi 21.5358 DC 85 32.6485 IHFICT
8. 8888 INRCT 8.8688 RVG
28. 3977 RtlBI ENT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC

'86 INRCT INRCT

14. 4838

.8?94 51.3188 8.8888 38 ~ 6269 38 ~ 6269 8 ~ 8888 8.8888 DC 83 INRCT INRCT INRCT 38

~ 2812 DC 84 8.8888 IHRCT 8 ~ 9888 INFICT 8.8888 28

~ 7661 8 ~ 8888 8.6888

RECORD NUNPiER 216 DATE 66 T I NE 2338 PRESSURES

~ 52 '569 58.2588 AVG 51.4834 RTD'S 81 85 89 13 17 21 I NRCT INRCT INRCT INRCT IHRCT INRCT INRCT RVG 45.'5962 46.:3393 46 e-'2928

45. 5962
52. 1916
52. 8987
8. 8888 G. 8888
8. 8888
8. 8888 8.8888 8.8888 8.8888 49.7885 82 86 18 14 18'2 INRCT INRCT INRCT INRCT IHACT IHRCT INRCT
45. 7828
45. 9677 47.7798 45.1782 58 '885 53.6741 8.8888 8; 8988
8. 8888
8. 8888

.8.8888 8.8888 8.8888 93 87il 15 19 23 I NRCT IHACT INRCT I HFlCT INRCT INRCT 47

~ 9184

46. 8666
45. 9677 54.6871 52.6896 52.7954 8.8888 8.8888 8.8888 8 ~ 8888 8.8888 8 ~ 8888 84 88 12 16 28 24 INACT I NFICT INRCT INRCT INRCT INRCT 47

~ 4875

46. 1535 45

~ 5498

52. 1451
52. 7498 51.4484 8.8888 8 ~ 8688 8 ~ 8886 8 ~ 9688 8.8888 8 ~ 8888 DEW CELLS DC 81 21 F 4586 DC 85 38.8874 IHACT
8. 8888 IHRCT 8.8888 RVG 28.2272 RHBIENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT IHACT 14 F 4838

.8789 51.3245 8.8888

38. 7573 38.6921 8.8888 8.8888 DC 83 INACT INRCT INRCT
38. 2669 DC 84
8. 8888 INACT
8. 8888 INRCT
8. 8888 22.1885 8.8888 8.8888 RECORD NUNIlER 217 DATE 66 TII'iE 2345 PRESSURES 52 '544 58.2498 AVG 51.4817 RTD'S 81 85 89 13 17 21 INRCT INRCT INACT INRCT IHRCT IHACT-

'I NAGT RVG 45..5962 46.3393 46.2464 45.S962 52.14Sl 52.8987

8. 6686 G. 8888
8. 8868 G. 8888 G. 8888
8. 8888 Go 6888
49. 6858 92 86 18 14 18 22 INACT INRCT INACT IHRCT I HRCT IHRCT INRCT

.45. 7828

46. 8142
47. 7798 45.1318 58.0885 53.8277 8 ~ 8688 9.8886 8.8988 8.8888 8.8888 8.8888 8 ~ 8888 83 87 11 15 19 23 INRCT INRCT IHRCT IHACT INRCT INRCT
48. 8113 84 46 '142 88 45

~ 9213 12 54.6671 16 52.6896 29 52.7954 24 8.6888 IHRCT 8.8888 INRCT 8.8888 IHRCT 8.6868 INRCT

8.8888 IHRCT 8.8888 INRCT 47 '4875

46. 1671 45 '498 52 '987 52 '625 51.4948.

8.8668 8.8888 8 ~ 8888 8.8688 8.8698 8 ~ 8888 DEW CELLS DC 81 21.3438 DC 85 27.8286 INRCT

8. 8888 INACT 8 ~ 8888 RVG 27

~ 5315 RthB IENT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHRCT IHRCT 14.4838

.8772 51 '245 8.8888

38. 7573 31.1791 8.8988 8.8888 DC 83 IHRCT INRCT INRCT 38.2812 DC 64 8.6888 INRCT 8.8888 INACT 8 ~ 8888 22.8671 8.8888 9.8888

RECORD NUHEtER 214 DRTE " 66 TINE 2388 PRESSURES RTD'S 81 85 89 13 17 21 INRCT IHACT INACT INRCT INRCT INACT INRCT RVG

45. 5962
46. 3857
46. 2928
45. 5962
52. 2845
52. 8987
8. 8888 8 ~ 8888
8. 8888 G. 8888
8. 8888 G. 8888
8. 8888
49. 7288 52

~ 5581 82 86 18 14 18 22 IHRCT INRCT INRCT INRCT I t<ACT INRCT IHRCT

58. 2528 FlVG 45.7828
46. 8142 47.8255.

11 45.1318 15 58.8885 19

53. 8741 23
8. 8888 8.8888 INRCT INRCT
8. 8888. IHRCT
8. 8888 IHRCT
8. 8888 IHRCT I NFICT 51 '851 48.8113 84 46.1871 88 46.8142 12 54.7888 16 52.6561 28 52.7954 24 8.8888 IHFICT 8.8888 INRCT 8.8888 INRCT 8.8888 INRCT 8.8888 INRCT 8.8888 INRCT 47.4539 46.1535 45 '498
52. 1451 52

~ 7498 51.4948 8.8888 8

F 8888 8.8888 8.8888 8.8888 8.8888 DEW CELLS DC Gi 21.4283 DC 85 32.8777 INACT G. 8888 INACT 8.8888 RVG

28. 5525 Rt1B I EHT PPESS

'APOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14.4838

.8798 51.3253 8.8888

38. 8874
38. 6269 8.8888 8.8888 DC 83 IHRCT INRCT INRCT 38.2669 DC 84 8.8888 INFICT 8.8888 INRCT 8.8888 22.4817 8.8888 8.8888 RECORD NUHEtER - 215 DFITE 66 TINE 2315 PRESSURES
52. 5557 58.2588 RVG
51. 4828 RTD'S 81 85 89 13 17 21 INACT INACT INACT IHRCT INACT INRCT INRCT RVG
45. 5962
46. 3393
46. 2464 45

~ 5498

52. 1916
52. 1451 G. 8888
8. 8888
8. 8888 8 F 8888 8.8888 8.8888 8.8888 49 '967 82 86 18 14 18 22 I t<RCT IHRCT I NFICT INRCT IHRCT INRCT INRCT
45. 7828
46. 8142
47. 8255
45. 1318
58. 8885
53. 8741 8.8888 8.8888 8.8888 0.8088 8.8888 8 F 8888
8. 8888 83 87ii 15 19 23 INRCT IHRCT INRCT IHRCT INRCT IHRCT 47

~ 9648 84 46.8686 88, 45.9677 12 54.7465 16 52.6896 28 52 '954 24 8.8888 IHFICT 8.8888 IHFICT 8.8888 INRCT 8.8888 INFICT 8.8888 IHFICT 8.8888 INFlCT 47.4875 46.1535

'5.5833 52.1451 52.6561 51.4484 8.8888 8.8888 8 F 8888 8 F 8888 8 F 8888 8 F 8888 DEW CELLS DC 81 21 '438 DC 85 28 '718 IHACT 8 ~ 8888 INRCT

8. 8888 RVG
27. 6998 RNB I EHT PFtESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT IHRCT
38. 7573
38. 8224 8 o'8888
8. 8888 14 '838' 8776 51.3252 8.8888 DC 83 INFICT IHRCT INRCT 38.8696 DC 84 8.8888 IHRCT 8.8888 IHRCT 8.8888 22.2568 8.8888 8.8888
52. 5594 58.2536 RYG PRESSURES RTD'S 81 45.5962 46 ~ 3857 46'1'535 82 86 18 45

~ 8284 46

~ 8142

47. 8255 45

~ 1782

58. 6549 53.8277 G. 8688 G. 8668 G. 8888
8. 8888
8. 8688 8 ~ 8868 8 ~ 8888 83 87 11 15 19 23 I HFICT IHRCT I NFICT I HFICT I NFICT IHRCT 85 89 13 17 21 INRCT I NFICT INACT INACT INRCT IHRCT IHRCT RYG DEW CELLS DC 81 21.8397 DC 85 38.9848 I HFICT
8. 8888 IHRCT 8 ~ 8888 RVG
28. 3453 RthB I El'lT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS
45. 6426 14
52. 1451 18 52.8987 22 IHRCT INRCT INRCT
8. 8888
8. 8888
8. 8888 INRCT I HFICT INRCT INRCT DC 83 INRCT INRCT INRCT
38. 8874
38. 8224 G. 8688 8 ~ 8888 DC 82 DC 86 INRCT INRCT 14.4838

.8792 Si.3278 6.6666 RECORD NUMBER 212 DATE 66 TIME 2238

51. 4862
48. 8577
46. 1871 46.8142 54 '929 52.6896 52.7498
8. 6666 8.6888
8. 8888 6.8888 8.8868 8.8868 84 88 12 16 28 24 INRCT INRCT INRCT I NFICT I NFICT I NFICT 38.4388 DC 84 8.6888 INRCT 8.6666 INFICT 8.8888 47.4875 46.8686 45.5962 52.1451 52.7825
51. 4948 8.8888 8.8888 8.8888 6 ~ 8888 8 ~ 8888" 8 ~ 8888
22. 8293 8.8888 8.6666 RECORD NUMBER 213 DFITE 66 TIt'lE 2245 PRESSURES 52 '581 58.2528 RVG 51.4851 RTD'S 81 85 89 13 17 21 I NRCT INACT INRCT INRCT I NFICT INFICT INRCT FIYG
52. 2388
52. 8987
8. 8888 8.8888 8.8888 G. 8888 8.8888 8.8888 8.8888 49.7171 18 22 IHRCT IHRCT I HFICT IHRCT I NFICT IHRCT INRCT 45.5962 82 46.3857 46.2464 16 45.5962"14
45. 8284
46. 8142
47. 8255 45.1318 58.6885 53.8741 8.8888 8.8888 8.6666 6.8688 6.6666 8.8888 8.8688 63 87 11 15 19 23.

INRCT I NFIC T INRCT IHRCT INRCT IHRCT 48.8113 84 46.6686 88 45.9213 12 S4.8858 16 52.6896 28 52.7954 24 8.8868 IHFICT 6.6666 INRCT 6 ~ 6688 INRCT 6.8888 IHFICT 6 ~ 6666 IHRCT 8.8868 IHACT 47 '539 46.1871 45 '498 52.1916 52 '625 51.4484 8.8888 8.8686 8.6668 8.8888 6.8888 8.8888 DEW CELLS DC Gi 21.2671 DC 85 29.7724 INACT

8. 8888 INACT '.,8888 RVG 28.1288 RMBIEHT PRESS YRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 II'l ACT I NFICT 14.4838

.8786 51.3264 Ge8888 38.9523 38.9523 8.8888 8.8888 DC 83 IHRCT INACT INRCT 36.6269 DC 84 8.8888 IHRCT 8.8888 IHRCT 8.8888 22.4866 6.6666 8.8886

If%

L'

PRESSURES RTD'S Gi 85 89 13 1?

21 INACT INRCT I NFICT INRCT IHRCT I NFICT I NF}CT FIVG 45

~ 5498

46. 3393 46..1871
45. 5498 52'987, 52

~ 8522

8. 8888 G. 8888 8.8888 6 ~ 8888 8.8868
8. 8888
8. 8888
49. 6657 RECORD HUMIIER - 228 82 86 18 14 18 22 I NFICT INRCT I NFICT INRCT INRCT INRCT IHRCT
45. 7828
45. 9677
47. 6862
45. 1318
58. 8885
52. 9812
8. 8888 8; 8888 8 ~ 8888
8. 8888 83 87 11 15 19 23 I NFICT I HFICT INRCT IHRCT
9. 6688 '

NRCT

8. 8888 I NFICT
8. 8888 DRTE 67 TIME 38
52. 5587 58.2449 RYG 51.3978 84 88 12 16 28 24 I NFICT I NFICT I HFICT INFICT INFICT IHRCT 47.9648 46.8142-45.9213 54.8394 52.5632 52.7825 8 ~ 9888 8 ~ 8888 8 ~ 8888 8.8888 8.8868 8.8888 47 '618 45.9213 45.5498 52.1451 52.6561 51.4948 8.8888 8.6888 8.8668 8.8888 8.8888

'8.8896 DEW CELLS DC 81 21.4283 DC 85 38.6269 INRCT

8. 8888 INRCT
8. 8888 RVG 28'651 FIMBI ENT PRESS YRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INACT INRCT
38. 6269
38. 7573
8. 8888
8. 8888 14.4838

. 8785.

51

~ 3193 8.8888 DC 83 INRCT INRCT INRCT 38.4635 DC 84 8.8888 IHFICT 8.8688 INFICT 8 ~ 8888

21. 2671 G. 8888
8. 8888 RECORD NUMBER 221 DRTE 67 TIME 45 PRESSURES 52.5495

'8. 2419 RYG 51.3957 RTD'S 81 85 89 13 17 21 IHACT INRCT INRCT INRCT IHRCT INRCT I NFICT RVG 45.5498 46 '393 46 '999 45 '962 52.1451 52.6522 8.8888 8.8888 6 ~ 8888 8 ~ 8888 8.8888 8.8888

'.8888 49e6437 82 86 18 14 18 22 I HFICT INRCT IHRCT INRCT IHFICT I NFICT I NFICT

45. 7828
45. 9213 47.7326 45.1318 49 '628 52.9348 8.8888 8.8888 8.8888 8.8888 8.8988 8.9088 8.8888 03 87 11 15 19 23 INRCT INRCT INRCT INRCT IHACT I HFICT
47. 8719 84
46. 8142 68 45.9213 12 54.4677 16 52.5632 28

'52.7825 24 8.8888 INRCT 8.8898 IHFICT 8.8988 IHFICT 8.8888 INRCT 8.8888 INRCT 9.8888 IHRCT 47

~ 3618

46. 8686 45

~ 5833

52. 8522 52

~ 6561 51

~ 4484 G. 8886

8. 8866 G. 8888 8.8888 8 ~ 8888 8.8888, DEW CELLS DC Gi 21.2671 DC 85 28.1618 INACT 8.6888 INRCT 8.8888 RYG
27. 4446 RMBIENT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHRCT I NFICT 14

~ 4838

.8778 51.318?

8.8888

38. 4963
38. 9523
8. 8888
8. 8888 DC 83 IHFICT INRCT
IHRCT,
29. 9377 DC 84
8. 8888 I NFI C T G. 8888 I NFICT
8. 8888
21. 8397 8.8888 8.8888

RECORD NUMElER 222 DRTE 67 TIME 188 PRESSURES 52.5587 58.2439 RVG

51. 3973 RTD'S 81 85 89 13 17 21 INRCT INRCT INRCT I NFICT INRCT INRCT INRCT AVG
45. 5498 46.2928 46.2464 45.5962 52.1451 52 '987 8.8888 8.8888 8.8888 G. 8888 G. 8888 G. 8888
8. 8888 49 ~ 6722 82 86 18 14 18

~

22 I HFICT INRCT INRCT IHRCT INRCT INRCT INRCT 45

~ 7355 45.9677 47 '326 45.8853 49.9628 53 '741 83 87 11 15 19 23 INRCT 8

F 8888 8.8888 IHRCT G. 8888. INACT 8 F 8888 INRCT 8.8888 INRCT 8

F 8888 INRCT

47. 9184
45. 9677
45. 9213 54

~ 6535

52. 6896 52.7954 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 84 88 12 16 28 24 IHRCT IHRCT I HFICT INACT INACT INACT 47.3618 46.1871 45.5833 52.1451 52.7825 51.4819 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 DEW CELLS DC Gi 21.8364 DC 85 29.8397 INRCT 8.8888 INRCT 8.8888 RVG 27>>6711 RMBIENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I NFICT IHACT 14.4838

.8775 51>>3198 8.8888

38. 4963
38. 6269
8. 8888 G. 8888 DC 83 INRCT INRCT INRCT 38.3981 DC 84 8.8888 IHRCT 8.8888 IHRCT 8.8888 21.7637 8.8888
8. 8888 RECORD NUMBER 223 DRTE 67 TIME 115 PRESSURES
52. 5478 58.2489 AVG
51. 3948 RTD'S 81 85 89 13 17 21 INACT INRCT IHRCT IHRCT INRCT
INRCT, INRCT RVG 45

~ 5498

46. 2928 46

~ 1871 45

~ 5962 52

~ 8987 52

~ 8522 8 ~ 8888 8 ~ 8888 8 ~ 8888

8. 8888 8.8888 8>>8888 8>>8888 49.6472 82 86 18 14 18 22 IHRCT INRCT IHRCT INACT I HFICT IHRCT IHRCT
45. 7355 45.9213 47.6862 45.1318 58.8885 52.981-2 8.8888 8.8888 8.8888 8 ~ 8888
8. 8888
8. 8888
8. 8888 83 87 11 15 19 23 INRCT

~

INRCT IHRCT IHRCT INACT IHACT

47. 9184 84 46

~ 8142 88 45

~ 9213 12

54. 5686 16 52 '632 28 52.7825 24 8.8888 INRCT 8.8888 INRCT 8.8888 IHRCT 8.8888 INRCT 8.8888 INRCT 8.8888 INRCT
47. 3618 46.8142 45.5833 52 '987 52 '896 51.4484 8 '888 8.8888 8 '888 8.8888 8.8888 8 F 8888 DEW CELLS DC Gi 21.3438 DC 85 28 '937 INRCT G. 8888 INRCT 8.8888 RVG 27.2885 RMBI EHT PF! ESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INFICT INRCT 14

~ 4838

. 8766 51.3173 8>>8888 38.4635 38.4635

8. 8888 8 ~ 8888 DC 83 INRCT IHRCT I HFICT
29. 9847 DC 84 8.8888 INRCT 8.8888 INACT 8.8888 21>>4283 8.8888 8.8888

RECORD NUHBER 224 DFITE 67 TIt'1E 138 PRESSURES 52.5478

58. 2489 FIVG 51.3948 RTD'S Gi 85 89 13 17 21 INRCT IHACT INRCT INRCT INRCT INACT INRCT RVG 45;5498 46.'2928 46.1535 45;5498

,52.8987 52.8858 8.8888 8.8888 8.8888 8.8888 Go8888 8.8888 8.8888 49.6418 82 86 18 14 18

~

22 INRCT INRCT INRCT INRCT INACT I NFICT INRCT 45.

45 47

'5.

49

'2 8.

8 ~

G.

8 ~

8 ~

8.

7355 9213 6862 8853 9628 87ii 15 19 9812,23 8888 INRCT 8888.

IHRCT'888INRCT 8888 'NRCT 8888 INRCT 8888 INRCT 8888 47

~ 9184 46

~ 8142

45. 8748
54. 6535

~ 52

~ 5632

52. 7498 8; 8888 8 ~ 8888 8 ~ 8888
8. 8888 8 ~ 8888 6 ~ 8888 84 88 12 16 28 24 INRCT IHRCT I NFICT INRCT INRCT INRCT
47. 3146 46.8666 45 '833 52.8987 52.6561 51.4484 8.8888 8.8886 8.8888 8.8866 8.8888 6.8886 DEW CELLS DC 81 21.3438 DC 85 26 '784 INRCT 8.8888 INRCT
8. 8888 FIYG
26. 8898 RHBIEHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14.4838

.8755 51.3185 8 ~ 8886

38. 4635 38.5616 8.8888
8. 8888 DC 83 INRCT INRCT INRCT 38

~ 8837 DC 84

8. 8888 I NFICT
8. 8888 INRCT
8. 8888
28. 5334
8. 8866 G. 8888 RECORD NUNBER 225 DFITE 67 T It'1E 145 PRESSURES
52. 5446 58.2388 FIVG 51.3917 RTD'S Gi 85 89 13 17 21 INRCT INACT IHACT IHACT IHRCT I NFICT IHRCT RYG

.45

~ 5498

46. 2928 46

~ 1535

45. 5498 52

~ 8987 52

~ 6522 8 ~ 8888 6 ~ 8888 8 ~ 8888

, 8.8888 8.8888 8 ~ 8888 8 ~ 8888 49 '274 82 86 18 14 18 22 INRCT INRCT INRCT INRCT I HFICT INRCT INRCT

45. 7355
45. 8748
47. 6862
45. 8389 SG. 8685 52.9348 6.8688 8.6688 8.8688 8.8688 8.8888 8.8888 8.8888 83 87 11 15 19 23 I NFICT INACT IHRCT INRCT INRCT INRCT
47. 8719 46.8142 45.8748 54.7888 52.5167 52 '825 8.6888 8.8888 8.8888 8.8888 8.8888 8.8888 84 88 12 16 28 24 INRCT IHRCT IHRCT INRCT INRCT INRCT
47. 3146 45

~ 8748 45

~ 5498 S2

~ 8522

52. 6561 51.4819 6 ~ 8688 6.8868 8 ~ 8668 8.8886 8.8866 8 ~ 8868 DEW CELLS DC Gi 21.5358 DC 85 32.4271 IHRCT 8.8886 INRCT

'.8868 RVG 28 ~ 2648 RI1B I ENT PRESS YRPOR PRESSURE DRY PRESSURE FLOWS DC 82, DC 66 INACT INRCT 14.4838

~ 8798 51.3127 8.8888

38. 3981
38. 6269
8. 8868
8. 8888 DC 83 I NFICT I HFICT INRCT
29. 9847 DC 84 8888 IHRCT
8. 8888 I NFICT
8. 8888 28

~ 8435

8. 8888 8 ~ 8888

C (

f 1,

f

RECORD NUMBER 226 DFITE 67 TI'ME 288 PRESSURES RTD'S 81 85 89 13 17 "21 IHRCT I NFICT INACT INACT INACT IHRCT I NFICT AVG 45 5498 46.2928 46~1871 45.5498 52.1916 52e8522 8.8688 8.8888 8.8888 8.8888

8. 8888
8. 8888
8. 8888
49. 6485 RYG 82 86 18.-

14 18

'2 INRCT I HFICT I HFICT I HFICT I HFICT INRCT INRCT 45.7355 83 45.8748 87 47.6862 11 45.8853 15 49.9628 19 52.9812 8.8888 G.. 8888.

8. 8888 8.8888 8.8888 8.8888 8.6888 23 INRCT I HFICT IHRCT.

INRCT I NFICT INRCT

52. 5446 58

~ 2388 51.3917 47

~ 9184 84 45.9677 88 45.8748 12 54 '686 16 52.5632 28 52 '825 24 8.8688 INFICT 8.8886 INRCT 8.8888 IHFICT 8.8888 IHRCT 8 ~ 8888 INRCT 8.8888 INRCT 47.3146 45.9213 45.5833 52 '987 52.6561 51.4484 8.8888 8.8888 8.8888 8.8888 8.8888 8.8868 DEW CELLS DC Gi 21.8364 DC 85 31e9581 INACT 8.8888 INRCT

8. 8888 RVG 28 '168 RMBIENT PPESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHRCT INRCT
14. 4838

. 8789 51.3128 8.8888

38. 3325
38. 6921
8. 6888
8. 8888 DC 83 INRCT INRCT INRCT 36.2812 DC 84 8.8888 INFICT 8.8888 IHRCT 8.8888 21.1983 8.8888 8.8888 RECORD NUMBER 227 DRTE 67 TIME 215 PRESSURES 52 '446
58. 2388 FIYG.
51. 3917 RTD'S Gl 85 89 13 17 21 INACT INRCT INACT INRCT INACT IHACT

'NRCT RVG

45. 5498
46. 2928
46. 8666 45 ~ 5498
52. 8987
52. 8858
8. 8888 G. 8888 8.8888 8.8888 8.8888 Ga8888 8"8888 49.6247 82 86 16 14 18 22 I HFICT INFICT IHRCT IHRCT INRCT IHRCT INRCT 45

~ 7355 45.8748 47 '397 45.88S3 49.9628 52.9348 8.8888 8.8868 8.8888 8 ~ 8888 8.8888 6.8888 8.8888 83 87 11 15 19 23 I HFICT INRCT IHRCT IHRCT IHRCT IHRCT

47. 9184
46. 6142 45

~ 8748 S4. 6871 52.5632 52.7825 8.8888 8.8888 8 ~ 8888 8 ~ 8888 6.8866 8.8888 84 88 12 16 28 24 INRCT INRCT INRCT INRCT I NFICT I NFICT 47.3146 45.9677 45.4569 52.8522 52.6561 51.4484 8.8888 8.8888 8.8888 8.8886 8.8888 8.8888

'DEW CELLS DC 81 28.8435 DC 85 38.9848 INACT

8. 8888 INACT 8 ~ 8888 RYG 27

~ 8822 AMBIENT PPESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHRCT I HFICT 14.4838

~ 8788 Sie3137 8 ~ 8888 38.4635 38.4635 8.8888 8.8888 DC 83 INRCT INRCT IHRCT 29

~ 9377 DC 84

- 8 ~ 8888 I HACT G. 8888 IHRCT.

8 ~ 8888 21.1983 8.8888 8 ~ 8888

RECORD NUMBER 228 DFITE 67 T I ME 238 PRESSURES RTD'S 8) 85 89 13 17 21 INRCT INACT INRCT INRCT IHACT INRCT I HFICT RVG

45. 5833
46. 2464 46..8142 45.5833 52.8987 52.8858 8 ~ 8888 8 ~ 8888
8. 8888
8. 8688
8. 8888 G. 8888 6 ~ 6888
49. 6876 52.5421 82 86 18 14 18 22 I HFICT IHRCT INRCT INRCT INRCT IHRCT INRCT 45

~ 7355

45. 8748
47. 5933 45.8389 49.9628 52.9348 8 ~ 8888 8.8888 8 ~ 8888 8 ~ 0888 8 ~ 8868 8.8888 8 ~ 8888 83 87 11 15 19 23 IHRCT INRCT INRCT INRCT INRCT INRCT 58.2368 RVG
51. 3895 84 88 12 16 28 24 I NFICT IHRCT IHRCT INRCT INRCT INRCT
47. 8719 45.967?

45.8748 54.6535 52.5167 52.7498 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 47.2682 45.9213 45.5833 52.8522 52.6896 51.4819 8.8888 8.8868 8.8888 8.8888 8.8888 8 ~ 8888 DEW CELLS DC 81 21 '983 DC 85 28.4671 INACT 6.8888 INRCT G. 8888 FIVG

27. 1978 RMBI El'IT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT INRCT 14.4836

~ 8764 51.3131 6.8888 38.3325 38.3325 8 ~ 8888 8 ~ 8888 DC 83 INRCT INRCT INRCT

29. 6399 DC 84 8.8888 INFICT 8 ~ 8888 INRCT 8.8888
28. 9979
8. 8888 8 ~ 8888 RECORD NUMBER 229 PRESSURES 52.5489 56.2358 DATE - 67 TIME 245 51.3883 RTD'S 81 85 89 13 17 21 INRCT INRCT INRCT INRCT INRCT INRCT INRCT RVG 45.5498 46.2464 46.8686 45.S633 52.8522 51.9593 8.8888 8.8888 8.8888 8.8888 8.,8888 8.8888 8.8888 49.6886 82 86 18 14 18 22 IHRCT INRCT IHRCT INRCT INRCT INACT INRCT
45. 7355 45

~ 9213

47. 5933
45. 8389
49. 9628
52. 9348
6. 6686
8. 8888 G. 8888
8. 8868
8. 0888 8.8888 8.8888 63 87il 15 19 23 IHRCT I HFICT I HFICT I HFICT I NFICT I NFICT
47. 9648 46

~ 8142 45.7828 54.7868 52.5167 52.6561 8.8888 8.8888 G. 6888 8 ~ 8888 8 ~ 8888 8 ~ 8888 84 88 12 16 28 24 I NFICT" IHFICT I NFICT IHRCT.

I NFICT I HFICT

47. 2682 45.8284 45.5833 52.8522 52.6696 51.4819 6 ~ 8666 8.8888 8.8888 8 ~ 8868 6.8888 8.8888 DEW CELLS DC Gi 21.2671 DC 85 28.9855 IHRCT 8 ~ 8888 INACT
8. 8888 RVG 27 '452 RMBIEHT PRESS, VFIPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT IHFICT 14.4838

.8765 51.3118 8.8888 38.1354 38.3981 8.8888 8.8888 DC 83 IHRCT IHRCT INRCT 29.7862 DC 84 8.8888 INFICT 8.8888 INFICT 8.8888 28.5334 8.8888 8.8868

8"J 9

)[.

gf

45.5833 46.2464 46.1871 45.5833 52.8987.

51.9593 8.8688 8 ~ 8888 8.8888 8 ~ 8888 8.8888 8 ~ 8888 8.8888 49.5994 RECORD NUMBER 236 PRESSURES RTD'S 81 85 89 13 17 21 INACT INACT INRCT INRCT ~

INACT INRCT INRCT RVG 52.5489 58.2348 RVG 82 86 18 14 18'2 IHRCT INRCT IHRCT IHRCT IHRCT INRCT I NFICT

45. 7355
45. 8748
47. 6397
45. 8853
49. 9628 52

~ 9348 83 87 11 15 19 23 IHRCT 8: 8868'NRCT 8 ~ 6888 I HRCT 8.8888 IHRCT I HFICT 8 ~ 6888

8. 8888 IHRCT DATE 67 T I ME 388 51.3878 84 88 12 16 28 24 IHRCT INRCT

.I NFICT IHRCT IHRCT INRCT

47. 8255 45.9677 45.8748 54.6871 52.5167 52 '561 8.8888 8.8888 8.6888 8.8888 8.8888 8.8888
47. 2682 45.9213 45.4569 52.8858 52.6696 51 F 4819 8

~ 8666 6.6996 8.9996 8.8888 8.8986 8.8888 DEW CELLS DC Gi 21.1134 DC 85 38.4635 INACT

8. 8888 I NFICT
8. 8888 RVG 27.7729 AMBIENT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 62 DC 86 INRCT I NFICT 14.4838

~ 8778 51.3181 8.8888 38.3981 38.2669 9.8888 8.8886 DC 83 29.8386 DC 84 INRCT 8.8888 INRCT INFICT 8.8888 IHFICT IHRCT 8.8888

21. 4586
8. 8888 6.8888 RECORD NUMBER 231 DATE 67 TIME 315 PRESSURES 52.5396 58.2338 RVG 51.3867 RTD'S 81 85 89 13 17 21 INACT I NFICT IHACT IHACT INRCT INACT INRCT RVG 45

~ 5833 46

~ 2464 46 '686 45 '833 52 '987 52.6858 8 ~ 8888 8 ~ 8888 G.'888

8. 8888
8. 8888
8. 8888
8. 8888
49. 6849 62 86 18 14 18 22 I HFICT I NFICT IHRCT INRCT 18FICT INFICT IHRCT
45. 6891
45. 8748 63 87
47. 5468 11 45 '853 15 49.9628 19
52. 9348 G. 6888 G. 8888
8. 6868 23 IHRCT IHRCT IHRCT 8.8888 8.8888 8.8888 IHRCT INFICT 8.8888 IHRCT
47. 9648 45 '677 45.8284 54.7888 52.5167 52.6561 6.8888 6.6696 8.8888 6.8888 8.8888 8.8888 84 88=

1'2 16 28 24 INRCT INRCT IHRCT IHACT INRCT I HFICT 47.2682 45.9213 45.5833 52.8858 52 '896 51.4619 8 ~ 6668 9.6696 8.8888 9.6888 8.8888 9.8888 DEW CELLS DC 81

, -21.1983 DC 85 29.2878 INRCT 8 ~ 8888 INRCT 8.8888 RVG 27 '483 RMBIEHT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHACT I NFICT 14

~ 4838

. 8767

51. 3188
8. 8888
38. 2669
38. 3981
8. 8888
8. 8988 DC.

83 INRCT INRCT INRCT 29

~ 6399 DC 84 8..8888 I HFICT

8. 6888 I NFICT
8. 6888
28. 7661 8 ~ 8888 8 ~ 8888

V I '

RECORD HUHBER - 232 DFITE 67 TINE 338 PRESSURES RTD'S Gi 45'5833

46. 2464 46..8686
45. 4569 52

~ 1451

52. 8858
8. 8888
8. 8888 6.8888 G. 8888 G. 8888 8.8688 8.8888 49.5982 85 89 13 17 21 INRCT IHRCT INRCT INRCT INRCT INRCT INRCT RVG DEW CELLS DC 81 21.1983 DC 85 29 '483 INRCT G. 8889 IHRCT 8 ~ 8868 RVG 27. 6116 FIHB I ENT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS 52.5384 82 86 18 14 18.

22 IHRCT INRCT INRCT INRCT IHRCT IHRCT INRCT DC 92 DC 86 IHRCT IHRCT

14. 4838

. 8774

51. 3882
8. 8888 45.6891 45.8748 47.5468 44.9924 49.9156 52.9348 9 ~ 8888 8; 8888 8 ~ 8888
8. 8888
8. 8888
8. 8888
8. 8888 63 87 11 15 19 23 I HFICT I HFICT IHFICT I NFICT I HFICT INRCT
38. 2669
38. 3325 G. 8888
8. 8888 DC 83 I HFICT IHRCT INRCT 56 '328 RYG 51.3856
47. 8719
45. 9213 45.8284

-54.5142 52.5167 S2.7825 8.8888

8. 8888 8.8888 8.8888 8

~ 8888 8.8888 84 88 12 16 28 24 INRCT INRCT IHRCT INRCT I HFICT I NFICT

29. 9847 DC 84
8. 8888 IHFICT 8.8888 INRCT 8 ~ 8888 47.3146 45 '677 45.4569 52.8522 52.6896 51.4819 8 ~ 8888 8 ~ 8888 8.8888 8.8888

'.8898.

8.8888

21. 6876 8.8888 8.8888 RECORD NUHBER 233 DATE 67 TII'IE 345 PRESSURES
52. 5368 58.2317 RYG 51 '838 RTD'S 81 GS 89 13 17 21 IHRCT.

INRCT INRCT INRCT INRCT I HFICT IHRCT RVG 45.5633 46.2464 46.8142 82 66 18

52. 8522
51. 9593
8. 8898 G. 6886
8. 8886
8. 8888
8. 8888
8. 8888 Ge 8888 49e5756 18 22 IHRCT INRCT I HFICT IHRCT INRCT IHRCT INRCT:
45. 5833" 14
45. 6891
45. 8748 47

~ 6397

45. 9853
49. 9156
52. 8883
8. 6888 G. 8688
8. 8886 G. 8888
6. 8888
8. 8888
8. 8888 83 87il 15 19 23 IHRCT I NFICT INRCT INRCT INRCT INRCT
47. 8719 84 45.9677 88 45.7828 12 54.4677 16 52.4763 28 52.7625 24 8.8888 IHFICT 8.8688 INFICT 8 ~ 8688 INRCT 8.8888 INFICT 8.8888 INFICT 8.8888 INFICT
47. 2682
46. 8142 45.4569 51.9593 52.6896 51.3555 8.6888 8.8888 6.8988 9.8888 8.8888 8.8888 DEW CELLS DC 81 26.8435 DC 85 38.8224 IHRCT 8.8866 INRCT 8.8888 RVG.

27

~ 8838 RHBIENT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INRCT I NFICT 14.4838

.8779 Si.3868 8.8888

38. 2812
38. 13S4
8. 8888 G. 8886 DC 83 INRCT I HFICT IHRCT
29. 7724 DC 84
6. 8888 INRCT
8. 8888 I HFICT
8. 8888
21. 6876
8. 6888
8. 8888

W

'jl,

RECORD NUt'IBER 234 DATE " 67 T I t'lE 488 PRESSURES 52.5372 58.2317 RYG

51. 3845 RTD'S 81 85 89 13 17 21 INRCT INRCT INRCT INRCT IHRCT INRCT INRCT RYG
45. 5833
46. 1999
46. 8686 45.4569 52 '522 52.8858 8 ~ 8888 8 ~ 8888 8.8888 8 ~ 8888 8 ~ 8888 8.8888 8.8888 49.5818 82 86 18 14.

18 22 IHRCT IHRCT I HFICT INRCT INACT I HFICT INRCT

45. 6891
45. 8284 4.7. 5933 1 1
44. 9924 15
49. 9156 19
52. 9348 23 I HFICT
8. 8886 G. 8088 INRCT
8. 8888 INRCT 8.8888 INRCT 8 ~ 8888 IHRCT IHRCT 4?.8719 45.9213 45.7828 54.7888 52.4783 52.6561 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 84 88 12 16 28 24 INRCT INRCT IHRCT I NFICT IHRCT IHRCT 47 '217 46.8142 45.4569 52.8522 52.6896 51.4819 8." 8660 8.8868 8.8888 8.8688 8 ~ 8888 8.8868 DEW CELLS DC Gi 21.3438 DC 85 38.8874 INRCT 8.8888 INACT 8.8888 FIVG
27. 9489 Rt'IBI EHT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I HFICT I NFICT 38.2812 38.3325 8 ~ 8888 8 ~ 8888 14.4838

.8782 51 '862 8.8888 DC 63 INRCT IHRCT I HFICT 29.9377 DC 84 8.8888 INRCT Go6888 IHRCT 8.8888

21. 6876 8 ~ 8888 8.8888 RECORD NUHBER 235 DFITE 67 TIt'lE 415 PRESSURES 52.5347 58.2297 RVG 51.3822 RTD'S 81 85 89 13 17 21 IHRCT INRCT INACT IHACT INACT INRCT I HFICT RVG 45.4569
46. 1999 46.8686 45.5498 52.8522 52.8858 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888

" 8.6888 49.5788 62 66 18 14 18 22 IHRCT IHRCT I HFICT INRCT INRCT IHRCT INRCT

45. 6426 45.82S4 47.5933 44 '924 49.9156 52.8883
8. 8888
8. 8888
8. 8888
8. 8888 G. 8888 8..8888
8. 8888 83 87 11 15 19 23 I HFICT IHRCT I NFICT INRCT IHRCT I NFICT
47. 9184 84 45 '213 88 45.7828 12 54.5666 16 52.4783 28 S2,.6896 24 8.8888 IHRCT
8. 6888 I HRCT 8 ~ 8888 I NRCT 8.8888 IHFICT 8 ~ 6888 IHRCT 8.8888 IHRCT 47.2682 45.9677 45.4S69 51.9593 S2.6896 51.4819

'8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 DEW CELLS

~

DC Gi 28.8435 DC 85 31.6621 INFICT 8.8888 INRCT 8.8888 RVG 27 '344 Rt'1B I Et'lT PRESS VAPOR PRESSURE DRY PRESSURE FLOWS DC 82.

DC 86 INRCT INFICT 14.4838

.8782 51.3848 8.8888

. 38. 1354

38. 8837 8.8888 8.8888 DC 83 IHRCT INRCT IHRCT
29. 7724 DC 84 '

~ 8888 I HFICT 8 ~ 8888 'IHFICT 8.8888 21.4283 G. 8688

8. 8868

RECORD NUMBER 236 DFITE 67 T I ME 438 PRESSURES RTD'S 81 85 89 13 17

. 21 INACT INACT INRCT INRCT I NFICT INRCT I NFICT RVG 45 o"4184 46+ 2464

46. 8686 45.'4569
52. 8522
52. 8858
8. 8888 G. 8988 8 ~ 8888 8 ~ 8888 8 ~ 8888 8..8688 8.8888 49.5671
52. 5347 82 86 18 14 18 22 IHRCT I NFICT INRCT INRCT INRCT INRCT INRCT
45. 6426
45. 8284 47

~ 5933 44

~ 9924 49.9156 52.8883 8.8888 8-. 8888.

8 ~ 6988 8.8688 8.8688 8.8898 8.8888 83 87 11 15 19 23 INRCT INRCT I NFICT IHRCT I NFICT I HFICT 59.2297 RVG

51. 3822 84 88 12 16 28 24 I NFICT IHRCT INRCT INRCT I HFICT I NFICT 47 '255 45.8748 45.7828 54.5686 "52.5167 52.6561 6 ~ 8888 8.8888 8.8888 8.8888 8.8888 8.8888 47

~ 2217

45. 9677 45.4184 52.8858 52.6896 51.4819 9.8888 8 ~ 9888 8.8888 8.8889 8.8888 8.8888 DEW CELLS DC Gi 28.8435 DC 85 26.3381 IHACT
8. 8888 INACT
8. 8888 RVG 26.7988 RMBIEHT PRESS VFIPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 INFICT INRCT 14.4838

~ 9754 51.3868 8.8888

38. 1354 38.2812 8.8888 8.8888 DC 83 INRCT IHRCT INRCT
29. 7862 DC 84 8.8888 INRCT 8.8888 IHRCT 8.8888
22. 8671
8. 8888 8.8888 RECORD HUI'IBER 237 DFITE 67 TII'IE 445 PRESSURES 52.5347 58

~ 2297 RVG

51. 3822 RTD'S 81 85 89 13 17 21 INACT INRCT IHRCT INRCT INRCT
INRCT, I HFICT RVG
45. 4569 46

~ 1999 46

~ 8686 45.4569 52.8987 52.8522 6.8888 9 ~ 8888 8.8888 8.8888 8.8888 8.8888 8.8888 49.5783 82 66 18 14 18 22 I NFICT INRCT IHRCT IHRCT IHRCT INRCT INRCT

45. 6426
45. 8284
47. 5933
44. 9924
49. 9156
52. 8883 8.8888 6.9669 8.8888 8.8688 6.8888 8.9696 8.8886 83 67il 15 19 23 I HRCT I HFICT IHRCT INRCT IHRCT INRCT
47. 7798
45. 8748
45. 7826 54.5686 52.5167 52.6561 8.8888 6.9999 8.8886 8.8888 8 ~ 8888 8.8888 84 88 12 16 28 24 INRCT IHRCT INRCT INRCT INRCT I NFICT 47.2682 45.9213 45.4184 52.8658 S2.6696 51 '555 8 ~ 8668 8.8888 6.,8888 8.8886 8.8888 8.8888 DEW CELLS DC 81 28.6887 DC 85 29.2878 IHACT 8.8888 IHRCT 8 ~ 8888 RVG 27.3733 RMBIENT PRESS VFIPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHRCT INRCT
14. 4638

.8768 51.3854 8.8888

38. 8696 38.3325 8 ~ 6699 8.8888 DC 83 INRCT INFICT I HFICT 29

~ 4738 DC 84

8. 8888 INRCT 8 ~ 8888 INFICT
8. 8888 21.8397 8.8888 8.6888

V f

ff

RECORD NUtlBER 238 DRTE 67 TIf'1E 588 PRESSURES RTD'S 81 85 89 13 17 21 IHRCT INRCT I NFICT I NFICT INRCT INRCT INRCT RVG 45.4569 46..1999 46';8686 45.4569 52.8987 51.9593 9 ~ 8888

8. 8888 G. 8888 G. 8888
8. 8888
8. 8888 8.8888 49.5647
52. 5323 82 86 18 14 18 22 INRCT INRCT IHRCT IHRCT IHRCT IHRCT IHRCT 58.2287 83 87 11 15 19 23
45. 6426 45 ~ 8284
47. 5933
45. 8389
49. 8691
52. 9348
8. 8888 I NFICT 8-.8888 INRCT 8.8888 INRCT INRCT INRCT INRCT
8. 8888
8. 8888
8. 8888
8. 8888 RVG 51.3885 84 88 12 16 28 24 I NFICT INRCT INRCT I NFICT IHFICT IHFICT 47.7798 45 '748 45.8284 54.S686 52.4783 52.6561 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888
47. 2217
46. 8142 45.4184 52..8858 52.5632 51.3555 8 ~ 8889 9.8888 8 ~ 8888 8.8888 8.8888 G. 8888 DEW CELLS DC 81 28.5334 DC 85 27.9S73 IHRCT 8 ~ 8888 INRCT
8. 8888 FIYG 26.9831 RtlB IEI'IT PRESS VRPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I NFICT INRCT 14.4838

.8759 51.3846 8.8888 38.8696 38.8937 8.8888 8.8888 DC 83 INRCT INRCT INFICT

29. 6867 DC 84
8. 8888 I NRCT 8 ~ 8888 I NRCT
8. 8888
21. 4586 8 ~ 8888 8.8888 RECORD HUtlBER 239 DRTE 67 T It'1E 515 PRESSURES
52. 5323 58

~ 2257 FI VG

51. 3798 RTD'S 81 85 89 13 17 21 INRCT INRCT IHRCT INRCT I HFICT IHRCT INRCT'IYG
45. 4569
46. 1999 46

~ 8686

45. 4569
52. 8987
52. 8858
8. 8888 9.8888 8.8888 8.8888 8.8888 Gs8888 8.8888 49.5529 82 86 18 14 18 22 INRCT INRCT INRCT INRCT I NFICT INRCT IHRCT

'5. 6426

45. 7829
47. 5468
44. 9924
49. 8691
52. 8883 8 ~ 8888 8.8888 8.8888 8; 8888 G. 8888
8. 8888
8. 8888 83 87ii 15 19 23 I NFICT INRCT'HRCT INRCT I HFICT INRCT 47.7798 84 45.8748 88 45.8284 12 54.4677 16 52 '783 28 52 'S61 24 9.8989 INRCT 8 ~ 8888 INRCT 8.9888 INRCT 8 ~ 9888 IHRCT 8.8889 IHRCT 8.8888 IHRCT 47 '217 45 '213 45 '648 52.8858 52.5632 51.3555 8.8888 8.8888 8 ~ 8899 8 ~ 8888 8.8888 8 ~ 8888 DEW CELLS DC Gi 28.9287 DC 85 28.1618 IHRCT 8.8888 INRCT
9. 8888 RVG 26

~ 9887 RtlBI EHT PRESS YFIPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 I I'IRCT INRCT 14.4838

~ 8759 51.3831 8.8888

29. 9847
38. 4635
8. 9888
8. 8888 DC 83 INRCT I NFICT I NFICT 29.2738 DC 84 8.8888 INRCT 8.8888 IHFICT 8.8888
21. 8364
8. 8888 8.8888

RECORD HUHBER 248 DFITE 67 T It'1E 538 PRESSURES 52.5298 58 '246 RYG 51.3772 RTD'S Gi 85 89 13 17 21 INRCT INRCT INRCT IHRCT IHRCT INRCT INRCT RYG 45m 4569

46. 1999
46. 8142 45'5833 51.9593 51.9593 8.8888 8.8888 8.8888 8.8888 8..6888 8.8888 8.8888 49.5258 82 86 18 14 18 22 I NFICT INRCT IHRCT IHRCT INRCT INRCT INFICT
45. 6426
45. 7828 47

~ 5468

45. 8389
49. 8691
52. 8419
8. 8888
8. 8888 G. 8688
8. 8888
8. 8888
8. 8888 Ge 8888 83 87 11 15 19 23 INRCT IHRCT I NFICT INRCT INRCT IHRCT
47. 8255
45. 8748 45

~ 7828 54.4213 52.4238 52.5632 8.8888 8.8888 8.8888 8.8888 8.8888 8 ~ 8888 84 88 12 16 28 24 I NFIC T I NFICT INRCT IHRCT IHRCT INRCT 47.1753 45.9677 45.4184 51.9129 52.5632 51.3898 8.8888 8 ~ 8888 8.8888 8 ~ 8888 8.8868 8.8888 DEW CELLS DC 81 28 F 4167 DC 85 31.6621 INRCT G. 8888 INACT

8. 8888 RVG 27.7521 RI'IBI El'IT PRESS VFIPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 86 IHFICT IHRCT 14 '838

.8777 51.2995 8 ~ 8888

29. 8386 38.4635 8.8888 8.8868 DC 83 IHFICT I HFICT I NFICT
29. 4738 DC 84
8. 8888 IHFICT 8.8888 IHFICT 8 ~ 8888
28. 7661 8 ~ 8888 8.8888 RECORD NUNBER 241 DFITE 67 TIl'IE 545 PRESSURES 52.5298 58.2236 FIYG 51.3767 RTD'S 81 85 89 13 17 21 IHRCT IHRCT INRCT IHRCT INRCT INRCT INRCT AYG 45.4569 46.1999 45.9213 45.4569 51 '593 51.9593 6 ~ 8888 8.8888 8 ~ 8888 8.8888 8.8888 8.8888 Go8888 49 '284 82 86 18 14 18 22 INRCT I HFICT INRCT INRCT I NFICT IHRCT IHRCT
45. 6426
45. 7828
47. 5468
45. 8389 49.8691 52.8419 8.8888 8.8888 8.6868 8.8888 8.8888 8 ~ 8888 8.8888 63 67 11 15 19 23

~

INRCT INRCT INRCT I HFICT I HFICT I NFICT 47.8719 84 45.8748 88 45 '355 12 54.4677 16 52.4783 28 52.5632 24 8.8888 INRCT 8 ~ 8888 INFICT 8 ~ 8888 IHACT 8.8888 INFICT 8.8888 IHRCT 8.8888 INRCT 47.1753 45.8748 45.4184 51.9593 52.5632 51 '555 8.8668 8.8888 8.8688 8.8888 8.8888 8.8888 DEW CELLS DC

.Gi 26.3388 DC 85 28.6361 I NFICT 8.8888 INACT 8.8888 RVG

26. 8133 RI'IBI EHT PPESS VFIPOR PRESSURE DRY PRESSURE FLOWS DC 82 DC 66 I HFICT I HFICT 14.4838

.8755 51.3812 8.8888

29. 8386 29.9377 8'8888 8.8888 DC 83 INRCT I NFICT IHRCT 29

~ 6732 DC 84 8 ~ 8888 I HRCT 8 ~ 8888 IHFICT 8.8888 28 '946 8 ~ 8888 8.8888

RECORD NUHIlER 242 DFITE - 67 T It'1E 688 PRESSURES

52. 5286 58.2236 RVG 51.3761 RTD'S Gi 85 89 13 17 21 INRCT INRCT INACT INRCT INRCT IHRCT INRCT RVG 45;4184 46.1999 46.8142 45.4184 52 '522 51 '593 8 ~ 8888 8 F 8888 8.8888 8.8888 8.8888 8.8888 8 F 8888 49.5348 82 86 18 14 18 22 INRCT INRCT IHRCT INRCT IHACT INACT INRCT 45

~ 5962 45

~ 7828 47

~ 5884 44

~ 9924 49 '691 52 '419 8.8888 8.. 8888 G. 8888 8 ~ 8888

8. 8888
8. 8888
8. 8888 83 87 11 15 19 23 IHACT IHACT INRCT IHRCT IHACT INACT 47.7798 45.8284 45.8284 54.6871 52.4783 52.6896 8.8888 8.8888 8.8888 8.8888 8.8888 8.8888 84 88 12 16 28 24 IHACT.

IHRCT INRCT IHACT I HACT.

IHACT 47.1753 45.9213 45.4184 51.9593 52.5632 51.3555'.8888 8.8888 8.8888 8.8888 8.8888, 8.8888 DEW CELLS DC 81 28.3388 DC 85 26.9934 INRCT 8.8888 INRCT

8. 8888 RVG
26. 4484 Rl'1B I EHT PRESS VAPOR PRESSURE DRY PRESSURE, FLONS DC 82 DC 86 INRCT IHACT 14 '838

.8747 51.3814 8

F 8888 29 '386 DC 83 29.6867 IHACT 8

F 8888 INRCT 8.8888 INRCT

29. 2878 DC 84 8.8888 INRCT 8.8888 INRCT 8.8888 28.7661 8 F 8888 8.8888

i~'c Z

ENVI RONt'1ENT L I ST I NG

++++++++++++++++++++++++++ JUL IRH DF}TE 66 REC DF}TE TINE NUt'1 TINE 688 TENP VRPOR CONTR I Nt'1ENT PRESSURE PRESSURE RELRT I VE AIR PS IR Hvt'1 I D I TY DENS I TY VRR IF}NCE 146 147 148 149 156 151 152 153 154 155 156 157 158 159 168 161 162 163 164 165 16o 167 168 172 173 174 175 176 177 178 179 189 18 1. 182 183 184 185 186 187 188 189 196 191'92 193 194 195 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 8688 8615 8638 8645 8788 8 r'15 8 r'38 8745 8888 8815 8838 8845 8988 8915 8938 8945 1888 1815 1838 1845 1168 1115 if38 1145 1288 1215 1238 1245 1388 1 'l5 1338 1345 1488 14fS 1438 1445 1'.i88 1'i 15 1.'i38 1545 1688 1615 1638 1645 1788 1715 fr'38 66 1 r'45 66 1888 66 1815 1838 66 518. 829 518.817 589.998 589.988 569.958 589 ~ 926 589 '23 569 ~ 987 589.873 589.847 589.846 589.839 589 '34 589 F 814 589.865 589.781 S89.798 589.769 589.769 589.758 589 ~ 738 589.698 599.721 589.715 589.699 589.688 589.685 589 ~ 674 569.657 58'9.665 569.659 589 ~ 647 589 ~ 632 589.622 589.626 589.682 569.684 589.567 589.574 589.585 589 ~ 577 589 ~ 579 589.529 589.548 589 ~ 541 589 ~ 533 589.523 589.534 589.517 589.491 589.492 .6873 .8857 .8878 .8868 .9866 . 8852. .8867 . 8861 .8857 .8851 ~ 6855 ~ 8868 ~ 8844 .8854 .8858 ~ 6852 .8868 ~ 8845 .8843 .8839 .9854 .8841 .8848 .8831 .6841 ~ 8841 ~ 8844 .8815 .8832 .8832 .8833 ~ 8831 .8814 .8862 .8832 .6833 .8837 ~ 6815 .8825 ~ 8815 .8814 . 8818 ~ 8812 .8888 .8816 .8811 . 8795 .8796 .6796 .8881 ~ 8798 51.4172 51.4168 51.4857 51.4871 51.4862 .5,1.4186 51.4842 51.4882 51.3966 51.3944 51.3918 51.3988 51.3911 51.3873 51.3846 51.3858 51.3827 51.3819 51.3821 51.3869 51.3771 51.3751 51.3757 51.3744 51.3722 51.3785 51.3782 51.3697 51.3688 51.3681 51.3686 51.3648 51.3642 51.3642 51.3613 51.3583 51.3579 51.3568 51.3558 51.3567 51.3557 51.3554

51. 3492 51

~ 3589

51. 3499
51. 3493 51.3487 51 '491 51.3463 Sled 3448 51.3452
48. 49
47. 61
48. 82
47. 84
48. 24 47

~ 51

48. 34
48. 82-47

~ 85"

47. 57
47. 88
48. 88
47. 28
47. 83
48. 85
47. 78
48. 16
47. 38 47

~ 29

47. 18
47. 96
47. 27
47. 21
46. 68 47

~ 28 47 ~ 32

47. 46
45. 89 46

~ 86

46. 81
46. 88
46. 81 45

~ 91

45. 24
46. 88
47. Gi 47

~ 22 46 ~ 82 46 ~ 58 46 ~ 83

45. 97
46. 17 45

~ 93

45. 22
46. 14
45. 86 44.98 45

~ 81 45.87 45.37 44.78 ~ 2721 ~ 2721 ~ 2721 .2721 . 2721 . 2721 . 2721 . 2721 . 2721 .2721 ~ 2721 ~ 2721 .2721 .2721 .2721 ~ 2721 ~ 2721 .2721 .2721 ~ 2721 ~ 2721 .2721 .2721 .2728 .2728 ~ 2728 ~ 2728 .2728 .2728 .2728 .2728 . 2728 . 2728 .2728 ~ 2728

2728

~ 2726 . 2728 . 2729 .2728 .2728 .2728 .2726 . 2728 .2726 .2728 ." 2728 . 2728 .2728 ~ 2728 .2728

8. 88889

~ 68848 ~ 61186 ~ 98135 .88883 .88434 .68636 .88486 .88357 .86217 .89264 ~ 98699 ~ 88835 .88381 .88272 .66118 .88387 .88878 .88817 .88124 ,.88375 .88282 .88855 .88138 .88214 .88175 .88826 .88854 .88167 .88686 ~ 88818 -.98321 .88868 .88889 .68293 .88381 - ~ 88836 -;88114

~ 68181 .88894 .88189 ~ 88836 .88616 .88169 - ~ 88898 .86861 .8886S .88841 .88281 ~ 88146 ~ 86843

'4 Y }5

ENV IRONNENT L 1 ST IHG +4+%++++++5+5+5++%%+i+5++++ J ULI RN DATE 66 REC DATE T INE NUN TINE - 688 TEHP VAPOR COHTRIHNENT .PRESSURE PRESSURE RELFITIYE AIR PS IR HUMIDITY DENS I TY VFIR IFINCE 197 198 199 288 281 282 283 284 285 286 287 288 289 218 211 212 213 214 215 216 217 218 219 228 222 223 224 225 226 227 228 229 238 231 232 233 234 235 236 237 238 239 248 241 242 '66 66 ,66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 66 67 67 67 67 67 67 67 67 67 67 67 67 67 67 67 67 67 67 67 67 67 67 67 1845 1988 1915 1938 1945 2888 2815 2838 2845 2188 2115 2138 21.45 2288 2215 2238 2245 2388 2315 2338 2345 8888 8815 8838 8115 8138 8145 8288 8215 8238= 8245 8388 8315 8338 8345 8488 8415 8438 8445 8:i88 8'>15 8.'i38 8545'688-589. 467 589. 484 589. 478 589.475 589.452 589.433 589.445 589.443 589 F 443 589.434 589 '88 589.395 589.418 589.383 589.391 589.382 589.387 589.398 589.367 589.371 589 ~ 356 589.347 589.333 589.336 589 '14 589.342 589 '17 589.311 589.297 589.318 589.295 589.278 589.271 589.269 589.275 589.268 589.246 589.252 589.241 589.237 589.248 589.235 589. 223 589.195 589.198 589. 285 . 8794 . 8795 . 8794 . 8882 . 8793 .8788 .8797 .8798 .8791 .8795 .8792 .877? .8777 .8782 .8883 .8792 .8786 .8798 .8776 .8789 .8772 .8794 .8794 .8785 .8778 .8775 .0766 .8755 .8798 .8?S9 .8788 .8764 .8765 .8778 .8767 .8774 .8779 .8782 .8782 .8754 .8768 .8?59 .8759 .8777 .8755 ~ 8747

51. 3439 51

~ 3419 51 ~ 3489 51.3398 51.3394 '51 '378 51.3343 51.3337 51.3351 51.3348 51.3343 51.3325 51.3325 51.3288 51.3259 51.3278 51.3264 51.3253 51.3252 51 '245 51.3245 51.3287 51.3188 51.3193 51.3187 51.3198 51.31?3 51.3185 51.3127 51.3128 51.3137 51 '131 51.3118 51 '181 51.3188

51. 3882
51. 3868
51. 3862 51

~ 3848

51. 3868
51. 3854
51. 3846 51.3831 51.2995 51.3812 51.3814
45. 88
45. 87
44. 99 45.45'2728

.2728 . 2728 . 2728

45. 25 45.

38'4.88

45. 16
45. 85
44. 17 44.13 44.49 45.69 45.87 44.74 45.36 44.17 44.92 43.96 45.22 45.23 44.74 43.91 44.18 43.69 43.86 45.18 45.88 44.55 43.63 43.71 44'4
43. 83 44.23 44'2 44.72 44'2 43.16 43.93 43.42 43.44 44.54 43.25 42

~ 77 ~ 2728 .2728 ~ 2728 .2728 .2728 .2728 .2728 .2728 .2728 ~ 2728 .2728 .. 2728 . 2728 .2728 .2728 .2728 .2728 ~ 2728 ~ 2728 ~ 2728 .2728 ~ 2728 ~ 2719. . 2719 .'728 . 2728 . 2728 ~ 2719 . 2719 . 2719 ~ 2719 ~ 2719 ~ 2719 ~ 2719 . 2719 . 2719 .2719 .2719 .2719 .2719 44 ~ 99 . 2728 44.75 .2728 -.88134 ~ 88281 .88897 ~ 88192 .88836 .88236 -.88267 -.88859 .88136 ~ 88188 .88829 .88188 .88451 .88214 .88112 -.88855 -.88111 .88889 .88878 .88881 .88381 .88273 .88135 .88861 .88188 .88245 .88112 -.88577 .88812 ~ 88884 -.88859 .88123 ,.88178 .88887 .88178 .88221 '88826 -.88221 ~ 88274 -.88137 ,.88882 .88153 .88356 .88172 ~ 88821

4 br cl

++++++++++++ ttFISS LOSS CRLCULFITIOH RESULTS JUL I RI'I DRTE 66 REC T It'IE NUM (DELTA HOURS) TIME 688 CONT RIR MRSS MRSS LOSS INCR I'IFISS LOSS (1 HR) tlRSS LOSS (x 24) 146 147 148 149 1SG 151 152 153 154 155 156 157 158 159 168 161 162 163 164 165 166 167 168 169 1?8 1?1 1?2 173 174 175 1'?6 177 178 179 188 181 182 183 134 185 186 . 187 188.. 189 191 192 193 194 195 196 8 ~ 68 ~ c 5 ~ 56 ~5 1 ~ 68 1 c 25 1.:iG

1. 75
2. 66
2. 25 2e 58 2 ~ f 5 3 ~ 68 3 ~ ~ 5 3

ci8 3 ~ f 5 4 ~ 88

4. 25
4. 58
4. 75 5 ~ 68 5..5 5 ~ 58 5 ~ i'5
6. 88 6 ~ 25 6

'iG 6 ~ 75 7 ~ 88 7 ~ 25 7e 58

7. i'5
8. 68
8. 25 8 ~.'i8 8 ~ 75 9 ~ 68 9 ~ 25 9 ~ 'i8
9. 75
18. 68
18. C~S
18..'i8
18. 75
11. 68
11. c25 11 58
11. i'5
12. 68
12. 25 12.:iG 263945.8 263949.8

'63982. 2 263914.4 263925.6 263964.4 263933.3 263928.5 263928.8 263922.8 263912.1 263987.7 263912.2 263982.7 263893.6 263912.1 263891.8 263898.3 263899.1 263982.8 263889. 8 263988.4 263891.3 263887.3 263884.7 263885.7 263882.8 263884.7 26388S.G 263888.9, 263883.7 263873.5 263878.3 263883 ' 263866 ~ 7 '63863.4 263868.7 263873.7 263865.2 263864.4 263863.3 263868 ' 263854.8 263853.4 263852.1 263852.9 263854.7 263851.2 263845 ' 263851.7 263853.3 6 ~ 8 4.8 -46. 8 1.2 ~ 2" 11 ~ 2 38 ~ 7 -31. 8 -12.8 5 2.8 -9. 9 4 ~ 4 4 ~ 5 -9. 5 -9. 2 18 ~ 5 -28. 2 6.5 ~ 7 3 ~ 7

12. 9 18

~ 5 -9. 1 -4 ~ 8 -2. 6 1.8 3 ~ 7 2 ~ 7 ~ 4 -4. 1 2.9 -18 ~ 2 .4.7 5.3 -16. 9 3 ~ 3 2 ~ 7 13 ~ 8 -8. 5 - ~ 8 -1 ~ 1 -3 ~ 8 -5 ~ 5 -1 ~ 4 -1 ~ 3.8 1.8 3 ~ 5 -5 ~ 3 5 ~ 9 1 ~ 5 8.8 8.8 8 ~ 8 8'8 19 ~ 4 -15 ~ 4 -,31 ~ 1 -6 ~ 1 5.6 42 ~ 3 21 ~ 2

12. 8 7 ~ 8 19

~ 3 18 ~ 6 -4 ~ 4 28 ~ 4 4 ~ 4 -5 ~ 5 9 ~ 3 2 ~ 8 -2. 8 7.8

15. 5 5.1 14 ~ 7 9 ~ 3 2 ~ 6 3

4 ~ 8 -1 ~ 8 11. 1 6 ~ 8 2 ~ 7 17 ~ 8 18 ~ 1 17 ~ 5 9.9 1 ~ 5 -1. 8 2 ~ 5 13 ~ 4

18. 4
11. 8 11

~ 2 7.3 .1 2 ~ 2 6 ~ 2 1.2 1.4 8.8 8.8 8.8 8.8 465. 3 -368.9 -747 ' -146.5 135.6 1816.3 588 ' 387. 8 187. 3 462 ' 446.8 -184.8 488.8 185. 1 -132.8 223. 1 48. 1 -48 ~ 7 186. 5 371. 4 123. 4 353. 8 224. 1 63 ~ 5 -8. 3 114 ~ 4 -43 ~ 8 266. 9 162. 3 -64 ' 488.8 242. 6 421. 1 237 ~ 5

35. 6

-23 ~ 5 -61 ~ 8 321 ~ 6 249. 4 263' 7 268. 3 176. 4 3 ~ 1 53 ~ 2 148. 8 28 ~ 6

34. 5

P ~C

++++++++w+s+ HRSS LOSS CRLCULFITION RESULTS JULIAN DAlE 66 REC 'T I I'IE NUN (DELTR HOURS) TINE 688 CONT RIR NRSS HFISS LOSS INCR NRSS LOSS (1 HR) HRSS LOSS (x 24) 197 198 199 288 281 282 283 284 285 286 287 288 289 218 211 212 213 " 214 215 216 217 218 219 228 221 222 223 224 225 226 227 228 229 238 231 232 233 234 235 236 237 238 239 248 241 242 12 ~ r'5

13. 88
13. 25 13 58
13. r'5 14.88 14.25
14. 58 14 ~ r'5
15. 88
15. 25
15. 58
15. 75
16. 88
16. 25
16. 58
16. c'5
17. 88
17. 25
17. 58
17. 75
18. 88
18. 25
18. 58 1 8 ~ ('5
19. 88 19

~.5

19. 58
19. r'5
28. 88
28. 25
28. 58
28. r'5
21. 88
21. 25 21.:i8
21. r'5 22.88 22.25
22. 'i8 22 ~ r'5
23. 88
23. 25 23;58 23 ~ r 5
24. 88 263859.2 263848.5 263838.6 263838.1 263843.7 263841.8 263821.4 263819.4 263826.5 263825.9 263844.7 263838.2 263826.3 263821.4 263886.2 263816.5 263811.8 263883.8 263815.4 263889.8 263817 '

'263882 ' 263795.5 263881.1 263889.4 263888.1 263888.5 263889.5 263786 ' 263788.7 263793 ' 263799 ' 263796.4 263787.8 263784.6 263783.8 263T79.2 263777.4 263771.7 263787 ' 2637T9.8 263777.7 263775.9 263772.1 263779.1 263776 ' 5.9 -18. 7 -1.9 -8. 6 13 ~ 6 -1 ~ 9 -28 ' -F 1 7 ~ 1 - ~ 6 18 ~ 8 -6 ~ 5 -11 ~ 9 -4 ~ 9 -15 ~ 2 18 ~ 3 -5. 5 7 ~ 2 11 ~ 6 -5. 6 7.6 -15 ~ 8 -6. 9 5 ~ 6 8.3 -9 ~ 2 ~ 4 9.8 -22 ~ 6 -6 ~ 1

12. 5 5.8 2 ~ 7

-8. 6 -3 ~ 2 -1 ~ 5 -3. 8 -1 ~ 8 -5 ~ 7

16. 8

-8 ~ 7 -1.3 -i. 8 -3 ~ 8 7.1 2 ~ 2 -8. 8 5.4 13. 1 23 ~ 2

15. 5

-l. 3

17. 2
18. 7
17. 2
15. 9 23 ~ 3

-18. 8 ~ 2 4o5 38;5

21. 7 15

~ 3 ,17. 6 -9. 3 6.7 -6. 4 1.5 28 ~ 8 8 ~ 7 8 ~ 8 2.2 -5 ~ 1 -8. 4

22. 5 19

~ 4 7 ~ 3

18. 5

-9 ~ 5 -7. 1 8 ~ 6 16 ~ 8 17. 1

18. 4
12. 9

-'4 ~ 7 ~ 2 3 -4. 2

15. 6 1

~ 8 -191. 2 129. 5 314 ~ 4 556. 4 372. 8 -38 ~ 7 413. 8 256. 9 413. 8 388. 8 -558.3 -451. 9 4.8 188. 8 924.9 521. 1 367. 5 421. 8 -22203 168.6 -153.5 35 F 1 479. 8 289. 5 192. T 53 ~ 1 -121 ~ 3 -282 ~ 2 539.8 465.9 175.7 251.3 -227.9 -169.5 287 F 1 384.2 411.2 249.8 389.4 -111 ~ 6 ,5 ~ 8 -7. 5 -181. 1 374. 6 -3. 4 19 ~ 3

APPENDIX D TYPE A CALCULATIONS Mass Point Analysis Total Time Analysis

w+++++++++++++++++ NRSS POINT CRLCULFlTION RESULTS +++++++++++++w++++ JULIAN DATE 66 TINE 688 TINE 8688 8615 8638 8645 8788 8715 8738 8745 8888 8815 8838 8845 8988 8915 8938 8945 1888 1815 1838 1845 1188 1115 1 1'38 1288 1215 1238 1245 1388 1315 1338 1345 1488 1415 1438 1445 1588 1515 1538 1545 1688 1615 1638 1645 1788 1715 1738 1745 1888 1815 1'838 TEI'IP 518. 829 518.817 589.998 589.988 589.958 589 '26 589.923 589 '87 589.873 589.847 589 F 848 589.839 589.834 589.814 589 '85 589.781 589.?98 589 '69 589.769 589.c'58 589.738 589.698 589.r'21 589 ~ r'15 589.699 589.688 589. 685 589.674 589.657 589 '65 589.659 589.647 589.632 589.622 589.626 589.682 589.684 589.:i67 589..'i74 589 'F85 589. 577 589.579 589.529 589 '48 589 541 589.533 589..i23 589.:i34 589. 'i 1 7 589. 491 589.492 VFIPOR PRESS

8. 8873 8.8857 8.8878 8.8868 8.8866 8.8852 8.8867 8.8861
8. 8857 8 ~ 8851 G. 8855 8.8868 8

F 8844 8.8854 8.8858 8.8852 8.8868 8 '845 8.8843 8.8839 8 ~ 8854 8 F 8841 G.GS48 G. 8831'. 8841 8 ~ 8841

8. 8844 8 ~ 8815
8. 8832 G. 8832 8.8833 8.8831 G. 8814 G. 8882 8 ~ 8832
8. 8833 8 '837 8.8815

.8.8825 8 '815 8.8814 8.8818 8.8812 8 F 8888 8.8816 8.8811 8.8795 8.8796 8.8796 8 ~ 8881 8 ~ 8798 DEW PT

31. 222
38. 685 31.379 38.794.

38.996 38.526 31 F 818 38 ~ 815 38.675 38.478 38.618 38 '73 38.236 38.598 38.721 38 '31 38.771 38.275

38. 218 38.883 38 '96 38.133 38.116 29.783-
38. 141
38. 144
38. 234
29. 226 29.829
29. 889
29. 842 29.786 29.198 28r?38 29 '11 29.865 29.993 29.191 29.559 29 '16
29. 178 29 '82 29.888 28 '41 29.239 29.851 28.445 28.483 28.584
28. 675 28.273 CONT RIR PRESS 51.417 51'417 51.486 51.487 51

~ 486 51.411 51.484 51.488 51.397

51. 394
51. 392
51. 391 5 i. 391 51.387 51.385 51.386 51.383 51.382

, 51.382 51.381 51.377 51.375 51.376 51.374 51 ~ 372 51.378 51 '78 51.378 51.368 51.368 51.368 51.365 51 '64 51.364 51.361 51.358 51.358 51.357 51.356

51. 357
51. 356
51. 355
51. 349 51

~ 351

51. 358
51. 349 sl. 349 51.349 51.346 51.345 51.345 CONT AIR HFISS 263945.82 263948.98 263982.22 263914.43 263925.63 263964.35 263933.34 263928.54 263928.81 263922.81 263912.15 263987.71 263912.21 263982.72 263893 '6 263912.88 263891.84 263898.34 263899.86 263982.78 263889.84 263988 '6 263891.29 263887.31 263884.69 263885.66 263881.95 263884.66 263885.84 263888.89 263883.74 263873.54 263878.28 263883 F 58 263866.71 263863.44 263868.73 263873.69 263865.23

'63864.41 263863.27 263868 '9 263854.83 263853.43 263852.89 263852.94 263854.?i 263851.21 263845.89 263851.74 263853 '7 LSF LEAK RFITE 8 ~ 88888 8 ~ 88888 .77844 .58388 ~ 26678 .84834 .82482 .82252 .84439 ~ 84914 .86588 ~ 87988 .87912 .88674 .89784 .88827 .89439 ~ 89289 .88993 .88456 .88568 .88883 .87998 .87984 .87993 .87982 .87874 .87721 ~ 87534 .87431 .87248 .87251 ~ 87138 .86896 .86959 .87834 .87118 .86955 .86914 .86864 ~ 86812 .86781 .86795 .86882 .86882 ~ 86775 ~ 86717 .86688 .86679 .86612 .86526 UPPER CONF LEVEL G. 88888 8.88888 8.88888 1.34573 .77194 .44185 .29796 .26854 ~ 22573 .19122 .18151 .17528 ~ 15968 ~ 15565 '.15822 .14167 .14168 .13476 .1273? .11856 ~ 11629 .18985 .18562 .18336 .18153 .89894 .89716 .89435 .89138 .88938 .88652 .88574 .88377 .88898 .88885 .88188 ~ 88128 .87923 ~ 87832 ~ 87738 .87644 .875?3 .8?sse .87522 .87498 ~ 87434 ~ 87349 .87287 .87261 ~ 87175 .87872

l bt<<l tp I ~A Fj M

HFISS POINT CALCULATION.RESULTS JUL I AN DATE T ICE TENP 66 T I HE - 688 VAPOR DEW PRESS PT CONT AIR PRESS CONT AIR NASS LSF LEAK RATE UPPER CONF LEVEL 1845 1988 1915 1938 1945 2888 2815 2838 2845 2188 2115 2138 2145 2288 2215 2238 2245 2388 2315 2338 2345 8888 8815 8845 8188 8115 81 38'145 8288 82 lS 8238 8245 8388 8315 8338 8345 8488 8415 8438 8445 8588 8515 8538 8545 8688 589. 467 589.484 589.478 589.~75 589 '52 589.433 589.445 589.443 589.443 589.434 589.488 589.395 589. c'18 589. l83 589.391 589.382 589.387 589.398 589.367 589 '71 589.356 589.347 589.333 589.336 589.314 589.342 589.317 589.311 589.297 589. '18 589. 295 589.278 589.271 589.269 589.275 589 '68 589.246 589.252 589.241 589.237 589 ~ c248 589.235 589 '23 589.195 589.198 589 '85

8. 8794
8. 8795
8. 8794
8. 8882 8.8793 8.8788 8.8797 8.8798 8.8791 8; 8795
8. 8792
8. 8777
8. 8777
8. 8782 8 '883 8.8792
8. 8786 8 ~ 8798
8. 8776 G. 8789
8. 8772 8 ~ 8794 8 '794 8 ~ 8785 G. 8778
8. 8775 8 '766 8.8755 8.8798 8.8789 8.8788 8; 8764
8. 8765
8. 8778
8. 8767
8. 8774
8. 8779
8. 8782 8 ~ 8? 82 G. 8754
8. 8768
8. 8759 8.8759 8 '777 8 ~ 8755 8 ~ 8747 28.399 28 '61 28.482 28.788 28.375 28 '88 28.541 28 '73 28.286 28.465 28.354 27.729 27.729 27.943 28.777 28.345 28.128 28.553
27. 699
28. 227
27. 531 28.486 28.398 28.865 27.445 27.671 27 '89 26.889 28.264 28.217 27.882 27.198 27 '45 27 '73 27.348 27.612 27.884 27 '49 27 '34 26 '98 27.373 26.983 26.989 27.752 26.813 26.448 51

~ 344

51. 342
51. 341
51. 339

-51. 339 51.337 51.334 51.334 51 '35 51.334 51.334 51.333 51.333 51.328 51.326 51.327 51.326 51 '25 51.325 51 '25 '1.325 51.321 51.318 51.319 51.319 51.328 51.317 51.318

51. 313 51

~ 313

51. 314
51. 313
51. 312
51. 318
51. 318
51. 388
51. 386 51

~ 386

51. 384.
51. 387
51. 385 51.385 51.383 51.299 51.381 51.381 263859 '8 263848 '8 263838.65 263838 F 88 263843.68 263841.78 263821,.44 263819.38 263826.47 263825.92 263844.78 263838 '1 263826.38 263821.38 263886.16 263816.58 263818.99 263883.81 263815'.42 263889.88 263817.39 263882.35 263795.47 263881 '7 263889.36 263888.13 263888.52 263889.58 263786.86 263788.72 263793.28 263799 '3 263796.36 263787.78 263784.57 263783.82 263779.22 263777.38 263771.68 263787.67 263778.98 263777 '9 263775 F 89 263772.87 263779 '2 263776.89

.86388 .86394 .86488 .86453 .86396 .86346 .86419 .86487 .86496 .86496 .86382 .86384 .86286 .86286 .86353 .86356 '.86376 .86419 .86488 ~ 86398 .86358 .86375 .86411 .86416 ~ 86383 .86388 .86369 .86322 ~ 86349 .86388 .86379 .86347 .86328 .86315 ~ 86315 .86314 .86319 .86324 .86339 .86387 .86295 ~ 86282 .86271 '86265 .86239 .86216 .86929 .86915 .86981 ~ 86939 .86868 .86884 .86867 .86924 .86918 .86985 .86792 .86788 ~ 86678 .86666 .86726 .86718 .86728 .86763 .86735 .86724 ~ 86677 .86686 ~ 86715 ~ 86712 .86673 .86662 ~ 86644 .86594 .86615 .86658 .86635 .86599 .86567 ~ 86556 ~ 86558 .86544 .86544 .86544 .86555 ~ 86528 .86584 .86487 .86471 .86461 .86433 .86487 I'1AX ALLOWABLE LEAK RFITE ~ 1528 75i OF MAX ALLOWABLE LEAK RATE . 1146 EPR I EQUATION EPR I EQUFIT ION ¹6 IS SAT I SF I ED. ¹7 IS SAT I SF IED

l I

TOTRL TINE CFILCULFITIOH RESULTS JUL IFIH DFITE 66 TINE T I.NE 8668 ,8615 8638 8645 8768 8715 8738 8745 8868 8815 8838 8845 8968 8915 8938 8945 1868 1815 1 8:38 1845 1168 1115 1138 1268 1215 1238 1245 1368 1315 1336 1345 1468 1415 1 4:36 1445 1568 1515 1538 1545 1668 1615 1638 1645 1768 1715 1738 1745 1868 1815 1838 TEI'IP 518.629 518.617 589.998 589.988 589.958 589.926 589.923 589.987 589.873 589.847 589.848 589.839 589.834 589.814 589.88S 589.i'81 589ei'98 589 ~ r'69 589.r'69 589 ~ r'58 589., r'38 589 ~ 698 589 ~ 721 589. r'15 589.699 589 ~ 688 589.685 589. 674 589. 657 589.665 569.659 569.647 569.632 589.622 589.626 589.682 589.684 589.:i67 589.:i74 589.:i85 589. 577 589. 'i79 589.:i29 589. 548 589.:i4 1 589 ~ 'i33 589 ~ 'i23 589 ~ 'i34 589 ~ 'i 1 7 589 ~ 491 589.492 YRPOR PRESS

8. 8873
8. 8857
8. 8878
8. 8868
8. 6866
8. 8852 G. 6867
8. 8861
8. 8857
8. 8851 G. 8855
8. 8868
8. 8844
8. 8854 8

~ 8858 8.8852 8 ~ 8866 8.8845 8 ~ 8843 8 ~ 6839 8 ~ 8854 8 ~ 8841 8 ~ 8848 8.8831 8.8841 8.8841 8.8844 8.8815 8.6832

8. 8832 8 ~ 6833 8 ~ 6831
8. 8814
8. 6882
8. 8832 G. 6833
8. 8837
8. 8815 8 ~ 8825 8 ~ 8815
8. 8814
8. 8818 8 ~ 8812 8 ~ 8888 8 ~ 8816
8. 8811
8. 8795
8. 8796
8. 8796 8 ~ 8881 8 ~ 8798 DEIL PT 31.222 38

~ 685 31 '79 36.794 38 ~ 996 38.526 31 '18 38 ~ 815 36 ~ 675 36.478 38.616 38.773 38.236 38 ~ 598 38.721 38.531 38.771 38.275 38 ~ 218 36.683 36 ~ 596 38.133 38.116 29.783

38. 141
36. 144
38. 234
29. 226 29.829 29.889 29 F 842 29.786 29 '98 28.738 29.811 29.865 29.993 29.191 29.559 29.216
29. 178 29 '82 29.888 28.641 29 '39 29.851 28.445 28.483 28.584 28 '75 28 '73 CONT RIR PRESS 51 F 417 51.417 51.486 51.487 51 '66, 51.411 51.484 51 '88 51.397 51.394 51.392 51.391 51.391 51.387 51.385 51.386 51 '83 51 '82 51 '82 51.381 Sled 377 51.375 51.376 51.374 51.372 51.378 51.378 51.378
51. 368
51. 368 51

~ 368 51 ~ 365

51. 364
51. 364
51. 361
51. 358 51.358 51.357 51.356 51 '57 51.356 51.355 51.349 51.351.

51.358 51;349 51 '49 51.349 51.346 51.345 51 '45 LSF LERK RRTE

8. 8886
6. 8868

~ 7785 .5926 .3784 .8891 ~ 8512 .8578 .8579 .8514 .8571 .8631 .8611 ~ 8652 .8727 ~ 6659 .8782 .8693 . 8673. .8635 .8641 .8687 .GS99 .8597 .8597 .8596 .8587 .8576 .6563 .8555 . 6541 ~ 6546 .8531 .8514 .8517 .8522 .8526 .GS16 .8512 .8589 .8585 .8582 ~ 8583 ". 6584 .8582 ~ 8498 .6496 .8496 .8491 ~ 8485 UPPER COHF LEYEL

8. 66666 G. 88888 8 ~ 88888 5 ~ 85313
2. 76988
1. 76838 1

~ 31616

1. 18118

~ 95711 F 84824 .77988 .72825 .67844 .64419 ~ 62887 ~ 58433 .56475 .54224 .52183 .49994 .48545 .46796 .45455 .44293 ~ 43248 ~ 42194 .41278

48313

.39386 .38571 ~ 37733 .37698 .36384 .35626 .35124 .34663 .34232 .33658 .33174 ~ 32712 ~ 32268 .31856 .31497 .31149 ~'38818 ~ 38465 ~ 38188' 29779 .29488 .29158 .28822 NERSURED LERK RRTE .14487 .77847 .37887 ~ 17629 -.14861 .87882 .12723 .11372 .89381 .11957 .12337 .89947 .11836 .13369 .87988 .12898 .69988 .89286 ~ 88886 ~ 18836 .67735 .88883 ~ 89126 .89143 .88637 .88823 .68131 .87792 .88844 .87429 .88386 .87586 .86772 .88377 .88478 .88516 .87812 ~ 87638 .87517 .67433 .87517 .87818 .87748 .87682 .87443 .87141 .87268 .87511 .86924 .86675

  • X Q>

Ctl~F 4k'

++~++++ ++++++~++ ++ TOT FIL T I t'1E CRLCULFITION RESULTS +++++++++++++++++++ J ULI RH DRl'E T ICE TEI'IP 66 TIME VAPOR PRESS 688 DEW PT CONT Fl I R PRESS LSF LERK RFITE UPPER CONF LEVEL t'1EFISURED LEAK RRTE 1845 1998 1915 1938 1945 2888 2815 2838 2845 2198 2115 2138 2145 2298 2215 2238 2245 2398 2315 2338 2345 '898 8815 8845 8188 Gll5 8138 8145 8288 8215 8238 8245 8388 8315 8338 8345 9488 8415 8438 8445 8588 8515 8538 8545 86$39 CALC 'HE IS L 589.467 589.484 589 ~ 478 589.4r75 589. cl52 589.433 589.~45 589.443 589.443 589.434 589 ~ 488 589.395 589 ~ 418 589 ~ 383 589.391 589.382 589 ~ 387 589.398 589.367 589.371 589.356 589.347 589.333 589.336 589.314 589.342 589.317 589.311 589. c297 589.318 589.295 589.278 589.271 589 ~ 269 589 ~ 275 589.268 589.246 589.252 589 ~ 241 589 ~ 237 589.248 589 ~ 235 589.c223 589.195 589:198 589 '9S ULATED LE MERN 10TFI ESS THAN 8 ~ 8794 8 ~ 8795

8. 8794 G. 8882 G. 8793
8. 8788
8. 8797
8. 8798
8. 8791 8 ~ 8795 8.8792 8 ~ 8777 8.8777 8.8782 Go8883 8.8?92 8.8786 8 ~ 8798 8.8776 8.8789 8.8772 28.399.

28.461 28 '82

28. 788
28. 375 28

~ 188 28 ~ 541 28 '73 28.286 28 '65 28 '54 27.729 27.729 27.943 28.777 28.345 28.128 28.553 27.699 28.227 27.531 28.486 28.398 28.865 27 '45 27.671 27.289 26.889 28.264

28. 217
27. 882 27.198 27 '45 27 '73 27 '48 27 '12 27.884 27 '49 27 '34 26.798 27 '73 26.983 26.989 27.752 26.813 26.448 IHG TOTA E

OF BLE MRÃI

8. 8794 8.8794 8.8785 8.8778 8.8775 8 ~ 8766 8.8755 8 ~ 8798 8.8789 9.8788 8.8764 8.8765 8.8778 8 ~ 8767
8. 8774 8 ~ 8779 8 ~ 8782 8 ~ 8782
8. 8754
8. 8768
8. 8759 8 ~ 8759 8.8777'.8755 G. 8747 RK RRTE US L TIME RRT THE RLLOWR 51.344 51.342 51.341 51.339 5'39, 51.337 51.334 51.334 51.335 51.334 51.334 51.333 51.333 51 '28 51.326 51.327 51.326 51.325 51.325 51.325 51.325 51.321 51.318
51. 319
51. 319
51. 328 51.317 Si. 318 51

~ 313

51. 313
51. 314
51. 313
51. 312
51. 318 51.318 51.388 51 '86 51 '86 51.384 51.397 51.385 51.385 51 '83 51 '99 51.381 51.381 L TIME:

. 8674 MUM LEAK RRTE .8476 .8476 ~ 8476 ~ 8488 ~ 8476 .8473 .8478 .8483 .8483 .8484 .9476 ~ 8471 ~ 84?8 ~ 8478 ~ 8475 .8476 ~ 8477 .8481 .8488 .8488 .8478 .8488 .8483 .8483 .8482 .8482 ~ 8482 .8479 ~ 8481 .8484 ~ 9484 ~ 8483 ~ 8481 .8481 .8482 .8482 .8483 .8484 .8485 .8484 .8483 . 8483 . 8483 . 8483 .8481 ~ 8488 .8488 OF ~ 153 ~ 28456 .28286 .27964 .27768 .27496 ~ 27235 .27877 ~ 26921 ~ 26727 ~ 26533 ~ 26259 ~ 26815 .2S828 .25644 .25525 ~ 25361 ~ 25215 .25892 .24925 ~ 24775 .24688 .24471 .24368 .24229 .24873 .23941 .23887 .23649 .23548 .23468 .23338 .23281 .23879 .22957 .22858 .22745 .22646 ~ 22549 .22462 .22342 .22237 .22134 '.22834 ~ 21939 .21831 .88162 .86122 .87311 .87388 .87742 .86782 .86785 ~ 87886 .87879 .87388 .87228 .85982 ~ 86266 .96854 ~ 87827 .87778 ~ 87883 .87276 .87553 .86831 .87826 ~ 86538 .87287 ~ 87451 .8787S .86579 .86934 .86826 .86319 .87282 .87478 .86817 .86475 .86515 .86888 .86866 .86851 .86931 ~ 86929 .87884 ~ 86359 .86636 .86615 .86615 .86692 .86352 ~ 86378

APPENDIX E VERIFICATION TEST CALCULATIONS Mass Point Analysis

+++ MRSS POINT III TH YERIFI CRT ION TEST JUL IRH DATE 67 TIME 788 I'1RSS POINT GROSS GROSS T I ME MRSS LSF 95'CL SCFM VER IF I CRT ION HET NET LSF 95'CL 8788 8715 8738 8745 8888 8815 ~ 8838 8845 8998 8915 8938 8945 1898 181S 1838 1845 1198 1115 1138 263745 ' 263748.7 263 r'47 ~ 6 263 r'27 ~ 7 263738.8 263r'19 ' 263 r'16. 2 263r'19. 4 263 r'88 ~ 1 263 r'82 ~ 8 263699.4 263688.2 263689.9 263686.6 263688.4 263688.9 263658.2 263647.8 263658.7

8. 8888 8.8888

.8431 .1662 .1522 .1888 .1914 .. 1672 ~ 1721 . 1758 .17S5 ~ 1842 ~ 1813 .1778 .1767 .1717 ~ 1811 ~ 1911 .1898

8. 8988 8 ~ 9888
8. 8888

~ 5551 .3329 .3939 .2698 .2292 .2193 .2129 .2854 .2184 .2835 .1969 .1933 .1869 .1975 .2888 .2849

3. 712
3. 712
3. 711
3. 789
3. 783
3. 783
3. 783
3. 783
3. 783
3. 783
3. 783
3. 783
3. 783 3 ~ 783
3. 783
3. 783
3. 783
3. 783
3. 783

.1528 .1528 .1958 ~ 8143 ~ 8885 ~ 8364 ~ 8398 ~ 8155 .8285 ~ 8241 .8238 ~ 8325 ~ 8297 .8261 .8258 ~ 8288 .8294 ~ 8394 .8373 1528 1528 1519 4933 1813 1522 1173 8775 8676 8612 853? 8587 8518 8453 8416 8352 8458 8571 8532

APPENDIX F TYPE A PLOTS Average Temperature vs Time Average Pressure vs Time .Average Dew Point vs Time Containment Mass vs Time Mass Point Leakage Rate vs Time Total Time Leakage Rate vs Time

RTD RVG BB:.HBHH TO B7:HBHH 8 12 16 DELTR.TINE (IN HOURS)

CONT PRESSURE 66:8688 TO 67:8688 8 DELTR TINE (IN HOURS)

DEN CELL RVG. 66:8688 TO 6?:8688 I 8 12 16 DELTR TINE (XN HOURS)

MP MERSURED . 66:8688 TO 67:8688 DELTR TIME (IN HOURS)

NRSS POINT (iiDRY) BB:8688 TO 6?:HSHH LSF SSrUCL .75LR 8 DELTR TINE (IN HOURS)

TOTRL TINE (rrDRY) 66: 8688 TO LSF S5rUCL .?5LR 67:8688 8 12 18 DELTR TINE ( IN HOURS)

APPBND IX G VBRIFICATION TBST PLOTS Average Temperature vs Time Average Pressure vs Time Average Dew Point vs Time Containment Mass vs Time Mass Point Leakage Rate vs Time

RTD RVG 6?-:0?88 TO 6?:1138 8.57 8.56 8.50 8.53 8.52 S. 1 8.5 8.48 8.48 1.5 2 2.5 3 DELTR TIME (IN HOURS)

.CONT PRESSURE 67:8788 TO 6?: 1138 =1.5 3.5 - DELTR TINE ( IN HOURS)

DEN CELL RVG.. 6?:8788 TO 6?: 1138 7.5 8.5 .5 1.-5 2 2.5 3.5 DELTR TINE (IN HOURS)

MP MERSURED 6?: 8788 TO 67: 1 l38 1.5 2 2 ~ 5 3 DELTR TIME (IN HOURS) 3.5

NR S POINT (irDRY) 67:8788 TO 8?:1138 LSF S5rUCL .?5LR L 1.5 3.5 DELTR TINE (IN HOURS)}}

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