ML17265A273
ML17265A273 | |
Person / Time | |
---|---|
Site: | Ginna |
Issue date: | 12/31/1997 |
From: | ROCHESTER GAS & ELECTRIC CORP. |
To: | |
Shared Package | |
ML17265A272 | List: |
References | |
NUDOCS 9805180074 | |
Download: ML17265A273 (66) | |
Text
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1997 XWXUWr, m,mor,oaICAI, KXVra.OremXT<r, OPERATING REPORT R.E.Ginna Nuclear Station Rochester Gas dk Electric Corporation Docket No.50-244 TABLE OF CONTENTS 1.0
SUMMARY
2.0 PROGRAM DESCRIPTION Page 2.1 Program Objectives 2.2 Program Requirements 3.0 DATA
SUMMARY
3.1 Analytical Results 3.2 Air Samples 3.3 Water Samples 3.4 Milk Samples 3.5 Fish Samples 3.6 Vegetation Samples 3.7 External Penetrating Radiation 4.0 LAND USE CENSUS 5.0 EXTERNAL INFLUENCES 6.0 INTERLABORATORY COMPARISON STUDY 13 13 14 26 39 41 45 47 50 50 53 7.0 ERRATA 56 Table/Figure LIST OF TABLES/FIGURES Page 2-1 2-2 2-3 3-1 A 3-1 B 3-2 A 3-2 B 3-3 3-4 A 3-4 B 3-4 C 3-4 D 3-5 3-6 3-7 A 3-7 B 3-8 3-9 3-10 3-11 3-12 3-13 3-14 3-15 3;16 3-17 3-18 A 3-18 B 3-19 3-20 3-21 3-22.4-1 6-2 7-1 A 7-2 B Environmental Radiological Monitoring Program Summary Radiological Environmental Monitoring Program Maximum Values of LLD Direction and Distance to Sample Points Onsite Samplers, January-June Onsite Samplers, July-December Offsite Samplers, January-June Offsite Samplers, July-December Onsite vs Offsite Air Monitors 13 Week Composite Gamma Isotopic Analyses First Quarter 13 Week Composite Gamma Isotopic Analyses Second Quarter 13 Week Composite Gamma Isotopic Analyses Third Quarter 13 Week Composite Gamma Isotopic Analyses Fourth Quarter Charcoal Cartridges for iodine Annual Trending of Air Activity 1997 Trending of Environmental Water Samples Annual Trending of Environmental Water Samples Environmental Water Samples Gross Beta Analysis Russell Station Water Gamma Isotopic Analysis Ontario Water District Water Gamma Isotopic Analysis Circ-In Water Gamma Isotopic Analysis Circ-Out Water Gamma Isotopic Analysis Deer Creek Water Gamma Isotopic Analysis Tap Water Gamma isotopic Analysis Environmental Water Samples Tritium Analysis Radioiodine in Water Milk Samples Gamma Isotopic Analysis Fish Samples Gamma Isotopic Analysis Fish Samples Gamma Isotopic Analysis Lake Samples Gamma Isotopic Analysis Vegetation Samples Gamma Isotopic Analysis External Penetrating Radiation Two Year Trend of External Penetrating Radiation Land Use Census Interlaboratory Comparison Study Erroneous 1996 External Penetrating Radiation Corrected 1996 External Penetrating Radiation 2 5 7 9 15 16 17 18 19 20 22 23 24 25 28 29 30 31 32 33 34 35 36.37 38 40 42 43 44 46 48 49 51 55 57 58 LIST OF NIAPS Onsite Sample Locations Offsite Sample Locations Water Sample and Milk Farm Locations Land Use Census Page 10 11 12 52 1.0
SUMMARY
RADIOLOGICAL ENVIRONMENTAL SURVEY January 1-December 31, 1997 The Annual Radiological Environmental Operating Report is published in accordance with Section Vl of the Offsite Dose Calculation Manual, (ODCM).This report describes the Radiological Environmental Monitoring Program, (REMP), and its implementation as required by the ODCM.The REMP is implemented to measure radioactivity in the aquatic and terrestrial pathways.The aquatic pathways include Lake Ontario fish, Lake Ontario water, and Deer Creek water.Measurement results of the samples representing these pathways contained only natural background radionuclides or low concentrations of Cs-137 resulting from past atmospheric nuclear weapons testing.The 1997 results were consistent with data for the past five years and exhibited no adverse trends.Terrestrial pathways were also monitored.
These included airborne particulate and radioiodine, milk, food products, and direct radiation.
Analysis of terrestrial pathways demonstrated no detectable increase in radiation levels as a result of plant operation.
The 1997 results were consistent with data for the past five years and exhibited no adverse trends.The analytical results from the 1997 Radiological Environmental Monitoring Program demonstrate that the operation of the Robert E.Ginna Nuclear Power Station had no measurable radiological impact on the environment.
The results also demonstrate that operation of the plant did not result in a dose to the general population above natural background levels.During 1997, 1454 samples were collected for analysis by gross beta counting and gamma spectroscopy.
These included 928 air samples, 292 water samples, 16 fish samples, 7 vegetation samples, 58 milk samples, and 153 thermoluminescent dosimeter measurements.
During 1997 there were 3 deviations from the sampling schedule for TLD's and 9 for tritium analysis.The minimum number of samples required in ODCM Table V-1 were collected for all pathways.Samples were collected by Ginna Station chemistry personnel and analyzed by the J.A.Fitzpatrick Nuclear Power Plant Environmental Laboratory.
A summary of the data collected indicating the results of all data for indicator and control locations is given in Table 1-1.
Table 1-1 ENVIRONMENTAL RADIOLOGICAL MONITORING PROGRAM
SUMMARY
i:.,UNITjOF'MEASUREMENT=..
=-,=p ,-,~~TYPE'.AND)TOTAL-NUMER'OFrANALYSESsr
""INDIC'ATOR;LOCATION S8 e~.=MEAN'(1J'RANGE
- ."i~'
- NAME>,DISTANCE~~;
AND DIRECTION (~p, MEAN.(1)RANGE~j[~";,,':,-<<L'OCATIONiWITH',HlGHEST,'ANNUAL'-
MEAN+';-,'LOCATIONS'.MEANP~
-;(1)~iRANGE~~
AIR: Particulate(pCi/M')
Iodine(pCi/M')
DIRECT RADIATION:
TLD mrem/uarter WATER: Drinking (pCi/Liter)
Surface (pCi/Liter)
MILK: (pCi/Liter)
FISH: Ci/K VEGETATION:
Ci/K Gross Beta 606 Gamma Scan 48 Gamma Scan 304 Gamma 153 Gross Beta 12 Gamma Scan 12 Iodine 29 Gross Beta 48 Gamma Scan 48 iodine 48 Iodine 58 Gamma Scan 58 Gamma Scan 16 Gamma Scan 7 0.003 0.02-0.06 5.0 1.2 (2)0.45 1.2 (2)0.45 0.45 (2)(2)0.017 (456/456)0.0064.062
<LLD 12.8 (117/1 17)10.1-16.2 2.69 (12/12)1.64-4.69 Ra-226 94(10/12)44-179<LLD 2.44 (12/12)1.55-3.72 Ra-226 78 (11/12)44-152<<LLD<LLD<<LLD Cs-137 11'1/8)Ra-226 680 (4/4)67-2730 Onsite Location¹13 292 230M Onsite Location¹7 257 220M OWD 70 1200M OWD 70 1200M Deer Creek 105 260M Clout 15 130M Control Fish 270 25600M Site Garden 0.019 (52/52)0.007-0.062 15.4 (4/4)14.5-16.2 2.69 1.64-4.69 Ra-226 94 (10/12)44-179 4.35 (12/12)2.78-7.51 Ra-226 78 (11/12)44-152 Cs-137 20 (1/8)70 2200 Ra-226 680 (4/4)67-2730 0.016 (150/150)0.005-0.037<LLD<LLD 11.6 (36/36)10.1-13.7 2.45 (12/12)1.78-3.52 Ra-226 (9/12)44-119<LLD<LLD<LLD Cs-137 20 (1/8)20'a-226 258 (2/2)131-385 (1)Mean and range based on detectable measurements only.Fraction of detectable measurements at specified locations in parentheses.
(2)Table of LLD values attached for gamma scan measurements.
(3)Single sample No mean or range, single sample 2.9 PROGRAM DESCRIPTION 2.1 Program Objectives The objectives of the Radiological Environmental Monitoring Program are:~Measure and evaluate the effects of plant operation on the environment.
~Monitor background radiation levels in the environs of the Ginna site.~Demonstrate compliance with the environmental conditions and requirements of applicable state and federal regulatory agencies, including the ODCM and 40 CFR 190.~Provide information by which the general public can evaluate environmental aspects of the operation of Ginna Nuclear Power Station.2.2 Program Requirements In order to achieve the objectives listed in section 2.1, a sampling and analysis program is implemented each year according to table V-1 of the ODCM.Following are the requirements from the ODCM: Mon'r'o ram The radiological environmental monitoring program shall be conducted as specified in Table V-1 at the locations given in the ODCM.If the radiological environmental monitoring program is not conducted as specified in Table V-1, prepare and submit to the Commission, in the Annual Radiological Environmental Operating Report, a description of the reasons for these deviations and the plans for preventing a recurrence.
Deviations are permitted from the required sampling schedule if specimens are unobtainable due to hazardous conditions, seasonal availability, or to malfunction of automatic sampling equipment.
If the latter, efforts shall be made to complete corrective action prior to the end of the next sampling period.If milk or fresh leafy vegetable samples are unavailable for more than one sample period from one or more of the sampling locations indicated by the ODCM, a discussion shall be included in the Annual Radioactive Effluent Report which identifies the cause of the unavailability of samples and identifies locations for obtaining replacement samples.If a milk or leafy vegetable sample location becomes unavailable, the locations from which samples were unavailable may then be deleted from the ODCM, provided that comparable locations are added to the environmental monitoring program.
La Us C su A land use census shall be conducted and shall identify the location of the nearest milk producing animal and the nearest residence in each of the 16 meteorological sectors within a distance of five miles.An onsite garden located in the meteorological sector having the highest historical D/Q may be used for broad leaf vegetation sampling in lieu of a garden census;otherwise the land use census shall also identify the location of the nearest garden of greater than 500 square feet in each of the 16 meteorological sectors within a distance of five miles.D/Q shall be determined in accordance with methods described in the ODCM.labo on ro a Analyses shall be performed on applicable radioactive environmental samples supplied as part of an interlaboratory comparison program which has been approved by NRC, if such a program exists.c c I The radiological environmental monitoring samples shall be collected pursuant to, Table V-1.Acceptable locations are shown in the ODCM.Samples shall be analyzed pursuant to the requirements of Tables V-1 and V-3.A land use census shall be conducted annually (between June 1 and October 1).A summary of the results obtained as part of the required Interlaboratory Comparison Program shall be included in the Annual Radiological Environmental Operating Report.Devi'Deviations from the sampling schedule are allowed when samples are unavailable due to hazardous conditions, seasonal variations or malfunction of automatic sampling equipment.
During the last quarter of 1996, the analysis of environmental samples was transferred to the James A.FitzPatrick Environmental Laboratory.
The ability to do analyses still exists, but the Ginna lab is not currently used for routine environmental sample analyses.
Table 2-1 Offsite Dose Calculation Manual Table V-1 RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM Page 2 of 2':.;,EXPOSURE'PATHWAY,:::';,'",'.':
NUWIBER:::OF::;:,'SAMPLES
':.';i"i!i'i'IDIO R: SAII PLEij"ilia;i: ":": 5'iSAMPL'Ei LrO CANONS':::.SAMPLINS'AND COLLECTlON
- ,;
- .-'"-
- ;'>>",,-'k:;":,;::,;;:" FREQUENGY;-:;;:,'::",":::;-'-,'";,,':..':-'.'.;:
'",,-'.,":;.,'j7YP E'AND,::;FREQUENCY!OF:;:'ANAt"'YSIS,"",i;.'.
INGESTION a.Milk 1 control 3 indicator June thru October each of 3 farms At least once per 15 days Gamma isotopic and I-131 analysis of each sample.1 control 1 indicator November thru May one of the farms At least once per 31 days Gamma isotopic and 1-131 analysis of each sample.b.Fish c.Food Products 4 control 4 indicator (Off shore at Ginna)1 control 2 indicator (On site)1 control 1 indicator~(On site garden or nearest offsite garden within 5 miles in the highest D/Q meterological sector)Twice during fishing season including at least four species.Annual at time of harvest.Sample from two of the following:
1.apples 2.cherries 3.grapes At time of harvest.One sample of: 1.broad leaf vegetation 2.other vegetable Gamma isotopic analysis on edible portions of each sample.Gamma isotopic analysis on edible portion of sample.Gamma isotopic analysis on edible portion of sample.
Table 2-2 Page 1 of 2 The maximum LLD values as defined by ODCM Table V-3:".:..;-A'n"al j".sis".,'.;I'.,:i
,;:;:.(pCi/Lite'r);;,;::, gross beta H-3 MN-54 Fe-59 Co-58 Co-60 Zn-65 Zr-Nb-95 I-131 Cs-134 Cs-137 Ba-La-140 4a 2000 (1000')15 30 15 30 15(10'), 18 1 x102 7 x10'x10'30 260 130 260 130 15 60 60 a.LLD for drinking water b.Total for parent and daughter Table 2-2 Page 2 LLD TABLE NOTATlON The LLD is the smallest concentration of radioactive material in a sample that will yield a net count (above system background) that will be detected with 95%probability with only 5%probability of falsely concluding that a blank observation represents a"real" signal.The LLD is defined as an apriori (before the fact)limit representing the capability of a measurement system and not as an aposteriori (after the fact)limit for a particular measurement, the minimum detectable activity (MDA).For a particular measurement system (which may include radiochemical separation):
LLD=4 6 b E V 2.22 Y exp(-&t)where: LLD is the lower limit of detection as defined above (as pCi per unit mass or volume)4.66 establishes 95%confidence interval about LLD Sb is the standard deviation of the background counting rate or of the counting rate of a blank sample as appropriate (in counts per minute)E is the counting efficiency (as counts per disintegration)
V is the sample size (in units of mass or volume)2.22 is the number of disintegrations per minute per picocurie Y is the fractional radiochemical yield (when applicable)
A is the decay constant for the particular radionuclide; ht is the elapsed time between sample collection, (or end of sample collection period), and time of counting.
ROCHESTf R GAS AND ELECTRIC Table 2-3 DIRECTION AND DISTANCE TO SAMPLE POINTS All directions given in degrees and all distances given in meters~i""4%~.LDPR'Ax>Direction i">>~';;.'istance"'<<'2 I¹3 I¹4 I 87 320 110 420 140 250¹2¹3¹4 87 110 140 320 420 250¹5 I¹6 I¹7 I¹8 C 185 232 257 258 160 225 220 19200¹5¹7 185 232 257 258 160 225 220 19200¹9 I 235 11400¹9 235 11400¹10 C 185 13100¹10 185 13100¹11 I 123 11500¹11 123'1500¹12 C¹13 I 93 194 25100 690¹12¹13 93 292 25100 230ÃiWaterrSam" le',Locations%,L',:
~>>DlrectlonF~~~3
~:.(Y4."Dlstance3
'-'14 292 770 Russell Station C 270 25600¹15 272 850 Ontario Water District I 70 2200 Circ Water Intake S 0 420 CircWaterDischar e I 15 130 Deer Creek S 105 260¹16¹17¹18¹19 242 208 193 177 900 500 650 400 Ta S Onsite Sink¹20¹21¹22¹23¹24¹25¹26 165 145 128 107 90 247 223 680 600 810 680 630 14350 14800>(,'"~'~":<w'>>w,'>~pi&B'~cQ r'i";41 qr iM<'-'-"c"~.;g<;~
p"~t qq'i<,",:~a>w em">,';)1'i',Milk:Sam le'.Locations
';".I:r.S~,.'<Ofrectton':d5>>,.-'l>~~Dlstan'ce 5~34'.~¹27 202 14700 FarmA I FarmB I Farmc I FarmD C 113 242 156 132 9500 5450 4950 21000¹28¹29¹30¹31 145 104 103 263 17700 13800 20500 7280".-<<-"":Z I:."2:<~>M,~'.>JFishlSam'es~-!.:,>>;:.~-.;+<..'I j;,"='~i:.>~~~2)."-'-'-.
Indicator Sam les Lake Ontario Dischar e Plume¹32¹33 246 220 6850 7950 Back round Sam les Russell Station¹34 205 6850 VP~l.ft%"~=-P~f~~
f'--~VX ft-:"~-T-'~g~
--~~-IJ'ndicator Sam les Grown on ro e surroundin Plant¹35¹36 193 174 7600 5650 Back round Sam les I=Indicator Samples C=Control Samples S"-Supplemental Samples Purchased from farms>10 mites¹37¹38¹39¹40 158 137 115 87 6000 7070 6630 6630 (9)
Onsite e Locations L'ake OntaI"io\:,, h-N.=.s ,0 I-1J-0.-'tL!~Ke Ginna Station Structures TLDs Q Air samplers i~"-=-'='=-:--'=.-'---';."';;=--=: '.'-',:Scale'Meters
',,"'-'-'10)
OA'site Sa cations Location of TLDs and milk farms within 5 mile radius of Ginna Station*.~yi44S@i," rrADI q~Yigi"ttti"r'yogi b~y Sr A y l A 0 tt<.-grwat 44'4'P~wggs"i~Q.-"r Qg~tlO r r PUTrrli4 Dmin.r$;tpH Qr+rPyl'+"<<Py(/WE~<'1.~y"'."~%~Dgg@~+g r 9ISEELkYRD 4fjo ,$0 R.hs yP r SREITIERD~&4 cr p.'~<g~r-0'C r V C A N 0 E R OO Ro.S A L T R 0 A D egg'~Sy'i P,+r+~+~rr~~t",R'ji'r'iiy IDDGKRGAD~
STATE ROAD L I N E ROAD Ging..Station 5 Mile Perimeter Al'eR ezmtmm 0<<+~fjg>gt~<~)~~A4g) ti.I 1st y X~~3 r~" A L 8 R I 0 II r R rENNESSEY RO.Stirk~;
!gj~P.r tg,gp@g~ky r y IV~~yl'Ay 8 0 R 0 A D TRUMMONDS ROAD.ik.P E A S E R-0 A D C H A P E L R 0 A ENCE 0 SON RO'*rP~Pfg+~
A M 0 M R I 0 0 E Milk Farms TLDs Q S ill Tlr NII L ITOAD R 0 A 0 RICE RD.*Onsite samples detailed on map 2-1.
Water Sample k I'arm Locations Location of water samples, milk farms and TLDs*.Lake OntariO--.,:PSIt cyvJIle..Sodus..'Point'"-;.'Rochestei'-
h".'toatirlo.
=';--lgebstcr.
':;,ceater,:
re.-.+So/us Ceriter~.-..
'B frcarietti 15 h,%a--",=epenfi r ah h',4'aiba~i
~>,Marion'.'
r,....n,,.
Pittsfortl Fttlrport Lyo'ns;.;--.:-'Farmtagton
.'-Victhoi'-,:-,:;:...
Pttltayra 4M Nitvttrk.=-,.~-'10 KM-r-K Water Sample est I ,.'"-:=-'.-
';'..;,:-:-'.,'
'-'-."',CIIfton'.Spitnge
--:.-:.', h.Milk Sample Air Sampler*Onsite samples and samples in close proximity to Ginna Station are detailed on nraps 2-1 and 2-2.(i2)
3.0 DATA
SUMMARY
3 1 Ana'ca Is The values listed on the following tables include the uncertainties stated as a 1 standard deviation.
e Defiio s Curie (Ci): The quantity of any radionuclide in which the number of disintegrations per second is 37 billion.Picocurie (pCi): One millionth of a millionth of a curie or 0.037 disintegrations persecond.
Cubic Meter (M'): Approximately 35.3 cubic feet.Liter (L): Kilogram (Kg): Lo D Approximately 1.06 quarts.Approximately 2.205 pounds.The Nuclear Regulatory Commission has requested that reported values be compared to the Lower Limit of Detection (LLD)for each piece of equipment.
The LLD for the equipment is established by the measurement of a blank sample.These values are before the correction for decay.Decay correction is applied from the end of the sampling period to the counting time, not from the midpoint of the sampling period.An explanation of the calculation of the LLD is included with Table 2-2, (page 8).
3.2~S Radioactive particles in air are collected by drawing approximately one scfm through a two inch diameter particulate filter.The volume of air sampled is measured by a dry gas meter and corrected for the pressure drop across the filter.The filters are changed weekly and allowed to decay for three days prior to counting to eliminate most of the natural radioactivity such as the short half-life progeny products of radon and thoron.The decay period is used to give a more sensitive measurement of long-lived man-made radioactivity.
A ring of 6 sampling stations is located on the plant site from 150 to 300 meters from the reactor near the point of the maximum annual average ground level concentration and 1 additional at 690 meters.In addition, there is a ring of 5 sampling stations located approximately 7 to 17 miles from the site that serve as control stations.Based on weekly comparisons, there was no statistical difference between the on-site and the off-site radioactive particulate concentrations.
The average concentrations for the on-site and off-site samples were 0.017 and 0.016 pCi/m'espectively for the period of January to December, 1997.Maximum weekly concentrations for each station were less than 0.037 pCi/m', with the exception that Station 13 on the week of June 16, 1997 measured at 0.062 pCi/m'.The composite gamma spectrum for Station 13 during this period showed no elevated level of radioactivity.
The major airborne activities released from the plant are noble gases, tritium and radioiodines.
Most of this activity is released in a gaseous form, however, some radioiodine is released as airborne particulate.
Tables 3-1A, 3-1 B are a list of gross beta analyses values for the on-site samplers.Tables 3-2A, 3-2B are a list of gross beta analyses values for the off-site samplers.The particulate filters from each sampling location were saved and a 13 week composite was made.A gamma isotopic analysis was done for each sampling location and corrected for decay.The results of these analyses are listed in Tables 3-4A to D.Iodine cartridges are placed at six locations.
These cartridges are changed and counted each week.No positive analysis was found on any sample.A list of values for these cartridges is given in Table 3-5.A trend plot of the 1997 Onsite vs.Offsite air filter data is included, Table 3-3.Additionally, a trend plot of the annual averages measured since 1968, Table 3-6, is included to show the variation of data during the years that the R.E.Ginna Nuclear Power Plant has been operational.
The peak activities measured correspond to the years when atmospheric tests of nuclear weapons were being conducted.
(14)
Roch est d Electric Table 3-1 A On<ite Air Particulate Samplers'ross Beta Results in pCI/m3 Collection Date SJan 13@an 2Man 274an 3-Feb 10-Feb 17-Feb 24Feb 3-Mar 10-Mar 17-Mar 24Mar 31-Mar 7-Apr 14Apr 21-Apr 28-Apr 5-May 12-May 19-May 26-May 24un&Jun 16@un ZWun Shlun Sta 0.018 0.016 0.016 0.016 0.020 0.018 0.017 0.013 0.011 0.014 0.016 0.014 (a)0.016 0.011 0.014 0.011 0.012 0.013 0.007 0.006 0.011 0.013 0.013 0.012 0.017 g 0.003+0.003 g 0.003 g 0.003 g 0.002 g 0.003 2 0.002 2 0.002 g 0.003 g 0.003+0.003 2 0.003 g 0.003.¹2 (I)2 0~003 g 0.003 2 0.003 g 0.003 g 0.003 g 0.003 g 0.003+0.003+0.002 g 0.003 g 0.003 g 0.003 Sta.¹3 (I)0.019~0.003 0.022 g 0.003 0.023 g 0.003 0.027+0.004 0'24+0.003 0.024+0.003 0.023+0.003 0.016+0.003 0.012+0.003 0.022+0.003 0.023+0.003 0.022 A 0.003 (a)0.020 g 0.003 0.022 g 0.003 0.015+0.003 0.022+0.004 0.017+0.003 0.016+0.003 0.010 g 0.003 0.009 g 0.002 0.014 g 0.003 0.018 g 0.003 0.023+0.003 0.018+0.003 0.024 g 0.004 Sta.¹4 (I)0.021 g 0.004 0.019 g 0.004 0.022 g 0.004 0.030+0.006 0.024 g 0.004 0.020 g 0.004 0.017 g 0.003 0.016 g 0.004 0.009~0.003 0.013+0.004 0.019+0.004 0.018+0.004 (a)0.016 g 0.004 0.017 g 0.004 0.016 g 0.004 0.017+0.004 0.015+0.003 0.013 g 0.003 0.008 g 0.003 0.008 g 0.003 0.011 g 0.003 0.015 R 0.003 0.020 g 0.003 0.017+0.003 0.017 g 0.003 Sta.¹5 (I)0.021 g 0.003 0.019 g 0.003 0.022 g 0.003 0.022 g 0.003 0.024+0.003 0.022 i 0.003 0.021 g 0.003 0.013 g 0.003 0.012~0.003 0.019 2 0.003 0.021 g 0.003 0.017 g 0.003 (a)0.016 g 0.003 0.019 g 0.003 0.016 g 0.003 0.020 g 0.003 0.017 g 0.003 0.016 g 0.003 0.011 g 0.003 0.010 g 0.002 0.012 g 0.003 0.018 g 0.003 0.017 I 0.003 0.019 g 0.003 0.022 g 0.003 Sta 0.019 0.020 0.019 0.018 0.026 0.020 0.019 0.015 0.013 0.019 0.020 0.019 (a)0.017 0.015 0.016 0.016 0.014 0.016 0.009 0.007 0.011 0.012 0.016 0.015 0.019¹6 (I)g 0.003 g 0.003 g 0.003 g 0.003 g 0.003 g 0.003 g 0.003+0.003+0.003 g 0.003+0.003+0.003+0.003+0.003 g 0.003 g 0.003 g 0;003 g 0.003 g 0.002 g 0.002+0.003+0.002 g 0.003+0.003 g 0.003 Sta 0.020 0.023 0.020 0.022 0.023 0.019 0.019 0.016 0.012 0.019 0.023 0.017 (a)0.016 0.019 0.015 0.019 0.016 0.016 0.011 0.008 0.011 0.016 0.0'l7 0.017 0.023 g 0.003 g 0.003+0.003 g 0.003 g 0.003 g 0.003 g 0.003 g 0.002 g 0.003 g 0.003+0.003 g 0.003 g 0.003.¹7 (I)g 0.003 2 0.003+0.003 g 0.003 g 0.003 g 0.003 g 0.003 g 0.004 g 0.003 g 0.003 g 0.004+0.003 Sta¹0.022 0.0'17 0.019 0.022 0.024 0.019 0.021 0.017 0.015 0.017 0.020 0.017 (a)0.017 0.019 0.0'l5 0.019 0.016 0.013 0.009 0.007 0.011 0.016 0.062 0.016 0.017 13A (I)g 0.003 g 0.003 g 0.003 g 0.003 g 0.003 g 0.003 g 0.003 g 0.003 g 0.003 g 0.003+0.003+0.003 g 0.003 g 0.003 g 0.003 g 0.003+0.003+0.003 g 0.002~0.002 g 0.003 g 0.003 g 0.010+0.003 g 0.003 Average 0.020 0.019 0.020 0.023 0.024 0.020 0.020 0.015 0.012 0.018 0.020 0.018 0.017 0.017 0.015 0.018 0.015 0.014 0.009 0.008 0.012 0.0'l5 0.024 0.016 0.020 Maximum Average Minimum 0.020 g 0.003 0.014 0.006+0.002 0.027~0.004 0.030+0.006 0.019 0.017 0.009+0.002 0.008 g 0.003 0.024 g 0.003 0.018 0.010 t 0.002 0.026 g 0.003 0.023 g 0.003 0.062 g 0.010 0.016 0.017 0.0'19 0.007 g 0.002 0.008 g 0.002 0.007 g 0.002 (a)Samples lost during shipment to analysis laboratory.
I=Indicator C=Control (15)
Rochester Gas and Electric Table 3-1 B On<ite Air Particulate Samplers'ross Beta Results in pCi/m3 Collection Date jul 1Mul 214ul jul 4-Aug 11-Aug 18-Aug 25-Aug 1-Sep 8-Sep 15-Sep 22-Sep 29-Sep&Oct 13-Oct 20-Oct 27-Oct 3-Nov 10-Nov 17-Nov 24-Nov 1-Dec 8-Dec 15-Dec 22-Dec 29-Dec Sta.¹2 (I)0.011 j 0.002 0.012 j 0.003 0.018+0.003 0.010 j 0.003 0.014 j 0.003 0.018+0.004 0.015 j 0.003 0.008 j 0.003 0.022 j 0.004 0.013+0.004 0.018+0.004 0.015 j 0.004 0.010 j 0.003 0.020 j 0.001 0.017 j 0.004 0.021 j 0.004 0.009 j 0.003 0.019+0.004 0.014+0.004 0.010+0.004 0.030+0.005 0.020 j 0.004 0.009 j 0.004 0.009 j 0.004 0.021+0.004 0.014 j 0.004 Sta.¹3 (I)0.016 j 0.003 0.018 j 0.003 0.024+0.003 0.017 j 0.003 0.020+0.004 0.023 j 0.004 0.012 j 0.003 0.010 j 0.003 0.028 j 0.003 0.0'19 j 0.004 0.02'l j 0.004 0.022+0.004 0.017 j 0.003 0.025 j 0.001 0.029 j 0.004 0.025 j 0.004 0.013 j 0.003 0.027 j 0.004 0.018 j 0.003 0.012 j 0.003 0.030 j 0.004 0.022 j 0.003 0.007 j'.002 0.015 j 0.005 0.021 j 0.003 0.010 j 0.003 Sta.¹4 (i)0.011 j 0.002 0.014 j 0.003 0.019 j 0.003 0.015+0.003 0.018 j 0.003 0.020 j 0.003 0.011+0'02 0.008+0.002 0.025 j 0.003 0.016 j 0.003 0.017 j 0.003 0.019+0.003 0.014+0.003 0.020+0.001 0.024 j 0.003 0.021 j 0.003 0.013 j 0.003 0.018 j 0.003 0.016 j 0.003 0.010 j 0.002 0.030 j 0.004 0'26+0.003 0.010+0.003 0.010+0.002 0.022 j 0.003 0.014 j 0.003 0.014 0.023 0.016 0.018 0.019 0.013 0.010 0.025 0.016 0.015 0.024 0.014 0.022 0.028 0.026 0.012 0.021 0.015 0.012 0.029 0.023 0.012 0.011 0.023 0.0'l5+0.003+0.003+0.003 j 0.003+0.003+0.003 j 0.002+0.003+0.003+0.003 j 0.003 j 0.003 j 0.001 j 0.004 j 0'03 j 0.003 j 0.003+0.003+0.003 j 0.004 j 0.003 j 0.003 j 0.003 j 0.003+0.003 Sta.¹5 (I)0.013 j 0.003 Sta.¹5 (i)0.013 j 0.003 0.014 j 0.003 0.020 j 0.003 0.013+0.003 0.020 j 0.003 0.020 j 0.003 0.012+0.002 0.007 j 0.002 0.020 j 0.003 0.017 j 0.003 0.016 j 0.003 0.018 j 0'03 0.015+0.003 (a)0.011+0.005 0.020+0.003 0.010 j 0.002 0.020 j 0.003 0.013 j 0.003 0.008 j 0.002 0.029 j 0.003 0.024 j 0.003 0.009+0.002 0.009+0.002 0.021 j 0.003 0.011 j 0.002 Sta 0.015 0.016 0.020 0.016 0.018 0.022 0.013 0.010 0.022 0.015 0.018 0.026 (a)(a)0.014 0.019 0.012 0.018 0.013 0.007 0.027 0.020 0.008 0.008 0.021 0.011¹7 (I)j 0.003 j 0.003+0.003 j 0.003 j 0.003 j 0.003 j 0.003 j 0.003 j 0.003 j 0.003+0.003 j 0.005 j 0.005 j 0.003 j 0.002 j 0.003 j 0.003 j 0.002 j 0.003 j 0.003 j 0.002 j 0.002+0.003 j 0.002 St@.¹13A (I)0.013+0.003 0.015 j 0.003 0.020 j 0.003 0.014 j 0.003 0.018 j 0.003 0.017 j 0.003 0.013 j 0.002 0.008 j 0.002 0.021 j 0.003 0.016 j 0.003 0.016 j 0.003 0.020 j 0.003 0.012 j 0.002 0.020+0.001 0.027 j 0.004 0.018 j 0.003 0.011 j 0.002 0.022 j 0.003 0.013 j 0.003 0.008 j 0.002 0.032 j 0.004 0.022 j 0'03 0.008 j 0.003 0.008+0.003 0.021 j 0.003 0.015 j 0.003 Average 0.013 0.015 0.021 0.014 0.018 0.020 0.013 0.009 0.023 0.016 0.017 0.021 0.014 0.02'I 0.021 0.021 0.011 0.021 0.015 0.010 0.029 0.022 0.009 0.010 0.021 0.013 Maximum Average Minimum 0.030 0.015 0.008+0.005 j 0.003 0.030 0.019 0.007 j 0.004 j 0.002 0.030 0.0'l7 0.008 j 0.004+0.002 0.029 0'18 0.010+0.004+0.002 0.029 0.016 0.007+0.003 j 0.002 0.027 0.016 0.007 j 0.003 j 0.002 0.032 j 0.004 0.017 0.008 j 0.002 (a)Sample pump inoperable.
i=indicator C=Control Rochest d Electric Table 3-2 A Off<ite Air Particulate Samplers'ross Beta Results in pCi/m3 Collection Date&Jan 13Jan 20@an 27-Jan 3-Feb 10-Feb 17-Feb 24-Feb 3-Mar 1tWAar 174)la r 24Mar 31 Mar 7-Apr 14-Apr 21-Apr 28-Apr 5-May 12-May 19-May 26-May 24un Mun 1Mun 23-Jun ZkJun Sta.0.028 0.018 0.015 0.019 0.023 0.019 0.016 0.013 0.011 0.016 0.020 0.015 (b)0.015 0.019 0.016 0.019 0.014 0.013 0.006 0.005 0.012 0.016 0.016 0.015 0.016¹8 (C)g 0.005~0.005 i 0.004~0.005 g 0.005 g 0.005+0.004 g 0.005 g 0.004 g 0.005 g 0.005 g 0.004 g 0.005~0.005 g 0.005 g 0.005 g 0.004 g 0.004 g 0.004 g 0.003 i 0.005 2 0.004 g 0.004 i 0.004+0.004 Sta 0.015 0.019 0.019 0.019 0.021 0.018 0.018 0.014 0.01'l 0.016 0.021 0.016 (b)0.017 0.018 0.016 0.018 0.012 0.0'l3 0.009 0.007 0.012 0.015 0.017 0.017 0.017~¹9 (I)g 0.003 g 0.003 R 0.003~0.003 g 0.003~0.003 2 0.003 i 0.003 g 0.002 g 0.003 f 0.003 i 0.003 g 0.003 J 0.003 i 0.003 g 0.003 g 0.002 g 0.002 i 0.002 g 0.002 g 0.003~0.002~0.003 2 0.003 g 0.003 Sta.¹1 0.017 g 0.016 g 0.021 0.020+0.021 g 0.017+0.017 g 0.014 g (a)(a)(a)0.031+(b)0.014 g 0.017 g 0.017 g 0.017+0.014+0.014+0.010+0.006+0.011+0.016 g 0.016 g 0.017+0.018+0 (C)0.003 0.003 0.003 0.003 0.003 0.003 0.003 0.003 0.004 0'03 0.003 0.003 0.003 0.003 0.003 0.003 0.002 0.003 0.003 0.003 0.003 0.003 Sta.¹11 (I)0.017 g 0.003 0.019 g 0.003 0.018 g 0.003 0.018 g 0.003 0.021+0.003 0.015 f 0.003 0.020 g 0.003 0.012 g 0.003 0.013 g 0.002 0.014 g 0.003 0.019+0'03 0.016 g 0.003 (b)0.016 2 0.003 0.017+0.003 0.017 g 0.003 0.017 i 0.003 0.013 g 0.002 0.012 g 0.002 0.009 g 0.002 0.007 g 0.002 0.011 g 0.002 0.014 g 0.002 0.015 g 0.002 0.015 g 0.002 0.013 g 0.002 Sta.¹12 (C)0.018 J 0.004 0.019 g 0.004 0.02'1 g 0.004 0.021 g 0.004 0.020 g 0.004 0.022 g 0.004 0.019 g 0.003 0.015 g 0.004 0.010 g 0.003 0.018 g 0.004 0.020 g 0.004 0.019 g 0.004 (b)0.017 j 0.004 0.018 g 0.004 0.019 g 0.004 0.018 g 0.004 0.014 g 0.003 0.012 g 0.003 0.008 g 0.003 0.007 g 0.003 0.0'l1 g 0.003 0.014 g 0.003 0.037 g 0.008 0.014 g 0.003 0.019 g 0.003 Average 0.019 0.018 0.019 0.019 0.021 0.018 0.018 0.014 0.011 0.016 0.020 0.019 0.016 0.018 0.017 0.018 0.013 0.013 0.009 0.006 0.012 0.015 0.020 0.015 0.017 Maximum Average Minimum 0.028 g 0.005 0.016 0.005 g 0.003 0.021 R 0.003 0.016 0.007 g 0.002 0.031 g 0.004 0.016 0.006 g 0.002 0.021 g 0.003 0.015 0.007 g 0.002 0.037 g 0.008 0.017 0.007 g 0.003 (a)Sample pump inoperable.(b)Samples lost during shipment to analysis laboratory.
i=Indicator C=Controi (17)
Rochester Gas and Electric Table 3-2 B Off<ite Air Particulate Samplers'ross Beta Results in pCi/m3 Collection Date jul 1@Jul 21 jul jul 4.Aug 11-Aug 18-Aug 25-Aug 1-Sep 8-Sep 15-Sep 22-Sep 29-Sep.6-Oct 13-Oct 20-Oct 27-Oct 3-Nov 10-Nov 17-Nov 24.Nov 1-Dec 8-Dec 15-Dec 22-Dec 29-Dec Sta.¹8 (C)0.013 g 0.004 0.016 g 0.004 0.021+0.005 0.016 g 0.005 0.015+0.005 0.016+0.004 0.012+0.004 0.009 g 0.004 0.016+0.004 0.014+0.005 0.016 g 0.005 0.017 g 0.005 0.014+0.004 0.020+0.001 0.024 g 0.005 0.022 R 0.005 0.009 g 0.004 0.018 g 0.005 0.0'll+0.004 0.005+0.004 0.031+0.006 0.016 g 0.005 0.009+0.003 0.007+0.003 0.020+0.004 0.013 g 0.003 Sta.¹9 (I)0.012+0'02 0.014+0.002 0.019 2 0.003 0.017~0.003 0.020+0.003 0.018+0'03 0.011 g 0.002 0.008+0.002 0.021 J 0.003 0.014+0.003 0.018 g 0.003 0.018 g 0.003 0.015 g 0.002 0.020 g 0.001 0.024 g 0.003 0.020+0.003 0.008+0.002 0.017+0.003 0.011 g 0.002 0.009~0'02 0.029 g 0.004 0.018+0.003 0.008+0.002 0.008+0.002 0.020+0.003 0.013+0.003 Sta.¹10 (C)0.012 g 0.003 0.016+0.003 0.018 g 0.003 0.015 I 0.003 0.016 g 0.003 0.020 g 0.003 0.011 g 0.002 0.008 p 0.002 0.020 g 0.003 0.017 g 0.003 0.017+0.003 0.017+0.003 0.015 2 0.003 0.019 g 0.001 0.022 g 0.004 0.023 g 0.003 0.009 g 0.002 0.023 g 0.003 0.013 2 0.003 0.011 g 0.003 0.033 2 0.004 0.022 g 0.004 0.008 g 0.003 0.009 g 0.003 0.025 2 0.004 0.014 g 0.003 Sta.¹11 (I)0.011 f 0.002 0.013 g 0.002 0.018 g 0.003 0.014 g 0.003 0.018 2 0.003 0.017 g 0.003 0.012 g 0.002 0.009 g 0.002 0.018 g 0.002 0.013+0.003 0.018 g 0.003 0.019 g 0.003 0.012 g 0.002 0.019 g 0.00'1 0.021 g 0.003 0.019 g 0.003 0.008 g 0.002 0.021 g 0.003 0.013 2 0.003 0.008 g 0.002 0.028 g 0.003 0.022~0.003 0.008 g 0.002 0.008 g 0.002 0.018 g 0.003 0.013 i 0.003 Sta¹12 (C)0.0'13 g 0.003 0.017 g 0.003 0.021 g 0.003 0.014 g 0.003 0.0'17 R 0.004 0.019 g 0.003 0.013+0.003 0.008 g 0.003 0.023 g 0.003 0.014 g 0.004 0.016 g 0.003 0.0'17 g 0.004 0.015 g 0.003 0.019 g 0.001 0.024+0.004 0.021+0.003 0.009 g 0.003 0.024 g 0.004 0.010 g 0.003 0.009 J 0.003 0.036 g 0.005 0.026 f 0.004 0.009+0.003 0.009 g 0.003 0.024 g 0.004 0.018 g 0.004 Average 0.012 0.015 0.019 0.015 0.017 0.018 0.012 0.008 0.020 0.014 0.017 0.018 0.014 0.019 0.023 0.021 0.009 0.021 0.011 0.009 0.031 0.021 0.008.0.008 0.022 0.014 Maximum Average Minimum 0.031+0.006 0.015 0.005 g 0.004 0.029+0.004 0.016 0.008+0.002 0.033 g 0.004 0.017 0.008+0.002 0.028 g 0.003 0.036 g 0.005 0.0'15 0.017 0.008+0.002 0.008 g 0.003 I=Indicator
=Control Roch est d Electric-3 Onsite vs Offsite Air Monitors Gross Beta Analysis 1997.035 030 P C l.025 C 0.020.015 M e t.010 e r.005.000 CD CD CD CV 0)CV Cb C)Ol CO CO LA Week Cb CD Cb If)Al CO 0)CD" Samples lost during shipment to analysis laboratory.
~Onsite ts-Offsite Rochester Gas and Electric Table 3-4 A 13 Week Composite Particulate Air Sample Gamma Isotopic Analysis Result in pCi/m3 First Quarter Station Be-7 KPO Mn44 Fe-59 Co48 Co%0 Zn45 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144¹2 I¹3 I¹4 I¹5 I¹6 I¹7 I c¹9 I¹10 C¹11 I¹12 C¹13 I.082+.010.028+.006.119+.012.016+.005<.001<.007<.001<.001<.003<.002<.003<.002<.010<.001<.001<.017<.002<.003<.002<.007<.001<.002<.005<.002<.003<.002<.010<.001<.001<.015<.002<.003.112+.013.091+.010.101+.012.102+.011.086+.015.0330+.008
<.002<.008<.003<.002<.004<.005<.005<.003.016<.002<.001<.025<.004<.005<.017<.001<.006<.002<.001<.003<.003<.002<.002<.011<.001<.001<.020<.002<.003.0225+.008
<.001<.007<.002<.002<.003<.005<.005<.003<.013<.001<.001<.031<.003<.005<.020<.002<.005<.002<.002<.004<.002<.003<.002<.012<.001<.001<.010<.002<.004<.020<.002<.006<.003<.002<.003<.005<.006<.004<.025<.002<.001<.043<.004<.007.112+.011.095+.013.117+.011.107+.016<.010<.001<.008<.002<.002<.003<.003<.003<.002<.012<.001<.001<.020<.015<.002<.006<.002<.001<.005<.005<.002<.003<.016<.002<.001<.031<.012<.001<.003<.002<.002<.003<.002<.003<.002<.011<.001<.001<.016<.025<.002<.007<.004<.002<.004<.006<.005<.006<.018<.002<.002<.052<.003<.004<.004<.005<.002<.003<.005<.007.088+.011.014+.004<.002<.004<.002<.001<.005<.004<.004<.002<.001<.001<.001<.016<.003<.005 i=indicator C=control All values given as<are less than LLD corrected for decay.
Roch est d Electric T-4B 13 Week Composite Particulate Air Sample Gamma Isotopic Analysis Result in pCi/m3 Second Quarter Station Be-7 KPO Mn44 Fe49 Co48 Co@0 Zn45 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144¹2 I¹3 I¹4 I¹5 I¹6 I¹7 I¹8 C¹9 I¹10 C.112+.011.018+.006<.001<.005<.001<.001<.003<.003<.003<.003<.014<.001<.001.154+.014.026+.007<.002<.005<.001<.001<.003<.004<.004<.002<.013<.001<.001.140+.012.129+.013<.002<.005<.003<.002<.003<.005<.004<.003<.016<.001<.001.154+.012.005+.004<.001<.003<.001<.001<.002<.002<.002<.002<.009<.001<.00'1<.012<.002<.003<.012<.002<.005<.015<.004<.008<.016<.002<.003.140+.011<.008<.001<.003<.001<.001<.002<.002<.003<.002<.011<.001<.001<.008<.002<.004<.004.101+.015<.018<.002<.009<.003<.002<.006<.003<.005<.004<.022<.002<.001<.020<.003<.005.150+.011.024+.006<.001<.004<.001<.002<.002<.003<.003<.001<.007<.001<.001<.014<.002<.002.142+.011.101+.010<.002<.006<.002<.001<.002<.004<.003<.002<.016<.002<.001<.008<.003<.006.137+.013.030+.007<.001<.003<.002<.001<.004<.003<.003<.002<.013<.001<.001<.020<.002¹11 I¹12 C¹13 I.124+.009<.014<.001<.004<.002<.001<.003<.002<.002<.002<.009<.001<.001<.007<.002<.004.147+.015.046+.011<.002<.006<.003<.001<.003<.004<.002<.003<.016<.001<.001<.013<.003<.005.148+.012<.011<.001<.003<.002<.001<.003<.003<.002<.002<.011<.001<.001<.013<.002<.003 I=Indicator C=control All values given as<are less than LLD corrected for decay.
Rochester Gas and Electric Table 3-4 C 13 Week Composite Particulate Air Sample Gamma Isotopic Analysis Result in pCi/m3 Thild Qua'rter Station Be-7 KQO Mn44 Fe49 Co-58 Co40 Zn45 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144 I¹3 I¹4 I¹5 I¹6 I¹7 I¹8 C¹9 I¹10 C¹11 I¹12 C¹13 I.096+.011.028+.008<.001<.006<.002<.002<.005<.004<.003<.002<.009<.001<.001<.010<.003<.005.147+.012.117+.012<.002<.006<.002<.002<.004<.004<.004<.003<.014<.001<.002<.007<.004<.007.117+.010.019+.006<.001<.005<.002<.001-<.002<.002<.002<.002<.012<.001<.001<.008<.002<.004.126+.010.085+.009<.001<.004<.002<.002<.004<.003<.002<.002<.013<.001<.001<.010<.004<.006.104+.009.116+.011<.008<.001<.004<.001<.001<.004<.003<.002<.002<.009<.001<.001<.008<.002<.004.030+.008<.002<.004<.002<.002<.004<.003<.003<.002<.014<.001<.001<.011<.003<.005.116+.015.166+.020<.002<.008<.003<.003<.007<.007<.005<.004<.025<.001<.002<.021<.006<.013.126+.010<.010<.001<.003<.001<.001<.001<.003<.002<.002<.009<.001<.001<.007<.002<.003.122+.010.103+.010<.002<.006<.002<.002<.004<.004<.003<.002<.014<.001<.001<.006<.004<.007.117+.010<.013<.001<.003<.001<.001<.001<.002<.002<.002<.007<.001<.001<.007<.002<.003.125+.012.024+.008<.001<.004<.002<.001<.004<.004<.003<.002<.014<.001<.001<.017<.003<.004.113+.010.091+.009<.001<.005<.002<.001<.004<.003<.003<.002<.014<.001<.001<.009<.004<.006 i=indicator C=control All values given as<are less than LLD corrected for decay.
Roch est d Electric T 3-4 D 13 Week Composite Particulate Air Sample Gamma Isotopic Analysis Result in pci/m3 Fourth Quarter Station¹2 I¹3 I¹4 I¹5 I¹6 I¹7 I¹8 C Be-7.082i.011 KQO Mn44 Fe-59 Co-58 Co@0 Zn45 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144<.001<.005<.002<.003<~006<.005<.004<.003<.014<.001<.001<.020<.003<.006<.001<.005<.002<.002<.005<.003<.003<.002<.020<.002<.001<.022<.004<.007.084i.009.110i.009.096i.010.011+.005<.001<.006<.001<.002<.003<.002<.002<.002<.014.039i.006<.001<.003<.002<.001<.002<.003<.002<.002<.010.008+.004<.001<.005<.002<.001<.003<.003<.003<~002<~010<.001<.001<.012<.003<.004<.001<.001<.013<.003<F 006<.001<.001<.011<.002<.003.127i.014.068+.010<.002<.005<.003<.002<.005<.004<.005<.004<.017<.002.<.002<.014<.004<.008.076i.010.017+.007<.001<.006<.002<.002<.004<.002<.002<.003<.008<.001<.001<.013<.003<.005¹9 I~085i.008.009'03<.001<.003<.001<.001<.002<.002<.002<.002<.011<.001<.001<.008<.002<.003¹10 C¹11 I~089i.010.078i.010<.011<.018<.001<.007<.001<.001<.003<.003<.002<.002<.011<.001<.001<.006<.002<.002<.003<.003<.003<.002<.014<.001<.001<.011<.002<.003<.001<.019<.003<.004¹12 C¹13 I.104+.013.095i.009.030i.008<.001<.008<.002<.002<.005<.004<.002<.004<.016<.002<.002<.024<.003<.006<.001<.001<.015<.003<.004.043i.006<.001<.004<.002<.001<.003<.003<.003<.002<.009 I=Indicator C=control All values given as<<are less than LLD corrected for decay.(23)
Rochester Gas and Electric Table 3-5 Charcoal Cartridges Gamma Analysis for Iodine Results in pCI/m3 Collection Date&Jan 134an 2(klan 274an 3-Feb 10-Feb 17-Feb 24-Feb 3-'Mar 10-Mar 17-Mar 24-Mar 31-Mar 7-Apr 14-Apr 21-Apr 28-Apr 5-May 12-May 19-May 26-May 2 Jun Mun 164un~un 3(klun jul 14-Jul 21 Jut 2&Jul 4-Aug 11-Aug 18-Aug 25-Aug 1-Sep 8-Sep 15-Sep 22-Sep 29-Sep 6-Oct 13-Oct 20-Oct 27-Oct 3-Nov 10-Nov 17-Nov 24Nov 1-Dec 8-Dec 15-Dec 22-Dec 29-Dec Sta.02 (I)<.019<.017<.018<.018<.016<.018<.012<.024<.013<~020<.021<.014<.015<.015<.019<.016<.024<.024<.016<~014<.018 (.013<.024<.022<.014<.020<.013<.011<.021<.012<.029<.015<.026<.014<.023<<.025<.020<.020<.040<.042<.023<.030<.020<.016<.024<.025<.050<.021<.028<.023<.026 (a)Sta.¹4 (I)<.021<.014<.021<.036<.027<.033<.022<.020<.027<.033<.022<.030<.026<.018<.030<.022<.034<.020<.024<.023<.025<.023<.013<.013<.007<.015<.013<.011<.011<.014<.013<.015<.015<.012<~016<.021<.019<.014<.013<.012<.017<.016<.013<.016<.025<.016<.016<.011<.018<.018<~025 (a)Sta.O7 (i)<.013<.019<.015<.017<.020<.017<.015<.033<.017<.020<.025<.013<.034<.029<.017<.025<.032<.028<.015<.011<.016<.009<.018<.009<.026<.025<.015<.015<.020<.024<.014<.019<.033<.021<.030<.019<.041<.027<.012<.016<.013<.011<.008<.011<.025<.010<.012<.008<.018 (a)(b)(b)Sta.¹8 (C)<.050<.060<<.044<.044<.034<.035<.032<.029<.046<.019<.044<.031<.038<.029<<.032<.029<.036<.030<.030<.033<.069<.046<.043<.024<.024<.024<.030<~044<.024<.037<.018<.030<.037<.033<.045<.028<.027<.025<.031<~025<.039<<.036<.056<.032<.031<.058<.036<.028<<.020<.023<.038 (a)Sta.¹9 (I)<.017<.025<.023<.023<.021<.014<.012<.021<.021<.008<.013<.020<<.020<.021<~008<.015<.008<.018<.011<.009<.015<.013<.016<.019<.009<.01'1<.013<.014<.011<.011<.017<.017<.029<.010<.009<.014<.024<.018<.011<.012<.017<.026<.012<.007<.024<.013<.014<.013 (.013<.018<.023 (a)Sta.N1<.021<.024<.019<.022<.012<.016<.017<.016<.023<.019<.010<.015<.014<.008<.019<.011<.018<.016<.021<.019<.022<.022<.016<<.020<.010<.012<.015<.015<.013<.014<~013<.021<.016<.010<.019<.014<.014<.009<.024<<.022<<.014<.016<.018<.013<.012<.012<.019<.018<<.020<.022<.026 i=indicator C=Control All values given as (are less than LLD.(a)Samples lost during shipment to analysis laboratory.(b)Sample pump inoperable.
(24)
Rochest d Electric-6 Annual Trending of Air Activity 0.350 Gross Beta Analysis 0.300 0.250 p I I c 0.200 u M 0.150 e t 0.100 r 0.050 0.000 CO 8 0 t-bl C9 4 0 0 h C)0 0 t-bl 0)4 0 8 h.00 0 0 r bl C)tO W W W W W W W W M W 00 CO Co C)00 00 00 00 CO 00 Ol CZ)CB Years 1968-1996~Onsite~Offsite Peaks are indicative of atmospheric nuclear weapon detonations (25) 3.3 er a e Water samples are collected on a regular schedule from locations surrounding the plant to assess if there is any measurable influence or contamination of drinking or irrigation water from liquid effluent releases or deposition from gaseous effluent releases.Composite samples are collected weekly from Lake Ontario, upstream (Russell Station)and downstream (Ontario Water District Plant-OWD), and analyzed for gross beta activity.There was no signiTicant difference between the upstream and downstream sample concentrations.
The 1997 averages were 2.45 and 2.69 pCi/liter for the upstream and downstream samples respectively.
A graphical comparison of upstream vs downstream gross beta analysis results is given in Table 3-7A.Peaks up to 5 pCi/liter occur when the lake is stirred up by wind and the sample includes large quantities of suspended silt.A trend plot, Table 3-7 B, showing the annual average activity measured during the years since 1968 is included to show the data during the years the R.E.Ginna Nuclear Power Plant has been in operation.
The peaks correspond to the years when atmospheric testing of nuclear weapons occurred.Weekly composite samples are taken from the plant circulating water intake (Circ In)and discharge canal (Circ Out).The yearly averages were 2.69 and 2.44 pCi/liter for the intake and discharge canal respectively.
These are essentially the same as the upstream and downstream values as they fall within the+2 sigma error band and range of the measurement.
A gamma isotopic analysis of monthly composites of the OWD and the discharge canal was performed.
For all batch releases, the average concentration in the discharge canal from the identifie activity during 1997 was 3.8x10'Ci/liter.
The normal a1 sigma variation for the activity calculation of composite samples is 0.48 pCi/liter or 104 times the average concentration added by releases from the plant.Samples of tap water and the creek which crosses the site are collected and analyzed monthly.The results show no indication of plant influence.
The higher average gross beta values for Deer Creek are attributed to higher levels of Radon progeny in the soils from which the creek recharges and over which the creek flows.Results for all water beta analyses are listed in Tables 3-8.Gamma isotopic analysis is done on each monthly sample and each monthly composite of weekly samples.These are listed in Tables 3-9 to 3-14 and are separated by source of sample.Since these are decay corrected from the end of the sample period, short half-life elements such as Ba-La may not meet the required LLD.(26)
Tn U a sls Tritium analysis was performed on all water samples on a monthly basis.Composites are made from the weekly composites and a portion distilled for analysis to remove interferences.
Tritium data is given in Table 3-1 5.The supplemental tritium samples, (Deer Creek and tap water), were temporarily deleted from the sample schedule from January through May.Subsequently, tap water was permanently deleted as redundant with Ontario Water District.eA al's All monthly composite water samples except the fallout samples are analyzed for iodine-131.
The analysis allows the determination of iodine-131 activity of<1 pCi/liter.
iodine data is given in Table 3-16.Any positive counts and the 2 sigma error are reported.All negative counts after background correction are reported as<LLD for that analysis.There were no positive iodine-131 results.
Rochester Gas and Electric Figure 3-7A Environmental Water Samples Gross Beta Analysis for 1997 5.00 4.50 4.00 C 350 I 3.00 I 2.50 L t 2.00 t 1.50 r 1.00 0.50 0.00 Jan Feb March April'ay June Month July Aug Sept Nov Dec~OWD~Russell Roch est d Electric-7B Annual Trending of Environmental Water Samples 12.00 Gross Beta Analysis 10.00 P 8.00 C I I L 6.00 I t e 4.00 2.00 0.00 00 0 0~bl 0)4 0 8 h CO 0 0 r bl CO 4 Q)S 6 CO 0 O~CV C9 4 0 CO tD CO h W W W W W W W W W 00 CO CO CO CO CO CO CO CO 00 CB Cb Q)Q)CD Cb CB Years 1968-1997~Russell~OWD (29)
Rochester Gas and Electric Table 3-8 Environmental Water Samples Gross Beta Analysis Results in pCi/Liter Month January February March April'May June July Russell (C)O.W.D.(I)Circ In (S)Circ Out (I)Deer Creek (S)Tap (S)1.87 2 0.41 3.57 2 0.47 2.33 i 0.43 2.89 2 0.44 3.28+0.51 2.63 k 0.47 2.59 R 0.46 2.60+0.42 2.03 2 0.41 1.82+0.43 3.10+0.47 2.52 2 0.46 1.87 t 0.44 2.31+0.44 3.02+0.52 1.32+0.43 2.37 R 0.42 2.61 R 0.43 2.91 2 0.43 2.91+0.52 1.65 R 0.44 2.41 2 0.43 2.75 k 0.44 1.90 2 0.40 4.37+0.50 3.11 2 0.43 1.98 R 0.42 2.27 R 0.44 2.10 R 0.44 3.85+0.56 1.79+0.42 1.79+0.43 1.61+0.42 4.72+0.56 2.95 2 0.48 2.99 i 0.47 2.03 k 0.41 3.27 2 0.47 3.77 f 0.47 2.89 2 0.43 2.78+0.47 2.23+0.43 August September October 1.78 2 0.52 2.34 2 0.52 2.36 2 0.48 2.42 2 0.51 3.23 i 0.52 2.03 2 0.48 6.22+0.60 1.93 2 0.46 1.55+0.45 3.87 N 0.55 2.76 a 0.47 1.64 R 0.44 2.89 R 0.49 2.19 2 0.46 7.51 2 0.72 2.38 i 0.42 2.10 2 0.45 2.7 November December 2.96+0.86 (a)3.52+0.51 4.69+0.95 3.61 2 0.87 3.17 2 0.87 4.47+0.56 2.54+0.48 (I)(~)(~)3.24+0.51 3.19 2 0.51 3.72 k 0.53 5.17 2 0.57 2.64+0.47 Maximum Average Minimum 3.52 N 0.51 2.45 1.78+0.52 4.69 2 0.55 3.77 R 0.47 3.72 R 0.53 2.69 2.69 2.44 1.64+0.44 1.79 R 0.43 1.55 R 0.45 7.51+0.72 4.35 2.78+0.47 3.11+0.4 2.44 1.32 a 0.4 i=indicator C=Control S=Supplemental Sample All values given as<are less than the LLD corrected for decay.(a)Technician questioned first count on OWD, performed two subsequent counts on four samples, data represents average of three counts.
Roch est d Electric Table 3-9 Russell Station Surface Water Control Gamma Isotopic Analyses Results in pCi/Liter Month Jan Feb Be-7 Cr%1 Mn-54 Fe49 Co48 Co%0 Zn45 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144 Ra-226<44<65<6<13<6<7<14 (10<6<7 (58<5<5<14<12<42'1'19142<40<43<5<11<5<5<10<7<5<7<38<3<3<14<9<28<91 March<26<32<3<8<3<3<7<6<5<4<28<56 April<36<44<5<15<5<5 12<8<6<6 (50 (5<4<13<9<30 88135 May June July<<38<46<4<13<5<4<9<31<33<<3<8<3<<3<7<29<28<3<8<<3<<3<7<8<5<4<4<6<4<47<32<27<4<4<12<9<6<6<26 83136<17 71122<19<70 Aug<40<49<4<11<4<4<9<6<4<12<8<26 76e34 Sept<<38<46<4<<9<4<4<10<5<13<8<26 114135 Nov<26<<30.<<3<6<3<3<6<5<4<4<30<<3<2<8<6<17 44i20<27<32<3<7<<3<<3<<3<4<28<2<3<9<6<17 112x24 Dec<27<35<<3<5 4<3<7<5<4<5<30<2<3<9<7<18 64+22 All values given as (are less than LLD corrected for decay.
Rochester Gas and Electnc Table 3-10 Ontario Water District Drinking Water Indicator Gamma Isotopic Analyses Results in pCi/Liter Month Be-7 Cr-51 Mn44 Fe-59 Co48 o n 48 C 40 Z 45 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144 Ra-226 Jan<6<6<43<5<4<9<9<30 142e40<35<42<4<12<5<5 Feb<8<6<6<49<5<4<13<11<34<103<46<52<5<11<4<5<10 March<6<6<51<3<5<9<13<41<118<48<66<5<12<6<5<8 April<44<45<4<9<5<5<9<7<5<53<5<5<12<8<27 83e37 May June<34<46<4<9<4<4<11<7<<32<47<3<8<4<<3<5<<6<5<4<34<2<3<5<<39<<3<4<8<9<27 134x29<10<8<25 64 F1 July Aug<28<32<4<4<32<2<3<6<8<27 96a33<40<<3<7<4<<3<5<6<4<4<<35<3<<3<8<<9<<27 179x33<45<4<8<4<<3<5<6 Sept Oct Nov<29<31<3<7<3<27<31<3<9<3<3<7<6<3<6<5<28<28<3<8<<3<3<5<4<4<29<<3<<3<4<31<3<3<4<29<2<<3<8<9<5<6<17 60e18<19 44'5<17 75'2 Dec<30<34<9<3<3<7<6<4<4<<33<<3<9<7<20 65e23 All values given as<are less than LLD corrected for decay.
Rochest d Electric Table 3-11 Circ-In Water Supplemental Sample Site Gamma Isotopic Analyses Results in pCi/Liter Month Jan Feb March April Be-7 Cr%1 Mn-54 Fe-59 Co48 Co-60 Zn%5 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144 Ra-226<46<57<5 (16<5<4<13<10 (5<6 (57<5<5<11<11<36<43<50<4<13<5<4<10<10<6<6<48<4<4<14<8<25 93i38<42<50<4<12<5<5<10<9<6<6<44<5<5<11<9<<30<93<39<39<4<12<5<6<11<8<5<6<48<6<5<13 May<29<35<3<8<<3<<3<4<5<4<29<2<3<7<17 113i26 June July Aug<27<28<<3<8<3<3<7<5<36<40<4<10<4<3<8<8<27<33<3<7<4<4<6<6<5<28<40<2<3<3<<9<5<8<6<7<6<18 89i23<25 101i33<19<68 sept<29<32<3<8<3<4<<6<5<30<9<6<18 71i23 Nov<35<45<3<9<4<5<9<8<28<30<3<8<4<3<6<6<5<5<4<37<3<32<3<14<8<26 95i35<8<6<20 43i23 Dec<37<50<4<10'4<5<9<7<5<5<39<4<3<13<8<25 46i27 All values given as<are less than LLD corrected for decay.(33)
Rochester Gas and Electric Table 3-12 Circ.Outlet Surface Water Indicator Gamma Isotopic Analyses Results in pCi/Liter Month Jan Feb March Be-7 Cr-51 Mn44 Fe49 Co-58 Co40 Zn45 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144 Ra-226<43<<46<5<14<6<6<11<9<7<6<51<5<5<15<8<32 88+38<46<71<5<11<6<5<7<11<7<6<57<4<5<11<14<47 152+51 (41<47<4 (12<6<6<9<8<5<6<36<4<4<9<10<26 62+31 April<65<80<8<12<9<7<12<7<12<11<87<8<8<22 (a)<15<46 108x55 May<28<31<<3<8<4<3<7<6<4<4<28<2<10<7<21 63m 28 June<29<35<3<8<<3<3<6<6<4<2<30<<3<10<6<20 46+23 July<28<29<3<9<<3<3<6<5<3<3<27<2<9<<5<17 52a20 Aug Sept<27<<32<3<7<3<32<45<4<8<4<<3<7<3<5<6<2<7<4<4<<35<4<<3<4<4<29<3<9 (16 74i20<7<9<29<80 Oct<35<42<3<8<4<3<5<7<5<5<33<2<3<8<9<28 112'1 Nov<27<26<<3<9<<3<3<8<5<3<4<29<3<3<10<5<16 64'5 Dec<32<3<8<3<3<8<5<4<4<29<<3<3<12<5<16 44+22 All values given as<are less than LLD corrected for decay.(a)LLD not achieved due to technician interpretation error, short half-life precluded recount.
Rochest d Electric Table 3-13 Deer Creek Water Supplemental Sample Site Gamma Isotopic Analyses Results in pCi/Liter Month Be-7 Cr-51 Mn-54 Fe%9 Co48 Co%0 Zn45 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144 Ra-226 Jan<50<65<<8 (13<7<6<17 (7<84<4<8<9<12<57 115162 Feb<39<33<4<9<5<5<12<7<5<5<43<3<5<6<27 108 a44 March<41<42<5<9<5<5<12<7<4<5<51<5<6<9<<36<120 April May June July Aug<37<<35<5<7<36<<32<5<10<37<35<6<11<38<35<5<9<36<32<5<10<5<4<5<6<6<13<12<12<8<7<8<8<5<4<4<5<<5<5<60<5<5<48<4<53<5<46<5<5<59<<3<4<5<5<5<5<8<7<29<7<6<28<6<7<<31<7<7<28<6<7<32<114 96a41<109 62e38 Sept<53<56<6<14<6<8<14<12<7<5<51<6<4<7<10<40<129 Oct Nov Dec<41<35<4<9<46<36<5<12<38<37<5<12<5<6<5<<5<6<6<12<10<7<10<5<5<5<5<6<5<41<59<53<5<5<4<5<4<7<9<7<26<8<32<7<31<100<121 (126 All values given as<are less than LLD corrected for decay.(35)
Rochester Gas and Electric Table 3-14 Tap Water Supplemental Sample Site Gamma Isotopic Analyses Results in pCi/Liter Month Be-7 Cr-51 Mn44 Fag Co-58 Co%0 Zn45 Zr-95 Nb-95 Ru-103 Ru-106 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144 Ra-226 Jan<<33<36<4<12<5<6<9<8<6<5<50<5<5<6<7<27 57a33 Feb<40<39<4<12<5<6<15<9<5<5<47<5<5<7<8<38<128 March<38<28<5<8<4<6<9<7<4<5<49<5<4<7<29 94+33 April<35<33<5<10<5<6<11<7<4<5<42<6<5<7<6<29 88e32 May<55<50<7<12<6<7<13<11<7<6<67<7<7<10<9<42<141 June<53<55<8<15<6<10<20<14<8<8<86<9<8<13<10<40 113a46 July<40<33<5<11<5<6<11<9<5<5<51<6<5<7<7<32<116 Aug<35<35<5<9<5<4<10<8<4<5<45<4<4<6<7<30 72t39 Sept<66<58<8<17<9<11<23<14<9<8<80<7<9<11<11<47<37<32<4<12<6<6<11<9<5<5<56<4<5-<6<7<30 79~38 Nov<38<32<5<13<5<6<16<5<4<5<46<5<5<7<7 13'<99 Dec<39<29<4<11<4<7<14<7<4<5<43<5<5<6<6<28 77a37 All values given as<are less than LLD corrected for decay.
Roch est d Electric Table 3-15 Environmental Water Samples Tritium Analysis Results in pCi/Liter Month of January February March Russell (I).<421<493<463 O.W.D.(I)<417<491<461 508 2 133<420<421<492<492<429<466 Circ ln (S)Circ Out(l)Deer Creek(S)Tap (S)April May June<755 (440<464<460<443<468<462<444<472<461<443<485 July August September October November December<420<<452<424<487<495<509<418<455<425<487<493<507<423<443<427<487<491<511<422<458<425<485<488<505<487<491<427<487<491<509<492<487<426<483<489<509 I=Indicator C=Control S=Supplemental Sample All values given as<are less than the LLD corrected for decay.(a)Unavailable data detailed on page 52.(37)
Rochester Gas and Electric Table 3-16 Iodine in Water Results in pCi/Liter Month of January February March Russell (C)<.79<.39<.79<.41<.49<.35<.51<.36<.63<.66<.58<.61<.63<99<.85<.81<.46<.36 O.W.D.(I)Circ.In (S)Circ.Out (I)Deer Creek (S)Tap (S)April<.39<.67<.73<.45<.40<.43 May<.72<.41<A6<.34<.44<.71 June<.54<.43<.74<.68<.43<.33 July August September October November December<.45<.51<.58<.46<.79<.74<.53<.72<A6<.52<.51<.83<.74<.42<.48<.64<.52<.67<.53<.78<.87<.50<.41<.97<.43<.45<.66<.65<.82<.41<.61<.53<.44<.36<.43 I=Indicator C=Control S=Supplemental Sample All values given as<are less than the LLD corrected for decay (38)
~3.4~lk S There are three dairy herds located three to five miles from the plant.Milk samples are collected monthly during November through May from one of the three and biweekly during June through October from each.A control farm sample is taken for each monthly sample and once during each biweekly period.The milk is analyzed for iodine-131 and also gamma scanned for major fission products.All positive counts and the a1 sigma error are reported.All negative counts after background correction are reported as<LLD for that analysis.During 1997, no samples indicated positive l-131 activity that exceeded the LLD for the analysis.Table 3-17 is a listing of all samples collected during 1997.The annual dose to the thyroid of an infant which could result from the measured plant release rate was calculated by the method described in the ODCM.The calculation was done for releases during the growing season when cows may be grazing.For Ginna Station, this includes only releases during the months of May through October.The maximum resultant annual thyroid dose for 1997 would be 0.25 mrem using the cow-milk-infant pathway for a hypthetical farm at the site boundary.Using the farm with the highest D/Q which is 5 miles from the plant, the maximum calculated dose to the infant would be 1.35x10~mrem from plant releases during the growing season.(39)
Rochester Gas and Electric Table 3-17 Milk Results In pet/Uter Farm FARM 8 FARM D FARM C FARM D FARM A FARM D FARM 8 FARM D FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM 8 FARM C FARM D FARM A FARM D FARM C FARM D I C I C I C I C I C I I I C I I I C I I I C I I I C I I I C I I I C I I I C I I I C I I I C I I I C I I I C I C I C Date 1/21/97 1/21/97 2/11/97 2/11/97 3/18/97 3/18/97 4/22/97, 4/15/97 5/13/97 5/13/97 6/10/97 6/10/97 6/10/97 6/10/97 6/24!97 6/24/97 6/24/97 6/24/97 7/8/97 7/9/97 7/9/97 7/8/97 7/22/97 7/22/97 7/22/97 7/22/97 8/5!97 8/5/97 8/5/97 8/5/97 8/19/97 8/19/97 8/19/97 8/19/97 9/2/97 9/2/97 9/2/97 9/2/97 9/17/97 9/16/97 9/16/97 9/17/97 9/30/97 9/30/97 9/30/97 9/30/97 10/14!97 10/14/97 10/14!97 10/14/97 10/27/97 10/27/97 10/27/97 10/27/97 11/10/97 11/1 1/97 12/17/97 12/17/97 I-1 31<.40<.32<.36<.29<.40<.45<.43<.37<.39<~30<.41<.47<.36<.46<.64<.40<.36<.46<.79<.34<.48<.72<.43<.32<.41<.65<.40<.46<.36<.64<<.45<.66<.41<.47<.39<.44<.40<.45<.41<.66<.39<.64<<.45<.38<.76<~46<<.44<.34<.71<.47<.41<.46<.37<.76<.44<.44<.73<.48 Cs-1 34<5<6<5<9<5<3<4<6<5<5<4<6<6<6<4 c5<6<6<5<6<5<4<3<4<5<6<5<6<6<6<4<6<5<6<3<5<6<5<5<4<5<3<5<6<8<<5 c3<9<4<6<4<4<5<7<5<6<5<5 Cs-1 37<5<5<5<6<6<5<5<5<5<5<5<5<6<6<5<5<5<7<6<6<5<6<5<5<5<6<6<7<6<6<6<5<4<7<6<5<5<5<7<6<5<5<6<<5<7<7<<5<8<5<5<6<5<6<8<5<6<6<5 Ba-140<7<6<7<8<7<5<5<6<7<6<6<6<8<9<5<7<6<8<5<7<7<8<6<5<7<6<4<9<5<7<5 c7<6<7<5<6<6<7<9 c5<6<6<8<8 c11<12<8<10<6<7<6<7<8<10<8<8<8<7 KQO 1310i60 1610i68 1460i71 1470i81 1420i69 2300i65 1430i62 1530i65 1360i62 1460i65 1410i62 1590i68 1440i72 1580i85 2080i60 1440i64 1570i68 1480i8'I 1310i62 1710171 1590i68 1470i64 1390i62 2170i60 1520i64 1600i68 2120i60 1630i85 2200i62 1430i72 2110i60 1600i68 1390i62 1670iSS 2080i60 1440i62 1600i68 1480i71 1550i85 2280i62 1640i68 1560i67 1420i62 1490i65 1690i91 1470i81 1440i62 1470i93 1350i71 1570i68 1190i59 1680i70 1530i75 1550i87 1430i64 1480i6S 1470i64 1600i68 i=indicator C=Control All values given as<<: are less than the LLD corrected for decay.(40) 3.5 Indicator fish are caught in the vicinity of the Discharge Canal and tested for radioactivity from liquid effluent releases from the plant.The fish are filleted to represent that portion which would normally be eaten.Additional fish are caught more than 15 miles away to be used as background indicators and are prepared in the same manner.Four different species of fish are analyzed during each half year from the indicator and background locations if they are available.
There was no statistically significant difference in the activity of the fish caught between the indicator and background locations.
Fish are caught by R.G.8 E.biologists and counted by gamma spectroscopy after being held for periods of less than one week.The LLD value for the shorter half life isotopes became greater.The data could also be affected by small mass samples, (<2000 grams), in some species.Isotopic gamma concentrations (pCi/kilogram wet)are listed in Tables 3-18A, 3-18B.Samples of algae (cladophora) and sand, (benthic sediment), were obtained from the lake bottom in the discharge plume area.Lake bottom samples continue to show small amounts of Cs-137 activity.Results of the gamma scans are included in Table 3-19.
Rochester Gas and Electric Table 3-18 A Fish Samples Gamma Isotopic Analysis Results in pCi/kg Wet Description Indicator Fish KXO Crt)Mn%4 Fe-59 Cols Co-60 Zn45 Zr-95 Nb-95 First Half 1997 White Suckers Walleye Freshwater Drum Brovm Trout~270<421 10298265<495 31~193<313 452&r240<414<92<87<79<78<32<38<30<24<31<<25<28<58<<48<61<65<67<64<53<55<55<49<32<45 Second Half 1997 Brovm Trout Chinook Salmon Rainbow Trout Lake Trout 4860+.254<<203~226<177 4560+292<259~229<214<60<50<89<55<26<33<24<27<<25<28<68<60<86<64<49<37<64<43<27"<<24<28 Control Fish First Half 1997 Chinook Salmon White Suckers Freshwater Drum Brown Trout 47~260 35304182 461%220 9610+262<<606<<300<<333<<508<125<<70<92<96<<35<30<30<37<<28<24<<28<31<63<55<63<46<80<40<<56<61<57<<35<45<49 Second Half 1997 Smailmouth Bass Rock Bass Rainbow Trout Chinook Salmon 529Qt363<473 10500t294<375 4400t279<255~263<<226<<49<<35<25<130<72<63<57<42<40<<32<24<44<<36<<34<25<135<52<86<43<89<62<<66<<49<<63<45<37<28 All values given as<are less than the LLD corrected for decay Roch est d Electric Table 3-18 B Fish Samples Gamma Isotopic Analysis Results in pCi/kg Wet Description Indicator Fish Ru-103 Ru-106 I-131 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144 Ra-226 First Half 1997 White Suckers Walleye Freshwater Drum Brown Trout<49<42<32 (41<249<263<<224<<269 (19<25<24 (25<<27 1117 (25<200<109<155<189<58<69 (41<52<141<175 (86<126 401 a170 6~192 6131153 5951157 Second Half 1997 Brown Trout Chinook Salmon Rainbow Trout Lake Trout<24<32<248<195<<334<<36<32<61<37<21<33<<21<22 (25 (32 (21<48<29<72<39<<33<24<47<31<120 (86 (149<123 37&166 37&140<527 606at65 Control Fish First Half 1997 Chinook Salmon White Suckers Freshwater Drum Brown Trout<51<35<35<43<288 (211<257<270<1160 (282<366<502<24 (19<25<20<23<19 20t9<26<397<169 (151<162<73<<49 (50 (71<141<93<120 (171 48%160 505a129<431 4311181 Second Half 1997 Smallmouth Bass Rock Bass Rainbow Trout Chinook Salmon<<54<<38 (31<<27<459<<332<<336<233<242 (189 (51<62<49 (31<28<24 (176<93<43<47<72<63<43<<36<215 (195<140<109<<794<591<543<371 All values given as<are less than the LLD corrected for decay (43)
Rochester Gas and Electric Table 3-19 Lake Samples Discharge Plume Area Gamma Isotopic Analysis Results in pCI/kg Wet Description Cladophora Benthic Sediment KCO Cr-51 4160+89 13~384<<319 Mn44<<6 Fe49<<15<<6<<16<<12 Co48 Co-60 Zn45 Zr-95 Nb-95 Description Ciadophora Benthic Sediment Ru-103 Ru-106<<6 I-131<<69<<6 13'8 Cs-134 Cs-137 Ba-140 250+49<<224 78&258 Ce-141 Ce-144 Ra-226 All values given as<<: are less than the LLD corrected for decay es 36~V Crops are grown on the plant property and samples of the fruits and grains are collected at harvest time for testing.Background samples are purchased from farms greater than 10 miles from the plant.There was no indication in the samples of any measurable activity other than naturally occuring K-40 and Ra-226.Gamma isotopic data is given in Table 3-20.(45)
Rochester Gas and Electric Table 3-20 Vegetation Samples Gamma Isotopic Analysis Results in pCi/kg Wet Description Indicator Vegetation KQO Cr-51 Mn44 Fe49 Co48 Co-60 Zn-65 Zr-95 Nb-95 Squash Lettuce'Cherries Apples Feed Com~94 871 QR335 1590164 121%44 21~80<75<<347<50<31<49<9<41<7<4<7<19<89<17<11<17<g<39<7<4<<6<9<52<8<5<<9<14<103<20<10<18<14<77<11<<8<13<9<<46<7<4<7 Control Vegetation Apples Lettuce 857x35 42~97<<30<78<4<9<9<20<4<9<4<<9<10 (17<7<17<4<10 Indicator Vegetation RU-103 RU-106 I-1 31 Cs-134 Cs-137 Ba-140 Ce-141 Ce-144 Ra-226 Squash Lettuce Cherries Apples Feed Com<9<41<7<4<7<92<416<72<49<69<10<46<8<7<6<6<41<4<4<7<9<42<6<4<6<9<<63<11<7<9<13<<53<8<5<8<<57<227<21<33 2~68 2730i369 1~45 67%7 208a52 Control Vegetation Apples Lettuce<4<11<40<87<7<3<8<4<8<7<16<5<15<17<54 131 f26 385t:70 All v iven as (are less than the LLD corrected for decay
~~3.7 e a e era i Radia ion Thermoluminescent dosimeters, (TLD's), with a sensitivity of 5 millirem/quarter are placed as part of the environmental monitoring program.Thirty-nine TLD badges are currently placed in four rings around the plant.These rings range from less than 1000 feet to 15 miles and have been dispersed to give indications in each of the nine land based sectors around the plant should an excessive release occur from the plant.Badges are changed and read after approximately 3 months exposure.TLD locations¹7 and¹13 are influenced by close proximity to the Contaminated Equipment Storage Areas and will normally read slightly higher than other locations.
For the year of 1997, on-site exposure ranged between 10.5-16.2 mrem/quarter, with an average exposure of 13.2 mrem/quarter and off-site 10.1-14.1 mrem/quarter with an average exposure of 11.9 mrem/quarter.
40 CFR 190 requires that the annual dose equivalent not exceed 25 millirems to the whole body of any member of the public.Using 54 millirems average ambient radiation,(Environmenfal Radioactivify, Eisenbud, 1987), and the highest annual total TLD value, (Station 7), of 61.5 millirems yields an annual maximum dose of 7.5 millirems.
Table 3-21 gives TLD readings for each quarter.3 TLD's were missing at the times of collection.
A trend chart with a comparison of data for each location for the years of 1996 and 1997 is included, Table 3-22.The data plotted is the average quarterly dose measured.TLD location¹13 for 1996 was influenced by its proximity to the Contaminated Equipment Storage Area.(47)
Rochester Gas and Electric Table 3-21 External Penetrating Radiation Thermoluminescent Dosimetry 1997 Units mRem/91 Day Quarter¹2-¹7 plus¹13 are on-site near the line of the highest annual average ground level concentration.
¹8-¹12 are offsite at a distance of 8 to 16 miles.¹14-¹16 are located along a line 3000 ft.west of the plant.¹17-¹21 are located along Lake Road.¹22-¹24 are located along the east site boundary line.¹25-¹30 are offsite at a distance of 8 to 13 miles.¹31-¹40 are located in an arc at a distance of 3-5 miles.I=Indicator C=Control (a)TLD Missing at time of collection.
Location~Te 2 I 3 I 4 I 5 I 6 I 7 I 8 C 9 I 10 C 11 I 12 C 13 I 14 I 15 I 16 I 17 I 18 I 19 I 20 I 21 I 22 I 23 I 24 I 25 C 26 C 27 C 28 C 29 C 30 C 31 I 32 I 33 I 34 I 35 I 36 I 37 I 38 I 39 I 40 I~1st uarler 11.3 j 2.9 11.8 j 3.0 123 j 31 12.9+3.3 10.5 j 2.6 14.5 j 3.7 11.6 j 2.9 10.5+2.6 10.3 j 2.6 10.9 j 2.7 10.1 j 2.5 13.3+3.4 11.1+2.8 12.5 j 3.1 12.7 j 3.2 11.3 j 2.8 13.0 j 3.3 11.4 j 2.9 12.1 j 3.0 12.5 j 3.1 11.5 j 2.9 12.3 j 3.1 12.3 j 3.1 10.4+2.6 10.1 j 2.6 11.2 j 2.8 11.8 j 3.0 10.6 j 2.7 10.9 j 2.7 a 10.5 j 2.6 10.6 j 2.7 12.1 j 3.0 11.8+3.0 10.5+2.7 10.3 j 2.6 12.0 j 3.0 11.7 j 2.9 10.1 j 2.6 aud Cduarler 13.2 j 3.3 13.5 j 3.4 13.8 j 3.5 14.1+3.6 12.0+3.0 14.7 j 3.7 12.5 j 3.1 11.7+2.9 11.5 j 2.9 11.8 j 3.0 10.9 j 2.8 14.8+3.7 12.4+3.1 14.3 j 3.6 13.5 j 3.4 12.3 j 3.1 14.0 j 3.5 12.6 j 3.2 12.4 j 3.1 13.5 j 3.4 11.9 j 3.0 12.9 j 3.3 13.1 j 3.3 10.9 j 2.7 10.5+2.6 11.9+3.0 131 j 33 11.2 j 2.8 11.8 j 3.0 12.6 j 3.2 11.1+2.8 a 1 3.3 j 3.3 13.7 j 3.4 11.4 j 2.9 1'l.o j 2.8 12.6+3.2 12.8+3.2 11.0+2.8 3rd Cduarler 13.1 j 33 14.7 j 3.7 13.8 j 3.5 14.9+3.8 12.6+3.2 16.2 j 4.1 12.5 j 3.2 12.5+3.1 11.7 j 3.0 11.9 j 3.0 11.5 j 2.9 15.1+3.8 13.6+3.4 14.6 j 3.7 14.5 j 3.7 12.8 j 3.2 15.0 j 3.8 13.4 j 3.4 13.0 j 3.3 14.6 j 3.7 12.5 j 3.1 14.5 j 3.6 14.0 j 3.5 11.7+3.0 11.6+2.9 13.3+3.4 13.7 j 3.5.12.4+3.1 12.5 j 3.1 14.0+3.5 12.2+3.1 12.2+3.1 14.0+3.5 14.1 j 3.5 12.2 j 3.1 11.8+3.0 14.1+3.6 13.6+3.4 12.4+3.1 4~muader 12.7 j 3.2 1 3.2 j 3.3 13.1 j 3.3 14.0 j 3.5 12.4 j 3.1 16.1 j 4.1 12.7 j 3.2 11.8 j 3.0 11.3 j 2.9 11.8 j 3.0 11.1 j 2.8 15.2 j 3.8 a 14.3 j 3.6 13.8 j 3.5 12.1 j 3.1 14.3 j 3.6 12.7 j 3.2 12.1 j 3.0 13.7 j 3.5 12.4 j 3.1 13.4 j 3.4 13.0 j 3.3 11.4 j 2.9 11.0 j 2.8 12.6 j 3.2 13.7 j 3.5 11.6 j 2.9 11.7 j 2.9 13.6+3.4 11.2 j 2.8 11.3 j 2.8 12.9 j 3.3 13.3 j 3.3 11.8 j 3.0 11.1+2.8 13.2 j 3,3 132 j 33 11.3 j 2.9 Rochest-22 External Penetration Radiation Thermoluminescent Dosimetry 30.0 25.0 A V E 20.0 R 15.0 10.0 Q T R 5.0 0.0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 TLD Location Number~1996~1997 (49) 4.0 LAND USE CENSUS A land use census is done each year to determine any major changes in the use of the land within 5 miles of the plant.There were no major changes in 1997.The land use remains mainly agricultural in nature.There were several private homes constructed, but no new housing developments.
A new Tops Supermarket was under construction at the southeast corner of Furnace Road and Highway 104, scheduled to open for business in March, 1998.The three dairy operations nearest the plant continued in operation with an average of 40 to 70 milking cows.There are no goats used for milk on a regular basis within the 5 mile radius.Beef cattle are still raised on 3 farms within 2 miles of the plant as in the past.An onsite garden is used for the broad leaf vegetation and onsite crops are collected for indicator samples when available.
A copy of the Land Use Census that was completed during August and September, 1997 is attached.5.0 EXTERNAL INFLUENCES During 1997, there were no external influences such as atmospheric weapons testing or accidents at other nuclear facilities which caused an influence on the data reported.The annual trending graphs for air and water indicate a level effect in the measured activity.Rochester Gas and Electric Corporation, in cooperation with the University of Rochester, is currently pursuing a research project to identify and quantify sub-trace levels of long lived radionuclides in the environs of western New York, and to identify their sources and migration pathways.(50)
FIGURE 4-1 Land Use Census Sector ESE SE SSE S SSW SW WSW W Distance to Nearest Residence 2100 m 950 m 650 m 735 m 1130 m 600 m 750 m 1000 m 1500 m Distance to Nearest Garden 2100 m 1770 m 2580 m 2380 m 1643 m 1124 m 1950 m 2980 m 3545 m Distance to Milk Producin Animals 8200 m 5450 m 4950 m Changes from previous year: No major changes from previous years.Construction of new homes continues at approximately the same rate as previous years with no new housing developments.
A new TOPS supermarket was under construction at the southeast corner of Furnace Road and Highway 104.Milk animal locations:
No new milk animal locations.
Local meat market has goats for non-dairy purposes.UFSAR request for unreviewed safety concern Y N X Land Use Census Completed by:/jr cp Reviewed by:
OIehards t~fllk Faelns 4<<S A L T R 0 A D~KO Resldenlhl and Onslness~Reeseailon Aseas~I'a TTn Iclelds T 0.Li'1 j AO.4 i t-'I ,4 4'USD'TI-, 4 an Ctrt~it-,i.~I<<.ROAO SHEI HLllo<<A<<,43~~l I<<%It.1 Jr<<<i!I 4<<4.I'-i l~SO<<TOT SO.PUINAM AOAO<<0 N E S 0 L<<A'S ,-I 4 e l t 4 I r,.~It I!Vl r r 4.4:'-i-I 4..I 1-I T 4 4-'rl TA II I-L T U C K A H 0 E i'I.I I I I 4 (4 ttt Hl ft"~Il p U T E~~I C IK TIv 0 0 I<<C WI~f~I-"I iy-v.ii II p'q>i I-L..t 4 H E WOOOAAO K E S F u'"'N A ii" ii c E tt it 4 I GOATS 3 5 0 A WOODS AO.'*"~..E I I It~'t-4 I-s S L 0 C U A L M 0 M H, t<<'44<<3 p A<<R P 4 I 4 I E PARK tt tl, i, I I 4~I gL Ft~I-"II','l~I C 0'I v'A 0 A D S K E T C R E 4 E K TSASLSa TASCC WAY R D ARID OLS 0NT SCHO lOCi 0 ,, I-'IO STATS 4 I, E 4 I..I STATE ROAD L I N E R 0 A D WHITNEY L I N HAIEY ROAD C 0 0 A D I I l'i.4 N R ROAD A L D R I G H T P D HENNESSEYAD.
FINLEY ROAD GOLF COUASE I 4 TRUMMONPS ROAD A 0 R A 0 A D P E A S E A 0 A D C H A P E L R 0 A EN NGE ON I 0 G E E D D Y EDDY RD.SMITIHIILL ROAD R 0 A D AICE AD.(52)
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6.0 INTERLABORATORY COMPARISON STUDY Participation in an interlaboratory comparison program ensures that independent checks for bias and accuracy of the measurement of radioactive material in environmental samples are performed as part of a quality assurance program for environmental monitoring.
The ODCM requires participation in an interlaboratory comparison program that is approved by the NRC, if such a program exists.Until 1996 the United States Environmental Protection Agency (EPA), Office of Research and Development, National Exposure Research Laboratory, Las Vegas, Nevada, was the NRC approved program.Since the NRC has not approved a replacement for the EPA's program, Ginna Station has engaged the services of an independent laboratory, Analytics, Inc., Atlanta, Georgia.The Analytics Environmental Cross-Check Program supplies sample media that is similar to routinely collected environmental water, milk, and air samples, as blind spikes at levels of radioactivity appropriate for environmental monitoring.
The blind spikes are received by Ginna Station and shipped to JAF Environmental Laboratory (JAFEL)for analysis with routine samples.Ginna Station assesses JAFEL's analysis after receiving Analytics Report that compares the JAFEL to Analytics results.An assessment of JAFEL for analysis bias of the Analytics blind spikes is not possible at this time, since during the first year of the program the baseline history for evaluating a bias is established.
An assessment of JAFEL for analysis accuracy of the Analytics blind spikes was preformed, using the acceptance test generally referred to as the ANRCO method.This method is contained in NRC Procedure DVP-04.01 and was taken from the Criteria of Comparing Analytical Results (USNRC)and Bevington, P.R., Data Reduction and Error Analysis for the Physical Sciences, McGraw-Hill, New York, (1969).The accuracy evaluation is as follows: R<<R I Ii=A~li V I P p I~II=JAFRI V I Analytics Uncertainty Analytics Value Using the appropriate row under the ERROR RESOLUTION column in Table 6.1, a corresponding RATIO OF AGREEMENT interval is used as the acceptance criteria for the comparison ratio.(53)
~~/7 TABLE 6.1 ERROR RESOLUTION
<3 3.1 to 7.5 7.6 to 15.5 15.6 to 50.5 50.6 to 200>200 RATIO OF AGREENIENT 0.4-2.5 0.5-2.0 0.6-1.66 0.75-1.33 0.8-1.25 0.85-1.18 If the comparison ratio falls within the RATIO OF AGREEMENT interval, the analysis is assessed as agree, and if not the assessment is disagree.Table 6.2 summarizes the Analytics Environmental Cross-Check Program.A beta and an Fe-59 analysis were assessed as disagree.No recurrences of disagree assessments were made for beta or Fe-59 analyses by Ginna Station=s Analytics Program or JAFEL's in-house lnterlaboratory Comparison Program.No corrective actions were implemented by JAFEL as a result of the disagree assessments.
(54)'
'7 g'TABLE 6.2 amp e Ginna Log¹(Analytics ID¹)Media (units)JAFEL Value na ytics Analytics Uncertainty Error Comparison Value (3 sigma)Resolution Ratio Assessment 97%26 (E1069-80) water (pCi/L)beta 97-355 (E1070-80) water (pCi/L)tritium 97-337 (E1068-80)(pCi/L)Ce-141 Cr-51 Cs-134 Cs-137 Co-58 Mn-54 Fe-59 Zn-65 Co-60 97-338 (E1067-80) milk (pCi/L)Ce-141 Cr-51 Cs-134 Cs-137 Co-58 Mn-54 Fe-59 Zn-65 Co-60 I-131 97-614 (E1165-80) particulate filter (pCi)Ce-141 Cr-51 Cs-134 Cs-137 Co-58 Mn-54 Fe-59 Zn-65 Co-60 97-642 (E1162-80) water (pCi/L)beta 97-658 (E1163-80) water (pCi/L)tritium 97%13 (E1164-80) charcoal cartridge (pCi)I-131 water 188 1210 177 250 102 161 120 129 125 230 151 196 287 110 181 108 139 126 226 164 58 62 229 73 97 56 87 127 179 160 312 312 2960 50 139 1313 192 288 118 176 112 123 110 214 151 213 319 131 185 124 137 122 225 168 61 62 245 82 86 49 71 96 158 159 291 291 3498 60 66 10 14 6 9 6 6 6 11 8 11 16 7 9 6 7 6 11 8 3 3 12 4 4 2 4 5 8 8 15 15 175 60 60 58 62 59 59 56 62 55 58 57 58 60 56 62 62 59 61 61 63 61 62 61 62 65 74 53 58 59 60 58 58 60 60 1.35 0.92 0.92 0.87 0.86 0.91 1.07 1.05 1.14 1.07 1.00 0.92 0.90 0.84 0.98 0.87 1.01 1.03 1.00 0.98 0.95 1.00 0.93 0.89 1.13 1.14 1.23 1.32 1.13 1.01 1.07 1.07 0.85 0.83 disagree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree agree disagree agree agree agree agree agree agree 7.0 ERRATA Table 3-18 of the 1996 Environmental Radiological Operating Report had a discrepancy in average mrem/quarter for 1996.This error, which occurred on the graph, but not in the data table, was due.to an averaging error in preparation of the graph.A corrected graph is included with the erroneous graph for comparison, Figures 7-1 A8 B.I Three items reportable in the Annual Environmental Radiological Operating Report under CHA-RETS-VARIATION were reported as follows: 1.)April, 1997, Circ-out water Ba-La LLD was exceeded due to laboratory error.2.)September, 1997, Environmental air sampler 07 out of service, Trouble Card issued to repair or replace sampler.3.)September, 1997, Environmental air sampler P6 out of service, Trouble Card issued to repair or replace sampler.(56)
Rocheste Electric , External Penetration Radiation Thermoluminescent Dosimetry 25.0 A 20.0 V E m 15p R e m I 10.0 Q T R 5p 0.0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 TLD Location Number~1995~1996 (57)
Rochester Gas and Electric External Penetration Radiation Thermoluminescent Dosimetry (Revised)30.0 A V E 25.0 20.0 m R 15.0 m 10.0 Q T R 5.0 0.0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 TLD Location Number~1995~1996