ML20029C661
| ML20029C661 | |
| Person / Time | |
|---|---|
| Site: | 05000262 |
| Issue date: | 04/15/1994 |
| From: | Brigham Young University, PROVO, UT |
| To: | |
| Shared Package | |
| ML20029C658 | List: |
| References | |
| NUDOCS 9404210215 | |
| Download: ML20029C661 (60) | |
Text
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l DECOMMISSIONING SURVEY FOR THE L-77 RESEARCH REACTOR BRIGHAM YOUNG UNIVERSITY l
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l TABLE OF CONTENTS t
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Survey section of Decommissioning Plan.
1 l
Survey Instnunent Calibration and Quality Control.......
2 S urvey Maps and Layout......................................... 3 l
Raw Alpha, Beta, and Gamma Count Data........
4 I
Count Data Corrected for Efficiency, Area, Geometry and Background 5
l Summary StatisCes and Conclustions.
6 1
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PROPOSED FINAL RADIATION SURVEY PLAN i
Af ter dismantling has been completed, and all other equipment has been removed from the facility, termination radiation survey locations 1
l shall be selected and identified.
A one meter grid shall be l
established on the floor, walls and ceiling inside the reactor room (see figure 2).
The entire surface area of the reactor room shall then be surveyed for alpha, beta and gamma radiation using the l
instrumentation described below.
In the remaining part of the f acility the survey shall be accomplished by establishing a virtual 3-j m-square grid on the floor, walls, and ceiling.
From each 3-m-square (approximately 100 f t ),
a single 1-m square shall be selected that, 2
as judged by the RSO, is most likely to represent the highest amount l
of residual radioactivity within the 3-m square.
The selected square meter is surveyed for alpha,
- beta, gamma, and removable surface contamination.
This method results in 11% of the remaining surface area within the f acility being uniformly sampled.
This sampling shall be increased on the floor, as necessary, to assure that at least 30 locations on the floor are tested.
i In addition, each drain and floor penetration shall be surveyed.
The survey measurements to be performed consist of determination of the average alpha surface radioactivity, average beta surface j
radioactivity, removable surface radioactivity, and the ambient (gamma) radiation exposure rate at 1 m from the surface.
If measurements of the average alpha and/or beta surface radioactivity indicate the presence of residual " hot-spots", a measurement of the l
radioactivity in a 100 cm area at the hot-spot location shall be made.
2 Measurements of the average alpha and beta surface radioactivity in a 1-m square are made by using portable scalers (Eberline ESP-1 and 2) with audible output, connected to an Eberline model 260 thin window GM probe for beta activity, and an Eberline alpha scintillator for alpha i
l activity.
These probes are uniformly scanned over the surface (in close proximity) and the counts recorded for 5 minutes.
Correction for detector efficiency, (estimated via Th-230 source for alpha and a l
Tc-99 source for beta) local background, detector area, and count time i
results in a measure of the residual radioactivity averaged over 1m,
2 Measurement of the maximum surf ace radioactivity averaged over 100 cm2 within that 1 m2 is done, if warranted, by similarly scanning an area 2
of 100 cm for a period of one minute and performing the necessary i
corrections as described.
Removable surface radioactivity is estimated for each 1-m square by I
smearing a 100 cm area, using a polystyrene swipe, dissolving the 2
swipe in liquid scintillation fluid and counting the same in a Packard model 1500 liquid scintillation counter.
This counter provides counting efficiencies of about 95% for betas with average energy of 49 key, approximately 100% for betas between 50 and 1000
1 4
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4-2 l
key and an efficiency of approximately 100% for alpha radiation.
In addition, gamma emitters are detected due to the presence of internal 4
j conversion electrons, auger electrons (efficiencies of about 50% at 6 kev) and Compton scattering. Total efficiencies for gamma embitters vary by the nuclide involved but generally range from 10% to 70%.
A i
minimum of 500 swipe tests shall be made.
Under the assumption that removable surface contamination is described by a
Poisson j
distribution, there is a 99% probability of detecting contamination even when it is present at levels as low as one contaminated square per one hundred squares.
Gamma radiation is measured by means of an ESP-2 portable scaler with audible output connected to an Eberline PG-2 low energy gamma probe (Sodium Iodide scintillator). The probe is situated in the center of the square meter being surveyed and an exposure is integrated over a five minute period.
Floor drains and similar features (utility boxes or trays, etc.) that do not permit such a methodical approach shall be inspected by use of portable survey instruments for alpha, beta, and gamma activity, and-by smears for removable activity.
Calibration shall be performed by the instrument vendor (Eberline) within three months of the termination of the survey.
The data shall be analyzed by use of a computer program that takes the fundamental instrument reading and performs the necessary calculations to produce the derived result, either dpm/100 cm or uR/h, thus 2
minimizing transcription and arithmetic errors.
The frequency distribution shall be plotted and compared, via goodness of fit test, to the normal distribution with the mean equal to the average background count and the standard deviation equal to the square root of the background count divided by 5.
The sample distribution shall also be compared to a background sample distribution, obtained from other locations on campus.
Instrument quality control charts with two sigma intervals are prepared for each instrument. The channel check and background are plotted daily whenever the instrument is in use.
These, and the fundamental data sheets, are reviewed and compared with the analytical results to confirm the survey quality.
A summary report of the survey results is prepared for submission to the NRC to support a request for termination of the license.
All survey documents are retained until after concurrence by the NRC that the facility is acceptable for release for unrestricted use.
Refer to Docket No. 50-262 March 9, 1992 Alexander Adams, Jr.
Project Manager Non-Power Reactors, Decommissioning and Environmental Project Directorate Division of Advanced Reactors and Special Projects Office of Nuclear Reactor Regulation
Dear Sir:
In response to the questions received from your office dated January 9, 1991, we have prepared the following information.
j
- 1. A table of contents is enclosed.
2.
A copy of Figure 1 is enclosed.
- 3. Statistical analysis reports will be prepared and maintained for NRC review.
- 4. Core samples will be obtained by drilling a one quarter inch hole in the respective material and placing a one gram sample of the material removed by the drill into LSC counting fluid for alpha and beta analysis using LSC counting techniques (it is assumed that gamma contamination will be picked up with standard surface survey instruments).
- 5. A " Training Program Outline", is enclosed.
- 6. We will be using RAMP Industries Incorporated with offices in l
Denver, Colorado as our radioactive waste broker.
The Brigham Young University Radiation Safety Officer is charged with assuring i
compliance with all shipping and waste disposal regulations as well as monitoring the activities of our broker.
- 7. One milliliter of shielding water and one milliliter of tap water (the shielding tank was filled with culinary water in 1967) were placed in Liquid Scintillation Counting Cocktail and counted for one minute ten times.
The resulting means for the counts were respectively, 169.9 for the tap water and 169.6 for the shielding
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water.
Calculated standard errors for the means were 2.57 and 4.09.
Assuming that the true mean for the tap water in this area is 169.9 there is a 95 % probability that the true mean for the shielding water is less than 8 cpm above the background.
Since i
l ef ficiency for " C is approximately 90% using this methodology and l
the more radiotoxic materials in general have an_ efficiency approaching 100%
there is a
95% probability that the true contamination of the shielding water is less than 9 dpm per l
milliliter of water.
This translates to a possible contamination l
level of 4.09 x 10 microcuries per milliliter.
In addition NRC l
Region IV pulled a sample of shielding water for analysis and we l
have requested the results from their analysis.
Prior to l
discharging the water we will repeat the analysis using 2
milliliters of water and a 20 minute count.
- 8. The Pu/Be sourca was 3eak tested at the time of removal and the tests results were less than 0.0001 microcuries of removable surface contamination.
In addition the exposure rate (gamma) survey taken at the time of removal was 0.2 mrem / hour at one meter from the surface of the source and the neutron flux was 5 neutrons per second per square centimeter at one meter from the surface of the material with the thermal neutron shield in place.
Application has been made to transfer this source to License UT 2500091 which currently has a license limit of 83.5 grams of j
plutonium-239.
4 i
(
- 9. No material will be released for unrestricted use unless it can l
be demonstrated to be less than the following criteria at a 95%
)
confidence level.
- a. 5000 dpm/100 cm for fixed beta / gamma contamination.
2 b.
1000 dpm/100 cm for removable beta / gamma contamination.
2 c.
100 dpm/100 cm for fixed alpha contamination.
2 d.
20 dpm/100 cm for removable alpha contamination.
2 While we will accumulate the data on the above material we will not release any material as non-radioactive from the reactor facility until the data including statistical analysis has been reviewed by the NRC.
- 10. We shall not release facilities to unrestricted use unless we can, demonstrate with at least a 95% probability, that exposure rates associated with those facilities are not more than 5 uR/ hour above background at one meter from the surf ace of those f acilities.
- 11. Survey instruments shall be calibrated within four weeks of the start of decommissioning activities.
Since the time schedule submitted involves five weeks for completion of the project the instrument calibration will be performed within three months of the completion of the project.
This is in keeping with new guidelines proposed by the Division of Radiation Control which allow survey instrument calibration at 3 month intervals.
In addition the instruments will be checked with an appropriate calibrated source l
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CFFTTFTCamTOTI OF PALTBRATION Instrurent: ESF-2 Serial lin-be r : 1064 Detector:
SPA-3 Serial fiu-be r : 710616 Sources *:
Cs-:37 S /11 ET-120 Units:
cnt/-in Calib. Constant **,
1,00E*00 Dead Tire (Sec)**:
1 19F-05 High Vc1tage (Voltsi*
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CALIBRATTOil CHECI:
FIELD STRFIIGTH a *
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ESP-2 Calibration Program V 1.13 Calibration Sources Used Have Calibration i
Traceable to the 11a t i on a l Institute of Standards and Technology.
Fields Given are not Calibrated in epm.
Values Shown i
Were Determined by Applying Sensitivity =
1.67E+006 cpn/rR/h To a Calibrated.R/h Field.
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3.90E+004 ent /nin 1.47F+004 ent/rin 38%
l' 3.68E*305 ent'rin 1.41E+005 ent/ min 38%
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COUNT RATE ( c p'. )
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Survey Codes Used AFD(S)
Dust from HEPA filters used in decommissioning counted on LSC counter BF(S)
Diphenyl shielding material LSC count.
CREW Control room east wall CRF Control room floor CRF(S)
Additional swipe taken from Control Room Floor CRC Control room ceiling CRNW Control room North Wall ID Interior wall and door from control room IWB Interior wall from control room LDP lead diphenyl LDP(S)
LSC count of lead and diphenyl LRC Large room ceiling LRF Large room floor LRF(S)
Extra swipes taken from large room floor LRTW Top wall section large room LRW Bottom wall section large room LS Lead shot LS(S)
LSC count of lead shot MP Metal pieces from the reactor PAR Paraffin from reactor shielding RRC Reactor room ceiling RREW Reactor room east wall RRF Reactor room floor RRF(S)
Additional swipes taken from reactor room floor RRNW Reactor room north wall RRSW Reactor room south wall RRWW Reactor room west wall SD(S)
LSC counts of steel dust recovered after decommissioning 1
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RAW SURVEY DATA Data for Removable Surface Contamination Each swipe was taken from 100 square centimeters and counted using LSC.
SWlPE results are counted with window settings at 1 key and open upper window.
SALPHA results are counted with window settings at 150 key lower setting and open upper setting.
N = the total number of swipes counted in a particular group (total 542)
Mean = Arithmetic mean for all group samples Std Dev = Standard Deviation for the samples counted Minimum = Minimum value for the counted group 1
Maximum = the Maximum value for the counted group l
STATISTICAL
SUMMARY
OF SWIPE DATA (all data given in counts per minute /100cm )
2 Variable N
Mean Std Dev Minimum Maximum l
SWIPE 542 44.1815498 3.4395910 32.2000000 69.8000000 SALPHA 542 12.7529520 1.7108495 7.6000000 19.4000000 l
Alpha counts were made using an Eberline AC-3-7 alpha probe with 59 cm sampling area.
2 l
Beta counts were made using an Eberline HP-260 thin window beta probe with 15 cm window area.
2 Gamma counts were made using an Eberline SPA-3 high sensitivity gamma probe with 2 inch diameter by 2 inch long Nal crystal. The SPA-3 was used in place of the PG-2 because the crystalis slightly larger and sensitivity is higher for the SPA-3 probe.
All counts were integrated for five minutes and scanned as outlined in the survey summary. Data was entered into a database and calculations made using the Statistical Analysis System.
Counts in this report have been divided by 5 to yield the counts per minute recorded.
ALPHA 1 = Number of counts per minute recorded with the alpha probe.
BETA 1 = Number of counts per minute recorded with the beta probe.
GAMMA 1 = Number of counts per minute recorded with the gamma probe.
l
SUMMARY
OF ALPHA BETA AND GAMMA SURVEYS (all counts given in counts por minute)
Variable N
Mean Std Dev Minimum Maximum ALPHA 1 286 10.5320979 4.1118291 2.0000000 22.0000000 BETA 1 286 45.3741259 9.9406393 21.0000000 84.8000000 GAMMA 1 286 7063.50 1361.43 3200.00 13740.00 l
l l
I l
i j
OBS LOC SLOC ALPHA 1 BETA 1 GAMMA 1 SWIPE SALPHA
)
1 AFD(S) 01 38.4 9.4 2
AFD(S) 02 34.4-9.4 3
AFD(S) 03 33.0 7.6 4
AFD(S) 04 37.0 9.0
).
5 BF(S) 15 43.4
-10.2
{
6-CREW' 01 16.0
-39.8 7120 49.0 11.4 7
CREW 02 15.8 40.6 6920 42.0 11.4 8
CREW (S) 01 50.2 16.2 9
CREW (S) 02 47.4 13.0 10 CRF 01 9.2 40.0 7500 44.2 11.8
)
)
11 CRF 02 8.0 44.8 7420 44.2 11.8 12 CRF 03 11.2 42.2 11300' 44.8 11.6 i
13 CRF 04 5.6 39.2 8440 43.2 12.4 14 CRF 05 10.0 48.2 6820 39.0 11.6 15 CRC 06 6.0 50.6 6940 48.6 14.6 16 CRC 07 8.8 56.6 7200 47.4 15.4
)
17 CRC 08 12.4 46.0 6420 42.6 11.4 18 CRC 09 15.4 39.0
'7000 45.6
-14.4 19 CRF(S) 01 42.4 13.0 20 CRF(S)-
01A 45.8 11.8 21
. CRF(S) 018
.48.4 17.2-22 CRF(S) 01C 43.2 12.4.
23 CRF(S) 01D 44.0 11.8 24 CRF(S) 01E 43.4'
'17.2 25 CRF(S) 01F 48.4 13.4 26 CRF(S) 02 43.4 13.6 27-CRF(S) 02A 38.8 12.4 28 CRF(S) 02B 44.2 11.4
)
29 CRF(S) 02C
. 45.2 -
13.2 30 CRF(S) 02D 51.6 12.8
-31 CRF(S) 02E 46.8 16.0 32 CRF(S) 02F 46.0.
13.6 33 CRF(S) 03 43.8 12.6 34 CRF(S) 03A 43.4 12.4
)
35 CRF(S) 038 43.6 11.2 36 CRF(S) 03C 45.4 12.8 37 CRF(S) 03D 43.2 11.6 l
38 CRF(S) 03E 43.2 12.8 39 CRF(S) 03F 48.8 14.4 40 CRF(S) 04 49.6 15.6 3
41 CRF(S) 04A 46.4 12.6 42 CRF(S) 048 40.2 12.2 43 CRF(S) 04C 42.8 12.8 l
44 CRF(S) 04D 48.8 13.4 45 CRF(S) 04E 42.2 11.4 46 CRF(S) 04F 44.2 11.8
)
47 CRF(S) 05 44.4 12.8 48 CRF(S) 05A 42.4 11.4 49 CRF(S) 05B 44.0 13.6 50 CRF(S) 05C 44.0 11.2 51 CRF(S) 05D 44.4 12.2 52 CRF(S) 05E 43.0 12.4 3
53 CRF(S) 05F 46.0 14.2 54 CRF(S) 06 40.4 12.4 55 CRF(S) 06A 47.8 13.8 56 CRF(S) 068 40.4 10.8
)
L
OBS LOC SLOC ALPHA 1 BETA 1 GAMMA 1 SWIPE SALPHA i
57 CRF(S) 06C 46.6 12.6 58 CRF(S) 06D 44.2 13.8 59 CRF(S) 06E 39.6 10.6 60 CRF(S) 06F 44.6 12.8 61 CRF(S) 07 46.0 12.4 62 CRF(S) 07A 41,4 12.6 63 CRF(S) 07B
.42.4 12.8 64 CRF(S) 078 49.0 16.2 65 CRF(S) 07C 44.6 11.6 66 CRF(S) 07D 45.6 11.4 67 CRF(S) 07E 46.4 13.4 68 CRF(S) 07F 36.0 9.6 69 CRF(S) 08 47.8 15.2 70 CRF(S) 08A 47.4 10.0 71 CRF(S) 088 44.0 13.2 72 CRF(S) 08B 49.0 11.8 73 CRF(S) 08C 42.2 11.6 74 CRF(S) 08D 42.0 9.0 75 CRF(S) 08E 37.8 12.4 76 CRF(S) 08F 32.6 12.8 77 CRF(S) 09 48.2 13.0 78 CRF(S) 09A 50.0 16.2 79 CRNW 01 17.0 52.6 9620 42.0 11.8 80 CRNW 02 18.6 50.0 8900 40.8 12.8 81 CRNW 03 17.2 59.0 13740 50.0 15.0 82 CRNW 04 10.0 39.6 7880 50.2 14.4 83 CRNW(S) 01 45.6 13.6 84 CRNW(S) 02 45.0 13.4 85 CRNW(S) 03 45.4 13.4 86 CRNW(S) 04 44.0 12.4 87 ID 01 9.0 42.4 6220 43.2 12.2 88 ID 02 8.8 57.4 6220 38.2 11.8 89 ID 03 11.2 52.4 9520 46.0 13.0 90 IWB 05 12.2 43.8 7780 50.2 14.8 91 IWB 06 15.0 41.4 7680 40.4 18.6 92 IWB 07 13.6 38.2 7220 45.0 15.2 93 IWB 08 13.8 39.0 6860 47.6 14.4 94 LDP 01 17.0 33.4 6120 44.2 12.4 95 LDP 02 8.4 39.6 5900 41.2 10.2 96 LDP 03 6.0 35.2 5560 45.2 13.0 97 LDP(S) 04 42.2 12.8 98 LDP(S) 05 43.0 13.2 99 LDP(S) 06 36.0 10.0 100 LRC 01 15.6 59.2 7040 44.2 12.6 101 LRC 02 14.0 52.4 7080 42.6 11.8 102 LRC 03 5.4 54.4 7200 41.4 14.0 103 LRC 04 7.0 45.0 6800 39.6 10.4 104 LRC 05 12.0 44.0 7000 40.4 10.6 105 LRC 06 10.0 55.0 7220 46.6 15.2 106 LRC 07 10.8 52.0 7700 42.2 10.4 107 LRC 08 13.0 46.0 7460 51.4 14.0 108 LRF 01 5.8 56.4 8460 46.6 12.8 109 LRF 02 11.8 55.6 8240 42.4 14.0 110 LRF 03 5.4 63.2 7720 45.4 13.4 111 LRF 04 11.4 61.2 8400 36.8 12.2 112 LRF 05 13.4 55.4 8780 43.8 14.6
e..
9
)
OBS LOC SLOC ALPHA 1 BETA 1 GAMMA 1 SWIPE SALPHA 113 LRF 06
-13.0 59.2 7540 45.8 11.8 114 LRF 07
-15.6 61.4 7120 41.4 9.8 115 LRF 08 9.0 47.2 9580 43.2 12.4 116 LRF(S) 01 42.6 12.4
)
117 LRF(S) 01A 40.2.
12.2 118 LRF(S) 01B 39.6 11.4 119 LRF(S) 01C 44.0 12.0 120 LRF(S)
.01D' 43.2 11.4 121 LRF(S) 01E 45.8 14.0 122 LRF(S) 01F 46.4 11.8
)
123 LRF(S) 02 43.0 10.8 124 LRF(S) 02A 44.2
-15.0 125 LRF(S) 02B 44.2 14.2 126 LRF(S) 02C 41.6 11.8 127-LRF(S).
02D 43.6 13.4 128 LRF(S) 02E 42.2 12.4
)
129 LRF(S) 02F 47.2 13.8 130 LRF(S) 03 43.8
' 11.6.
131 LRF(S) 03A 48.8-12.0 132 LRF(S) 03B 41.8
.18.8 133 LRF(S) 03C 48.2 13.8 134
. LRF(S) 03D 46.0 13.6
)
135 LRF(S) 03E 45.0 12.8 136 LRF(S) 03F 46.0 13.0 137 LRF(S) 04 42.6 12.8 138 LRF(S) 04A 41.8 12.2 139 LRF(S) 04B 47.8 15.4 140 LRF(S) 04C 45.4
_15.4
)
141 LRF(S) 04D 47.2
'13.2 142 LRF(S) 04E 46.0 12.6 143 LRF(S) 04F 45.4 12.0 144 LRF(S) 05 48.0 11.2.
145 LRF(S) 05A 45.2 11.8 146 LRF(S) 058 48.0 13.6
)
147 LRF(S) 05C 46.2 14.4 148 LRF(S) 05D 43.2 12.2 149 LRF(S) 05E 48.2 14,4 150 LRF(S) 05F 43.4 13.6 151 LRF(S) 06 45.4 12.8 152 LRF(S)
QA 44.4 13.6 3
153 LRF(S) 06t' 44.4 12.0 154 LRF(S) 06C 46.8 14.6 155 LRF(S) 06D 37.8 13.0 156 LRF(S) 06E 48.8 13.8 157 LRF(S) 06F 47.4 11.2 158 LRF(S) 07 45.2 14.0
)
159 LRF(S) 07A 47.0 12.4 160 LRF(S) 078 45.6 12.0 161 LRF(S) 07C 40.4 19.4 162 LRF(S) 07D 43.2 10.8 163 LRF(S) 07E 39.0 11.2 164 LRF(S) 07F 46.2 15.0
)
165 LRF(S) 08 48.0 13.2 166 LRF(S) 08A 46.8 16.4 167 LRF(S) 088 42.6 10.8 168 LRF(S) 08C 40.2 13.0
)
1
OBS LOC SLOC ALPHA 1 BETA 1 GAMMA 1 SWIPE SALPHA 169 LRF(S) 08D 52.0
.14.8 170 LRF(S) 08E 48.6 11.8 171 LRF(S) 08F 45.2 12.0 172 LRTW 03 7.6 45.8 7280 51.2 14.4 173 LRTW 04 8.8 45.0 7360 40.0 11.2 174 LRTW 05 14.0 45.0 7180 42.0 11.8 175 LRTW 06 10.0 51.0 7220 41.6 11.4 176 LRTW 07 4.0 54.0 6900 40.4 13.2 177 LRTW 08 6.0 36.0 7200 41.6 11.6 178 LRTW 09 8.0 74.0 10700 46.6 17.4 179 LRTW(S) 03 43.0 11.8 180 LRTW(S) 04 40.6 13.0 181 LRTW(S) 05 48.2 10.0 182 LRTW(S) 06 45.8 12.6 183 LRTW(S) 07 46.4 14.4 184 LRTW(S) 08 43.0 11.8 185 LRTW(S) 09 43.4 13.0 186 LRW 01 12.6 72.0 9900 39.6 10.6 187 LRW 02 14.4 57.8 9780 45.8 14.4 188 LRW 03 11.6 41.2 7540 43.6 15.0 189 LRW 04 18.0 63.8 8020 41.2 13.6 190 LRW 05 22.0 46.0 6640 45.2 13.0 i
191 LRW 06 11.4 36.0 7280 49.2 13.4 l
192 LRW 07 13.6 52.0 7180 42.2 10.6 193 LRW 08 13.6 52.0 7180 47.8 16.4 194 LRW 09 16.4 59.0 10260 39.2 12.6 195 LRW 10 12.0 57.0 10440 45.6 15.0 196 LRW 11 11.4 65.0 10320 39.8 11.8 197 LRW(S) 01 44.8 12.8 198 LRW(S) 02 39.8 11.4 199 LRW(S) 03 41.2 12.4 200 LRW(S) 04 50.8 14.2 201 LRW(S) 05 37.8 10.6 202 LRW(S) 06 45.6 13.0 203 LRW(S) 07 42.6 11.2 204 LRW(S) 08 50.0 17.4 205 LRW(S) 09 43.6 11.0 j
206 LRW(S) 10 37.0 14.4 207 LRW(S) 11 42.0 12.0 l
208 LS 01 9.4 34.8 6320 49.2 15.4 209 LS 02 16.0 36.8 6080 41.6 12.2 210 LS 03 11.4 42.0 6200 45.6 15.0 211 LS(S) 04 45.0 13.0 l
212 LS(S) 05 49.0 14.2 213 LS(S) 06 48.8 12.2 214 LS(S) 07 46.0 13.0 215 MP 01a 5.0 84.0 6220 43.6 12.6 216 MP 01b 7.0 47.0 6820 45.4 13.6 217 MP 02a 4.0 55.0 6640 38.6 13.8 218 MP 02b 12.0 42.0 7020 41.8 12.4 219 MP 03a 10.0 46.0 6820 41.8 9.8 220 MP 04a 3.6 40.0 6220 42.6 11.0 221 MP 04b 19.0 39.0 6620 43.6 12.8 222 MP 05a 14.0 37.0 5640 46.2 14.6 223 MP 05b 6.0 50.0 6220 40.2 11.4 224 MP 06a 5.0 32.0 5560 41.0 13.2 l
E
OBS LOC SLOC ALPHA 1 BETA 1 GAMMA 9 SWIPE SALPHA l
225 MP 06b 7
43 6140 49.2 13.8 226 MP 07a 8
32 6700 45.0 14.0 227 MP 07b 3
40 6700 43.6 10.8 228 MP 08a 18 54 5500 44.8 12.4 229 MP 08b 9
26 6020 47.2 14.8 230 MP 09 8
45 6500 45.0 11.0 231 MP 10 8
75 6800 42.6 11.0 232 MP 11 8
46 7000 39.6 10.8 233 MP 12 9
65 7040 46.2 14.4 234 MP 13 9
56 6960 34.8 8.4 235 MP 14 6
46 7080 36.8 12.8 236 MP 15a 8
43 6300 41.6 10.6 237 MP 15b 11 45 6040 37.8 13.0 238 MP 16a 7
51 5580 44.8 17.4 239 MP 16b 12 35 5960 43.2 12.2 240 MP 17a 4
31 5780 42.6 13.8 241 MP 17b 10 46 6120 47.2 13.2 242 MP 18a 6
42 5440 48.0 11.2 243 MP 18b 7
41 6820 46.0 13.6 244 MP 19a 8
36 5600 41.8 12.o 245 MP 19b 7
48 5720 42.0 15.8 246 MP 20a 12 36 5540 44.6 11.2 247 MP 20b 2
46 6160 43.6 13.4 248 MP 21a 8
38 5660 40.8 12.2 249 MP 21b 9
34 6220 44.0 11.4 250 MP 22a 11 48 6040 48.0 14.4 251 MP 22b 15 42 6460 40.6 9.8 252 MP 23a 6
43 6000 46.6 16.0 253 MP 23b 9
48 6080 44.2 14.8 254 MP 24a 9
36 5840 45.4 11.6 255 MP 24b 11 44 5760 43.8 11.8 256 MP 25a 7
47 5760 40.6 11.2 257 MP 25b 12 48 6040 48.0 16.2 258 MP 26a 6
41 5640 43.0 12.0 259 MP 26b 4
44 6220 43.2 11.4
{
260 MP 27a 7
42 6040 44.0 15.8 j
261 MP 27b 8
42 5720 41.8 8.8 262 MP 28 9
52 6020 45.8 14.4 l
263 MP 29a 2
30 6180 42.0 13.2 264 MP 29b 10 43 6000 44.2 14.2 265 MP 30a 10 43 6240 48.0 13.2 266 MP 30b 13 41 6140 39.6 11.4 267 MP 31a 10 51 5940 48.8 14.8 268 MP 32 12 42 3200 41.4 12.4 1
269 MP 33a 8
32 6840 48.6 15.2 270 MP 33b 11 43 6300 46.8 16.4 271 MP 34a 7
32 5520 43.8 11.8 272 MP 34b 4
45 5720 47.0 12.4 273 MP 35a 10 31 5680 44.4 13.6 274 MP 35b 6
49 5900 45.2 11.8 275 MP 36a 6
42 5020 41.8 12.2 276 MP 36b 11 44 5500 48.8 12.0 277 MP 37a 12 38 5220 42.8 10.2 278 MP 37b 4
43 5740 40.2 12.2 279 MP 38a 14 40 5440 41.2 12.0 280 MP 38b 14 44 5800 48.0 13.2 1
OBS LOC SLOC ALPHA 1 BETA 1 GAMMA 1 SWIPE SALPHA 281 MP 39a 13 52.0 5580 42.8 13.2 282 MP 39b 10 36.0 6020 39.6 10.6 283 MP 40a 12 28.0 5760 42.6 10.8 l
284 MP 40b 12 52.0 6040 43.0 12.4 l
285 MP 41a 8
29.0 5920 46.0 15.8 j
286 MP 41b 11 41.0 6220 42.2 11.4 l
287 MP 42a 6
32.0 6160 48.4 13.2 288 MP 42b 9
42.0 5720 46.8 16.0 289 MP 43a 10 36.0 5660 43.4 14.0 290 MP 43b 4
42.0 5900 42.0 9.0 291 MP 44a 7
44.0 5680 44.0 11.0 l
292 MP 44b 6
34.0 5740 45.6 11.4 293 MP 45a 9
43.0 5720 44.0 14.2 294 MP 45b 12 47.0 5520 44.4 12.4 295 MP 46 4
45.0 6080 43.6 11.4 296 MP 47 11 47.0 6440 41.0 12.2 297 MP 48 9
34.0 5200 49.6 13.4 298 MP 49 10 37.0 5740 47.0 13.4 299 MP 50 2
40.0 5020 44.0 13.2 300 MP 51 7
44.0 6760 41.2 11.4 301 MP 52 8
48.0 7020 48.0 13.2 302 MP 53 14 43.0 7220 41.6 11.8 303 MP 54a 15 36.0 7260 45.6 11.6 304 MP 54b 13 44.0 6560 39.0 12.8 305 MP 55 7
43.0 7260 44.8 14.0 306 MP 56 16 52.0 7160 41.0 11.8 307 MP 57a 14 40.0 7400 43.4 12.6 308 MP 57b 10 41.0 7000 47.2
.13.0 i
309 MP 58 11 36.0 5100 45.0 15.8 310 MP 59 12 57.0 5400 42.0 12.2 311 MP 60 16 57.0 6840 45.4 12.8 312 MP 61a 12 25.0 4720 36.4 9.4 313 MP 61b 6
36.0 6760 42.6 11.6 314 MP 62a 15 31.0 4460 45.0 14.2 315 MP 62b 5
36.0 7220 42.8 12.6 l
316 MP 63a 3
28.0 4400 44.8 13.6 317 MP 63b 11 47.0 5520 45.0-14.2 l
318 MP 64a 6
36.0 6500 39.6 11.0 319 MP 65a 10 33.0 4780 44.0 13.2 320 MP 65b 3
36.0 5780 44.2 11.4 321 MP 66a 9
27.0 5080 42.4 13.0 322 MP 66b 8
35.0 5340 49.0 16.2 323 MP 67 6
37.0 4720 41.4 12.8 324 MP 68 20 51.0 6560 41.6 13.8 325 MP 69 19 32.0 6900 42.2 12.2 326 MP 70 6
43.0 4980 41.4 9.4 327 MP 71 7
27.0 6100 42.6 15.0 l
328 MP 72 5
37.0 6680 47.4 13.6 329 MP 73 13 28.0 6260 43.4 13.6 330 MP 74 17 37.0 6520 42.6 11.2 331 MP 75 7
40.0 7020 41.8 14.0 332 MP 76 7
34.0 6920 48.4 15.0 333 MP 77 11 44.0 7100 46.0 10.4 334 MP 78 15 44.0 7240 49.0 12.6 335 PAR 01 11 39.4 6500 50.6 16.0 336 PAR 02 9
37.4 6960 52.6 14.8 I
l
=-
OBS LOC SLOC ALPHA 1 DETA1 GAMMA 1 SWIPE SALPHA 337 PAR 03 12.80 41.0 -
6660 69.8 16.2 338 RRC 01 4.64 54.8 7400 46.6 11.6 339 RRC 02 13.60 47.0 7440 44.4 12.0 340 RRC 03 10.00 58.0 7660 43.4 11.8 341-RRC 04 15.00 49.0 7940 47.4 12.4 342
'RRC 05 16.40 60.2 8260 49.6 15.8 343 RRC 06 11.00 54.4 7620 42.0
-14.0 344 RRC 07 11.60 50.4 7700 39.4 10.9 345 RRC 08 12.00 49.0 7240 44.2 12.0 346 RRC 09 19.00-50.2 7560 45.0 11.2 347 RRC 10 15.80 56.0 7420 44.8 12.4 348 RRC 11 11.60-48.2 7260 48.6 15.2 349 RRC 12 12.80 57.6 7280 38.6 12.4 350 RRC 13 16.00 84.8 7320 42.6 11.8 351 RRC 14 17.00 48.2 7160 47.0 12.2 352 RRC 15 15.00 50.0 7620 44.8 12.4 353 RRC 16 15.60 52.2-7100 48.6 15.2 354 RRC 17 12.80 49.2 7080 38.6 12.4 355 RRC 18 2.14 61.2 7160 45.4 11.6 356 RRC 19 13.20 48.8 7260 41.8 9.8 357 RRC 20 13.00 45.2 6380 48.4 13.2 358 RRC 21 13.00 57.2 7040 41.6 10.8 359 RRC 22 14.60 52.6 6900 44.6 15.0 360 RRC 23 16.60 51.0 6920 43.4 12.2 361 RRC 24 15.00 51.2 7040 41.6 10.8
~362 RRC 25 14.80 53.6 7300 44.6 15.0 363 RREW 01 16.60 58.6 10420 43.4-
- 12.8 '
364 RREW 02 10.40 51.2 8960
'42.6 13.6 365 RREW 03 11.00 53.6 7100 43.2 11.8 366 RREW 04 13.60 51.2 7360 42.8 13.4 367 RREW 05 14.40 54.0 6900 46.0 13.6 368 RREW 06 16.40
'54.0
.10300
- 7.0 14.6 369 RREW 07 9.20 44.2 9780 44.2 13.8 t
370 RREW 08 10.60 50.6 7020 45.4 13.8 371 RREW 09 12.40 55.2 6960 42.4 13.6 372 RREW 10 16.40 44.0 6720 47.0
~14.0 373 RREW 11 10.00 57.4 10600 47.6 13.0 l
374 RREW 12 13.20 44.8 9820 43.6 13.0 t
375 RREW 13 10.40 51.2 7260 45.4 12.8 l
376 RREW 14 10.40 51.2 6560 42.2 12.2 i
377 RREW 15 15.60 54.0 6500 45.0 13.6 i
378 RREW 16 12.40 80.0 9960 44.2 13.2 l
379 RREW 17 11.00 74.0 9360 39.2 11.8.
l 380 RREW 18 12.00 46.6 7160 43.4 12.8
(
381 RREW 19 18.00 51.2 7120 42.6 13.6 l
382 RREW 20 14.40 52.0 6300 47.2 12.8 383 RREW(S) 01 43.0 11.8 384 RREW(S) 01 49.2 13.6 385 RREW(S) 02 43.4 12.8 386 RREW(S) 04 45.6 16.6 387 RREW(S) 05 45.6 12.6 388 RREW(S) 06 45.2 14.4 389 RREW(S) 07 48.8 13.2 390 RREW(S) 08 44.4 11.8 391 RREW(S) 09 47.4 13.4 392 RREW(S) 10 43.4 13.2 l
I l
+
l
OBS LOC.
SLOC ALPHA 1 BETA 1' GAMMA 1 StftflPE SALPHA 393 RREW(S) 11 51.4 12.8 394 RREW(S) 12 45.4 12.6 395 RREW(S) 13 44.0 9.2 396 RREW(S). 14
.44.0 12.8 i
l 397 RREW(S) - 15 44.6 12.6 398 RREW(S) 16 46.0-13.2 399 RREW(S) 17 42.6 13.0 400 RREW(S) 18 42.0 12.4 l
401 RREW(S) 19 44.0 12.6 402 RREW(S) 20 45.6 16.0 403 RRF 01 7.6 39.8 8560 43.6 11.8 404 RRF 02-17.6 45.0 8720 42.0 11.6 405 RRF 03 10.2 39.8 8800 46.4 12.2
-406 RRF 04 7.2 42.8 9020 46.4 12.2 407' RRF 05 18.8 37.2 8940 44.4 11.8 l
408 RRF 06 4.0 44.6 8160 45.0 11.0 l
409 RRF 07
' 4.0 38.8 8100 42.6 14.0 410 RRF 08 6.8 39.4 8020 48.6 15.4 411 RRF 09 7.6 34.6 8260 44.4 12.0 412 RRF 10 6.2 41.0 7100 48.2 12.3 e
413 RRF 11 8.4 39.2 7480 45.4 13.4 414 RRF 12 6.2 39.0 7180 39.4 10.8 415 RRF 13 7.2 40.4 7700 44.2 14.4 416 RRF 14 9.0 39.6 7520 40.6 11.2 417 RRF
-15 5.6 39.6 7300 46.5 11.5 418 RRF 16 7.6 37.4 7060 45.2 11.4 419 RRF 17 4.0 32.8 6800 40.8
'11.4 420 RRF 18 5.2 37.6 7500 46.6 13.8 421 RRF 19 5.2 36.4 7520-38.4 12.4 422 RRF 20 5.8 34.0 7880 44.8 12.2 423 RRF 21 7.4 37.4 7200 45.0 12.6 424 RRF 22 4.8 36.4 7160 38.0 9.8 425 RRF 23 6.8 38.0 6920 44.1 10.7 426 RRF(S) 01 43.8 12.6 427 RRF(S) 01A 43.8 11.8 428 RRF(S)
- 02 43.4 12.0 429 RRF(S) 02A 44.2 14.8 430 RRF(S) 03 38.8 10.6 l
431 RRF(S) 03A 40.6 9.8 432 RRF(S) 04 32.2 11.2 433 RRF(S) 04A 44.0 11.4 434 RRF(S) 05 42.2 11.6 435 RRF(S) 05A 42.4 11.0 436 RRF(S) 06 36.6 7.8 437 RRF(S) 06A 51.4 15.0 438 RRF(S) 07 45.2 13.0 439 RRF(S) 0'A 47.4 12.4 440 RRF(S) 08 44.6 11.4 441 RRF(S) 08A 44.6 15.4 442 RRF(S) 09 49.6 13.8 443 RRF(S) 09A 40.0 10.2 444 RRF(S) 10 47.4 11.6 445 RRF(S) 10A 43.0 10.0 446 RRF(S) 11 43.8 12.0 447 RRF(S) 11A 45.8 12.0 448 RRF(S) 12 44.0 17.0
..,4 a,e C
e
)
OBS LOC SLOC ALPHA 1 BETA 1 GAMMA 1 SWIPE SALPHA 449 RRF(S) 12A 49.8 15.6 450 RRF(S) 13 48.6 13.6 451 RRF(S) 13A 50.4 13.2 452 RRF(S) 14 39.0 11.0
)
453 RRF(S) 14A 42.6 12.8 454 RRF(S) 15.
44.2 11.2 1
455 RRF(S) 15A 44.0 10.8 456 RRF(S) 16 43.8 13.2 457 RRF(S) 16A 50.0 11.6 458 RRF(S) 17 45.0 13.6
)
459 RRF(S) 17A 47.0
' 11.0 460 RRF(S) 18 48.6 12.6 461 RRF(S) 18A 46.0 13.6 462 RRF(S) 19 43.4 12.6 463 RRF(S) 19A 45.2 11.6 464 RRF(S) 20 50.4 12.8 t
)
465 RRF(S) 20A 45.0 10.0 466 RRF(S) 21 45.4 12.0 467 RRF(S) 21A 41.6 10.8 468 RRF(S) 22 42.4 12.8 469 RRF(S) 22A 42.8 11.0 470 RRF(S) 23 44.6 13.4
)
471 RRF(S) 23A 42.8 12.0 472 RRNW 01 10.8 69.8 9540 47.4 12.4 473 RRNW 02 8.6 58.8 9840-40.4 12.6 474 RRNW 03 9.2 61.6 10040 48.8 14.0 475 RRNW 04 9.0 60.8 10240 46.8 12.0 476 RRNW 05 14.4 56.6 9820 41.4 15.2
)
477 RRNW 06 13.2 61.4 10020 41.6 12.0 478 RRNW 07 4.8
-55.4 10100 44.2 13.8 479 RRNW 08 7.4 54.0 10220 39.0 12.2 480 RRNW 09 20.2 39.8 9580 39.5 10.8 481 RRNW 10 18.4 21.0 9420 44.2 15.0 482 RRNW(S) 01 44.4 14.4
)
483 RRNW(S) 02 45.0 16.0 484 RRNW(S) 03 48.2 14.2 485 RRNW(S) 04 39.6 9.0 486 RRNW(S) 05 42.8 12.2 487 RRNW(S) 06 50.0-15.0 488 RRNW(S) 07 48.0 12.4
)
489 RRNW(S) 08 40.2 10.0 490 RRNW(S) 09 41.0 11.4 491 RRNW(S) 10 44.8 11.0 492 RRSW 01 11.0 38.8 6980 42.0 13.0 493 RRSW 02 8.0 38.0 7100 44.2 13.0 494 RRSW 03 8.0 32.4 7220 37.6 10.2
)
495 RRSW 04 15.0 42.2 7100 45.0 12.8 496 RRSW 05 13.0 39.4 7260 44.8 14.6 497 RRSW 06 11.2 42.4 7340 44.8 15.4 498 RRSW 07 15.0 60.4 7140 45.2 13.0 499 RRSW 08 19.0 43.0 7120 42.6 12.4 500 RRSW 09 19.4 45.4 7140 40.4 12.4
)
501 RRSW 10 16.0 36.4 7300 44.4 12.8 502 RRSW 11 16.6 44.4 6840 43.4 13.6 503 RRSW 12 13.6 45.2 6220 42.4 13.0 504 RRSW 13 11.2 43.0 7780 45.4 12.8
)
OBS LOC SLOC ALPHA 1 BETAi GAMMA 1 SWIPE SALPHA 505 RRSW 14 9.0 39.0 8000 41.4 13.6 506 RRSW 15 13.6 42.4 7760 43.0 11.8 507 RRSW(S) 01 42.4 12.8 508 RRSW(S) 02 41.4 13.6 509 RRSW(S) 03 44.2
.13.6 510 RRSW(S) 04 45.4 12.8 511 RRSW(S) 05 42.8 12.0 512 RRSW(S) 06 43.0 12.4 513
. RRSW(S) 07 46.2 14.0 514 RRSW(S) 08
- 44.4 13.0 515 RRSW(S) 09 47.2 14.6 516 RRSW(S) 10 39.8' 9.8 517
. RRSW(S) 11 50.0 14.2 518 RRSW(S) 12 39.6 12.0 519 RRSW(S) 13 45.6
-11.2 520 RRSW(S) 14 44.0 11.0 521 RRSW(S) 15 39.4 10.0 522 RRWW 01 14.6 39.4 6920 42.4 10.0 523 RRWW 02 11.6 41.4 7380 41.2 12.2 524 RRWW 03 12.8 42.2 7440 49.2 17.0 525 RRWW 04 9.4 42.6 7320 36.6 7.8 526 RRWW 05 9.4
-41.6 7320 50.2 12.8 527 RRWW 06 6.2 42.4 7340 46.5 13.7 528 RRWW 07 8.0 37.4 7300 47.2 12.3 529 RRWW 08 9.8 38.0 7340 41.4 12.7 i
530 RRWW(S) 01 46.0 14.6 l
531 RRWW(S) 02 45.0 10.6 532 RRWW(S) 03 40.8 12.8 533 RRWW(S) 04 44.2 13.8.
534 RRWW(S) 05 43.8 12.2
]
535 RRWW(S) 06 49.6 14.8 536 RRWW(S) 07 48.2-13.2 537 RRWW(S) 08 49.8 13.8 538 SD(S) 01 43.6 12.8 539 SD(S) 02 42.4 11.4 540 SD(S) 03 41.4 11.2 541 SD(S) 04 41.4 13.0 542 SD(S) 05 42.0 15.8 i
t h
9
)
DIFFERENCE DATA
)
The following data is obtained by multiplying each raw count by a correction factor. The correction factor is: instrument efficiency times the geometry factor times the area factor.
The resultant data has units dpm/100cm. Before converting to dpm two standard errors
- are 2
added to each count which yields the upper limit expected of the true mean count with over 95% confidence. Finally the background count is subtracted from the count. The background
)
count is obtained from the average of three separate ' clean' locations on campus in buildings of similar construction materials to the reactor facility.
The standard deviation of the count is assumed to be the square root of the count. This assumes that the counts follow a poisson distribution. In this case the basic experimental unit
)
is the count per minute, thus we have replicated the BEU five times for each count and the standard error of the mean is the standard deviation divided by five.
LOC
= Location of the measurement SLOC
= Sublocation or section measured
)
ALPHAD
= Highest deviation from background at 95% confidence for alpha measurements.
i BETAD
= Highest deviation form background at 95% confidence for beta measurements.
)
GAMMAD
= Highest deviation from background at 95% confidence for gamma measurements.
SWIPED
= Highest deviation form background at 95% confidence for removable surface contamination including alpha, beta, and gamma emissions.
SALPHA
= Highest deviation form background at 95% confidence for removable alpha surface contamination counted specifically for alpha emissions.
)
l
)
)
)
OBS LOC SLOC ALPHAD BETAD GAMMAD SWlPED SALPHAD 1
AFD(S) 01 1.8787
-2.37362 2
AFD(S) 02
-2.2539
-2.37362 3
AFD(S) 03
-3.7022
-4.29728 4
AFD(S) 04 0.4331
-2.80000 5
BF(S) 15 7.0351
-1.52250 6
CREW 01 54.8287
-81.365
-53954.89 12.8000
-0.24944 7
CREW 02 52.9803
-67.928
-55690.69 5.5923
-0.24944 8
CREW (S) 01 14.0341 4.80997 9
CREW (S) 02 11.1539 1.44222 10 CRF 01
-8.1555
-78.005
-50598.93 7.8593 0.17405 11 CRF 02
-19.3115 2.597
-51301.23 7.8593 0.17405 12 CRF 03 10.4044
-41.058
-17242.26 8.4773
-0.03765 13 CRF 04
-41.6869
-91.443
-42347.07 6.8291 0.80855 14 CRF 05
-0.7271 59.671
-56568.60 2.4980
-0.03765 15 CRC 01
-37.9503 99.949
-55515.11 12.3885 3.12840 16 CRC 02
-11.8723 200.619
-53232.58 11.1539 3.96971 17 CRC 03 21.5242 22.742
-60080.29 6.2107
-0.24944 18 CRC 04 49.2829
-94.802
-54988.37 9.3011 2.91789 19 CRF(S) 01 6.0046 1.44222 20 CRF(S) 01A 9.5070 0.17405 21 CRF(S) 01B 12.1828 5.85892 22 CRF(S) 01C 6.8291 0.80855 23 CRF(S) 01D 7.6533 0.17405 24 CRF(S) 01E 7.0351 5.85892 25 CRF(S) 01F 12.1828 1.86424 l
26 CRF(S) 02 7.0351 2.07513 27 CRF(S) 02A 2.2916 0.80855 28 CRF(S) 02 8 7.8593
-0.24944 29 CRF(S) 02C 8.8892 1.65327 30 CRF(S) 02D 15.4733 1.23108 31 CRF(S) 02E 10.5364 4.60000 32 CRF(S) 02F 9.7129 2.07513 l
33 CRF(S) 03 7.4473 1.01986 34 CRF(S) 03A 7.0351 0.80855 35 CRF(S) 03B 7.2412
-0.46134 36 CRF(S) 03C 9.0952 1.23108 37 CRF(S) 03D 6.8291
-0.03765 38 CRF(S) 03E 6.8291 1.23108 l
39 CRF(S) 03F 12.5943 2.91789 40 CRF(S) 04 13.4171 4.17987 41 CRF(S) 04A 10.1247 1.01986 42 CRF(S) 04B 3.7361 0.59714 43 CRF(S) 04C 6.4169 1.23108 44 CRF(S) 04D 12.5943 1.86424 45 CRF(S) 04E 5.7985
-0.24944 l
46 CRF(S) 04F 7.8593 0.17405 l
47 CRF(S) 05 8.0653 1.23108 l
48 CRF(S) 05A 6.0046
-0.24944 49 CRF(S) 05B 7.6533 2.07513 50 CRF(S) 05C 7.6533
-0.46134 51 CRF(S) 05D 8.0653 0.59714 i
52 CRF(S) 05E 6.6230 0.80855 l
53 CRF(S) 05F 9.7129 2.70732 i
54 CRF(S) 06 3.9424 0.80855 55 CRF(S) 06A 11.5655 2.28593 56 CRF(S) 06B 3.9424
-0.88547 l
OBS LOC SLOC ALPHAD BETAD GAMMAD SWIPED SALPHAD 57 CRF(S) 06C 10.3306 1.01986 58 CRF(S) 06D 7.8593 2.28593 59 CRF(S) 06E 3.1171
-1.09769 60 CRF(S) 06F 8.2713 1.23108 61 CRF(S) 07 9.7129 0.80855 62 CRF(S) 07A 4.9737 1.01986 63 CRF(S) 07B 6.0046 1.23108 64 CRF(S) 078 12.8000 4.80997 65 CRF(S) 07C 8.2713
-0.03765 66 CRF(S) 07D
- 9.3011
-0.24944 67 CR.-(S) 07E 10.1247 1.86424 1
68 CRF(S) 07F
-0.6000
-2.16065 l
69 CRF(S) 08 11.5655 3.75949 70 CRF(S) 08A 11.1539
-1.73509 71 CRF(S) 08B 7.6533 1.65327 72 CRF(S) 08B 12.8000 0.17405 73 CRF(S) 08C 5.7985
-0.03765 74 CRF(S) 08D 5.5923
-2.80000 75 CRF(S) 08E 1.2593 0.80855 76 CRF(S) 08F
-4.1161 1.23108 77 CRF(S) 09 11.9770 1.44222 78 CRF(S) 09A 13.8284 4.80997 79 CRNtN 01 64.0681 133.510
-31988.84 5.5923 0.17405 i
80 CRNW 02 78.8423 89.880
-38309.06 4.3550-1.23108 81 CRNW 03 65.9155 240.877 4174.18 13.8284 3.54919 82 CRNW 04
-0.7271
-84.724
-47263.03 14.0341 2.91789 83 CRNW(S) 01 9.3011 2.07513 84 CRNW(S) 02 8.6833 1.86424 85 CRNW(S) 03 9.0952 1.86424 86 CRNW(S) 04 7.6533 0.80855 87 ID 01
-10.0137
-37.700
-61836.16 6.8291 0.59714 88 ID 02
-11.8723 214.039
-61836.16 1.6722 0.17405 89 ID 03 10.4044 130.154
-32866.64 9.7129 1.44222 90 IWB 05 19.6716
-14.193
-48140.89 14.0341 3.33883 91 IWB 06 45.5846
-54.493
-49018.76 3.9424 7.32511 92 IWB 07 32.6340
-108.240
-53057.00 8.6833 3.75949 93 IWB 08 34.4848
-94.802
-56217.44 11.3597 2.91789 t
94 LDP 01 64.0681
-188.896
-62714.11 7.8593 0.80855 95 LDP 02
-15.5909
-84.724
-64645.62 4.7675
-1.52250 1
96 LDP 03
-37.9503
-158.645
-67630.73 8.8892 1.44222 97 LDP(S) 04 5.7985 1.23108 98 LDP(S) 05 6.6230 1.65327 99 LDP(S) 06
-0.6000
-1.73509 j
100 LRC 01 51.1317 244.231
-54637.21 7.8593 1.01986 101 LRC 02 36.3353 130.154
-54286.05 6.2107 0.17405 102 LRC 03
-43.5565 163.711
-53232.58 4.9737 2.49666 103 LRC 04
-28.6227 5.954
-56744.18 3.1171
-1.31004 104 LRC 05 17.8188
-10.835
-54988.37 3.9424
-1.09769 105 LRC 06
-0.7271 173.777
-53057.00 10.3306 3.75949 106 LRC 07 6.6953 123.442
-48843.18 5.7985
-1.31004 107 LRC 08 27.0803 22.742
-50950.08 15.2678 2.49666 108 LRF 01
-39.8182 197.264
-42171.51 10.3306 1.23108 109 LRF 02 15.9656 183.843
-44102.76 6.0046 2 49666 110 LRF 03
-43.5565 311.315
-48667.61 9.0952 1.86424 111 LRF 04 12.2584 277.775
-42698.21 0.2265 0.59714 112 LRF 05 30.7830 180.488
-39362.45 7.4473 3.12840
i e
)
OBS LOC SLOC ALPHAD BETAD GAMMAD SWlPED SALPHAD 113 LRF 06 27.0803 244.231
-50247.78 9.5070 0.17405 114 LRF 07 51.1317 281.129
-53934.89 4.9737
-1.94780 l
115 LRF 08
-10.0137 42.886
-32339.96 6.8291 0.80855 l
116 LRF(S) 01 6.2107 0.80855
)
117 LRF(S) 01A 3.7361 0.59714 118 LRF(S) 018 3.1171
-0.24944 119 LRF(S) 01C 7.6533 0.38564 120 LRF(S) 01D 6.8291
-0.24944 l
121 LRF(S) 01E 9.5070 2.49666 l
122 LRF(S) 01F 10.1247 0.17405 123 LRF(S) 02 6.6230
-0.88547 124 LRF(S) 02A 7.8593 3.54919 125 LRF(S) 02B 7.8593 2.70732 126 LRF(S) 02C 5.1799 0.17405 l
127 LRF(S) 02D 7.2412 1.86424 l
128 LRF(S) 02E 5.7985 0.80855
)
129 LRF(S) 02F 10.9481 2.28593 130 LRF(S) 03 7.4473
-0.03765 131 LRF(S) 03A 12.5943 0.38564 132 LRF(S) 03B 5.3861 7.53436 j
133 LRF(S) 03C 11.9770 2.28593 134 LRF(S) 03D 9.7129 2.07513
)
135 LRF(S) 03E 8.6833 1.23108 136 LRF(S) 03F 9.7129 1.44222 137 LRF(S) 04 6.2107 1.23108 138 LRF(S) 04A 5.3861 0.59714 139 LRF(S) 04B 11.5655 3.96971 l
140 LRF(S) 04C 9.0952 3.96971
)
141 LRF(S) 04D 10.9481 1.65327 142 LRF(S) 04E 9.7129 1.01986 143 LRF(S) 04F 9.0952 0.38564 144 LRF(S) 05 11.7713
-0.46134 145 LRF(S) 05A 8.8892 0.17405 146 LRF(S) 05B 11.7713 2.07513 p
147 LRF(S) 05C 9.9188 2.91789 148 LRF(S) 05D 6.8291 0.59714 149 LRF(S) 05E 11.9770 2.91789 l
150 LRF(S) 05F 7.0351 2.07513 l
151 LRF(S) 06 9.0952 1.23108 152 LRF(S) 06A 8.0653 2.07513
)
153 LRF(S) 06B 8.0653 0.38564 154 LRF(S) 06C 10.5364 3.12840 l
155 LRF(S) 06D 1.2593 1.44222 156 LRF(S) 06E 12.5943 2.28593 157 LRF(S) 06F 11.1539
-0.46134 158 LRF(S) 07 8.8892 2.49666
)
159 LRF(S) 07A 10.7423 0.80855 l
160 LRF(S) 078 9.3011 0.38564 l
161._
LRF(S) 07C 3.9424 8.16182 l
162 LRF(S) 07D 6.8291
-0.88547 163 LRF(S) 07E 2.4980
-0.46134 164 LRF(S) 07F 9.9188 3.54919
)
165 LRF(S) 08 11.7713 1.65327 166 LRF(S) 08A 10.5364 5.01988 167 LRF(S) 08B 6.2107
-0.88547 168 LRF(S)
OBC 3.7361 1.44222 1
- -~
h j
OBS LOC SLOC ALPHAD BETAD GAMMAD SWIPED SALPHAD l
l 169 LRF(S) 08D 15.8844 3.33883 l
170 LRF(S) 08E 12.3885 0.17405 l
171 LRF(S) 08F 8.8892 0.38564 172 LRTW 03
-23.034 19.385
-52530.27 15.0622 2.91789 173 LRTW 04
-11.872 5.954
-51827.96 3.5298
-0.46134 174 LRTW 05 36.335 5.954
-53408.16 5.5923 0.17405 175 LRTW 06
-0.727 106.662
-53057.00 5.1799
-0.24944 l
176 LRTW 07
-56.674 157.000
-55866.28 3.9424 1.65327 177 LRTW 08
-37.950
-145.202
-53232.58 5.1799
-0.03765 178 LRTW 09
-19.312 492.381
-22508.80 10.3306 6.06853 i
-179 LRTW(S) 03 6.6230
.0.17405 180 LRTW(S) 04 4.1487 1.44222 t
181 LRTW(S) 05 11.9770
-1.73509 182 LRTW(S) 06 9.5070 1.01986 183 LR1W(S) 07 10.1247 2.91789 184 LRTW(S) 08 6.6230 0.17405 185 LRTW(S) 09 7.0351 1.44222 186 LRW 01 23.376 458.856
-29531.02 3.1171
-1.09769 187 LRW 02 40.036 220.748
-30584.37 9.5070 2.91789 188 LRW 03 14.112
-57.852
-50247.78 7.2412 3.54919 189 LRW 04 73.303 321.377
-46034.03 4.7675 2.07513 190 LRW 05 110.207 22.742
-58148.85 8.8892 1.44222
)
191 LRW 06 12.258
-145.202
-52530.27 13.0057 1.86424 192 LRW 07 32.634 123.442
-53408.16 5.7985
-1.09769 193 LRW 08 32.634 123.442
-53408.16 11.5655 5.01988 194 LRW 09 58.525 240.877
-26371.00 2.7044 1.01986 195 LRW 10 17.819 207.329
-24791.00 9.3011 3.54919 196 LRW 11 12.258 341.499
-25844.33 3.3235 0.17405
)-
197 LRW(S) 01 8.4773 1.23108 198 LRW(S) 02 3.3235
-0.24944 199 LRW(S) 03 4.7675 0.80855 200 LRW(S) 04 14.6510 2.70732 201 LRW(S) 05 1.2593
-1.09769 202 LRW(S) 06 9.3011 1.44222
)
203 LRW(S) 07 6.2107
-0.46134 204 LRW(S) 08 13.8284 6.06853 205 LRW(S) 09 7.2412
-0.67335 206 LRW(S) 10 0.4331 2.91789 207 LRW(S) 11 5.5923 0.38564 208 LS 01
-6.298
-165.367
-60958.22 13.0057 3.96971
)
209 LS 02 54.829
-131.760
-63065.29 5.1799 0.59714 210 LS 03 12.258
-44.417
-62011.75 9.3011 3.54919 211 LS(S) 04 8.6833 1.44222 212 LS(S) 05 12.8000 2.70732 213 LS(S) 06 12.5943 0.59714 214 LS(S) 07 9.7129 1.44222
)
215 MP 01a
-47.299 659.967
-61836.16 7.2412 1.01986 216 MP 01b
-28.623 39.529
-56568.60 9.0952 2.07513 217 MP 02a
-56.674 173.777
-58148.85 2.0852 2.28593 218 MP 02b 17.819
-44.417
-54812.79 5.3861 0.80855 219 MP 03a
-0.727 22.742
-56568.60 5.3861
-1.94780 1
220 MP 04a
-60.434
-78.005
-61836.16 6.2107
-0.67335 l
)
221 MP 04b 82.534
-94.802
-58324.43 7.2412 1.23108 222 MP 05a 36.335
-128.400
-66928.35 9.9188 3.12840 j
223 MP 05b
-37.950 89.880
-61836.16 3.7361
-0.24944 224 MP 06a
-47.299
-212.429
-67630.73 4.5612 1.65327
)
-l.i
s OBS LOC SLOC ALPHAD BETAD GAMMAD SWIPED SALPHAD 225 MP 06b
-28.6227
-27.625
-62538.52 13.0057 2.28593 226 MP 07a
-19.3115
-212.429
-57622.10 8.6833 2.49666 227 MP 07b
-66.0883
-78.005
-57622.10 7.2412
-0.88547 228 MP 08a 73.3032 157.000
-68157.53 8.4773 0.80855 229 MP 08b
-10.0137
-313.340
-63592.06 10.9481 3.33883 230 MP 09
-19.3115 5.954
-59377.94 8.6833
-0.67335 l
231 MP 10
-19.3115 509.142
-56744.18 6.2107
-0.67335 232 MP 11
-19.3115 22.742
-54988.37 3.1171
-0.88547 233 MP 12
-10.0137 341.499
-54637.21 9.9188 2.91789 234 MP 13
-10.0137 190.554
-55339.53
-1.8403
-3.44069 235 MP 14
-37.9503 22.742
-54286.05 0.2265 1.23108 236 MP 15a
-19.3115
-27.625
-61133.81 5.1799
-1.09769 237 MP 15b 8.5500 5.954
-63416.47 1.2593 1.44222 238 MP 16a
-28.6227 106.662
-67455.14 8.4773 6.06853 239 MP 16b 17.8188
-162.006
-64118.84 6.8291 0.59714 240 MP 17a
-56.6743
-229.241
-65699.18 6.2107 2.28593 241 MP 176
-0.7271 22.742
-62714.11 10.9481 1.65327 1
242 MP 18a
-37.9503
-44.417
-68684.32 11.7713
-0.46134 243 MP 18b
-28.6227
-61.210
-56568.60 9.7129 2.07513 244 MP 19a
-19.3115
-145.202
-67279.54 5.3861 1.23108 245 MP 19b
-28.6227 56.314
-66225.96 5.5923 4.38997 246 MP 20a 17.8188
-145.202
-67806.33 8.2713
-0.46134 247 MP 20b
-75.5626 22.742
-62362.93 7.2412 1.86424 248 MP 21a
-19.3115
-111.600
-66752.75 4.3550 0.59714 249 MP 21b
-10.0137
-178.811
-61836.16 7.6533
-0.24944 250 MP 22a 8.5500 56.314
-63416.47 11.7713 2.91789 251 MP 22b 45.5846
-44.417
-59729.11 4.1487
-1.94780 252 MP 23a
-37.9503
-27.625
-63767.65 10.3306 4.60000 253 MP 23b
-10.0137 56.314
-63065.29 7.8593 3.33883 254 MP 24a
-10.0137
-145.202
-65172.40 9.0952
-0.03765 255 MP 24b 8.5500
-10.835
-65874.77 7.4473 0.17405 256 MP 25a
-28.6227 39.529
-65874.77 4.1487
-0.46134 257 MP 25b 17.8188 56.314
-63416.47 11.7713 4.80997 258 MP 26a
-37.9503
-61.210
-66928.35 6.6230 0.38564
)
259 MP 26b
-56.6743
-10.835
-61836.16 6.8291
-0.24944 260 MP 27a
-28.6227
-44.417
-63416.47 7.6533 4.38997 261 MP 27b
-19.3115
-44.417
-66225.96 5.3861
-3.01341 262 MP 28
-10.0137 123.442
-63592.06 9.5070 2.91789 263 MP 29a
-75.5626
-246.056
-62187.34 5.5923 1.65327 264 MP 29b
-0.7271
-27.625
-63767.65 7.8593 2.70732 3
265 MP 30a
-0.7271
-27.625
-61660.57 11.7713 1.65327 266 MP 30b 27.0803
-61.210
-62538.52 3.1171
-0.24944 267 MP 31a
-0.7271 106.662
-64294.43 12.5943 3.33883 268 MP 32 17.8188
-44.417
-88353.81 4.9737 0.80855 269 MP 33a
-19.3115
-212.429
-56393.02 12.3885 3.75949 270 MP 33b 8.5500
-27.625
-61133.81 10.5364 5.01988
)
271 MP 34a
-28.6227
-212.429
-67981.93 7.4473 0.17405 272 MP 34b
-56.6743 5.954
-66225.96 10.7423 0.80855 273 MP 35a
-0.7271
-229.241
-66577.15 8.0653 2.07513 274 MP 35b
-37.9503 73.098
-64645.62 8.8892 0.17405 275 MP 36a
-37.9503
-44.417
-72371.97 5.3861 0.59714 276 MP 36b 8.5500
-10.835
-68157.53 12.5943 0.38564
)
277 MP 37a 17.8188
-111.600
-70615.93 6.4169
-1.52250 1
278 MP 37b
-56.6743
-27.625
-66050.37 3.7361 0.59714 279 MP 38a 36.3353
-78.005
-68684.32 4.7675 0.38564 280 MP 38b 36.3353
-10.835
-65523.58 11.7713 1.65327
)
~
..s OBS-LOC SLOC ALPHAD BETAD GAMMAD SWIPED SALPHAD 281 MP 39a 27.0803 123.442
-67455.14 -
6.4169 1.65327 282 MP 39b
-0.7271
-145.202
-63592.06 3.1171
-1.09769 283 MP 40a 17.8188
-279.692
-65874.77 6.2107
-0.88547 284 MP 40b 17.8188 123.442
-63416.47 6.6230 0.80855 285 MP 41a
-19.3115
-262.873
-64470.02 9.7129 4.38997 l
286 MP 41b 8.5500
-61.210
-61836.16 5.7985
-0.24944-l 287 MP 42a
-37.9503
-212.429
-62362.93 12.1828 1.65327 l
288 MP 42b
-10.0137
-44.417
-66225.96 10.5364 4.60000 289 MP 43a
-0.7271
-145.202
-66752.75 7.0351 2.49666 290 MP 43b
-56.6743
-44.417
-64645.62 5.5923
-2.80000 291 MP 44a
-28.6227
-10.835
-66577.15 7.6533
-0.67335 292 MP 44b
-37 9503
-178.811
-66050.37 9.3011
-0.24944 293 MP 45a
-10.0137
-27.625
-66225.96 7.6533 2.70732 294 MP 45b 17,8188 39.529
-67981.93 8.0653 0.80855 295 MP 46
-56.6743 5.954
-63065.29 7.2412
-0.24944 296 MP 47 8.5500 39.529
-59904.70 4.5612 0.59714 297 MP 48
-10.0137
-178.811-
-70791.54 13.4171 1.86424 298 MP 49
-0.7271
-128.400
-66050.37 10.7423 1.86424 299 MP 50
-75.5626
-78.005
-72371.97 7.6533 1.65327 300 MP 51
-28.6227
-10.835
-57095.35 4.7675
-0.24944 301 MP 52
-19.3115 56.314
-54812.79 11.7713 1.65327 302 MP 53 36.3353
-27.625
-53057.00 5.1799 0.17405 303 MP 54a 45.5846
-145.202
-52705.85' 9.3011
-0.03765 304 MP 54b 27.0803
-10.835
-58851.19' 2.4980 1.23108 305 MP 55
-28.6227
-27.625
-52705.85 8.4773 2.49666 306 MP 56 54.8287 123.442
-53583.74 4.5612 0.17405 307 MP 57a 36.3353
-78.005
-51476.81 7.0351 1.01986 308-MP 57b
-0.7271
-61.210.
-54988.37 10.9481 1.44222 309 MP 58 8.5500
-145.202-
-71669.55 8.6833 4.38997 310 MP 59 17.8188 207.329
-69035.52 5.5923 0.59714 311 MP 60 54.8287 207.329
-56393.02 9.0952 1.23108 312 MP 61a 17.8188
-330.168
-75006.10
-0.1867
-2.37362 313 MP 61b
-37.9503
-145.202
-57095.35 6.2107
-0.03765 314 MP 62a 45.5846
-229.241
-77289.08 8.6833 2.70732 l
315 MP 62b
-47.2987
-145.202
-53057.00 6.4169 1.01986 l
316 MP 63a
-66.0883
-279.692
-77815.92 8.4773 2.07513 317 MP 63b 8.5500 39.529
-67981.93 8.6833 2.70732 318 MP 64a
-37.9503
-145.202
-59377.94 3.1171
-0.67335 319 MP 65a
-0.7271
-195.619
-74479.27 7.6533 1.65327 320 MP 65b
-66.0883
-145.202
-65699.18 7.8593
-0.24944 321 MP 66a
-10.0137
-296.515
-71845.16 6.0046 1.44222 322 MP 66b
-19.3115
-162.006
-69562.32 12.8000 4.80997 323 MP 67
-37.9503
-128.400
-75006.10 4.9737 1.23108
(
324 MP 68 91.7618 106.662
-58851.19 5.1799 2.28593 325 MP 69 82.5343
-212.429
-55866.28 5.7985 0.59714 326 MP 70
-37.9503
-27.625
-72723.19 4.9737
-2.37362 327 MP 71
-28.6227
-296.515
-62889.70 6.2107 3.54919 328 MP 72
-47.2987
-128.400
-57797.68 11.1539 2.07513 329 MP 73 27.0803
-279.692
-61484.99 7.0351 2.07513 330 MP 74 64.0681
-128.400
-59202.36 6.2107
-0.46134 331 MP 75
-28.6227
-78.005
-54812.79 5.3861 2.49666 332 MP 76
-28.6227
-178.811
-55690.69 12.1828 3.54919 333 MP 77 8.5500
-10.835
-54110.47 9.7129
-1.31004
{
334 MP 78 45.5846
-10.835
-52881.42 12.8000 1.01986 335 PAR 01 8.5500
-88.083
-59377.94 14.4453 4.60000 336 PAR 02
-10.0137
-121.680
-55339.53 16.5010 3.33883
I ODS LOC SLOC ALPHAD BETAD GAMMAD SWIPED SALPHAD 337 PAR 03 25.2285
-61.210
-57973.27 34.1419 4.80997 338 RRC 01
-50.6703 170.422
-51476.81 10.3306
-0.03765 339 RRC 02 32.6340 39.529
-51125.66 8.0653 0.38564 340 RRC 03
-0.7271 224.103
-49194.33 7.0351 0.17405 341 RRC 04 45.5846 73.098
-46736.31 11.1539 0.80855 342 RRC 05 58.5250 261.004
-43927.19 13.4171 4.38997 343 RRC 06 8.5500 163.711
-49545.48 5.5923 2.49666 344 RRC 07 14.1122 96.593
-48843.18 2.9108
-0.77939 345 RRC 08 17.8188 73.098
-52881.42 7.8593 0.38564 346 RRC 09 82.5343 93.237
-50072.20 8.6833
-0.46134 347 RRC 10 52.9803 190.554
-51301.23 8.4773 0.80855 348 RRC 11 14.1122 59.671
-52705.85 12.3885 3.75949 349 RRC 12 25.2285 217.394
-52530.27 2.0852 0.80855 350 RRC 13 54.8287 673.371
-52179.11 6.2107 0.17405 i
351 RRC 14 64.0681 59.671
-53583.74 10.7423 0.59714 352 RRC 15 45.5846 89.880
-49545.48 8.4773 0.80855 353 RRC 16 51.1317 126.798
-54110.47 12.3885 3.75G45 354 RRC 17 25.2285 76.454
-54286.05 2.0852 0.80855 355 RRC 18
-74.2312 277.775
-53583.74 9.0952
-0.03765 356 RRC 19 28.9318 69.741
-52705.85 5.3861
-1.94780 357 RRC 20 27.0803 9.312
-60431.46 12.1828 1.65327 358 RRC 21 27.0803 210.684
-54637.21 5.1799
-0.88547 359 RRC 22 41.8856 133.510
-55866.28 8.2713 3.54919 360 RRC 23 60.3729 106.662
-55690.69 7.0351 0.59714 361 RRC 24 45.5846 110.018
-54637.21 5.1799
-0.88547 362 RRC-25 43.7352 150.289
-52354.69 8.2713 3.54919 363 RREW 01 60.3729 234.167
-24966.56 7.0351 1.23108 i
364 RREW 02 2.9848 110.018
-37782.37 6.2107 2.07513 i
365 RREW 03 8.5500 150.289
-54110.47 6.8291 0.17405 366 RREW 04 32.6340 110.018
-51827.96 6.4169 1.86424 367 RREW 05 40.0357 157.000
-55866.28 9.7129 2.07513
{
368 RREW 06 58.5250 157.000
-26019.89 10.7423 3.12840 j
369 RREW 07
-8.1555
-7.477
-30584.37 7.8593 2.28593 370 RREW 08 4.8402 99.949
-54812.79 9.0952 2.28593 371 RREW 09 21.5242 177.133
-55339.53 6.0046 2.07513 372 RREW 10 58.5250
-10.835
-57446.52 10.7423 2.49666 373 RREW 11
-0.7271 214.039
-23386.57 11.3597 1.44222 374 RREW 12 28.9318 2.597
-30233.25 7.2412 1.44222 375 RREW 13 2.9848 110.018
-52705.85 9.0952 1.23108 376 RREW 14 2.9848 110.018
-58851.19 5.7985 0.59714 377 RREW 15 51.1317 157.000
-59377.94 8.6833 2.07513 378 RREW 16 21.5242 592.939
-29004.35 7.8593 1.65327 379 RREW 17 8.5500 492.381
-34271.12 2.7044 0.17405 l
380 RREW 18 17.8188 32.814
-53583.74 7.0351 1.23108 381 RREW 19 73.3032 110.018 53934.69 6.2107 2.07513 i
382 RREW 20 40.0357 123.442
-61133.81 10.9481 1.23108 383 RREW(S) 01 6.6230 0.17405 384 RREW(S) 01 13.0057 2.07513 385 RREW(S) 02 7.0331 1.23108 386 RREW(S) 04 9.3011 5.22972 l
387 RREW(S) 05 9.3011 1.01986 l
388 RREW(S) 06 8.8892 2.91789 389 RREW(S) 07 12.5943 1.65327 390 RREW(S) 08 8.0653 0.17405 391 RREW(S) 09 11.1539 1.86424 392 RREW(S) 10 7.0351 1.65327
OBS LOC SLOC ALPHAD BETAD GAMMAD SWIPED SALPHAD 393 RREW(S) 11 15.2678 1.23108 394 RREW(S) 12 9.0952 1.01986 395 RREW(S) 13 7.6533
-2.58674 396 RREW(S) 14 7.6533 1.23108 397 RREW(S) 15 8.2713 1.01986 398 RREW(S) 16 9.7129 1.65327 399 RREW(S) 17 6.2107 1.44222 400 RREW(S) 18 5.5923 0.80855 401 RREW(S) 19 7.6533 1.01986 j
402 RREW(S) 20 9.3011 4.60000 403 RRF 01
-23.0343
-81.365
-41293.67 7.2412 0.17405
)
404 RRF 02 69.6096 5.954
-39889.14 5.5923
-0.03765 J
405 RRF 03 1.1291
-81.365
-39186.88 10.1247 0.59714 406 RRF 04
-26.7593
-30.983
-37255.68 10.1247 0.59714 407 RRF 05 80.6884
-125.040
-37957.93 8.0653 0.17405 408 RRF 06
-56.6743
-0.761
-44805.04 8.6833
-0.67335 409 RRF 07
-56.6743
-98.161
-45331.75 6.2107 2.49666 410 RRF 08
-30.4868
-88.083
-46034.03 12.3885 3.96971 411 RRF 09
-23.0343
-168.728
-43927.19 8.0653 0.38564 412 RRF 10
-36.0833
-61.210
-54110.47 11.9770 0.70285 413 RRF 11
-15.5909
-91.443
-50774.50 9.0952 1.86424 414 RRF 12
-36.0833
-94.802
-53408.16 2.9108
-0.88547 415 RRF 13
-26.7593
-71.287
-48843.18 7.8593 2.91789 416 RRF 14
-10.0137
-84.724
-50423.35 4.1487
-0.46134 417 RRF 15
-41.6869
-84.724
-52354.69 10.2276
-0.14353 418 RRF 16
-23.0343
-121.680
-54461.63 8.8892
-0.24944 419 RRF 17
-56.6743
-198.981
-56744.18 4.3550
' 74944 420 RRF 18
-45.4271
-118.320
-50598.93 10.3306
.28593 421 RRF 19
-45.4271
-138.481
-50423.35 1.8787 0.80855 422 RRF 20
-39.8182
-178.811
-47263.03 8.4773 0.59714 423 RRF 21
-24.8965
-121.680
-53232.58 8.6833 1.01986 424 RRF 22
-49.1713
-138.481
-53583.74 1.4658
-1.94780 425 RRF 23
-30.4868
-111.600
-55690.69 7.7563
-0.99157 426 RRF(S) 01 7.4473 1.01986 427 RRF(S) 01A 7.4473 0.17405 428 RRF(S) 02 7.0351 0.38564 429 RRF(S) 02A 7.8593 3.33883 430 RRF(S) 03 2.2916
-1.09769 431 RRF(S) 03A 4.1487
-1.94780 432 RRF(S) 04
-4.5302
-0.46134 433 RRF(S) 04A 7.6533
-0.24944 434 RRF(S) 05 5.7985
-0.03765 435 RRF(S) 05A 6.0046
-0.67335 436 RRF(S) 06 0.0199
-4.08286 437 RRF(S) 06A 15.2678 3.54919 438 RRF(S) 07 8.8892 1.44222 i
439 RRF(S) 07A 11.1539 0.80855 440 RRF(S) 08 8.2713
-0.24944 441 RRF(S) 08A 8.2713 3.96971 442 RRF(S) 09 13.4171 2.28593 443 RRF(S) 09A 3.5298
-1.52250 444 RRF(S) 10 11.1539
-0.03765 445 RRF(S) 10A 6.6230
-1.73509 l
446 RRF(S) 11 7.4473 0.38564 j
447 RRF(S) 11A 9.5070 0.38564 l
448 RRF(S) 12 7.6533 5.64924 l
r l
t' 4
e OBS LOC SLOC ALPHAD BETAD GAMMAD SWIPED SALPHAD 449 RRF(S) 12A 13.6228 4.17987 450 RRF(S) 13 12.3885 2.07513 451 RRF(S) 13A 14.2397 1.65327 452 RRF(S) 14 2.4980
-0.67335 453 RRF(S) 14A 6.2107 1.23108 454 RRF(S) 15 7.8593
-0.46134 455 RRF(S) 15A 7.6533
-0.88547 456 RRF(S) 16 7.4473 1.65327 457 RRF(S) 16A 13.8284
-0.03765 458 RRF(S) 17 8.6833 2.07513 459 RRF(S) 17A 10.7423
-0.67335 460 RRF(S) 18 12.3885 1.01986 461 RRF(S) 18A 9.7129 2.07513 462 RRF(S) 19 7.0351 1.01986 463 RRF(S) 19A 8.8892
-0.03765 464 RRF(S) 20 14.2397 1.23108 465 RRF(S) 20A 8.6833
-1.73509 466 RRF(S) 21 9.0952 0.38564 467 RRF(S) 21A 5.1799
-0.88547 468 RRF(S) 22 6.0046 1.23108 469 RRF(S) 22A 6.4169
-0.67335 470 RRF(S) 23 8.2713 1.86424 471 RRF(S) 23A 6.4169 0.38564 472 RRNW 01 6.6953 421.976
-32691.08 11.1539 0.80855 473 RRNW 02
-13.7314 237.522
-30057.69 3.9424 1.01986 474 RRNW 03
-8.1555 284.483
-28302.12 12.5943 2.49666 475 RRNW 04
-10.0137 271.066
-26546.56 10.5364 0.38564 476 RRNW 05 40.0357 200.619
-30233.25 4.9737 3.75949 l
477 RRNW 06 28.9318 281.129
-28477.67 5.1799 0.38564 478 RRNW 07
-49.1713 180.488
-27775.45 7.8593 2.28593 479 RRNW 08
-24.8965 157.000
-26722.11 2.4980 0.59714 480 RRNW 09 93.6069
-81.365
-32339.96 3.0140
-0.8854'7 481 RRNW 10 76.9961
-397.517
-33744.44 7.8593 3.54919 482 RRNW(S) 01 8.0653 2.91789 483 RRNW(S) 02 8.6833 4.60000 l
484 RRNW(S) 03 11.9770 2.70732 485 RRNW(S) 04 3.1171
-2.80000 486 RRNW(S) 05 6.4169 0.59714 487 RRNW(S) 06 13.8284 3.54919 488 RRNW(S) 07 11.7713 0.80855 489 RRNW(S) 08 3.7361
-1.73509 490 RRNW(S) 09 4.5612
-0.24944 491 RRNW(S) 10 8.4773
-0.67335 492 RRSW 01 8.5500
-98.161
-55163.95 5.5923 1.44222 493 RRSW 02
-19.3115
-111.600
-54110.47 7.8593 1.44222 l
494 RRSW 03
-19.3115
-205.705
-53057.00 1.0528
-1.52250 495 RRSW 04 45.5846
-41.058
-54110.47 8.6833 1.23108 496 RRSW 05 27.0803
-88.083
-52705.85 8.4773 3.12840 497 RRSW 06 10.4044
-37.700
-52003.54 8.4773 3.96971 498 RRSW 07 45.5846 264.358
-53759.32 8.8892 1,44222 499 RRSW 08 82.5343
-27.625
-53934.89 6.2107 0.80855 500 RRSW 09 86.2257 12.670
-53759.32 3.9424 0.80855 501 RRSW 10 54.8287
-138.481
-52354.69 8.0653 1.23108 502 RRSW 11 60.3729
-4.119
-56393.02 7.0351 2.07513 503 RRSW 12 32.6340 9.312
-61836.16 6.0046 1.44222 504 RRSW 13 10.4044
-27.625
-48140.89 9.0952 1.23108 I
l P
m
I
,4 4
OBS LOC SLOC ALPHAD BETAD GAMMAD SWIPED SALPHAD 505 RRSW 14
-10.0137
-S4.802
-46209.60 4.9737 2.07513 506 RRSW 15 32.6340
-37.700
-48316.46 6.6230 0.17405 507 RRSW(S) 01 6.0046 1.23108 508 RRSW(S) 02 4.9737 2.07513 509 RRSW(S) 03 7.8593 2.07513 510 RRSW(S) 04 9.0952 1.23108 511 RRSW(S) 05 6.4169 0.38564 512 RRSW(S) 06 6.6230 0.80855 513 RRSW(S) 07 9.9188 2.49666 514 RRSW(S) 08 8.0653 1.44222 515 RRSW(S) 09 10.9481 3.12840 516 RRSW(S) 10 3.3235
-1.94780 517 RRSW(S) 11 13.8284 2.70732 518 RRSW(S) 12 3.1171 0.38564 519 RRSW(S) 13 9.3011
-0.46134 520 RRSW(S) 14 7.6533
-0.67335 521 RRSW(S) 15 2.9108
-1.73509 522 RRWW 01 41.8856
-88.083
-55690.69 6.0046
-1.73509 523 RRWW 02 14.1122
-54.493
-51652.38 4.7675 0.59714 524 RRWW 03 25.2285
-41.058
-51125.66 13.0057 5.64924 525 RRWW 04
-6.2978
-34.342
-52179.11 0.0199
-4.08286 526 RRWW 05
-6.2978 51.134
-52179.11 14.0341 1.23108 527 RRWW 06
-36.0833
-37.700
-52003.54 10.2276 2.18054 528 RRWW 07
-19.3115
-121.680
-52354.69 10.9481 0.70285 529 RRWW 08
-2.5836
-111.600
-52003.54 4.9737 1.12548
- 530 RRWW(S) 01 9.7129 3.12840 531 RRWW(S) 02 8.6833
-1.09769 532 RRWW(S) 03 4.3550 1.23108 533 RRWW(S) 04 7.8593 2.28593 534 RRWW(S) 05 7.4473 0.59714 535 RRWW(S) 06 13.4171 3.33883-536 RRWW(S) 07 11.9770 1.65327 1
537 RRWW(S) 08 13.6228 2.28593 l
538 SD(S) 01 7.2412 1.23108
)
539 SD(S) 02 6.0048
-0.24944 540 SD(S) 03 4.9737
-0.46134 541 SD(S) 04 4.9737 1.44222 542 SD(S) 05 5.5923 4.38997 l
?
=
The following table is a summary of the results from section five. Raw background counts were taken from the Smith, Nichols, and Widtsoe buildings. These are all masonry and concrete construction as is the reactor facility.
Alpha background 10.5 cpm Beta background 45.3 cpm Gamma background 13,280 cpm Swipe 39 cpm Salpha 13 cpm Acceptance Criteria 2
Alpha less than 100dpm/100cm 2
Beta less than 5000dpm/100cm Gamma less than 5000dpm/100cm 2
Removable Alpha less than 20dpm/100cm2 Removable Beta / Gamma less than 1000dpm/100cm 2
I Variable N
Mean Std Dev Minimum Maximum SWIPED 542 7.8383201 3.5426306 4.5301982 34.1418558 SALPilAD 542 1.1782068 1.8063055 4.2972761 8.1618172 1
Variable N
Mean Std Dev Minimum Maximum ALPHAD 286 4.1288314 38.1694699 75.5625761 110.2068542 BETAD 286 12.1721935 166.8520353 397.5166852 673.3710637 GAMMAD 286 -54431.37 11951.66 88353.81 4174.18 l
Swipe samples com.ted with counter windows wide open averaged 7 dpm above background.
Note that this includes the addition of two standard deviations.
In addition the sample distribution had a standard deviation of 3.5 dpm/100cm. Thus we are over 95% confident that 2
the true average count is less than 15 dpm which. In this case we were measuring for gamma and beta removable surface contamination and the acceptance criteria is set at 1,000 dpm.
Swipe samples counted for removable alpha surface contamination were counted with windows set to exclude low energy counts (150 kev). These counts designated as Salpha had a mean of 1.2 and Standard deviation of 1.8. The maximum count in this group was only 8.2 dpm above background. Again the acceptance criteria was met with very high confidence.
l l
l l
8 n-
i The fixed alpha counts averaged 4 dpm above background with a standard deviation of 38.2 dpm.
p One sample result taken from the large room wall had an alpha count exceeding the acceptance l
criteria. This count has since been repeated with a raw count of 15 cpm and a value ofless than 2
100 dpm/100cm. Other than this sample, all counts fell within the acceptance criteria as listed.
Fixed beta counts at over 95% confidence averaged 12.2 counts above background. The y
maximum deviation from background with 95% confidence was 673 dpm. This is well within the acceptance criteria of 1000 dpm fixed beta surface contamination.
l t
Fixed Gamma counts did not exceed 4,174 dpm above background and are therefor within acceptance criteria.
)
)
Under acceptance criteria established in the letter of March 9,1992; the above data supports a conclusion that the reactor facility is suitable for release to unrestricted use.
l 1
i i
l l
I I
)
J J
..