ML20136B454
| ML20136B454 | |
| Person / Time | |
|---|---|
| Site: | Hatch  |
| Issue date: | 08/29/1979 |
| From: | GEORGIA POWER CO. |
| To: | |
| Shared Package | |
| ML20136B452 | List: |
| References | |
| NUDOCS 7909060268 | |
| Download: ML20136B454 (33) | |
Text
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O 1
GEORGIA PO'4ER COMPANY PLANT E. I. HATCH UNITS NO. 1& ?
SEMI ANNU AL REPORT "L A'IT R ADIC ACTIVE EFFLUENT RELE ASRS JANUARY 1, 1070 JULY 1, 197g O
- O ,
79090601b
_- =_. . . ._ _. _
4 '.11 AN N U A L h t PO W"
- L:'l-
TITLE PAGE
- 1. L : 0_*J
- - - - -I - D
_ __E F F L U E N T_S 1
'._ ? M'JL ATORY LIMITS 1
'.. * ** A Y I MU'i PSRMISSIBLE C0tiCENTR ATIONS 1
'.; "EA SUR EMEVTS AND APPROXIM ATIONS OF 7 0' AL R ADIO ACTIt'ITY !!
1.3 BATCH RELEASES 6
? G ASE0flS EFFLUENT 10
?.1 REGULATORY LIMITS l4 2.9 MEASUREMENTS AND APPROYIMATION9 0F
~0T AL R ADIO ACTIVITY 21
?.1 GASEOUS EFFLUENT RELEASE DATA '!5 1 SOLID WASTE 25 1.1 REGULATORY SPECIFICATIONS 25 1.2 SOLID WASTE D ATA 25 l
O -
9EMIANNUAL REPORT
() ' 'A f
- 9 tD I0 ACTIVE EFFLrf ENT RELEA9E9 i : ITio E LI9? 0F FIGURES PAGE l
'.' M ?90D9 0F '4 FETING T ARLE II 7 C O L'J M 1 ? M PC LIMITS '10 CFR 201
. '1, 5 L' QUID 9AD4ASTR ANALY9I9 - flNI T I 8, 0
- 1. 1 1, 5 LTOUID RAD 4ASTE ANALYSIS - UNIT II 10, 11
- 1. 3 LTQUID RAD 4ASTE DI9 CHARGE PERMIT 1. ?
1 9a, b LIQUID RADVASTE DATA COMPILATION 11, 14 TA?LE LIS? 0F TABLES PAGE 1-la, 5 EFFLtJENT AND 4ASTE DISPOS AL SEMI-A NNili t R EPO RT , LIQUID EFFLUENTS-SU!!M e TION 07 ALL RELEASES 19, 16 1 's, b EFFLUENT AND WASTE DISPOS AL SEMI-ANNUAL REPORT, LIQUID EFFLUENTS-3ATCH ONLY 17, 18 EFFLUENT AND WASTE DISPOS AL SEMI-('/
(_
- ?-l ANNUAL REPORT, GASEOU9 EF F LU ENT-SUMM ATION OF ALL RELEASES 26 2e EFF LU ENT AND WASTE DI9POSAL SEMI-ANNU AL R EPORT, G ASEOUS EFFLUENTS-ELEVATED RELEASE 77 21 EFFLUENT AND WASTE DISP 09 AL SEMI-ANN 1I AL REPORT, G ASEOUS EFF LU ENT.9-GROUND LEVEL RELEASES 28 1 '.1, 5 EFF LIIENT AND WASTE DI9PO.9AL 9EMI-ANNIIAL REPORT, SOLID WASTE AND IRR ADI ATED FURL SHIPMENTS Po, 10
)
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L IQtIID EFFLilENTS
'l 1 . 1. . '? ", 'f L t ?O R Y L T '4 I ? 9
- 1. 'he naqcentaation of -1dioactive mate"ists releasad in
q2 id ristes fro 9 1.1 1
aeacteas at the site shall not s v ~ a .4 the vs ' .i a s soeci#i ad in 10 CFR Dart,20, Aooendix 7 Tawla II, Co'umn '>, c- o u nre s t"i c ted a"es.
. ~he cumu '. 3 t i v e "elaase or "adioactiva materials in
'icutd 4astas, a r c 1. u d i n g tatttum and dissolved gases, 151.11 not eveeed to C i. / rea c to"/ ca l.enda r q ua r t e r .
't . The cumulative relaise o r radioactive materials in etquid wsstes, excluding t"itium and dissolved g a .i e s ,
shs11 not exceed 20 Ci/reacto" to any 1? consecutive months.
- 2 Du-ing aelaana or "adioactive wastes, the effluent control monitoa shs11 ba set to alarm and to ini t iate the automati.c closuae of the waste discharge valve orio" to excaeding the limits specified in 1. abova.
9 The oceashility of the automatic isolation valve in the liquid "a d ioac t iv e waste discharge line shall be damonstrated quaateriv.
- 6. The equi.pment installed in the Itquid radioactive waste
{s -} svstem shall he maintained and shall he coerated to orocess radioactive liquid wastes ortor to their
<*tscharge when the orojected cuniulative re l, e a s e rate could exceed 1.25 C i / re a c to r /ca l,e nda r q tt a r t e r ,
excltiding tritium and dissolved gases.
7 The maximua "adioactivity to be contained in any itquid ,
, "adwsste t a'n k that can he discharged directly to the enviaons shall not exceed 10 C t, excluding trittua and dissolved gases.
- 3. If the cumulative "elaase of radioactive materials 4. n liquid effluents, excluding trittum and dissolved gases, exceeds 2.9 Ct/reactoa/ calendar quaater, the 1Loensee sht11 make an investigation to identify the
., causes of stich "e' eases, define and i. n t t i. a t e a orogetm of action to -aduce such aeleases to the des ign o%iectiva levals and "eoort thesa actions to th*
C77m'nai.6n 's i t h i n 't o davs f"qm t *1 e end or the qua" tee d 't a t ig 45tch the aelease occu" red.
7 An in n o 1111a 4 oa uncontrolled of fs tte relaase oc
~3di.o19tive 91ta-tsis i. n Itquid efeluants in excess of 1.9 at eroinding di.ssolvad g19es shall he reported.
O i
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- . -a' 'Ti? concen'rati 193 Tae t a '< a q "aon 10 CTR P1"t 20, Anoendix 4 3 5 '. ? TI, 03'unn 9 Rel'ane "Tte .t q d d'lution ratto fo- e105 5 st 35 1-a ieteamined 5v 1 mixed nucilde MP" c11 7u11 tion oea aorced w 'v e t 'l a all n ae of tha 57tch.
'o f a c i l. i t 1 t e the measurements
-114 n '.7'1 1 1ti ons , tha nuclides o r Column 9 which can he producai
- i. , 1 amia, a.netoa have 5aen g a n 'i o e d according to MPC value aqi ,
'voe of and11 6l'n a1 7ho in i1 7ia sae 1-1.
": ' e,qqantat'. tan of etch or the 99 tt91a emittiqt nuelties 1 soacietan'1v n o t a.i in r i zia-a 1-1 is m a a s 'a r e d indtvt'ually 'acasse l
o* ntwaest in that quclida or because of inadequate sensiti..ity !
"o" t 'i a que' lie fro 7 3 taoss t o t i v i. t v measurement. Fo* any of the 31 qit ,14 13 s not detected in the g a m m '. scan, the MDA limit is !
r co70'itad eon the measuaed daca foa that s a at o l e . I Only two pure beta emi.tteas, Sr-90 and "r-90, have MPC values less than Q Y 10 6 i..Ci/ml. Individual measuaements are made on o ; o o o a t i o n a l. comoosite liquid rad <aste samples to determine the 'D - 9 0 and M 00 concentaation oa MDA value to be aoolted to indi viius1 bates release calcu1.ations.
A' thonh the MPC limit ior trittun is greatea than Q X 10 4
, a seolatte measurement is made for tritium since the gross beta t a c q q i. q u e does not orovide an acceptabl.e tritium measurement. A ii.s t ill a t i o n and itquid scintillation counting technique is usa.:
to -leasuae tritium concentration, he m a x i'aum activity of gamma and beta e'e t t t in g nuclides with MPC pd values g"eatea than 0 X 1. 0 6 uCt/ml, exceot for the 20 riu '. i de s noted above, is determined by gross gamma and gross beta maa s 'tre m en t a . M e as'a r em en t sensitivity limits of approximately ?
cos/ml allo < a null measurement to show that the s tam E (Ct/MPC1), is less than 0.1 for gamma and beta nucitdes not measured directiv.
The sum of the ratios, E fCt/MPC11, for alpha emitters can be
- show"n to be less than 0.1 by a null measurement with a s e n s '. t i v i t y limit of aooroximately 1 X 10 -2 com/ml. Gas flow I
counting is used to achieve the required sensitivity of l
1 measuaement.
Thun. exceot for radionuclties produced in ne gl igi bl e quantiti.as l 11 1 a'.qston raaction feg. I-129 I-l?o etc.), the methods
, q u ', ' i n e d 150v9 provide a means to assign a quantitative 1v l
- ? t s a c ui or "DA v a l 'a e to 111. nuclides in Column ?. These et i taed .194 c a l c ul. .i t e d co n c a n t r a t i. o n v319es for each hatch are 1
saad to c1'.c1.1te tha d i ' u '. t o n ratto, a e l. a.t s e rate, and d i. l u ti o n
-it? Sa'or te re' esse of each batch. Both the concentration and
-213 u e data are sto ed on a comouter dise file. The disc file 11 .1 '1 incad to 19 3 't a e that ouaateriv and anqual aelease limits l
i-a w. ete?aled. 71ses uaed roa the data of 'Pa b l e 1-1 are is
'ol' m :
/ \
(2) m 6w e
1 1
. . .. .. . . . ..<....2
. t -s i . . u n . . e i . . .: a c t, t v t. i e :$ ano tnet ane t 't a ,L D concentaation o r all isotopes that were not measuaed i' 111 not meet the n i n i min sensitivity limit as set forth I in ' '1 e In vi a a n v n t i l a c h Soecs. This sun is foa each batch ael311=1 to the ai.vea "or the resoective quaate". Pe rce n t 3" a n M ic1M 3 t i m i. t is 1e t e rm i. n a d from a ,itxed nucl ue MPC l S a ' 7':' s t i Sn. The av a a t .te concentratton for ea h nuc111e 1nnai vr?- 1 11 bstches is d i. v i d e d by the coraesponding i
d*
48 4 ':1' MPC v11 2e, The sum over a l l. nucl i des of the
'4 0 ' atin, times 101 i s the cercent of ao ol ics hl e 1. t "14 . t
'qa e ." " ' 't a n ' aeleasas during the quarter.
- 9. Tatt**n - 'he measured t r i t i. um concentration in a composite sanole is used to ca l. c u l a t e the total relesse and average it'2 tad concentaation du ai ng each period. Average diluted concentration divided by the MPC limit, 1 X 10 l uCi/m1, is converted to cercent to give the percent of appitcable limit.
- 2. O tss ol vad and entaatned gsses -
Concentrations of dissolved and e n t ra i. ne d gases in liquid effluents are measured on each bat:5 hv Ge/Lil soectroscopy on a one liter sample from each
'. t q t t ! d esdwaste ba*.ch. Dissolved and entrained gases for 951:5 metsured or MDA concentrations are d e t e rm in e d include no 41. e cases with half lives greater than 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> Xe-135, X e '.13m , Xe-13', and T=-95. Iodine radionucitdes i. n any form are also determined during the isotonic analysis for nach batch, therefore a ceparate analysi.s for possthle taseous forms is not performed because it would not provide a d d i t i. onal informcbion.
A conseavative release i tat i t , the maximum sensitivity limit of 4 X 10-5 uC t /ml of each dissolved and entrainend radionucl.ide a s scecified in Regulatory Guide 1. M , has been s p p 1. i e d in determining the cercent of applicable limit.
p
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_ , _ . . ._ -- - ~ ~ ^ --
. . la*1'1 1
. n* the 1,T'vtt:31 o-oceduaas for itquid "adwaste a n s 1.v s i s tra containai i. , o n a - 1 *. i n g D"ocaduce HNP 7601. The f o l l. ow i n g
() measu-amants 3a= caa",amad is i n d i c a '.a d :
'O' t v3 9 M FNT FRRQUENCY METHOD
. 11991 '70 tant ? TTc5 99tch l e f f,i i soectromatav with on 'ine cotoute".
?. G - o .1 s lan93 Each Attc 5 ? X ? NaI wel.1 cavstal counting
- 1. Gaoss matt Each Aatch Gas flow o oportional counting 4 Sr A4 Quarter 1v Che m i.c a l seoa"ation and Comoosite gas fl.ow orocortional counting 9 3r on Quarte"lv Chemical separation and Comoosite gas flow orocortional counting 6 Trittum Monthly Distillation and itquid Composite scintillation counting 7 A l o'la Mont51v Gas flow proportional Composite counting 9 Dissolved Gases Each Batch GefLt) spectrometev wi.th on 1.ine computer I
i O
(4)
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. . , .. -,.a.ti.s, . .u ava ur .: u 4 " < t . o rn 9* 3 compostte 3 T "10 ' e .
The "e/Lil datector ccqsist of a 1.04 and two 19T efetetency, 0.0
? V H'1 aesoition detectoas in 's - i n c 5 t h i. e k lagd shields. A ona '.itaa a3%19te Itquid s t "t o l e is g e 1.1. 3 d in a Marine 111 h e a 'c e a ;
in oaanars' ion for s 9000 1000 second Ge(Lii count. A ceak 1=sach o c *5a -a vi l '. t a g e19 ia asy soectaut is cer toamed by the I an-ti.na c 6 9 0 u '. e a system. Eneezy and net count data foa all I s '. t n 4
- i c a n t c a l'e s va deteamined, and q is n t i. t s t i v e reduction or
'iD 4 e t ic'il a t i on s saa nerformed fo r the nuclides 1.isted in Figure 1
'. The q u 19 t i. t a t i v e eticulations include corrections for c o ii n '. i n g tt9e, dec1v time, samole volume, samole geonetev, detectoa e f fle t ency , baseline counts, and branching aatto. NDA esiculstions, including the above corrections, are mtde based on the counts in two standard deviations of the baseline count at the location on the spectrum where a peak for that nuclide would be located if oresent.
The Sa'culstad radtonuc1 tie concentrations on MDA values from the 2snns scan and from oreviously stored Sr 90 and 9r 00 values are used to calculate the dilution ration E (Ct/MPCt) and allowable relesse p =. e a m e t e r s . A samole printout is shown in Figures 1-2 and 1. 1 The Liquid Radwaste Discharge Permit P"intout is tran s f e rred item by ites to the fiast coation of the release permit (Figure 1 4) by a laboaatoav techotetan. Although the computer could orintout the release permit and will inform the technician if a batch cannot be dischaaged as desired, a manual transfer of calculated resalts to the release permit by the techniotan was teolemented as moae likely to catch abnormal conditions 19 the data.
The Itquid radwaste monitor setting is calculated by the computea based on the gaoss gamma activity as measured in the sample used for laboratory analysis. A coefftetent has been determined which relates lahoestoav gross gamma counts to the monitor count rate.
If the monitor count ante exceeds the calculated setting during itscharge, then the Itquid osssing through the monitor is not recaesentative of the sample which was anained in the lab. A monitor reading in excess of the calculated setootnt there f ore ca s u '. t s in an aute.matic termination of the Itquid effluent c' t i c h a r g e . Liquid effluent discharge is also automatically terminsted if the dilution flow rate falls below the flow rate uni 1, the comontee calculation.
When *5a elessa oeamit is returned from Radwaste Operations f o l' 79 i nt 48 1chtete, the itscharge data 's combined with the 191 ' v 11 s casults on the co-iouter itse file. The disc file may be 17171ed to d i .s o l ly trends in any accorded paeameter, or may be a
1 n9a
- sa ae c o a'. t q t nuapones as shown 19 Figure 19 O
O l
I (5)
. , calestation is perroaned in the Ge/L*) spectrometav system with comoutar data aeduction using the Liqtt.d Radwaste Libaarv which i
8.n e t tid a s tsae1.
3 eve-a' :o :9ents mae indicative of the s tac c a s s of the HNP 1tquid aadva s te or7zaam during this recoettog period:
! 1. 1"- = total 9ea viaed activity aeleased in liquid e f f1tten t for both Units wa s 0.0? R-? curi e for the first quarter and o.11
" r oa 1 c t a i. e the second ouartea. These values weae 1 o o r o x i m a t e t. v 1/;00 for U n i. t 1 and 1/1044 for Unit ? for the r i. s t quv tea and 1./1974 for Unit 1 and 1/68ho for Unit 2 for the second quarter of the sllowed 10 cuales per quarter cea aeactoa.
?. The radwaste release p roc ed u re strongly e m ph a s i. z e d reprocessing aather than discharge of itquid radwaste.
D u a l. 9 g this aeooat period oniv 20.4% of the Itquid radwnste e ac 'q in g the samole tanks was dischanged; 70.1% was recycled back toto both of the reactor water systems.
- 1. A complete isotoote scan, gaoss beta, and gross gamma counts and co aio u te r analysis were per f ormed prior to the release of each of the 658 discharge batches for both Units.
l.h BATCH RELEASES Re gut atorv Guide 1.?1 Tables 2A and ?B are found in this report O- as Tsble 1-1 an1 1-?. Data is presented on a quaaterly basis as Sea Regulatory Guide 1.91.
Othe- data certinent to batch releases of radioactive effluent fros both units is as follows:
Numbea of batch releases: 658 o
Tot'ai time period for releases: 77142 minutes
'4a ti, siam time oeriod for a batch release: ?02 minates Aveatge time period for batch release: llo minutes Mi ni stas tt-te oeriod for a batch rel. ease: 70 minutes Aveet ge 3t-eam
- low during periods of release of effluent into a T1 wing s t re vi: 19h11 CFS (O
/
1 i
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.- . . . _ - - - -- w
_ = _ _ . . =
MPC 9A'M E l GAMMA-RAY BETA ALPHA i
(U Oi/71) EMITTERS EMITTERS EMITTERS
! ' 21, !- 17 ? , I-191 Sa Ro , Sr 00 I-1", C 3 - 1 111 ( S e o a as t i.on %
%s " low
< ') Y 1.0 -6 '"et,ti t G a nm a- R a v Counting)
Soectaoscoovi ALL !
6 l l I
(Gas Flow l
! Counting,
. Sensitivity l 0. 01 CPM /ml) 9a-La-140, fle-24,Cu 64 Tritium
~
CO 60. Fe-90, ?n 69
>o X 10
- -Ai IT5% Mn M- M 5 8 (Distillation a
! Liquid Scintil-
- lation Counting)
Tr-Nb o E , Cs-Ba-117 '
A s-7 C F-18, Cr 91 l All Others
- !! o - N C e - 1 1Il l i Mo-Te co, Ce-Pr-144 ! (Gas Flow Counting (G e( L1) G amm a- Ra y Sensitivity -?
{* I Spectroscopy) a
{ CPM /al All others l (Gross Gamma-Well i
Countea; Sensitivity l
- 9 CPM /al) I mem e e e e e e m 6m*e e emee w weem e e eeeee ee m - N M e_e6 m e 66 1
O (7)
l l
l 1
. ..............................e,.es. ........ 1
+ E. I.
- n' U- Hu: ' e nr Ptant *
- Li aut : C n t ast. . e. g: sis +
h e: ' : e . Bsecne 2La Th.. .t Re :ie c ' ' %e : 135 rinutes Cv me, r : w l .*, w .: :.: : Tijs i F 3 Om 2 s ,: !? -2 0452 Co m' s' ar t date: 7 22.-79 VMJ 2831 4 ' I .* e : :0?} 0) el CIso t i n.e : 3000 s eca Ce. 4 - . 94: ; *; - 0 L + ve tiie: 3000 secs D4 t e c ' ,:. - e 3 neye 3 Li*r ara : L F u t !.2 ,0p e r a' or : JR !
l Er d r ;, *
- em. .52 + 1.000-0 9 + 0.000E+00*Che '2 + 0.000E+00+Che ? : 0? 22 '? c:.9 Eit . 1 C l . !42 E-02 E -2.S ! S9E +00) + 206.044
- E'(9.0990E-01 3 : 07 20 ?) 0050 wnere E Energv in riev.
!!OT0*E ENE*GY CCH:ENTPiTION EPEOC MPC C/MPC
- eis s uC o . en i s a uC o < a. l i (uCi/a1)
Ce-144 137.!0 :9.74?E-03 IE-05 <9.74E-03 Tc-24% 140.50 st.104E-03 3E-03 s3.65E-Oi Ce-141 145.40 :2.129E-09 9E-05 :2.?TE-04 No -2 3 9 2 7 * . .a g (g,g27g.g7 gg.04 ( g , g 3 g, c 3 Cc-51 320.10 (1.413E-07 2E-03 .7.06E-05
!-131 264.50 (2,005E-08 3E-47 si.63E-02 26-49= 426.70 (1.457E-04 6E-05 s3.09E-04 W-t?? 479.50 (7.241E-09 6E-05 (1.2tE-03 F-13 110.54 :4.754E-03 5E-04 st.35E-04 T-133 529.50 <t.93?E-03 1E-06 :8 54E-02 (3.34E-03 34-140 52*.40 (7.434E-03 ZE-05 As-Td 559.30 s3.910E-0S 2E-05 *
.t.96E-03 CA-134 604.30 1.23tE-04 4.296E-OS 9E-06 1.??E-01 Cs-137 d61.T* t.34tE-04 5.if9E-03 2E-05 4.2tE-02 Mc-li '3.2.70 8.TiOE-03 4E-05 <2.19E-03 2r-97 ?43.5J <t.515E-08 2E-05 <?.54E-04 2r-)? 754.)O ' 2. 4 ?iE -03 (E-05 :4.14E-04 HD-95 765.40 ;1.52iE-03 IE-04 1 !JE-04 I-132 7'2.60 *t.503E-08 9E-06 rt.35E-03 C4-51 310.5) 3.T!6E-03 1.iOJE-23 )E-05 9. tie-04 Mn-54 5 3 4. *? 1.32tE-07 2.t?tE-09 IE-04 1.?2E-03 ag- t t0s. 3?4.?? 2.0)tE-08 3E-05 .4.*TE-04 2r-45 :115.43 1.11?E-06 7.64tE-03 IE-04 1.12E-02 I - t*; 5 1260.70 2.T+tE-04 4E-06 c f. M E-0 3 Fe-58 :: l.40 't.352E-03 dE-05 3.10E-08
- Cs-40 1372.4? 5.42:E-0? 3.73tE-09 lE-05 1.$tE-02 C.-i4 1345.)) :1.7t!E-06 2E-04 (6.5?E ': e n-24 12s;.!! 1.i3JE-03 3E-0? 5.iOE-04 L.-140 !! M.-? .!.20!E-J) 2E -05 2.*TE-04
-to - ti titt.00 it.?)4E-09 IE-04 st.??E-04
% . . ..- . t e.e s:s 4. M4E-44 t.142E.e7 2. 6 4 E --) t
,;) . . ,1 3 ; . s ; g . .N (t.etE-dl
,.,,3 , . ? ( . .si 4..N E-04
l g re-131 10. O I
- '. 46 2E -09
(]
\ Kr-i2 Xe -17 t'
2;;.13
.10 2. i t s' E - 0 5 4E -05 4E-05
- 6.4.c-04 1.34E-07 (7.;eE-04 f
xe-t35 244.i0 1.?;iE-05 4E-05 <3.;iE 0;
.-m N 5. 00 2.-04E-03 4E-05 <3.;ti-04 kr-37 402.70 4E-05 Fe-l 0.7'tE-03 4E-05
< 2. 4 0 E - :' '
4'4.50 1.05-E-02 <d.4aE-04 4E-05 3.40E-04
% u.r.1 2.: * : t t's 0.000E*v0 LL'e ;ns * :t al s 0.000E-00 0 n0E+00 T : * .1 p.4
( 3. 4 )*E-0 7
- 3. 4 07E-0 7 (9.5;E-03 3.5;E-63
.l C uneve GROH 4CTIvtT.
Gr.: a a P a 6 grow.3 fine vol Ngt Count a C sur.e 4 ( tii n ) 31 Errac Act i es t a :pm nl) 1 $tp a 18 : 1 1 C",4 ' a l 1455
'140.3 20.0 2 Fr.pe.eei.:.al 2I6 141 1.30E+00 1.34E-00 10.0 2 3.75E'00 , 9.45E-01 Es7: LATED '.iA 5 7E TarW V0LUME=~ tot 37.00pallons ESTIMA!ED $C;IVI! This I ATCH= 1.90E-04 Curses
( 1.90E*02 Nicr oc ur ' e s s '
C]' ""'"""""'"'~'
''5"'"'***"''"
PERCEtet 0F TECH SPEC L IMI T = 1. ??E-02 l
1; t:GHTH AC Tiv TV 7Ei.E4 5EC TM7.'CH TH: S EATCH <Ci>= f 4.05E-02 ;
PEPCENT 0F TECH iPEC L INI T = 2. 02E-01 ,
THE THE dCTl ttAMillub /ITY 0F ' TH'5 I ATCH IS !?O.07 UCURIES !.
.'OJ SJANT TO PELEA3E IS 100 uCi THEEEF03E YOU NEED YouR SUPEP'/!50R TO 06 THIS RELEAfE O
yL 'd 26a6aste Releas4 Summaa>
1 )Me as . r adi o-*.uc i t.:e tonc., eve luding gases (uC i e ns t ) : 4.?5E-0"4 +- 1.14E-07 2\CalculaveJ LLS c seicene r at ion. 4 g iudteg dissolved gase s
- aCl el ': 2.7CE-05 3 C alcul at e j MF C r at ic s C- NFC of me as. . inc luding gases t: 2.60E-01 p
4 tt i . . m e 3t tut s sn el:u rate ' ;rs.': 10000 5 ns i 1, f e ae.t J e se tw je F l .w e a t e < ;ans : 33739 6 ' Inse c s i n e 3 e ae.6 e' l :,2 e at e < gras: ?$
7 ** ada u' <on s ' or trip set'in;: 'li A.*
- 4. ?5E-0 t \ :4 Lin uC e w!
C
- 470)?000.00 .'1xi':r P3 ter >Ci 'el t = li5 . tui . ' ar K CF3 F =2 .Co"J+'v. F li'er E,e e ee e s % # . 't . se as, Q ' e, e r ' , s e e me point ce , ele ase fuCi is t * : 1. 4 0 3 Z - ' 5 3:nie er ~. a
. . * * > e n s ;v e 10CP 3 I t i. i t s se * *. o ' e c e e 14 !! 3:54's BA? cms 2 .*
- W an LUC CE; rrytty ;resEL .
iS E : f 4ri I? 8EP 45' At MI
FIGURE l-3a 13 l V .
' ..................... . ..e.....................,
t
+
- t. !. Hoch tiu.:1. e Finnt +
L s c.u i d F 4 e u t 4 A.. . l . .s 4 .
.ee, ................ .............e..........,
i F.< sct orft 2 F. e d.e 1??
T an:. : Citt1 A oper p or : D:0 Ca 4..t : h!GM tori:.. . HIGet TtsF I . .
Ruo d at e : J.14'79 1301 SU ple volo:<: 1000. 00 a. I '
Count st art dat'e : 3 't 4. 79 *u911 C l oc k ' t i n.c : 3000 aus Crotetry ce a: tLH3 Detectors 3 L i v< ti6e:*2000 secs .
M(At 3 Lit.r1 y: tria.!:
Energ /te <W= .59+
1.000 Che + 0.000E +03-Cht -[ + 0.000E+00*Che '3 : 03.14 79 0.'*0 '
n E f e' = 1.- [ 1. 9 4 9E -0 )
- whe r e E = E r.e rgy i n it cEa(- V. 2. 6?0!E *
- 00) + 211.112
- E*(9.262:E-0: r3 : 43.t!<T.* 0100 e 0
. l e
150T03E Ft.IRGV CC43C EN T R A!!0f t EPRCR hPC CntPC U eV) (uC e / ail ) (uC t . e.1 ) (uC e I) 33333 333 3 sRE a3 3 3 33 3 333 3 36 3 3 3 3 33 b3S E s b a s t a ds33B S ASSP G s Bb t T Wa s s ak s a t s st r . T.s ga W d W%
. s d Ce-144 1 H.54 <5.232E-03 IE-0* < 5. 0 ;F.-V i
, Tc-99% 140.50 < 5. 6007.-09 Ci-141 145.40 3E-y < ! . NE 04 it.159E-03 SE-0. < t . 2 rE- A l lic-23 3 277.i0 <C.05 E-00 IE-04
<i.05E-04 ,
Cc-51 120.10 (7.374E-04 2E-03 t 0. C?i-O'e I-131 2d4.50 (i.?99C-03 3E-07 i?.33C-02 2n-69. 430.50 (7.0?0E-09 .4E-05 .t.:a~ Va N-tS7 479.50 (2.83*E-04 4E-05 (4.9tE 04
- F-lJ 51!.31 (1.251E-0?, 3C-04 'I . 50 E *.;*f I-133 529.50 (9.517E-09 tE* 04 < * . 54 L 01 14-140 537.40 <4.40?E-0$* ' 2E-05 .2i201-01 As-76 559.10 (1.77?E-09 -
2E-05 (S.22C-04 Cs-134 (04.70 <!.24*E-03 9E-04 <t.18C-01 Cs-137 C41.i4 (1.19tE-03 2E-05 .5.49E-08 4 No-99 739.70 (7.073E-OS 4E-0! (1.77C 02 2r-?? . 743.50 (7.13CE-0) 2E-05 (3.57t* 04 2r-95 756.67 (1.707E-00 iE-05 s' 2. 75 C-04 flo- 75 745.34 (6.i93E-03 1E-04 s i . e - E 6 '.
1- 1 32 772.60 (1.533E-09 SE-Oi .4.42E-Ot Co-53 E10.62 '4.724E-07 2.6?0E-OS 9E-05 5. 25 F.- o ;
tir. $?4.30 (1.450E-03 tE 04 <t.4TC 04 A Vll h $?4. 70 (6.415E-09 30-M s2.15e-04 2n-i! 111i.01 C.074E-09 2.934E-00 IE 04 4.??f 04 I-135 1160.50 42. 341E-03 4C-06 s t. ? .tE -0 ;
Fe 59 1 91.53 (1.115E-09 (E-05 <t.tvC-0.
Co-40 !?3;.20 5.169C-00 1.2?4 -05 3E-05 1.77E-6?
Cu-(4 1?45.!0 *8.741E-07 2F-0, < J . N F.- a t !
. fan-24 I MA. 45 (7.5?4r-09 L - 0 *.
.53i. 0-La-140 15 4.40 <5.339E-01 '
2C-05 < i . 9.* E -( 4
Ito 56 1(I t. 20 (1.524C-03 IE-04 't. 9i-04 tr-4) (tF T A : (3.310E-0? 3E-04 *l.0vE-00
(( Tr-90 s I-i i A e 9.t10E-09 1.510E-09 3E-07 3.04E-02 t's - s u < .! '<*.l. 5.440E-07 4.31N-pi L' D s :e si s 9.7 C *c .
st.421E-os
- s5. vat.-c; Totsl: ?.oliL-06 ?.7rC-02 e ,a (10) . . - - -
-- - 8
~
FIGURE l-3b D
- T :i .* e t- U t C 3 4
>f-l?1 ?O. ?? (1.701E.02 L{t '
.1 1.5;.10 4E-05 -
3 r ?. ' : 3F .(.9 4g,gg lN*Q'r-XC -1:b 257.:i :i.f aiE-M N4-!.
.iE-US <l*.. #
(5.720E-09
~
2 4 i . @.' l D e - ? S '.
4r.n5 .
W' 5. ( .'
l'r - 0 7 402.70
<2.754E 0;
<l.814E .)?
4 [ . p e, q . p .,
] ' $ c'
- , 1
,(24 ki[ ..Eg-0[' q.g[
<4 - 13 3 4i4.40 <l.10;E-12 4p.05 r H < 14 u 14 ;as 'ot als 0.00.)E+C0 0.CJ0E+00 0, %. ,, 0. , .
LLD gu vo'als <l.285E-O' TO' =l GM l.?CSE-0 " ' 's I b ' ,0y g g g . y' ,
GF0$3 ACT IVITY C oar. u r Cross I ao gr o'n.c T i see vol tie t
- t.r e ce CountJ Counts (M e ep a.1 Activit%crm'h!'
1 S t r. :.
HsIt : : se al I??O 1542 20.0 2 1.10Et0! 1.4!E.Cn -
E ropor t ion al 144 143 10.0 2 -2.0CE-01 e.54E-01 EST It:;!Et, uqs TE TAri: VOLut:E= 5553.00 g s l i c.ns EST!! ATLI' 6CTIVITY THis idlCH. 1. 25 E-05 Curiva < l.2TE*01 H i -: r s : ur i e 2 ',
OUrW TEE LY A;IIVI TY RELEF. SED *HE;0L'CH THIO SATCH (C l > = Ol 24 E - 0 ",
PEFCE:IT 05 T ECH $T EC 1. IN I T = 3. 24E-u2' 12 1: .'4Tri C11717Y F ELEMFD THPC'JCH THIS FATCH (Cs)= 3. c'0E - 0 3 PERCEIT OF TECH SF EC LIh! T = 4.20E-0; Wuf d P adw n s t e Pe leas e Taraie nr..
1)tI4 ss. r nd s c n'ac l ide conc. , e c ludt r.g g as e s (uC l/ml): 5.94E-07 +- 4.2 E.es 2)O sl:ul at e J L:.3 conc e ntrat lan, es.cludirig di s J olved 'g are s tuci ol3: 1.42E-06 s
3' Cal :ul a' ed dilut t or. *c at t o (C/flFC or a.< u.tLLD, inc luding g an s ): 1. 01E-G i 4 )Minicx:. di lut ion flow r at e gs.a.): 10000 i f
5 )!! a. i t.u.s t FJ 11schee94 fl ow ra*. e (gpn): 99M5 ,
6
- Tr< c i f i e d t er.i e'Icie rate (g p >: 75 7 P Ld els t < coni t oe trip s e t t ir.9: 217 A= 10. 55 , tl< l l count CF;I el 3 = 75 ,tonitor I .*, C P; C = 5. 30 ,:l: r . t or C *5 r< r si. C; C iil 'n.1 Y r 2 ,Co..s<rv. F ac t or- f 1
3(L t
- i w a' i d :ce.c . of s 4 a s. nut l ed< s at poles' cf re le.ss t (uC i e: I): 4.4220-09 i
IATCHs l *! 3 LA T A ?UCCiESifyLLY S10F ED
' SFECT :U:t ilr.i EP A! trW2 (11) I 9
FIGUIE l-4 DATA SHEET A FLANT E.T. HATCH RATCH !;0.
~~~
Li tt!! D R A4 4 A.". :-: D IS C!: A! C E PER::IT UNIT #
TA!!K TO PE RE" E ASED DATE R EASC" F03 ' r"ESSITY OF D;SC :a P.E R EC I T.C . STDT TI:'" S t.!l?LE TI t!E - RECIRC. DUP ATID'i MINUTES I. LAEORAICRY A'! A LYSIS (1) !:b)UP ED R ADI0'*UCLIDE C0! CE';TR ATI 3: 1 .E + .E
(?) Ct.LCUL ATED t.LD LI"IT C0!!OF?;TR ATIO ?.S ~~ "~~ ~~ ~~~~~ ~ ~ ~ ~ '" ~ ~~ -~~ ~ u C t / .1 uC1/p1 (3) CAL'CULATC) MR RATIO: I (Ct/MPCil ~~ ~
~~~ '
(4) !!I!;I!: ! DILUTIC!i FLO'd R4TE CPM rg) gay, CAL atA,gp TA::g Disc llAE5g~!!?ff T,ME SEC. F.4.a) C Pl4 (6) SPECIFIED TA!iK DISCHARGE RATE: < (5)/E GPM (7) RADWASTE M0!!ITOR TRIP SETTING: ___
~
~(( ~ ~ ~ ~ ~ ~
CPS A z Ge(Lt)(1) uC1/ml B ztt0NITOR 3G CPS C 1:0?.l T0it CPS F CO t!S ER 7 AT I'!E PER Ce(Li) uC1/n1 FACTOR ~
MONITOR alt.RM SETPOIllT TCPST (C I A T F) + n + }~,7t"~ ~~
- COMPLETED BY DATE COMPOSITE LITER STORED q _
3 __ _
.......................s....
(S) R ADh' ASTE MONITOR MAX. CPS TO BE WITRIN 10 CFR 20 LIMITS:
g CIAI (6)+(2)
/
II. OPERATIONS
,_ _ T6) (3[ eps pH INIT.
(9) LIQUID RADWASTE t{0?:ITOR TRIP SET AT: CPS ~ ~ ~ ~ ~
'(10) C01 FIRME:) DILUTIOff FLOW RATE
~'
~
GPM (11) VALTE LItlEUP CHECKED AS PER HNP __._ __ _
TA5K DIS. INf EGTATOf ~ DI S. RATE DIL. TOTAL RI VEft EL. MONITC DATE TI!tE LEVEL .1 RD:G. GPM CAL FT. CPS e e 3 TART CND '"
_-_......................____...-Q+
COMPLETED BY D' ATE MIN. CAL.
. DURATIO: TOTAL R EL EASE -------------------"--------<
e e 10 MI!! AFTER START 88 AFTEf: FLUS 5 fit:G III . L A B0::ATORY l (12) T0 AL T8.:!t yn!."*:E t,'SCH r.RGED CAL. I 't,765 ml (13) TOTI.L 1.CTI VI TY DIScHA3cs9 (1) I (17) = - ~~ -~ ~ _ _- uC1 (14) FIVER FLOW H ATF (FE0 t FSAR 2.4-6 )
____.._..__....__.,__..CFS CD'4 ?LETED BY DATE w <
A. P PP O V i:D BY .
.________......._...1 (12)
.e .. ~,e m
. .. . . .. S . -
l
.. 1'EUA: 1-5 a l 6
ce D at a Cca p i l at i on for Reg. Guide 1.21 nes.
E. I. H at c h Nuc le ar Pl ant UNIT 1 Total Act mitv (Curies >
0.sar'er 1. 1479 Qu ar t e r 2. 1979 Int:hes 1 t he u 103 B at c hes 104 thru 259 M s .4 "I i. . 5 d Erecr dig 5 Li Ds Tot 11 Heasured Error High LLLs Tot 11 Ce-144 0. 00E+00 0.00 + 00 0. 00E+00 0. 00E+00 0.00E+00 0. 00E+00 0. 00E+00 0. 00E +00 Tc - a ka 4. 4 2E-05 1. .'2E-06 0. 00E +00 4. 42E-05 0. 00E+00 0. 00E +00 0. 00E+ 00 0. 00E+00 Ce-141 7.92 -07 4. E6E-07 0. 00E+00 7. 92E-07 9.00E-06 1.33E-06 0.00E>00 9.00E-06 Hr:-23) 3.CoE+00 0.00E +00 0. 00E+00 0.00E+00 0.00E+00 0. 00E+00 0. 00E+00 0.00E+00 Cr-51 2.07E-0 3 4.0 E-05 0. 00E+00 2.07E-03 1.78E-04 1.23E-05 0.00E+00 1.7SE-04 1-131 4.53E-03 1.46E-05 0.00E+00 4.53E-03 1.80E-05 1.36E-06 0.00E+00 1.80E-05 2--699 0. 00E+00 0. 00E+00 0. 00E+00 0. 00E+00 0.00C+00 0. 00E+00 0.00E+00 0. 00E+00 a-19? 0. 00E+00 0. 00E+00 0. 00E+00 0. 00E+00 0.00E+00 0. 00E*00 0. 05d e00 0.00E+00 F-1? 6.23E-05 4.00E-06 8.49E-05 1.4?E-04 1.79E-05 1. 4 8E-06 0. 0 3E+00 1. 79E-05 I-13? 3. 20E-05 2. ?4E-06 0. 00E+00 3. 20E-05 0.00E+00 0. 00E+00 0. 00E +00 0. 00E+00 Pa-140 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00C+00 0.00E+00 0.00E+00 0.00E+00 As-is 0.00E+00 0. 00E+00 0. 00E+00 0. 00E+00 7.47E-07 3. 90E-07 0. 00E+00 7. 4 7E-07 Cs-1?4 2.05E-63 1.17E-05 0. 00E+00 2. 05E-03 1.46E-03 1.01E-05 0.00E+00 1.46E-03 Cs-13T 2. 25E-0 3 1. 31E-05 0. 00E+00 2. 25E-03 1.79E-03 1.18E-05 0.00E+00 1.79E-03 M:-9? 0. 00E+00 0. 00E+00 0. 00E+00 0. 00E+00 0.00E+00 0. 00E+00 0. 00E+00 0. 00E+00 Zr-?7 0.00E+00 0. 00E+00 0. 00E+00 0. 00E+00 0.00E+00 0. 00E+00 0. 00E+00 0. 00E+00 2r-95 0. 00E+00 0. 00E+00 0. 00E+00 0. 00E+00 1.98E-05 2. 46E-06 0. 00E+00 1. 98E-05 Q Hb-95 7.77E-06 1. 00E-06 0. 00E+00 7. 77E-06 4.29E-05 2.57E-06 0. 00E+00 4. 29E-05
\m) I-132 0.00E+00 0.00E+00 0.00E+00 0.00E+00 6.97E-07 2.48E-07 0.00E+00 6.97E-07 Co-58 3.96E-04 S.21E-06 0.00E+00 9.96E-04 1.71E-04 4.66E-06 0.00E+00 1.71E-04 Mn-54 4.57E-34 7.0'6E-06 0.00E+00 4.57E-04 2.27E-04 5.60E-06 0. 00E+00 2. 27E-04 Ag-110m 1.16E-06.4.53E-07 0.00E+00 1.16E-06 4.74E-06 1.09E-06 0.00E+00 4. 74E-06 2n-65 2. 33E-0 3 2.14E-05 0.00E+00 2. 33E-03 2.00E-03 2.25E-05 0. 00E+00 2. 00E-03 I-135 0.00E+00 0.00E+00 0.00E+00 0.00E+00 1.30E-06 5.32E-07 0.00E+00 1.30E-06 .
Fe-59 9. 99E-05 4. ?!E-06 0. 00E+00 9. 99E-05 0.00E+00 0.00E+00 0.00E+00 0. 00E+00 Co-60 1.10E-03 1.10E-05 0.00E+00 1.10E-03 1.63E-03 1.36E-05 0. 00E+00 1. 63E-03 .
Cu-64 4.43E-04 1.20E-04 0.00E+00 4.43E-04 0.00E+00 0.00E+00 0.00E+00 0.00E+00 Na-24 3.53E-05 1.90E-06 0.00E+00 3.53E-35 1.34E-04 3.03E-06 0.00E+00 1.34E-04 La-140 5.39E-07 3.03E-07 0.00E+00 5.36E-07 0.00E+00 0.00E+00 0.00E+00 0.00E+00 Mn-56 0. 00E+00 0. 00E+u0 0. 00E+00 0. 00E+00 0.00E+00 0.00E+00 0.00E+00 0. 00E+00 Cs-156 2.56E-04 5.64E-06 0.00E+00 2.56E-04 6.18E-07 2.59E-07 0.00E+00 6.18E-07 SB-125 7.63E-05 1.04E-05 0.00E+00 7.63E-05 0.00E+00 0.00E+00 0.00E+00 0.00E+00 RH-106M 1.23E-05 1.72E-06 0.00E+00 1.23E-05 0.00E+00 0.00E+00 0. 00E+00 0. 00E+ 00 Hb-97 2.19E-05 1.13E-06 0.r0E+00 2.19E-05 0.00E+00 0.00E+00 0.00E+00 0.00E+00 111-65 2. 48E-06 1. 46E-06 0.00E+00 2. 48E-06 0. 00E+00 0.00E+00 0. 00E+00 0. 00Fe 00
- Sr-0? 0.00E+00 0.00E+00 0.00E+00 0.00E+00 1.24E-04 1.28E-05 0.00E+00 1.24E-04 Sr-90 3.74E-05 0.00E+00 0.00E+00 3.74E-05 2.08E-05 3.95E-06 0.00E+00 2.0SE-05 Tot al: 1. 68E-02 1. ??E-0 4 ?.49E-05 1.69E-00 7.85E-03 3.67E-05 0.00E+00 7.95E-03
- e-f 33 5.51E-04 3.16E-06 0.00E+00 5.51E-04 5.24E-03 1 90E-05 0.00E+00 5.2*E-03 Kr-9? 0. 00E+00 0. 00E+00 0. 00E*00 0.coE+00 4. 09E-06 1.16E-06 0.00E+00 4.09E-06 l Me-133a 0.00E+00 0.00E+00 0.00F*00 0.00E+00 5.75E-05 3.95E-06 0.00E+00 5.75E-05 X4-135 f.14E-05 2.20E-06 0.00E*00 C.14E-05 2. 36E-05 1.01E-06 0.00E+00 2.36E-05 OMr-559 Vr-?T 0.00E-00 0.00E+00 0. uCE+00 4. 00E+00 0. 00E+00 0.00E+00 0.00E+00 0. 00E+00 0.00E+00 0.00E+00 0.00F+00 ?.19E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00
- ^ ^ - "
Xz- - ^ ^0E-00 0. 00E+00 0. 00E+00 0. 00E+00 0.00E+00 0.00E+00 0.00E+00 l
Tc 4E-Ji 0.00E.00 6.13E-04 5. 33E-0 3 1.95E-05 0. 00. -Je " . :". E 11 a
(13) ,m . 5
FIGUPS 1-Sb O e i; e e at a Cc r+11 at v on for Peg. Guitt 1.21 Pi por t l E. t. H it c h HC l e ar Flant UNIT 2 Tc t al Act1": t" t Curiesi Paarter 1. I??? Quart er 2 1979 h' u s 1 toru 212 B at che s 213 t hru 399 Lwe 'ti sa ure d - Er. c r rhgh LLD3 Tot al Me asur ec Error High LL N Totsl C -144 2. N E-O f ' . i ? E-O ' O. 00E +00 2. 34E-06 0. 00E+00 0. 00E+ 00 0. 00E +00 0. 06.tE + 00 Tc 0 3.3 0.00E+00 0.00E+00 0.00E+00 0.00E+00 1.85E-06 5.24E-07 0.00E+00 1.35E-06 C#-141 2. 95E-07 1.13E-0" 0. 00E+00 2. 95E-07 7. 75E-07 1. 77E-07 0. 00E+00 7. 75E-07 Nr 439 0.00E+00 0.00E-00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 Cr-51 1.75E-04 1.06E-05 0.00E+00 1.75E-04 0.00Ev00 0.00E+00 0.00E+0C 0.00E+00
- -851 6.01E-05 2.5?E-06 0.00E+00 6.03E-05 0.00E+00 0.00E+00 0.00E+00 0.00E'00 in-69% 1.15E-d' 6.39E-03 0.00E+00 1.15E-07 2.51E-07 8.92E-00 0.00E+00 2.51E-07 H-IST 1.43E-06 4.99E-07 0.00E+00 1. 43E-06 4. 39E-07 2. 09E-07 0. 00E + 00 4. 39E-07 F-15 3. 31 E-0 5 1. STE-06 0. 00E+ 00 8. 31 E-05 2. 03E-05 8.10E-07 0. 00E+00 3. 03E-05 I-li3 9.7?E-07 !.33E-07 0.00E+00 S.78E-07 6.98E-07 2.34E-07 0.00E+00 6.98E-07 E2-140 0.e0E+00 0.00E.00 0.00e+00 0.eDe+00 0.00E+00 e.00e.00 0.0eE.00 0.00E+00 A&-76 4.70E-07 2.54E-07 0.00E+00 4.70E-07 0.00E+00 0.00E+00 0.00E+00 0.00E+00 Cr-134 5.1TE-04 5.456-06 0.00E+90 5.17E-04 9.36E-05 3.38E-06 0.00E+00 9.36E-05 Cs-1 F 5.82E-04 6.i3E-06 0.00E+00 5.82E-04 1.43E-04 4.32E-06 0.00E+00 1.43E-04 Mc-39 1.51E-05 3.iSE-06 0.00E+00 1.51E-05 4.51E-06 1.54E-06 0.00E+00 4.51E-06 Zr-97 0.22E-07 1.45E-07 0.00E+00 3.22E-07 2.53E-06 1.06E-06 0.00E+00 2.58E-06 Os Zr-95 0. 00E+09 0. 00E*00 0. 00E+00 0. 00E+00 5. 55E-06 1.34E-06 0. 00E+00 5. 55E-06 Hb-95 9.43E-05 1.71E-06 0.00E+00 9.43E-06 3.15E-06 5.89E-07 0.00E+00 3.18E-06 I-132 0.00E+00 0.00E+00 0.00E+00 0.00E+00 1.55E-07 6.52E-08 0.00E+00 1.55E-07 Co-59 9.252-04 6.34E-06 0.00E+00 9.25E-04 9.57E-05 2.94E-06 0.00E+00 9.5?E-05 Mr. - 5 4 4.54E-05 1.89E-06 0.00E+00 4.5tE-05 1.25E-05 1.12E-06 0.00E+00 1.25E-05 l A g - 1 10.a 3.5SE-07 1.4sE-07 0.00E+00 3.58E-07 0.00E+00 0.00E+00 0.00E+00 9.00E+00 Zt. - 6 5 5.09E-04 1.05E-05 0.00E*00 5.09E-04 3. 0E-04 1,00E-05 0.00E+00 3.10E-04 I-135 0.00E+00 0.00E+00 0.00E+00 0.00E+00 5.45E-06 1.57E-06 0.00E+00 5.45E-06 l
F4-59 2.62E-05 2.92E-06 0.00E+00 2.62E-05 6.64E-06 1.60E-06 0.00E+00 6.64E-06 Co-60 3.16E-04 6.26E-06 0.00E+00 3.16E-04 4.74E-04 8.58E-06 e.00E+00 4.74E-04 Cu-64 0.00E-00 0.00E+00 0.00E+00 0.00E+00 1.49E-04 6.06E-05 0.00E+00 1.49E-04 Ha-24 0.00E+00 0.00E+00 0.00E+00 0.00E+00 8.94E-06 1.00E-06 0.00E+00 8.94E-06 L1-140 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 Mn 56 0.00E+00 0.00E+00 0.00E+00 0.00E+00 1.54E-06 6.99E-O' O.00E+00 1.54E-06 Cs-126 1.27F-05 1.19E-06 0.00E+00 1.2?E-05 0.00E+00 0.00E+00 0.00E+00 0.00E+00 Sr-89 0.00E+00 0.00E+00 0.00E+00 0.00E+00 9.51E-05 1.29E-05 0.00E+00 9.51E-05 Sr-30 3.00E+00 0.00E+00 0.00E+00 0.00E+00 2.53E-05 4.15E-06 0.00E+00 2.53E-05 Tcta'- 3.23E-03 2.04E-05 0.00E+00 3.2EE-05 1.46E-03 6.39E-05 0.00E+00 1.46E-03 Xe-II 1.14E-05 9.49E-07 0.00E*00 1.14E-05 7.75E-04 1.02E-05 0.00E+00 7.75E-04 I tr -si 0.00E+00 0.00E+00 0.00E+00 0.00E+00 9.36E-07 2. 06E-07 0. 00E+ 00 9. 3CE-07
.N-! O I- 0.0?E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 Xe-135 3.77E-05 1.1?E-06 0.00E+00 3.77E-05 2.97E-04 3.63E-06 0.00E+00 2.37E-04 K- -95 u.00E+00 0.00E+A.'i 0. 00E+00 0.00E+00 6. 33E-07 2. 32E-07 0. 00E+00 6. 3 ?E-07 O.00d+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E*00
[v \ 'tr-3'
- e-1 ?9 'a
+n0 0.00E+00 0.00E+00 1.1?E-07 3.60E-08 0.00E+00 1.17E-07 T.. g's ; 0.00E-00 4.91E-Ot 1.06E-03 1.0$E-05 0.- - .
- >~
(14) ..
, TABIE l-1a E. 1. Ha' :h fluc le ar F l ar.t Ut4IT 1 "r
. .'i*s T A'4 3 La i. T E D I ? F ')? AL ?EMI6tflUAL FEF0FT 1979
_ li . i D iT CLi D4T3-iUMMATIOte OF ALL RELEASES Unit Qu ar ter Guacter E st Tot 3IT 1 2 Errer *
.l r* . ft33100 J ac t i: at e en or od :'s
- 1. T .t al resease inos i nc l ud i r.g H 2 os.< e s . a l p h a ) Ci 1.69E-02 7.35E-0? 4.26E+0!el
- 2. 6 erage diluted c onc ent r at i on durina peri oc uC 1.'a l 2.24E-09 6.5fE-09 L. ; 4 . : .5 o ' o e' _a op i icabie I i a i' W. 2.08E+00 4.25E-02
- c. f r i t i u n.
_ ,1 Tot al release Ci '
7.17E-01 4.50E-01 3.65E+01l
_. 6ver age di 1 ut ed coric s r.t r at i on .
dur i rig osc:od uC i /.31 9.51E-07 3.77E-07
- 3. Ps*ceo' o 3policable 1imit *. 3.17E-021 1.26E-02 C. L J.olved and e nt rai ned gases s -.
(m
. Tot at release Ci 6.13E-04 5.33E-03 1.00E*02l
- 2. hver age di f ut ec cenc en'. rat ion d' e i .; 1_g r i o d uCt'ml 8.12E-10 4.4?E-09 Per:ent c arp i ' c abl _e l imit /. 2.03E-03 1.12E-02l D. Gross alpha radioact iut ty
[ _1. To* al rele ase l Ci l 2.41E-06l 1.47E-06l 1.20E+02i
- 3. Vo i un,e o t' wast e (prtor t o dilut v on> l 1iteas l 3.59E+06l 5.45E+06) :.00E+01l II.~Vc l um e o t' di lut ion wat er used l liters l T.51E+08l 1.19E+09l 1.60E+02l o
(15)
-9
. TABLE l-lb ,
I. Hatch H .4 : 14 3r P1 ant l'HI T 2
)
Ec L JDif A*1D W A>TE P;SFO? AL 3E;;! At4NUAL REPOPT 1979 w ! J I D EF 'L.iEN'?-iUt1M AT I CH OF ALL F ELE ASES Unit eusrter Gu ar t er Eat Tctal 1 2 C e r c. r . *._ ,
- 6. Fission . a:- stson produ:t.
. . - I
- 1. Tc' 91 r .: ' e i t s n a' . .. : l uo' t.; 4 ?.
g a.: e s . a! pn a' Ci 3.2SE-03 1.46E-03 4.34E+0!
- 2. A. e Age di l ut e d c oncentr at ion
_ _ _ _d u e i e g p e r i a : uCi/mi 2.25E-09 1.27E-09
- 3. Fsecent of se:licab!f limit i. 2.17E-02 1.37E-02 E. 1ritium
!. Total r -: l e s s e l Ci 1.15E+00 4.73E-01 3. 66E +011
- 2. 6ea r age olluted : or. :ent r at i on durino period uCi/ml 7.88E-07 4.13E-07 .
- 3. Fercer. of sol l icable limit % 2.63E-02 1.38E-02 C. Dissolved arid ent rained gases
- 1. Tot al re t e ase C 4.91E-05 1.06E-03 1.01E+02l
()g s_ 2. Aver age di l ut ed c or.c entr at i on car ing car i o: uCi m1 3.36E-11 9.28E-10
__3 . Percent of apolicable limit % 8.41E-05 2.32E-03 D. Gross alpha r adi oac t ivi ty
] 1. Tot al relesse l Ci l 6.12E-06l 1.17E-06l 1.20E+02[
1). va'vai or wa ' e ( ort 5r to dilutteni! liters l 6.12E+061 5.63E+061 1.00E+01l T?. v iums o t' d i t u t_ i c a -at or us= c l i>ters i 1.45E+091 1.14E+09 l 1.6CE+021 9
I I
(-)
m (16)
- .f
1ABLE 1-2a F. I. H at ch Hucle ar C 1 an UNIT 1 s
T at.3 WAi!E DIiFOSAL SE::: MHNUAL REPC PT 1979 LIOUID EFFLUdHTS
' CONT!'lOOUs NODE SP TCH a 10 D E
- t. : 1. d i ; F4 : s ize :
Oua-ter l Guarter Unit Quarter i Qaarter l 1 ! 2 1 2 Ce-144 i C' O.00E+0V 0.00E+00 T -b;> I C1 4.42E-05 0.006,001 C4-141 -
I Ci 7.92E-07 tip ;9 9.00E-06
___ C 0.00E+00 0.00E+00 Cr-51 Ci 2.07E-03 1.78E-04 I-131 Ci Zn-69m 4.53E-03 1.80E-05 Ci 0.00E+00 0.oOE+00 W-107 Ci i 0.00E+00 0.00E+00
'~'
F-19 i C: 1.4?E-04 1.79E-05 1-133 I Ci Pa-140 3.20E-05 0.00E+00
,_, Ci 0.00E+00 0.00E+00 As-76 Ci 0.00E+00 7.4?E-07 Cs-1?4 Ci 2.05E-03
~~
1.46E-03 Cs-137 Ci No-99 2.25E-03 1.79E-03
,_ ; Ci 0.00E+00 0.00E+00 2r-97 Ci 0.00E+00 0.00E+00 Zr-95 Ci 0.00E+00 1.98E-05 Nb-95 Ci 7.77E-06
- i~ 4.29E-05 1-1 32 Ci s_,/ Co-58 0.00E+00 6. 97E-07
, Ct 8.96E-04 ,1.71E-04 !
Mn-54 Ci 4.57E-04 2.2?E-04 Ag-110m Ci 1.16E-06 4.74E-06 ,
2n-65 Ct 2.33E-03 2.00E-03 T-135 Ct 0.00E+00 1.30E-06 Fe-59 Ci 9.99E-05 Co-60 C1 0.00E+00~'
1.10E-03 1.63E-03 Cu-64 C 4.43E-04 0.00E+00 .
Ha-24 Ci 3.53E-05 1.34E-04 La-140 Ci 5.38E-07 0.00E+00 rtn-56 Ci 0.00E+00 0.00E+00 Cs-136 Ct 2.56E-04 6.18E-07 l
SB-125 Ci RH-106N 7.63E-05 0.00E*00, i j Ci 1.23E-05 0.00E+00
~ ~
Nb-97 c' 2.19E-05 0.00E+00 Ni-65 ca 2.48E-06 0.00E+00 ir-59 Ci 0.00E+00 1.24E-04 g_ sr-90 __ C 3.74E-05 2.08E-05
[~ " T o t a l (se peric3 3 ab,re 2 l Ci l l l 1.69E-021 7.85E-031 L_ _ _ ve-133 Ci 5.51E-04 5.24E-03 -
pr-33 Ci 0.0eE+00 4.09E-Of
's-133m Ci 0.00E+00 5.75E-05 '
Me-135 Ci 6.14E-05 2.36E755 l,_ k e - 5 5 r.
Ci 0.00E+00 0.00E+00
\#~ '
C 0.00E+00j_?.]fE'29, Ci l l 0.00E+0 '
. hE . r i l
1 l
) . . $
1 1
l l
TABLE l-2b I
. 1. Match huc l e ar Pl ant UtilT 2 I " '.* :', T '.D UA5TE PI5;C5AL iEM:Fitit40PL REF ART !??9 L IOt.il D EFFLUEtlT S C0t4T!!IUOUS tt0DE BATCH llO D E tt.: 1 i Ji a
- e 1 e 2: s2 I Ur. : t ' Ouarter Ou art er Quarter Qua e erl 1 2 1 J l C<-144 _
Ci 2.34E-06 O. NE+00 re 2 3..
Ci 0.00E+00 1.35E-06
~
Ce-141 Ci 2.95E-07 7.752-07 1 Np-239 C 0.00E+00 0.00E+00 Cr-51 C: 1.75E-04 0.00E+00 T - 1 '; l Ci 6.03E-05 0.00E+00 26-69 7 Ci 1.15E-07 2.51E-07 4-157 Ci 1.43E-06 4.39E-07 F-18 Cs 8.31E-05 2.03E-05 I-1?3 Ci 8.78E-07 6.98E-07 Bs-140 Ci 0.03E+00 0. 00E+00 as - 76 Ci 4.70E-07 0.00E+00 C5-134 C1 5.17E-04 9.36E-05 Cs-157 Ci 5.82E-04 1.43E-04
~~
'lo- 9 9 Ci 1.51E-05 4.51E-06 Cr-97 Ci 3.22E-07 2.58E-06
__ 2r-95 Ci O ~
tab-95 I-132 C
Ct 0.00E+00 5.55E-06 9.43E-06 3.18E-06 0.00E+00 1.55E-07
~~
Co-58 Ci 9.25E-04 9.57E-05
~
Mn-54 Ci 4.54E-05 1.25E-05 Aq-110m C 3.58E-07 0.00E+00 2n-65 Cs 5.09E-04 3.10E-04 I-135 Ct 0.00E+00 5.45E-06 Fe- 59 Ci 2.62E-05 6.64E-06 Co-60 ___
C1 3.16E-04 4.74E-04 Cu-64 Ci 0.00E+00 1.49E-04 H a- 2 4 Ci 0.00E+00 8.94E-06 ,
- a-140
. Ci 0.00E+00 0.00E*00 rin-56 Ci 0.00E+00 1.51E-06 Cs-136 C1 1.27E-05 0.00E+00 Gr-A9 Ct 0.00E+00 9.51E-05 sr-30 C 0.00E+00 2.53E-05 1' _Jorst _
.' ar perios (abc.J~) l Ci l ! l 3.28E-031 1.46E-031
~~~
/4-133 l Ct 1.14E-05 1 7.75E-04 ir-80 Ci 0.00E+00 9.36E-07
'e- : 33r. Ci 0.00E+00 0.00E*00 4-135 C 3.7?E-05 2.67E-04 kr-95m Ci 0.00E+00 6.33E-07
--47 Ci 0.00E+00 0.00E+00 O . u Ci 0. 00E +0 } i, : .1 ~ t
- 7 l
(18) ..
'! .1. RPGULtTORY LIA!ITS h a. (1) The rele9se -ate shall be:
Itmit of noble gases crom the site J ' 1. 0 Ey + 1. 0 E3 +Qyi 11 E + 44 Rg <,1 17.3 5
-+ n .
3
~
Whe^? 0 3 Tc.11 =elease aate from main stack for both Units in Ci/sec (elevated release)
Qy = Total release rate from vent in C1/sec (ground release) t = The individual nuel.id e n = total nuclides Ey = The aveaage gamma energy per disintegration k=g '"he average beta energy per disintegration (2) The erlease rate limit of all radiotodines. and radioactive materials in p'hetic ula te form with half itves greater than e'ght days, released from the site to the environs as cart of the gaseous wastes, shall be.
- 1. 0 X 109 Qo s + 1. 9 X 106 gp, <1
. '4here O ps a Total release rate from the main e t aoic for both Untts in Ci/seo (as elevated 9 .
release)
Qoy : Total release rate from vents for b'oth Units in Ci/sec (ground releases)
- b. (1) -The average release rate of noble gases from the site during any calendar quarten shall be:
~ ~
~
- 2, . Qs i EY
- + ~4.0 Eg + Qyt 66 E + 140 RB 11 Tn - -. .
, f?) ,The average release rate of noble gases during any I?
l consecutive sonths shall be:
~'
~ *
, r - -
2t+Qts n -
"EY +S1EB -
+ Qvi 1.10 Ry+ 2'10 En
$1 l
(1) The average release rate of all radio todines and andtoactive saterials in carttoulate form from the site with hal f itves q* eater than eight days during any calendar quarter shall be:
1.' I IIl6 Oos + 1.Q I 10' Qpy 3 1 (a) The sverage release este of all radio todines and O reate ett e te-t te te ete=1 te for- fro- the ite (19)
1 l
- ?.6 X 1.q6 gp3 o 3,, x in't goy < g I
l g (9) '"he amount of Iodine - 111 released during any calendar qusater shall not exceed i Ct/ reactor.
(4) The amount of Iodine -
111 released during any pe"tod of '? consecutive months shan no:: exceed 4 Ci/reacto".
I
- c. S h o'11 d the conditions of ?.1.1c (1), (2p . or (1) listedi below occur, the iteensee s ha ll. make an it.ves t i gat t on to )
identify the causes of the release estes, define and initiate a orogasm of action to reduce the releaso rates to design objective levels Itsted in subsection ?.1 of the HNP-STS and reooat these actions to the Commission within 10 days from the end of the quarter during which the releases occuraed in accordance with section 8i.7.2. ,
I (1) If the average celease cate of noble gases during any '
cal.endar quaater is: !
- ~
_ _ l EOts " EY + IS EB +Qvt 960 EY + 940 Eg >l t +n -
)
i f?1 If the average release rate from the site of all radio {
iodines and radioactive materials in particulate form 1 wi.th half itvos greater than eight days during any 1 calendar quarter is: ;
5.0 X 106 Qps + 7.o X 107 Qpy >1 (1) If the amount of Iodine - 111 released during any calendar quartee is greater than 0.8i Ci/ reactor. j
- d. The oost-treatment offgas monitors shall be operating and set to alarm and to initiate the automatto closure of the
. waste gas discharge valve prior to exceeding the limits '
specified in .9ection 2.1.la above. The operability of the 1 automatto i. solation valve shall be demonstrated quarterly. ;
- e. If the oost-treatment offgas monito" is not operating, a l shutdown shall be initiated so that the reactor will be in the hot shutdown condition within 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />.
1
- f. If the release cate of noble gases measured at the oastreatment montto" exceeds ?60,000 uct/sec for a period i gaeater than 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />, no t t .*v the Comatssion in writing '
within 10 days, identifying the caeses of activity and in accorimnce with section S.7.?.
- 4. The aeactor contatqment for each Unit shall be puaged t h a o a rr,h the stgndby gas treatment system for that Unit.
O (20)
~ ^
- 7# f-_
, aeactor oower ooerstion for hydrogen concentration.
The hydaogen gas monitoring system shall provide al. arms '
g 1. o c ,1.1 v snd in the control room at a set point of 44 l hydrogen concentration by volume. At least one continuous cas monitoatng system and its associated 1.1 tan system shs11 be coerable during "eactor power operation. If both of the hydrogen gas monitors or both of the assonitted alarm systems are inooeaahle,
-esctor ocarstion may be continued for a period of time not to exceed ? weeks, orovided that either (a) grab anmoles are taken and analvted for hydrogen concentaatton once everv 4 houas, or (b) using a '
temporary hydrogen gas analyzer installed in the offgas ,
svstem 1ine downstaeam of the r ec om b i. n e r , hydrogen '
concentration readings are taken and logged every 4 i hours.
(?) The hydrogen concentration in the offgas system downstream of the recombiners shall not exceed 41 concentration hv volume. If at any time during reactor oower operation, it is determined that the hydroger, concentration 1.imit is being exceeded, sotton shall be i n i.t i a te d within 4 hours to return the hydrogen concentration to within the oresortbed limit. If the hydrogen concentration is not reduced to less than 41 by volume within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, the offgas system fl.ow shall be stopped.
h (1) The installed hydrogen monttoeing systems daily. sensor checks, monthly sha n have functional checks, and quarterly caltbeations. The portable hydrogen gas analyzen shall be calibrated tamediately prior to installation and shall be subject to dativ sensor checks, monthly functional checks, and quarterly caltheations until "emoved from service,
- t. An unolanned or uncontrolled offsite release of radioactive materials in gaseous effluents in excess of l'io Ct. of noble gas or 0.02 Ct. of radiotodines in gaseous form shall be reoorted to the NRC within 30 days in accordance with section 5.7.2.
?.? MEASUREMENTS AND APPROXIMATIONS OF TOTAL RADIOACTIVITY Waste tas release at Hatch is confined to four oaths. Each of these roup oaths is continuous 1v monitored for gaseous concentastion ind each has an integrsting type collection device which concentrates osaticulates and todine foe each seven day c e r l.o d (Proceduaes are such that shorter collection times are usH where apol'nable to Techn tcal. Specification requirements).
O (21) l . _ . -- - .
.-. -- . L ?~~TL
and the eactor bu llii ng vents have flow measurement d o v i. c e s w' itch c o n t i n u o us 1.v record the flow rate of the gas released 9 faccuaacy o ." these devices are within 1.0 T of the actual flows as mu s u re d duetng p aao o e a st t i on a l testing). The recombinea butiding vent
- 1. o w on U n f. t One is conseavatively a.ssumed to be constant at CO O CFM. In ad d i.t t o n to the gaseous, particulate, and iodine
=elease mearnaasents taittum, gaoss al.oha and gaseous tsotoote naasuramants o' sach vant stream are conducted on a monthly schedula.
After 'a c h ca'endaa queatea (11 weeks) a sum'na ry of waste gas relaase fron the four vents is comot1.ed and as such is designed to maet the aequi ae m en t s for oreoaeation of the 6-month report as soecirted in R eg'ala tor y Guide 1.?1. Unit one and two releases were calcul.ated togethea because the Tech. Speciftostions for the two reactors are identical in this respect. The methods roa comot tation of the quaateely releases are as follows:
- 1. FISSION AND ACTIVATION GAS The total cuate release i.s determined from the continuous 1v reading gaseous monitors in addttion to the vent flow recordeas. Activity monitors and vent flow rate readings are read houriv and input .uto the computer. From these readings a daily release is calculated. The cat t brat ton factors for the monitors see determined from the monthly isotopics when sufftetent activity allows or by in.j ect ion of a known amount of off-gas into the sample chambers. The G total cu"te release is calculated by the computer for each of the individual nuolides released. This number _ ts TiEq) t tiotted along by the average eneagv oer disinttgration (Eg&
with the coefftotents in the release Itait formula in our Environmental Techntoal Specif toations. All of the nuotides are sussed and stored in their respective data files untti the end of the quarter. Then the computer divides the sua of the nuotides by the seconds in the quarter to determine the percent of the tech. speo. limit released.
?. R AD10 IODINE RELEASES l Iodine releases see determined weektv for I-111, I-131, and 1 I-195, for each vent. Whare signiftoant activity is not 1 maastaed MDA releases are calculated. Since calculated MDA's are b e l.o w Technical S pe c ifica t t o r. detectable concentastions then 0 fteao) release is used for the weeks
- sith on1.v 'iD A values. Weekly releases are summarized with ,
a the ati o the counting room calculator -
comouter systen l and a q u a a te r 1. y total is preoared from the weektv '
rammaries. The cercent Technical Specification for I 111 on T1hle 21 is based on the quarter 1v Teclinical Spectrication
'fmit.
O (22)
_. -- -- TLP
, 'lhere 3 '. g n t ' i S a n t totivity i9 not 1easuae.1 MDA release is c a l ?'ilated. h ne e calculated MDA's are bel.ow Technica' g loacification detectable concentrations, ae l ?13 e is used for weeks with only MDA values.
then 0 (zerol Weekiv!
celeasas tre s u mm a r i. ze d with the aid of the counting room' calculator - comoutaa.
After each ca '. e n d a r month the oaaticullte filters from each' 7ent are combined, fused, and strontium seoaration is made.
3taca suole fl ows and vant flows are almost constant over each 90 nth 17 oeciod the filters from each vent can be' d t. a s o l v a d togethet'. D e c1 v co r re c t i on s aae made back to the 9td11e o c the monthly collection period. Again the counting anom calculatoa - comonte" is used to ai.1 in the cale >1ation of the Sr-8o, 00 release. Where significant sta nt.tum' activity is not detected HDAs are ca l.c ula t e d . In orde a to e l t.mine.te the need for a quarterly comcostte Sr-80 and Ss 07 activity is ca l.c ula t e d for each monthly comoosite. The-oercent of Tachnical Specification was calculated using-quiatealv average equation.
3 GROSS ALPHA RELEASE The gaoss alpha release is computed each month by counting the oarticulate ft.lters each week for gross alpha activity in a oroportional counter. The four or five weeks numbers are then aecorded on a data sheet and the activity is summed at the end of the month.
h 4 TRITIUM RELEASE Tattium samoles are obtained monthly from oach vent by pas.stng the samole staeam from a cold trao immersed in a liquid nitrogen or an acetone and ice mixture. The grams of water vapor / cubic foot gas is measured upstream of the cold trap in order to alleviate the difficulties in determining water vapor collection effiotenotes. The tetttua samples aae analyzed by an independent laboratory. From the uCt/mi trittum concentration, the grams water /ftl, and the vent flow P1tes, the monthly trittua release is calculated for each vent, and the quarterly summary can be generated from the monthly calculation forms.
Match has attemptert to maintain all calculated MDAs as low as nossible by counting samples longer than what would be no-mally orsctical. For example at this time all wee %1v ca at icu site and todine counting times are 1000 sec and s t a o n t i ' int sentaati.ona are counted for 100 minutes.
R aira i t t aa v @sida 1.?1 requires that estimated total error in analr9 1 9 techniquas 5a aeooated. These estimates are requiaed fo~ the total a'.ssion and activation gas release, total I-111
- l (23)
, . ..-.... . . . .... ...r.. .....u. u . -s u .-.4v i . . releane, and total tritium calaase.
- r'h a total on maximun eaaor associated with the effluent
( maasurement will include the cumulative errors resulting f"om the total o c e a a t i. o n of samoling and measurement.
7aeause *t nav be verv 4 i f f icul.t to assign error terms for enc 5 onaametea affacting the final measuaement, detailed s t a t '. s t i. c a l avaluati on of error a"e not suggested. The chiactra should he to o5tain an ove"all estimate of the ea~or associtted with maasuaements of radioactive materials raleased in U. quid and gaseous effluents and sol.id waste."
Es ti ma ted aracas aae based on errors in counting equioment c a l.15 a T t i. o n , counting sta tis tics, vent flow rates, vent sample flow "ates, non-steadv relaase "ates, chemical vield factors, and sanole losses for such 1.tems as charcoal cartridges.
- 1. Fission and Activation Gas Total Release was calculated from naocess monito= " endings. As R94 of this release was from the main stack the MDA "elaas= values of the ground level "elanse ooints were insignificant to the total release.
Monitor Erro" in Calibration SOT Vent " low Rate 10%
Non-Steady Release Rate 204
?. I-1,11 Release was calculated from each week 1v sample:
9tatistical error 605 Counting Equipment Calibaatton 104 Vent Flow Rates 10%
vent -Sample Flow Rates 10%
Non-Steady Release Rates 101 Losses From Charcoal Cartridge lot 1104
- 1.
- Particulates with half-lives greater than 8 days release was dominated by the MDA calculations for I-111 and Ma-La-140 hence the errors in the strontium determinations and gross a l. o ha had negitgtble ar fects on the estimated acror in the total oarttculate release:
9tatisttoal. Eaaor at MDA concentratton 60%
Countng Eq'2 toment Ca'.ibration 10T Vant Flov 9 9 tes 10%
veit Ramole F1.ow Rates 10 1
'lo n -S t a n d y Release Rates 104 IOR 4 Total Tattium Ralease was dominated by the reactor building ve n t T i t i.u m rateasT, hence, the larger statistical errors of the off-gas vent and recombiner butiding vent tritium "e'.easaq do not a ffect the error the in total tettium a91aana:
(24)
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . __ _ ?
l
. . . . . - -. v u t.. . .,3 a u t : i o . .:,$ ni ve,.e a . r: 4 t, t o ri ros Vant Flow 9ates lot
o .i n t in g Ca '.15 cat ion ant! 9tatistics 10%
Non-Staadv R e 1. a a s e 904 004
? .1. G A.3 EO US EFFLUENT RELEASE DATA Ratulatoar G u i ia 1.91 Ta b l. e s 1A, 1. 9 , and 1. C are found in this aeooat a s Ta ble s ?-1, 9-?, and ?1
, Data '1
. _o-esentad on a quaaterly basts as oer Regulatory Guide
- 1. ' 1. .
- 3. SOLID WASTE -
1.1 Regulatory S p e c i fi ca t i.o n s .
- a. Measurements shall, be made to determine or estimate the total curte quantity and orinctoal radionuclide composition of 31.1 radioactive sol.id waste shioned offsite.
- h. Solid vastes in storage and oreparatory to shionent shall be monitored and packaged to assure conoliance with the aoolicable nortions of 10 CPR Part 20, 10 CFR Part 71, and 40 CFR parts 171-178
- c. Reooats of the "adioactive solid waste s h i. pa e n t s , volumes, ortnetcal aadionuclides, and total curie quantity shall be submitted in accordance with subsection M.6.1 of the RNP-RTS.
- 1. 9 Solid Waste Data Pegulatory au t.d e 1.21 Table 1 is found in this report as Tab 1.e 3-la, b.
)
O (25) 1
'ImarE 2-1 A
V - . _ . J; ' 943 !1A biE DISPOSAL SEMI AtlHUAL REPO*T . :'? .
h sECUS EFFL!.'EllTS-SUMiiATIOtt OF ALL RELEASE 3 Unit Guart e r Qu ar t. e r Est Tot al 7
- I. ., 5 : h 64 4c ; <. sr Fonir P1an+ SITE 1 2 Error .
4- F i + ; e o.. a:t . st i en g as e s T i. i; re;4s2, Ci 1.35E+03 1.'2E+02 8.00E+011
- 2. 6-e =?e retease t at e t' e r oeriod uCi/sec 1.72E+02 2.19E+0!
. .i Te ch a t ial spec s fi c ar s or. limi' ". 8.75E-02H 4.58E-02 L. Icdines
}_,1 . Tot al iodene-131 Ci 2.35E-02 2.05E-04 1.10E+02[
j,J,.
- 6 er=Je rel+sie rate irr oeriod uCi.'sec 2.99E-03 2.60E-05 1 3. . o*~ T e <. r. i c I ace -i ric at i on limit i % 5.88E-01 5.11E-03 C. F ac t i c ul at e s I. Part t ul ates si t h h al t -l i ves >8 days C1 1.45E-03 2.21E-04 1.00E+021,
'~2. A* er age rele ase rat e for period uCi/see 1.84E-04 2.81E-05 I
- 3. % of Tes hr.1 a; scec i f ic at i on limit % 3.31E-01 4.73E-02 f
- 4. Gross al rha r tdioact ivitsa Ci 4. 4 3 E-06 6.45E-06 D. Te- i t t ua
(~)
\_/' 1. Tot al r e l e as e '
Ci 2.50E+00 1.29E+00 9.00E+01l
_ 2. Aver age release rate for oeriod uCi see 3.18E-01 1.64E-01
['d
- a# T e .,- h n i c a l spec i f ic at i on limit % 0.00E+00l 0.00E+001 O
(26) . .
I
- . 'IABLE 2-2 j H at .:r. tluc l e ar Power P1 ant $1TE E3F'_UEtlT AND 14A5TE DI? FOS AL SEMI ANHUAL REFORT 1 979 Gi?EC'Is EJ L'.8 E ti T S- E L E'/ A T E D FELEASE CC*lT INUGUS n0DE FATCH NOPE 2- : L iliui- Ur. i t Qu a-t e r Qu ar t e r Qu ar t er Qu ar t e r l I 3
' 1 '
L_._ _
- l. Fission gases
..-13? Ci 8. 2 7E + 02 1.31E+01 0.00E+00 0.00E+VO
"~
-1:.1: C: 1.45E+02 0.00E+00 0.00E+00 0.00E+A0
- r-93 Ci 6.04E+01 3.51E-01 0.00E+00 0.00E+00
~~
- e - 13 3M Ci 7.23E+00 0.00E+00 0.00E+00 - 0.00E+00 Fe-135 Ci 5.19E+00 4.28E-01 0. 00 E + 0'T 0.00E+00 l[~ t r -iir?
I-1 31 C1 C'
1.4;E+02 O.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+0e Fr-e7 C1 2.71E+00 1.21E+00 0.00E+00 0.00E+00 "e-138 Ci 4.87E+00 2.88E+00 0.00E+00 0.00E+00 he-137 Ci 0.Gsc+Uo 9.00E+00 0.00E+00 0.00E+00 ti-13 Ci 1.85E+01 2. bid +00 0.00E+00 0.00E+00 kr-95 C 0.00E*00 0.00E+00 0.00E+00 0.00E+00 Ye-135M Ci 2.38E+00 4.33E-01 0.00E+00 0.00E+00 1-1 33 C 0.00E+00 0.00E+00 0.00E+00 0.00E+00 tr-S? Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00 :
I-135 Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00
[,% )T ~ sr-41 Ci 2.83E+00 1.23E+00 0.00E+00 0.00E+00 I
T o t .1 ice ceriod Ci 1.22E+03 2.22E+01 0.00E+00 0.00E+00
- 2. lodir.es I-131 Ci 1.73E-02 9.14E-05 0.00E+00 0.00E+00 I-133 Cs 5.81E-04 1.95E-04 0.00E+00 0.00E+00 I-135 Ci 2.76E-04 1.62E-04 0.00E+00 0.00E+00 -
Tctal for period ___
Ci 1.87E-02 4.48E-04 0.00E+00 0.00E+00
- 3. Part icul at e s ,
Sr-89 Ci 2.02E-05 1.8?E-05 0.00E+00 0.00E+00 Sr-90 C: 1.74E-07 2.09E-07 0.00E+00 0.00E+00 Ce-141 Ct 0.00E+00 0.00E+00 0.00E+00 0.00E+00
~~~
Cc-51 Ci 5.50E-06 0.00E+00 0.00E+00 0.00E+00 I-131 Ci 3.94E-05 1.42E-07 0.00E+00 0.00E+00
~~'
in-!!3 Ci 6.07E-07 0.00E+00 0.00E+00 0.00E+00
~~
Ea-140
~~
Ci 4.10E-06 1.SSE-06 0.00E+00i 0.00E+00 !
Cs-1.4 Ci 1.05E-07 1.09E-07 0.00E+00 0.00E+00 Cs-1?' Ci 3.?0E-06 3.17E-07 0.00E+00 0.00E+00 C4-1J4 '- Ci 0.00E+00 8.00E+00 0.00E+00 0.00E+00 Or- 35 Ct 0.00E+00 0.00E+00 0.00E+00 0.00d+00 Hb-95 Ci 1.11E-06 0.00E+00 0.00E+00 0.00E+00 C,-ti Ci 3.52E-07 2.60E-07 0.00E+00 0.00E+00
- te.- 5 4 ___
Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00
. \, re-53 ~ ~ ~
Ci O.00E+00 0.00E+00 0.00E+00 0.00E+00 l }~ (~,"[ C . - i.) Ci 4.SOE-06 1.02E-06 0.00E+00 0.00E+00_
l Ci 4.22E-06 4.5SE-06 0.00E+0" ' ?0C*^^
t ;:d _
C1 9.44E-05 2.73E-05 0.00E+0 . 0 . - 0[
@) .....4 ;
l h 'IABLE 2-3
' ': Haren fluc l e ar Pouer F l ant SITE EF "L . O T A #D MITE LISPOSAL set 1I Atit4U AL PEPORT !~-
G+iE0J5 EFCLUEtiTS-CPOUllD-LEVEL PELEASE C0:4T!tt000$ MODE BATCH M.1DE IIIidea De le ase J Unit Ouart er Quarter Quarter Ouarter,_,
1 2 1 2
- 1. Ftist*n q az e
~
~
.e-1?; C1 1.1SE+02 1.43E+02 0.00E+00 0.00E+00_
~~~~" *:e-131M C 5.7?E-02 1.06E-02 0.00E+00 0.00E+00 Vr-33 C1 3.39E-02 5.09E-03 0.00E+00 0.00E+001
((
- e-133M Ci 2.05E+00 2.49E+00 0.00E+001 0.00E+00
~~~
+-1' Ct 5.80E+00 3.?6E+00 0.00E+00 0.00E+00
- o 5'1 C1 2.11E-02 2.80E-03 0.00E+00 0.00E+JO
~-
I-131 Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00 tr-37 C 2.93E-02 7.11E-03 0.00E+00 0.00E+00 .
- e - 135 Ci 6.17E-02 9.86E-03 0.00E+00 0.00E+00 Ne-137 Ct 0.00E+00 0.00E+00 0.00E+00 0.00E*00
~~
ti- 13 Ci 5.42E+00 1.14E-02 0.00E+00 0.00E+00 re-35 Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00
':e-135M Ci 4.56E-02 1.37E-02 0.00E+00 0.00E+00 I-133 Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00 tr-?? Ct 0.00E+00 0.00E+00 0.00E+00 0.00E+00
} I-135 C 0.00E+00 0.00E+00 0.00E+00 0.00E+00
\/ Ar-41 C1 1.06E-04 0.00E+00 0.00E+00 0.00E+00 c al for pert od C1 1.31E+02 1.50E+02 0.00E+00 0.00E+00
- 4. Io a i r.e s
'-~
I-131 Ci 5.03E-03 1.13E-04 0.00E+00 0.00E+00 I-133 Ct 1.99E-04 8.67E-06 0.00E+00 0.00E+00 ,
~~~
I-1?S Ci 5.48E-05 2.73E-05 0.00E+00 0.00E+00 Tot al t'or cer i o d Cl 5.28E-03 1.49E-04 0.00E+00" 0.00E+00
- 3. Particulates
'""~
se-3? Ct 3.18E-05 3.03E-05 0.00E+00 0.00E+00 Cr-?O Ct 1.85E-06 1.45E-06 0.00E+00 0.00E+00
~~
Ce-141 Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00 C c - 51' Ci 1.25E-04 7.14E-06 0.00E+00 0.00E+00 I 0.00E+00 1-1?! Ci 6.06E-04 0.00E+00 0.00E400 ir-115 Ct 1.04E-05 0.00E+00 0.00E+00 0.00E+00
'"~ Es-140 Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00
., '3a Ci 1.46E-04 7.51E-06 0.00E+00 0.00E+00 l
~
- -!!' Ci 2.54E-04 2.48E-05 0.00E+00 0.00E+00
~ ~
Ce-144 Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00 Zr-95 Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 teo- ?S ~"~
Ci 0.00E+00 0.00E+00 Co "i C1 1.05E-05 9.86E-06 0.00E+00 0.00E+00 i ()
'~ ~ ~~~
ffn-54 C 2.57E-06 6.94C-06 0.00E+00 0.00E+00 i Fe .? Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00
~ ~ ~ - ~ '
-
- C1 1.75E-04 1.06E-04 0.00E+00 0.00E A 00 Ci 0.00E+00 0.00E+00 0.00E+0' .'A- T' i
C 1. 3?E-0 3 1.94E-04 0.00E*' - s e . 101 (28 1
O
, IABLE 3-la l
LF;'t.Ui'NT AND r/ASTE DISi'OSAL SE".lAN.'!UAL REFORT ('/ EAR) 1979 l l
SOLID P!ASTE AND IP.i( AD ATED FUEL SHIP.'.1ENTS FOR UNIT ___ I i A.00L10 Y!ASI!*
- JHIT PED Orr$1TE FOR BUalAL Olt DISPOS AL (Not irm.'o:ed fuell
!. Type cf w.ute twt G* **
- C. To ol Period Enore s
- t. Spent r: sin . fdter >NJ;:s. cuperator nr' t tottor 5. er . Ci 1 . 4536F+2.I 1 E 2'l OE+2
- l. !>;) c.'t..rv. a.:,.e w:stc. contenunated r.1' _ .
4 E+2 ce;ai;.. er:. _ Ci . 3 E+o 1 o E+2
- c. I:r,J:4t .d (o.::;nt.en 3. con uol -
Cl*- _E ro.:s. ete. Cl . E l E
- d. Oth : (d:sta:) rn* .
E_(
Ci .
E l. E
- 2. Es.uxt: of mier at:: lye cernpo:ition (by type of w ste) 1.c.010PE PERCENT CURL [S ZN-65 28 40.En O" a. CS-137 ~ ~
17 24_65 CS-134 16 23.2n CSW -'~~~ . 12 17_an ALL OTHERS 27 39 15
~
~~
b~-'ZR'65 28 1 30
. ~C $'-T3T~ 17 79 N 16 .74 co-60 12 .ss LL OTHERS 77 1 ?4__
1
'.3 So'.id il:s:e Ktg )Jtion . .
Nur., Mode of Trsr.s.ortatien D:stiant'on
--.Nr of St.inments 24 CHEM-NUCLEAR BARNWELL, S.C.
SYSTEMS, INC.
rs mrrt.t:t.Tcn ris;L m N. rNTS (i.'itrma'on)
O !!vn.t : cf F?lc.. ents .M..a .l.:_of T.r $r *mt:2tinn 4....
D:stimibn (29) e
q O
-l . TABLE 3-lb EFI'i l!Ef!T AND '.~ TASTE DISPOSAL SC.tlANNUAL f!EPORT (YEAR) 1979 -
EOL'D WASTE ANC Inf'.ADIATED Ft.!EL SillP.'.1EtJTS FOR Ui!!T II - .
A. SOUD Y!AS*. E Mi!PPED OFF StTE FOR SURIAL OR D10iCAL (flot i' radiated fuell
- 1. Tyg. of wnte U stt saieus tit. Tome heied En or, %
- a. Spat redns, fa?t:t SMg:5. c upratot nr'-~ 1 05.E+2 tott 'r-.s. e:e. Ci d
7 .c f*O 1 0FW t,. D;y ee n.jteuc.? w:str. contsn.i.uted ci d.3 E+0 (Ff. c* - Ci _ Z. Ik21 .O E+2
- c. far.' 'a t-1 cc..iponenc. conttog rY . ,E ro2. e te. Cl .
E_ .
I' _
- d. O!br (dssenbe) rd . E Ci . E . E
- 2. Er.!:n te ef nu;c.r anti & c aposition (by typ: ef mste)
~~
IS0 TOPE ---
PERCEI!T CURIES O a.
za-55
-C0-60
~
35 17 z 73 1.33 Q-lT7 14_ 1.09 CS-134_ _
12 .94 A OTHERS 22 1.72 _ ,
- b. ZN-65 35 8.0SE-f CO._-60 17 3.91E-3 .
CS-137 14 3.22E-3 c._gS-134 12 2.76ET ALL OTHER$ 22 5.06E-T
- d. ,
- 3. Solid V':ste LUpodden ,
I'gt:.f :rcJFrJr : g Mo/e ofTransportytion D:stin: tion 14 . CHEM-NUCLEAR ,
BARNWELL, S.C.
SYSTEMS, INC.
It IP.:!/.DI/.TFD Fui.L S'!!MC!T; (Disivaitico)
^ l'und-r u".H ix. :.'s Meh of Tran: e:s!!ca Destitution
. . .s ,. s