Text

LJohn Hickman-RE:

Yankee Rowe FSSR OOL-08-03 Information Page- 1 From: "Greg Babineau" <Babineau@yankeerowe.com>

To: <thy@nrc.gov>, <jbh@nrc.gov>

Date: 01/24/2007 8:56:15 AM

Subject:

RE: Yankee Rowe FSSR OOL-08-03 Information Tom, We scanned the two documents and burned them to a CD. They will be going out via fedex today, addressed to you and John. To avoid any confusion during your review, please note that when these documents were generated in 1998, they were in support of the LTP we were developing to implement a NUREG 5849 FSS. We terminated that project in the 1999 timeframe.

Hence the documents refer to assumed GLV's, etc. However, the deposition evaluation and the background measurements performed and evaluated remain valid.Greg----- Original Message -----From: Alice Carson 1967 @ comcast.net

Sent: Tuesday, January 23, 2007 1:17 PM To: 'Greg Babineau'

Subject:

FW: Yankee Rowe FSSR OOL-08-03 Information I'll call you in a few to discuss the request.----- Original Message -----From: Thomas Youngblood

[mailto:THY@

nrc.gov]Sent: Tuesday, January 23, 2007 12:00 PM To: Alice Carson Cc: John Hickman

Subject:

Yankee Rowe FSSR OOL-08-03 Information Alice, The final status survey report OOL-08-03 has a Technical Evaluation YA-EVAL-00-002-06 on Sr-90 identified in soil samples, and the evaluation refers to two additional documents that contain information on environmental Sr-90 levels.Could you provide a copy of the referenced reports: YRC-1 178 and RP 98-72?I have checked a CD with YNPS Historical Site Assessment, Master Reference List information, and the CD contains similar reports, but not these specific reports.John Hickman is on sick leave today, but hopefully will be back at work soon.Regards, Tom Youngblood Health Physicist US NRC 301-415-5875 I~ohn Hickman -RE: Yankee Rowe FSSR OOL-08-03 Information Pa ge 2I CC: "'Alice Carson' <acarson1967@comcast.net>

emp\GWJ00001.TMP Page 11[c:\temp\G WIOQOOl .v' Page i~j Mail Envelope Properties (45B7656C.003

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Creation Date From: Created By: RE: Yankee Rowe FSSR OOL-08-03 Information 01/24/2007 8:55:40 AM"Greg Babineau" <Babineau@yankeerowe.com>

Babineau@yankeerowe.com Recipients nrc.gov OWGWPOO4.HQGWDOO1 JBH (John Hickman)nrc.gov TWGWPO04.HQGWDOOI THY (Thomas Youngblood) comcast.net acarson1967 CC ('Alice Carson')Post Office OWGWPO04.HQGWDO01 TWGWPO04.HQGWDO01 Route nrc.gov nrc.gov comcast.net Files MESSAGE Mime.822 Options Expiration Date: Priority: ReplyRequested:

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Security: Size 1593 2923 Date & Time 01/24/2007 8:55:40 AM None Standard No None No Standard Junk Mail Handling Evaluation Results Message is eligible for Junk Mail handling This message was not classified as Junk Mail Junk Mail settings when this message was delivered Junk Mail handling disabled by User Junk Mail handling disabled by Administrator Junk List is not enabled Junk Mail using personal address books is not enabled Block List is not enabled MEMORANDUM To: File Date: June 22, 1998 From: Edward Cumming fF' File: RP 98-72

Subject:

Technical Basis Document for Background Sr-90 in Soil, Rev. 1 Reference 1. Memorandum RPG 98-011, Rev. 1, C.B. Martel to E.M. Heath, "Background Strontium-90 Concentration in Soil," dated June 18, 1998.2. Memorandum RPG 98-011, C.B. Martel to E.M. Heath, "Background Strontium-90 Concentration in Soil," dated May 29, 1998.3. Procedure AP-8800, Rev. 2, "Final Status Survey Organization, Training and Technical Basis Documents." This memorandum, along with the attached DE&S memorandum (Reference 1), constitutes a Technical Basis Document (TBD) for background concentrations of Strontium-90 in soils surrounding the Yankee Nuclear Power Station. The attached DE&S memorandum is a revision to the original DE&S memorandum (Reference 2), and contains corrections to several typographical errors. Preparation and review have been done in accordance with the TBD requirements of Procedure AP-8800 (Reference 3).cc: FSS TBD File RP File S.Roberts J.Thompson B.Yetter E.Heath G.Babineau K.Heider K.Corbett D.Trudeau..S MEMORANDUM DE&S -BOLTON O To E. M. Heath Date June 18, 1998 Grolip # RPG 98-011 Rev. 1 From C. B. Martel W.O.# 00468.00.0004.16.00000 Subject Background Strontium-90 Concentration in Soil I.M.S.# A13.01.08 RT 07.C02.018 File # SR90BACI.WPD Reference 1. YRC- 1180, "Background Concentrations of Cesium-137 in Soil and Sediment to Support YNPS," 2/98 2. YRC-1 179, "Yankee Rowe Site-Specific Derived Concentration Guideline Values for Residual Radioactivity in Soil," 3/98 3. YAEL Procedure 368, "Determination of Strontium-89, 90'in Environmental Media via Cerenkov Counting," Rev. 4, 7/7/97.4. YNPS License Termination Plan, Appendix A, "Final JStatus Survey Plan for Site Release," Rev. 1, 5/97 5. NUREG-5849, "Manual for Conducting Radiological Surveys in Support of License Termination," USNRC, 3/92 Purpose and Backqround The purpose of this memo is to present a background concentration value for Strontium-90 in soils related to decormnissioning work at the Yankee Nuclear Power Station (YNPS). This value is specifically for use in support of the Final Status Survey at the YNPS. Like Cesium-137, Strontium-90 is a radionuclide that is present in background, and which was also produced and released to the environment by operations at YNPS. A background value for Cesium-137 is the subject of another report (Reference

1) entitled, "Background,:Concentrations in Soil and Sediment to Support the Yankee Nuclear Power Station Decommissioning Project." The Strontium-90 value presented is calculated based on guidance in NUREG-5849 and is intended as input to help establish that radioactivity release lirnits are met for any residual radioactive materials remaining on-site after decommissioning.

This regulatory guidance establishes a method to determine values for the background level of a given radionuclide by averaging results of sample analyses and establishing with 95% certainty, that the calculated background level for a radionuclide is correct.0 Heath, E.June 18, 1998 Page 2 The number of samples required to provide a valid average value is determined by a statistical procedure.

For a given number of samples collected, a mean radio'nuclide concentration value is valid if the 95% upper level bound of variations in individual analyses results are less than 10%of the Guideline Value (GLV) used for Final Status Survey.Methodolo 4 Soil samples that were analyzed for Strontium-90 were selected fromfi those previously collected and analyzed for Cesium- 137, as described in Reference

1. The rationale for the location from which the soil samples were obtained, the method used to collect the! soil, and its preparation for analysis, is presented in Reference

1. Strontium analyses were peiformed on 30 soil samples selected from four background reference locations.

Selection was~fmade to assure that samples were representative of each background area.For Strontium analyses the process for soil sample preparation was different from that done for samples analyzed for Cesium-137.

Aliquots of soil were taken from those samples which had been dried and homogenized by the Duke Engineering

& Services Laboratory for the Cesium- 137 analyses.

The aliquots of soil were processed and an'alyzed accordifig to Reference

3. The 95%upper level bound on the average concentration was calculated as described in Section 5.2.3 of Reference 4, using Equation 5-4.Results and Conclusions Results of the analyse. are presented in the attached Table. 'The average Strontium-90 concentration for the 30 samples is 0.274 + 0.310 pCi/gm. The .GLV for Strontium-90 that will be applied to the Final Status Survey at YNPS is 5.7 pCi/gm (Reference 2). The 95% upper bound on the average concentration is 6.8% of the GLV, which is i'ss than the 10% prescribed by NUREG-5849 (Reference

5) for significance.

Therefore, no further soil samples are required to further refine this value since the variations in background are not significant and need not be determined.

Prepared by: C. B. Martel Reviewed b .umming evIewdi.*

F,. X. Bellini Heath, E.June 18, 1998 Page 3 Attachment c: J. Grant R. Marcello J. Jacobson P. Littlefield D. McCurdy W. Riethle E. Cumming F. Bellini E. Dayotas (EED/SC File)Vt..

N~)Strontium-90 Concentration Sample No.TS-01A TS-11A TS-12A TS-14A TS-15A TS-16A TS-20A TS-01 B TS-11B TS-12B TS-15B TS-16B TS-17B TS-18B TS-13B TS-20B TS-11C TS-16C TS-17C TS-14C TS-18C TS-12C TS-13C TS-20C TS-1D TS-1I D TS-13D TS-14D TS-15D TS-1 6D Ave SD 95% level upper bound in Background Solls at YNPS Sr-90 Concentration (pCi/gm)0.235-0.09-0.018 0.31-0.049 0.244 0.326-0.18 0.069-0.02-0.146 0.188 0.684 0.23-0.02-0.002 0.624 0.072-0.003 0.496 0.857 0.371 0.413 0.464 0.952 0.75 0.649 0.173 0.148 0.506 0.274 0.310 0.390 Main 17 Att. A 38 QA Record? App. A 33 Total 88 Yes V No DUKE ENGINEERING

& SERVICES ENVIRONMENTAL HEALTH & SAFETY TITLE Radionucli, PAGE I OF 88 PAGES NO N02.0-1. OA4/ N102,.O3.03 TYPE 07.C16.004/

00468.00.

01"4. .17. 00000.O./P.O. NO.;/CALCULATION FOR de Soil %Cor cit-tations Surroundinq, YNPS Gas~eous Release's cduring .Plant 'Operation PLANT Yankee Nuclear Power Station CALCULATION NUMBER YRC-1178 (Nonsa fetý'-Related).

PREPARED ý.BY.DATE.REVIEWED-By/

DATE., APPROVED :.BY/:DATE REVIIEW 'LEVEL AsS ,I GNED"ýORIGINAL 4.tA~REVISION 1 1 REVIS.I ON. 2 REVISION 3 .1 Level of Review Required:

1 = Review in Detail 2 -General Review for Reasonableness 3 = Review Not Required KEYWORDS Meteorology, Atmospheric Depos'iticin, Dose Assessment, AEOLUWS-ý2-, Req Guide 1.109.--Computer Codes;: LOTUS 1-2-3, rev.5, Quattro Pro, v.6.0 y ON a " 29'rk AIJ'11, ReiOh:: YjA: EED-0 I ...Revi s~i.on-1:0 R12/32 YRC-l 178, REV. 0 Page 2 Table of Contents I Calculation

Objective.

.. ...... ........ ...... .........

....... 3 II Method of Solution .................................

.... 4 III Inputs q -ud Assumptions

...............................

5 IV Calculation and Analysis ...... ........................................

.6 A. Estimation of 1960-1971 Release Distribution

............................

7 B. Decay Equation ................................................

7 C. Decay Calculation Application

.......................................

D. Application of Atmospheric Deposition Factor ........ ...... ..............

8 E. Soil Concentration.

...........

..9 V. Results and Conclusio ns..................10 VI. List of References

.................

..................

....... 12 VII. List of Attachments

.......................

1,3.VIII Review Sheet ... ............................

....... .........

...... 14 Appendix A., Spreadsheet Printouts

..................

.........................

17 1. Selected N uclide Properties

............................................

A-I 2. Gaseous Release Summary:&

Soil Concentrations.

.... ...................

A-2 3. Estimated Annual:Undecayed Releasd-"1,960 through 1971 .....................

A-3 4. Reported Annual Undeiyed Releases-4972:through 1992. A-75 5. Estimated Annual Decayed Releases-l1960 through 1971. ..................

A-8'.6 Reported, Annual DecayeReleases-1972 through 1992 ...... ........0.....-l0 7. Detail of Annual Releases-1972 1975......

.........

.. A-13 8. Detail of Annual Releases-1976 through 1980. A........

7........

A- 17 9. Detail of Annual ReleaseIs-1981 throughl985

..............

...A22 10. Detail'of Annual Releases-l986 throug 1990.....

.....................

A-27 H1. Detail of Annual'Releases-1991 throuh 199".2-..........

..A32 YRC- 1178, REV. 0____ ___ ___ ____ ___ ___ ___Page .3.I Calculation Objective The objective of this calculation is to calculate the maximum soil concentrations of radionuclides deposited off-site as the result of gaseous releases from the Yanked Nuclear Power Station (YNPS)during its period of operation, 1960 through 1992' This information was requested by Service Request 98-00 , dated 0 1/08/98. This information is necessary to support the "non-impacted area" classification, as described in Revision 0 of the YNPS Final Status Survey Plan. This calculation is intended to evaluate the data from all recorded radioactive gaseous releases from the plant.TI YRC-l 178, REV. 0.............

_4 .II Method of Solution The method of solution is to: 1) detcrmine the radlionuclide distribution and quantity, released as a gaseous effluent, during each year from 1960 through 1991; 2) decay each annual release, by individual radionuclide, to 01/01198;

3) apply a conservative atmospheric deposition factor (D/Q value) to each particulate radionuclide released to determine the surface concentration of each radionuclide; and 4) apply proper regulatory guidance to determine a maximum soil concentration for each particulate radionuclide.

Although the distribution and quantity of all reported radionuclides are calculated herein, only the particulates are considered as candidates for deposition.

The strictly gaseous effluents like Krypton, Xenon, and Argon are dispersed in the atmosphere without deposition potential, and largely have half-lives measured in days (or less), with the exception of KR-85. The three isotopes of Iodine, while particulate in form, all have half-lives less than 8 days, and are of no significance for long term deposition.

Tritium activity released as Hydrogen gas, or as. water. vapor, would not have any potential to concentrate in the soil. Carbon 14 is listed as beingsreleased is the gaseous state. It most likely existed as carbon dioxide when released and also has no potential to concentrate in the soil.

YRC-l 178,. REV. 0_Page 5 III Inputs and Assumptions The source of information on gaseous releases is contained in the Semi-annual Effluent Reports commencing in 1972. The individual radionuclides are listed as Fission Gases, lodines, Particulates, Tritium, and unidentified.

The data is tabulated, by quarter in each report, for both continuous and batch releases.

This data was directly transcribed by others to Lotus spreadsheets.

The annual summing, without regard to decay, was performed in the spreadsheet for the period.Prior to 1972, gaseous release data was reported, for the prior year, in the January Monthly Operating Report for the next year. The early data was reported as "gross beta-gamma" curies or millicuries.

In order to estimate annual releases by radionuclide, for these early years, a previous EPA study was used (Ref 1). This study consisted of a sampling and analysis program at the plant in the years 1968 through 1970. The study analyzed for 10 gases and 6 particulates in gaseous discharges.

The quantity and distribution reported by the EPA was assumed to represent the best data available.

The annual releases reported by Yankee for the years 1969 and 1970 were averaged and compared to the value the EPA estimated was released.

The EPA distribution fractions were calculated and applied to the Yankee reported release total ratioed to the EPA release total to estimate the annual release of the radionuclides reported by the EPA. This methodology was applied to the gaseous release data for the years 1960 through 1971. The first reported release of Tritium was in the March, 1965 Monthly Operating Report, when instrumentation capable of detection tritium became available.

Estimates for previous years, 1960 through 1964, were assumed to be the same as reported in 1965.The annual releases were assumed to occur on the last day of the year and decayed to the beginning of 1998. Thus, for 1960, decay commenced in 1961 and ended at the end of 1987; a total of 37 years As a check of data transfer correctness, the releases as reported in monthly and semiannual reports for each fourth year, commencing with 1960 and ending with 1988 was compared with the values transcribed to the spreadsheets.

No transcription errors were detected.

As another check, the results were manually scanned after the calculations were performed to see if any data seemed to be anomalous.

In the case of CS-I 37, it was noted that 84% of the undecayed activity reported to be released between 1972 and 1992 was released during the second quarter of 1982. Typical Cesium ratios are 3:1 Cs-137 to Cs-134. The Semiannual Report for that period was re-checked and it was found the reported value for April, 1982 for gaseous Cs- 137 was 1.50e' and the reported value for May, 1982 was 8.1 le". One might expect the Cs-137 value to be in the range of 2.3e6, rather than 2.3eo, for the quarter While this quarterly total is suspect, it is assumed to be correct, lacking any other information.

In another instance, it was noted that in the third quarter of 1973, 9.54e6 Ci of Ag-i I10m was reported as being released.

On the surface, this value appears about a factor of 100 too high. In both cases, assuming the higher values do not affect the final conclusions of this calculation.

As an aside, it was noted in the February, 1964 Monthly Operating Report, that the incinerator was shutdown pending a review of elevated activity detected in the discharge filter. No record was found in which the incinerator was ever restarted.

It can be assumed from this that any releases from the incinerator were minor with respect to the other gaseous releases documented in this calculation.

4:!

YRC-1 178, REV. 0 Page 6 IV Calculation and Analysis Table I DATA FROMEPA REPORT'" NUCUDF. EPA.EST. RELEASE PERCENT OF TOTAL FISSION GASES KR.-9 33.0¢00 6V 72%KR 45m 2,0c-02 041%KR-87 2.0e-02 0.41W KR-S8 3.0e.02. 4.90%-XFI 33 1.0e-o1 2.060/6 XE-I 3 5 2.0e-01 4.11%XE- 135m 2.4c-01 4.90%XE-138 Ie-01 17.406%XV.Al:33m 1.0-O ..006%.AR-.41 4.0e-O1 ,8.23%C-14 3.0c-01 TOTAL 4.9c+00. 100.00%IODINES I. 131 :3i0.04 100.00%, 1-133 0.00%1-135 000%'TOTAL 3.0c-0'4 100.00%.-PARTICULATES

.:sR-89 .-oe-5 7.40%R-90-, 37.02%: CS- 341 C137 2. 04%cO-60 2e0 37,02%*MNq-S4 I.0.0 ,IS:Sl%TOTAL :5;4"4 99.90%H-3 1 .3e+ 1,01 YRC H a78,REV.7 Page 7 A. Estimation of 1960-1971 Release Distribution The data in the Table I was extracted directly from section 3.3.8 of an EPA report', and represents the "best estimate" of radionucide distribution for the period up through 1971.B. Decay Equation The general equation forýWhere: A= Activity at timet Q0 =Activity attimee zero= decay constant, where i'sfl 2-. divided by half-life, in. years, and A t is decay time in years YRC-lI 178, REV. 0 I P, age 8 C. Decay Calculation Application For this calculation, Q 0 is the activity of the specific radionuclide at the end of the year in which it was released.

Time, t, is January 1, 199g. Each radionuclide in each year of release is decayed to January 1. 1998, using the lambda values from Appendix A, Item.l. and the number of years from the release year to 1998. For example, 1.17e-08 curie of Co-60 was released in 1960, thus, the quantity remaining on 01/01/98 is: Qof 1.17e-08 decay time (years)f37 (1961 through 1997)X, for Co-60 = 1.318e-0I Qt = 1.17e-08 e"l-3 k'OX 3 7)Q, = 1.736e-10 curies The spreadsheets are set up to: 1) perform quarterly summations to determine annual releases, by radionuclide;

2) decay each annual released radionuclide to January 1, 1998; and, 3) sum each decayed quantity to determine the total activity over the 37 year operating period, by radionuclide.

D. Application of Atmospheric Deposition Factor A long term average atmospheric deposition factor (D/Q) has been calculated by others and is indicated in Section VII as Attachment A to this calculation.

The details for determining the appropriateness of this factor can be found in this Attachment A. This deposition factor is applied to the decay corrected released activity to determine the maximum remaining deposition on an area extending 100-200 m beyond the owner controlled area. The units on D/Q is: 1I/m 2.The maximum long term average deposition factor, from Attachment A is: D/Q=8.79e-08 1/nW The desired result is individual radionuclide surface distribution, in units of: pCi/m 2.Thus multiplying the historical released activity, (decay corrected to Jan 1, 1998), in units of pCi, by D/Q gives the desired result. Unit conversion from curie to picocurie is: (Ci) (le+12) =picocurie Therefore; Surface Conc.(Co-60 from 1960) = 1.73e-10 Ci*le+12*8.79e-08 1/m 2= 1.53e-05 pCi/mr 2 YRC-1 178, REV. 0 Page19 E. Soil Concentration Guidance on calculating voiume concentration from surface concentration is provided in Regulatory Guide 1. 109 (Ref. 2). Table E-15 defines the effective surface density of the soil as 240 kg/rn 2 The assumption provided is that this represents a 15 cm deep plow layer. It is assumed that the deposited activity is captured and retained withini-a-5 cm depth. This is considered conservative for this application, given that this deposition occurred over a thirty year period, with snow and rain serving to further disperse the activity.

Dividing surface concentration (pCi/rm) by 240 kg/mn results in estimated soil concentrations of residual radioactivity from past plant gaseous releases (pCi/kg)rent;ni,;na thp ivanmnla nfr'e.AA

• fha eimmatkn ^fall thi annival rAPA.cPC iArOPA tn January 1, 1998 is: 3.5803-04 Ci. Multiplying the result by 8.79e-08 (D/Q), and Ie+12 ( pCiICi)gives a surface concentration of 3.147e+01 pCiim 2.Dividing by 240 kg/r 2 provides the estimated soil concentration of Co-60 of 1.311 e-01 pCi/kg YRC-i 178, REV. 0 Page 1 0 V. Results and Conclusions In the Summary Table, below are listed the total releases, decayed to January 1,1998. In this summary table, if the decayed activity was less than Ix e7", it was not listed. In the case ofKr-85, C-14 and H 3.The releases are assumed to be in gaseous form and would not be deposited on the ground surface The complete results are listed in Appendix A, Item Z, Of all the radionuclides listed as having been released in the gaseous effluent, six particulates have the potential to be present, as of January, 1998, in concentrations greater than 10 " pCi/Kg. These are: Sr-90, Cs-134, Cs-137, Co-60, Mn-54, and Sb-125. Three of these are calculated to be present in the range of 10 "' pCi/Kg. Even these calculated concentrations are several'orders of magnitude below the current levels of detection and are masked by natural occurring radionuclides.

The YNPS Final Status Survey Plan defines "non-impacted areas" as areas of YNPS property outside of the "unaffected area" that have not been impacted by plant operations.

The "unaffected area" essentially extends from the "affected area" (which is centered around the vapor container) to a 20-meter wide buffer zone outside of the owner controlled area fence. (See Attachment A, for details and references).

This calculation demonstrates that, under conservative assumptions of atmospheric deposition, no area exists outside the "affected area" would be expected to have detectable residual radioactivity from past plant routine (licensed) gaseous effluents.

YRC--! 178, REV. 0 Page I I Table 2 SlJMMARY TABLE OF SOIL ACIrMTY RESULTING FROM GASEOUS RELEASES NUCLIDE DECAYED ACT SURFACE CONC SOIL CONC (Ci) (pCi/m )) .(:pCitkg)

FISSION GASES KR-85 3,626e401

.1-135 <1 e-l -- --PARTICULATES

SR-89 <Ic-J0 --SR-90 7.0()C-04 61.153c-,{0 i 2:504c1 CS 134 L343c-06 I.soe-0 I 4.9 18c-04 CS-1 37 2.7 63t-04: 2,429e+01, 101 2eo:.BIA/LA- 1,40 <Ic-JO 0 ...ZN-65 <lc- 10-....CO-58 <le-10 -- --CO,-60 1.580c-04 3.147e+O0

..311cHO0 FE-59 <Ie-JO --CR-51 <ie-JO --I ZRJNB-95.

< .lco -- -0 CE-1,41 <le-1-CE-I144

-.SB1-124 <Ic-10 -" MN54 .2371 c-08 2084e-03 8'682c.o6ýAG-' 10m <1c-t1 -. --SE-75 <IclO -- -, MO-99 <I -10 .RU-103: <I-IO ...SB-125 5.020c-07 4.4 ll3c-02 839c-O4 TE-132 <I-JO --

Y-RC-1 178, REV. 0 Page 1.2 VI. List of References

.1. "RD-7 1-1 RADIOLOGICAL SURVEILLANCE STUDIES AT A PRESSURIZED WATER NUCLEAR POWER REACTOR", U. S. Environmental Protection Agency, National Environmental Research Center, Cincinnati, Ohio, August, 1971 2. "Regulatory Guide 1.109, CALCULATION OF ANNUAL TO MAN FROM ROUTINE RELEASES OF REACTOR EFFLUENTS FOR THE PURPOSE OF EVALUATING COMPLIANCE WITH 10 CFR PART50, APPENDIX I, rev I", U.S. Nuclear Regulatory Commission, October, 1977.3. Spreadsheet Data Files The following files contain the data used in this calculation.

Lotus 1-2-3 rev.5 and Quattro Pro rev. 6 use these files interchangeably

1. YRGASEF.WB2

2. g71-75.wk3

3. g76-80.wk3

4. ggl-85.wk3

5. g86-90.wk3

6. g91-92.wk3 7 DECAY. wk3

)YRC-1 178, REV. 0:Page 1,3 VII. List of Attachments

1. Attachment A., Calculation of Atmospheric Deposition Factors YR'C-l 178, REV. 0 Page'14 VIII Review Sheet ( SiL, 4.tf r,-'" ,*.

NONNI&?~ I0 REVIEW FORM CALCULATION NO: YM -1// m TITLE: ?0.440KAMA.ýr&

Sgj./-C;-b(t te.44?/AiV.a4 REVISION NO: RESOLUTION

--I --COMMENTS-r A.144 4 eP ~ 4 21See- A 7*tA ,.sat]4 Coments Provided By: Reviewer / Date Resolutions By: .5.. -43 l Preparp t Date" Concur with Resolutions-: Reviewer / ate e Page / Of a Form: YA-EED-700.2 Revision : 0

.e v; ej F6 R --t DATGE: P A'GE N0. _ _ _ _A 2 3 4 S 6 7 8 9 10 II 12 13 14 IS 16 17 li 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 3S 36 37 3'39 40 41 42 43.44 45 47 48 49 SO SI tdrsedn Ca ko, Uljfý Dcca 8920_a__re__ _(y_--_)--

0i.1318_ _D_ _,_psiion

_:___E08 ) -l rot. Co-60 ___r_. __,,__ ._ _ 0 1_ ,__1________o__:C..60 I :Dccaycd.

1998;deca ed '998 dcce.Ycd N_______._

Ymt decay undccaycd to 1998 sirfac& Act, Vol. conc. i Year i) Mrlcsscd C1. (al) il/m.1960 37: 1;1,7&,08 8,92E-1I

-19%1. 36 3.68E408 3__E-_._ ____OS: 1. f-r7: 1962 .35 421E404 4:18E406 .3.67E-001 ,I.3E3 1963 34 1143E-04:

1.62E-06

! '1.42E-01 5.93,-04 1964, 33 1.988-05 2.56E-07 J2.25E-02 9.37E-05 1965 32 2.02-05 3.688-47 3.24E-02 1:351304 1966 31 4.37M,05 7.68,1107. -fi&75E-02 I 2.81-04 1967 .30 4:.,48.0 8.59E-07:

7.5SE;02 3.15-"04 1968 ..29. 1125.-O : 2;73E-07 2,40-02: T.00.04)1969 2 84.006-05

2.001106

<1.76E.601 7131 E-04.1970 27; .3.202-04 9A1&-06 8101E-01 3.34.,03 1971 26 2.38M-04 7.73", 06.". 6.806-01 2:83E-03 1972 25' 102E-04 3.78E406 -'.3.32E L38&031 1973 24 1.83E44 7.74E-06 _" 6.808-01 2.83E-03 1974 23 2.18M03 1.;0511w04 1-9.2,E+00 3.858-02 1,975.. 22: 3322-03 A.72-04 N'13111401 6.219202 1976 21 9442E-06 5.938-07 1977 20 2.20E-07 L.39E203 5.77E-06 1978 19 .2.42E05 1.98E-6 1.74E410 7124E-04 1979. 18 2.208-05 '2.05E-06.

LSOE-1 , 7.51E-04 1980ý 17 1.18-O. .216E-06 -1.1013-01 4.60E-04 1983 16 1.06E20- 1:29E-06 IM .. 3E-. , 4.718E2-04 1982 I' 1.75E,06 2A42E107 '2.13E02 " 8.886-05.1983 W4 5,87E.06, 9.27E407 "BA.SE-o2 3A40E-04 1984 13, Oo0E+00 0.0013+W 0.1OOE+00 O.OOE+00 1985. 12 41391346 903 -07ý ?M.94E-02 3.3 1&.44 1986 .II 9.65E-06 :.226-06-6 1.99 1 8.-29 .44'1987 10T 935E-06 2:50E606-1,i..2:20E&4[

91E7044 1988W 9 6.989M06 2.13E606.

ýý"J187E401:

7.81E-04 1989 8 3.202-05 L.IttE-05 9.0.2-01 4.08E-03 1990 7. 1.83E45 7.27E.-06

-: 6.398-0: 2.66E-.03 1991 6 .81E-06 4.001-06:

3.51E-01:

1.46E-03 1992 5 7.516E-06 3 :89 -06 3:426-01 .l42E-03 ,______ Totals, 7.12E-03 3MSE04 ..;.315SE+Ot 1.31E-01I (a) ________ (ci) .(Cl) :: )*weas~wk3 ' ___...._ _......._

____ ____CAM NO.Ac AI 4. 3t 1w1 Z S>,ria c-it iAI*1v'+),1

.-qE-t YRC 1178, 0EV0 Page 1:7A.. Spreadsheet Printouts 1. Selected Nuclide Properties

2. Gaseous Release Summary & Soil Concentrations

3. Estimated Annual Undecayed Releases-1960 through 1971 4. Reported Annual Undecayed Releases-1972 through 1992 5. Estimated Annual Decayed Releases-1960 through 1971 6. Reported Annual Decayed Releases-1972 through 1992 7. Detail of Annual Releases-1972 through 1975 8. Detail of Annual Releases-1976 through 1980 9. Detail of Annual Releases-1981 through 1985 10. Detail of Annual Releases-1986 through 1990 11. Detail of Annual Releases-1991 through 1992 (YRGASEF.WB2, SH. G)(YRGASEF.WB2, SH. F)(YRGASEF.WB2, SH. B)(YRGASEF.WB2, SH. C)(YRGASEF.WB2,.

SH. D)(YRGASF.WB2, SH. E)(G71-75.WK3)(G76-80.WK3)(GS1-85.WK3)(G86-90.WK3)(G91-92.WK3)

A YR04 178 TaRe, A I I I .'i 4AI Auacbni~iit A YRC-1 178, Page Al u~sIuw.winUSUUSUUinUinUwUUWSWinUSU.

ATTACHMENT A Calculadon of Atmospheric Deposition Factors I-Prepared ýby: ReRBdby h1~Reviewed br. ý:Q M Attachindrit AýY4R'C- 1118, Pago A2 Attachment A YRC-1 178. Page A2 Calculation of Atmospheric Deposition Factors 1.0 CALCULATION OBJECTIVE Generate an atmospheric deposition factor (D/Q value) which can be used to estimate the maximum possible concentrations of radionudlide contaminants in the soil surrounding YNPS based on primary vent stack releases from plant start-up to present. This effort pertains to information required to support the "non-impacted area" dassification as deseaibed in Rev. 0 of the YNPS Final Status Survey Plan (Reference 1).The YNPS Final Status Survey Plan defines "non-impacted areas" as areas of YNPS property outside of the "unaffected area" that have not been impacted by plant operations.0)

The"unaffected area" essentially extends from the "affected area" (which is centered around the vapor container) to a 20-meter wide buffer zone outside of the owner controlled area fence@) as shown in Exhibit A-1.Note that this D/Q calculation differs from previous calculations of atmospheric dispersion factors for YNPS (e.g., YRC-437, YRC-501, and YRC-830) in that the previous calculitions were concerned with identifying the highest atmospheric dispersion factors which occurred beyond the site boundary (which extends 450-2400m downwind; see Exhibit A-3) whereas this calculation is concerned with identifying the highest atmospheric dispersion factors which occurred beyond the owner controlled area (which extends 100-200m downwind; see Exhibit A-1)., Sction 4.1.2 of Reference 1.(OSection 4.2 of Reference 1.Prepared by:..R8Hfa , Jr- Reviewed by:

AttachineritA YR-C-1,178', PageA.2.0. MIETHOD-OFTSOLUTTION The required atmospheric deposition factor (D/Q value) was calculated using the DE&S computer code AEOLUS2 (Reference 2). AEOLUS2 is approved for use in non-safety calculations per YA-REG-200.

The use of AEOLUS2 is appropriate for this application since it was developed to fulfill the RG 1. 111 (Reference

3) criteria for estimating atmospheric transport and dispersion for routine releases from nuclear power facilities.

There are currently no open software problem reports applicable to AEOLUS2.The current set of atmospheric dispersion factors in the ODCM were calculated in YRC-501 (Reference 4). In order to account for wind channeling effects through the valley, the ODCM atmospheric dispersion factors were determined assuming seven downwind sectors (SSE clockwise through WNW) formed the valley. If a particular receptor location was in one of these valley sectors, the contribution from the other six valley sectors was also included.

The effective valley width was assumed to be twice the width of a 22.5 sector. Consequently, the SSE clockwise through WNW sector dispersion factors were added together and divided by two. This"valley model" was applied for distances greater than 500 m from the stack where valley effects were assumed to cause channeling (see Exhibit A-2).For the purposes of this analysis, the primary area of interest lies within the YNPS site boundary where stack-high terrain is generally encountered downwind in the "non-impacted area" before reaching the site boundary (as shown in Exhibit A-3). As such, it was decided for this analysis to run AEOLUS2 as a straight-line trajectory model and not account for wind channeling effects.Receptors were placed downwind at increments of 100 m in each sector starting at 100 m until a terrain height exceeding the maximum effective plume height of 120.8 m was encountered.(-)

AEOLUS2 was executed using five years of YNPS on-site meteorological data, from January 1987 through December 1 9 9 1.('0 The meteorological data base was obtained by merging the Software Control Library files YRMET87, YRMET88, YRMET89, YRMET90, and YRMET9l.(°Tihe maximum effective plume height h1, (relase height h, plus plume rise hF, expressed in meten above plant grade) occurs with a maximum plume rise which happens during unstable conditions with lighi winds. Maximum plume rise can be predicted utilizing the following equation (Equation 4.40 of the AEOLUS2 Technical Manual) assuming a primary vent stack exit velocity w. of 10.5 m/sec (representing 20,000 cfm being exhausted through a diameter stack d of 1.07 m) and a 0.447 n/sec (1 mvh) wind snmd hp, -3 (wju) d -3 (10.5/0.447) 1.07 -75.4 m Consequently, the predict&4 m .fit-a.w-4ve plume height above plant grade i.w-hS +b, mAqA, + 75,A 170 9 Pre d fe Rrare.r h aprbsenii h ltfv a ant opration.Prepared by: .RBff ý J~r. Reviewed rby: ý -

Attach~merit A ,YRC.I1.I78, Pagke.A4 3,0. UTS .AND ASSUNMTIONS The following issumptions were used ih executing AEOLUS2 for this analysis: " Sector average D/Q values (which are applicable to long-term releases) were generated.

S MAll releases were assumed to occur through the prinmay vent stack. This release pathway was modeled as a RG 1. 111 (Reference

3) mix-mode release since the primary vent stack release height is at the height of'the adjacent vapor container.

A normal stack exit flow rate of 20,000 cfm (indicative of the operation of one stack fan) was assumed for the determination of plume entrainment and plume rise.In accordance with guidance from the XOQDOQ User's Manual (Reference 7), lower level wind data were provided as input. These data were used "as is" to disperse the ground-mode portion of the plume and were extrapolated up to the PVS release height for evaluating plume entrainment effects and for determining plume rise and dispersion for the elevated-mode portion of the plume.Upper level wind direction data were provided to the code to determine -lume transport.

The lower level wind direction sensor is often affected by localized nocturnal drainage flowing down the east and south slopes of the river valley within the plant vicinity.Consequently, the upper level wind direction measurements are generally considered to be more represetative of general flow conditions within the valley.The RG 1.111 depletion/deposition model was used to determine the D/Q values. Wet depletion/deposition and decay-in-transit effects were not considered.

Specific plant and receptor data input requirements for AEOLUS2 are listed in Attachment B to Reference

2. A listing of the inputs used is provided in Exhibit A-4; most of the inputs were derived from YRC-830 (Reference 5). An actual listing of the input deck is provided as part of the output listing provided in Exhibit A-6.Prepared by: RB HIf y.Jr. A Reviewed by: Z22M L A-ttA6ibdnt k Y-RC- I 178,,PA9q A5, 4.0 CALCULATION/ANALYSIS A partial listing of the AEOLUS2 output which includes all relevant program iinputs and outputs is provided in Exhift A-6.iPage84 Lus outut showsththhighest calculated D/Q value is 8.79E8 1/r 2 ,downwind in theS SWýtor(Noteit'ilthighest offsite, value calcuated

ýin YC-50 1fr, u se in the Y NPSODM- C 1 si 2E-8 I/m 2 , located at the site boundary 800o4n SSE,*'* *,:!(,.*

• Prepaed by £ilf~,Y~J~rS~~J) eviewd by: Ij,)Prepared by: R8 Jr. @ýReviewed by:

Attachment A YRC-1 178, Page A6 5.0 RESULTS/CONCLUSION An appropriate atmospheric depositior u) f'or use in ting the maximum posible concentrations of radionuclide coniiil in the"non-pa a" surrounding YNPS is 8.79E-8 1/mn.Prepared by: Redb: Reviewed by. -,TD 44 W-YRCLA:1en8A YRC-1ý A7 60 REFERENCES I. YAEC-1933, "Final Status Survey Plan for Site Release," Rev. 0.YNSD Calculation YC-329, "Computer Code Documentation Package, AEOLUS-2, Mod 6," Rev. 0.3. US NucleardRegulatory Commission, "Methods for Estimating Atmospheric Transport andtDispersion of Gaseous Effluents in Routine Releases from Light-,Water-Cooled Reactors," Regulatory Guide 1.111, Rev. 1, July 1977.4. YNSD Calculation YRC-501, "Rowe ODCM Dose Conversion Factors," Rev. 0.5. YNSD Calculation YRC-830, "Yankee Nuclear Power Station ODCM Atmospheric Dispersion/Deposition Factors," Rev. 1.6. YNSD Calculation YRC-678, "Yankee Rowe Terra .. Datam" Rev. 0.7. JF Sagendorf Yr Go, and WF Sandusky,'XOQDOQ ,Computer Prog f for. the Meteorological Evaluation of Routine Effluent RelessatNuclear Power Stations," NUREGICR-2919, Pacific Northwest Laboratory, September 1982.Prepared by: RB i&ar. (y R d Reviewed by:

..Attachment A YRC.-I 18Page AE YNPIS Final Status Survy Plan I Lor-tion nf U naffpefM'

~and Non-i.4pq('tPd A-r9*otSTA SURVEY, PLA REVISION,, 7).AFFECTED ARFA, I,).vIstT1'cZffTtI.

f~1'FIGURE 2-3 Prepared by: RB Hfarvey. Jr.Reviewed by: J. D-2.i4 Attachment A EXHIBIT A-2 YNPS Site Topographic Map YRC-1 178, Pae A9 Prepared by: RB Har-ey......Reviewed by:_......

Preparedby:

RWHarvey.-Alip)

W.L.,

EXHIBY!r A-3 YNPS Site Boundary YRC-1 178, Pge AIO YA Preped by: B RMew by: @--2? *'Reviewed by: T nA L Attachment A YRC LiSts of Piant and Receptotor.Inputs to AEOLUS2(V)

Run Title YNPS NON-IMPACT AREA DIQ VALUES Program Control Options ,- 1$78, Pge Al .1 Imt Line I TITLE In~ l~ine 2 KPRINT KTP7 KMN KCF KWEXP KGX KSIG KVORS KDEPL KRAIN NWSIN 0 Set printout control option to short printout I Set the control option for transferring informauut, to tape7 to sector average CHI/Q and D/Q values 0 Set meander control option to exclude plume meander consideration in the plume centerline C SSet control option for r r correction to no correction I Set wind speed n p1i'f/n control option to use the built-in extrapolation coefficients from XOQDOQ 0 Set the gamma CHI/Q control option to bypass this calculation 1 ýeS the model selectiondbontroi option for the dispersion coefficients to the EimutisIKomicekinioel, in XOQDOQ 0 Set the seabreeze/valley model option selection to open terrain analysis 0 Set the depletion model control option to the RG 1.111 depletion and deposition curves 0 Set the wet deposition control option to not evaluate wet deposition effects 12 Set the number ofvwkdped groups to twelve ("The plant and receptor data input miulrr fmts for AEOLUS2 are listed in Atachment B to RefvmCC 2. Most of the inputs listled h wr derived from YRC-830 (Rcfrn 3).Prepared by: RB Har Jr. Reviewed by- yh Attachmen't.A )MC-17,agA2 EXHIBITI A-4 NEG 0 Set the number of gamma energy groups in the user-specified spectrum to zero INTERM { Leave the duration of intermittent releases blank IPCT { Leave the hourly value exceedance probability forzinternittent releases blank NMONTH 60 Set the number of monthlyrsec.dsin thermet data base. which will be analyzed to60( y'e'ars)~'nput Set 3 d Group D "fiitins Input Line Set 3A WSLIM(2) 0.42 WSLIM(3)WSLIM(4)WSLIM(5 WSLIM(6)WSLIJv7)WSLIM(8)WSLIM(9)0.92 1.59 3.37 5.61 8.29 10.97 14.10 Set the upper wind speed in the first wind speed group to 0.42 m/sec (This is the minimum wind speed acceptable as a valid observation and corresponds to an assumed anemometer/wind vane starting speed of 0.95 mph)Set the upper wind speed in the second wind speed group to 0.92 m/sec Set the upper wind speed in the thirdwind speed group to 1.59 m/see Set the upper wind speed in the fourth wind speed group to 3.37 m/sec Set the upper wind d n the fifth wind speed group to 5.61 m/sec Set the upper wind -speedfn the sixth wind speed group to 8.29 ni/sec Set the upper wind speed in the' seVenthwnd.

speed group to 10.97 m/sec Setth upe wndspee in. th *ht ind speed group 4 o~4 10~/sec InMu Lne Set 3B WSLIM(10) 17.23 Set the upper WSLiM(1 1) 20.81 Set the upper Prepared by: MifnnJr .0',in the ninth wind speed group to 17.23 m/sec Iin the tenth wind speed group to 20.81 m/sec Reviewed by:.

Attachment A YRC-1 178. Paste A13 Attachment A YC17.Pg 1 EXHIBT A-4 WSLIM(12) 24.38 WSLIM(13) 40.23 Input Line 4 Set the upper wind speed in the eleventh wind speed group to 24.38 ni/sec.Set the upper wind speed in the twelfth wind speed group to 40.23 m/sec (This corresponds to the maximum wind speed acceptable as a valid observation, 90 mph)Wind Speed Extrapolation Data Omit this input line since the AEOLUS-2 built-in extrapolation coefficients will be used Input Line 5 Release Point Data HREL 45.41 Set the height of release to the primary vent stack height of 45.41 m above plant grade (0.Olm higher than the adjacent building height to ensure a mix-mode release)HBLD BAREA DIAMTR VFLOW QH Lt Line 6 45.4 Set the height of the building adjacent to the release point causing the building wake effects to theyvapor container height of 45.4 m above plant grade 1575. Set the cross-sectional area of the building adjacent to the release point causing building wake effects to the vapor container cross-sectional area of 1575 e 2 1.07 Set the effluent vent effective internal diameter to the primary vent stack diameter of 1.07 in 20000. Set the effluent vent flow rate to the primary vent stack flow rate of 20,000 cfln 0. Set the stack effluent heat content to zero to ignore buoyant plume rise General Site D 950. Set the annual average height of the inversion layer to the YNPS annual mixing layer height of 9510,m.950. Set the maximum allowed plume centerline height to the annual average inversion layer height of 95 m HFMX I Prepared by: a r. &. R b Reiwdby: Y Attachment A YRC-1 178. Paste A14 Attachmenti A Y.RC...1.8.

P A14 EXHIBIT A-4 THLFNG THLFNG SCAVCF(1)SCAVCF(2)JMt Lines 7-0.0.Set the noble gas half-life for decay-in-transit analysis to zero (e.g., do not consider decay-in-transit)

Set the iodine half-life for decay-in-transit analysis to zero (e.g., do not consider decay-in-transit)

{) } Leave the first coefficient in the rainfall scavenging rate equation blank (e.g., do not consider wet deposition)( Leave the second coefficient in the rainfall scavenging rate equation blank (e.g., do not consider wet deposition))Gamma Snectra Data Gamma Enerav Sneam Dat Omit these input lines since gamma CH/Q values will not be generated ho Lne Set I0 Deposition Velogit/Atosperic Wftbli Omit these input lines since the RG 1.111 depletion and deposition curves are used to generate the deposition factors Input Line 1I Data Innut Fonrat (4F2.0,F3.1,16XF3.0,6XF4.1,28X,2F3.2)

Format for input of year, month, day, hour, lower wind speed data, upper wind direction data, delta-temperature data, precipitation data, and solar radiation data In Line 12 Meteorologcal Daft Sol LIM ID(1)ID(2)ID(3)ID(4)ID(S)1 2 3 4 6 Seque nce~n un ,equenc enuber of!Squ nmber ofd'a Sequence' nbr of!I Sequence niumbeýr of data in EMT Prepared by: RB HMMM'LrýReviewed by: .:112 Attachmenit A YRC- 1179, ý'Plage Al 5 EXHIBIT A-4 ID(6) 5 Sequence numberof wind speed:data in M ID(7) 7 Sequence number of delta-temperature data in IMT ID(8) 9' Sequence number of solar radiation data in IMT ID(9) 8 Sequence number of precipitation data in IMT KPRMET 12 Set the printout control option for the hourly meteorological data to print the first 12 hourly meteorological data records in each month KP1UFD I In~ Line 13 WDMAX 540.WSMAX 90.Set the printout control option for the joint frequency distributions to include the distributions in the printout Meteorological Data Base Entrics Set the maximum wind direction value acceptable as a valid observation to 540 (values of 999 in the data base indicate missing data)Set the maximum wind speed value acceptable as a valid observation to 90 mph (values of 99.9 in the data base indicate missing data)DTMAX 15. Set the maximum delta-temperature value acceptable as a valid observation to 150F (values of 999.9 in the data base indicate missing data)SUNMAX 2.0 Set the maximum solar radiation value acceptable as a valid observation to 2.0 langley/min (values of 9.99 in the data base indicate missing data)Set the maximum precipitation value acceptable as a valid observation to 5.0 inches (values of 9.99 in the data base indicate missing data)Meteorooýe -Converýor.

Factorl RAINMX 5.0 In Line14 WSCONV 0.447 Set the conversion factorto convert the data base wind speed data from mph to n/sec w .,d4 DTCONV 0.556 Set the conversion facto- to convert, thedata base delta-temperature data from mph to vsec tc 0.44?Prepa"e by:~I~ sr Revee by: A &Reviewed by: -U-0 M/

Attachment A YRC-1l78,Pg A16 0XH=,IT A-4 SUNCON 1. Set the conversion factor to convert the data base solar radiation data from langleyfmrin to ca/cmO-min to 1.0 (langley = cal/cm 2)RAJNCV 25.4 Set the conversion factor to convert the data base precipitation data from inches to mm to 25.4 WSCALM 0.21 Set the wind speed assigned to calms to 0.21 m/sec, one-half the assumed anemometer/wind speed starting speed of 0.42 m/sec (0.95 mph)WSHITE 10. Set the height'o,4of ewid speed measurement to 10 m above plant grade DH 50. Set the delta-emperature, senst separation on the meteorological tower to 50 m (197 ft -33 ft -164 ft -50 m)WDVAR 888. Set the variable wind direction identifier to 888 (not used)LWputnes 15-19 MD Omit these input lines since the seabreeze model option is not being executed I"Dut Lines 20-21 Valiy Data Omit these input fines since the valley model option is not being executed bo Ln 2 Sat of Reaegor Dec TITL START OF RECEPTOR DECK Input Line Set 23-xx ReWtorData I The remaininsihput lines which provide receptor dataare fisted in Exhibit A-3 Innut Line 23A-xxA Reepftor Distances

+.DIST

• Provide receptor distances (m meters) for each sector starting at 100 m and imcreasging in100 m increments until the terrain height in all sectors exceedas 115 m RIDENT Set the receptor identifier to the downwind distance Prepared by: PHaMx&ý. Reviewed by: --Tt? ba Attachment A ExIBTA-4 YRC-1 178, Page6Al7 Input Line 23B-xxB ISCT IKPRT IVALOC HTERN RCF VWJTH VSLOPB VDIST DESCR 0 0 0.0.0.(}*i Receptor Data List'iech downn dsector until the tenrain height for that sector exce6ds 1!5 I Set the printout to suppress the printout for all receptors Set the valley location j-tifier for all receptors to indicate that each receptor is in open terrain Set the receptor terrn heit to the maximum terrain height between the release point and the receptor as listed in YRC-678 (Reference 6)Set the recirculation correction factors for all receptors to zero Set the valley width for ll receptors to zero Set the valley slope, for alireceptors to zero Leave the receptor distance along the valley blank for all receptors Set the receptor identifier to the receptor's downwind distance and sector Prepared by. AR f0BJ1~ Revewe Jr.~Jk Reviewed by- Zatm-Ata~chment A YRC-1_178 Page A18 EXHIBIT A-5:Receptor Data DIST' lOM 100. loom MSc'N NNE NE ESE SE SSE S SSW SW sww WSW w WNW NW NNW N NNE NE E ESE SE SSE S SSW.:.ii¸KP T, IVAWOC HTERN 1RCF 0 0.00 0.0 0.00 0.0 12.19 0.0 18.29 0.0 18.29 0.0 18.29 0.0 6.10 0.0 12.19 :0.0 24.38 0.o 24.38 0.0 0.00 0.0 12.19 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 0.00 0.0 12.19 0.0 18.29 0.0 1S.29 0.0 18.29 0.0 12.19 0.0 18.29 0.0 36.58 0.0 42.67 0.0 42.67 0.VWDTH VSLOPE VDIST:DSCR ...IOOMN 100MNNE IOOMNE 1OOMENE 100M E 100MESE I00MSE OOM SSE l00M S looM SSW lOO0MWSW 100MW 1O0MWNW 100MNW 100MNNW 200MN 200MNNE 200MNE 200MEME 200MB 200MESE 20OM SE 200M SSR 200M S 20OMSSW 200M SW 200. 200M Prpared by: .RebM Reviewed by: -,102

ýDIST RIDENT, ISCT WSW W WNW NW NNW 300. 300M N NNE NE E ESE SE SSE S SSW SW WSW W WNW NW NNW 400. 400M N NNE NE B E ESE SB KPRT 1.0'0:0,.0:0"0!0 0o 0"0!0;0'0 O0'9 0VALOC 0 0%0 0:0.0..0 0 0 0', 0"0.Attahment A HTERN ýRC NVWMDt 12.19 0 0.00 '. 0.: o , :o:":: 0 ." ::..A000 0 0 00Ooz0 '0',. 0 .001. : 0i:,.0.00 0. 0..6.10 .,0. 0.0 18.29, 0 0.-18.29 "OA 0-18.29 9 Q 30.48 0. 0.2.67. 0. 48.77:0 0.:60.96 0. 0..60:.906 0. 0.24.38~0 0.00' 0. 0., 0.00 0. 0.0.00 0. 0.il 30As 0. 0.36.58 0. 0'30.48 0. 0 36.58 0. 0 48.77 0.7315S 0. 0.'VSLOOE VOIST DESCR 200M WSW 200MW 200M WNW 200MNW 200MNNW 300MN 30OMNNE 30OMNE 300M ENE 300ME 300M ESE 30OMSE 300MSSE 300MS 300M SSW 30OM SW 300MWSW 300MW 300M WNW 300MNW 30OM NNW 400MN 400MNNB 400M NE 400MENE 400ME 460M ESE 400MSB 0. "" YRC-1 1781 PMe A19 Prpcp"~ by: RUwim , Rvee b: ~ h Reiewed by: ZM WL

_Attachment A.EXHIBT A-5-YRGi;8agA2 DIST RIDENT 500. soOM ISCT KPRT IVAU)C HThN :RCF-179.25 0.SSW 91.44 -0.SW-9.44 0.Wsw- 2438 0.W0.00 0.W-VNWý 0.00 0.NW 6.10 0.tNNW 0.00 0.N % 0.00 0.NNE, 48.77 0.~14E48.77 0."ENE 60.96 0.S.73.115 10.~ESE73.15

0.SE 103.63 0.SSE 1s.o 0.S 9121.92 0.SSW. 128.02 0., _WSW, 24.38 ~0.W0 0.00 0.vjWNWý 0 .12.19-: 0.~NW, 0 30A,. 0.NNW 0 12.19 0.0 0.00 0.ANW 0 67.06~~0 14.50 73.15 0 VW1DTH VSWAPE'VDST DESR 40GM SSE 400M S 40GM SSW 40OMSW 40GMWSW 400MW 400M WNW 400M NW 400M NNW 500MN 50OMNNE SOOMNE 50GM ENE 500M ESE 500M SESSE 500M SSW SOOM WSW 500MW SOOMWNW 50GM NW S00MNNW 600MN 600MNNE 600MNE 0.0.600. 600M Preared by: RB fa~n= JrRv.wd y LI1 Reieedb:-T MM_

Attachment A YRC-1 178, Page A21 EXHIBIT A-5 SRIDET JET E ESE SE SSE sw WSW W WNW NW NNW 700. 700M N NNE NE ENE WSW W INW NW NNW S00. SOOM N NE WSW W NNW 900. 900M N NNE KPRT IVALA ý4 IATEN .RCF 97.54 0.128.02 0.128.02 0.134.11 0.152A0 0.121.92 0.24.38 0.24.38 0.67.06 0.85.35 0.30.48 O.0.00 0.85.35 0.97.54 0.14631 0.24.38 0.67.06 0.121.92 0.134.11 0.73.1S 0.12.19 0.109.73 0.121.92 0.2438 0.8535 0.115.83 0.12.19 0.121.92 0.VVIDT.H VSLOPE VDIS" DESCR*. 600MMENE 600ME 600M ESE 600M SE G00M SSE E0M SW 600M WSW 600MW 600MWNW 600MNW 600MNNW 700MN 700MNNE 700MNE 700MENE 700M WSW 700MW 700MWNW 700MNW 700MNNW S00MN S00MNNE S0OMNE 0OM sw 800MW 300MNNW 900MN 900MNNE 0 0 0 0 0 0 0 0 0 0 0 0 0.0.~0.~0.0.Prepared by: RB Hw, Jr.Reviewed by: U Attachment A YRC-1 178. Page A22 ammAttachment A DrsT RMIENT ISCT WSW W NNW 1000. MOOOM N WSW ww W 1100. I1ooM N WSW 1200. 1200M N WSW 1300. 1300M N WSW 1400. 1400M N WSW 1500. ISOOM N .WISW EXHI~rI' A-5S MPT IVALOC. UrN ~RCF, 36.59 0.109.73 AQ 152.40 0.12.19 0.79.2S 0.134.11 0.2431 0.109.73 0.30A8 0.109.73 0.48.77 0.109.73 0.Isis,' 0.109.73:0.140.21 0.152A0 0.V I VSWPE VD1sT DESCR 900MWSW 90OMW 90OMNNW IOO1MN IOOOM WSW 1000MW 1OOMN 1OOM WSW 120OMN 120OM WSW 1300MN 1300MWSW 1400MN 1400MWSW 1500MN ISO9M WSW Prepared by: ABMHL/. 6A. R d Reviewed by: Q-glk' EXHIBITA-6 Partial Listing of the AEOLUS2 Program'Ouiput

°°C o;-14178Tage AV*Q.... .* .* .a C C Ii '.~ C.~ 3.~ a~ ~rq ~cmm ~-.~ '..~O@~ 0~2~ 00--a'..4~ C'..*C C C (I C C C C.4 C C a C S~** ?.* *. *00* ~~: RB &: Reviewed byr ZB?4m -

13I1 ?nZ? LU 03XG IZ/J3 30 twMkuCn -(WOO 06 -03/29/94)IMf Di INPT ATA-LXiistboo Sb. 123456789012345G78901234567JO1l2;'34S678901234S678901234S679012345678s901234S67r09 1 1336 N-flIVAC30Mf ARIA ,IAW3 2 0 1 a 0 1..0 1 0 0 0.12 0 so 3 0.42 0.92 1.5 , t .37 3.61 8.29 10.97 14.10 4 17.23 20..1 24 .38 40.23 5 45.41 43.4 1575. " ,.07 20000. 0.6 950. 9SO. 0.7 (402.0.173.1.x 16X. o3.0. 6I .? 'j2We 2F3.2)1 1 2 3 4 6 .7 9 8 12 1 9 540. 90. 15. " "- ".0 5.0 10 0.447 0.356 1. "25.4 0.21 10. 50. e88.11 _] al or 33MPOR am 1 100. *0loom S -0 0 0.00 .0.o 0.0 0.o 10OoN 19 am 0 0 0.0 0.0 6.0 icoa ?20 IM 0 0 12.19 .0". 0.0 0.00 21 an 0 0 1829.3 0o.0 0.0 0.0'd artM 27 "0 0 28.38 0-0 0.0 0A.0 io-0ss 19 SI 0 0 0.00 ".'. 0.0 00 lookSi 24 .0 0 12.319 0..w 0.0 m..0 lo00m s 22 2 M 0 0 24.30 0.0 0.0 0o.A04 100 W 23 sw o0 0 0.00 0.o 0.0 0..o l0OomHWI 27 NW 0 0 0.009 0. 0.0 100M-w,: 28 mrs. o o.1.0 0 0.00 0.0 0.0 0O.0 30 W 0 0 0.00 o0o 0.0 0.0 0mWNW 31 6N 30 0 0. 0.0 o 0.0 0.0 l2o0om N 32 MIN 0 0 121 0:0 0.0 0. oowtm 33 20430. 0 822*a0.0 0020W8 34 v 0 0 18.29 .Po ~ 0.0 '0.0D 200HMN 35 363 0 0 10.29 0.0~ 0.0 0.0 200m47383 36 us 0 0 12.19 *.00 0.0 0.0 200om 283 337 880 0 18.29 0.04 0.0 0.0 406m SEn 04 x 0 36.5 2 .00 0.0 0020 35 MI0 0 462.6 Ed0. 0.0 0O.0D 20M ESE 40 AIR 0 0 42.6 it 0 0 0.0 1o11oi 200m4.5E4 41 an3 0 0 182.9 0:0) 0.0 0.0 :2600W SiS 42 9 0 0 06.008~ 0.0 0.0 200S B. 439 62.10 0. 0.0 0.0 0020W114 44 Nw 0 0 0.02 7 .0. 0.0 0 ,0 200m.,W 1 WSW 0+,m o 1o1' o0o ." 0 o,.o o,-o 106iiiO +w ..45 6M10 0 0.00 o9 0.0 o~ o .2o 46 300. o300 47 v 0 -0 0.00 0.0 0.0 0.0 98/01/22.11*

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... .. .....--.. ...... .... ..48 Ina6 0 6.10 0.0 0.0 49 U2 0 0 18.29 *.od 0.0 50 Emao 0 18.29 9o0* 0.0 51 3 0 0 183.29 *1:* 0.0 52 3330 0 30.48 6.0, 0.0 53 as 0 0 42.97 0,0 0.0 54 80 0 45.77 0.0 0.0 s5 0 0 48.77 0.0 0.0 56 sm 0 o0.96 o0. 0. 0.0 57 mt 0 0 60.96 0ý0 , 0.0 so um 0 0 24.38 Vol 0.0 59 v 0 0 0.00 0.0 60 am111 0 0.00 0.0 61 um 0 0 0,00 0" -0.0 62 0ng0 0 0.00 MO. 0.0 63 400.64 x 0 0 0.00 0.0 0.0 65 A1n0 0 30.48 0.0. 0.0 66 33. 0 0 36.56 0.0 0.0 67 313 0 0 30.43 WO 0.0 68 3 0 0 36.58 0.0 .0.0 69 to 0 0 48.77 0.0" 0.0 70 83 0 0 73.15 0.0 0.0 71 583*0 0 79.23 0".0 0.0 72 S 0 0 85.35 06.0 0.0 73 8s80 0 91.44 0.9 .0.0 74 sW 0 0 91.44 1O00 0.0_7- MW0 381 0.77 Sao 0 0.00 ";O 0.0 78 m 0 0 6.10 0.0 0.0 79 o1w 0 0 0.00 .'0.0 0.0 00 500.al I 0 0 0.00 00 0.0 82 tam30 0 48.77 "00 0.0 83 ma 0 0 48.77 0: 0 0.0 84 36 0 0 60.96 0.0 0.0 Is 3 0 0 73.15 "0.0" 0.0 36 398 0 0 73.15 "0.0 0.0 87 s5 0 0 103.63 6.0, 0.0 38 s880 0 115.38 C.0 0.0 89 a 0 0 121.92 O.0 0.0 90 881 0 0 123.02 .0%0 0.0 91 SW 0 0 115.33 .0.0 0.0 92 wSI 0 0 24.38 W 0 0.0 93 v 0 0 0.00 ,00"" 0.0 94 IWOV 0 12.19 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 300 MUt 300" 33 300H 36 300W 2 3009 a3 3003 83 3003f 883 30011 *30011 SSW 300H 8s 3003 WSW 3003 W 300W am1 3003 w 300313 mm 4003 40011 n 4003 US 400M 31 4003 3 4003 3n 400W a3 4003 883 4003 a 4003 MW6 40016 WSW 40038 "m 4003 3 400311m SOON SOON us 400330!6 5001 R50 50031 3 SOONsi SOON 8*S0011 83 5003 SSW SOON s 5003 WS1 SOON v1 500 ON I* *°t ° "*

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17.0 3I I a a.33 NU 0 0 30.48 96 mm610 0 12.19 97 400.98 N 0 0 0.00 90 ma30 0 67.06 100 MR 0 0 73.15 101 ow30 0 97.54 102 a 0 0 121.02 103 3In 0 0 128.02 104 8$ 0 0 134.11 M105 s8 0 0 152.40 106 SW 0 0 121.92 107 8WN 0 0 24.31 108 w 0 0 24.38 109 "eM 0 0 67.06 110 NK 0 0 835.35 I11 NM 0 0 30.43 112 700.113 N 0 0 0.00 114 Nut 0 0 35.35 115 N* 0 0 97.54 116 MR 0 0 146.31 117 NSI 0 0 24.32 118 v 0 0 67.06 113 33 0 0 121.92 120 N" 0 0 1234.11 121 IM3e0 0..., 73.15 122. 3-" 00 .,+ ,., i. .123 N 0 0 12.19 124 a3 0 0 109.73 125 33 0 0 121.92 126 35W0 0 24.33 127 w 0 0 83.35 123 30N 0 0 115.83 129 900.130 N 0 0 12.19 131 3 0 0 121.92 132 WSW 0 0 34.53 133 v 0 0 109.73 134 33MI 0 0 152.40 133 1000.136 N 0 0 12.13 1237 mm30 0 79.25 123 W 0 0 134.11 139 1100.140 N 0 0 24.38 141 WSW 0 0 109.13 Or.o 0 0.0 0.0 0.0 b.0 , 0.0 0.0 0.0 0.0 0.0"0.0. 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 C0A 0.0 0 .0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 b.0 0.0 0.0 0.0 0.0 0.0.0.0 0.0 0.0 0.0 0.o o.o 0.0

• 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0.O 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 S005N w 6003 6005 3I 6005 3313 600533Il 60051 363 6003N S00N 38 4005 8m 6005333~6005 SW 60015 WSW SOON 111 6003 w 60011 33 60011 11 SOON1 wI 70031 7005 N 7005 ma1 7005 33 700H DM6 700H N1 7005 3 7005 336 7003 SW 70053 30011 1S 3003 W s003n N 9000 30051 3 1000031 1000 N 1005100 11 100WS 0%0.0 0.0 0.0 0.0 0.0 0.0£'-3 00 30 0%

I'142 143 144 145 146 147* 141* 149 150 152 152 D1Ef3M A 123113 CLOUD d" ) -v=I /3lf3C1 no. ne -(N10 06 -03/29/94)2 41"..4 Wm DMa LZASINm 1 2 .3.. 4 5 4 7 e I.1200. 12001 N 0 0 30.46 .b 0.0 0.0 12003 N WSW 0 0 109.73 0..0. 0.0 0.0 12003 WSW 1300. 13004 R 0 0 48.77 .04.0 0.0 0.0 13003N WSW 0 0 109.73 b,0 0.0 0.0 130031 38 1400. 14003 3 0 0 85.35 .0 0.0 0.0 1400o 3 wM 0 0 109.73 *0.0 0.0 0.0 14003 1, 1500. "..

• 1soo0 3 0 0 140.21 4,W 0.0 0.0 10soo N Isv. 0 152.40 0. 0.0 0.0 190011 mm C...: 98101/22.

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CAMD SEQ.2 3 4 10 12 13 19 24 1?16 22, 22 29 744 87 1 1 0 2644:4i2'8527 4414412 7 44 87 1 1 1 36 54 54.7032 : 4!4 20:12. 54 87 1 1 2 37 45 3 2240 5 45OW 45 87 1 1 3 2 39 30-) 7333 i :39 17 114 40 74 :'43 7 1 7 74 87 1 1 5 27 4,S 1 B53 2- 4S.9i.3 43'87 1 16 2 : '1 -#-2f.1 2-s$i. 1 37 1 1 7 44 64 ,6132,,,oe6

..28613 '64 87 1113677 S10 ,'61717 70,70j. ' 7'7 70 87 1 1 9 63 523 -48 315 5856 3116 58 87 1 110 21 25 16.3026 2525'-"'012:

25 87 1 Ill 29 20 .19 '1M1 262014716 20 87 1 112 17 15 17128112 154 1433. 5i 87 1 113 2. 293120222 292b24331 29 87 1 114 40 49 47 973'0 i49491Q!26 19 87 1 1L15 32 26 316 932112~~9 36 37 1 116 22 23 3031950 2328A13gU26 2 37 1 117 23 25 7126-U 13-535T.12-111

.35 87 1 113 25 40 4493 400 31'40 87 1 119 23 36 fl5433 14 36 37 1 120 21 23 :3213515 22'23o2316:

23 87 1 1211 22 234793 53 3 35 87 1 122 52 65 :!92.523 46*35 23- 65 37 1123263 71 746I1516 i7l7Z 310 '71'87 1 2 011712111435C10 812198 15S 6 121:.7 1 2 1.53 67 75 3023 676 1; 1,412 67.8' 7 1 2 2 53 73 31-2424 7372 '1211-' 72, 87 1 2 3 971051063S41210598-11711

'105 4 44.162 .44- .44 113 44 05i 152 545410 54 2 45.121'4' 4 88 '45 31 39.121' 3 3'.'9 70 39-1 74 96 74. 74' 60 '74 0 45 86< 45 45 .57 45-2 51' 80 51 51 41 51-10 70 65 70 70O 53~ 70-8 58' 9,9 58 U6. 63 568-4 253133' 25 .25 90 25'-4 20..1'S8 20 20"102 20 0. 15 239 15 15 113 15-1 29 2915 '294 29 147 '29-9 49 31:3 49 49' 153 49-7 36.364' 3'6 '36 151 36-6 28.272 2 157 .23-1 35.:2822 '35 35166 '35-2 4 .V27fi"- 40, 40' 185 40'-2 36 47C' 36'. 36.180 .36.-1 .23' 27f' 23 1'3 181 '23-2 35 j i1 '35. 35 190' 35-5 65 2S4 65' 65 .187 '65 71 286. 71' _71'194' 71'-6 121'273 -121. 121' 213 '121-5 67' 274 , 6Tý 67- 230 .67'-4 <73' 280* 7347 7239' 73'-7 105 292 165 105~ 240 105 44, 0' :0,99`9,991

'54 0, 0999091 45. 0 , 09999 39 0 0999991, 74 0' 699991 a5 0 .0999991 51 60099999 64 " 9099991 70 70 991 58 '0 25999991A 25 0 4490991" 20 0 47999991 15 0. 47999991 29 0 32999991.49 0 25099991 36, 0, 0099991 28 .299999 3 5'0 0991 40 0 0.' 999-991'36' ,0., 0999.991 23""0, 0999991t 35 '0099.65 0. :09 991"'71 '0 0991~121 "0 09 9991:67 0" 0999991'..

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' A a 'C -,D- P TiAOL ;tIOZI .o 250~ .250 .2ý0 .250ý .500 PIUZ i ?>WFECTXVE DIAMETERIGH)

.58g* OKAiW-LIPH lOM IN-TRAMIS D=YAY.T).D114 RAI*-'LXFB FOM ZV-TRANEIT DECAY. (DAYS).PUSTION ?amD DEPOSVITION AHALYýS'ES WILL Olt BASED ON: THR )4OD.EL'S )iflD a.500 45.41 45.40 1575.00 1.070 20000.00 10.497.0003.00 950.00..:950.00.00.00 0<r IN REGULATORY GUIDE -1.111 I.q~.I 2-4 00 C)S A.:%

~. ~}YM I WIN S* R ..IAIO a a~m4 IIMOS. NiiipafMICLU U0I~UJ TU/f31asIC*

mirn~ ~ 1-5.c~ 00DO aN Ni~flOLOOZCAL Dh*A DuO? POEN- 14 2:00l11xao6.4..6,n2 TREC4~oIcA S.t 00~SQUC uq*i.n~tz~r foam C)* .56 COI.AR DADIMONIW XI /$ N 1.00 PREIP ITATIONINN orWTE)40 00 AM)VA Pn3ZW V.30.00WINSE).40 N aD P~fl3C ASIGE5.00mW

).20 WINLDfl 3ADIAZ~IUI 2:00AMýZ~nT 00 TZPTA2IPIAI

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PAGE 7 (CONTINUOS-aaS R MOPTION)ON a.a 9-d-.4 00 0 1~~S.

CLIAM.NCSULiU)

-TA3C/3flCg M1. INC -(ROD 06 -03/29/941 SO)2. P!2 9061jiý.'

I ýý' PACS 27 2 33631R or HOURLY mu= UpuI 4382i'TOTAL man2 0? VALI asRVATZus ZTW riNPTDT rim DItICTON f(CLOWN CUM1)433 wmi Brn txc~fnDU CUM)6 ý433306 CAILK 03823V SONS .4?UIMUAYUR DIPUIM '42) 387 1MItCPITA~r Off T OTA WHIMSSR-D?

S23WWIX OCCVRDkIjZS(WIM*'VyAtlD ODS)mmTA xam333o 0?vALL3T-vii bOcCURdibk (m Lwuititw CAIJIS (CamMNOUS-pia3Lnz Ooult 0 0 1: DEL- & .O8 S 2 .B 1224 3t. C 2043 4.. .D 20193..14151 6. .2738 7. 1035 DISTJ BUTIWO OF ý&LID N DUZRNCX O&DtVATIrIoS lq 2320 1092 803' 3909* ..- 1204 S 1373 83430 SW 5207 w=W 3729'. 1853 iW."* 1103 N ..1291:. 1843 TOTAL 43549 22 I.~* a...00O 0 a*1*.rINITZ CLOUD "Obn c tC/3Mff .sM. INC -1300 06 -03120/34)98/01/22.

PA43 28 tcmTI2W00-t2L1tA8 0MO)3A ldaM3EOROLOGICOLL DMATA **L -VRmoJuzcY DzSTItX3ICOI oN S 0?- W No AND DiRitmom (WiND Pr30)ATHOSPHKtZC STABILITy:

A I UPS N MR x an a mS a SSE 8 S8W SW WSW v "MW mm N TOTAL.21 .0 .0 .0 .0 .0 *q .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0.67 1.0 .0 .0 .0 3.0 A0 .0 .0 1.0 .0 .0 .0 1.0 .0 .0 .0 6.0 1.46 2.0 11.0 9.0 5.0 2.0 'b 2.0 M .0 4.0 7.0 3.0 4.0 3.0 .0 .0 4.0 65.0 2.48 6.0 9.0 3.0 1.0 5.0 '2.4.' 15. 0 32.0 80.0 118.0 241.0 34.0 26.0 6.0 3.0 7.0 650.0 4:49 5.0 5.0 .0 .0 .0 ."*. .0 1.0 15.0 13.0 128.0 67.0 8.0 2.0 1.0 .0 245.0 6.35 .0 .0 .0 .0 .0 * .0 .0 .0 .0 4.0 3.0 .0 .0 .0 .0 7.0 3.)3' .0 .0 .0 .0 .0 : .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 12.54 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 15.47 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 19.P2 .0 .0 .0 .0 .0 "0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 22.60 .0 .0 .0 .0 .0 a,0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 22.-1 .0 .0 .0 .0 .0 :0, .0 .0..0 .0 .0 .0 .0 .0 .0 .0 .0 T.M 25.0 12.0 6.0 10.0 2 0. 17.0 42.0 100.0 138.0 376.0 168.0 38.0 10.0 4.0 11.0 973.0 yp~~~gz~u

'orBUX0 23mD PWII 1 AND: DZRACTION (WInD FROM) ATMOSPEWDC STAXILITY a 3 mP , mm, ps. VIZ a nS 8 a8 SS W VS K UN mV "m am MOOAL.~ .0~ 0 .0 .0 .0 .0 .0 .0 .0 .0 0.67.20 20 3.0 4,0 1.0 .0 1.0 .0 .0 .0 .0 .0 .0 .o 3.0 ii 7.0 10ý0, 50~ V.0 5.0 4.0 30ý. 2.0 7.0 11.0 5.0 9.0 4.0 3.0 6.0 2.0 14.9 2.'49 40-0 10 6.0 4.0 I200.O 2960 46.0 66.0 95.0 187.0 132.0 43.0 32.0 21.0 25.0 778.0 4.49.35.0, 23,. 0 .. 0 0 0 1.0 7.0 15.0 109.0 32.0 22.0 8.0. 7.0 15.0 324.05 '0 ..' .0 -0 .0 .0. 2.0.- 4 .o ..0 .0 .0 18.0 0 ..0 o .o 2..0o .0 .0 .0 .0 .0.0 ..0 .0.0.0 .0 .0 .0 o 0 o .0 .0 .0 .0 .0 .0 9.`2 p .0 '.0 0 .:- .0 -0 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 ..0 .0, 0- .0 .0 %0- , 0 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 TO.TA 0 67 0 20 0 14.0 11.0 14 S-3.0 49.0 81.0 121.0 303.0 227.0 63.0 43.0 34.0 42.0 1217.0+~~~~~3 ... .. .7..: ' :+I IT-K "NO0rM, -" itNMC/ lc3 n3G. Nc -(NOo as -031291/4) 95101122.

PAMs 29,"-;NP C ?:A52& 0/ 7" 3 .; .....U-3LA3 3f"Sze, I33ThROWtOLOCAL VIAA* ".o, wv DS!TRISIM ONN TMMS OF DAM I3CTIN (WIND 1M0) ANWoPNM33C STARILISTz C S"PS. 8M 88B u 8S SM WSW W. 3 Nw Mw TO1 T -AL.0 .0 .0 .0 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0.47 12.0 3.0 .0 1.0 1.0 2-0 20 .0 1.0 .0 .0 .0 .0 .0 4.0 1.0 11.0 1.26 11.0 22.0 16.0 8.0 13.0 T.,1 5.0 8.0 11.0 S.0 14.0 12.0 6.0 2.0 2.0 2.0 145.0 248 132.0 .0 93 .0 24 .0 11 .0 0 0 4.0 7:1.0 41.0 72.0 102.0 26.0 15.0 75.0 17.0 1188.0 4.4g* 154.0 105.0 1.0 .0 .0 1:0 .0 1.0 7.0 18.0 107.0 126.0 42.0 12.0 18.0 43.0 635.0 ,. 16.0 16.0 .0 .0 .0 %0" 0 .0 .0 .0 2.0 10.0 .0 1.0 .0 1.0 46.0.0 .0 .0 .0 ' 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 15.67 .0 .0 .0 .0 0 0...0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 15.02 .0 .0 .0 .0 0 ..0..0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 12.60 .0 .0 .0 .0 0 .0. .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 22.60 .0 .0 .0 .0 .0 :.0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0* 32.31 .0 .0 .0 .0 .0 '. .0 0. .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 TMAL 314.0 233.0 41.0 20.0 27.0 29.0 26.0 58.0 91.0 138.0 385.0 305.0 123.0 52.0 66.0 111.0 2025.0'UDUSCsuT I r " OF ~iNo-Spikzo AM DIPZCTIa IN nw1 ATMSPRMC STABILITY:

0 HURg no MIR3 3 an3 Be US3 83 8S 8 SW S 35W W No4 NWd Mw TOTAL.21:. .2 .2 .1 .1 .0 .0" .0 .0 .0 .0 .1 .0 .0 .0 .0 .1 1.0.67 165.0 190.0 38.0 47.0 37.0 27.0r: 28.0 32.0 29.0 45.0 54.0 44.0 34.0 24.0 2S.0 50.0 929.0 1.46 434.0 781.0 293.0 144.0 90.0 9I9.S .106.0 143.0 229.0 300.0 399.0 291.0 132.0 98.0 112.0 132.0 3783.0 2.48 1374.0 1700.0 506.0 176.0 111.0 134.0- 147.0 241.0 521.0 1091.0 1425.0 1148.0 695.0 428.0 505.0 585.0 10794.0 4.Aq 1096.0 979.0 53.0 10.0 1.0 `2. 0 2.0 1.0 12.0 139.0 441.0 662.0 214.0 98.0 137.0 295.0 4142.0" .!15 190.0 127.0 1.0 .0 .0 0 .0 .0 .0 1.0 41.0 47.0 1.0 2.0 1.0 1 ,.:2.0 413.0 +S ; .63'" 2.0 .0 .0 ".0 .0 0 .0 .0 .0 1.0.1.0 .0 .,0 .0.0..0 : .0 0 0 .0 .15.4 .0 .0 .0 .0 .0 0 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 151 .0 .0 .0~ 0 0 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 19."92 .0 .0 .0 -.0 .0 .'0." .0 .0 .0 .0 .0 .0 .0 .0 .0 .o :0 22.U0 .0 .0 .0 30 .0 .*0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0"32.11 .0 .0 .0 .0 ".0 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0"OJAl, 3261.2 3783.2 931.1 377.V 239.0 262.0. 283.0 424.0 791.0 1576.0 2361.1 2193.0 1076.0 650.0 780.0 1064.1 20072.0.a.

~I* .MOW-2 IAMBl~. DI3PSBZaI A lIZMI CLOW MDLN G)LZU -YA*C/WlT~

MW. M -(HOD 0f -03/29/941"..A;"" N.30-21M AI 9/0 VA 91/01/22.

PACE 30 SURASS OflrII)S8AM julop3ARMoICAL

ýDAA Iv~j~qjjjm D1131303 OF wp mjgps AM~ DZUSMCHI (Vhu ION AINOSHIUZC ITASILIM 2 Nil x SUN W3 RU =23 .1 St 3 SS 8 SWe 51 WSW w um w" a CT.21 .0 .0 .0 .0 .0 *. 0 .0 .0 .0 .0 .0 .0 .0 ,47 392.0 393.0 277.0 123.0 36.0 72.0 37.0 35.0 103.0 166.0 218.0 137.0 90.0 173.0 913.0 2173.0 7321.0 132g 1126.0 2629.0 738.0 284.0 131.0 172ý0 *130.0 205.0 303.0 429.0 593.0 299.0 196. 12.a3. 290 73.2.4$ 204.0 933.0 241.0 42.0 41.0 44.,0 41.0 9S.0 173.0 345.0 407.0 133.0 84:0 50.0 50.0 71.0 2670.0-4-.49 41.0 47.0 5.0 .0 .0 ..0 .0 1.0 1.0 13.0 66.0 12.0 s.c 2.0 3.0 4.0 205.0 6.93 4.0 3.0 .0 1.0 .0 .0 .0 .0 .0 .0 15.0 .0 .0 .0 0 1.0 29.0 9,6 3 .0 1.0 .0 .0 .0 .0 ..0 .0 .0 .0 .0 .0 .0 .0 .0 .0 1.0 12354 .0 .0 .0 .0 .0 *0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 i;7 .0 .0 .0 .0 o ..0 .0 .0 .0 .0 .0 .0 .0 .0 .0 22.90. .0 .0 .0 .0 0 o0 .0 .0 .0 .0 .0 0 .0 ..0 .0 32*.Sl .0 .0 .0 .0 0~ a. .0 .0 .0 .0 .0 .0 : .0 .0 .0 .0 io~.:1969.0 4211.0 1237.0 450:0' 303.0 293.0 '314.0 386.0 336.0 953.0 1299.0 531.0 37S.0 232.0 277.0 463.0 U14014.0 TOoM, YiUgMsCV DISTRIDWIOR IN AND 4hp 3~~M DI RCTX0K m NnoW e YA)hmosv~itc STABILITYt IP UPS x E us o 3 Rip Ue SSE a 36 3 WIN w w NW MWI TOTAL:21 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0.,1 7 3 ."0 1'3.0 3. 0 1.0 3 6.0 46..b 36.0 3 6.0 44.0 S7.0 37.0 3 .0 33.0 19.0 "3.0 25.0 767.0 1.26 112.0 324.0 218.0 93.0 79.0 77:,0" 92.0 78.0 33.0 141.0 128.0 38.0 53.0 26.0 44.0 47.0 1690.0 2,43 14.0 33.0 24.0 3.0 10.0 9.0 .10.0 12.0 23.0 40.0 39.0 10.0 11.0 7.0 6.0 10.0 271.0 4,49 .0 .0 .0 .0 .0 : .0 .0 .0 1.0 1.0 1.0 .0 .0 .0 .0 3.0.0 .0, 0 .0 .0 .0 .0 .0 .0 .0 .0 0 .0 .0 4.0 03 oý'o < .0. 0 0 ..0 .i2 .o .o .0 .o 0 .0 0.0 , , .10 .0 ..-8 .. .0 1.0 .0 12..63 .o o .0 .0o ...0 .0 0 .0 ýo .0 .0 .0 .0 .0 .0o 19,.b2 : 6o "00 .0o .o0 o .0' ; .0 .0 .0 .0 .0 .0 .0 SZ* C 0 *.+ ..0.. '. .0 .0 .0 0 .0 0 .0 .0 .0 .0 .0.31".. .0 .0 .0 .0 0 ..0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 TrtAL 183.0 470.0 323.0 144.0 12s.0 132:1*0' "-2 11 A. a 160.0 239.0 255.0 137.0 97.0 532.0 63.0 63.0 2731.0 I co ib 5.., 1;~~,Atk4 I..,~ .,.f...

kROLUS 1A2618 ~DIS133ibtl

't vmUa CLOUD PMMFAUIO TACIVWZI 6. IMC MOD 06 6 3/29194)MPS1 NM IUPAC72D AMW 0/0: 'ThZU3 ... ICuI IPA=3 31 im-amL~s OMC UA~g TUO&LoGXCAL DATA PNUIOUOC DISTRISU OW = 3436.q 0? WNb smRDPWDR~o (Wru RN ATH09HHflIC STABILUt; a" 1 .01 ..0 .0 .0 .0.0 .0 .0 .o .0 .0 .o .0 .0 .0._ ..0 s.g+0 88" Sl SW vw.'06 W 0W OA 4 .67. 8.0 9.0 4.0 7.0 7.0. 190 1 , 17.0 19.0 17.0 20.0 16.0 6.0 .5.0 3.0 2.0 166.0 1.:6 33.0 102.0 63.0 36.0 44.0 .530 60.0 62.0 85.0 53.0 23.0 14.0 10.0 17.0 12.0 704.0 2.48 6.0 13.4.10 2.0 33.0 17.0 6.0 7.0 6.0 2.0 3.0 161.0 4.41 .0 .0 .0 .0 .0 .g., .0 1.0 .0 .0 .0 .0 .0 .0 .0 1.0 i.95 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0.12.3 .0 ..0 .0 .0 0 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0o 13. .0 0 .0 .0 .0 .0 .0 .0 .0 .0 .o .o .0 .o 19.04 .0 .0 .0 .0 :0 0 0 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 12.00 .0 .0 .0 .0 .00 .0 .0 .0 .0 .0 .0 .0 .0 .0 .0 32.)1 .0 .0 .0 .0 .0 .0 .o .0 .o .0 .0 .0 .0 .0 .0 .0 7032 47.0 124.0 73.0 53.0 54.0 51O,. .-j,0 91.0 103.0 135.0 90.0 45.0 27.0 21.0 24.0 19.0 1032.0 OV36ALZ. DISTRIBMI 312 WITH VIM oxmCw Mpg N in 33 w363 " .m 8 sz 68 8 ssW sw ws 3 NUM N" MW TOTAL T OA. 5677.2 8919.2 2707.1 1064.1 774.0 783. 0 866.0 1176.0 1912.0 3305.0 5069.1 3656.0 1605.0 100.0 1233.0 1797.1 42064.0 a 1.0i-J1!k 91/0112 2. FAG9 '32-YAC/3fT3CH fU. INC -(HO 0f -03/29/90 1012)PAE3 mmmu~NIovs-33L3A8 0PToS2 S. ~SABIL12V-310tPROM 3W3C?1Y3'kNOW SPENDS AT GROUND L3VM HINS3C2 3813193 8?ABIIll A MSX1M 2?? VthZIiI C STABILITY 0 STASILMT 3.21 i 01 2 100Vo01 2;jl.zlb,-i.

2.10oou-o0 2.1oo3-01.67 T.897301' S 1453-014 .8.123I0 8.12 7.8693-o1 7.9623-01 1.26 1.2 00 1 030 uaoo 1.2583.00 1.1723.00 2.46 2.5347.00

2. 53.2s 00 " .s*00S66 2.3793100 2.0859300 4.04 3.7098300 430531.00

• t3.70 00 4.15731*00 4.0943.00 6.95

-6.2033+06.

-6A:085z.00 6.2868900 6.7313.00 9.43:! 9 .57+0 3.02~*0 "."9 2+00, 1.5423+¢00 8.98)2g+00 S"" 139.02 ,.90201 1 5023.01 1.. 90219401,0 1.9023.01 1.9023.01 22.60 .2.260..01 2.2602+01, .--.2160k01 2.2603.01 2.2603.01 32 31 3.2)13.01 3.3183.01

"". 3.23 1 ÷01 3.2319+01 3.2313+01 3.0663-01 3.0662-01

-3,666-01 3.0663-01 4.4753-01 1.9132.00 1.9123.00 1.9103+00 1.8519+00 2.4978.00 2ý8 3.7043.00 3.7273.~0o0

.:.3.7082+00 3.4733.00 4.4433.00-:9 5.8173.00 5.92430 + s 1:03 89+00 6.0693.00 8.7023.00 6.3 3.5572+00 9.0563.00

.-9.0299+00 9.1793.00 1.3323.01 6.3 1.4063.01 1.4063+01

.1.4063+01 1.2473.01 1.9153.01*l o .-,2 67 2 0 67 Z .°*1 20". 1 15.6 2.2873.01 2.208730 *.I01 872.27301

~'3.3383.01L 13.02 2.7771.01 2.7773+01

.L.7773+01 2.7773.01 4.0533.01l 22.60 3.8291301 3.2383.01 3.2983.01 3.2383.01 4.8153.01.32.31 4.7163+01 4.7163.01 4.7163.01 4.7163.01 6.0848+01 IL., STABILITY P 2.1003-01 8. 0033-01 1.1SS3*00 1.974X.00 4.2913*00 6. 3503.006303.00 1.2543.01 1. 5671+01 1. 9023.01 2.2603.01 3.2313.01 STABILITY P 4.4753-01 1.7063.00 2.4623.00 4.2063*00 9. 1443+00 1.41+3.01 2.052.+01 2.6712301' 3.3383.01 4.0533401 4.8153+01 6.8843+01 STABILIZTY 2.1003-01 8.181Z-01 1.1933+00 1.9333.00 3.5763.00 6.9503.00 P.6303+00 1.2543#01 1.5673.01 1.3023.01 2.260O.01 3.2313.01 STABILITY 0 4.4753-01 1. 743E+00 2.5423+00 4.163z3.00 7.6203+00 1.4813.01 2.0523.01 2.6713.01 3.3383.01 4.05334.01 4.8153+01 6. 8849301 A'

00) -I Cfl 1012SS INC -£300 06 -03123911#41122 P~t3 f na~l3*t An 0/0 VXAM3 (Can' Im0 -33LflM 0flZTI pwihwm6 IIt ?~3 et I ES lo.neLviam, IsSUED LV3Lg 0-l-aux MOBS)Vitus) sm ,m A aYJammr a* 21 .0003.00 .0003.00 .09020O0.97 .0003.00 .0003.0 *000300 1.26 .0002+00 1.310o-01

..1t-Ol 2."1 1.3002-01 1 .93"1-O1 6.4.45 1.5J1 7.4853-01 7v 4312-01 1. 00032 * ~ 300 3.3 1.0003.00 1.000m,00 1.0003+00 13.54 1.0003.00 1.0003.0 1.003+00 Is:m 1.0003+00 1.0003O0 1!:QoozfOo M.1302 1.000#00 1.0008300 t.. 0oo00o 0.-22.40 1.0003+00 1.000o+00 1.0003.00-3: "'gYA&3tLtYV 1t.0001+00.0003200.0003.00 1.1873-01 1.3623-01 7.732"-01 1.000+00 1.0303.00 1.0003+00 1.000.00 1.0003.00 1.0003.00 0*1.mm.- -.0003.00.000+.00 4.7722-02 1.5322-01 4.7422-01 1.0003.00 1.0002.00 1.0003.00 1.0003+00 1.000%00 1.0003+00 1.0003*00.0003.00.0001300 4.4153-0o 1.3033-01 7.6433-01 1.0002.00 1.0003.00 1.0003+00 1.0003o00 1.0001300 1.000+00 1.0003+00 STABILITY a.0003.00.0003.00 5.2243-02 1.4873-01 4.0326-01 1.0003.00 1.0002400 1.0002.00 1.0003*00 1.0003.00 1.0003.00 1.0003.00..U:11.* .:.~..*...

...v...II I.S.%4 oI 0;-

D1838311 PIIY3eL~D~~3Lm)

-A3CUffIM3.

DE- (30O 06f 03/29/94)91/01/22.

FAO= 34 Mal 83-DiNACMS AUR 0/0 VAWUt SIOMM310-AWM3 331COMMON3 PPM (Z/1 (Ru. Go=0 1.*111 "00J (cMft2I0S-33.RAS3 0mIUI via-m It SKS 83 g3 Sm NWS 140..'c x 1011 2I003 YOU 1.4113-08 7.26,013-09 2.9333-0 1.4161-0" .141S31-08 6.0042-08 3.1919-08.

-.43*2-00 4.46611-0 2.5073-0i

.1.i123-0i 1.1913-08 9.7772-009

.;I(0803-09 1.039_-08 5.2292- 1 4.4013-09 1.1614-031 S. 6773-09 ..:4":i.-09 1.7303-08 3.0081

.: A 04149 7.190O3-01 8253-03 *J ".23-03 I.2I03-0 4.3343-08

-$.9613-01 1.6503-08 8.6913-09 " 5072O49 5.3463-09 2.4153-09 "S.2553-09 3.7991-09 1.7403-0s 1"1813-09 4.1673-09 1.9123-0o "1.2373-09 4.940o-09 2.3713-o ..1.643-09 7.855S-09 3.911Z-09

• P78:l3-09

."V?OR 50DI0T Z 00 doo00DN s00N 4.2053-09 1.1055-08 2.4893-01 1.7539-03 7.7983-09 5.2793-09 8.7163-09 1.3303-08 4.3273-08 5.1163-08 1.2363-01 1.5763-09 9.1303-10 1.0221-09 1.4073-09 2.2753-09 3.4163-09 1.2441-08 2.3593-00 2.1943-08 1.0903-01 6.1841-09 9.1623-09 1.?703-01 S.7811-01 2.6303-08 1.3661-09 7.729R-10 9.5593-10 1.5523-09 2.0143-09 2.9181-09 1.2903-08 2.3853-00 2.2982-0S 1.3321-03 8.0143-09 9.3132-09 1.3343-oS.0003.00.0003.00 2.0113-08 1. 219-09 9. 0505-10 1.8863-09 2.670Z-09 2.2232-09 7001 2. 5443-09 1.2302-08 2.4263-08 2.1113-04.0003.00.0003.00.0003.00.000..00 S0003.00 0003.00.0003.00 1.093-09 1.4573-09 4.5743-09 5.1248-09 3.1573-09 s00n 2.5443-09 1.543-08 2.3563-08.000+.00.0003#00.0003*00.0003.00.0003.00.0003+00.0003.00.0003+00 9. 9233-10 1.5353-09.0003.00.0003.00 5.5322-09 100031 ., "I00 1200H I D0 3 a T IIa3x 13003 140011 Ern a 383 93 Ntm mm t003 2.253W09 1.2783-08.0003+00.0003.00.000.400.0003.00.0003.00.000m.00.0002+00.0003.00 1.0663-0O 3.0643-09.0009.00.0003+00 4.5343-09 2.0118-09

-.0249-09.0003.00 .~.030.0003.00 .*%000D.00

.0003+00 .0002+00.0008#00 .f0003.00.0069400 ..0002*00.0002.00" .-.0002+00.0002+00 '..0002+00

.0003.O0 ...O001*00.0002+00 * .0002+00 1.4971-09 1.1103-09 2.5272-09..

.0003+00.000.00"-'" .000t*00.0003.00 .*. *.0002*00

.0002+00 1.9023-09 1.9623-09.000300 .000.+00.0003.00 .0003+00.0003.00 .0003.00.0003.00 .0003.00.0003+00 .0002+00.0003.00 .0003+00.0003.00 .0002+00.000O.00 .0003.00.0003*00 .0003+00.0003.00 .0003*00 2.7943-09 2.4763-09.0002.00 .0003+00.0003.00 .0003.00.0003+00 .0003+00.0002+00 .000.00 2.6033-09

.0003.'00.0003.00.8000300.0003.00.0003.00.0003.00.0003+00.0003.00.0003.00 2.2103-09.0003+00.0003+00.000+.00.0002.00 15003 3.142Z-09.0002+00.0003+00.0003+00.0002+00.0003.00.0002+00.0003+00.0003+00.0003+00.0003+00 1.75S9-09.0003+00.0003.00.0003+00.0003.00 hi'5%00"ii.qi3O0 O ANALYSTS #If##

DECAY jA. 7-E I 7767 7C F~ -j'K, a FI-AZi 13 14 77W ,4f 3 1.412 133 1.46

'43 77W-is 20!7o -;:!21...220'23!]1 mOgiit REMO tELECtE.R?*fAtOIOUCLIDE

P'ýOPERTiES FIS A XR4N XE4-36in, XEA138 XE%13*n AR.37 1.135 PART)OJLTE S;R-SI SR90-CS-i34 ftM.A.146 TTE-13t4 W3-24 HALF LIFE LAMBA (YRS)1.07.E*01 447E.0 5.019E.04 1.3B16E03 i.445E.04 4797E.03 1183E.04 2.178&03 1.443E.32 4.6046,01 1.04W6-03 6.6336*02 2.955E.05 2.322E#04 2.710G05 2.1571.04 6.I66E-03 1.120E42 9.582E.02 7.233E600 2.06E-04 3.320E*03 537064-3 1.2106.04 3274E-02 2.1176E01&3.08 2.060E*04 2.207E.02 1141E601 2,37X6-03 2.921E*02 7.643E.04 9.069E*02 1.391E.01 4,964E*00 2.6906-01 2.300E-02 2.000&00 1020C-01 2.295E.02 4.569E.03 1672E.01 1.0 E095.0 525215-00 1.3166.0 1.232E.01

&020C00 7.611E-02 9107E.*00 1.730.01 18665-00 1006".-2 7,783&.006 .1I902E1 1.648.01 4206*00 19279E.01 1296E.01 2.103E+00 7.596.03 9.123E*01 1.090E.01 0.36E1600 2.7JOEO00 2.53.01 169660 7.19*M 1.2335.01 5.622902 two wie uw'A o.7e.yr 4.40 IV 2.70 fr 527 di 9.16 tv 1.70 oM 14.20 m 2.26 di 35.00do 1.83 hr 11.96 dai.17.70 innl A00 da~20680:h 5870 =hr i 500 da 28.90 vt 2.06 yr 3M20 yr 40.23 to 243.70 df 71.40 di&.26 yr 27.60 df 65.50 do 32.53 ft 264.40 di SM20do.3100 da 25&009 120L40 di, 7100 twy QZ3 ~r~.'fiuQUM L SKt 0t AR EWB C_____GASEOU I&RELEAS SSE-UMMARY 11" --7 S,0L'CONCENTRA

~jfON JSI.12__13 _ __- 4 1U Ct C ¶t6,IItIm~

79E6.0 16 _____ -Deycd , A66i Coýtc: VWCoic.. ____:1___ _____ to 199 to 199 ~t.169': 'DcrF6I L' ý18 :KR.8 348.0 2.916.0 I___ _____20 -681 0006W.00 0.000E.00 21 *-a K O.88 0000. 0,06.E00____

'22 X6-133 2.219C.124 00060 2' _________'24 XE.71 35 00006.00 aooxE.0 26 XE-138 00006.-00 0-OnOD0 26 XE=-133m 4.850.29 0'00060 ______________

27 AR37 78996.20 0.006t,00 28 AR.41 O-OOOE00 OiE.MM*06 29 C-14 5,§S096!0 2.017E+00 30. XE, 131r m &ME-157- 00006'00 32:" ___ ___35, 36 1111 3478647 2.-.0 3o7:.730754

,79-4 ___ __37 a.~~ omEooo~o :Ov~.0 2 -* 38- AA-35 0.0006.08 60OtXE4.0 G~.00E; 000,ob06.0

'OACE-66 42 SR W86: IM.26 1.539M4 ~75.261 364 1962:-44, Cs-14 135.0 0 *OE#00~35 1107E4O1 1296.0 45 -C&+/-137 3.427E-05 6.720E.07 VW3494E.63,071E.0 128bb 2____.AS BIA-LA9 40 0 OE-00 0D000s000 00006.*00 0000600 .0Ot00____

-47, ZN 212156.09 00006.-00 2 2156409 1.9476.,04

~ 160 40 005 1553E.13 OODDE001 1tS563t.1

\l.656.6 7*.11 -L'jf 49 ..W 2.9516E44 2.7 176.5 3,223t E~1 60 Fr6-59 4.454E.24 0.OCOE*0 4,454E-24 3,9¶SE.19 16316.21d

________61 CR-51 1231E.3 0OE00060 :1931E.35

'3 455E.W i14406.32

_ _62 ZR-N&995 4.730E.20 0.DE08. 4.730E.20 44.157E.15 1.332E417,___

__53 -14 1.274643 O-OE0 1,274E.33 1;10E28 <4,687.3 __'64. 'cE.¶44 5.114E.09 0 OE0 ý5.6146.0 935F-.041 6? AG-a1OW &8067E.15 0.O0E0060

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~&08226n w.7.104E-121 9063 ___69 -ýMO.99vtOo o- o000e.o O.M0060 006.OO00A0

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,O9-Yy a I A I Bi i C 0 A- F. .1 0 ' I H 1 -1 1 J I K 1 10 I REV,.O 12 1 _ .E:; fIMATEDDANNUAL1RELEEASES'(UNDECAYEDOCURIES)

.1 3 R b io nub eEPA .R eol, I *)ý ,otal I " .: t t" 1. st. Annua. Ep."a 196 .1962 1193 I:,16.4 .19M5 16 1. FISSiON GASES -R elease.16 7 RO 3.Mtoo 0 ~ii3n-O t!766-04 '52.4 36.0 25 .00 297E;01 :375E.01 18 KR-85M 2.6e;02 -2o.02j. l :0 1A7E468 '368.08

¶ 4ME6-02 12.0E;03'19 KR47___ -..b9i 01 7-0 66 4216-21f 60 18-3 0.20 KR. 8 i ., 02- -, 2S 52 ,, +1702 2' 8 7.07 ,375E60 21 XE13 _ 10.01201 2081ý'1% j576.06 1.846-0 2 106.0 7 16.2 8-,03U ¶260 22 xE-1 i3s __ 2.06-011 4 11% 'K 176-06 3-86-065 216-01 143E-.0 "1 I98mE-02 2.50Eý02 23 3..uM 7..464-1; 4W:86.05 5 006.O1 1 76'. -o1 236E42V 1296-02 26 XE-133M 3 .. 00% 176.07 2 15125071 8316O3 13 .5-03 2 -O97 .4 375E;.04-p27 AR4 ___ 406.1 2M35-05 7.36E.06 8-11416.0 2'866.01 3956-02 5006-02.28 C-i4d ___ 30-01 __ _ 176-05 5526.05 6316-01 2,4156-01 2.97E-02 315E-02 2 9 X E. '1 3 1 M ......_ _ _.. ._ _ ,_ __._ _ ... .1% .30 Rb , _____ __ ___ _ __34 II IOINES_____

___ _ _35 l3. ..30 04' 1i ..6. .0 552E-06; 6.31E04 2 15I04 2.476-05 3,75..05 37 1.133 ________41kd9 _ 4.0.5 7;40% 2 35E-09 'T7366-0 841E-05 2,86E405 396061tb 5006'-061"42 '_ 2 .04 .0 1 , .7-06 3 6.. ... .2.. .., :.:4W 6 4 .1 96.... 2 60&6 5-43 sn__ __ _".,414 0.137. *. 2t06-0 04% 1 .11 .38;8 lf-11 4,21E607 i 436-07 1;98608 2506-08 45' EAIA.140 __ _ __ _ _ ___ _:::.4,6 r .4NS < .":7 ' : : : ."-48' 0.;

• I " 2I6.-04 37-02.% 117E-08 -,'368E-08 4,216.4 1436-04 1l9g -0 2506-05FE-59 ____ ___'-0A cR-I.CE-141 _____ ___13'Il : ,-i44s, __..___ "__ *___6, 104t 1851% 7&0 ý1,846-08 2:6-04 7-156-05 9886-06 1.26&M-ý60. ~Sto125___

__ _ _61 JE4-32 1 64 UNIDOENTIFIED__

___ __ _ _ _ _ _ _ _ _..1 :: + .: , ' ..: .i .: :', + -' :+: ';:' +:: ] .. : -f kA A 2,' " r: " 'tzt 1"' .I:' +:- i:iI~:-,4::,':"."" :,::'I;,O4:'*+,Sli--

....:" 70 I ,' r', 71. Td'WI Wone. a .,104 1.16E_08XL 5'52&.06 6831E-04 1 N* '2.504: j71R-60537.0 72 I I ýI' 1 73 TahPatulote 546.04 3 17E{.g9 95E.08 14.386ý604 8756-05:74 I___I]%WVWI O-. 'IPa. A I B: .,A a-1 V C:`12 13P ARd.14 Eat Annual I.W 1. FISSION GASES Relema.e 17 KR-65103.00 19 R- 2.0E.0:20 K- .50 ,21 XE-133 1.0E.0 XE.135 2.06-01-24 X,3 O 4& X5.133M 103.03 72S AR-37 2T AR.41 4.03-01ý30 KO 321 34'.. IOO1N=-35 031i 3OE.04 36- 1-133: 7 40:41 4.E4 CS-134 46 ii6 cO40 2.0544"62L C.4 53.~ 4 64 W524 66 MN.64 103E-04 a6 AW.1M;51 SE-75"6 RLL103 63'70" F 71'D -i'V L ,..M. I N I O 1I.P:I 0 W WI YRC-1178.

REV. 0 Pap A-4UE ESTIMATED ANNUAL RELEASES (UNDECAYED CURIES)! TOM bdimad 196.97 16 99 1970 61.72% 6.06E,01 .721-01 1.t7E-01 1.20=*00 4.80E300 041% 4.57E.03 4.4MG- 1.25E.03 8 00E0 3,20E402 0.41C 4.5716M 4 4814603 1.25E.0 8 00E-03 120E-02 Q.00% 6.Ua-03":

672E-0 1.67E-03 1.20E.02 4.80E-02 2.08% 2.211E...

224502 .24E-03 4.00E-02 1.603.01 4.11% 4.573-0 4.46543 1.215.02 &1W5-0 &220-01 4.20% -14040. 5.331-4 1.49E02 9.52E.42 ,,3.8E01 17.49% i.946, 01 1.03-.1 13DE-02 14E.-0 1.363E00 GI061% 6.I-'04 1.67E-04 1.20E-03 4.80E-03 1971 9.15E-02 8.95E.02 2.I0SM02 1.60.01 .403.01 6.E6.02 .1r2E.- 1.87E-02 1.20E.01 4.6E031 I 665-05 6.723-06 1.87E.0 1. 20E.0 4.603049.15306 10SE06 2.503 I60E.05 140E-05 S 4.57E.0 4.48E-05 1.2E3.06 8.&E-0 3.20E-04 kb 47E5 4.46306 1.263-0 6.00308 123.E07 S4.57.0 4* AA- 1.25M 8.006-W 20.E-04 356E#00 2.363,02 2,38642 2S.E-02 1.12E-O1 2.35E-01 2.84-01 1.01E*00 I56E-03 4.77E-01 156E-01 4.771.05 2.36E-04 2.3K5-07 2.3116-4 7.40 37.09 004 37.10 11.51% 2. 05 2.24E-05 &24E-06 4.006-05 1.60.-04 1.15E-04.~ .. 0.. ... ....* .1035.01 ~~~~ ......0 :.77..0.-j73

.. 750 .......:-4.0~04 .......... ....-O 2..3. ..... 4 .. 44 3'YRASF.WV.

w& 4. Dq 2 A IX 17 , c: " .76ý'. ;Di :e ,l. ýýQ ... li, H -.T'. l *YRC-1178.

REV. 0 Page A-5.10REF(.,RTED ANNUAL RELEASES (UNDECAYED CURIES)12'131 RAD ONuCLIDE 1972 187-3 194 875ý17 97 1976'.14 165 I.'FISSION GASE 17 KR4S 16.8E00 2 55E.01 1.4E00 2.71E*00 7.49E-02 1.30E*00 7.56E*00 K13 .1456.03 1..525.01

&5M.-02 1.305-01 2.58.-0 1.05E.00 7.E00 KR-87 1.515-2 0.50E-02 1.600E1 S105.01 136E.00 20 KR-f 4.00E-03 70.46.02 &65-. 2.045-01 13.5E.1 1.4OE+ 1.12E501 21 XE-133 1.12E*0M 3 34E601 107.01 1.45E401 1.31E*01 0.78401 5.23C402 22 XE-135 1.I45E00 6.525400 1.195E00 1.64E.00 140E.00 7.105E01 23, x-135m 61E-04 1.45E*00 1.21E#00 4.671.0 1.06E#01 XE-138 & 141E.04 330(60 2.50E-02 15.02E- 5.61E-O XE-133M 147E-02 761E50 1706.03 1.O6-01 179--01 1.43E*WO 172E.00 26 AR37 &496.00 &1E-02 05.01- 135E-601 4.345-01 .416.01 65.E-01 27 AR.4i 1.63600 1E01600 1606.01 &30E601 1966-01 4.86"-01 1.76C-00 C-14 9.786-01 1.95E-01 127E.01 1.565#00 1.29"01 2.39E51 3.31E-01 28 XE-131M 4.41E-02 2.07M.02 -3.47E.50 6.205-01 7.63E*00 Rb-.5 5&06-01 1.25E600 6.84E-01 32 UNIDENTIFIE

-ý34 w ICOINEs 3 -131 217.04 2 3 7.11E-04 1.676,03 2.55E.05 4.4E-05 `1.57E-04 1-133 2.671504 1375-04 4.866-05 1736E45 1.37E-04 3 m-35 1364504 1.13E-04 &92E-05 &47E-05 7.0E5-05-4 40 L.41 8St-S &50,06 3- ,OB-7'42 SR-g0 600.06 1.4E-06 991E-05 7.04E.-7 2.83E-08 1.56-45 43 CSI34 4.006--s &=as-o5 7.56E-05 4.56E.07 1.15S-07 2.44E.06 CS-137 2.00WE- 3.55E-06 1,16E05 7.17E-06 4.06E-07 7.12E-07 2 7E-0 45 9ALA-140 7.28E6-0.4 ZNt .00t 6 ,47 Coln &30K-05 f97E-08 &4WE.04 1.305-03 1.82E-06 2.79507 16E-45 48 06 1.02E-04 1.63E404 2E18-03 112E-03 9.44E-0 2.205-07 2.42E5-FE-OS 1.00-4 -.4.126-04 1.676E. 13.E-07 .12E5-6 CR.8t -.006-04 2.=E-03 2,24E-OS 1.77M-0 ZR-NB 95 1.16E-06 16E6.04 4.546-06 2.18"-07 36E-07 52 CE-141 -2.1607 53 CS-44 -7.6E-07 1.42E-5 64 88-124 4.07E-,07 47E605 1.75E-7 ---65 545 4.00W-0 3.78E-05 4.06.04 4.36E.04 &4"5-07 2.34E-08 56 AG-I110M 1.03r.-4 .80E.06 4.56E-06 4.525-07 3.75E-07 2.84E-07 7 M-RS 1.15E.5 2.006.06 -0.966-08 005.00E!68 m040 .S9 RU-0 000.00 60 W9125 Si 76.32- -62 6 NIDENTIFIED 28- -6 "H-3 &83E.00 8.3*400 38.00 1.95E2E+ 202.0 1276.00 2.895E00.... ........ .... 2 4. .... .71 ~ 2:~76-(~ ~ ~ ~ ~ 1%4c-04~ 760 74 ROASO.WS2t 9KC. M I c A J K L M N 0 P Q YRC-1178.

REV. 0 PPg.A4 12 13 RAOMJCU"E 1979 1960 1981 16 1913 194 1ies.: lo 14 If16 FLSSON GASE 17 IR.5 1.64E00 1.23E0o 6.53EC-0 1.8E-01 9.70E-t 7.92E00 1.13--*1 264.-00 1 XR4-5M 11.00EW 7.45E-11 1.44E*0 l5E+00 &26E10 1.79E*01 11.1E011 4.491.00 19 R-4 1.35E*00 7.11-E01 I.ME*00 1791.-00 I161E01 1.961E01 20 KR4 182E100 12.00 i 2.4dE0 141E.00 1.365*01 2.6E401 11213E0 64.73E00 21 XE-133 122E101 103-*01 5-31501 46*61.0 11.03E- 9.3 02 31.02G*0 22 XE.135 2.59-01 1.30E1.1 101E01 &52E#01 1.47E*00 2.04E05 2.061.00 7.73E01 23 X.135M 2.21E01 1.891*01 455.E*01 4.O1E.01 2.01.O02 2.57102 11.E402 9.329101 24 XE-135 7.48E610 16101 1.401E00 471'E0 7.33E*0 1.25E101 I.47*01 1.431.00 25 XE-133N 11.ME00 9.4700 1101-01 1.27E-01 134E10 1.74Ee01 1.01E*01 527E00 2 AR-37 2.17E10 4.13E.101 598101 1261.01I L50-.0 1.23E101 3.77.00 570E-01 27 AR-41 121E0 919E.01 1.331.0 113E+00 1711.00 2.43E0 ISI&100 3.61E-01 23 C-4 2.6-E01 1.501.01 4.71.01 1.241W00 4.31E-01 .101+00 1.53-00 6.&56101 23 XE-131M 121E*00 1.05E+M0 1.16.00 2.341E4 9.01E00 .t.TE*01 1.35E+01 4.26.00 30 Rb-G 0001.00 000100 .000100 .0E01 0.001E00 000.0E0 31 32 UNIDENTFI

.33 34 1. ooicES 36 11131 1.79-0E4 IL32-06 1.6-0E4 2.3E.04 100E-03 6.21E-03 .63E.04 1.09E1O4 36 1-133 7.45105M 4.61E405 4.116-05 1.2415-0 2.991 &20E-01 ' S01E-05 3 1-135 1.03E.04 ?.?6E,05 1.76105 5.16-E04 2.351-06 1.51E-06 33 i IR. PARTI.XATE 40 4 SR-I 103E.-7 3.04E-07 1.241.6 1.2-405 1.5314 1.25-0.,(W 42 SR-O 1.10E.0? 1.2601-7 1.021-06 I.62146 1.96E-07 2.721506 4.21E-08 43 CS-134 4.02-06 3.04E-06 7.911E.07 7.511-07 .461,48 1726105 4.114E60 1.14E105 CS-17 ?90E.06 161E-6 00.-06 2.311E-04 539E-06 9.53E-05 2.62E-07 120E-16 4 BA4A-140 1.03106 7.931-06 4.481-07 44 Zwo6 -47 C s 4.021-06 1.26"4 IL641.06 1352.4 -1.311..W 127E-06 1.11-.07 4 00430 2.201- 1.1SE-05 1.061E.05 1.715E4 S'7E-1 4.39E106 9.612-06 FE-G 3.42E-07 .97-E07 1.6614E6 -CR-.1 -S5E8.06 1461M -61 ZR.-N- 143E-0 -131-07 9.061-07 -1.7TE-06 44E-OS CE-141 ....5,0647 -7.9-0 53 C.-144 -.4.02E-07.4 88-124 ...MN-d 1.4045 1.26-01 9.61146 5571-06 4.49606 9.1E-06 1761-07 7.0"1-0?AG-66 110. -8116E-07

• 7 6-75 hOOO10 0001.00 O.00 0001.0 0001.00- 0001.OO0E-M04041 63 M & -M -&3-61 RU-103 -.--1971.07 -9.63E1O6 60 -125 1.40E-0 4.001E6 Z60O6 1501-06 4.52E46 -61 TE-132 1.5615 63 64 N0ENTFIE--

W.-3 7.00.o 1.471MOo 10m+700 537-.00 5.13E.00 145.00. 526+oo 0 1.00*01-I ':++;~ ~ ~ ~ ~ ~ ~~~... ..'"t' ..i ..+ ..:: ...i:z + ....... ......71 ToW 111'~e 16-04) 5.32E4M .151104:.6

,:,.721E-0 1.41W-. ..........:411111 ,- -12, , +:,+,. +, ,,N * .M+

• :T. J u I v.113ýRDOULD m i 1 OIONUUO .196?(] 1999 1990 199 16 IFISSION OAkSt.17' I05 7.72E.00 4106.*00 1 05.00D 512E6.0 '14W206 18 R0-85U 418.00

• 1.94E.00 I119E-00 1.0062400 18424006 1 KRI-47 3.99E.00 106600 .31 400i 1.22E6.00

'1.64E+00 2 KR.8 618.E+00 3516.00 207.00 ' 20126.0 2 37E.00 21 XE-1133 2.20E+02 I02.02# 44Wil01 1666.01 1.206*02 22 XE-135 6.236-01 .3,9E-.01 2f 6501 23312-01 i37i0 13 xE.135m 6.31601 42.01 16 01 24:. -1136 2.47.0M 1E0-01 780 1. +7236+-0 26, XE-133M 4266.00 2.072400 9.96E-01 ~4,20E-01 2.14E-00, -26 A-37 6.20-01 7.1161 1662-01 "7iE-02 30 AR-41 1.33E600 1.E.01 1.12E,400 6,52E-1 5.41E-01 2 C 014 1.326.00 1416.01 2.07E-01 1.75E 4 00 1.74E,ýb0 29 E.131M 4.12E.00 110.l0E0 1,97201 .2.W601 96806.01 Rb-S 0006+. o 0.00E+00 M +000 000 0006.00 00o6.00 UNIDENTIFIED

....006.+00'734- ...DINES. ...36l 4-13"1 6.6-5 042-0 87-05 ~1.34E-,04 2.03E-05 30

.61E-06;,+

620E-06$ 1.14645 2.4,6-0'37 .3.,.135+

130647 7.7960 1.496-06 3f III. PARTICUATE 4t, SR-aS 506E-0S 7 SR4.0 -7.ME4-0'843 CS-134 9.46E.07 2.61M-06 616-07 1.75E-07 -C8-137 2.24E.-6 1.50E-06 3.57E.0 1.94E.0W 532E.07 1.E.-7 45 AL4A-IIO .9.82.07 1.066-06.47 64X1086 .---. 204 14.6 C8 0406 9360 E 1120645 13416-0M 1145 t14 48 0N-IS -tIEO&2W45 1 -17 CR-S1 ,1E.0S 2.2I645 71 -4 .N&4 1.91E64 8.071-06 .iM0-047 2 -141 4.151.6 1.271-:6 63 CC-144 1.4MM06 64 -124 assm.06 66 MN-54 1M607 126 293Mo 2.01M6 AG-110M 1251E.07 S7 6E-75 00.0 000E.00 000..00 0 ..00 '0. .X .00 .,. 0.0.'69- RLL103 2.74E46 86. 125 -119 .......+ + .JOW~~ 1716+020 2.g54M-J2Ef0

'-4.44 647.'. * ... .TFI6D -.6.+ 5' >4i+-.M.46.0 0'~'A'~~ ~

0 A A i I C I D l E FI G 1H I I I J 10 11 12 13 14 Is Is 20 21 22 23 24 25 26 21 30 31 32 33 34 35 36 37 33 3'40 41 42 43 44 48 47 91 93 e4 15586 YRC-I.iSREV.

0 RELEASED ACTIVITY DECAYED TO 01101,M KR-85 KR-05M KR-8?KR-OS XE-133 XE-135M XE.135M XE-133M AR47 AR-41 C-14 XE-13lM Rb-W Y, to 1996 6.440E-02 1.381E603 4.797E*03 2.178E600 kS4.84601&633E+02 2.322E.04 2.5676E.4 1.1206.02 7.233E60 3.3206.00 1.210E.04 2.117E201 2.061E+04 37 1900 1.626.05 0.0006.00 0.00E*00 0O.00ED00 0.00QE*00 0.000E.00 O.000E*00 0.000E00 0.006E#00 06000E.00 1.7541-05 O.OXE+000 0.000E÷00 3,.5 437E-05 0.0006.00 O.000:F.*OD O0000E.00 0000D.00 O.00O.E*0 0.0006.0 O.000.E00 00006.00 GLOOOE+0O O.00.*00 0.000.E00 0.0006.00.000.E00 0.000E.00 O000.E*00 0.0006-.00 35 1962 6622E-01 O.O000E00.000.E*00 0.000*600 O.000.E00 O.000E.00 0.000E400 O.OO0E+W0 0.0006.0 O.COOO-#0 0.000EO00 6.201601 0.000E00 O.006E.00 O.000E.00 0.000E.00 34 1963 2.402E-01 0.0006E0.0006E.00 0.OOE600 G0.0OC00 0.000E*.00 OOOE,00 O.000--00 C0000.E00 0.006E.O0 0.000E.00 2.137E.01 0.00C0600.0006-.00.OOOE00 0.000E600 G0C.0E.00 WRED It. WINES 1-131 M.33 1-135 3141E+01 2.921E*02 9.0696E02 O.000E600 0.000=.00 0.000E+00 33 1964 3.541E.02 0.0006.00 00006.E00.006E,00 0.0006.00 G0.00000 0.0006.00 O.OODE-OW 0.0006.00 2.953.-02 G0000600 0.000E.00 0.0006.00 0.0006,00 O.000.E00 1.4716-77 O.O6E6O.0.0006.00 O.2696.00 0.0006.'00 0.0006.00 O.0006.00 O.000+0O 0.0006.00 0.000C-.00 0.000-.00 0.0006.00 0.000.E00 0.00012.00 0.0006.00 32 19655 4.776E-02 0.0006.00 0.OOOE00 0.0006E00 O.OWE*-.O 0.00012400.0006.00 0.0006.00.0006.,00 3.736E.02 0.O00E*A000E*00 2.716E-75 1.161E-05 0.0006.00 1.11ME.-0 0.000E.00 0.000C.00 O.00OO6.0 O.0006.00.000E*00 7.16.-17 0.000.E00 G0000-,00 O.000E*00 0.000E÷00.000E*00 0.0006-.00 31 l966 9.316E.02 0.CXX2600 O.OOOE00 0.0006--0O QLOOOE*OO G0006.00 G00006.O0 0.000EO0 0.000E.00 G.000E*00 0.00.E*0 0.0006.00 llOOOE-#O0 O.000E.00 0.0005E00 0.000E*00 O.0006.00 7.2620-73 2.1756-05 2.245E.04 O.000.E00 0.0006.00 0.000E6.00 7.66SE47 0.000E.00 G0000-.00 0O.00.E00 2.1446-16 0.000.E00 G00006-00 O.0006.00 G.0006.00 0.0006"00 0.0006.00 3D 1967 9.727E-02 0 000E.00 0.000600 O.O0E000 Q00OOE600 0.000E#00 (I0000600 O.000E.00.000E.00 OLOMC*00 0.006E-.2 O000.£-00 O.000E*00 0.0006.,00 O.OO:E+.OD 0 0006.00 1.008.-70 2.180E-05 O.O00E0 2.249E40 0.0006.00 0.0006.00 6.5686.07 0.000E900 O.0006E00 O.000E*00 0.0006.00 (0LOO0 A47ME-16 O0006.00&0000-.00 0.0006.00 0.000E.00 0.0006.0 0.0006.0 III. PARTICULATES GR-SO CS-134 SA-LA-140 ZN-05 cooW FE416 CR-51 ZR449.9 CE-141 CE-144 S&.124 MN.54 AO-110M SE-75 M041 Ru-,10 SS-125 TEZ-132 4.184E.00 2.39M6E2 3.305E.01 2.205E-02 1.5106.02 3.54ME600 1.31SE-01 5626E.00 0106.E00 36656.00 7.783E*00&002E.41 4.2066.00 1.001E.00 2.103E00 0.123E.01 7.790E.01 1.921E6.g 0.000E.00 5.024E-12 o.oomc-w 0.000E*00 0.000E.00 8.96-611 0.000E.000 0.0060 0.0006.0 1117E.22 G000E6.0.0006E.00 C00006.00 00006,00 6.796-87 1,4676-69 7;286E-79 1.553E-0 1.817E-04 I.329E-05 000.C-00 0.000E00 1.612E-11 1.803E607 6.8646.08 0.0006-.00 0W.00 0 0.000.E00 0.0006E0.

0.0006.00

.0006.00.0006.00 0.0006.0 0 EE00000 12026.10 4.1736.0-1.619E.6 0.0006.00 0000.00E 0O006.-00 0,.0006.00 0.006.00 O.O06.00E, .0006.00 0.000E600 0.000.0 00006.00 0.0006.00 0.000.0 0 C000 0.0006500 0C-006.0 C00060 4.152E.21 1.085-6.1 M.3115-17 0.0006.00

.00006.0 0.000C600

O.00 00 0.0006400 0.000.0 0,00060E0&022E02 1.009E#00 2.114E600 2.236"E60 2.366.00 2.500.3--0 2.647E600 1.92SE600 2.796E600 PaPA N Yo to low 29 28 271 26 W0- Decayed wrclide Lafbm 16 1969 1970 1971 to 966 lica 6.4406.02 2.926.02 1.976E.01 6.701E.01 2.916E.00 KR4.5M 1.361E4M o.00064O00.0006E.0 o.00W0000 0006,#00 0.006Eo00 (q.87 4.797E*03 0.000e*00 O00006E0 0.00W-00 0.000600 O.O006.0 KR-aG 2.178E603 0.0006E-0 00006E.0 0.00M0600 00*006.0 O.O006.00 XE;133 4.04-.E01 0.00000 0.00C-060 LO.00000 0006.O00O 0.0000E* 3 6.03E602 .00006E00

.00006C00 0000600 0.006E+00

.000DE600+E--13.M 2.3226.04 000.00 0.006.o00 0o.00.M00 0006.00 0.0006.00o

.138. 2.67E*04 O.006E*00 00006E00 O0000*600 O.O000.00 0.000E+00 xE.I33M 1.120E+02 0006*00 0G00E0600 00006E00 00006.00 0.0016 AR+.37 7-233E6.0 O.0006-00 0.0006.00 00006.00 0.00)06.0 O.000*00 AR*41 3.320-03 0O.00600 000.00 00006.00 0.000E00.C-14 1.210E-04 1.ro6-02 1.197E-01 4.78141O 15646E01 2.017E+00.'13tM 2.117.E01 O000E*00 0006 .0 0000E.00 O,000C--00 0.0006.00 4".a 2.061EO4 O0006E00 00E000 00000E* O.0004E*0 O.0006.00 SUNENTIFIED 1-131 11416.01 0.0006.00 G00006.00 0.0006.00 0.0006.00 00006.*00 1-133 2.921E*02 0.00600 0.000600 00006.00 0.600 0.0006E00 1-135 9.069E*02 0000 O.000.E00 O.000E*00 O.OOE600 0.0005+00 IILORT1CLAATES SR-w 4.96E*00 4.227E-0 2.9606-0 2.3116.E4 2.516641 2.53g641 SO9;0 2.3966-02 122GE-6. 4.090.06 1.6746.04 1.278.0 6.514E-04 CS-134i. &365E-01 O.O00E.00 0.00060E 0000.E00 .0000E+00 O006.00 CS-1.37. 2.295602 6.415E-09 42066.0 1.7219M0 1.3136.07 67206.0?BA.L!.14 1.5106E+0 O.OE6400 O.O600 0 E 0 O.O 00-W 00.0E0W O.O000+40 ZN-O 1.03GEO60 00006.0 00006E00 00.DDE00 .000E.O0 D00006.00 Co- .15466.00 0000-600 0.000640 @000-O60 O.00. 0 -0006#00 Co00 1.318E61 2.731E-07 1.905-E 9.107M.6 7.745E60 2.717M45 FE-S 5.626.00 0006.00 0.0006.0 00006.00 0.0006.00 00006.0 ,CR.I 61076.00 00006.00 00006.00 00006.00 0000600 00006.00 ZR-NB-9 LS 0 00006.00 O000.E+00 0000600 0000.E00 00006E007.783100 000 00006 O.OC-W00 0000O600 00006.00 0000E+6.CE-144 .9006E01 ao o C00006.00 M 0000600 l0006E*0 0.O0OE+00 80124. 42066.o0 00006400 000o6.oo 0OOE+00 o00.00 0ooo0oo6 MN-54, .E-O1 4.006.E-16

&326E-15 &232C-14 8.7566-14 1.474E-13 G-75M 2.126.O0 I 0000640 00006.00 O.000-0 00 00006.00 00006.00 110.99 9123E-01 0000640D 00006.00 00006.00 00E0064 00E0060 R""103' 3616.00 O0000E00 00006.00 00006.00 ,000-+640 O.0006.0 SEI-12 .5 2.53O6.0 @0006.00 00006.00 00006.0 OW6.00 00006.00 YE-132 7.7906.01 00006.00 00006.00 00006.00 0000640M 00006.00 t6622E-02 1.5756.0 2.0983600 1.9756.0 9.45GE.01 2.5176-01 YimuIs.umz.

ait. o I 1 I:+

Alqe I -.... ... G ' .,I,*..: s "I c-YRC-1178 REV. 0 Page A-16 1 0 ANNUAL RELEASED ACTIVITY DECAYED TO 01/1/98 11 YEAR 1972 liz.1 1974..: 975 %976 1977- ¶ l978 ,12 ym to 188 25 2.1 23 22 21 20 19.14 tuctiw*d Li4fit 15 (R45, 6.4416-02 3.353E-01 5442E-02 3372E.01 .577E.01 13.36O- 3.592E-01 2.231E*00 16 KRO m 1.3081E*03 0.000.E00

.0000E600 0.000E00 O000E060 0.0006.00 0.000.E00 0.000E*00 A7 K 4.7, 7E*03 0.000E.00 0,000-00 0.000 0 0.0006-0 0O.0E+00 0.OooE-00 O0.0 -00ý1 2.178E+03 0.006.0 0000 6.00 0.000#0 0.0006.00 0.0005.00 0,0006D00.S XE-133 4.104E1.1 O.0006.00 .O0005.E*

.0006.00.

0.000E'0 "O.000.00 O.000E600

.000E*00 20 XE435; 6.63&1=02 O.00000 O.00*00 O.000E*00 00006.00 O.0006.00 0.000E*00 O000E+00 21 XS-135M 2.322E'04 O.000E00 0000E.00 O.O00Eoo O.0006.O0 0.0.00E00 0.oo0006 0oo000.0 22: EX138 2.567=+04 0.000E00 00006.00 0.000E*00 0.0006E00 0.000E600

.000.C-00 0006.00E 23 XE-'13m 1.120E.02 o000.00 o.oo0 .o00 .O .+00 000.o00 o.o000.00 0.0006.0o 0.0006.00 24 AR.37 7.2330 1.08-78 2.690E-77 2.823M-73 4.176-70 4.1E-47 1.407E43 1.171E.40:25 AR.;4 13206E+ O.0006 .00 *0 0.000600.

0.0006E00 O.O00E+00 0.0006.00

]00006.0.28 cW 1.210E.04 9.755E-01 1.9436.01 5.25K-41 1.573.E00 1.296.01 2.369E.01 3.3016E01'27. In 1117&01 0X.0E006.

9.726-223 7.i36-214 OGO 06. 2.9241-5195

&I8 E,6 5 1.570E-174 23 RR 2.081E+04 0.0006+.0 0.WOE6OC 0.006O.00 0 00 0.E00 0.000640 .0006E.00 0.0006+00 33 1-131 3.141E501

.0000E.00 00006.00 E0.0006.00 1.310E-33 8&751E-292 7.4136-278" 1.034E.263 4 1-133 2.921E502 0 00006.0000.D+00 00.001D'O 0006E+40 0.0006.00 O.0006.00 35 1-135 9.069E0 0000.01)00 0.000*00 00006.*00

&.).00( ) O.0D"006 0.0006.00 0000*.00 ,36Z 17, 38 SR489 .4:9645. 600 0~E-460 01.o ooO0 .2 .s3 E* 0.006.0 0.06.0 23085-48 4 Sit-S 2.396-02 37M46- 295.0 8 6e45. 3.979 4.15307 1.7106-06 9.657,-0.

1.7m0o+0+4.1 C13s4 00006.00 -",2446-E.

' It ,1624EM0 +I + 3.6.i0 &OW?1 1.374E.10 42 &1S43? 2 2956-02 .1 2, 07 1 7 7Y9, E 6774 ',4132ý.6.6 2.1506-07 4.4996-M7 1.,74,,-.43 A-LA-140 i,510E-6.2*

00005oE.00'-",0~~,, 0 ,000E.00, 30.0006.00 00006.00 0.000640W 0.000640.:ZN-M 1.0EI.+00 1 0E0, O,46E1'O 11=.8 43546+00 i0E6-4' 60.9 1 3075 4.4206E- 4.92.E-35 tDO 7.am4 .. ,o o'-,3.6W-9,1 1r=3 44r 6Dw 1.318E.01-

.34ii &WEM .1506 102.4~ I77 4 690-0 1.576E.0 1.9785.06 1.m1B.,04 1,052E-04 4.li,-1'oo47, -FE-5, 80151E%% 4.5666--6 307o5-2 48- CR-51 9 107E.00 00005.00 0000E.0oo 5.385E-95,1?'2.2s3E-9O; 1.G60-89 0.000640 1.261E.80 48_ ZR-NB-95 3665600 0.0006.00 00 0006.E00 2.9195-45.

3,044E-41 15M6-43 5.655E41 1.074549 6 E-1~.41 1.783E-00 I00006.00 00006E.00D

.0000640 0,00oE40 00006.00 5.397E-75 0.0006.00 CE-144 e ,g62-01 0.0006.00 0000o.0 oooE6'0 0.o6.00 00006.00 1.4796-14

&408oC-14 82 SB-124 4.206E-00 00OE006 .00 0000.00, 3 952E49 4.2156-45 7.6396-46 0.0006.0 M00015.00&3 MN_54 8.063.01 156606.-14 1.400E-13 3391E-12 ,8.10E162 2.291E-14 0.000640 4.9496-13 ,'64 AG 101. 1.001E.00, 000M0600 316076-5 l.3 r-+o sMI45~1s .356E'-16 7.5766-16 1.561C-15 45 SE.75 26r 8,0421t .006 0.0006.00 i.0006.00 ISO MO0.99 91236-.01 0.0006.00 000.OOEW,,CE00 .j 0.000E+M 0.OM+ 0.000540 0.00060 6' RU.IO3' OL351E. 0000. 0 00 O4O ME006.0. 0,000tý00" a00006000 I .060 0.004 0.0+ GOOW COC0060 60 76132 : Um.i ~ aa~a~ x.m oo, & c 0 o .0006.00 0.000640 0.0&0060 W3~i 144 5.92502 2.166640a 2.17$E+00 1.0585.00

&.675E.01

.2056-01 1.0511200 9.941E601 62OMA mauw m m I 6 8 12 13 14 1s 17 is 19 21 22 23 24 25'--246 2T 27 29 30 31.32 33 3:44 36 36 37 38 39 40 41 42 43 44 45 47 48 49 so 61 62 53 64 66 67 69 f61 62 A ISB =-WTL F fN 0 YR.117B REV,0 Page A-1l1 YEAR 1979 I.A0 91 1962 YM to19 lo 6 17 I6i 15 1963 19648C.. IM 14 13 12 NUCKJ KR-85 KR-87m XE-i33 XE-135 XE-1 35M XE-138 XE-133Mi AR-37 AR-41 C-14 XE.131m RD-88 Lambda&440E.02 1.381E503 4.797E.03 2.17K-4.-0 4.6045-01 6.33E*02 2.322E+04 2.5676.04 1,120E#02?.233E+00 3.320E+03 1.2106.04 2.117E*.1 2.061E+04 14131 3 141F*01 1-133 2 9215E02 1-135 9,0695.02.140E.01 G0000-.00 O.000E*00 0000.E00 O00005.00 0.0005.00 A0OOE.00 0.0005.00 1224E567 0.000E+00 2.075E.01 1.0336.165, 5.0186.250 O.(OE00 00(0)E.00 3.3185E46 1.362E-07 1.153E-6 5227E-06 00005.00 7.061E.34 2.052E.06 O.0005.00 1.485E-37 0.O00E+00 LO000E+00 0.000E+00 1,616E.11 O.000-.0 O.00.E00 0,000E.00 O.00E*00 O.000E*00 4. 104E.01 C000E-00 O.MM500 0.0.E400 0Q0.DO00 0.000E.Oo 0.0006.00 O.000.E00 1.641E-54 0.0006.00 1.499E,01 6.2,E-157 0.0006.00 7 949-237 0.0005,.00 4.8486-44 9.978E-W0 4.3675.06.

.000-,0.474E-33 1.2004M 0.000C-00

.0006-.00 0.0060 000.E*00 G00006.00.0006.00 0.000.E00 G0000600 5.150E.01 0005.00 00005.00&000&00 0.00050 0.0005.00 7.3194-51 1.1755.00 0.0005.00 ,0.000500 2.53M-.223 0.0005.00 0 0005.00 2.371E.41 531E.07 0.0005.00 142K--30 4.819E-08 4.677E45,:

1.374C-70 0.0006.00' 0.0006.00 0.000E.00 i7t0E-36 O.6.00G0 0006.00 L00000, 0.0006. G0.0E+00 MODD+00 O.005.00.000E+00 0.0005.00 0.0006.0 GCODE00 1.6206-47 2.3336.00 O.Owc-wx O0006.00 0.0005.00 1.203E.209

.000500 00005.00 5.526.39 5241E.07 1.46W-46 O.O0DEOW 0.0005.00 1.0862E12 1.3905.29 2.3410.07 2.1246.42 4.264E.16 0.000+00 2.2196--3 1.17I2-12 CLOOM00 G0.00000 0.0006.00 1.021E-47 0.CLOOO00 13546.00.0000.+00 0 .005#00 1.1955.290 0.0005.00 O.O00E*O0 0.0006.00 0.0005.00 OL0005.D O.0000E*0 0.000E+00 1.314E-194 O.0006.00 1.7586.06 4.6465.06.0000500 G00006.00 1.6166.27 00006+00 O.O00E600 O.000-.00 G00005-00 0.0006.00 0.0006.00 1.109631 O.0006E00 00006.00 G0005.0 0.0006)00 1.372E-44 0.0006+O0 00005.00 7.757E00 00005.00 0.0x.0o 0 (XXE*00 1.6775-269 0.000500 0.0006-00 3.542E-41 0.0mE+00 1.791E+01 00005400 0.000-.00 1 383E-480 0.0005.00 0.0005.00 1.945-34 6.384E.0 1.200646 5.85-06 0.000-.00 1.782E.12 0006.-00 0.0006.00 0000E+00 A ?8"CE-00 7.6395-29 aO0E*0 1.790E-20 O.0c0600 0.0006.00 0.0005.00 5L1?E-42 5L.0.E07 0.000500 S.143E.00 0G00E+00 1942E-249 0.0005.00 00oo0o00 00005.*00 O766.E43 1.343E501 1.253,-168 0.000c.00 4.4626.34 3.142E486 4.61SE.0 3,403E.07 1.2565-13 1.458E624.0006E+0 0.0006.00 1.266E-47 00006.00 4.5195.29 0.0006.+00 O.0E00E+0.0006.00 00505.00O M0006.00 1966 11 2.212E*00 O.OOE00 0.0005.00 GkOMC-OD 2.453E-228 O.0006E00 00006.00 0.0006.00 00006.00 1 .0066-, (00006.00 4.2515+00 O.0000E+0 4.431E.155 0.0005.0 8.kO7*6.725607 0.000500 0.00600 1.260E.12 1.10E-22 0.0006.00 0.000E.00 2.731E-27 0.0005E00 0000.E00 1722E-27 0.000.E00 0000.E00 0.000.E00 0000.E00 O.00.E00 0.000.E00 0.000-+00 SR-89 SR-90, CS-134 CS-137 a8LA140 ZN-65 CO-58 00-6 FE59S CR-51*ZRNB-9 CE-141 CE-144 SB-124 MW454 AG-1 10M, SE-75 MOM-9 RU-103 SB-125 TF-132 4.954E+00 2.39RE-02 3.305E-01 2.295E-02 1.510E+02 1.039EC00 15466.00 1.316-01 16266.00 01075000&1666-+00 7.763E.00 19&025C.01 4.2066.00 2.103E-+00 9.123E601 12616.00 2.83E.01 7.7O0601.I-3 1622.02 1.2995.00 s.166E651 0.D00E0 C0006.00 0005.00 O +000050 G0.0E0 0.C00.ROAWSPA, SIt. LP 2 I REV. 0 Pboe A.12 YEAR 1967 19m6 Ym to 1998 10 9Lambcla KR-85 .440E.02 2.193E.00 I0 8eE*00 KR-85M 1.361E*03 O.000.E00 KR-8W 4.797E.03 0.=0+2.00 0000.E-00 KR46 2.178E*03 0.000E400 000E*00 Ii-133 4.604E.01 1.4442--207 65902.18 XE.135 6.633E202 OOOE*.00 O.O000E00 XE-'135m 2.322E#04 0.0002.0 a0.00020 XE-138 2.567E+04

.000E.00 a0E+00 XE.133m 1.120E+02 0.000E+00 0.000E+00 AR-37 7.2232.00 6100242 4.5992-22 AR-41 3.320E.03 0.000E+.00 G000200 C-14 1.210E-04 41112E00 1.096E200 XE-13in 2.117.+01 0.00200 0.0002+00 RSM8 2.061E+04 0.0002.00 0.0002.00 87 91. 1992.. 1972-92 TOTAL 6 5 DECAYED TO 01 1.131 3.141E201 6.314E-142 2.735E.126 1.133 2.921E+02 0.000E200 0.000E200 1-135 O.000.E00 0.000E+00 S-9 4.964E.00 Q00002.0 0.0002400 ,SR-90 2.3W-6.2 7.45S 2.1032M6 CS- 14 3+36$E-01 7.728246 CS.137 2,295E-, M 0.000E*0 0.000-.00 IA-LA-140 1.5102.02 (0.0002.0 0.000240 ZN-5 1 0302.00 0.0E2+.00 0.0002&00 CO-58 3 546E-00 3.722-21 9.626-20 CO-60 i-3182.01 a00002400 0.0002.00 FE 59 56262.00 3.001242 0.0C0020 CR-51 9107E+00 5.5M34 o.O000.0 ZR-NB-95 $.8002.00 6.6012-25 Q000E02.0 CE-141 7.783200 0.0002.0 0.0002.0 CE.144 o.902EV 0.0002.0 o.000200 88124 4,206E400 9.80M-2 0.000240 td4-54 $ 0692.01 0.000240 0.0002.0 S2-75 2.1032400 a00002.0 0.0002.0 140-99 0.1232.01 0.000240 0.0DC-0020 RU-103 63612.00 0.0002.0 0.0WE0020 88-12 2.539E.01 0.0002.0 0.000240 TE-132 T7.902.01 0.0002.0 0.0002400 7.1192E01 1386E.01 1.252E*00 0.00000 3.448E.01 00002E00 0.000E+00

.000E*00 .000E*00 0.000.E00 0.00.E*00

.000E*00 0.0002E00 O0000*00 0.000.E00 0.0002.00 0.000E20 0.000E*00 0.000E400 0.0004E00 3.275C-108 2.104E-145 2.219E-124 0.00E+00 2.219E-124 000.E*00 O0.0002.0 0E.000.000.00E200 0000E200.00E.00 0.000E00 O0.0000E#

O.000.0.X 0.000E2.O0 0,0002E00 0.000E200 0.0002400 0.000E+00 0,000E20 0.000200 000E2+00 4.050E-293 0.0002400 4.850E-293 32--2" 6.666-22 7.922-20 0.000E+00 7.t -20 0.000E#00 0.000.E00

.0004E*00

.000.EO0 0.0002400 1.963E-41 26S90 1 &.794E-1 0.000C00 5909E.01.0002E.00 0.000E+00

.0004E00 0.0002C00 5.294E.157

.000 0.000 200 .00E.0000 0.0000E00 0.000 00E 6.095E-115 3.M6E-101 3.476247 0.000E+00 3.476E287 0.000E+00 O..000.00 0 O.00C-00 0.0002.0 0.00+00 0.000E200 0X000E+00 0.000E2,.00.000E*00 O.000E.0O 3.79S-26 G0C.0000 O.0002400 0.000E240 1795E-26 5.1014E07

• 3171E-7 U000200 0.0002.00 1.136E-04 2.410E.07 1.640E-7 7.06E24 3.621E-2 3,535246 6.00GE-07 9.027E.07 0.000E.00 O.000.E00 3,427E-05 a0.00000 0.000E,0 O.O0E*000 0-000E00 *000C02 1.276249 0.326E210 0.0E+00 00o. 2.215.09 1.531E-17 10302.16 .06E-15 1.563E-13 4.0071E7 1.212E4 0.0a.0E+o o.002.00 2.951E.04 6&47252- 3.607E-24 O.000E.00 0.000O00 4,454E-24 1.368-37 3.917E-345 0O0E+0 0 0.0M&00 3 931E-35 4.73-20 0.OE.00 0.000400 0.0002.00 4.7302-20 1.274E3 0.000200 C0.0CW00 O0000400 1.274E-33 5.6144E9 M.0002E.0 0C.0E20 0.0000 5,614E-9 2.01*3,0 4.78W2-19 2292E-19 0.00400 7.279E.19 31,84-100.0002.00 0.0002.00 0.000O400 4.26DE-10000000 0.00200 0.00 0 &067E.15 C0.002 0.0OC-200 O0L0C-00 0.0002400

&0621-26 00.00E' OO0 .00 E O0.000E20 Q00GE000 0.0001100 a0100E*00 00200EO 0.0002EO0 5.5311-42 0.0002.00 0.002.00 0o. 200- 0L.00024C00 5.934E-0.000 0 0.000EO0 0.000E+00

.0002400 Q0.o0002.0.0002.00 O.O020 0L.O000.0 O0.00-+W0 1.051E-01 Ths.WAI&U mE. Ls PC 1K3 5.622E.02 0.000E+00 0.000E00 Asl A +K fL 'M N 0 P 11 : Yankee Atomlc I IYRC 1178. REV. 0 2 TOTAL GASEOUS ELEASES P~re~________jeowA;13 I 7-~ ___ _ __ __ ~ ___ __ ITotal Adt 8 RAIONU~iDE1972

__Total All j.Iby-gr2-29 I. lFISSION GASES.' _ 3 4 -Releasýes Ci Ci 9 R4 845-02 IAE-02 7.OOE-03, '1'59E+06 1 t6E-o1 10 KR8M____0.O-4

-2OEý-03 3.OOE-03, 5-45E,0 1111 KR-87__ _ ----`112 K<R-88' _____ -- -4ME-03 4.00E4031__

13 )XE-1 33,__ 3.38E-O01 6.68E-01 2.33E+00L

'7.84E+OOQ 1.12E4+0 ___141,1' XE-I 35 1___ .23Eý02, 7.11 E-02. M.OE-1 1. 1 MEOO 1 .94E+O00____

1, XE-1315M _____1%8 XE- 138,-- __IT XE-I 33M 17.70E-03 6..OOE-01.

4. 1 OE-02' 5AM7-02 I8 AR-37 3,21 E-01 4.65E+00 5.OOE-03 1.51 E+0O 8.49E+OO ___19 AR-41 3.35E-02 7.93E-01 7.50E-01 5.20E-02 I,16315+00___-

20 C -14 4.93E-01 1.47E-03 3.OOE-031 4.81 E701, 9. Q1, ___21 XE-131M ---- _ _22 Rb-81ZZ __26 11I. IODINES ---21 1-131

• 4. -5' 1,.73E-04 2IE0~28 1-133 ___ -____'29 1-135 ___ --- _ _31 111. PARTICULATES

_______32 .-33 SR-89____ " ____ --_ ___34 SR-90 I_ _ ______Q _1_ E_06 6.00E-G61 35 CS-134 ___36 CS-I137 0___ ____ O-8 -2OE-06 -37 BA-LA-140

____________-

____~38 ZN-85N 39 CO-58 ..8.OOE-O6 2,50E-05 3.30E-05 ____40 CO-80 -.2.50E-05 7.70E-05 I1.02E-04

__41 F E -5 9'1____ 1.OOE-06 1.OOE..06 42 CR-5I1___

____43 ZR-NB-95 44 ~CE-141 _____45 ~CE-144 __46 SB-124 _ _ _ _ _ _47 ..MN-54. ... .. ___ 9.OOE-08 3.1 OE-05 4.OOE-05 _ _ _48' AG-1I OM ----__ __ __3._ 3OOE-06 8MOE-O6 l;IOE-05ýso~ MO-99 _ _ _ _ _ __ _$1 RU-I 03 _ _ _ _ _ _ ___ _ _62 SB-125 ___ ___53 TE-1 32__ _ -- ..~54 UNIDENTIFIED

-__8A6 H3 ___ 2.66E+06 1 65.0 .0E-04 4-.52E+OOl 8.83E+00 7 AR Q R 7Y7]ý 1", T T U -v x -V W:i I Ynnkee AtnmIe~ EI~r.C~n YRC 11l:178.REV:

0 T',2 "TOT AL GASEOUS RELESES-'

R ...s" E L EA. n S .. ....Total ACtL.i_:_ __ _ _____ -.. .... ___ 4 Release Ci .... .Ci....u...

,..-., * *Tots:1973

• _. _. To al All'. y. rou": ILTIS8iON'GASES

.1 \ 23 .4 '.R lea6ses,.

Cij" '8 ' _""- _... "_ _ _ _ .... ._ _ _* _ __.. ..... ..9 iKR85 1.__.. -.81E-02 4.63E-02 1,::,91E-Ol, 1.55E&60t1_._.

___10 .KR-85M " 4.49E-02 3,24E-02 7148E-02 " .52E-01 .___ .._.11' KR-8 -- _ __ _ _ _ _ _ _"12 KR-88 -2.41E02 .06E-02 2,3E-02" 7,84E.2" t3 .. .X"E-133;

.- 1i.17E+01 1.38E+01 L07E100 3.34E,01.14 .XE3351 286E.O0 2.71E+O .9.501 .52E,00 1 5.., XE;135M __,"_ ___* -_. .___ -1 .6 .._,_. __ ._,_,, 4, 147 .XE-33M .. ." .90E02 55.91,E02..

781E02'18 4 AR-37 .. 35E -03 ,.4E--E02 4,33E 02 "__'1 AR-41 .____2.45E+O06 5' 1 E71 30115+06: C '4.: :. ..1.... ICE1.34E-02

3. E-03 1i8Ez1 i.95E-0 2-1 XE-131M ... ..-50E-03 .488E6-02 1.498E02 .41E-02 ...... _24 UNIDENTIFIED-.

25T _ _ __ _ _ _.-.-_ _26 11. IODINES _.:27 "" .311 ...43E04 ... .24IE03 7.11 E-04 2.69E-03 28~ E-043 t2__ ',',03- -l-_ _ _-32f'29 35 1 .. ....":.33. SR -89. " ' , "_ _ _ .,: .. ' --:. " ",-: .,, .. -... .,- ...3 ,"SR-90 ." I." E-0 -I- 6E4;20E-074

.24E07. 1 s54&E06 35s, C- 68341 -4.OOE-08 36 C-X3;___ ,I.'O[E-06

-5:90E-07 I .9E-'06 3.55E-06 37 A-LA-I 40 ------____,38, N____ OEO -06 I. E-06 ___39 CO-.58 .....__ 200E-06 4.OOE-+06 5.1.0EO 6.97E-06 ... ___..'40 CO-60 ' ." :.1 E-05 9.30E-05 1.56EO5, iý5 29EE05L 1.83E-04 41 FE-591 --...42 CR-51---4 R N -9 _ _ _. _ _ _ -;:-:-:, .','-., -" ... : , "-:.4 CE-141i , _ _ _ --- _ _ _ _4 CE-144- ~ ~46' SB.ý124:'-_

_ _ --4M .. 7.00E 06

,.2.59E-06,,7.i E-06 3.78E-05,:48. AG-1IlOM-

-- -.0~8 50-6 54EO 1.0-0 03E7'04 ___-49,, SE-TS 1 -GI.OE-08 1 .00E 06~ 2.GOE-06 ____,6~ MO-99 -- -.H-.'51. RU-I 03- ---i 52 SB-125 --* .-__.__..53_ 'TE8,132__

_ ----;_U7INIDENTIFIED

.__ ---" -"',".AL.. ' H-3 ,ZIII .- 5,00E+00 2-.23E+00

.9:20E-6f0

.8:39E+00

.

A-53.... .. ._ _ .,A, Z A B I.ý.. AE I AF I AG I AH Z-Yantkee!Atomic Electric Co'.I YRC 1178.,REV.

0-Pihe*A-IS

--.1 _________ (ril L71-75.Wk3

___t~~~~~ -'-.-.---

..--- ______7 I.FISSIONIGASE 1 '2 3 4 Rlae i C 9 KR85"___36E0 8;97E-O 1A'51 T&EOfl 3-84E,02 1.48E,+00 106 KR'85M .9.0-04, 4.76E'-4 4.2E0 .2-2_.50E 02 __11 KR-;87 -, 9.90E 01' t.OE-Mf3 1 .59E-0' ___12, KR-88 I.80E4 i'80E-0*ý4 15.8E-02 .906E702.

8.888,02.13 ýXE-1 33, -66E0O.47E+O01'2 7.'73E-01T 2.1E+,0O 6',07E 0i ___14 XE-,135, _____21;E-01 1 tO3EZ'01 129E' 11S46 15 ýXE-135M I. .* .88E-4 .4.30&-04

&4SE-044__

1S XE-1 38' .. __ I.'64'E,04:

3.7 Ei04 5.41E-04, 17 'XEI-133M

_____ -.I.04E-02 :2.74E-062 3.785402____

18 AR 37- ____ 6.ýIBE-'03 4'2SE4-1 "-0E0 1.8E0 5.01 E,0~1 19 _ A 41______ 3.6E~O '3E02' 68 0E-1 -1.76-O 8.50OE T.20. R-41i __ 3 7.78E- ý03 ';38-l35E0' 2.76EO :7-0 21 ~ ~ ~ ~ ~ ~ 6 '01, " ____ .5-3~t4~2

-.207-2____231' __ __ _ __ __ .'24, 'UNIDENTIFIED

____'26: 11' IODINES ________ _ _ __'27 .1-131 1 O-05 <588E"-' 4-5 1'E-05 tw60-0& '7.I1E-0 28, 1-133 _________

.3.03E-5 .2.92E--5 2.8E0 2.8E64 __29 1135 .-4,.,38E-5 3.40E-0 3.84E4 3067 __ ___ ____.- _ _ _ `6380 3111 III. PARTIJCU L'TS___ ___ _ _ __ _32:1 ~7 f77 34: ýSR-90 __3.78E-08 3.0O&0E-8

-6.0-5 6.1E 35' CS-1 34 _ 8.70E-07~

1.4ME08 -460E0 1_373 E-0 ___X3: CS-1 37 3E-630E0 2E-7.4E7 1.1 E05, 37 B3E-06 ;40E-`06'

.6- -AO I IS&39~' iO5 ____1.94E-08

-8.'O0E045 3E041.9E0 z4E0 40.

• Clo-e '2.57E-~05

'2.0IE-O3

'9.16E.051

ý44:5E-05 6 8-3___41~ E F59= ____42 CR-51 '5 E-04 -, -,.bE-4 43__ ZR-NB-95, ___ k 3,I0OE-07, 8:8E-07 118-6_ ___S~~CE 144%-ý ___ -~__46, SB-~124- 8.'- 70E-081 3.20E 07 4.07E-07'A47 MN-54'- 2.77E-06 ý-2.95E-04 8.60E-051 12M3E-05 4.08E7:04

____48' AG-110M -2.6Q&Or5

'i,.-20EO 0E-06 --_____-49>' S-5 __ __s0 MO-99 ___'52 SBE125' --,-- --53' >TE-1 32'.- ' -_ __ _ _ _54 'UNIDENTIFIEED I 144E-06] 1.18E-06 -2;62E-06.

_____ _ __ _ _ __ __ _ _ _ _ _ _ __ _ _ _ .E0 66 2.87E01, -1' 36E~4,O0 I.84E+'003 1.56E841 3.84E40 IAlI All AJ_: AK AL AM AN AO AP .AQ'I ýYankee Atb'mic'Electric Co. ..~777 YRC.. 1178. REV.. .-4ý2 ý.CONTINUOUS GASEOUS .RELEASES'(tCurks-b)-.--.

Ra__ ge-6 _'1175:t ; Total. All ygr p ,7j.:FISSIONl GASES 1_1~3_ 3. 4, RlaeCi{Ci 9 4 R8 .2.205102 1 .97E,'02 -'08E.-03 A.78E-r'02.

1, KR-85M 1'60Eý.02

&3.50-O 45E2 .54E0 1.0E0j J 11 KR487 -I.E-223E-23.42E&021I

.1E-02 83E-M& _____12. KR-88 _____ " 2 E-02 "'&.3.08402

6.66E-02 I 48Eý-02 1:.55 1 13,, 'XE-i 33 _ 2)0OEt00 5.OE*O0 .3.72E+00 I ,ý.,29E+OO 1 .2 E'O1' ___14 E1 35'.: -ý .50-01, 6.OOErOf 6.67&-01 13E0 .5+0___15Iýi XE- 135M' S-Z iIOE-0417,40E-01 611E-01Y93~0

.5+0____'1"'XE-i I8 U. 1.10&E02 4,34E-02Z

'l.5E-ý03:

';81'E-02

___17 XE- 133M 2.iE-O72~

~6.80E-'02 5.46IE-2 31,9&E-02, 1.7,6E

___-20 C-1A45 7.0-035.0E-O3 I .24&-05 1 N6EI0 1: .56E-0 ____21~~0 XE-91 4___ -- __31_ -_ _ _22; b-8 6.5OE02.~I

.0E-'1 .02-01 8.4E02, 4 -:01" 24 UNDETIIE --2T5 I.- IODNES 16.73E,63 1;1jE 27 1-31 _____ 580E-5i'20El01' 1.145-0 4.6E-0 '7E02 8 113 ____ ..8.0E-02 j 2.20E-04l 4.05En-04T 0.2E-5 84E 29'113 __-' "29EQ 75E0 .6~6 t7-4 ___34 SR9 .0-04 0-847E0 22E0 .8-7____35 CS-i34.80E 4.72E-061

8,42E 04 __40 CO80__05_

.80710 4.0-0 IE405 4.188E166 t3EZ 3 ___A3 R-B9 ___ ____ 7-0.' .03E 64 -.4iE-0 ____SBý C-12 'W0. -2.6E0 .Ei570105'1.9E-a5 a59'E-03 471 MN-5 ___ 84E01OO-512E05 9j 1A2EEZ04 I.92E&04____

~42 CR-751 -1.8~'2 2E-06 9.289E-04

9. .012E- IN 431 ZRU-10 -.7'7 ,'10E : 42 SB-125 ____53: TIC-132 -4T JH-3 143-1"' 5-4E01 1.-04E-051,627E¶.04 1;.9E.-04

~

jq~3-* * .... .A A B C D IE 172 Atomic ElectricCo 1 L .;::j 171 Total Continuous 4 Batch Releases(Cnies)

LXK~i H A-178 66A-i 7--f -~174,` __1._____(tiWeG76-80.WVK3, S~ -~176~ -f~176~ ____1___ 9761 T MUtlI TotWA~t:1 177T k FISSION "GASES i 2~ 3 ~ ~ ~ ~ ib~oi 179 KR-851- 1,36E-03 2.46E;102 3.31 E-02 1 .58E-02 7.49E-.02,____

180 MO-8M 9M0OE-O3 5.80OE 02L 9.37E-02 ý937E-02 -0256.1' __11 K-7____437Th-035bE~2A1E0-.37-E-02 1 .6615-0Y, 182 KR~8 122E02 i.25- iC2E41 :13E0~3E-01

____183& XEi3 "'E0 ~5400 8,96E4:00

~6153E0 -4I+1____184' X-3 1.38E--61 5,27E601.

1~4E0 12E 01 L AE0 ___18AX.354 1.36E-01 1.19E-01' 3.86E-01 "5.59E-01

.1.Z21E+0 18Z&.13 2.46IE-03 8`62E-03 9.:8 3E- -04, A.38E-02 -2.S9E4-02

__188 ..37 ___ 873-2'15-TS O1 8.04E-03 '-2681-42 4834-61__189 -AR4-Al _____ 065IEi2 5428-40Z 15.6E-0, J9;27&E-02

.W!E-01 ____190 '1.2E0 1

1EOt 1,'4.06E-03 25.60E-0 .3 1:2E0 .___19tX-13M____

-- _ ___ 3.47E-02 '3.47E-02___

119 Rb-881 __ _-49E02 .15 01 5. -01' 4.9,4E-01~

1.25E4-00____

193. -194 VNIDENTI FIED___ ____ ________f-95 ________ .1E0 196 11I. 1IODINES -_____ __ ____197 1-131 1 ____i0E0 3-51.4-6I.29E-05 Z55E-05 198 1-1331 ___ 1 .24E-05 620E506, 4-.35E,061 2.58E405 4.84E-05 ____~199, 1-1354 ______35E&05

B03E-.06 (3',7AS3E0 2i97E-05 64~26,05 ____2 0 1 I. PARTICUL1ATES

___ ___ ___ ____ ___202: ~____ _ _ _ _ _ _ _ _ _ _ _ _ __203 SR-89 -----____204 1SR-gO Z ~ 83&~08 L, '21 IE-08 ___1205 CS71 34U___ : -" 4.266-,071

.3'20E-08

• .`58E- L07~ ___206 C-137 ____ :7-0 T.OE&07. '2l-58E-07 4"M664-7' 207 `BA..tA4,,40'-'

_ _ _ _ _208. Z. 4-6 _ _ _ _ _ _ ----209 0O-58 '6.47E-07 3.1OE4!07L 6.14E,!07 2.47E-07 1.82E-06 _210 _co-6o 3.OE-06 1.84E;06 i4.31 E-06 1-.93E-07 9i44E-08 211 FE-591ZI1 9.410 g~E-:08 1. 18E-06' 4.19E-07 1187E-061/42112; -,:CR-51 -, --. 7.78E-07:

1, i46E-06, I2,24E-D6-213ý7 :xZR-.NB-95

-- 45E0' I -4:54Eý0 214 TCE-141 ___ ___S215 'CE-l 44 -----~216> ~SB-124 -8.35E-08 -9,1-3E-08 14.75E-07~217~< MN~54162E-08

___'-~5.10&-07, ý- 5A46E-07 7218 "-L :L<,AG-110M

____ ___ ____ 38E071 1709E08- ~ 5E~921 9> : E7 7I -__K 220O,- ý,W 0-~9 9 _______ __221'1/4 RU-103____

-- ___222 SB-125 -_ _ _ _ _ _ _ _ _ _ _ _ _-. 223'.~ :UNIDENTIFIED

-_ _ _ _ -~225~ ~______ _______ 1.75E-05, 226-3 j-S.5.7E -02j ý4`74IE-O 01 926E!01l "5.63IE-0,1 20E0 ___

A J I K I L M N 0 P Q R 172 Yankee Atomic Electric Co YRC-1178 -173 Total Continuous

+ Batch Reles_ (Cties Page A-18 174 Mre G76-80.WK3 175 176 1977 Total All Total Act 177 I. FISSION GASES 1 2 3 4 Releases Cib group 178 IZ 1__ --___ ______ __ _ Cl 179 KR-85 8.28E-02 1.03E+00 1.46E-02 1.75E-01 1.30E÷00 180 KR-85M 1.33E-01 1.09E-01 1.03E-01 7.01E-01 1.05E+00 181 KR-87 7.47E-02 9.51E-02 6.16E-02 2.79E-01 5.10E-01 182 KR-88 I .83E-01 1.41E-01 1.48E-01 9.26E-01 1.40E+00 183 XE-133 1.08E+01 1.87E.+01 6.01E+00 6.25E+01 9.78E+01 184 XE-135 1.84E+00 1.41E+00 1.54E+00 8.90E+00 1.37E+01 115 XE-135M 8.37E-01 5.44E-01 1.09E+00 2.20E+00, 4.67E÷00 186 XE-138 8.64E-03 2.405-02 1.15E-03 2.43E-02 5.81E-02_187 XE-133M 1.83E-01 1.07E-01 126E-01 1.01E+00 1.43E+00: 188 AR-37 7.055-02 8.54E-01 2.66E-03 1.35E-02 9.41E-01 189 AR-41 1.78E-01 2.15E-01 2.89E-02 6.44E-02 4.86E-01 190 C-14 3.74E-03 2.28E-01 1.86E-03 5.85E-03 2.39E-01 191 XE-131M 9.03E-02 1.20E-01 3.17E-02 3.78E-01 6.20E-01 192 Rb-88 .3.24E-01 3.60E-01 6.84E-01 193 194 UNIDENTIFIED

___-195 1 1.25E+02 196 II. IODINES 197 1-131 2.21E-06 2.60E-05 2.12E-05 "4.94E-05 198 1-133 2.29E-05 -4.445-05 6.73E-05 199 1-135 2.62E-05 -2.85E-05 5.47E-05 200 1.71E-04 201 III. PARTICULATES 202 203 SR-89 " " " " 1.5_E-0 204 SR-g0 1.56E-08 --1.5E-08 205 CS-134 -_-_1.15E-07 1.15E-07 206 CS-137 2.18E-07 1.43E-07 2.19E-07 1.32E-07 7.12E-07 207 BA-LA-I 40 ...208 ZN-65..209 CO-58 -2.79E-07 -2.79E-07 210 CO-60 -2.20E-07 -2.20E-07i 211 FE-51 1.55E-07 --1.81E-07 3.36E-07 212 CR-51 ---213 ZR-NB-g5 "2 2.18E-07 2.18E-07 214 CE-141 2 0-7 --2.16E-07 215 CE-144 -7.98E-07 -7.98E-07 216 88-124 .....217 MN-54 ..... ---218 AG-110M -1.72E-07 -2.03E-07 3.75E-07 219 8E-7 z ....220 MO-99 .....221 RU-103 ....222 S-125 ---223 -~_ _ __ _ _224 UNIDENTIFIED

-... --225 1 3.28E-06 226 1"4-3 1.55E+00 2.145-01 4.91E-01 1.01E+00 3"27E+] 0 AS'7 I .....................

4- -..S .1 T I ~U I. , V WI X z IAA Yankee-AtomiclElecftic0,.

I Total

+ Batch Rblea ses (C ui:.as)______ ___ __-YRC-li ,._: __ _.. : .rile. G ,68-OWK3 _ _3 .ea.ses Ci by ., :.I 1[*.77" , I i.: FISSION:GASES 1 14786 F.:CV I IODINES 1__131 7.SOE-05 1.711 1-133 1011__1-135__ 31.79E-05 1.341 PARTICULA~

__777 i 11_______ ~ 1- _____ I:3E-07 1.85_______ " '.__ _ 8.16E-07 1.08_______ ...2.38E-06 75 140.1 .__ _ _ ---ý~70-,6E-0&1 F5.3* :: : t .

RA8 AUI, ,AE.,AF :, AG, AH'At'..... :,k -,--+

Ei d CoIe sg I lies Toa otnou ac elae Cre YRC-11,78

'Pagie'A,2O0

~iZ4Zll~F7T I1 ~ i~~eG&8F-~

-7,,'I. FISSIONZGASE5Sý Z- 3 e e9s Al -__:KR- 95 ___ 5.24E,;a2T;11t4E+OO 7.38&,02 ~3.72E-01

.6E+O____KR,-85M _____ 2.5SIE-01 5.8!E-01 >5.50&01'

~3.10E-01 i'.'60E+O

____KIR447 ____1.5 14;97E-01 4.29E-01 2.'77E-01 1.:368+6o____

K88____3.49E-,O1

'94SE-01 >7:36E-01', 4.97E-0O1

.,2.52E40O XE13 ____ 402*O 13015-O ~4.4IE O t'-1lI2E+Oil 1.17E+02 XE4135% _______3.'14E+O

.8.58E+OO0

-8 53E4.O0 '527E+00, .65E+64 ,XE-i5M! 1.8EO fl'ý&6.8E.OO

.7.54E+O.

5.81 E+00 2.21E+01 ____XEI 8_____3.49E,,02 2.42E-01 3:'15E-01, -ý I.56E-01 7.48E-61 XEJ133W 4.61 E-01 3'.67E-01 7.58E-01 2.78E-01 1.86E4+00 AR-37, 1.61 E+00 5i.69E-02 3.79E-'Oi 1.25E-01 2.17E+00 AR 41 7.36E7011, ~2M3E7O1 2.36E!Ol -1 .00E+00 ~2.21E4tOG

<C 1.4`. TSM4___7:7E01 lV.ý32E401 6.17E;02, 1~4,E,701 2.8E-X E 1 M ____2.28E+O 3.8-O 1.79E01 4.3El 13.2IE+OO_____

UNIDENTIFIED__

--_ -___:I .B2F+02_ _ 1 .40E-04 2.5E;O8 3.11E4051 SE l1E0*.:48E-0 3ý54E:O .-M 3ELO5 A:7o B. 5O....____ 3.1'E-105:

'53.51E-5 1.28E4O5 .-51'E-O6 1.'03E-04'____

___ ______ __ __ ___ __ 3.'54E-0,4:

ýULATES _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _ _ _____ __ I.5.3E.;07

.7E'0 .2 -7 4.2-6 ___5.39E-0 311E06 -I.29E-05 2:20E-05_____

3.4E'.7 3.49E-07 ____-+ ..4---II -' t~~-Xh1777I....I____

7'~fl~fl5.

J:

2I~~I7~~Th7.-12E'-7Ol'='-,I 1.6E+00:1 1.03E40K8OIO[-

3~78+

AK ,ALA M _ AAM- -4 AO,':AP AQ AIR= I IT72 Yan-kee-Atomic Eiectric.Co

.1 1 1- .7 VRC:-i 178 13 Total Continuous Batci Releases.(Cues

.. ...... Page A21 _ _1 ............

..._' .....-M (f ',G76-60W 3)I*L _________1 1980 Total-All A "177 IL FISSIONGASES:

2 4 Release.s b-r.Ou.178, -:;__ _ _ _ _ _ _ _ _ _ _ _ _ Ci 179 , A.KR-85 1 &51E-021 9.28E-03 1.19E+00 ,.22E-02 l.23E+00 180. ".A,. ,, 1W80 KR85MR .1.21zE-0..

.-.__6,:24E-.41`

7 45E-0 181 KR-47 ._ _ 1-.09E 4 6 __ _ l -6;2E4r: -7.112-0_...

182 KR-88 I,.722-01

..: -1.09E+00 1.26E+00'183 XE-133 _ 0_ .1E+01 2.38E-05+

-221E+0, 3`22E501 184 XE-135 22,1E00 .. I :08E+01.30E+01i_

18-5 XE-i 35M ,!.-48E+00 I .1.60E+01 185E+01__186 XE-1,38 4.79E-02 -" 3318E-01 M3.6E-01 187 XE-1,33M ____ 11342&021-.

.813E-021 V.47&-02,____

1188J. AR-37 44_i_-J35,3321 8`I:8E-0i

-'6.2E-03 7333E-02 E413E-01 1 , .AR41 _______ '2_:.E0E --. 7109E'0p 4 9.U19-01'190; A ,14 136E;-02 232-E02 -.liOE-01 "5OE-01191 XE ..... ....... ., , 01 .84.87&-05

-

1.........

1192 -: rRb88] E-. 3 16' ....." 19 3 2" .. ..",._- .... :_,, 194 UNiDENTIFiED_

• : ' ' ' '195 J____ _ _ -70E0-196 II.O IO IES I___ ________ ___-17 1-131 E.57E. 6 6.32&065 198 -133. _ _ -__. ____ ________ 2E-19,9 1- .135 K-200 "- 6432E-051 K201 Ill. -PARTIC-ULATE S ________ ___-- 202"_ _ _ _203' , SR ". ..... ....506EB408 I 74E07: i -.1 7 3:04E-07 204 :2.SR690 _ 1i65E-08 2 .7E-08 680E-09. 7.04E08..

120E-07 "_' ....205' CS-I34 "___6407E507 5.27E;07 -1.91E06 .3l.04&E06 C206 , '. .137 ... 7.78E-07 7.12E-,07

-499E&06, 6.48E--06

'_207 BA-LA-1'0,-

.. .. --.. , :-'-208 !ZW6Ný8_ _ _ _ -- ----_ _ _i-:209 5 1 -0 7 -78E0 ;'-", -3.08E07 1.28E28 0-606 210 Q0,,80 ____1.412-0 1.68-;06 -8.75E-.06 1.18E45!,211 FE-9____ --- -~212, M~fR 51__ _ -----1213 -ZR-NB-95, ___ ---14 CE 141, _ _ _ --- -215ý -CE1444--216~ -S137124 ___-~217 'MN-54 ____1.09E-06 1.83E.;06

-5;385Eý06 8.28E-06+218 2AG-Ib0M -----219, , SE751 -' ... .-:220 ~ MO99.----i.221ý L RU'03 ---e-. ---.222 -.SB-I 25,____ --_-_,_ _ I ... 40E 2.06

_ _ _-223 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _224 UNIDENTIFIED

_ " .,;226' ....... H-3 ' 7.0~-~"1 3.30E-011

.180E 201 1.47E+00 .... _'""

A A I B I> C 'I.D I E TF G I H I .I 171 Cok.. -_ _ .. .....1178 REV. 0 172 Toital Continuous.

+ Batch ,Releases: (C.o. As_ ____ _ _ Page'A22.

'_. .174' .. _ I I II Total Act.... _ ... ... _ _ ... .981 __. ___' Tbtal -All .yg ouP t 176 J.FISSION123GAtES'--.

1 3-. 4. Releases Ci ..Cij 1778: _" _ __85_ ....____ "_.___.. ...._ _" 18 R-85ý 2.90f..-02 2.70E-01 6.22E+01 1 .23E402. 6.53E+0o -179, KR-5M' : ___6.;95E-01 1.53E-01 2.80E,;01 3.1A5&'01f 1.I.44E+00-__

180, KIR87, -___40 A E-01+ 1i.50E,01

-2.78E;0"l 1 .4E' 1 1.,+l ý'f52E+ý06

_181 XKR188, __ _ .20E+00 l' 5.473E.0t 5..54E-0f 1'82. X 1:33! ..... -.280E+012!

.5 1 S -0 1'.22E+,~ ~ ~ ~ ~ -9E 59E "~ !12E0,111' 8.:,.:801E 0"I;. ::" 1983 XE-135, 1.21 E+01 It3.88Eon, '6-95E+00I 7:0SE+06 2."'90E401 XE-135M ~ ~ o -4___ 1. 0 ',4~2E00 9.10E+00 1123E+41' 4.55EO____

XE* I 38~ 5,E-~0 1.2.1 E001 :2 26E-01 4.61 E-01 ., I .OE*00. _ _XE-ia 33m _ _ .42E-1` 4.49E-01l

'I" .92E-02 8.810OE-0Q

_ARý-37 ____-.~1 ~.0:15.25Et-02.

.4:82E-02

.9E-0 _____AR-41 ....... -6.E59E-041 A 108E-01 365E-01 .2OE-01 I .33E+00 _0C44 1.26E-02!

8:3E-02 3-565E-01 562E03, 4.71E .01 ." X&E I 31M W ._" 6-79E-02 5.91 E-0! 224N *294E-01 1.18E+00 ........UNIDENTIFIE

-'- " .-....E....-1 OAODINE'Sr

---_:. ":: 1-;131, "_ _ _ _ .. 6.03E&05 ":49En05 2Ai1E-05 2.18E-06. .04t _ _ .1-133 -I ~89E-06 4.,42E4,61

-.61E05____145-- :7E05:- 7.76E-05 Ill111. PARTICULATES

___________

_____ ______ 4.29-07 7.03E-07 1.1tOE-"07

-12E06____

_____ ____ :6-7 -.-07 7 -I 028-06,____

7____ 8;5.1 E-07 "0 1' oS-0 o 2.0-6____14:0 _ _ _ _ --- -.7_ __ _ _ _ _ _ _ _ ~~O _ _ _ _ *3 9 E 0 6 ~4 .3 5 E ' 0 3. 0 -0 .6 4 E -0 .3.53E-06 2.44E;06 .t63E&066 -I.6E0 ___________ -*3~97E-O7 1 97E'O ___________ -5.80E-06 -.. 58E0 ____-95 ____ 2:63E-07 _____*. .2.19Eý07!____

67307 24E0 8E 8 .61 &-07. ~9.61E06____

0M m 5 10368BE06 9.23EZ-07

ý4.00~O____

2_ _ _ _ _ _ _ _ __ _ _-4.4E_-05__ H-3 .4 ~~~~3.85E-01j 149ýg3E-01-I50E0

'12E0I 30E 0L.j-v-,.;?,.

=A = [_J T K C2 M"0 P i Q ,.. R-4 4- 4 ~-. -~17.1 YankeeAtoml~cElectric Co'. I YRC-1 178. REV. V 172 Total Continuous

+ Batch Releases(ues i PageA"174 Total Ac:171.176 7-1 17!181 i :181 8.* FISSION GASES K 1i' ,1982:Ii 'Total All by ro* ' ....I ,4. Releases _ _ Ci_S.1. .1.1: 67.F'O2 I 82E:-02

":3:62E,,0.1 5:89EM01 KR-8 1... 67I21E. 4'2-0 124 9 XKR-5M 4.485-01:

,.6.04E6 7.2 E2-0:1 f8E.-02 1.85E4;00 0) "KR-`87 5..04E-01 9.57E-01 '5.97E-021[

2e, 6E+00 1.KR-88 ' 7.. '12+E00 .140+00 `11 .3E-01 13.41EO0 Q 2 XE-133 1.76E201 1.702E+01

1. 72E+01: 1.72E+00' 5E.352+01

.xE-135 ..06E+00 1.22E+01 1.24E+01 1:.56E+00 3.52E+01 .......4 XE-135M .1.55E*+01

.,77E2+01 ý 1.08E401, 2.88E00 4i69E+01 5 XE4138 7.28E-01 .1068+00 %2.38E+00 3.23E-O3W 4.17E+00 6' : XE-i 33M J877E0 2 3 9E5D 8 -072-01 -9.27E2-D01:

_7 AR737 -' .16E402, *l37E-01 4.96E-02" 8 262-01 8 AR-41 3.746041 -6.4-4.23E0,2 C-1 4 8 142E+00, 8.82E'02 1.24E+00 0 'XE31M 9.19E604'1 1."33E+00, 6.41E-02 2.40E02, 2.34E;00 3 .UNIDENTIFIED

-.,,: *.. " ...4 1.___. ___"_" 1,55E+02 5-:II. :IODINES*

-: " _ '-6. 1 -.2.44E204 31:94E-05

.283E-m0 7 -'133 ._ .- -4.99E-05 -:31, 4499E`05_" -3 ....._ "_ _ " ....1 .7...05...1.

78. 2-tBE05 3_5___E _____ _ _ ___ __ ___ ___ __ ___ ___ 3`.5j2&04' 0 :II1 PARTICULATES, " _ _____12:t + SR-89 -1.28E-05, * *,1.2.2-0...__'2E_0 3 ,SR0_,, 1*,S4E-G6 " '8.16E'08 1.622-06 " 4 ` CS-134 -7.51E07, -75.512E07-5: CS-137 ..... -.2:31204 -1.69E-07:

2.312-04S 6 "BA-.A140

_ -. --.,)'7 r ..... ..,,: CO-58 -...3.96.,06 2.39E-06 6.352E-06

_9 COý60 --- 1720 1720 __0 " E-59 ... ...--.i .69E-06 ` .1. 69'E06 __,,, __i 'CR-51 .._- .-.-9.49E-06 -.. 49E06+--.

_2 .ZR-N-9451

__. .._ --9.05E-07 -9.056-0711 3 .~CE-141-

---4 , .CE-144.:__

__ -...== _': _____ " --: " .. " 5 ;SB-124 ---','-6" .M54- 8.32E-07 :967E-07 :,190E06 .1.87E-06 5.57"E06 .7- .:AG -iOM -.2.18.-07I

--2182-07 ________9 MO-99 __2-.1003- -W --06 4' --.3-.TE-32, 5 ýUNIDENTIFIED

.7- H-3 _ __ .98-lE+OO1 16E+061 1.192+00 9.55E.0 5.37E+00 ____

I.-S ... I U."I V__ _,_ IRY C1,t78, REV. ...Yankee Atomic Electc Co. " I ..... .. I I I I ... .II IUIII Total Continuous

+- ;Batch Release.s (Cun as'Pa.ie A-24#4-* "" ' :,T'. tai; 'Ct'.1983 b___Ttal-,All b yqroup I. F.ISSION GASES: __' 2: -,"r = " 4 Releases Ci Ci."i .R 616 ... ..:,C : KR-85 ...._, 1 i25E-02: 1 j30E-O1 6,'58E-0I-1.'78E-01

.179E-'0i

" KR405M 9Q72E-01 1:32E+00 2.37E+00 3.60E+O0 8.26Ei00 `1.KR-87 ....... 812E-0 '253E+/-00.4i26E400

-.79EO00,-.R-88 1 .5E+00 .2:1,3E+0' 6.18E,00 3.038E+01" 3.E XE61133':

3654E8+01 132E8+02 4t66E+02',:. :1.66E+01 280Et0l r 4.50E01 5.75IE*01 1.47E+02 ,__XE JI35M 72.61 E+0901* TI3M2E `1.51E+I 08 ý.'8E01: 2.01 E02 XE138i "1.56E05 a 6Z08EI01.

-2.'1194E+00ý

-46E4O00' 7.33E+00 *_" XE4133M :322E-01 9t62E6-0,1

.4167E54.00 239E+02 .3E00 AR437 5.58E-02 -1 06E+00 5.2.4E+, 00: 1 48,ý-01 .50E+00_AR-41 __ ..... 2.31E01 1.81E-01 5.0E-01 ""7+93E-01

.11E,00 ......14 .-..__5.39E-03 f104E.01 :2.44E;01774E-02 2 .43EE-01 .__.._._: ,.XE-i311M

___.__._.

_ : 3..1OE-02

,-

• 9.01E+00____

UNIDENTIFIED" -. " .--.1' IODINES E 1 131 ..75E-5ý 2:60E-O3 ".91E-04 .3.09E-03 .1-i331, _: ___ ý8152E.05

,.38E&- ';8.62E6'404

.56E-05 1.

-_ _-1-135 i ..1.1t8E04 I' 321E-O4 .150E3'3 .13E"04 2,05E-03 ......." : .,'..... ....... " ' ' " '__ _ _ _ _. .... ...._ _ _ _ _ _:_6. 8E-03 'Ill. PARTICULATES

___., _ .. _..,.SR-89 2: E.O.. I .2.E:.8 -T" .SW.-.., , "E~~s~771 E17, .......CS-I037 ._0... .269E-07 .41 40E06 7I102E- .. 5.39E- _ZN 1 ::::

-._ "', , ---. --___. 'CO-58 -- A.1184_~FE-54 A__ -' ______.,.:, :.,- ,.... ! : " '. 1" ..09E 06 :=2 24E 0,7 57E 03E -07 4,'i: .* 4:i 9E-08 ______"_" _6.2_84__1_

ZOE 84E05 2r,_ E01 17 1.,

A 6-3 7A7 .. AB AC. AD I ":AE,, AP ' AG [ AH. Al AJ ,71, " IYankee;Atomic Electric CO., L -,_ ...__..

Continuous

+ Batch Releases, (Cutes ..YRCý- 1178 REV. 0 Page'A -25 173: , ..... [ ..... ,...(fifeG81w85 WK3) ", 174 ....... .-Tbtal dt 175, T. .6C .... ,-,otAl TO-! I. FISSION GASES j1 2 3

• 4 ReleaSes Ci 177 ___ ____:-1,78, ;KR-85 * :2.34E*00

.1oi2E00 1.38E+00 7.32E-02 1 792E+O0"1,79 KR-85M .. ,i5.24E*00

'9,38E-014'481E+O0

.5693E+0 01.79E+0I M80 KR-87 1 '6.02E+O01 76E06E 3:53E400', 1, 1 181 " KR88 ___ , 9.33E+,00

.',i35E500 5.105'.E0O I.0 11E+tOl 2.68E+01 _182 XEZ-133 3.3IE+02 156E402' 24E 021 1.1,6E02 2 1.09E03-183' A XE035 2,, 9.'37E+0.

2:29E+01 :85E+0,1 -821EO .65E+02:XE-`35M, ...- 9.87E01'i C.63'4E0t1 I E311E+,1 2.57E+02 _ ___185 ".E,138 "... 491E001 1341 E01 12.12E4O00 5.'IEOO '0:.25E+614

$186 XE-I33M 6194E+00 ".2.77EOO I1 w'97E40O '567E+O1 .57E01.It87 AR37 5.6E00 :55E+OO 8.84E-02 1.23E+01 188 AR.41. .08E+000 "l.,83E-01 Z.l'6E2 01i0 866E08-01 2AO3Et00.0 189 :'14:: t 2.02EO0 1;9E.E0 2.60E-0i .318E-02ý 31E+O0 190, r"XE-1'31M

_".. ___

0.6E+001 '1.79E;01

_ _1 9 2 U N I DE N T IFFIE D _ _ _ _ _ _ _194 , ...: ... 1.74E 0.3 2195 ILI IODINESI___

___1961 E... .SOE40*-"z7I42E.-.03

+ .04E-:03 -3.6 1E03; .. ......197 ' -,. 33 -_ _ _. __... 1. IE-04 ,Z..223EiO4

'2 SE-Ol -I ..99E.O 3- _ _ " A198 a, 5 tS135, ; 1580E- 56 E044 4 -.5.6E-04.199 ____ ___ _ _ _ ____ ____9.72E-03;

'.200 Ill.-PARTICULiATES

____;.i-202: SRz89

• 07 SOT. 8.`:81 E-07t -1.1lE,0 I,25E-O&5_.

203 4SR190, .-4.18E-08I

.. 2.54E08 -265E-06 2.72E.7 __W 204"'. I34 """ " " 27E-0: ;:2.~E-0i 8.'3: 1Er8'72Eý05, ,205. , C -137 -. 1.19E0 .4."Z77E.06

.60 E061 :92E-05 1 9-ý53E 5r'206" B A;LIA-140r r ___ 7.93E.`06

. 79E06.207 ý,ZN-65_ _ --- _208 9.54E-07 2.27E-07 IZ 8E- ,07, 1.3 E-06 209 C"o-60 --___' FE-59T ., ... .. ,,.

'212 'ZR-NB-95

___ "ME-8891 E-7____l7E0

...... '0 {,

.; =,];qI{ I',,;'-h , i, , ' r:. .".214 CE-144____

____<21 5 " SB-ý124,___

___216 MN-54 _:._" 2.13E-06 9.29E-07 4'.17E-06

'.275E,06

9.,98E-0-6

'217,~KE A .G41 0 M! 2203_ 3.97E. .. '- ':U .... ... .___. ..1221 S&6",I25 *___ 1.92E-06 .260E-08....,.

W.; .-0 -'222 TE-1 32 ____I5E0 ____1.56E-051 5____r~223 .225 UNIDENTIFIED..

4~L 0,ý2,26'2.,,dnE-0'4' 1w 11, zz7 1'71;3 7. OSEfl I fAF1lf 143 TNE____ 4_____ _____ ¶gF0ll JA'fll 4-0 45F:+fl 4qGqý,,AK I AL 11. AM I AN. .AO AP AQ:AR AS-t-I.-

YRC-11,78.

REV. 0 j1.TotdI'Corhtinuousý-

+BW tiReIea~seds,(ci63s).YI

~ PgA2 I (f-Ge81 -85 .WK3V' FSSONGASES 1 1'985ý y____1i*__

____ oa------------------------

~___ __ ___TdtaI-Allbif

-.... .2.3 i. K Releases Ci'Ci 178 KR-8S ___ ME-02 .1-1 A.2E0 1. OE*.1 1.13EtOlt 179 %R8M6;81,Eo 0U7.12E0Ol

~44,1E+00 146E+O0 1.998E+ of _180 KR-7 -8:8E40 *.30E- 1400 2OE+O .137EO 1. 98E+01I 181' KXR-8 .____ 05e 601" I A2E+0,1 ý6i9E+O --2.-.67E -,00 3.13E+O ____~182, XE-133 2.-72IE4+0 2.50E+02:,-l

$7E4,,21 241 E+01 9:.38E+02____

183: -.XE-i 35, T____ 56E5+0: 7.88E+ 1', 4.42E0 74E10O, :2.E+02 ____184 XE9t-i-35M

_____ 02E+01, 6.1+1 AE01 2,.03E+O1.

1.9E-02___

I 85 -XE-I: 38 5.38E+0O, 4.59E+OO 3',l.,44E+0' I .33IE40O *, I ý.47E+/-01-_____

XE-I 3M .5.37E+0 -.8+O.38 +04.24E+00 1,9; +1 _1T AR-37 .690 3, 0E0 19O1 35E0 377OO____189 1, 498E0 1.86E-`2 ~ 8E'02- 1.4,E4*00 1.53E+`00____

19EmI 31W 7.'28E+'0O 4.60E400 3.42E02 "I .54E400 I'M3E+0 _191 Rb 8____________

_192 ______ _ __ _ __ _ _. -! 7.. UNIDENTIFFIED'

_ _ W- ._19s I O IE ___19,6 IA1S1 J,-______

.1 4E-091I 4;'65E'06 659E-0 66E04'____

1 9 71 -3 3 _ _ _ _ :_ _ _ 6 .,2 0 E -ý O 'S ' .2 0 E -5 _ _ _ _b7 198 115 ____--23E0

.5-6____199 .______ T27E 04 200' "1I1 PARTICULATES,_________

_201 IZIZi _________202 '%SR-8 --____203 SR-SO .-08t ___ .l-0~____204' C-3 4."19S'.O06 4.1 9EO& ____205 S~17 .-______ .3E-07 1 .24E&V 2'.62E,0, _______206 'BA-,LA-140

..48E,07 -44E0 ___207 WN65______

____208, CO-58% _____ _________

-32E08 -.2; E`0 r8 ___209 O 1 64 0 '17.02E-07 I .80Er06 41,95-6____

210+ FE-59V_ _ _ _ __ __1_ __ ____~211 CR-5I1 '~- ____212 ~ZR-NB-95

___ ___ ___ 5.-44E-08 5.44E-08 ____x213, -"C&141+ ~~ ___ ____ ____;--214+ CE-144 ____ 2.70EW0 ~1'.92E-07 4 462E-,07'___

7-~21-97 -SB-124 _ _ _ _ _ _ _ _ ---_ _'216 + MN-54 ____ ____I2.25E 07 1~.04E 07 4.63E-08 3.76E-071,____

p217 AGA IIOM ________________

218~h- .SE-7$_ _ _ _ _ _ _ _ _ _ _S219. -MG-99____

____ -___ ___~220'-; RU7103 _ _ _ _ _ _ _ _ _ --_ _ _22 SBI 125 ____ ..r____ ___222 IIE-1 32 ___ _ _ __ _ _223 E 5____ _____ _______ _..24~fý ý r I -ý ý + -.--.---4 -.1- 1.1-i -.1 i , 'I , I -. ý4. -ý .11 226 UNIDENTIFIED II 227:.75E+O,001 1,.33E+'00, '8.07E-OI 1j 1.28E+00 G .6E0O 1"06 Yankbee AtomnicElectric CO.-:._____y17~E.0 107 Total C ortiiiou + Batd, R6eleasestCt.=

'Pae-2 105 (file G86-90.WK3 109 Total Act.110 I RADIONUCLIDE 1r8 Total All by p ill It GASES .12 .3 .4 Releases Ci di.11 3 KR8:____49E0 0+03.93E-OZ 4.66E-02 2.84E+'00' 8.g7Fo1 I4 9AF-O'1.1-71 F+nO.I..13,9E4.00 4A9QE00 KR-8-7 -30E-,01 -4.76E-44 1-5E01; .6E+-00 -315E+~06 KR-8 1'38E+00 "823E0 1 9E0 63E0 .~E0 XE133 ~~ ~ -O `Y3+11 0E0 7`3 5+0,1- k586+O 6.9E+02 XE-35 .42E+01 -114EA+-0¶,t.60

~2,21 E4011 7.3EJ.XE-i ,35M 1 l.36E+0i1 I 86EO'.i 3.90E+01 2.37E+01 93E XE-i138 ___2.17E-01

'8.06,E42, 4.48E-Ot 68.80E-,01 1.43E+06'XE-I 33M 1 .47E+00 I .62EiýO0 9.25E- 1'. 25E4+00 5.2-78+O0', AR-37 1 .33E-02 5.26E-01 1.68E-02 1A.'3E-102 5 701E-O1 AR__Al 2.98E OSI0EZ'02 Iý,.03E-01

-1fS7E-O1 3461Et1.________ 131M8E 1. 1 56E*VO 9.06E-01 I 2E00' 4f26E+ 0._________5.11E+02 1-3 1.07E,061 868E1051 1 .18E-04 14.88E-,06 1 .80EJ04]____

~L 1-______ 3.8E.6 102EO52.91 E-05t 5j210 4&1E0S ]__r VI Si E ,O '.1 __ ____ ____ ___ _ ______________

.5E-8 -1.iE06 1. 1.4Et-ý06,______ 3.3-ft, 27E4061 4.89E-08 1.168E706 I.2E6-"A 2".51E--06 A.,E08 i0EO8 -,1.6-4,0 ~ ~ ~ ~ _ýý3 8rf l* A' S SS I l~ SS£ '.:Il oz r--Lmt 4A1 'r;I .I On-u Z. 6r-I--_______ _____ 95E-09 7.95E-09 _________ 1.I36&-07 4.7-7iý7 72 90E 08 7.09ET07..____

_____ -..9'~83E-01.

9.83E-09 ____C _______ _______ __________

129E-05'8.4-0 522E*.-00T-2.S8E+'00 1, 50E+001 fiM0E+01'

____

7K1 ~ M 0 p Q fRi 106 YankeeAtomic

!Electic Co..' , ..-

• YRC-, 178 REV..0 1,07 Total -Cohtinuo6us

+Bat~cfiReleases-qries:-) 10 ~- ~fili G86'90WK4 110_ 'RADIONUCLlDE

-.-. 1987 Totalil bý Atb, Il 1 I.FISSIONGASES " 1: *2,:.3 4 Releases~i Ci 113 448OE42 7*44E4+ 2.09E4-02

' .,ý36E-02

!.-7.2E+00 114 -!KR-85M ___-J1.67E~O

&5-1' &68~8-41 8.0-2E-O`

28~0 115 KR* " ,166E 00 7.68E'01 1.51 E-of -849E-O 3199E+00 116 KR-68 3`,47 -:E+00 1.:59E+.0O 1.54E+00 1.58E+00 8.....8.+00.

117 " XE-i33' :* 5.56E+01 8.-94E+0 4.06E4 3.48E+01 2]-20E+02 11 V XE-135 _". _ .2i04E+01 1,.31E01 1.52E+01 1.:3E+01 : 23EO ..119: ._ _._:-:. i :2.f6E401

-689Et00 jt 16E,_01 1.85E+01 631E+011 ... ____120.,, .".XE.138

., 4;83E&01 ..26E-1'6 2.47EO"'121 XE-i 33M3 ..:l __ 1'30E400 L-83E400 i 8.68E&01 '463E-01 4`26E+00 122 AR-37 ' .72E-02 7:3E501 02? '2:55E-02

":.20EOI ___._' ".123 ,AR-41 3.76E-01 1.61E'O1.

4.62E-01T

.3.35E-01

-1.33!E+00

____.;125": X. ..- ..9 E -r30E+00 -360E-03 U2.3E-03 .I :32E+100'32E00

.'12. "::1~A 5.21E-01.;

728E60 1 *.2E+00 -_ : ____126 M NIDENTIFIED

____---38E0 127 -02__ ____ ____128 11- IODINES _ _ _ _____ ____ ____ _ _ _ _ _ _ _ _ _129 1-131 3.65E-08 2.86E-06 2.1 OE1 05. 4.25E-06 :2.891E05

_____:.130- 1-133 -, , 1.63E-05, .. 63E45 __-_". .,131, , 1 132 ____ _ _ _ _ _ _ _ __ _ _ _133 IL PARTICULATES

". .. .....', : ..* ......~134 SR-89 .. ; ---_ _ _ _135 ~SR-90 ___ ---- --136 'CS-134, 4 , .ioE07 336E07 9175E-08 .04E0E07 9.48E0, T',__.1-37'

-75E-07 3 81:E'07 4.05E-07 ý5.75E-07

-.2.' E _6_"-v133- BA'L -4 _ _ _- _ _ _ _ _~139. 2N-6~*- -~ _____ --..* -..'.'140~ CO-58 _ _ _ _ _ _~141 'CO-60 2.83E-06 2,43E&06 2.0E06E 2.03E-:6 9ý35E&08 4'143 :-;,CR-51

--. 7;~ 8-14E,08 .8.14E-08 ____*ý2R-NB-95.

-19E08 1 1ý99E-08 _145 1CE-141 4.15E08- 4.15E.08 146L CE-i1__ _ _ __ _147 SB-124_____

-.3/4-148 WMN-54 ____1.01E-07

!5.75E- 08 2E-08 -1.E-7__' '- 8 -.18 E 0~149 -AG-1-IOM__

__ ---151. 'v13 _ ___ _ _ _ _ _152 "SB-125 -_ _ _1655 1_____._ ... {..2--1H .. -..0 8 -" 42E;...'..

.' I 4E4-00 4.+ -48E+00 ___

r 1 --.I'..i r i.X , :.y., Z I PA--- il. I -, YRC-.1178

REV. 0 VRC-Ij 7A'."REV.!,O (file 6861:9WK31 vU v.RADIONUCLIDE

.1 _ Total All "

up .I*FISSIONGASES 1 2 .23 4- Releases. "ci-KR 85 2.96E-02 3.74E-02 2.89E-02 4ý01E+0O 4.102+00 KRM.85M ..59E601 &6iIE-O1 6.12E&01 1.04E-01 1.94E20 '.KR487!, ...1AiSE2-01 5.58&-01 ý ý.9.34E&02 1.68E+600 KR-88: _1.2.022E+00 I:..09E+00 1 .83-O't 3.51E+00 _-XE-33.. ,147 Z0 2i27,i 2,61E01 .02E202 " StXE135. 1 .1,6E1 011 1'30E+011 1.17E+01 12`65E*,0', -3.89E+01r XE-135M '1.61,O110::68E01, 13.i15E*01 314E, 4.7 15E+-XE138 1.48E-01 335E 2 -65E01 1.095E-02 8.08: 1 j`XE&-133M ___.,. _ 4.89E-01 7.25E41V -86.12E-01

2.46E-01t 2.07E+00 AR-37 .4.92E-02 6:01E4021 9,16E-02 5.10E-01 7.11 E-01' _ " _ 7 .2.02E-01 268E.:01 Oi 5558E-02 8.59EE. -C. 14 ."..

7.71 -E03 '5&M05E 13 6.22E-4O 6.41,EV01

___ .-_XE-131WýM_

_ 3-91E-. ..5.80E-0.1 O6E55E-03 1:.19E01 1.10E+001

'_.__U N ID E N IF IE D t -_. .., :-__ _ _ _ _ _ _ :_ " -,. ._,.ý, I I .. I -I:.."2.05E202 II IODINES'11131] :::::: :::::::: :: : ::,,. : .S5.'04E-05 C616".06+.135]-a;:6165E.05

-4 .-_____ ___ _2'61 E-08 4.13E-07 3.1 140 -1 .09E-06 1.i:: -. :"- --:-= --.L ,'0 I 4.7:4 TE-07 1 `i~-352E4071

.';50 E5 6 ..

'9" 76E-07" 6.98E-: : ! !, ! .,,, ,!. ,:.- ..... .: : ,!,, .: 7 : : ....H73z

.4, A. _ D CT ADý ýAf AG A Al :AJý106 .YannkeeAtomicid.Electric Co. 111 ... " " ....._ YRC-11i8 REV 0 Y____B" ______ses es j 107 Total Continuous+.B atchRelea i(fie I-9O...Lk.. ., , _.., 109 ..... To.....110 jADIONUC'LIDEý

'd18 TtlAl ygoup ill L.FISSION GASES 1___~ 2' 3. :, Releases C 112, _ _ _ _1 'KR.5 _,., _ 4.22&-03 O 1.04E+06O'

'.,58E-o03 105E+OO _ -___14; .j KR 85M' ".02&012E-0.

4,98E-01 1.1.9E*00

______.-*15 KR-87

.250E-O

+ISE-Ol :31E400. "_.....116 XKR-88 -214E 1 4.24E-01 I 7.18E-01i 7.17E-i01 207E+00, 117 -XE-433 22EOOE00 I20 2.17E+01 1.54E+01' 4-E46E+-O1 118 :XE-135. 2:86E+00 1 5.20Et0O 7.54E+00 1i.09E+0i 2.65E+01 .....__:19: : XE135Mi 4.4E00 7.58E400, +1.00E+ý01 18E+O1 4'09E+61 120--': -,XE4138:

5AI2E02 1.:67E4O1 3.36E-01,,', 7.28E401 r :121 .: :XE-133M °.. i: V 4.47E-01 4 7E 08E-O1 122. A3J 1,8E.02 3.1 7E'02: 1.34E-01 :6.99E-03

-..8E-0i _T-__123 .AR41, 2409,E-01 3.24E;.O.

2.74E 01 l2.78E-01

.2E+00 124 BE E 1.52E-03 2.0EE-O1 126 XE-131M 3 o l.,24E1 A0.85E,021:97E-0.

126 UNIDENTIFIED, ~127 I; iE IL .... ... ___0E 3. 1___ 2___ ... ...E. ..128 '11. IODIN. ..... ..129 1-:131 -: .. 8.56E058 1.29E-06 1,73E-05 _130 1-133 _ =__=.. = _ .8.20E-06 , "820E-06 _ _ _131 .17135 ____ _ _ __ -6.30E-1071' 6.301E407

_ ___,..;133..

fil ..*.ARTICULATE_

13 ,:, ,, -8 77'.13 RR &0-89-5.6E,071

--' " .06E-07 ..135 lSR-90 ___.___ 7.86E-0: --I 00 7.86E.0g 136 t'CS-1l34.77

&.1:8607 -- -6.807___7-137--- CS-137,: 1'10E.06 6. 81 E-07 150EM06 [-286E-071

3.57E-06ý

-....138, -BA-LA-140

-9. 62E;61,-,,4

-._9,62B4,071 139 -6L751 ______ ______ ---'140 A Oý8 .7~06 1325E0 1:8O.06'-:2E0 141 14.20E.06.

6.94.E-06, 4, 66 142 l.'1E08- 'S15E,06 143 CR-S ____3AE06

-1 1.90E4,5 73201E-07i

.8.0 144 .ZR-NB-95 1 __ 38E0 ~2.22E-.06

.2:1E0ý~ 60E-1459 CE.I4 I" J_ " t821E-07 -398E-07, 4.93E-08 "127E06 , 146 CE-144. .1..40E--086- , .40E-06 147 B~12~ _____ ~ -6.70E-06 2.53E-07 ~6.GSEm06

____148 ,MN-54 .___ 3.38E-06 5.60E-08 ~4.26E-06 5.64E-07 8.26E-06 ____149 AG-110M~ 2;'51 E-07 ._ 2.51E-07 r____150 MO-99, " .--- .1161,: -`,RU-i 03 534-0 ~2.21 E-06 1.274ETý06 13 TE-.132 __ _ __ ___ ___ _ _ _ _ _154 UNIDENTIFIED-___

___ _______ ___166 ___ : 1 E 0 O 22E*M0 1.78Eý=06 1,.3E+001 6.648+001

.155 -.I3 ;

!i' ___-_____;','

________::::!:L:,:, 938E 05: .: ...:.:i:

lAtfýV r. C -AK, I AL I AM AWN AOQ AP 1, AQýAR I:: AS L-' ~- -~ --.. 4----4 4. --. 1-Yankee Atomic Electdc'ýC....

YRC- 17k'8 REV.-0.".,Total C*ontii-fi 1:" :!::i::!..,, : I __......_

'.4:P ie:;II7'.

iiii___________

fileG8&-90.K

_____ ___ __ _ ___ T.tal Act RA'DIONUCLIDE

.. .... .1990 Total All b'Y"'-groupj_'

I. FISSION GASES 2 4 Reass C' " :::KR-85 ::1,;26E-02 2:10E+O0 118E 00 5.12E+00 R,,5M , 4:02E-01 4.80E-Q1 ,.21E- ,.I0E+00 " , KR-87' _____ : _ _

I 1.65E;01,I 122E+0O KR-881.46&O

~.0E0 0.5-O12.12E+ý001 ,XE-133'" -.42EO1 2:07E+ 01 .2.25E.00 .i:48E+00

"ý3;86E*0i J ,. :."XE-i 35,, 75E+00 1..030 _ _ -" 3.26E4+06

,233E3'0+

.1 XE 135M .., ___. -1.70E+01.

-1.61E+01

-5.70E+60 &388E+01 XE-138 4,90E-0f 7-86E-01 -8.64E-03 1.28E+00 XE-l33M 1'.T4&E02 3.075E-01 3.637E-02 4.20E-01 AR-37 _____245E-02

-2~71E02J 9%90E 03 1.56E-021

-71E-02'ARA1 ___ 22E41' 2Z38E'0j____

.3-01 Of -WE01, C-14 2~~~52E-03:;'&59&~01i

-161E01<.5-I-.7E0

____ XE-1 31M 4.47E-02 213-1269E-02 4,.'E-'03T,2:89E-01 UNIETIFIED

___ ___I---_=!:: r'4.15E4+02 II. IODINES.31:I :I -1.10&-04!

7 I3E0 1-.1351

ii :g..,. ;:-779F-07--1.46E!04-E -: 9,63E-` 2.16E-07-4 4.1.75EIOT:.07~ 1.94E-066 1.06E-06 407 1 .34E-06:05 I :l.83E,05 ,3.05E

__4.83E-0T7

____-.07: 1 .90E-.07 ___-06 2:93E-06-zI~+/-zz 001 14Ya~n'ke" Atomý"lad L '- YR C ý178.,EY.

2E-_ lZ TO al Continuous+

atcn;Nel eases((,.;lnes Pge- 3.1773 ____ ________ flG1 :K3)~"174. " -1 " TotalAct 175 1 ___ --4991 {TotrAl'Ibygou.

-.:176 jI. FISSION.GASES V 2 3 4 Releases , Ci 17i KR85 ____ 9~5O:5'.16-l 1 .16E-62,69EO 7.48E+OO ____170- K M ---- '__ 4:602E40'f

.97E- 606 .1. E-O 4.8f8E-ý02W 1.;848E+ ,.,,,_, 1.80 KR.87 ._,,68 .I.T07E-Ol

,:50E-02 1.64E4O0 _I81 KR-6 88: .... ._ " :846EO1' IKj.'12E+0 .I31E+0O 9:36E602 lt3437E_00____

182. "XE-133 1-.42E4;01:

5'15E01 253E01 " 292.01 1.20E+02'1:83 XE-1359,.752+00 6201 1.12+01 1.117E I +GO. 3..37E+01

_184 XE-135M 1.702+01!

1.0i0E41 ,1'27E+0 9 173E-O1 4.08E-01 185 XE-1:38. ... _ _ " ..90E-O1 2.80E

.'67E.-.1' 31.7.95,02 v

XE-i33M"" 1.i148-02 4-696E-01 4.07E`01; 2.142E00 _187 AR-37 .'1:i185E-021.22E-01 Z.12-02 1.;78E-01 3.140E-01i S188 : AR-4i ..., .2.21E-01.

.23E-01 I.85E-01" .123E-2 .5.41-01":189:1 .J "j" ,., " .87Z,031 3.85Eý0l _232E403 '1.'35E*00 1:.742E+00, ".190 ,XE.131M __...__ 4E-4027 4.07E-01 4'750E0Qi 980-01.193 UNIDENTIFIED

-_- " --1...4 2.15E+021 195ý'ýý Al. IODINESi_____

_ _ _196 3-131` 3484E068 _ý'38E-05 2.67E-06 2.036-05'19SIT7 -1433 --" 4.2. -7 1 ..... ' 2.4':198 1-35 1 __.... " .597E-08' 1.43E-06.

-.49E-06,!::19 _____,___

.. __ __ _ .... ..._ 1i 200".: IIl.

___" ' _ , * ._..201 _ _ _ _ ____ ____202 .SR 0- .-._._" 2031 R9 -I~ ___204 j C-1r3,4---

_ __205 CSi 37 702E-08 .9-07 1 ..... 54E-08 2.49E607 S5.32Ez07 20'6 BA-LA-140

__-207 -ZN-6w -. -'2089 C600-5 .: :8.1&0 i.i209:. c..~0' 00E.006 ,,2. 39E406 2.'355-06, 8 ........210~' FE-59j7____

___ -_ _ _ _ ____ _ _ _ _ _J:211 ,CR-S_ _E,-7 212a RN 9 .-________ __,2132 C-4 ___214 '0-1 44 -....~215 SB-124. ___21 ..MN-54 2.09E-08 .....09-08.;~27I~. AG IIOM ___________

....2 -18(: .

_ -. :: _ _ "__"....._...

219" MO-99 '___ -____7220 RU-1 03" ________.. .....>SB -125 --

.. ; " ....::- :: : " ..': " ,, 2 T E 13 .. .'., ,_ _ _ ,,,,, , _ __, .._ _ __. ......*_._.7'223 F6___ ____-_ _ _ _'224,_ _ _ _ _ _ __ _ _ _2265 UIDENTIFIED

___ -0__ __225_0 :6,2E_0 226 ' _ _ __ _ _ _ _ _ _ __ _ _ _ 93206:~22V A- 1 __ ___ .8E+00.1 4ll9E+060 1"3-3E+00 2, 2500. 6-25+006.____

A J K L M.171 Yankee Atomic-Electic

..172 Total Continuous

+ Batch Releases-173 1 -I N 0 ! P-- R._ __YRC-1 178, REV. 0_____ ____ '(nI G91 -92 wK3)174, ITotal Act+ I --4 175 , ,I I 176 ,t. IFISSION:

GASES , 177 1*1992 3 4 Total All lby group AReleases Ci 4 -,:4 1178 KR;85'18 118 9 KR-85M II 0 KR-87 " " ---:I KR488 ---2 XE-133 3 XE-135 ......_ _4 XE.135M .i.s.-m -.--S XE-133M ___ __-_...._

_....17 " :AR'-37 A9 ----C44'0 ": XE-131.M, ______"______

13. UNIDENTIFIED"'.

... ... "_ _ " 11 .IDINES -.._9 _._ _,. * ..""0:OOE+00 10 ,IlI. PARTICULATES

______ _ __ _____. -I17 .... _1_3 ._ -.-.-ASR,89_13. SR-90 ----)4' -CS-134: ____ ---":-. -,-÷ ..__-15; CS6-37

• _- __ 3,18E-08 '.04E-07 223E-08':

3.67E;08 1 95E-07_Il :BA-LAAI 40: .-..-._ " 17 ZN 6,_ _ ,-_:"____

-- _.19. CO. 0 -.._ -4.26E'06 1 .76E-0B 1 3E-06 .-3A63E-07 ,75 IE-06_12 N;R-B-95r_

_ __ _ __ _ __ _ __ _ _[3 -'C&141 _ _ _ _ _ _ _ _ _ _ _ _14"." :: C .. ",I ..."".. .i7 : .,-132 -: -!3 T -55 ________, ..UNIDENTIFIED

.., W'3 ____1.16E+00 8S5EO&O5 91E-132EO

.3+O___