ML20155D355
ML20155D355 | |
Person / Time | |
---|---|
Site: | Pilgrim |
Issue date: | 06/30/1988 |
From: | Bird R, Bowman C, Dionne B BOSTON EDISON CO. |
To: | NRC OFFICE OF ADMINISTRATION & RESOURCES MANAGEMENT (ARM) |
References | |
BECO-88-128, NUDOCS 8810110230 | |
Download: ML20155D355 (221) | |
Text
{{#Wiki_filter:- - I" L - !7
- ; Pilgrim Nuclear Power Station has f Radioactive Effluent and
=
Waste Disposal Report
- including Meteorological Data .
- January 1 through June 30,1988 l
Radiological Engineering Division l 6 I P I. Date: September 1,1988 . l [ i i
. M BO M mo2188uB*qi.33 j!!EiVEDISON p ENERGY FOR TOMORROW ~ - . . , . - -
i PILGRIH NUCLEAR POWER STATION
, RADIOACTIVE EFFLUENT AND NASTE DISPOSAL REPORT i INCLUDING METEOROLOGICAL DATA JANUARY 1 THROUGH JUNE 30, 1988 i
[- . I I I I - l . Preparedby:.b"[dE-> B. J/bfo'nne I Senior Radiological Environmental Engineer Approved by: # I C. El Bowman Radiological Engineering Division Manager l Date of Submittal: August 30, 1988 l
i i f. 1 TABLE OF CONTENTS
~ Section Eggg
- 1. Introduction ,
1 !
- 2. Radioactive Effluent Data 1 l
- 3. Radioactive Maste Disposal Data 9 3 4. Meteorological Data 12
- 5. Off-Site Dose Calculation Manual Revisions 45
- 6. References 56 I 7. Appendices 57 i
LIST OF TABLES I Table E122 Supplemental Information 3
'- 1A Gaseous Effluents - Sumation of All Releases 4 4
IB , G seous Effluents - Elevated Release 5 IC Gaseous Effluents - Ground Level Release 6 2A Liquid Effluents - Sumation of All Releaset 7 f 2B Liquid Effluents 8 3 Solid Haste and Irradiated Fuel Shipments 10 t 4A-1 Distribution of Hind Directions and Speeds - 33 ft. Level 13 of 220 ft. Tower l
, 4A-2 Distribution of Hind Directions and Speeds - 220 ft. Level 29 of 220 ft. Tower e
i t i
~
l i LIST OF APPENDICES Accendiw gggg {- A-1 Delta Temperature from the 220 Ft. Tower for January- A-1 r June, 1988 Y
" A-2 Wind Direction at 33 Ft. Level from the 220 Ft. Tower for A-7 January-June, 1988 , A-3 Mind Direction at 220 Ft. Level from the 220 Ft. Tower A-13 for January-June, 1988 A-4 Mind Speed at 33 Ft. Level from the 220 Ft. Tower for A-19 l January-June, 1988 A-5 Wind Speed at 220 Ft. Level from the 220 Ft. Tower for A-25 January-June, 1988 t B-1 Mind Rose Diagrtms at the 33 Ft. Level of the 220 Ft. B-1 -
Tower for January-June, 1988 B-2 Nind Rose Otagrams at the 220 Ft. Level of the 220 Ft. B-10 Tower for January-June, 1988 C-1 Pilgrim Nuclear Power Station Offsite Dose Calculation C-1 Manual Revision 2 e
. . 1 9 \
l k
! r i
6
EXECUTIVE SUW.ARY P11gri:2 Nuclear Power Station i Radioactive Effluent and Maste Dist.osal Report January 1, 1988 to June 30, 1988 INTRCOUCTION This report quantifies the radioactive gaseous, liquid, and radwaste releases, I and somarizes the local meteorological data for the pericd from January 1, 1988 to June 30, 1988. This document has been prepared in accordance with the ( requirements set forth in the P11 grim Station Technical Specifications and i Regulatory Guide 1.21, "Measuring Evaluating, and Reporting Radioactivity in solid Hastes and Releases of Radioactive Materials in Liquid and Gaseous y Effluents from Light Nater Cooled Nuclear Power Plants (Rev. 1)." l l Amendment No. 116 to PNPS Technical Specifications, issued May 13, 1988, modified the reporting requirements for the Semi-Annual Radioactive Effluent
/ Release and Haste Disposal Report. The change allows for the submission of a L supplement to the March 1 Semi-Annual Report (reporting period for July ,
through December) which would include the dose assessments and the assor.iated r meteorological dispersion data for the previous year. Accordingly, the [ attached report does not contain the radiological impact on humans, the atmospheric dispersion factors, nor the associated percent Technical Specification Ilmits in Tables 1A and 2A. The quantity of radioactive material released from Pilgrim Station in this report was determined from sample analyses of gaseous releases from the main [ stact and the reactor building vent, and liquid releases into the discharge I canal. The quantity and volume of radioactive waste which was disposed from Pilgrim Station was determined from the data contained on the radwaste shippin documentation. The meteorological data was obtained from the 200ft meteorofogicaltowerlocatedatPilgrimStation. l-CASE 005 EFFLUENTS r The gaseous radioactive releases from January 1, 1988 to June 30, 1988 are presented and quantified in Tables IA, IB, and IC. P11 grin Station was shut , e down during the entire reporting period; therefore, there were no releases [ reportsd for radioactive noble gases during the period. Releases from the main stack and the reactor building vent for particulates totaled less than 0.0004 curies, and for Tritium totalled less than 0.09 curies. I LIOUID EFFLUENTS The liquid radte ctive releases from January 1, 1988 to June 30,1988 are ! I p?esented and quantified in Tables 2A and 28. Liquid effluents into the discharge canal resulted in a total release to the environment (Cape Cod Bay) : of less than 0.002 curies of fission and activation products and less than 0.3 I curies of Tritium. Dissolved and entrained gases were not present since, as stated previously, Pilgrim Station was shut down during the entire reporting i period. Gross alpha radioactivity was not detected. ! I 1 . 111 4 1 1
SOLID WASTE j The solid radioactive taste that has been shipped offsite during the reporting period is described and quantified in Table 3. Approximately 35 cubic maters I of solid waste was shipped offsite for burial with a total activity of L approximately 17 curies (major nuclides: Co-60 and Cs-137). No irradiated components were shipped offsite. METEOROLOGICAL DATA The meteorological data joint frequency distributions are listed in Tables I 4A-1 and 4A-2. Appendix A contains the temporal variations of delta temperature, wind direction, and wind speed that were used to generate these joint frequency distributions. There were a number of instances where the L data in Appendix A was not continuous. The meteorological data recovery did i not meet the criteria of 90% established by the NRC in Regulatory Guide 1.23. Corrective actions have been initiated to prevent recurrence and improve data . ' recovery. Physical improvements to the 220 ft tower and meteorological ' I procedure revisions were completed by the end of the second quarter. Implementation of improvements including a new power supply for the tower, a l link to the Boston Edison meteorological monitoring program, and new strip chart recorders in the control room will continue throughout the year. ' 1 Increased data recovery associated with these improvements should become l apparent during the next reporting period. Appendix B contains wind rose diagrams. The predoelnate wind direction was from the southwest which occured with a frequency of approximately twenty percent during this period. The predominate wind speed range was 12 to 19 mph, which occurred thirty-six percent of the time during this period. The l predominate stability class was stabilty Class D which occurred about fifty i percent of the time during this period. These meteorological observations are i consistent with past observations for this period. , CONCLUSION l The Pilgrim Station Technical Specifications contain limiting conditions for operations and operational objectives regarding radiological environmental ' releases. None of the limiting t qditions for operations or operational ob actives associated with liquid .,r gaseous effluents were exceeded during th s reporting period. This is based on the fact that the radioactive ! effluent releases for this reporting period are among the lowest of the , previous reporting periods. Conformance to these technical specification design objectives assures that the releases of radioactive materials in gaseous and liquid effluents were kept as low as is reasonably achievable in ac'c ordance with the Nuclear Regulatory Coenission's regulatior.10CFR50, I Appendix 1. Furthermore, compliance, with PNPS Technical Specifications demonstrates compliance with the Environmental Protection Agency (EPA), Federal Environmental Regulation, 40CFR190.10 subpart 8. l I , I iv I f i I r l
- i !
._-_L
l
, 1. INTe0 DUCTION ' 1 l
i This report is issued for the period January 1, to June 30, 1988 in I accordance with the P11 grim Station Technical Specifications and NRC l e Regulatory Guide 1.21. "Measuring, Evaluating and Reporting Radioactivity l
;. in Solid Hastes and Releases of Radioactive Materials in Liquid and Gaseous Effluents from Light Mater Cooled Nuclear Power Plants" (Rev 1). l
{- Amendment No. 116 to PNPS Technical Sepcifications, issued May 13, 1988 modified the reporting requirements for the Semi-Annual Radioactive Effluent Release and Maste Disposal Report. The change allows for the submission of a supplement to the March 1 Semi-Annual Report (reporting i period for July through December) which would include the dose assessments and the associated meterological dispersion data for the previous year. Accordingly, the attached report does not contain the radiological impact on humans, the atmospheric dispersion factors, nor the associated percent technical specification limits in Tables 1A and 2A. J Section 5 entitled "Offsite Dose Calculation Manual Revisions" describes 3 the changes that were made in response to NRC questions (TAC #63012) and ! Soston Edison Company's internal technical review. The Pilgrim Nuclear i Power Station - Offsite Dose Calculation Manual. Revision 2 is contained
, [ in Appendix C. , The minimum detectable concentratton required by PNPS Technical .
Specifications for all environmental samples from January-June 1988 was i met. L 2. RADI0 ACTIVE EFFLUENT DATA
, Radioactive liquid and gaseous releases for the period January 1.to June
- 30. 1988 is given in Tables IA,18, IC, 2A, 28, and supplemental
}
information section in the standard NRC Regulatory Guide 1.21 format ;
, (Reference 1).
There were no unplanned or non-routine releases of radioactive effluents during this reporting period. t a 2.1 Cateous Effluents
, Gaseous radioactivity is released from Pilgrim Station to the , atmosphere from the main stack and the reactor building exhaust ;
I vent. These first and second quarter gaseous efflueht releases for 1988 are sumartred in Table IA. A total of less than 0.004 curies
'l of particulates with half-lives greater than 8 days was released at I an average release rate of 2.30E-05m.C1/sec. No alpha radioactivity was detected on particulate filters during this reporting period. A ,
r total of less than 0.09 curies of Tritius was released at an average
} release rate of 5.56E-03 -C1/sec.
lf, The pain stack is an elevated release point with a height of approximately 400 feet above mean sea level. The main stack is I l located about 700 feet west northwest of the reactor building. The l first and second quarter elevated releases for 1988 are shown in Table 18. Cobalt-60 was the only isotope released with a total i i activity of about 2e.C1, 1 ! iI l s .
f The reagtor building exhaust vent is considered a ground level release point with a height of approximately 182 feet above mean sea level. The exhuast vent is located on the west corner of the reactor
, building. The ground level releases for the first and second I
quarters of 1988 are shown in Table .1C. Approximately 0.3 mci of Cobalt-60 and 0.04 mC1 of Cesium-137 were released.
- i. 2.2 Lieuid Effluents Liquid radioactivity is released from Pilgrim Station to the Cape Cod l Bay via the circulating water discharge canal. These effluent releases enter the Cape Cod Bay at the outfall of the canal which is located about 1100 feet north from the reactor building.
i The liquid releases for the first and second quarters of Ig88 are l sumarized in Table 2A. A total of 2.57E+6 liters of radioactive l r liquid waste (prior to dilution) containin 2 mC) (excluding Tritium, l gases, and alpha) were discharged after di ution with a total of 2.71E+09 liters of water. The liquid effluents were released at a quarterly average concentration of 8.84E-06 mC1/ml during the first . l and second quarters. A total of 0.3 curies of Tritium was released.
- No alpha radioactivity was detected during this reportinq period. l Quarterly release estimates and principal radionuclides 'n the liquid '
effluents are given in Table 28. [ l I . I i I !I - 4 I .
- I !
l 1 0 l ! l I 2 i i ! t i
l l' . t-EF FLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT g s # .m.eenn,.,- .n [ January - June 1988 recini. Pusnm Nuclese Po.e, sunoa L,v, opa 3s e
- 1. a,,.mier> Lenti a F.voa end e.3mi.. e,w, 5 500 arem/yr total body and 3000 arem/yr for skin at Site Boundary h.Ii$'wei h *t. -ei>mi ,) s1500 area /yr to any organ at Site Boundary d La*d 'Hi .< C.06 ares / month for total body and 0.20 I wrea/rorth for any organ without Radwaste Treatment
- Masim m he:r 4* ,s P.. i.* ' % 9 : .$ q .a. M v . ..e e,ies vi ov vnirainmi
( is t .c Fil P ' p . d.,.e i
. t* . t .e. =
d>s tyw s,
's A #
- a ' ~ - M ew # s rest, le CFR 30, Appe.&a B. Tale D 5 r ! rs<g. '
Pr.mde its ace's - to . ' : *
.! uni. de antit..e en selcanes pi fansam mil e61neinen pseen. si applasble. f we, 13(Qc x !.?..'.. , . ' . .,f.5 ) $ '.
4. I. . te , em.i. - J ,, i - a e. t wJ acar tme., Pi..eJe ihe m a hiies a . i.. s e i air .3,nuie she einai e-4=iasm9 m 'Swnu end the avthudi a:,4... driernt ne teiminW nk gumfu4; 4
- a. Fsiva W a.1 mue pvs I it lodine, mu w ,,,
c Fim.wbiti d LagwJ #likeais "' 4
- 5. teles Reimmaci Pi .de or sunvery inre,n,ai. , nla.n i i baia nicanei et e d==,iw metemh a 5d and penniw emwnei
- a. Uemif
- s. .p :,nte. es seau 18
- T naromeeve.ed h=h ici.#eie wi 5825 min or- 97.08 hrs i .t usimim time perna r. e a buch eclew 4 Awrote time perad kie heiA teleurs 385 min or 74 min or 6.42 hrs 1.23 hrs
- s. we.msm one pened f.= a hatch er'esw 15 min or .25 hra si Awr, mim tw d.mg penodi vr eese.w . r emwai mi..a th. as anem 1.23E5 GPM i .
l s Abnorinshi Reismus i l s. Liquid - N/A
- b. Caseous - N/A f
i t I t , 1
I f i I'
\.
t TASLE 1 A EFFLUENT AND WASTE DISPOSAL SEMI ANNUAL REPORT (198.8) GASEOUS EFFLUENTS. SUMMATION OF ALL RELEASES 6 January - June 1988 1 s t Quartet 2ndonarese Est. Tetsi l Unit 193g g93g Erroc. % 1. A. Fission and activation gues L Ci e e e l
- 1. Total releue
- 2. Average nieue rete for period pCL/see e e y
- 3. Percent of Technical Specification limit % e e B. Iodines
- 1. Total iodine.131 Q NDA FA 10 l
{ 2. Average relene este for period pCi/sec NDA MDA [ -
- 3. Percent of Technical SpectScation limit % -
C. Particulates ~
> 1. Particulates with half. lives > 8 days Ci 3.52E-4 1.11E-5 30 l
- 2. Average nlease rate for period yCi/sec 4.47E-5 1.41E-6
, 3. Percent of Technical Specifiestion limit % - -
g Ci < 2.45E-7 NDA
- 4. Gross alpha radioactivity r
D. Tritium Ci %.1st-9 utr 9 to l [ 1. Total nleue
- 2. Average niece rate for period pCi/sec 6.54r-3 4.snt-1 l
- 3. Percent of "Iechnical Specification limit % - -
l l .- l t * *
- Plant Shutdown 1st & 2nd quarters 1988 LLD's for all isotopes listed as NDA in Section B are41 x 10-12uci/m1 Section C are4.1 x 10-11uci/mi I
Percent of Technical Specification limit in Sections C.3 and D.3 to be provided in the Dose Assessment supplement to the July-December Semi-Annual Report (see FNPT. Technical Specificattoffs Section 6.9.C.1 Amendment Number 116). , l i ' I l l -s-l I
i TABLE 1B UPLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (19881 G ASEOUS EFFLUENTS - ELEVATED RELEASE January - June 1988 I CONTINUOUS MODE BATCH MODE I l Nvchdes Releeted l Urut l1stuerter Q Quarwr hndQuerwr l l Querwr l
- 1. Fission gues l
I krypton 85 O NA MA NA WA krypton 85m Ci wA mA wi ei krypton 87 O NA NA NA NA krypton 88 Q NA RA NA NA < zenon 133 O NA MA NA [ menon 135 Ci NA WA NA NA NA menon 135m Ci NA
- NA NA
, menon 138 Ci NA '* NA NA senon 131ta Ci NA
- WA NA
'menon 137 C1 MA
- WA WA senon 133m Q I Total for period , Ci MA NA MA MA NA NA 2 Iodines iodine 131 Cl NDA NDA NA NA I lodme 133 Q NDA NDA L NA todine 135 O NDA NDA NA NA Tota] for period Q NDA NDA NA NA
- 3. Particulates I ' strontium 89 O MDA WA WA W1 strontium 90 Q NDA MDA MA NA costum 134 O NDA EA MA NA cesium 137 O n1 ni vi vi barium lanthanum 240 Ci NDA NDA NA NA i chromium 51 Ci NDA NDA NA NA manganese 54 Ci NDA NDA NA NA cobalt 58 O WDA EA MA NA tron 59 Ci NDA NDA MA NA cobajt 60 Q 1.06E-6 1.01E-6 MA NA i Ane65 Ci NDA NDA NA NA streonium niobium 95 O NDA NDA NA NA cenum 141 Q NDA NDA NA NA y cerwm 144 ' Ci WDA WDA MA RA i
ruthenium 103 Ci NDA WDA NA WA f ruthenium 106 Ci NDA NDA NA MA I See footnote on pate 6 _--_.m . - _ _ . _ _ _ , . _ . _ _ _
1 I l l i l i i . j TABLE 1C ! l EFFLUENT AND WASTE DISPOSAL SEMI ANNUAL REPORT (1989 !
- GASEOUS E FFLUENTS . GROUND LEVEL RELEASE i
January - June 1988 CONTINUOU$ MODE BATCH MODE Nuctedes Released Unis g ,, Quem 2 nb" 0"'*
- 1. Fixion sues ko pton 85 Ci NA NA NA h krypton 85m O NA NA NA NA krypton 87 C n n v1 Wi .,_
krypton 88 Q NA NA NA NA _ xenon 133 Q NA NA NA NA menon 135 Ci NA NA NA NA menon 135m C1 NA EA NA NA g senon 138 O NA NA NA NA 3 Tota' for period Q NA NA NA NA
- 2. lodines I lodme 131 Q NDA VnA MA WA iodine 133 O NDA NDA NA NA todine 135 O NDA NDA NA NA Total for period O NDA NDA NA NA
- 3. Particulates strontium 89 Q VnA wn1 wi ei ttrontitim 90 Q NDA WDA NA NA lE cesium 134 N NDA MDA MA WA tNium 137 0 4.22E-5 _ ,MDA ' MA WA Ci NDA NDA NA NA barium lanthanum 140 Q NDA NDA NA NA asanganese 54 c%balt 58 Q NDA NDA NA - NA tron 59 Q NDA NDA NA NA _ _ _ _
cobs]t 60 Q 3.09E-4 1. ole-5 NA NA Ci NDA NDA NA NA sine-65 ( sitconium-niobium 95 O Q NDA NDA NDA MDA MA MA NA WA cerium 141
!' ruther.iurn 103 Cl NDA trDA MA WA ruthenium 10-6 O NDA EDA NA NA IJ.D'S for all isotopes listed as NDA" in section (2) are less than I s 10-12uct/a1 and in section (3) are less than 1 x 10-Iluci/m1 + _ _-
I i l' l l TABLE 2A a EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1988) LIQUlO EFFLUENTS SUMMATION OF ALL RELEASES January - June 1988 l
\
Ist barmt 2ndberwr get. Total Unit 193g iggg gem,s A. Fission and activation products
- 1. Total releue (not including tritium. I Ci noble gues, or alpha) 1.14E-2 9.74E-3 30
- 2. Average diluted concentration pCn/ml during period 6.09E-6 1.16E-5
- 3. Percent of appbeable limit %
B. Tritium i 1. Total release Ci 2.08E-1 9.05E-2 10 l
- 2. Average dileted concentration uCt/ml during period 1.11E-4 1.08E-4 .
I 3. Percent of appheable Itmit % C. Desolved and entrained gases
- 1. Total releue Ci * *
- l
- 2. Average diluted concentration pCi/ml during period
- 3. Percent of apphesble Itmit % g- T-D. C. ass alpha radioactivity l 1. Total releue l Ci l MDA } wha l An j E. Volume of weste released (pner Eters 1.80E+6 7.67E+5 20 to dilution) ls F. Volume of dilution water used liters i
3,,7g., 20 during period _ l 8.40E*8 ,
- Plant shutdown 1st and 2nd quarters 1988 LLD's for all isotopes listed as NDA in Section D are 41 x 10-7uci/m1 Percent of applicable limit in Sections A.3 and B.3 to be provided in the Dose Assesskent supplement to the July-December Sealannual Report (see PNPS Technical Specifications Section 6.9.C.1 Amendment Number 116).
I I
- fe 4
_y - - , -
1 i I TABLE 28 a EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1988 LIQUID EFFLUENTS January - June 1988 L CONTINUOUS MODE BATCH MODE r Nuthdu Reksied Unit Overter Quorter g overter yg ouarter , s'.rontium 89 Ci NA NA NDA WDA strontium 00 f Ci NA NA 3.45E-6 3.11E-6, cesium 134 Ci NA NA 1.52E-5 1.54E-4 cesium 17
- Ci NA NA 1.20E-3 5.54E-3 lodme 131 Ci NA NA NDA NDA
{- cobalt 58 Ci NA NA NDA NDA 1 cobalt 60 Ci NA MA 4.08E-3 1.52E-3 tron 59 Ci NA NA MDA NDA l'a Zinc.65 Ci NA NA NDA NDA manganese 54 Ci NA NA 1.91E-5 4.42E-6 . chromium 51 Ci NA NA WDA NDA aliconimuw niobium 95 O MA NA WBA WBA { molybde v .99 [ tecnnettun.99m Ci NA NA NDA NDA barium lanthanum 140 Ci NA NA NDA NDA cerium 141 O vi vi uni WDA Fa. gg wa um 3.21E-4 1 60F-4 iodine 133 Ci vi . I wi ,, NA cerium 144 O NA NA I eUver 210m Q NA NA NA NA NA NA iron 55 ' Ci NA NA NA NA l unidentif ed l Ci l MA l WA 5.74E-3 l 2. M T-1 ! l Total for period (above) Q NA NA 1.141-2 9 7AI-3 senon 133 Ci NA MA trna E91 senon 135 Ci NA NA _ MDA WDA g 1.LD's for all isotopes listed as NDA are as follows: 1, Sr-89 4 5 x 10-8uci/m1 Fe-59 4 5 x 10-7 uci/ml ZrNb-95 < 5 x 10-7 uci/ml 1-;31 < 1 x 10-6uei/m1 En-65 < 5 x 10-7 uci/ml Mo99 Tc99 < 5 x 10-7 uci/c1 r co-58 < 5 x 10-7uci/m1 Cr-51 < 5 x 10-7 uci/ml RaLa 140 < 5 m 10-7 uei/mi i Ce 141 < 5 x 10-7 uci/c1 (
- 3. RADI0 ACTIVE RASTE DISPOSAL DATA Radioactive vastes chich vere disposed of during the period January 1 to June 30, 1988 are given in Table 3, in the standard NRC Regulatory Guide 1.21 format (Reference 2).. ,
The semiannual total quantity of radioactivity in curies and the total volume in cubic meters for the following categories or waste types are listed in Table 3:
- a. Spent resins, filter sludges, evaporator bottoms;
- b. Dry compressible waste, contaminated equipment, etc.;
L c. Irradiated components, control rods, etc; and,
- d. Other, f During January to June 1988, approximately 17 curies of spent resins, filter sludges, etc. with a total volume of about 35 cubic meters were disposed of offsite from Pilgrim Station. Dry compressible waste.
la contaminated equipment, irradiated components or other miscellaneous low-level waste were not disposed of offsite during this reporting period. An estimate of the r,ajor radionuclides in the spent resins and filter I sludges shipped offsite is also listed in Table 3. Six shipments were made to Barnwell, South Carolina during January to June 1988. No irradiated fuel shipments were made during this period. l I I I I I I-I 9 t
TABLE 3 i EFFLUENT AND E STE DISPOSAL SEMI-ANNUAL REPORT (1988) SOLID HASTE AND IRRADIATED FUEL SHIPMENTS JANUARY - JUNE 1988 A. SOLID NASTE SHIPPED OFF SITE FOR BURIAL OR DISPOSAL. (not irradiated fuel) { l
- 1. TYPE OF KASTE UNIT 6 MONTH EST. TOTAL PERIOD ERROR 1
- a. Spent resins, filter sludges, m3 34.308 evaporator bottoms, etc. C1 16,625 N/A
- b. Dry compressible waste, m3 0.00 contaminated equipment, etc. Ci 0.00 N/A -
, c. Irradiated components, m3 0.00 ,
control rods, etc. Ci 0.00 N/A
- d. Other (Describe) m3 0.00 miscellaneous low-level waste C1 0.00 N/A l L 2. ESTIKATE OF HAJOR NUCLIDE COMPOSITION.
(by type of waste) E(Curies) 1
- a. Spent Resin, Filter Sludges, C-14 0.005 0.030 -
<. Evaporator Bottoms, etc. Cm-242 (0.001 0.006 Co-60 6.250 37.594 Cs-134 0.276 1.660 Cs-137 7.240 43.549 Fe-55 2.190 13.173 H-3 0.014 0.084 1-129 (0.001 0.006 Mn-54 0.241 1.450 Mi-63 0.392 2.358
[ Pu-241 0.004 0.024 _ l Sr-90
- 0.0Q9 . 0.054 Tc-99 (0.001 0.006
. Tru <0.001 0.006 TOTAL 16.625 100.00 I
e 4 1 , 10 l I
Inble 3 (Continued) i
- b. N/A
]
- c. N/A'
- d. N/A L
- 3. SOLID KASTE DISPOSITION
) a of Shioments Mode of Transeortation Destination 6 Tractor - Trailer Barnwell South Carolina
- 4. IRRAEIATED FUEL SHIPMENTS (Disposition)
Number of Shiements Mode of Transeortation Destination ] I None N/A N/A I l . a I I I I I I I l 11
- 4. METE 000 LOGICAL DATA P
Meteorological data for the period January 1 to June 30, 1988 is
' given in Tables 4A-1 and 4A-2 in the standard joint frequency distribution format as given in NRC Regulatory Guide 1.21 l (Reference 3). Appendix A contains delta temperature, wind speed ar.d I wind direction data; and, Appendix B contains wind rose diagrams.
The predominate wind direction was from the southwest which occured I with a frequency of about twenty percent during this period. The predominate wind speed range was 12 to 19 aph which occurred with a frequency of thirty-six percent during this period. The predominate stability class was stability class D which occured about fifty l percent of the time during this period. l There were a number of instances where the data presented in Appendix l A was not continuous. Typically, data losses were due to Icss of power, malfunction of the sensor (s) and/or malfunction of the chart recorders. The net effect being that the data recovery for the period of January-June 1988 was 89.7% on the 33 foot elevation and l 95.7% on the 220 foot elevation of the 220 ft meteorological tower at Pilgrim Station. Therefore, the meteorological data recovery criteria in NRC Regulatory Guide 1.23 of 901 was not met for the I January -June time f Mme. Corrective actions have been taken to improve data recovery. The improvements that have been completed as of the second quarter I include:
- 1) Outfitted the 220 foot meteorological tower with new cables and I the Tower Systems instrument elevator; *
- 2) Replaced 220 foot meteorological tower guy wires and ground I connections; and, 1
i 3) Revised all meteorological procedures including inspection. maintenance anti cr.libration procedures. { The improvements that have been initiated but have not yet been completed include:
- 1) Install new elvetrical power source to the 220 foot meteorological tower instruments with emergency backup power I . capability; I
- 2) Link the 220 foot meteorological tower to the loston Edison Company's computertred network for fossil stations I meteorological monitoring program; and,
- 3) Install new data loggers and strip chart recorders for the 220 foot meteorological tower output in the control room.
Ir.plementation of these improvements should result in increased data recovery for the future reporting periods. l 12
TABLE 4A-1 DISTRIBUTION OF HIND DIRECTIONS l AND !, PEE 05 FOR THE 33 FT. LEVEL ' OF THE 220 FT. TOHER ; l I pitsala 31Atl0m JAnne wau saticaAcctCAL Data Jolet FHeututt pist 10gtl> 33.0 FI WINO DA1A $1A814111 CLAtt A C&Att FateAu:t (P(ACf W1) e 4.97 i Wile Oltittle F82 GPtID(W M ) h tal et Ett I Ett St 851 8 SSV W W9V W WWV eW tuV Vtti 101AL t.A t a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .0C .0C .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ,
.9) .00 .00 .00 .00 .00 .00 .00
- 1. (2) .00 .00 .00 00 .00 .00 .00 .00 .00 .00 C3 0 0 0 2 3 0 0 0 0 0 0 0 0 0 0 0 0 5 (1) .00 .00 .00 2.13 3.19 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 S.32 I (2) 00 .00 .00 .11 .16 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .26 47 3 3 4 9 3 17 5 0 1 0 0 0 0 0 0 ) 0 48 (1) 3.19 3.19 4.26 9.57 3.19 18.09 5.32 00 1.N .00 .00 .00 .00 .00 .00 3.19 .00 11.06 .
(21 .te .16 .21 48 16 .90 .26 .00 .M .00 .00 .00 .00 .00 .00 16 .00 2.54 f 9 8 12 (1) 0 4 8.11 4.26 S.32 5
.00 0 0 2 2 .00 2.13 2.13 1N 2.13 2.13 1 2 2 .00 0 .00 0 0 2 .00 2.13 1.06 1N 1 1 .00 0 30 31.91 (2) 42 .21 .24 .00 .0C .11 .11 .95 .11 .11 .00 .00 .00 .it .05 .M .00 1.59 ; 13*18 4 2 0 0 0 0 0 0 0 1 0 0 0 0 4 0 0 11 (1) 4.26 2.13 .00 .00 .00 .00 .00 .00 .00 1.06 00 .00 00 .00 4.26 .00 .00 11.70 [
(2) .21 11 .00 .00 .00 .00 .00 .00 .00 .M 00 .00 .00 .00 .21 .00 .00 .58 l 19 26 (1) .00 0 0 00 .00 C
.00 0 .00 0 .N 0 'O 00 .00 8 .00 0 .00 0 0 00 .00 0 .40 0 .00*
5
.90 0 .00 0 .00 0 .00 C
(2) .00 30 .00 .00 .00 .00 .00 .00 00 .00 00 .00 .00 00 .00 .00 .00 .00 I El 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .O .N .00 .00 .sc .k .90 .00 .90 .00 .00 ,.30 .00 .00 .00 .00 .00 .00 (2) 00 .00 .00 00 .00 .00 .00 .00 .00 90 .00 .00 .90 .00 .00 .00 .00 .0C ALL lett05 15 9 9 11 6 19 7 1 3 3 0 0 0 2 5 4 0 94 , g (1) 15s96 9.17 9.57 11.70 4.34 20.*1 7.41 1.N 3.19 3.19 .00 .00 .00 2.43 S.32 4.26 .00 IN.cc (2) .19 64 64 .54 .32 1.00 .37 .M .4 .M .00 .90 .90 .1 *. .36 .21 .00 4.97 (1). Pit:141 Of Att 8000 04Silvattomt F0s tels Pact Pit:tmi 07 Mt 0000 OsttevAtlet F0a Ints PttlE Co Cath (Vle Ptti titt TRAa ta Saat to .50 W8) I(2) 13 9 i
)
TABLE 4A-1 (continued) L I pitteln statt0h J&hM MA8&& NEf tceAOCICAL DATA J0!W1 fetaututt Cl81tlBJfl(pi 33.0 77 wie CATA statititt etast I ttats fateuta:t (Pttcth1) e 2.06 wie Oltittitm ret > , gritatwa) e out et tht t 858 st sst s tsw w Wsw w ww w sww vtBL 101At CAta 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00
= (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 0 0 1 0 0 1 1 0 0 0 0 0 0 0 0 0 0 3 1 (1)
(2)
.00 .00 .00 2.M .00 .M .00 .00 .00 2.54 2.54 .00 .05 .M .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 7.69 16 47 0 0 1 0 0 0 1 2 1 0 0 0 0 0 0 0 0 5 1 (1) .00 .00 2.56 .00 .00 .00 2.54 5.13 2.56 .00 .00 .00 .00 .00 .00 .00 .00 12.82 (2) .00 .00 .M .00 .00 .00 .M 11 .M .00 .00 .00 .00 00 .00 .00 .00 .26 ,
8 12 1 0 2 0 0 0 0 0 3 3 0 0 0 5 4 1 0 19 (1) 2.54 .00 5.13 .0C .00 .00 .00 .00 7.69 7.69 .00 .00 .00 12.82 10.26 2.54 .00 44.72 (2) .M .00 .11 .00 .00 .00 00 .00 16 .16 .00 .00 .00 .26 .21 .05 .00 1.00 13 18 1 1 1 0 0 0 0 0 0 1 f C 0 2 3 0 0 9 (1) 2.54 2.54 2.54 00 00 00 .00 .00 .00 2.56 .00 .00 .00 5.13 7.69 .00 .00 23.08 (2) .M .M .05 .00 .A .00 .00 .00 .00 .M .00 .00 .00 .11 .14 .00 .00 48 19 24 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 3 (1) 2.54 2.M 2.54 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 7.69 (2) .05 .9% .05 00 .00 .00 .00 .00 .00 .00, .00 .00 .M .00 .00 .00 .00 .16 I :
., ,. . 0 0 0 0 0 0 0 0 0 0 0 0 0 . 0 . 0 (1) .00 .00 .00 00 .00 .00 .00 .50 .00 .00 .00 .00 .00 .90 00 .00 .00 00 (2), .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .be Att t*ttel 3 I .6 0 0 1 2 2 4 4 0 0 0 1 7 1 0 39 (1) 7.69 5.13 15.50 .00 .00 2.54 5.13 5.13 10.26 10.24 .00 .00 .00 17.95 17.95 2.56 .00 N.00 I (2) 16 .11 .32 .00 .00 .05 .11 11 .31 .21 .00 .00 .00 .37 .37 .95 .00 2.06 (2)=#tt:Iut of Att 30cc istitwatttel fot f u!5 PillCC Cs CAta tuluo g>tta till f aam ga tant 10 .50 era)
I (i)erstetut et Att ette 089Etvatical 90s 1stl PA?! I 14 , t
TABLE 4A-1 (tontinued) I PILGalu 11 Atlk Jamte sus &4 M itcapt0CICAL DATA Jotut Fttout%CT O!SititJfl > 33.0 71 Wito 041A STA8!Liff CLAll C CLAll IttautuCT (PitCIuf) e 3.07 I Wim titttflm Ftom SMt0(Wa) W Dut at th! E tit 8( tti 8 85v SW WsW W SerW W tw valL TOTAL CALM 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C (1) .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 t2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 0 0 0 0 0 0 0 0 0 0 0 0 0 C3 0 0 0 0 0
.00 .00 .00 .00 .00 00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 (1) .00 .00 I (2) .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .90 .00 .00 .00 .00 .00 0 0 0 0 0 0 2 0 0 0 6 47 0 0 1 0 1 1 1 .00 1.72 .00 1.T2 1.72 .00 .00 .00 .00 .00 3.45 .00 .00 .00 10.34 I (1)
(2)
.00 .00 .00 1.72 .00 .05 .00 .05 .00 .05 .05 .00 .00 .00 .00 .00 11 .00 .00 .00 .32 0 0 0 0 0 3 0 0 0 7 7 1 0 26 8 12 3 0 3 2 I (1) 5.17 .00 5.17 3.45 .00 .00 .00 .CC .00 5.17 .00 .00 00 12.07 12.07 1.72 .37 .05 .00 .00 44.83 1.37 (2) .16 .00 16 11 .00 .00 .00 .00 .00 .16 .00 .00 .00 .37 P 0 0 0 0 0 1 0 1 5 6 1 0 21 13 18 2 2 2 1 00 .00 .00 1.72 00 1.72 8.62 10.26 *1.72 .00 36.21 (1) 3.45 3.45 3.45 1.72 00 .00 .00 (2) .11 .11 .11 .05 00 .00 .00 .00 .00 .00 .M .00 .M .26 .32 .M 00 1.11 0 0 0 0 0 0 2 0 0 0 0 0 0 5 19 26 2 0 1 0 .00 .00 .00 00 3.45 00 .00 .00 .00 30 00 8.62 (1) 3.45 .00 1.72 .00 .00 .00 00 .00 00 .00 .00 .00 .11 00 00 .E .00 .00 00 .26 (2) 11 .00 .05 .00 0 0 0 0 0 0 0 0 0 0 0 C 81 24 0 0 0 0 0 0 .00 00 .00 .90 .00 00 .00 .00 .00 .00 .00 (1) .00 00 .00 00 00 .00 .00 .00 .00 .00 .90 .00 00 00 .00 .00 00 .00 .00 . (2) .00 .00 .00 .00 .00 .90 0 1 0 3 3 0 1 to 13 2 0 54 ML SMESS 7 i 7 3 1 1 .00 1.72 1.72 00 5.17 5.17 .00 1.72 24.14 22.41 $.45 .00 100.00 (1) 12.07 3.45 12.07 5.17 1.T2 3.07 (2) .37 .11 .37 16 .05 .00 .05 .M .00 16 .ie 00 .05 .74 .M .11 .00 (1)=Pittist 08 ML SCED Celttvattal loa f ull Pact (2)=MIClut 08. ALL totU telltvAflmt Pot 1s!$ MalCC to CAtn (Wie 3MED Ltts inns in teJAL TO .50 wn)
I U 15
l TABLE 4A-1 (continued) t l plLCelm 81Atl0h JAmM mAAM altit0t%00lCAL DATA J0lkt f atmKtCT DilititV110N 33.0 F1 WINC DATA STAlltiff Ctall D Ctats FeteAu:7 (Pitttuf) e 52.14 Wie Olettfl0h Ft> it spitote n) a set ut tat t Est St Slt 4 Ssw W Wsw W 6erW sN mww VtBt TQlat CAtu 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 . l j (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 0 0 1 0 0 1 3 3 3 1 1 3 2 0 0 3 0 21 (1) .00 .00 .10 .00 .00 10 .30 .30 .30 .10 .10 .30 .20 .00 .00 .30 .00 2.13 I (2) .00 .00 .05 .00 .00 .05 .16 .16 .16 .05 .05 .16 .11 .00 .00 .?6 .00 1.11 47 9 7 5 7 13 12 16 14 6 8 17 17 27 60 13 5 0 226 (1) .91 . 71 .51 .71 1.32 1.22 1.62 1.42 .61 .41 1.72 1.72 2.74 4.06 2.33 .51 .(C 22.92 I : (2) 48 .37 .26 .37 .69 .63 .05 .74 .32 42 .90 .90 1.43 2.12 1.22 .26 .0J 11.95 8 12 10 11 16 8 6 8 1 0 3 31 96 27 54 101 68 22 0 462 (1) 1.01 1.12 1.62 .81 .61 .81 .10 .00 .50 3.14 9.74 2.74 5.48 10.24 4.90 2.23 .00 46.66 . (2) .53 .58 .85 42 .32 42 .05 .00 .ie 1.64 5.08 1.43 2.86 5.34 3.60 1.16 .00 24.43
- 13 18 15 to 11 3 0 0 0 0 0 15 65 6 11 45 25 18 0 224 1 (1) 1.52 1.01 1.12 .30 00 .00 .00 .00 00 1.52 4.59 .61 1.12 4.56 2.54 1.83 00 22.72 (2) 79 .53 .58 .16 .00 00 .00 .00 .00 .79 3.64 .32 .58 2.38 1.32 .95 .00 11.85 19 24 2 8 9 0 0 0 0 0 0 1 12 2 0 0 5 10 0 49 (1) .20 .81 .91 .00 00 .00 4 .00 .00 .10 1.22 .20 .00 .00 .51 1.01 .00 4.97 (2) .11 42 44 .00 .00 .00 .00 .00 .00 .05 .63 .11 00 00 .26 .53 .00 2.59 81 24 0 1 3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 (1) .00 .10 .30 .00 .00 .00 .00 .90 .90 .00 .00 .00 .00' .00 ' .00 .00 .00 41 (2) .00 .05 .1.'. .00 .00 .00 .00 .00 .00 .00 00 00 .00 .60 .00 .00 .00 .21 Att 9Petet 36 37 65 14 19 21 20 17 12 56 191 55 04 See 121 54 0 986 (1) 3.65 3.75 6.56 1.83 1.73 2.13 2.03 1.72 1.22 5.64 19.37 5.54 9.53 18.06 12.27 5.08 .00 100.00 (2) 1.90 1.96' 2.34 .95 1.00 1.11 1.06 .90 .63 2.96 10.10 2.91 6.97 9.04 6.40 3.07 .0G 52.14 (insett: tut OF ALL som 00ttavafl0ms t0a f als Pact l (2)*Pitotut of ALL 80s GesitvAtlNS 70s f all Pitt0D Ce CALA (Wie 9PttD Litt inAu tm seuAt 10 .50 wn)
{g 16 t l
I I TABLE 4A-1 (continued) f . I I l PILGalm $1Atlow jam 88 mAsu uttton0 LOGICAL 041 A J01w1 flieutuCT Dlttelgi/110m 33.0 ft Wic CA1A $1AalL117 CLAll I Ctall f attuteCf (Pittihi) e 31.46 l' Wi c Olettflow recs ll sPfl0(pp) t het ht fut I tit St $51 S tsv SW ' Wsv W WW eM twW vest 101AL . CAtm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 . I1) .N .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 (2) 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 1 1 2 0 0 2 3 5 7 3 2 5 2 4 2 1 0 40 17 .17 .34 .00 .00 .34 .50 .k 1.18 .50 .34 .N .34 .67 .34 .17 .00 6.72 lg ti) (2) .05 .05 .11 .00 .00 .11 .14 .26 .37 .16 .11 .26 .11 .21 .11 .05 .00 2.12 - 47
- 2 0 1 2 0 $ 8 11 32 39 34 41 43 29 16 4 0 271 (1) .34 .0; .17 .34 .00 .k 1.34 1.85 5.38 6.55 5.71 6.09 7.23 4.07 2.69 1.34 .00 45.55 1 (2) .11 .00 .05 .11 .00 .26 42 .58 1.69 2.06 1.00 2.17 2.27 1.53 .05 .42 .00 14.33 0 12 0 2 1 1 0 0 1 1 6 35 70 19 26 24 10 13 0 209 17 * .01 5.08 11.76 3.19 4.37 4.03 1.64 2.18 .00 35.13 1 (1)
(2)
.00 .00 .34 .11 17 .05 .17 .C5 .00 .00 .00 .00 17 .C5 .05 .32 1.85 3.70 1.00 1.37 1.27 .53 .69 .00 11.05 13 18 1 1 0 1 0 0 0 2 2 14 37 4 0 2 2 2 0 68 1 (1) 17 .17 .00 17 .00 .00 .00 .34 .34 2.35 6.22 .67 .00 .34 .34 .34 .00 11.43 (2) .C5 .05 .00 .C5 .00 .00 .00 .11 .11 .74 1.96 .21 .00 .11 .11 .11 .00 3.60 19 24 0 1 0 0 0 0 0 0 0 3 2 0 0 0 0 1 0 7 (1) .00 .17 .00 .00 .00 .00 .00 .00 .00 .50 .34 .00 .00 .00 .00 .17 .00 1.18 (2) .00 .C5 .0C .00 .00 .00 .0C .00 .00 16 .11 .00 .00 .00 .00 .05 .00 .37 81 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 ALL SPitcl 4 5 4 4 0 7 12 19 47 04 145 69 71 99 30 25 0 595 (1) .47 .N .67 .67 .00 1.10 2.02 3.19 7.90 15.00 24.37 11.60 11.93 9.92 5.04 4.20 .00 100.00
- 62) .21 .26 .21 .21 .00 .37 .63 1.00 2.49 4.97 7.67 3.65 3.75 3.12 1.99 1.32 .00 31.44 (1)* Pit ltti Of Att 00C0 Ottf tvallobl 80s 1stl PA01 (2)*Pitttt! 08 ALL GOOD Otttiv&TIChl tot itll PitlCC Ce CAin (Vic Stito Lt38 TmAN GE teuAL TO .50 MPa) 1 i
i l 17
i' TABLE 4A-1 (continued) I l . Fitcala $1A110m JAnte maa&& WitotoioclCAt DATA Jolut patMatt 0181t!Wilow 33.0 f t WIwo Cala stAsttift C&All F class Petuutt (PttetNT) e 4.55 Wile Bittt110N Ft> l*tte(mPa)k met S et Ett t ISI St sit 8 sw sw Wsw W WWW sw sww valt TOTAL CALn 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 l (1) (2)
.00 .00 .00 .00 .M .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .0C .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 1 0 1 0 0 1 0 1 0 2 3 6 2 0 0 0 0 17 1 (1) 1.16 .00 1.16 00 .00 1.16 .00 1.16 .00 2.33 3.49 6.98 2.33 .00 .00 .00 .00 19.77 (2) .05 .00 .05 .00 .00 .05 .00 .05 .00 .11 .16 .32 .11 .00 .00 .00 .00 .90 47 1 0 0 0 0 0 2 1 13 8 4 12 23 0 0 1 0 65 (1) 1,16 .00 .00 .00 .00 .00 2.33 1.16 15.12 9.30 4.45 13.M 26.74 .00 .00 1.16 .00 75.52 (2) .05 .00 .00 .00 .00 .00 .11 .M .69 42 .21 .63 1.22 .00 .00 .M .00 3.44 8 12 0 0 0 0 0 0 0 0 2 1 0 1 0 0 0 0 0 4 (1) .00 .00 .00 .00 .00 .00 .00 .00 2.33 1516 .00 1.16 .00 .00 .00 .00 .00 4.65 (2) .00 .00 .00 .00 .00 .00 .00 .00 .11 .M .th .M .00 .00 .00 .00 .00 .21 13 18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ! (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .C0 .00 .00 .00 19 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00
[ (2) .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 El 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 Att OPitel 2 0 1 0 0 1 2 2 15 11 7 19 25 0 0 1 0 86 (I) 2.33 .00 1.16 .00 .00 1.16 2.33 2.23 17.44 12.79 8.14 22.09 29.07 .00 .00 1.16 .00 100.00 I * (2) .11 .00 .M .00 .00 .M .11 .11 .7T .54 .37 1.00 1.32 .00 .00 .M .00 4.55 1)*Mettul Of Att 8000 Settevallet Poa f als Pact I ((2)*PttClu1 Of Att 80G) OB&tev41]et Ce Foe f alsSett0Mal 3) OR teuAL 10 .50 MPa) Cath (WIND ttil inAm iI I, I 18 s f h
TABLE 4A-1 (continued) 1 PILGalm STA110m jam 68 MAIM IEf tat %0CICAL DATA Jotut Fateutv t Dilitt0Jiloh 33.0 FT Wie DATA 51A81Llit CLAll C CLAsl FAIOLEu t (Mactut) e 1.75 Wi c Olttttim Facm } , i t SPl!0(WO N Sul Nt EN! ! R$t $8 Sl! $ $$W SW W5W W WWW WW twV WR8L TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 t3 0 0 0 0 0 0 0 0 0 1 8 2 0 0 0 0 0 11 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 3.03 24.24 4.06 .00 .00 .00 .00 .00 33.33 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .42 .11 .00 .00 .00 .00 .00 .58 I 47 0 0 0 0 0 0 0 0 3 2 5 11 1 0 0 0 0 22 (1) .00 .00 .00 .00 .00 .00 .00 .00 9.09 4.06 15.15 33.33 3.03 .00 .00 .00 .00 64.67 (2) . 00 00 .00 .00 .00 .00 .00 .00 16 .11 .24 .58 .CS 00 .00 .00 00 1.16 8 12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .fC .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 I . 13 18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .f4 .00 .00 .00 I (2) .00 00 .00 .00 00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 1 (2) .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .r/J .00 .00 .00 .00 C1 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C I (1) (2)
.00 00 .00 .00 .tc .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 A0 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 ,.93 0 0 0 0 0 0 0 0 3 3 13 13 1 0 0 0 0 13 lALLOP(108 (1) .00 .00 .00 .00 .00 .00 .00 .00 9.09 9.09 39.39 39.39 3.03 .00 .00 00 .00 100.00 (2) 00 .fC .00 .00 .00 .00 .90 .00 .16 .16 .69 .69 .05 .00 .00 .00 .00 1.75 (1)=Pf tttet of ALL 000D DettavAittel FCs f all PAGE (2)*tittet Of Att 00t2 OB$ttvA110ml Pts 1Bil MilCC Ca CAUi (W12 SPttD Lttl inAn 08 E8JAL 10 .50 MPN)
I 19
I s t TABLE 4A-1 (centinued) I h I PILO 41m STAttoh Jau64. mat &8 NEf!JRA 0GICAL 041A J0161 liteLKuCY tl5ftlBJfl0N 33.0 f1 Wlu0 DA1A STA81 Lit 1 Clell ALL CLAll fattut4C1 (PitCtWT) e 100.00 Wlic Cit!Cilm f t> I SPttC (ppk) k unt at fut t Ett if $$t S OSW SW vtv W 1MV W WW YtBL TOTAL 0 0 0 0 0 0 0 0 0 0 0 s 0 0 0 CALM 0 0 0 .
.00 .00 .00 .00 .00 .00 .00 00 .00 I (1)
(2)
.00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 00 .00 .00 .00 .00 ,00 .00 7 9 10 7 14 16 6 4 2 4 0 97 C3 2 1 5 2 3 5 I (1) .11 .05 .26 .11 16 .26 .37 .L8 .53 .37 .74 .85 .32 .21 .11 .11 .21 .21 .00 .00 5.13 5.13 (2) .it .05 .26 .11 .16 .26 .37 44 .13 .37 74 .85 .32 .21 47 15 to 12 18 17 34 33 29 54 57 60 81 94 71 39 17 0 H3 .79 .53 .63 .95 90 1.00 1.75 1.13 2.96 3.01 3.17 4.28 4.97 3.75 2.06 .90 00 34.00 (1)
(2) .79 .53 .63 .95 90 1.60 1.75 1.13 2.96 3.01 3.17 4.28 4.97 3.75 2.06 .90 00 34.00 0 12 22 17 27 11 6 10 4 2 16 75 1M %7 80 139 90 38 0 750
.11 .85 3.97 8.78 2.69 4.23 7.35 4.76 2.01 .00 39.M (1) 1.16 .90 1.43 .58 .32 .53 .21 90 1.43 .54 32 .53 .21 .11 .35 3.97 8.78 2.49 4.23 Y.35 4.76 2.01 00 39.M (2) 1.16 13 18 23 to 14 1 0 0 0 2 2 31 103 to 12 54 40 21 0 333 .it 1.H S.45 .53 .63 2,06 2.12 1.11 00 17.61 (1) 1.22 .45 74 .ta 00 .00 .00 11 (2) 1.22 .45 .74 .26 .00 00 .00 .11 .11 1.M l.45 .53 .63 2.06 2.12 1.11 00 17.61 0 0 0 0 0 0 4 16 2 0 0 5 11 0 k 19 24 5 10 11 .00 .00 .00 .00 .00 .21 .35 .11 .00 .00 .26 54 .00 3.34 (1) .26 .53 .58 00 00 .00 .00 .00 .00 .21 .35 .11 .00 .00 .26 .54 .00 3.58 I (2) .26 .13 .54 .00 4
0 o 0 0 0 0 b 0 0 0 t t 0 0 st 24 0 1 3 00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .21 (1) 00 .05 .16 .00 .00 I (?) 00 .05 .16 .00 .90 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .90 .00 .21 Alt tPttDS 67 55 72 36 26 49 44 42 44 174 359 154 192 264 176 91 0 1891 3.54 2.91 3.81 1.90 1.37 2.59 2.33 2.22 4.64 9.20 18.98 8. 5 10.15 14.17 9.31 4.81 .00 100.00 (1)
.00 100.00 (2) 3.54 2.91 3.81 1.90 1.37 2.59 2.33 2.22 4.44 9.20 18.98 8.5 10.15 14.17 9.31 4.81 llePittitt Of ALL toCE M SEtWAtlW S 9081818 PACE C. CALP (Wlac SPttD Ltts TIM M teuAt 10 .50 MPs)
I((2)dittletOfALL 0000 005tavAtlm s los full Pitice I 20 f. I
TABLE 4A-1 (continued) L. PlLGalm ffAflom apt &8 JUhM 1(ft0tD(00lCAL DATA Jolut ftitutu:T Dilit!BU110h l 33.0 ft wi c CAta stAaltiff CLAll A CLAtt fataKu:Y (Pit:Est) e 13.03 Wi e elettflow facM SPilD(msg) e eht WI It! E ESI St 811 8 85V W . W5W W WWW W uwW vtBL TOTAL CAtm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C (1) .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 t3 2 4 5 7 7 6 1 0 0 1 0 0 0 0 0 1 0 34 (1) .76 1.52 1.89 2.65 2.65 2.27 .34 .00 .00 .M .00 .00 .00 .00 .00 .38 .00 12.88 (2) 10 .20 .25 .35 .35 .30 .05 .00 .00 .05 .00 .00 .00 .00 .00 .M .00 1,68 47 19 10 11 16 15 21 29 20 4 3 0 1 0 0 0 8 9 159 (1) 7.20 3.79 4.17 6.06 5.68 7.95 10.9f 7.58 2.27 1.14 .00 .33 .00 .00 .00 3.03 .00 60.23 (2) 49 .54 .74 1.04 1.43 .99 .30 .15 .M .00 .00 .00 .00 I 94 .79 .00 .39 7.85 8 12 4 12 4 1 1 0 9 15 3 9 0 0 0 0 4 0 0 62 (1) 1.52 4.55 1.52 .38 .34 .00 3.41 5.64 1.14 3.41 .00 .00 .00 .00 1.52 .00 .00 23.48 I (2) .20 .59 .20 .05 .M 00 44 .74 .15 44 .00 .00 .00 .00 .20 .00 .00 3.06 13 18 0 1 3 0 0 0 0 0 0 0 0 0 0 0 3 0 0 7 (1) .00 .38 1.14 .00 00 .00 .00 .00 00 .00 .00 .00 .00 .00 1.14 .00 .00 2.65 1 (2) .00 .05 .15 .00 .00 . 0*, .00 .00 .00 .00 .00 .00 .00 .00 .15 .00 .00 .35 19 24 0 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 I (1) .00 .76 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 00 .00 .76 (2) .00 10 .00 .00 .00 .00 00 00 .90 .00 00 .00 .00 .00 .00 .00 .00 10
$1 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ,
(1) .00 .00 .00 .00 .00 .00 .00 .00 .90 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .90 .00 .00 .00 Att SMtel 25 29 23 24 D 27 M 35 9 13 0 1 0 0 7 9 0 264 (1) 9.47 10.94 8.71 9.99 8.71 10.23 14.77 13.26 3.41 4.92 .00 .34 .90 .to 2.65 3.41 .00 100.00 (2) 1.23 1.&3 1.14 1.18 1.14 1.33 1,72 1.73 44 .64 .00 .95 .00 .00 .35 44 .00 13.03 (1). Pit: Int et ALL en testavat 0ms fon f als pat 4 (!)eP!t:thi 0F Att 902 Dettavaflths FChr felt Pt11CD Ce CAut ble OMID Litt VAAN OR Eaunt 10 .50mPa) l I 21 L l
TABLE 4A-1 (continued) PiL0ste Statsom Apa68 Nbte agig0ac.0010AL Data Jotut f ateLEu0f ellititJfloh 33.0 f t Vic Data $1A41Liti CLAll 8 CLAll faleutt01 (Pittgut) e 3,41 I W!@ eltitflom Ftt> ISPIID(WN) th[ b DI Eul ( ($1 St $$( 8 $$k SW lflV W 6BN W WWW YtSt TOTAL CAta 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 . (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 I (2) .00 .00 .00 .00 .00 .0C .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 03 1 0 0 0 1 2 1 0 0 0 0 3 0 0 0 1 0 6 1 (1) 1.45 .00 .00 .00 1.45 2.90 1.45 .00 .00 .00 .00 .00 .00 .00 .00 1.45 .00 8.70 (2) .05 .00 .00 .00 .05 .10 .05 .00 .00 .60 .00 00 .00 .00 .00 .05 .00 .30 47 2 2 0 2 0 1 3 2 2 1 0 8 0 0 2 $ 0 22 (1) 2.90 2.90 .00 2.90 .00 1.41 4.35 2.90 2.90 1.45 .00 .00 .00 .00 2.90 7.25 .00 31.84 (2) .10 10 .00 .10 .00 .05 .il .'0 .10 .05 00 .00 .00 .00 .10 .25 .00 1.09 8 12 3 1 1 0 0 0 1 0 1 3 0 0 0 0 8 2 0 to (1) 4.35 1.45 1.45 .00 .00 .00 1.45 .00 1.45 4.35 00 .00 .00 .00 11.59 2.90 .00 28,99 (2) .15 .05 .05 .(c .00 .00 .05 .00 .05 .15 00 .00 .00 .00 .39 .to .00 .99 .
= 13 18 2 1 1 2 0 0 0 0 0 0 2 0 0 0 4 0 0 12 (1) 2.90 1.45 1.45 2.90 00 00 .00 .00 .00 .00 2.80 .00 .00 .00 4.00 .00 .00 17.39 (2) 10 .05 .!5 .10 .00 00 .00 .00 .00 .00 10 00 .tc .00 .20 .00 .00 .59 19 24 0 0 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 (1) .00 .00 B.70 .00 .00 00 .00 .00 .00 .00 00 .00 .00 00 .00 00 .00 9.70 (2) .00 .00 .30 .00 .00 .00 .00 .00 .40 00 00 90 .00 .00 .00 .00 .00 .30 $1 26 0 3 0 0 0 0 0 0 0 0 0 0 9 9 0 0 0 3 (1) .00 4.35 .00 .00 .00 .00 .00 .00 00 00 .00 .00 .00 .00 .90 00 .00 4.35 .90' .to I (2) .00 .15 .00 .00 .00 .00 .00 .00 .00 .30 .00 .00 .00 .00 .00 .15 Att s*(tot 8 7 8 4 1 L $ 2 3 4 2 0 9 9 14 8 0 69 l *(1) 11.99 10.14 11.59 5.00 1.45 4.35 7.25 2.90 4.35 5.00 2.90 00 .00 .00 20.29 11.59 .00 100.00 i e (2) .39 .35 .39 .30 .05 .il .25 .10 .15 .30 10 .W .00 .00 .49 .39 .00 3.41 I (1)*PitCtti 08 Att SOCE 005tivailCarlto CAut (2)ctiettn107 Att acco OssitvAttort ten tell Pttice FOR (Wite M LEtt fees 02 emJAL 10 .50 wn) full PA01 I
22
I TABLE 4A-1 (continued) l I. Citt. alm $1Allom ape &8 Jum&t mtttomot0GitAt DATA J0th? PeteLAt:T OltitlBJ110mi 33.0 t1 Wik: Data ETAaltilt Cttll C Otatt fileuth f (Pittlui) e 5.23 WluD OlttCiloh Ft> h met at 2nt t ist St 351 3 Ssw SW titV ni nasw su gard vgl. 10 fat I BPlt0(seps) CAta 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 1 0 0 0 1 0 1 2 0 0 0 0 0 0 0 0 0 $ (1) .94 .00 .00 .00 94 .00 94 1.89 .00 .00 .00 .00 .00 .00 .00 .00 .00 4.72
.00 .00 .00 .00 .00 .00 1 (2) .05 .00 .00 .00 .05 .00 .05 .10 .00 .00 .00 .25 47 4 0 1 1 5 1 1 4 2 1 0 0 1 0 3 3 0 27 94 4.72 .M .M 3.77 1.99 .M .00 2.E3 2.03 25.47 l (1) 3,.77 .00 .94 .M .M .00 .00 .M .00
( (2) .20 .00 .M .05 .25 .05 .05 .to .10 .00 .00 .00 .15 .15 .00 1.33 0 12 3 3 0 3 0 0 0 2 4 3 2 0 0 0 8 4 0 32 (1) 2.43 2.83 .00 2.83 .0C .00 .00 1.99 3.77 2.83 1.09 .00 .00 .00 7.55 3.77 .00 30.19 (2) .15 .15 .09 15 .00 .00 .00 .10 .M .e5 .10 .00 .00 .00 .39 .20 .00 1.58 13 14 1 4 2 0 0 0 0 0 0 2 2 0 0 1 3 1 0 16 1 (1) .94 3.77 1.89 .00 .00 .00 .00 .00 .00 1.99 1.09 .00 .00 .M 2.13
.15 .M .95 .00 .00 15.09 .79 (2) .05 .20 10 .00 .00 .00 .00 .00 .00 .iG .10 .00 .00 .05 19 24 1 1 12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 14 (1) .94 .94 1?.32 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 r*.21 (2) .05 .05 .59 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .69 51 24 0 7 5 0 0 0 0 0 0 0 0 0 0 0 0 0 0 12 (1) .00 6.60 4.T2 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 00 .00 11.32 (2) .00 .35 .25 .00 .00 .00 .00 .00 .00 .to .00 .00 .00 .00 00 .00 .00 .59 Att 6 Pit 05 10 15 20 4 6 1 2 8 4 6 4 0 1 1 14 8 0 106 (1) 9.43 14.15 16.87 3.77 5.66 .M 1.99 7.55 5.M 5.M 3.77 .00 .M 94 13.21 7.15 .00 100.00 (2) 49 .74 .99 .20 .50 .05 .10 .39 .30 .30 .20 .00 .M .05 .69 .M .00 5.2.3 01).Pt:0tti 08 Att eccc celtavatla s ton tels Pact (21*Pittini 0F att saat osstavatlms paa Tsit Pitlte to CALM (Vle OPED List inau 08 tant To .50 es's) l l )
23 , ? I
i f 1 1 j TABLE 4A-1 (continued) ' Pilotts $1Afl0m APtM
- Nu M Ntitoa0 LOGICAL DATA J01af itfWEutt OllitlWitch 33.0 f t Wic CatA sfA31Liti CLAtt 0 Ctall fatOAs t (PitCEkt)
- M.57 .
Islc Oltttflou Ft:M SP((D(MH ) b We! bl [N! [ [$( $( $$( $ $$V W WW *J WW W Wed Wll TOTAL CAta 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 1 (1) .00 .00 .DC .00 .00 .11 00 .00 .00 .00 .00 00 .00 .00 .00 .00 .0C .11 (2) .00 00 .00 .00 .00 .M .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 C3 1 2 1 1 2 9 5 10 7 5 2 1 1 1 2 1 0 51 - (1) .11 .22 .11 .11 .22 1.00 .55 1.11 .78 .55 .22 .11 .11 .11 .22 .11 .00 5.65 (2) .05 .10 .05 .M 10 .u .25 49 .35 .25 .10 .05 .M .05 .10 .M .00 2.52 47 9 13 4 7 11 1 18 M 33 16 13 11 7 15 13 17 0 226 (1) 1.00 1.44 .09 .78 1.22 11 1.9) 3.77 3.65 1.77 1.44 1.22 .78 1.M 1.64 1.te .00 25.03 I- (2) 4 .M .39 .35 .54 .M .99 1.68 1,63 .79 .k .54 .35 .74 .M .N .00 11.15 1 4 12 6 to il 16 6 0 1 7 8 33 79 18 23 33 28 18 0 311 j (1) .66 2.21 1.M 1.77 .M .00 .11 .73 .99 3.65 8.75 1.99 2.55 3.65 3.10 1.99 .00 M .64 (2) .30 .99 .74 .79 .30 .00 .M .35 .39 1.63 3.90 .09 1.14 1.63 1.34 .09 .00 15.35 13 18 12 28 45 5 0 0 0 0 0 5 87 7 1 5 5 9 0 209 l (1) 1.33 3.10 4.98 .55 .00 .00 .00 .00 .00 .55 9.63 .73 .it .55 .55 1.00 .00 23.15 (2) .59 1.38 2.22 .25 .00 .63 .00 .00 .00 .25 4.29 .35 .M .25 .25 64 .00 10.32 ( 19 24 6 30 52 2 0 0 0 0 0 0 0 0 0 0 0 4 0 m r (1) .M 3.32 5.74 .22 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 46 .00 10.41 (2) .30 1.44 2.57 .10 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .20 .00 4.H i El 24 0 9 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 11 (1) .00 1.00 .22 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.22 (2) .00 64 10 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .54 ALL DPitts M 102 123 31 19 11 24 l' 48 59 181 37 32 , 54 , 48 49 0 9C3 O) 3.77 11.30 13.62 3.43 2.10 1.22 2.M 5.65 5.32 6.53 20.N 4.10 3.54 5.98 5.32 5.43 .00 100.00 (2) 1.M S.93 4.07 1.53 .M .54 1.18 2.52 2.37 2.91 8.93 1.83 1.54 2.67 2.37 2.42 .00 44.57 (,, - a. .. . .L, _ t..,,. . .. .,. . . (2)*P(tCist of ALL goce MMtv&110ml 70t tell P(Bloc to Cath (Wlut OPit0 till thh4 OR IeLat to .50 mPa) 1 ll I 24 l l t < l l .. . .
o TABLE 4A-1 (continued) PIL0 alp $1Attoh APIM* A248 W110AA001 CAL DAla Jolt 1 f ttMuCT SlstiltV110h a 33.0 ft W12 DA1A 81AalL111 CLAll I class ref u e:T (Pttctut) e N.01 Wluo Oltttflom f tt> l 9Ptt0(W M) b WN! WI tut t Ett H Slt 8 $W W W5V W terW W SWW Vttt TOTAL CAtm 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 1 (1) .00 .00 .00 .0C .00 .00 .00 .00 .00 .90 00 .19 .00 .9C .00 .00 .00 .19 (2) .00 .00 .00 .00 .00 00 .00 .00 00 .00 00 .M .00 90 .00 .00 .00 .95 I C3 2 0 2 1 3 3 2 5 0 1 7 2 2 2 1 1 0 42 (1) .38 .00 .34 .19 .57 .57 .M .95 1.52 .19 1.33 38 .34 .38 .19 .19 .00 7.97 (2) 10 .00 10 .M .15 .15 .10 .25 .39 .M .35 '.10 .10 10 .M .M .00 2.07 . 47 7 1 0 1 1 2 12 4 13 19 to 19 N 23 14 19 0 191 (1) 1.33 19 .00 19 19 .38 2.28 .74 2.47 3.41 3.N 3.61 6.13 4.36 3.42 3.61 .00 M.24 (2) .35 .M .00 .M .M .10 .59 .?C .H .94 79 .k 1.M 1.14 .99 .k .00 9.43 0 12 7 3 1 0 0 2 1 0 1 7 76 52 29 9 7 14 0 207
.57 .19 .0c 00 .38 19 .00 .19 1.33 14.k 9.87 S.10 1.71 1.33 2.64 .00 39.28 (1) 1.33 .M .M .35 3.65 2.17 1.43 44 .35 .H 00 10.22 I (2) .35 .15 .M .00 .00 .10 .00 ,
0 0 0 0 0 0 1 35 22 2 0 0 0 t 77 13 16 5 1 3 (1) .95 .19 .57 .00 .00 .00 .00 .00 .00 .19 6.H 4.17 .38 00 .0c 1.52 .00 14.61 I (2) .21 .M 15 .00 00 .00 .00 .00 .00 .M 1.73 1.09 .10 00 .to .39 .00 3.M 0 0 0 0 0 0 0 0 0 0 0 0 3 0 9 19 24 2 3 1 i (1) (2)
.38 10 .57 .15 .19 .M .00 .00 .00 .00 .00 .W .00 .00 .90 .00 .00 .00 .00 .00 .00 .00 .90 .00 .00 .00 00 00 .00 00 .57 15 .90 .00 1.71 44 0 0 0 0 0 0 0 0 0 0 0 0 C st 24 0 0 0 0 0 I (1) .00 .90 .00 .00 .00 .00 00 . 90 .00 00 .00 90 00 .00 .00 .00 .00 .00 m .90 00 .00 00 00 .00 .00 .WO .00 00 (2) .00 .:9 .00 .N 00 .00 .00 Au totttt 23 6 7 2 4 7 15 9 22 38 132 96 H 34 W 45 0 527 4.34 1.52 1.33 .38 .76 1.33 2.45 1.71 4.17 S.31 25.M 14.22 13.09 4.45 4.93 0.54 .00 100.00 (1) .30 .35 74 44 1.09 1.34 4.52 4.74 3.41 1.48 1.M 2.22 .00 M.01 l (2) 1.14 .39 .35 10 (1) etettet N Au 8000 Gestavations fca tels FA01 re CAin (vte Optta Liss taan ta tuuat to .50 wn)
(2) etectal et An acao 00stavAttons tot tels Psal0c I ; l I i
- 25 t
I _ -. . - _ _ _ .. _. - - .
l TABLE 4A-1 (continued)
'I PIL&als Ital 0h &#e&f Amile E180AOLOGICAL Date J0lk1 fetMtCT tilitlWilou 33.0 ft Wik CA1A fIAllaitt CLall I CLASS FBIWie:1 (Mattet) e 4.02 Wlut DILIC11h fetus - SP(ID(nen) e set at Int I lit St Sit t tw SW WW W WW W eWV velk TOTAL i CALM 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 1 (1) .00 .DC .00 .00 .00 .00 .62 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .02 (2) .00 0C .0C .00 .00 .00 .M .00 .40 .00 .00 .00 .00 .00 .00 .00 .00 .0$ ,
C3 0 2 0 2 0 2 3 5 1 0 3 2 1 1 1 0 0 13 I (1) .00 1.H .00 1.H .0C 1.H 2.46 4.10 .02 .00 2.44 1.M .02 .82 .42 .00 .00 18.Il (2) .0c 10 .0; .10 .00 10 .il .25 .M .00 .15 .10 .M .M .M .00 .00 1.14 47 3 2 0 0 0 2 7 2 9 4 4 4 9 4 0 4 0 SS (1) 2.44 1.M .00 .0C .00 1.H S.74 1.M ?.34 4.92 3.28 4.92 7.34 3.20 .00 3.20 00 47.54 (2) .il 1C .0c .0C .00 10 .35 .10 .M .30 .N .30 4 .N 00 .M 00 2.N 0 12 2 0 0 0 0 0 2 0 0 0 1 15 10 2 0 0 0 32 (1) 1.M .00 .00 .00 .00 .00 1.k .00 00 .00 42 12.30 0.M 1.M .00 .00 .00 26.23 (2) .10 0C .0c .00 .00 .00 10 .00 .00 .00 .M .74 49 10 .00 .00 .00 1.58 13 18 0 0 0 0 0 0 0 0 0 0 3 3 0 0 0 0 0 8 (1) .0C .00 .00 .00 .00 .00 .0C .00 .00 .00 4.10 2.M .00 .00 00 .00 .00 6.54 (2) .00 .0C .00 .00 .00 .00 .00 .0C .00 00 .2$ .il .to 00 00 .00 .00 .39 19 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ; (1) .00 00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 00 .00 00 .00 (2) .CC .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 81 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .0C .00 .00 00 00 .00 .00 00 .00 00 .00 00 .M 00 .00 .00 00 I (2) .00 .00 .tc 00 .9C 00 00 .00 .00 .00 00 .00 to .00 00 .00 .00 .00 l l 414 n>(Its S 4 0 2 0 4 13 7 10 4 13 W M 7 1 4 0 122 (1) 4.10 3.29 .00 1.H 00 3.28 10.M l.74 0.N 4.9219.4421.3114.M l.74 32 3.M 00 100.00 I (2) .25 .M .00 10 .00 .M .H .35 49 .30 .44 1.3B .99 .35 .M .30 .00 4.t2 1Niettet of ALL tar cettavationt #0a tell P&&t I ((2).ett:tet or ALLAttcal tur #0aOstte f ell Malte to CALM (wie mas Lass team a Pa*L 70 .50 wa) . I 26 e i 4 ,
. .o e o
TABLE 4A-1 (continued) l pattaim stattom attn Aa:M mittoshocital Data Jolti PMeute:t tittel0Lttloh I 33.0 il Wlw*. Data StallLitt Ctall & CLAll PH eLEmCT (Pte: Int) e 1.7) Wit tittC110m f 004 I B*ttttmas) 6 met et ist t fit St $lt t tw w WWW W tant W aww WO' . 101at Cate 0 0 C 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) 00 .00 .00 .00 .0C .00 .9C .00 .00 .to .00 .00 .00 00 00 .00 00 .00 (2) .00 .DC .00 .00 .00 .00 .00 .00 .t3 .00 00 00 .00 00 .00 .00 .00 .00 C.3 0 1 0 0 0 0 0 0 3 1 3 8 1 0 1 0 0 if (1) .00 2.k .00 .00 .0C .tc .K .00 8.17 3.M l.71 32.h 3.M .to 3.M .00 00 48.57 (t) .00 .M .00 .00 .0C .CC .0C .00 .15 .M .10 .39 .M .00 .M .00 .M .44 I 47 0 0 1 0 0 1 0 0 3 3 3 3 3 0 0 1 0 il (1) .00 .00 2.k .00 .0c 3.06 .0C .00 0.57 5.71 8.57 S.71 S.71 .90 80 3.M .00 42.N (t) .DC .00 .M .00 .00 .M .00 .00 .45 .10 15 .10 .10 .00 .00 .M .0c 74 1 I
- 8 12 0 0 0 0 0 0 0 0 0 0 0 3 0 0 0 0 0 1 (1) .00 .00 .00 .00 .00 .00 .00 .tc .00 .00 .00 2.17 .50 .00 .00 .00 .9C t.17 I (2) .00 0C .0C .0c .00 .00 .tc .00 .tc .00 . $0 .il .00 .00 .00 .tc .0c 15 t 13 10 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .0C .00 .00 .00 .00 .00 .A .00 .00 .00 .th .00 00 .00 00 .00 .00 I (2) .00 .0C 00 .00 0C .tc .K .90 .00 00 00 .00 .00 00 .00 . 00 .tc 0C g 19 24 0 0 0 0 0 0 0 0 0 0 0 8 0 0 0 0 0 0 g (t) .00 .0C .00 .00 0C .00 .0C .00 .00 .90 .90 .00 00 90 .00 .90 .00 .C0 (2) .0c .tc .0c .A .00 00 .A .00 .00 .fC 00 00 .00 .00 00 .90 .00 .00 51 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C 1 (1) .00 .0C .00 .0c .00 .90 00 .40 .00 .90 00 00 .00 .00 00 00 00 .00 (f) .00 .K .00 .00 .to .00 .00 .00 .90 .00 00 00 00 .99 00 00 00 .tc ML 9Mits 0 1 1 0 0 1 0 0 4 3 5 13 3 0 1 1 0 3%
. (1) .00 t.M 3.h .DC .00 3.M .00 .00 17.14 8.17 M.39 37.M 8.57 .00 3.M 3.M .00 100.0c (2) .00 .M .M .00 .00 .M .K .00 .30 .15 .35 .M .11 .90 .M .M .00 1.73 l (1)*P;ttlet De att tatt totttvaticml tes tell Pa:t (fleM4 f t108 Att ente 0051evatical tem 1sts Malte ce uLa (viet tMED LEtt leaa WR Stat to .50 8P8)
- I
, I 27 l W
l o i TABLE 4A-1 (continued) I l PILttin $1Allh Weh8 AanM Wit 0R?.00lCAL Data J0lti f attAu 7 tilitten.fil m 33.0 ff WluD Data staattitt etalt ALL etall f ateute:S (Pittlet) s 100.00 i I Wls Slettisk feb Ost telaps) e Det et ttt I $58 lt Slt 8 Slw SW WUV W tt8d W Das VetL 101AL ; 0 0 0 0 1 0 0 0 0 0 3 CALM 0 0 0 0 0 1 1
.00 .00 .M .M .00 00 .00 .00 .M .90 .00 .00 .00 .00 11 (1) .00 00 .90 (2) .00 .00 00 .00 00 .M .M .00 .tC .00 .8) .M .90 .00 .M .00 00 .il 8 14 il 5 6 5 4 0 178 03 7 9 8 11 14 22 13 22 it l (1)
(t)
.35 .35 44 64 .39 .19 .54 .54 .H 1.09 .69 1.09 .H 1.99 .H 1.09 .M .h .39 .19 .H .69 .M .M .7% .25 .N .M .M .M .N .N .00 .00 8.79 8.79 M M 44 34 39 15 42 34 57 6 694 47 M N t1 27 37 29 70 .to 14.41 # (1) 2.17 1.M 1.04 1.33 1.54 1.43 3.46 3.26 3.34 2.37 1.75 1.92 2.71 2.07 1.79 2.81 .00 34.45 (t) 2.17 1.34 1.04 1 33 1.58 1.43 3.44 3.26 3.34 2.37 1.75 1.92 2.71 2.07 1.78 2.81 14 to 17 51 154 at 62 4 55 36 0 M7 0 12 25 39 71 20 7 2 .69 1.18 .De 2.71 7.70 6.34 3.36 2.17 2.71 1.88 .00 -32.97 *
(1) 1.23 1.92 1.04 .99 .35 10 (2) 1.23 1.92 1.04 99 .31 10 .69 1.10 .k 2.71 7.79 4.M 3,06 2.17 2.71 1.e4 .00 32.97 0 8 131 32 3 6 il it 0 329 13 18 20 35 54 7 0 0 0 C
.30 .74 .99 00 16,74 (1) 99 1,73 2.67 .3% .00 .90 .to .00 .90 .39 6.47 1.54 .il .00 .40 .39 4.67 1.58 1% .30 76 .99 00 14.74 (2) .99 1.73 t.67 .31 .00 .00 .00 0 0 0 0 0 0 0 0 7 9 til 19 24 9 34 71 2 0 0 0 00 00 .00 .00 .00 .00 00 .35 00 4.17 (1) 44 1.75 3.10 10 .90 .00 .90 .00 .M .M .00 .90 .to .00 .3% 00 6.17 (I) 44 1.75 b .54 10 .00 .00 .M .00 .00 't ,e t ,0 4 0 8 0 24 0 19 7 0 0 0 0 0 0 51 24 00 1.H .00 90 00 .00 .00 00 .00 00 til 00 .h .35 90 .90 .00 00 .00 00 .00 .00 .90 00 00 00 00 .00 00 .00 1.H .(t) .00 .00 I 00 .h .35 .00 M26 ALL ritt8 1M iM 142 67 13 54 90 til SE 119 337 1 73 til 96 til 124 4 00 100.00 (1) 8.18 8.19 8.98 3.31 2.62 2.67 6.E 5.13 S.13 S.87 14 43 8.54 6.17 6.74 S.48 6.12 00 100.00 I (h S.18 8.19 8.94 3.31 2.62 f 67 6 b. l.13 5.13 S.87 16.63 1.54 6.17 4 74 S 64 6.17
((1)* t)**(ttttiPit.15198 98 Att GCE Attgelievailti 002 Osttevatlhnlos f ell PitlCE 5001stl P&;t to LALs twito ytt0 Ltli taas en taAL 10 .50 are) , 1 l ! i I , l y i
TABLE 4A-2 l DISTRIBUTION OF MIND DIRECTIONS AND SPEEDS FOR THE 220 FT. LEVEL OF THE 220 FT. TONER I .
, , L . , . 3, ,, , . ._ .,t _ 0 _ ..,. 0,.,t _ .0,0,,, _ ,.
320.0 ft Wi e 3.ta 31A416 11 ctatt a st.sg poteLestt (,tscast) e 4.75 Witt tiettlit. Feet I Spitate s) e ett .t ttt t Slt 3( SM 8 SW W tw W tesW tw twW west 10 tat CALu 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 . (1) 00 .DC .00 .00 .00 .00 .00 .tc .00 .00 00 .00 00 00 .00 .00 .00 .00 (!) .A .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l C.3 0 0 0 0 , 0 0 0 . . 0 . . . . 0 0 , (1) .00 .00 .00 .00 5.11 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 S.It (t) . 00 .00 .tc .00 .M .00 .tv .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .M 47 2 3 4 8 3 6 5 1 0 8 0 0 0 1 1 3 0 35 (1) 2.04 3.04 4.17 4.33 3.13 6.2% S.21 1.04 .00 00 .90 00 .00 1.N 1.M t.00 .to 34.46 (!) 10 10 .20 40 .il .M .M .M .00 .00 .00 .00 .00 .M .M 10 .to 1.73 8 *! 6 2 6 0 0 8 6 3 1 1 0 9 0 0 0 0 0 33 g (1) 6.M t 00 4.2% .00 .00 8.33 6.25 3.13 1.M 1.N .00 .00 .00 .00 .00 .00 .00 34.38 g (t) .30 .10 .M .00 .00 40 .34, 11 .M .M .00 .00 .00 .00 .00 00 .00 1.43 13 18 7 4 0 0 0 0 0 1 2 2 0 O 8 9 '3 1 0 22 l3 (1) (t) 7.M 6.M
.35 .50 00 .00 .00 .00 .00 .00 .00 00 .00 1.N t.08 2.te .00 .M .10 10 00 .00 .00 .00 .00 .00 .00 3.13 1N 00 .45 .M .00 .00 !!.92 1.09 19 14 1 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 0 1 ,
(1) 1.06 .00 .00 .00 .00 00 .00 .90 00 00 .00 .00 .00 .00 .00 .00 00 1.04 (?) .M .to .00 .M .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 00 .M i-g pu e e e e e e e e e e e e e e e e 0 0 g (1) 00 00 .00 .00 00 .to .00 .00 .00 .00 .00 .00 .00 .00 .00 00 00 .00 (2) 00 .00 .00 .90 .90 .00 .00 00 .00 00 .90 .00 .00 .00 .00 .00 .00 .00 14 10 10 4 8 14 11 S 3 3 0 0 9 1 4 3 0 96 1&LLMtti (1) 14.47 10.42 10.42 8.33 8.33 14.54 11.44 5.21 3.13 3.13 .00 .00 .40 1.N 4.17 3.13 .00 100.00 (t) .M .49 49 40 40 .69 .54 .M .15 .15 00 .00 .00 .M .30 .15 .00 4.M l (,, t..,0, m ...,,0.,,0. ,.,,... Ce CAta (wie M1D Ltti tear en geAL 10 .60 seen l (Itarttet.1 et ALL ttEE teltavatto.l fos f all MiltE I I < 29 l
I i TABl.E 4A-2 (Continued) I l 1 Plttelm StAtton 4AmM.sasse gitanoL0cl0At sata Jolut PeteL4s*f ellititullom 220.0 ft WIW* CATA $1&4!Liti CLAll B CLAll refE4st? (M00Eut) e 1.9) Wie platottau pet > 9Mt0(ws) e het et tot i Ist M Bit t SW W wtw W tow IW and wa6L 101AL CAta 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 00 00 .00 .00 .00 00 .00 .00 .00 . I (!) .00 .00 .00 00 .00 .00 .00 .00 00 .00 00 00 .00 .90 00 .00 .00 .00 C3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) 00 .00 .00 .00 00 .00 .00 00 .00 .00 .00 .00 .00 00 .00 00 .00 .00 I (2) .31 .00 .00 .00 .00 .00 00 .00 .00 00 .to .00 . 00 .00 .00 .00 .00 .00 47 0 i i 0 0 e : 1 0 e 0 0 0 0 . 0 7 (1) .00 2.54 2.56 .00 .00 S.13 .00 S.13 3.M .to .00 .00 00 .00 .ip .00 .00 17.M 1 ft) .00 .M .M 00 .00 10 .00 10 .M .00 .00 .00
. 00 .00 .00 00 .00 .ll 4 12 0 1 0 0 0 1 0 t 9 1 0 0 0 3 0 0 0 e t l (1) .00 2.56 .to .01 .00 .00 .00 2.54 .00 .00 .00 2.M .00 .00 . 00 7.M .00 .00 .00 15.38 . i (2) .DC .00 .00 .M .00 .00 .00 .M .00 .00 . 00 .15 .00 .00 .to .30 1 >
13 18 1 4 0 0 0 0 0 0 2 3 0 0 1 3 $ 0 0 19 :
; (1) 2.54 10.26 .00 .00 .00 .00 .90 .00 S.13 7.M 00 .00 2.M 7.M 12.82 00 .00 44.77 (
t it) .01 .P0 .00 .00 .00 .00 .00 .00 10 .15 .00 .00 . M .il .Il .00 .00 94 l 19 24 1 0 1 0 0 0 0 e 0 1 0 0 0 1 1 0 0 $ (1) 2.56 .00 2.54 00 .00 .00 .90 .00 .00 3.M .00 .00 . 00 2.M t.Se .00 .00 12.62 i (2) .M .00 .M .00 .00 .00 .00 .00 .00 .M .00 .00 . 00 .M .M .00 .00 .2% [ I st 24 0 0 0 e e e 0 e e e 0 0 e e O C l (1) .00 5.13 .80 .00 .00 .00 .00 .00 .00 00 .00 .00 . 00
- 00 . 50 .00 .00 $.13 i (t) .90 .10 .00 .00 .00 .00 00 .00 .00 00 .00 .00 .00 .00 .00 .00 lg .
. 00 .it i ALL witol 2 0 3 0 0 3 0 3 3 $ 9 0 1 7 6 0 0 39 I (1) 5.13 70.11 1.13 .00 .00 7.M 00 S.13 7. M 12.42 .00 .00 3.5417.M 15.34 .00 .00 10C.00 !
(2) 10 40 .10 .00 .00 15 .00 10 15 .5 .00 .00 . M .35 .30 .00 .30 1.93 i I (1).Me0 tat to att 002 cettevatitel paa tell WJ Ce CAta (Wie 8 pts till taAa es ts.4 to .50 ps) , l (!).Pttotal 08 Att mac testivations Pos tall Mal 00 i i 30
,.+----- ,__,.--e ., n, , - - -.,
l TABLE 4A-2 (Continued) I pitoalu Statim JaaM mAtM sittice0 LOGICAL MtA Jolti fetWtutt tiltilWflh 270.0 f t Wisa Cata 31Asttitt Ctall C ttall Pet Wit:f (Ptf.161) e 2.77 I W133 810tt1l2 f tp M t9(uPa) e att at th! I til $*. 858 8 BW ht W8d W 1Md W WW Vtti 10fAL CAku 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .0C .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .M .00 .00 .JC .00
.00 .M .00 .00' .00 1 (!) .00 .00 .00 .00 .00 .00 .DC .00 .00 .00 .00 .00 .00 t3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .0C .00 00 .0C .00 .00 .00 .00 .00 00 .M .00 .00 .00 .M .M 1 (2) .00 00 .00 .00 .0c .00 .00 00 00 .00 .00 .00 .00 .00 00 .00 .00 .00 ,
47 0 0 1 0 0 1 0 0 0 0 0 0 0 0 1 0 0 3 (1) .00 .00 1.79 .00 .00 1.79 .0C .00 .00 .00 .00 .00 .00 .00 1.79 .00 .00 S.M I (2) .00 .M .M .00 .00 .M .00 .00 .00 .00 .00 .00 .00 .00 .M .00 .00 .15 0 0 10 lg B 12 til 1 i 1.79 1.79 3.57 1.79 2 1
.00 0 .00 0 0 .0C 3.17 2 .00 0 .G0 0 .ft0 0 .00 0 0 .M 1.79 3.17 1 2 .M .00 17.h (2) .05 .05 10 .05 .00 .00 .0C 10 .00 .00 .00 .90 .40 .M 10 .'M .00 49 13 18 3 3 2 i 0 0 0 0 1 2 0 0 E 8 7 0 0 27 (1) 5.M l.M 3 17 1,79 .00 .00 .0C .00 1.79 3.57 00 .00 .0014.M 12.50 .00 00 44.21 (2) .15 .il .10 .M .00 .DC .00 .00 .M 10 .00 .00 .00 40 .31 .00 .00 1.33 0 0 0 0 0 0 0 0 1 0 0 2 3 0 8 7 19 t - 0 1 (1) 00 1.79 .90 .90 .00 .00 .00 00 .00 .00 1.79 00 .00 3.57 S.M .00 .00 12.50 00 00 00 .M 00 00 10 .15 .00 .90 .35
(!) .00 .M .00 .00 .00 .00 .0C I .. .. 0 3 , 0 0 0 0 0 0 0 . . . . . . . W.t? (1) .00 S.M 1.79 00 .00 .00 .00 00 00 00 3.57 .40 .00 .l.M .00 00 00 (2) 00 15 .M 40 .00 .00 .M 90 00 00 .it .00 00 .15 .00 00 ,We .M
., I,8 . . . . 0 , 0 , , , 3 . , ,. ,, . . M 7.14 14.F9 10.71 3.17 .00 1.79 .00 3.17 1.M 3.57 S.M .M 00 M.00 23.21 .00 .00 100.00 (1) .50 10 .00 .M .00 10 .M 10 .il .00 .00 .99 .H 00 .00 2.77 (2) .30 4C (1)erteCInt Of ALL tatt telttW6tl>$ fut tell PAC.I Ce CALa (WidD MLD Lits inna ta tant 10 .50 se e )
I (!)eetettet Of att toe gestavatlemt 60s tell P10100 l 31 i
I L TABLE 4A.2 (Continued) . Pitsalu $111tou 44mM enARM IEll0DOLOCICAL DATA Jolst Pt(Eute*1 ell 1819/180h 320.0 ft WIND DATA 01Mitl11 nall D C4Att totaAu*f (P9totut) e St.ll Wluo DIN 0115 Fe> Spitetw s) e Mt ti let t ist M Mt t tw SW v54 W tesW Ips and west 10146 CALu 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 1 (1) .00 .00 .00 .00 .09 .00 .00 .00 .00 .00 .00 .00 .00 .00 .90 .00 .00 .M (1) .00 .00 90 .00 .M .00 .00 .00 .90 .00 .00 .00 .00 00 .00 .00 .00 .01 t.3 0 0 0 4 0 0 0 0 0 2 0 2 0 0 0 0 0 8 (1) .00 .00 .00 .M .00 .00 .00 .00 00 .19 .00 .19 .00 .00 .00 00 .00 .M I (t) .00 .00 .00 .M .00 .00 .00 .00 00 .10 .00 10 00 .90 .00 .00 .00 40 47 6 3 3 8 7 5 2 7 $ 2 l 4 9 8 4 4 0 k (1) .54 .38 .It 75 .M 47 19 .M 47 .19 47 .34 .3% .75 .54 .M .00 7.90 ' I (21 .30 .15 15 40 .35 .M .10 .35 .M 10 .M .30 44 40 .50 .P0 .tc 4.15 8 12 3 10 14 to 7 to S 8 9 7 37 M 37 le $6 8 0 N7 l (1) .28 .h 1.32 .h .M 1,32 47 .M .05 .M 3.44 8.45 3.48 4.33 S.t? .M .00 27 so (2) .15 49 .H 49 .35 .M .M 40 44 .35 1.83 1.M 1.43 3.27 2.77 40 .90 14.48 13 18 6 5 19 4 1 9 6 3 1 21 102 31 N M M 25 0 459 1 (1) .54 .47 1.71 .M .99 .8% .54 .30 .M 1.M 9.60 2.92 4.02 9.22 6.02 3.35 .90 43.18 (2) .30 .M 94 .70 .M 44 .30 .il .M 1.M F.E 1.53 3.14 4.N 3.14 1.74 .00 22.49 19 24 9 5 5 1 0 0 0 0 0 to 37 4 6 32 it 7 0 10 (1) .41 47 47 .99 .M .M .00 .00 .00 1.11 3.44 .M .54 3.01 1.69 .M .90 '13.92 (t) 44 .M .25 .01 .00 40 .00 .00 .00 .M 1.43 .30 .30 1.50 .99 .3% .00 F.32 lu 41 to 3 5 8 0 0 7 0 0 0 i 21 1 9 4 4 11 0 M t (1) .30 47 .75 00 .00 .A .00 00 .00 .99 1.M .M .00 .90 .te 1.93 90 6.21 (I) .il .M 40 .00 00 .3% .00 .00 .00 .M 1.k .M 00 15 .30 .54 00 3.34 I 4tt 9Pitts IF 30 49 If M 43 13 14 15 49 302 M 116 147 150 55 0 1M3 J (1) 3.54 2.63 4.41 8.54 1.11 4.M 1.12 1.M 1.41 4.41 19.00 6.40 10.91 17.H 14.11 S.17 00 100.00 (t) 1.83 1.M I.42 1.33 .M 2.13 .H .M 74 2.42 9.M 3.M l.73 9.84 7.41 2.72 .00 St.ll (1)**'lemet te att tote Muevalient pas f ail Pact (2)*M43t198 41L SDIE telttvattan FOR tell P(alCE to Cath (Wie 9PitD Lill fees sa tsat 10 .50 w e , I 32 t 1 (
I
-1 TABLE 4A-2 (Continued) u I o,,_...,, M. . . . 4. .0 , t ., _. , t. . ., p.t . . , 0 , ,, , , . .
220.0 ft Wim: s. . staatttti ctall I etAss tet . u n (ptetsut) e St.se 0, .0 0 , .. , , . t .. I setIS(men) e me; et get g est at est t tw w tepw t taw w mN vent 10t at 0 0 0 0 0 0 0 0 t t 0 0 1 fm CAta (1) .0c 0
.tC 0 .00 0 .90 0 1 1% .00 00 .00 .00 00 .00 00 .00 .00 00 .00 00 .15
(!) .00 .00 .00 .00 .M .00 .00 .00 00 00 .90 .00 90 .00 00 .00 .00 .M 0 0 2 0 1 0 1 2 1 0 13 1 C3 0 1 1 1 1 1 1 00 .1% .00 .31 .00 .1% .00 15 .31 .il .h 2.00 til 00 .15 .15 .il .il .il
.M .M 00 .M .10 00 .M .00 .M 10 .M 00 .M (t) 00 .M .M .05 00 0 to 4 9 13 9 4 0 3 0 91 e 47 2 1 2 3 5 1 3 , .31 44 .77 .15 .M 1.23 1.M 1.13 1.M 2.00 1.M 92 1.23 4 00 14.62 it) .31 15 .M 40 49 40 .M .M 44 .M 40 .il 80 4.10 (2) 10 .05 10 .15 .25 .il g
+ 0 12 5 3 0 4 3 I F 3 14 41 31 11 M 35 70 10 0 369 (1) 77 .u .00 .62 .31 .77 1.00 .31 2.14 4.32 4.75 4.F.* 4.01 S.39 3.06 1.54 oto 34.37
.B .10 .H 2.63 1.13 1.$3 1.93 1.73 99 49 00 12.3' j (3) .FS .il .90 .70 10 .3%
13 14 2 0 8 2 0 2 1 0 9 34 75 M 19 32 it ' 13 9 Ill 00 .31 .11 .00 1.M l.M 13.17 3.04 E.93 3.M 1.66 3.00 .00 13.19 (1) .31 00 .00 .31 til 10 .00 .90 10 00 10 .M .00 44 1.08 3.91 99 .M 1.99 .54 .H .00 10.F8 l j 0 0 0 0 1 3 0 7 37 7 1 1 1 7 0 W 19 76 I i
.00 00 90 .00 .15 44 00 1.08 4.14 1.00 .il .il .il 1.00 .00 't.t*
(1) .31 .it '
.M .M .M 00 3.t?
l I (Il 10 .M .00 00 00 00 .M .il 00 .M 1.33 .35 .35 r 6 6 3 0 0 0 0 0 19 > 81 24 8 1 0 0 0 8 0 I 1 j til .00 15 90 00 .00 .00 00 .31 11 .M .St .M .90 00 .00 30 00 3.93 .
.00 05 .30 .',=
11 .00 00 00 00 00 .M [
* (!) .00 .M .00 00 00 .90 19 ,
10 4 9 13 15 M M2 152 fl M M 42 34 0 #9 11 7 3 00 100.00 IAtt9Pttel (1) 1.H 1.08 (2) 54 .M
.M 1.54 1.13 1.H 2.00 2.31 5.M 15.77 33.4211.M 19.M 19.82 4.47 l.14 15 49 60 64 .H .74 1.75 l.E F.11 3.F1 3.h 3.21 3.to 1.M .00 St.Ge v
l , tildttotal Of Att test teltttt11ml its 1818 P&&E (lld(IClut Of ALL text gelievatimi FCs istl Mll3 to CALa (wie Mit L3ft f aA8 W DEAL TO 50 HPs)
- l l
3: 1 I _ - _ _ _ _
r-1 l i TABLE 4A-2 (Continued) l L plLftla $1Atl0h Jan &8 + mAA &8 settlan0 LOGICAL DATA Jolut f tERAst? Ollf tituiloh 9 220.0 ft WINO DATA $1Allllit (LAll f CLAll FRttutuCT (PftClut) e 4.30 [ Wic Citttilob FRCpt Ispite(esPu)W Irt! Nt tht t (St St $$1 S SSV W WIW W '4hl SW 8thi W8L 101AL 0 0 0 0 0 0 0 0 0 0 0 0 [g Calm (1) .00 0
. .0 .00 0 .00 0 .00 0 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .0c A .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 0 0 1 0 1 0 1 0 2 0 0 0 0 0 0 1 0 6 a (1) 00 .00 1.15 .00 1.15 .00 1.15 .00 2.30 .00 .00 .00 .00 .00 .00 1.15 .00 6.90 (2) .00 .00 .05 .00 .05 .00 .05 .00 .10 .00 .00 .00 .f!0 .00 .00 .05 .00 .30 47 0 2 1 0 2 1 0 1 4 0 3 1 0 0 5 3 0 42 (1) .00 2.30 1.15 .00 2.10 1.15 .00 1.15 6.90 .00 3.45 1.15 10.34 0.20 5.M 3.45 .00 44.28 , (2) .00 .10 .05 .P0 .10 .05 .00 .0; .30 .00 .15 .05 44 40 .25 .15 .00 2.08 L 0 12 1 0 0 0 0 1 0 2 6 0 2 1 S S 2 0 0 33 (1) 1.15 00 .00 .00 .00 1.15 .00 2.30 6.80 9.20 2.30 1.15 S.75 5.75 2.30 .00 .00 37.93 (2) .05 .00 .00 .00 .00 .05 .00 .10 .30 40 .10 .05 .25 .25 .10 .00 .00 1.63 13 18 0 0 0 0 0 0 0 0 1 4 0 1 0 0 0 0 0 6 (1) .00 .00 00 .00 .00 .00 .00 .00 1.15 4.60 .00 1.15 .00 .00 .00 .00 .00 6.90 (2) .00 .00 .00 .00 .00 .00 .00 .00 .tC .20 .00 .05 .00 .00 .00 .00 .00 .30 19 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .LFJ .00 .00 .00 .00 .00 .00 **) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 I
- v. 26 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 , .00 .00 .00 .00 I (2) .00 .00 .00 .00 .00 .00 .00 .00 .b0 .go .00 .00 .00 .00 .00 .00 .00 .00 ML OPitet 1 2 2 0 3 2 1 3 15 12 5 3 14 13 7 4 0 07 j *(1) 1.15 2.30 2.30 .00 3.45 2.30 1.15 3.45 17.24 1).79 5.75 3.45 14.09 14.04 0.05 4.40 .00 100.00 (2) .05 .10, 10 .00 .il 10 .05 .15 .74 .19 .25 15 .H .44 .35 .20 .00 4.30 (1)e?ttCIW1 Of ML 0000 CottavAtlems foe 1sts PA0t (2)etitC!st af, ALL 0000 001(tvA110kl f C8 tull PitlCC Ce CALM (W12 SPitD Lill TAAN CE EDUAL 70 .501r8) ll t
i* - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
, TABLE 4A-2 (Continued) 4 p
l, - OILealm ste,flon JA M8 EAA&O IEffoa0LOcit.AL Data J01st fateAWCT 0181tltutl0N 220.0 ft Wimo DATA staalLItt CL,Att 0 Ctass fateJtuCT (Pttetut) e 1.63 Wie Oltttt10N f t> I OPtt00e*M) W Wet M gut t ist et $$t B tsW CW Wsv W lAN W JM Vt9L TOTAL CALM 0 0 0 0 0 0 0 0 0 0 0 6 0 0 0 0 0 0 , (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 I C3 0 0 1 1 0 0 0 1 0 1 0 1 1 0 1 0 0 7 (1) 00 .00 3.03 3.03 .00 .00 .00 3.03 .00 3.03 .00 3.63 3,03 .00 3.03 .00 .00 21.21 (2) . 00 .00 .05 .Di .00 .00 .00 .05 .00 .05 .00 .05 .95 .00 .05 .00 .00 .35 47 2 2 2 0 0 2 1 2 0 0 3 4 0 1 3 1 0 23 (1) 6.06 6.N 6.06 .00 .00 6.N 3.03 6.06 .00 00 9.09 12.12 .90 3.03 9.09 3.03 .00 69.70 (2) .10 .10 .10 .00 .00 .10 .05 .10 .00 .00 .15 .20 .00 .05 .15 .05 .00 1.14 0 12 0 0 0 0 0 0 0 0 0 1 0 1 1 0 0 0 0 3 (1) .00 00 .00 .00 .00 .00 .00 .00 .00 3.03 .00 3.03 3.03 .00 .00 00 .00 9.09
.00 .00 .05 .00 .05 .05 .00 .00 .00 .00 .15 I (2) .00 .00 .00 .00 .00 .00 .00 13 18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 *0 0 0 0 '.00 .00 .00 .00 .00 f
m (1) (2)
.00 .00 .00 .00 .00 .00 .00 .00 00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .90 .00 .00 .00 .00 .00 .00 19 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1 (2) .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .LO .00 .00 .00 .00 .00 .00 .00 .00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 M 26 l
m (1) 0
.00 .00 0 .00 0
00 .00 0
.00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 0 2 3 0 2 3 6 2 1 6 1 0 33 ALL OPital 2 2 3 1 1 .00 6.06 3.03 9.09 .00 6.06 9.09 10.10 6.N 3.03 12.12 3.03 00 100.00 (1) 4.06 4.N 9.09 3.03 .15 .05 .00 .10 .95 .15 .00 .10 .15 .30 .10 .05 .20 .05 00 1.63 (2) .10 .10 i
l (1)*f ttsut et Att tote est(tvatiks ice full P&Ct 3 (2)*ttClut of ALL 0000 Detttvall>$ 70s f all Pitice to CALM (Wie SPtB Lill TmAs M DE4AL TO .50IrW) l I 1 35 1
TABLE 4A-2 (Continued)
- l. .
I CitGalm 51Attok JANS$ mat $8 MI[0ROLOGICAL DATA J0luf PtimAu:1 918ftlBUT10N 220.0 ft vlw0 DATA $1AalLiff CLill ALL fAA$$ fttSAM f (pttCEN1) e 100.00 Vlu0 DittC180m Ft0M snzotwa) = ==t et = a est at ist s ssw sw wsv v inew sw env vist 10 tat . 0 0 2 0 0 0 0 0 0 0 0 0 0 0 0 2 uta 0 0
.00 00 .00 .00 .10 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .10 (1)
I (2) .00 .00 .00 .00 10 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .10
- 6 2 3 5 0 4 1 1 3 2 0 39 C3 0 1 3 6 1 1
.M .M .10 .00 1.93 I (1) .00 .00 .05 .05 .15 .15 .30 .30 .30 .30 .05 .05 .10 .10 .05 .05 .15 .15 .5 .25 .00 .00 .20 .05 305 .05 .15 .15 .10 .00 1.93 (2) 47 12 11 14 19 17 18 11 21 22 10 to 22 27 24 24 13 0 285 1 (1) .59 .54 .69 .94 .M .M .54 1.04 1.09 .49 .99 1.09 1.33 1.19 1.19 .M .00 14.09 (2) .59 .54 .69 .94 .44 .99 .54 1.04 1.09 49 .99 1.09 1.33 1.19 1.19 .64 .00 14.09 30 59 70 59 82 90 to 18 0 631 4 12 to 17 22 15 9 29 18 17
- 44 1.43 .64 1.48 2.92 3.4 2.92 4.05 4.45 3.95 .99 .00 31.19 (1) .79 .M 1.09 .74 .99
.84 1.09 74 44 1,43 .39 .84 1.48 2.92 3.44 2.92 4.05 4.45 3.M .99 .00 31.19 . (2) .79 13 18 19 18 21 7 1 11 7 4 16 70 181 52 44 131 90 39 0 M1 .99 1.04 .35 .05 .54 .35 .M .79 3.44 4.95 2.57 4.15 4.48 4.45 1.93 .00 37.12 (1) .94 ,35 .M .79 3.44 8.95 2.57 4.15 6.48 4.45 1.93 .00 37.12 (2) .94 .89 1.04 .35 .05 .54 19 24 13 7 6 1 0 8 1 3 0 24 65 11 7 M 23 14 0 219 (1) .64 .35 .30 .05 .00 40 .05 .il .00 1.19 3.21 .54 .35 1.75 1.14 .69 .00 10.83 (2) .H .35 .30 .05 .00 40 .35 15 .00 1.19 3.?1 .H .35 1.75 1.14 .69 .00 10.83 0 2 7 29 4 0 6 4 11 0 96 El 24 3 11 9 0 0 7 1 .15 4 00 .00 .35 .00 10 .05 .35 1.43 .M 40 .30 .M .54 .00 4.M (1) .54 44 .00 .to .35 .00 .10 .05 .35 1.43 .30 .00 .M .M .H .00 4.M I (2) .15 .54 AD t>Itts 63 65 5 48 35 74 39 48 72 175 MS 152 201 att 226 97 0 2023 3.11 3.21 3.71 2.37 1.73 3.H 1.93 2.37 3.M 8.65 18.04 7.51 9.M 14.24 11.17 4.79 .00 100.00 l
m (1) (2) 3.11 3.2'1 3.71 2.37 1.73 3.M 1.93 2.37 3.M 8.65 18.04 7.51 9.94 M.24 11.17 4.79 .00 100.00 EL ICCD 085ttvAf toul FOR 1all PAM s.,arg.wat of Att 00cc COS(tvAlltert POR 1 Nil Pill 00 to CAtm (v1m sptgp Lggs inns og gaat 10 .50 MPs) l 36
?
i l . _ _ - __ .- _ _ . _
TABLE 4A-2 (Continued) I 1 PILetIn stAf f a. Arete AntB8 Mit0E0 LOGICAL DAT A Jotut f ateutup altititJ110W 220.0 f f VlWD DATA STAtlL11T Ctall % ttAll fat 0VENCT (Ptettut) = 13.00
" Wim Ditttilom fem Spite (ru) a Net ut fut t Ett St $$t 8 SSW SW W5W W WWW tw tw vtBL 701AL CAtm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 I. (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 Ca3 0 0 0 6 8 2 0 0 0 0 0 0 0 0 0 0 C 16 .00 2.14 2.85 .00 .00 .00 .00 .00 .00 .00 .00 .00 5.69 I 00 .
(1) .00 .00 71 00 (2) .00 .00 .00 .28 .37 .09 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 74 6*7 .4 14 10 19 17 14 to 3 2 0 0 0 0 0 0 0 0 93 1 (1) 1,42 4.96 3.56 6.76 6.M 4.99 3.M 1.07 .71 .00 .00 .00 .00
.00 .00 .00 .00 .00 .00 .00 .00 .00 33.10 4.10 (2) 19 .65 46 .68 .79 .65 .66 .14 .09 .00 .00 .00 B 12 13 17 4 3 1 7 21 26 to 5 0 0 1 0 1 2 0 111 (1) 4.63 6.05 1.42 1.07 .36 2.49 7.47 9.25 3.% 1.78 .00 .00 .36 .00 .M 71 .00 39.50 (2) .60 79 .19 14 .05 .32 .97 1.20 46 .23 .00 .00 .05 .00 .05 .09 .00 $.14 I 13 18 (1) 3 1.07 2.45 8 .71 2 .00 0
00 0 0
.00 5.M 3.56 15 10 1 .M 2.14 6 .M 1 .00 0 .00 0 1 .M 2.49 71 2 .00 0
19.93 56 (2) .14 .37 .09 .00 .00 .00 .69 66 .05 .28 .05 .00 .00 .05 .32 .09 .00 2.59 0 0 0 0 0 0 0 0 0 0 0 2 0 0 4 19 24 0 2 0 (1) 00 .71 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .71 00 .00 1.42 (2) . 43 .09 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .09 00 00 .19 C1 24 0 0 1 0 A 0 0 0 0 'O 0 0 0 9 0 0 0 1 (1) .00 .00 .M 00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .O .00 .M (2) .00 00 .05 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .90 00 00 .05 to 66 39 13 11 0 1 1 10 6 0 281 Att SM tel 20 41 17 20 23 1 , (1) 7.12 14.59 6.05 9.96 9.25 8.19 16.37 13.04 4.63 3.91 .M 00 .M .M 3.56 1.62 .00 100.00 l (2) 93 1.90 .79 1.30 1.20 1.06 2.13 1.00 .60 .51 .05 00 .05 .M 66 19 .00 13.00 (1)*Mt tui Of Att GCES DelltWat!(htl 900 inti PAGt (2)selectut Of ALL 9012 GBl(IWAflChl FOR tull MalG) Ce CALM (WlE SMt0 LIll f ata m tant TO .50 m m) l 1 37 1 1
TABLE 4A-2 (Continued) I PIL0Blu SYAtloh APlad AA&8 IEllDROLOGICAL DATA J0lW1 f ataAu:7 Ollitleiftl0N 220.0 Ft Wiwo CatA STA4]Liti Ctall 8 CLAll fit 0UthCT (Pitetut) = 3.34 I W1 @ ClttCilom ftck OPED(WN) b 888 kt DE E Ett St Slt S OSV SW W8W W 64fW lsW swW Vt3L 10 tat CAtm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 0 0 0 e 1 2 0 0 0 0 0 0 0 0 0 0 0 3 (1) .00 .00 .00 .00 1.37 2.74 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 4.11 I (2) .00 .00 .00 .00 .05 .09 .00 .00 .00 .00 .00 .00 .00 .06 .00 .00 .00 .14 47 1 2 0 1 0 0 0 1 0 1 0 0 0 0 0 0 0 6 1.37 2.74 .00 1.37 .00 1.37 .00 1.37 ,8t0 .00 .00 .00 .00 .00 0.22 1 (1) (2) .05 .09 .00 .05
.00 .00 .00 .00 .00 .05 .00 .05 .00 .00 00 .00 .00 .00 .00 .00 .28 8 12 2 2 1 2 1 1 3 1 3 3 0 0 0 0 7 2 0 28 I (1) 2.74 2.74 1.37 2.74 1.37 1.17 4.11 1.37 4.11 4.11 .00 .00 .00 .00 9.59 2.74 .00 34.34 (2) .09 .09 .05 .09 .05 .05 .14 .05 14 .14 .00 .00 .00 .00 .32 .09 .00 1.30 13 18 4 4 1 0 0 0 1 1 0 1 1 0 0 1 5 1 0 to (1) 5.44 5.44 1.37 .00 .00 .00 1.37 1.37 .00 1.37 1.37 .00 .00 1.37 6.05 1.37 .00 27.40 (2) .19 .19 .05 .00 .00 .00 .05 .05 .00 .05 .05 .M .00 .05 .23 .05 .00 .93 19 24 0 3 5 1 0 0 0 0 0 1 0 0 0 0 3 0 t il (1) .00 4.11 4.85 1.31 .00 .00 .00 00 .00 1.37 .00 00 .00 .00 4.11 .00 .00 17.81 (2) 00 .14 .23 .05 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .14 .00 .00 .60 I U 24 0 0 3 0 0 0 0 0 0 5 0 0 4 0. 0 0 0 3 ;
(1) 00 .00 4 11 00 .00 .00 .00 .00 .00 .00 .00 .90 .00 00 .00 .00 .90 4.11 l (2) 00 .00 .14 00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 14 l MLpint 7 11 10 4 2 3 4 3 3 6 1 0 0 1 15 3 0 D (1) 9.59 15.07 13.70 5.48 2.74 4.11 5.48 4.11 4.11 0.22 1.37 .00 .00 1.37 20.55 4.11 .00 100.00 (2) .32 .51 44 .19 .99 .14 .19 14 14 .2s .05 .00 .00 .95 .44 .14 .00 3.38 (1)arttCluf 0F ALL tott 005ttyAtleul fos full PAGt C CAtm (Pl e OpttD Lill tema ta teuAt 70 .50 ws) I (I)sptectet Of ALL tatt 00llevalimt 70s f all Pttico i 38
TABLE 4A-2 (Continued) I ; Pitcalm $1Atloh Art 84 A4M 8ETt0a0 LOGICAL Data Jotut (t!Mu:T Dilititufl0W 220.0 ft WIW: Data $1A41Liff CLAll C CLAtt F AIRANCY (Pittlut) . 5.23 1 _ 0 , t. , ,0. ... Spite (mPM) h set et tat I tlt et 881 8 SSW SW WIW W WW W WWW Vt4L TOTAL uLa 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .0C .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1 (2) .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .90 .00 .00 .110 .00 .00 .00 C3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 . (1) 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 47 4 1 1 2 4 2 1 0 1 0 0 0 0 0 0 1 0 17 1 (1) 3.54 .ad .38 1.77 3.54 1.77 .ma .00 .58 .00 .00 .00 .00
.00 .00 .00 .00 .00 .38 .05 .00 00 15.04 .79 (2) .19 .05 .M .09 .19 .09 .05 .00 .05 .00 .00 .00 t 12 4 0 7 6 3 0 0 0 6 0 32 I 0 1 1 1 1 1 1 (1) .M 3.54 .00 .34 .00 .38 .38 6.19 5.31 2.65 .00 .00 .34 .00 1.31 .00 .00 26.32 (2) .05 .19 .00 .05 .00 .05 .05 .32 .28 .14 .00 .00 .05 .00 .28 .05 .00 1.48 13 18 3 3 1 0 0 0 0 1 1 3 2 0 0 3 9 0 0 24 til 2.65 2.65 .34 .00 .00 .00 .00 .38 .36 2.65 1.77 .00 .00 2.65 7.M ' .00 .00 23.01 (2) .14 .14 .05 .00 .00 .00 .00 .05 .05 .14 .09 .00 .00 .14 42 .00 .00 1.20 19 24 0 3 11 1 0 0 0 1 0 0 1 0 0 0 5 1 0 13 .
(1) .00 2.65 9. 73 .38 .00 .00 .00 .34 .00 .00 .38 .00 .00 .ec 4.42 .te .00 20.35 (2) .00 .14 .51 .05 .00 .00 .00 .05 .00 .00 .95 .00 .00 00 .23 .95 .00 1.06 I 81 24 2 2 11 0 0 0 0 0 0 0 & 8 9 A 0 0 0 15 (1) 1.77 1.77 9.73 .00 .00 .f4 .00 .e4 .40 .9) .00 .00 .00 .00 .00 .00 .00 13.27
, (2) .09 .09 .S1 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .69 Att 6Pitos 10 13 24 4 4 3 2 9 4 6 3 0 1 3 to 3 0 til
- 1) 0.85 11.50 21.24 3.54 3.54 2.65 1.77 7.M 7.08 5.31 2.65 .90 .06 2.65 17.70 2.65 00 100.00 I . ((2) 46 .60 1.11 .19 .19 .14 .99 42 .37 .28 14 .00 .95 .14 .93 .14 .00 1.23 (1)=>ttCthi 08 ALL GCE 005ttv&11 Chi FOR 1 Nil PAGI '
(2)*PitCIW1 Of ALL 80tB Celttvailtml fos 1bil Pttite C CAUI (W110 SPED Ltts fa48 E Sm44L 10 .50 tra) l l l 39
l I g TABLE 4A-2 (Continued) l l PILealm statl> APtM M68 IE!!aRMOGICAL DATA Jolut FRE0Wktf 0181tl8Utloh 220.0 F1 Wie DATA $1AAILitt C.All 0 CLAll Ftt0UtWOT (MtMNT) e 45.63 I WIC OlttC110N Ft:M SPilXWM) N but us tal E Itt St Slt $ llW SW 'WSW W 6ArW W serW vttL 101AL CALM 0 0 0 0 0 0 0 0 0 0
- O 4 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 1 1 3 3 6 2 4 1 3 3 5 1 0 3 4 1 0 41 (1) .10 10 .30 .30 .41 .20 .41 .10 .30 .30 .51 .10 .00 .30 41 .10 .00 4 . * 's I (2) .05 .05 .14 14 .28 .09 .19 .05 .14 .14 .23 .05 .00 .14 19 .05 .00 1.90 47 5 7 8 5 13 5 8 11 14 5 7 8 1 5 2 5 0 109
.81 1.12 1.42 1 (1)
(2)
.51 .23 .71 .32 .8) .37 .51 1.32 .23 .6C .51 .23 .37 .51 .65 .51 .23 .71 .32 .81 .37 .10 .05 .51 .23 .30 .09 .51 .23 .00 .00 11.05 5.04 f
m 8 12 (1) 1.52 15 7 13
.71 1.32 1.42 14 .91 9 .20 2 9 16 29 30 23 11 .91 1.62 2.94 3.04 2.33 1.12 1.12 2.64 1.83 1.52 11 to '.4 15 .00 0 248 25.15 (2) .69 .32 .60 .45 42 .09 42 .74 1.34 1,39 1.06 .51 .51 1.20 .83 .69 .00 11.48 .
13 12 7 10 40 15 1 0 5 to 3 39 to 19 22 37 27 15 0 3 34 (1) .71 1.01 4.06 1.52 10 .00 .51 1.01 .30 3.96 8.92 1.93 2.23 3.75 2.74 1.52 .00 34.28 (2) .32 44 1.85 .69 .05 .00 .23 44 .14 1.80 4.b7 .88 1.02 1.71 1.25 .69 .00 15.f4
% 24 9 12 45 14 0 0 0 1 0 4 53 4 0 4 4 17 0 167 (1) .
- 22 4.56 1.42 .00 .00 .00 10 .00 .41 5.38 41 .00 .41 .41 1.72 .00 14.94 (2) 42 .54 a.J .65 .00 .00 .00 .05 .00 .19 2.45 .19 .00 .19 19 .79 .00 7.73 Ef 24 10 21 33 3 0 0 0 0 0 0 5 4 6. 0 0 7 0 83 (1) 1.01 2.13 3.35 .30 .00 .00 .00 00 .00 .00 .51 .41 .00 .00 .00 .71 .00 8.42 (2) 44 .97 1.53 .14 .00 .00 .00 .00 .00 .00 .23 .19 .ho .06 .00 .32 .00 3.44 Att SPitDS 47 54 142 5. 29 9 24 39 49 81 181 47 34 25 55 60 0 986 (1) 4.77 5.86,14.40 5.44 2.'4 .91 2.64 3.96 4.97 8.22 18.34 4.77 3.45 7.61 5.54 4.09 .00 100.00 (2) 2.17 2.M 6.57 2.50 1.34 .42 1.20 1.80 2.27 3.75 8.38 2.17 1.57 3.47 2.55 2.78 .00 45.&3 I
(1)= Pit:Eut Of ALL 8000 Celtavations FOR tell PAGE (2)*PitMW10F Att 802 005tivatiott F0s f ull P(IICC Cs CAtm (WluD SP(t0 List f aAs Os IML 10 .50 # 8) 1 40 ; 6
I i TABLE 4A-2 (Continued) DILtalm $1Aftok APIM Ami&B tettf on0 LOGICAL DATA Jolgt Ft(&Jtu;T Di$1tl9LitION 220.0 71 Wis: CATA stA81 tit? CLAll I CLAll Fateutu 7 (Pittiut) e 25.45 Wlu0 CittCitou F808 I SPitC(MPn) t ett WI It! t E 51 St 851 8 88W SW WlV W WWW IW INN VtBL TOTAL cAtm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 I (1) .00 .00 00 .00 .00 .00 .00 .00
.00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 2 0 2 2 1 1 0 0 2 1 0 1 2 0 1 5 0 20 I (1) .34 .00 .36 .34 18 .it .00 .00 .34 .it .00 .it .M .00 .18 .91 .00 3.H (2) .09 .00 .09 .09 .05 .05 .00 .00 .09 .05 .00 .05 .09 .00 .05 .23 .00 .93 47 4 1 0 0 1 2 5 3 7 5 4 2 6 3 6 9 0 58 *
(1) .3 18 .00 .00 .18 .36 .91 .55 1.27 .91 .73 .36 1.09 .55 1.09 1.H .00 10.55 (2) . 19 .05 .00 .N .05 .09 .23 .14 .52 .23 .19 .09 .28 .14 .28 .42 .00 2.64 4 12' 2 0 0 0 0 1 5 8 8 15 to 27 39 21 17 9 0 1M (1) .34 .00 .00 .00 .00 .18 .91 1.45 1.45 2.73 2.91 4.91 7.09 3.42 3.09 1.4 .00 30.55 (2) .09 .00 .00 .A .00 .05 .73 .37 .37 .69 .74 1.5 1.80 .97 79 .42 00 7.77 13 18 9 4 1 0 0 0 0 2 1 5 49 M 32 13 7 27 0 166 (1) 1.H .73 .it .00 .00 .00 .00 .34 .18 .91 8.91 6.55 5.82 2.34 1.27 4.91 .00 33.82 (2) 42 .19 .05 .00 .00 .00 .00 .09 .05 .23 2.27 1,67 1.48 .60 .32 1.25 .00 8.61 19 24 3 4 1 0 0 0 0 0 0 1 49 24 4 0 *0 9 0 99 (1) .55 1.09 .it .00 .00 .00 .00 .00 .00 18 8.91 4.73 .73 .00 .00 1.M .w' 18.00 (2) .05 .00 .00 .05 2.27 1.20 .19 .00 .00 .00 4.58 I 14 .24 .00 .00 .00 .00 42 81 24 3 1 3 0 0 0 0 0 0 0 1 9 0 0 0 2 0 ' 19 (1) .55 .18 .55 .00 .00 .00 .00 .00 .00 .00 18 1.M .00 .00 .00, .Se .00 3.45 I (2) .14 .05 14 .00 .00 .00 .00 .00 .00 .00 .05 42 00 .00 .00 .09 .00 .M A 23 12 7 2 2 4 10 . 13 18 27 119 101 83 37 31 41 0 550 4.14 2.18 1.27 .M .M .73 1.82 2.34 3.27 4.9121.H 18.M 15.fA 6.73 5.M 11.09 Ittsett03 ' (1) (2) 1.06 .54 .32 .09 .09 .19 44 .60 .83 1.5 5.D 4.67 3.N 1.71 1.43 2.82
.00 100.00 .e0 25.40 1)=*tattet of ALL 8000 Celtavat:0mt toe init pact 1 (2)*Pf1Clut OF Att Gott Celttv4110mlto fon
( inil Pttitt CALM (Wlu0 SPitt atts inAs Da teuaL 10 .50 men) I I t i 41
o TABLE 4A-2 (Continued) I PitGalm STAttok apt 44. Am68 MitomoL0cicAt DATA J01st Fateutu;f gigT818UTICW 220.0 ft vlus DATA 31Aaltitt ctats f ctAss patetau:t ( m ctuf) e 5.69 Wie Olettilom FROM SPt[0(W M) b gg[ Wt [g[ [ [s( g[ $s[ ! $ gW W$V W tent W ggW WatL TOTAL CALu 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C (1) .00 00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 . (2) .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .90 .00 .00 .00 .00 .00 .00 .00 C3 0 1 0 0 1 0 0 1 1 2 2 1 1 0 0 0 0 10 (1) .00 .81 .00 .00 .81 .00 .00 .8) .81 1.63 1.63 .81 .81 .00 .00 .00 .00 8.13 (2) .00 .M .00 00 .M .00 .00 .M .M .99 .99 .05 .05 .00 .00 .00 .00 .46 I 47 2 0 0 0 0 0 2 3 4 3 3 3 3 2 1 2 0 28 (1) 1.0 .00 .00 00 .00 .00 1.63 2.44 3,25 2.44 2.44 2.44 2.44 1.63 .Si 1.0 .00 22.76 (2) .09 .00 .00 .00 .00 .00 .09 .14 .19 14 .14 .14 .14 .99 .05 .99 .00 1.30 t 8 11 2 0 0 0 0 1 2 4 4 4 8 2 6 5 2 0 0 40 (1) 1.0 .00 .00 .00 .00 .81 1.63 3.25 3.25 3.25 6.50 1.0 4 .86 4.07 1.0 .00 .00 32.52 (2) .09 .00 .00 .00 00 .05 .09 .19 .19 .19 .37 .09 .28 .D .09 .00 .00 1.85 13 16 3 0 0 0 0 0 0 0 0 0 1 5 to 7 1 1 0 32 i (1) 2.44 .00 .00 .00 .00 .00 .M .00 .00 .00 .81 4.07 11.34 5.69 .81 .81 .00 26.02 (2) .14 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .D . ',5 .32 .M .M .00 1.48 19 24 0 1 0 0 0 0 0 0 0 0 0 7 3 0 0 0 0 11 (1) .00 .81 .00 .00 .00 .00 .00 .00 .00 .00 .90 5.69 2.44 .00 .00 .00 .00 8.94 (2) .00 .M .00 .00 .00 .00 .00 .00 .00 .00 .00 .32 .14 .00 .00 .00 .00 .51 > 81 24 0 0 0 0 0 0 0 0 0 0 0 2 0 0 0 0 0 2 (1) .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 1.43 .90 .00 .90 00 .00 1.0 (i) .90 .90 .to .00 .00 .00 00 00 .00 .00 .00 .99 .90 .00 00 .f0 .00 .99 7 2 0 0 1 1 4 4 9 9 to 20 27 14 4 3 0 123 lALLSPtitt (1) 5.69 1.0 .00 .t; .31 .81 3.5 6.50 7.32 7.V 11.34 16.26 21.95 11.38 3.25 2.44 .00 100.00 (2) .32 .99 .00 .00 .95 .95 .19 .37 42 42 .6% .93 1.25 .45 .19 14 .00 S.69 (1)*tettet 98 ALL este esteevet 0ms fos tell Pact (2)=*ttClef Of ALL 000D teltavAtleul Poa tall Pttloc ce CALM (Wie sPita List inns ta DeuAt to .50 Wu)
- 42 t
i
TABLE 4A-2 (Continued) PitCelm $1Allts apt &a Nela malfotCAcctCAL DATA J0lN1 f ateututt bl$1 tit 0110h I l 22@.0 ft WikD CA1A $1AllLl11 CLAll C CLAll FRtouth:1 (P( Actut) s 1.62 WIWD DittC180W f tCM I SPttDim#m) W but at Ett t Ett St 811 3 ssW BW WSW W tRN SW inn wtL TOTAL pin 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 J J (1) .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l
.00 !
(2) .00 .00 .no .00 .00 .00 .14 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l C3 2 2 1 0 1 0 0 0 0 0 0 0 0 1 0 4 0 it (1) 5.71 5.71 2.84 .00 2.M .00 .00 .00 .00 .00 .00 .00 .00 2.M .00 11.43 .00 31.43 ' (2) .09 .09 .05 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .19 .00 .51 , 67 1 0 0 0 0 0 0 2 1 1 1 1 2 1 3 4 0 17 (1) 2. M .00 .00 .00 .00 .00 .00 5.71 2.46 2.06 2.M 2.M 5.71 2.06 8.57 11.43 .00 44.57 (2) ,.05 .00 .00 .00 .00 00 .00 .09 .05 .05 .05 .M .99 .05 .14 .19 .00 .79 v 0 0 0 0 1 1 0 0 0 0 0 0 3 8 12 0 0 0 1 (1) .00 .00 .00 .00 .00 .00 .00 .00 2.06 2.M 2.06 .00 .00 .00 .00 .00 .00 0.37 (2) .00 .00 .00 .00 .00 .00 .00 .00 .05 .05 .05 .00 .00 .00 .00 .'00 .00 .14 0 0 0 0 0 0 0 0 0 0 2 1 0 0 0 0 4 13 18 1 (1) 2.86 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 5.71 2.06 .00 , 00 .00 .00 11.43
.00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .09 .05 .00 .00 00 .00 .19 (2) .05 0 0 0 0 0 0 0 0 0 0 U 0 0 0 0 0 0 19 24 0 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 00 .00 .00 .00 00 .00 (2) .00 .00 .0C 0 0 0 0 0 0 0 0 0 0 0 6 0 El 24 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 . 00 .00 00 .00 .00 .00 .00 .00 .00 .0:t 00 1 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 4 2 1 0 1 0 0 2 2 2 2 3 3 2 3 0 0 35 .00 5.71 5.71 5.71 5.71 8.57 8.17 5.71 8.57 22.06 .00 100.00 lAltOP(IDS (1) 11.43 5.71 2.06 .09 .05 .00 2.94 .00 .05 .00 .00 .00 .09 .99 .99 .M 14 14 .M .44 .37 .00 1.62 (2) .19 1).PttClut of Att 800D 005tevaticht F08 full Pact I ((2)*tttttal Of ALL 00(I 08tikvallchl FOR C8 CALR (Wlte tullDPitD PlBlCELit 11aAs W Dent TO .50 IF u )
I . I 43 i i l e
i TABLE 4A-2 (Continued) t I. PitGalm $1ATIch apt &4* Ah84 altitot0 LOGICAL DATA J0!st fetMuCT Dilitl8U110m 220.0 FT Wiu0 DAT A $1Asttit? CLAll ALL CLAll ft( M uCT (PteCEuf) e 100.00 WitC OlttCTION ft04 ISPItalwm) B th! et 161 I E st St 851 5 SSV SW WSV W WW sw inmW Watt 101AL CALM 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 I (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C3 5 4 6 11 18 7 4 2 6 6 7 3 3 4 5 to 0 101 (1) .23 .19 .28 .51 .83 .32 .19 .09 .24 .28 .32 .14 .14 .19 .23 64 .00 4.67 (2) .23 .19 .28 .51 .83 .32 .19 .09 .28 .28 .32 .14 .14 .19 .23 44 .00 4.67 , fa 47 21 25 19 27 35 23 26 23 29 15 15 54 12 11 12 21 0 328 (1) ,97 1.16 .88 1.25 1.62 1.06 1.20 1.06 1.34 .69 .69 .65 .54 .51 .54 .97 .00 15.18 (2) .97 1.16 .88 1.25 1.62 1.06 1.20 1.06 1.34 .69 .69 .65 .54 .51 .54 .97 .00 15.18 8 12 35 30 18 20 11 13 41 M 61 61 44 40 54 52 51 29 0 630 (1) 1.62 1.39 .83 93 .51 .60 1.90 2.87 2.62 2.82 2.22 1.85 2.64 2.41 2.36 134 .00 29.15 (2) 1.62 1.39 .83 .93 .51 .60 1.90 2.87 2.82 2.82 2.22 1.85 2.68 2.41 2.35 1.34 .00 29.15 I i 13 18 30 29 45 15 1 0 21 24 6 54 142 62 49 62 56 66 0 662 (1) 1.39 1.34 2.08 .69 .05 .00 .97 1.11 .28 2.50 6.57 2.87 3.19 2.87 2.59 2.13 .00 30.63 l (2) 1.39 1.34 2,08 .69 .05 .00 .97 1.11 .28 2.50 6.57 2.87 3.19 2.87 2.59 2.13 .00 30 63 l 19 24 12 27 62 16 0 0 0 2 0 6 103 37 7 4 14 27 0 317 (1) .56 1.25 2.87 .74 .00 .00 .00 .09 .00 .28 4.77 1.71 .32 .19 .65 1.25 .00 14.67 (2) .56 1.25 2.87 .74 .00 .00 .00 .09 .00 .28 4.77 1.71 .32 .19 .65 1.25 .00 '14.67 ST 24 15 24 51 3 0 0 0 0 0 0 6 15 0 0 0 9 0 123 (1) .69 1.11 2.36 14 .00 .00 .00 .00 .00 .00 .28 .69 .6,0 .00, .00 .42 .00 5.69 (2) .69 1.11 2.36 14 .00 .00 .00 .00 .00 .00 .28 .H .00 .00 .00 .00 5.69 I 42 Att SPtt0S 118 439 201 92 45 43 92 113 102 142 321 171 149 133 158 142 0 2161 (1) 5.66 6.43 9.30 4.24 3.01 1.99 4.26 5.23 4.72 6.57 14.85 7.91 6.09 6.15 6.39 6.57 .00 100.00 I (2) 5.44 6.43 9.30 4.26 3.01 1.99 4.26 5.23 4.72 6.57 14.35 7.91 6.09 6.15 6.39 6.57 .00 100.00 1)ettClut De att 3000 CostavA110ml ice full Past I (2)#Etttui of ALL 00tm OS$tavall0kl ( FCa f ull PEtl00 Ce CALN EWIW SPEED Lill TmAs ta SaJAL 10 .50 wo i n f. 5 t,
- 5. OU-SITE EOSE CALCULATION MANUAL REVISIONS The PHPS Offsite Dose Calculation Manual (00CM) was revised during this reporting period (See Appendix C). . The revisions to the 00CM were reviewed by the PHPS Operations Review. Committee (ORC) on August 19, 1988 per ORC Heeting No. 88-87. These changes will become effective in September of 1988.
The PNPS Semiannual Radioactive Effluent and Haste Disposal Report for January 1 through June 30, 1987 was submitted to the NRC in September 1, 1987. Appendix D of this report contained revisions to the CDCM updating distances and directions to the TLD and air sampling locations. As part of an ongoing review of licensee 00 cms, the NRC subcontracted with EG&G Idaho, Inc. The PHPS ODCH Rev.1 was reviewed in its entirety as part of I their technical assistance contract program. A Safety Evaluation Report and the results of the Technical Evaluation Report (TAC #63012) were , transmitted to Boston Edison on October 28, 1987 (Reference 4). A number i l of concerns were listed and a 6 act.th response was requested (Reference 5). l Attachment A lists the concerns identified in the NRC's contractor I evaluation report. The concerns have been numbered in the order in which they appear in Section 4 of the Technical Evaluation Report. The torresponding change or justification for not making the change is described under each item. In addition, a technical review was performed on the ODCM by Boston Edison Company (Reference 6). knd technical chang 25. This internal review resulted in administrative The major technical improvements made as a result ; of the internal technical review are described in Attachment B. Major improvements were rade in the sections dealing with calculation methods, 1 radiological environmental sampling and measurement locations, and description of radwaste systems. i l I I- . l. I 45 f 1
I l 1 Attachment A P11erim Nuclear Power Station's Offsite Dese Calculatio0Janpd Boston Edison Comoany's Resoonse to Nuclear Reaulatory Ctw is3 ion Concerns Identified in the NRC's Technical Evaluatinn ReDort (TAC #63012) The attached is a listing of the concerns listed in Section 4.0 of Supplement I to Appendix 0 of NRC letter to Ralph G. Bird from Richard H. Nessman, dated October 28. 1987. The associated changes to the PNPS 00CM or justification for not making changes are listed following each item, i NRC Concern No. 1 In Section 4.1, it is uncertain if the dose rate to the child's thyroid is identified as the maximum organ dose since the bases statement in Technical Specification 3.8.D identified the infant. age group instead of the child age group. Response No. 1 A proposed Technical Specification revision to Section 3.8.D will be submitted following startup that will provide clarification. The clarification will indicate the current practice of considering all age groups in e the organ dose calculation for lodines and particulates j with a half life greater than 8 days, and Tritium. The age group with the maximum estimated organ dose will continue to be used to ensure dose rates froe gaseous effluents are within PNPS Technical Specifications. NRC Concern No. 2 In Section 3.1.3, the location of the environmental
" release point for liquid radwaste batch releases from -
sources other than the liquid radwaste treatment system should be identified in the OOCH. I
!tesponse No. 2 The following clarification has been added to Section 3.1.3: "All batch releases which are not processed through the liquid radwaste treatment system are also discharged through the outlet to the circulating water discharge I canal. These untreated liquid effluent releases also enter the Cape Cod Bay at the outfal.1 of .the discharge canal."
NRC Concern No. 3 Figures 3.5, 3.2, and 3.3 contain diagrams showing the radiation monitoring systems. These radiation monitoring system diagrams are illegible and should be I replaced. I I 46 , l l
l l Attach 2ent A (continued) i Response No. 3 Figures for the radiation monitoring systems are not ' l 7 required by NUREG-0133 or "General Contents of the l I- Offsite Dose Calculation Manual," Revision 1, issued by a Branch Technical Position from the Radiological Assessment Branch dated February 8, 1979. Since the information on the radiation monitoring systems recommended by the Branch Technical Position is contained in the text of 00CM Section 3.2, Figures 3.1, ' 3.2, and 3.3 have been deleted. The location of these drawings have been listed in the text of 00CM Section 3.2 (i.e.. Section 7.12 of the PNPS Updated FSAR). r i NRC Concern No. 4 In Section 4.A. the option for determining the quantity : Cwi in the concentraston equation by "estimates based on pr'or experience" is not consistent with 11guld sampling ! Table 4.8-1 of the technical specifications.
, Response No. 4 Section 4.A has been revised and renumbered as 4.1. The -
i definition of Cwg has been changed to be consistent with L liquid effluent sampling described in PNPS Technical Specifications as follows:
"Cwg Concentration of nuclide i in the 11guld waste discharge volume prior to any dilution as determined by current isotopic analysis for gama emitting nuclides and most recent results from pure beta and alpha emitters C=C1/cc)."
NRC Concern No. 5 In the equations of Sections 4.8 and 4.C. the dilution ; flow is represented by "F" and "M p" and should be replaced with the average condenser cooling flow for the period to change the dilution flow to the average flow of the discharge canal during the reporting period.
, Response No. 5 The use of a mixing ratio value was maintained to allow l
for additional dilution in seawater at a given location i of interest. The value has beta designated "M1 " and is defined as follows:
"Mi is the sixing ratto (reciprocal of dilution factor) ; at location 1 of exposure or harvest of aquatic food, ; from Table A-3 (dimensionless);"
In addition, the dilution flow (F) has been replaced i, with the volumetric flow rate in liters /yr (V). The definition of V specifies summing both the 11guld , efflaent and condenset cooling /dtlution water volumes. ' r The revised units (liter /yr) resulted in thanging the conversion constant to be dimensional',y consistent. The change does not reduce tha accuracy of the equation. f l ! 47 l t n { 4 _
,--,-------wwe e~---= w w - v =- ' " ' ' ' * ' ' " " '~~*' '
, Attachment A (continued) i I
NRC Concern No. 6 In Sections 4.0 through 4.L. it is not clear from the F equations that s Molteneous dose rate contributions from the main stack and ihe reactor building vent are l- included. l Response No. 6 The equations in Sections 4.D through 4.L have been j revised and now correspond to the equations in Sections 4.3.1 and 4.3.2. The following clarification of existing practices for summation of the two dose rate contribitions has been added to Section 4.3: {
"Sumation of the doses from the equations below should be performed '/or all significant pathways and all I release points from which significant radioactive effluent releases have occurred (i.e., Main Stsck and Reactor Building Exhaust Vent)."
NRC Concsrn No. 7 in Sections 4.H through 4.L. the titles identify '
"Halogens, Particulates and others" instead of I "iodine-131, iodine-133, tritium, and all radionuclides in particulate form with half lives greater than 8 days".
l Response No. 7 ThetitlesinSoutions4.Hthrouhh4.LhAvebeenrevised anj now fall under the title in ection 4.3.2 tthich is:
"Gaseous Pathway Annual Dose Rates for Iodine 131 and I 133 Particulates with Half-Life Greater than 8 days, and Tritium".
NRC Concern No. 8 In Section 4.H. the equation for the annual dose rate ' from round deposition contains an "1" denom nator, whereas it should be A g. in the I Response No. 8 The equation in Section 4.H has been revised and now corresponds to equation 4.3.2.1. Thc missing lambda symbol has been included into the equation for tne annual dose rate from ground deposition. NRC Concern No. 9 In Sec 7 l 2.2x10jions4.Jthrough4.L.8arenotde'ined.the
, 5.5x107, and 1.1x10 constants 1.2x10 ,
Reiponse No. 9 The constaa.ts in the equations in Sectiens 4.J through 4.L have been changed. These constants are defined in ' t Section 4.5.3 as follows:
"1.19E7 - is equal to 1.00E12 pCi!Ci divided by 3.15E7 sec/yr and multiplied by 1.00E3 g/ g and by 0.5 g H-3 in plant water per g H-3 in atmospher c water from Reference 23 (dimensionless) and by 0.75 g water per g plant (dimensionless) as calculated in Reference 1 l equation C-9, (pCi-yr-g/C1-sec-tg);
I
- 48 l
Attachment A (continued) 2.18E7 - is equal to 1.00E12 pCi/Ci divided by 3.15E7
' sec/yr and multiplied by 1.00E3 g/kg and by 0.11 g Carbon /g plant pass from References 24 and 25 divided by 0.16 g Carbon /m3 of air as calculated in Reference 1 equation C-8, (pCi-yr-mg/Ci-sec-kg);
l 5.71E7 - is the conversion factor to correct for i activity units, time units, and elemental forms of [ radioiodines, 64ual to the particulate nuclide conversion factor 1.14E8 multiplied by an elemental todina fraction of 0.5 from Reference 26, (pCi-yr/Ci-hr); 1.14E8 - is the conversion factor to correct activity units and timi units for particulate radionuclides, equal to 1.00E12 pCi/Ci multiplied by 1 yr/8760 hr, (pti-yr/C1-hr);" C C Concern No. 10 In Section 4.L. the definition for the quantity Qg l should not include the word "annual" since the air dose or air dose rate is already being considered "for the period". Response No.10 The definition of Q. in Section 4.L has been revised and
, now appears in Sect'on 4.3.3 as follows: "0t - is the annual release rate of nuclide i in gaseous effluents (Ci/yr);"
The use of the word "annual" has been maintained for . clarity and dimensional consistency. For purposes of r performing calculations, all input and output values [ (activity, use factors, dose rates) are normalized to a 1 year period to prevent inconsistencies in time factors. Thus, the air dose rate and the quantity Qi l definitions are consistent in that they are both expressed as an annual rate. NRC Concern No. 11 In Section 4.L. the time unit "hours" has been omitted from the definition for te. , , l Response No. 11 Thedefinitionoft{on4.3.3asfollows:in now appears in Sect Section 4.L has been "te - is the time period that crops are exposed to I radio-nuclide deposition during the growing season, from Table E-15 (hr);" l The time unit "(hr)" is now indicated in this definition. 49 {
Attach:ent A (ctntinued) NRC Concern No. 12 In Section 6.1, the setpoint for the liquid radwaJte monitor is set to tne level determined from the prerelease grab sample with no margin allowed. It is not clear if plant operation is consistent with the ODCH t descriptio= Jince the monitor should be alarming continuously during a release, thus preventing the release. [ Response No. 12 Technical Specification 3.8.B.I.a allows for the I setpoint of the effluent monitor to be set to a more conservative level to allow for the discharge of radioactive liquid. I Pilgrim Station Procedure 7.9.2, "Liquid Radioactive Maste Discharge", directs the chemistry technician to recalculate the monitor trip setpoint by utilizing form I CH - 11.A.2. This calculation uses detector efficitacy and background, actual data of the discharge in
- a question, and available dilution flow to determine an
[ acceptable alarm setpoint that will allow the discharge and at the same tima ensure that it will not exceed 10CFR20 limits as prescribed in Section 3.8.A.1 of Technical Specifications. ( This methodology also ensures that the monitor does not
. inadvertently alarm continuously because of the I conservative method used to determine the discharge flow rate of the tank. i 1 NRC Concern Ko. 13 In Section 6.1.3, the documentation for estimating the monitor's efficiency "based on prior release experience" is not referenced.
g Reponse No. 13 The following sentence has been added to Section 6.1 l Item 3 to provide clarification and additional detail on l efficiency determination. I "PNPS Cheelstry Procedure 7.3.38 entitled, !
' Determination of Conversion Factor.: for. Liquid PRH's', i describes the method to determine the efficiency". !
l . NRC Concern No. 14 In Section 6.2, items 3) and 4) reference the equation ' of Section 4.0 and should reference the equations in l Sections 4.F and 4.G I. Rerponse No. 14 Section 6.2 items 3) and 4) have been revised to i le reference the correct equations. These sections now . l reference Sections 4.3.1.3 i,nd 4.3.1.4 for noble gas ; trnersion total body dose and noble gas 1smersion skin ; i dose, respectively. These sections correspond to the equations in Sections 4.F and 4.G.
- u 50 t
I
- Attac'hment A (continued) i NRC Concern No.15 A calculation should be included in the 00CH to project doses due to the release of radioactivity in liquid F effluents to sati'sfy the requirement of T6thnical I- Specification 3.8.C.1 l Response No. 15 The equations used to project the monthly doses due to releases of radioactivity in liquid effluents were given in Section 4.E and are now referenced in Section 4.2. '
These equations as well as all other dose rate equations presented in the 00CM yield annual dose rate in arem/yr I or arad/yr. The final result of any equation (s) must be scaled appropriately for the period of concern. Such scaling is described at the introduction of Sections 4.2 I and 4.3. For example, the following statement occurs in the introduction to Section 4.2: l l "Modification of final results is necessary for comparison to dose rate limits for periods different than one year. For comparison to monthly limits and quarterly limits, results would be scaled by 1/12 and I 1/4, respectively. To determine the dose or dose commitment for a desired period, multiply the khnual - cose rate by the fraction of the year for the dose I period desired."
. For purposes of nreiectino resulting dose estimates for i the subsequent month, the release rates and o concentrations are assumed to be equal to the previous month's release. Such a position was previsusly agreed upon in the RETS submittal and in associated meetings ;
I with Nuclear Regulatory Comission staff. NRC Concern No. 16 A simplified diagram illustrating the solid waste l treatment system is not included in the 00CH.'
, i Response No.16 A simplified diagram illustrating the solid waste l
, I treatment system is not included in the 00CM because ! Pilgrim Nuclear Power Station does not have a solid ! waste treatment system. ! NRC Concern No. 17 There is no separate section in the 00CM addressing the i total dose limits of Technical Specification 7.5 with
- l methodology for calculating the total dose from the ,
liquid, gaseous, and direct radiation contributions. i l ; I 1esponse No. 17 A new section has been added to Section 4.0. Section ' 4.4, entitled, "Total Dose to a Member of the Public". which describes the methodology which was and is 3 I currently being utilized for calculating the total dose
. from the 11guld, gaseous, and direct radiation ! , contributions. In addition, it addresses the conditions
- l for when an assessment of the total dose must be
- I parformed.
i
- 51
}.
Attach ent A (continued) NRC Concern No. 18 The direction for Duxbury is NW of the plant site instead of "SSH-SH" as indicated in Table 7-3. Response No. 18 The direction for the'Duxbury sampling location as well I as all other sampling locations have been reviewed and l' revised. The corrected distances and directions were obtaineti by physical verification cf exact positions of sampling location on maps, followed by map generation on computer and computer scaling techniques. The distances and directions were obtained from the "to scale" digitized maps shown in Figures 7-1 through 7-5. NRC Concern No.19 Figures 7.1 through 7.4 are illegible and should be replaced. - I Response No. 19 Figures 7.1 through 7.4 have been replaced. The new digitized maps showing the radiological environmental . I sampilng and measurement locations appear as Figures 7-1 through 7-5. l NRC Concern No. 20 Figure 8-1 should be modified to show the one-inch and the two-inch discharge lines, tne release pathway to the discharge canal, and the environmental release point for 11guld radwastes released without treatment. { Response No. 20 Figure 8-1 has been replaced with the corresponding figure from the PNPS Technical Specifications (Figure - i 4.8-1). It was not considered reasonable to modify the I corresponding f'.gure in PHPS Technical Specifications to add this level of detail. Instead a description of the I one-inch low flow line and two inch high flow line was added to Section 3.1.3 as follows: [ .
"The header provides controlled discharge through either
' a low flow discharge path or a high flow discharge I path. The high flow path it normally used with a variable liquid radwaste effluent flow from 1-200 gpm. The common discharge header extends front both the low { ' and high flow-paths and is monitored for radiation prior l to discharge". I The release pathway to the discharge canal and the
] environmental release point for liquid radwaste released without treatment were clarified in Section 3.1.3 as described in Response No. 2.
ll l o ; i l 4 e s
Attachment A (continued) NRC Concern No. 21 Figure 8-2 in the 00CM shows the drywell effuents being released to the reactor building vent whereas Figure 4.8-2 in the Technical Specifications shows these effluents being released to the main stack. The figures should be correct and consistent. Response No. 21 Figure 8-2 has been replaced with the corresponding figure from the PNPS Ttrchnical Specifications (Figure 4.8-2), which is correct. I 1 I [- l [
- l. ,
I . I I I I - I I 53 t .
. L -- _.- - __ - __ . _ _ . - . - - - -. --
I i Attachment B N1erim Nuclear Power Station's offsite Deze Calculation Nanual Boston Edison Commanv's Radioloaical Enaineerina Division hchnical Review'Summarv l The attached is a listing of the major technical improvements made to Pilgrim Nuclear Power Station (PNPS) 00CM, Revision 2. This technical review was . i performed by the Boston Edison Company's Radiological Engineering Division. This review was performed in July - August 1988 (See Reference 7). Section 2
- Included liotting conditions for operations and operational I objectives for radioactive effluents in the Technical !
Specificetion/00CH Crossreference Table 2-1 of the PNPS 00CM to ' be more censistent with the PNPS Technical Specifica'lons. c I - Section 3
- Expanded the technical detail in the text of Section 3.0. for effluent flow rates, mixed MPC definition, and effluent I radiation monitor descriptions.
- Section 4
- The use of subscripts and superscripts in the equations in l Section 4.0 have been revised. A protocal has been established so as to remove past inconsistencies and ambiquities, thereby -
avoiding confusion in the application of the variables and equations. L
- The grouping of constant parameters and variables in the equations in Section 4.0 have been revised. The constants, parameters and variables used to calcu) ate the concentration in -
various environmental utdia have been consistently grouped ; together. This will facilitate celculation of these I concentrations as well as facilitate the calculation of dose a from measurement results of environmental media concentrations. I
- Some new annual dose rate equations have been added. The I relatively negligible dose pathways which were analyzed in the PNPS Appendir ! Evaluation, were not included in the original PNPS 0001. These equations were added for completeness and 1 consistency.
- The usage factors for the various pathways were reviewed for applicable site specific data. Some of the usage factors were t ,
j
; revised to conform to the more site specific values in the PNPS ; ! Unit 1 Appendix ! Evaluation. In addition, other usage factors I
g were incorporated to accomodate the dose pathways as mentioned I above.
- I
- I
- I 54 t
k - - - l
Attach ent 8 (continued) The values for the shore width factor and mixing ratios were reviewed for site specific data. Some of the shore width l j factors and mixing ratios were revised to conform to the more site specific values used in the PNPS Unit 1 Appendix I Evaluation. In addition- other shore width factors and mixing ratios were incorporated'to accomodate the dose pathways as mentioned above.
- The equation for the ground level concentration utilized in the calculation of the inhalation annual dose rate has been divided into two options. The first for gaseous and H-3 which utilizes the undepleted (X/Q)c dispersion factor. The second is for particulates with half-lives greater than 8 days and I-131 and ,
I-133, which utilized the dep'eted (X/Q)d dispersion factor. l I
- The equation for the concentration on stored feed and gasture '
I grass has been divided into twc options. The first, witch is used for both stored feed and pasture grass concentrations, is ' specific for 1-131 and I-133. The secord is specific for { particulates with half-lives greater than 8 days. Section 7.0 Section 7.0 has been expanded to summarize the description of the existing Radiological Environmental Monitoring Program. In - I addition, the tables in Section 7.0 have all been reviewed and revised to indicate the current pro sampling and measurement locations. gram and the existing A Technical Specification change will be :ubmitted in the future to address the applicable items. Section 8.0 Section 8.0 concerning Treated Gaseous Radwaste System was . expanded. The description of the Augmented Offgas System from the PHPS Updated FSAR was incorporated. lI . I I I I
, 55 l
f l _ _ _ _ _ _ ---
- 6. REFERENCES
- 1. D. W. Fountain letter to B. J. Dionne dated August 25, 1988, entitled "Semi-Annual 1.21 Report."
- 2. M. P. Mullins letter to C. E. Bowman dated August 10, 1988 entitled "Table 3 of Regulatory Guide 1.21 Report for January 1988 to June 1988."
- 3. R. B. Harvey letter to B. J. Dionne dated August 4, 1968, entitled "PNPS January-March 1988 and April-June 1988 Met Data Joint Frequency Distribution."
- 4. USNRC letter to Ralph G. Bird from Richard M. Nessman, dated October 28, 1987, entitled, "Pilgrim Nuclear Power Station Acceptance of the Offsite Dose Calculation Manual - Revision 1, updated to June 30, 1987 (TAC
#63012)."
- 5. Boston idison Company letter to USNRC from Ralph G. Bird, dated May 2, .
1988, entitled, "Response to NRC Questions on the P11gria ODCM (TAC
#63012)".
- 6. M. S. Strum letter to C. E. Bowman, dated August 16, 1988, entitled "Technical Review of .ne PNPS 00CM".
I 7. C. E. Bowman letter to J. Seery/R. N. Swanson, dated August 29, 1988,
. entitled, "PNPS Offsite Dose Calculation Manual - Final Revision 2".
- 8. "Pilgrim Station Unit 1 Appendix ! Evaluation," Submitted in Accordance with 10CFR50 Appendix I, April 1977.
I I . 1 1 I. 1 l 56 1 a
t
'7. APPENDICES .
ft . I I I I I - I . I I I I i I 1 - l1 > l , I 5' 4 i
l l APPENDIX A Neteorological Data from the 220 ft. Tower for January - June 1988 A-1 Delta Temperature from the 220 Ft. Tower A-1 January - June 1988 A-2 Hind Direction at the 33 Ft. Level from the 220 Ft. Tower A-2
# January - June 1988 i
A-3 Hind Direction at the 220 Ft. Level from the 220 Ft. Tower A-3 January - June 1988 A-4 Mind Speed at the 33 Ft. Level from the M 0 Ft. Tower Ao January - June 1988 ,' A-5 Mind Speed at the 220 Ft. Level from the 220 Ft. Tower A-5 January - June 1988 I I I I I I e 1
APPENDIX A-i Delta Temperature from the 220 f t. Tower for January - June 1988 January 15.0 I '
- 11.
- i 1 i l I 7.8 S.I
- 3,, _w J_ ! L i /- I I -5.8 f f I l lYI l FAI 1/01/78 l $AT 1/ft/ttj tt.f ' -
i i t , I !
! i i i ! I i i i l , t } l l 1 I1:.8! . . , l i ! l i ! l ! l i i i ! I i i lA t N
[ : - i ,
- i
' t i i A' i ij %/ - \} ' ,}i I '
(..' - l l_/ ( 1/ '
-1.t i 1 <
l t V l 8" ' l 1Yl I t i f i~! I jt;s :/2! '!! j rt'. 1/24/t! l Yg! t/st/ts[ht; t/se/tt j ;NJ 1/07/45 FR1 1/ft/Et SAT 1/iG/ttj I15.8
- 11. L. !--
l ' i i i l 1 I i i ! I I l l 1 l 1 i ! l l .. i i l ! ! ! I I I ! I l l l1 1 ! i YT MA: ' l : ! I I Ai i e.. - !A' l "'h 'N fi \ "< f: i * ' ( r .M i i 1,fi \; f~' { ' \. j--
' V l + I i !
- l i 5 *
- N l } YI l ;*
- -: t ' t ! j ' O'. /::/!!j'WI :/:2/t!]h!* :/1!<t!lTWJ 1/14/86 rRI 1/15/t! ' EAT /!c 't! j I=t.tl !.'s i l l . I i l i i i l ! I i ! l 11.!: ' '
i,l i
, i . f I i i i I i l l I I'I m ~'V
_ mA l%WV i
, i /V M i t !CAiS l ! I i
T i' i i - j i t i l l i l l ITt !Y: l I'5.8{ g- l SJs 1/17/t9jr: N 1/18/stlTu! 1/19/tt gin!: 1/2t/88 THe 1/21/88lFRI 1/22/8C . S AT 1.23/88l
! i i ! I l ' i } } l I l ! ! ! l l
1 11.8
' l I ! l ; I i r 1. l l l l l l l l l l ,
7.8 {I /\ _i 'm _m; ! i i l . I i_ i l : !
--I f e=== / ' 1 (A 2 t ' Al g \' _'! x P( 8 1 '
l"*'l7\t7, i . i
. ; iv; vi i x ./ . c .~ !Js 1/26/ttjPD% 1/2$'tf ,IJ! #
ll6 ff lk!I 1/27/ft IMJ I /ll 'If ERI 1/l%'t$ j II 1/I* #II St.t. i i l 11.8
! I I I 7.0- < ,
i 1.3.8 1'f i . Y
-5.3: ;IJs 1/31/f6 t
I T2 DELTA TEMPERRTURE (DEG. F) 220-53 A-1
APPENDIX A-1 l (continued) l Delta Temperature from the 220 Ft. Tower for January - June 1988 l l 1' February l st.t ' I i l 1 l I l l l l l i ! i l i *{ > ! ! M\l_ l i l I i I i l l I i ,
~
l
,;,i z ( t i i \;
W , i i in ! I i /\ ; i A l P TJ ; >
-M i ! %ip T t /. t ,,,,I l l l l I 'l I fl 1 l l lYl l TI =$.t j MON tit!/f! TUI 2/82/tt m!; 2/t1/tt TNJ 2/t4/t!
FR: 2/t5/86l SAT 2/86/tt l . Iit.t 9.2
,,1 i ! l . i i : i : I .i i ! IJV i , t l l ,3,, _ /1 4 U J\ i ;
i/ : T - u _,"i
.m i v, /W M ~ \ W 7' v/
y+ N' M ! i -(~ i j , ,
- i i i i vi i i i ; i l
2/i7/tf j k: A 1/f!/ttjTwt 2/f6/St ht: 2/tt/tt T *.i 2/II/ttlFA: 2/12/tt 5'T 2,'3 3/t! [ . 1ft.t5.8l 5.'N ,
- 7. 2
; i i !
M. % I ! I i ,i I iy t A i i I i ! I I A ( .L M4i/ V\ Vn
.,,l,,,l i t ! I ,m ' / ! ' \_/ % w/ i\ /: 1(f ' M
[,,,,,t , , , i i
. i : # ivi ,
i i. : i E j 5.4 2/;'Its j r!. . 1/:f/11lTs! 2/16/t! )h!: 2/:*/tt j ?<a 1/ttit! FF; 2/15/E3l5&* 1/22/t!l i 1 l ! l ! i j t j ! I i i l l l t 7.2l - g ,,, r
- - ' 6 I l l f 8 l 1 ! l ! t /k i ; !,i /\. lA i M \/\ l , f ~! f i i !
LrT - x ' f Y \ i ). %"i\ T: Ti
) % i /! l l\ p -5.t . . . i i" ' i !\/! i N/ '
SUN 2/2;/88 P:% 2/22/01 Tut 2/23/08 WE: t/24/tt THU 2/25/01 FA: 2/26/83 SRt 2/27/86 1 l l I'1.8l i
.) > -
l 7 \. ; I .; ',a-. t e
,m r\ 4j 5.N 2/21/tt *:N 2/28/ttj i
l T2 DELTA TEMPERATURE (DEG. F) 220-33 l A-2
i APPENDIX A-1 (continued) Delta Temperature from the 220 Ft. Tower for January - June 1988 March [hI
'^
I i l I l i l i l i
- -- ~
l i l i 2.I ~
.,,, %ir-% l #- Tt ~ #' \II '"! l 7 i <
Pt l l l l l l l
~
FAI 3/04/88 TUE 3/01/88 WED 3/f2/88 THU 3/03/08 SRT 3/05/08
'l I i i ! ' I l l l I l l l l l l l I %l l aii i i , i i a i i ,
ail I.:,::,n : - w ,irw w- i- tm
~
IYt i I I iV1 i Il l l' l fYi lYi - I t ! I I i I t l { l i l l l t i l l l 1 SUN 3/06/tt NN 3/07/St TUE 3/08/88 WED 3/f9/88 THW 3/10/08 FRI 3/11/88 SRT 3/12/92 . l ! l I I I I l l I I 'l' l I l i } I I I l 1 ! l l l ! ! A_ A l l l l I *llP= I I i
=N N i r N #
l i i !YI I7 I i I Vi
/> ' (y%!A " l lVl } l 1 1 I i I l i i l l l l l l l } l l ls ** SUA3/13/60 MON 3/14/88 TUE 3/15/86 WED 3/16/06 THU 3/17/88 FR! 3/10/06 SAT 3/10/88 . ' I ' } I I I l I l l l l l I l I I ! l 1 l l 2.0 ' Al '
AW%l I W w~L i xxiF i\ l ; i 11" l C /: 4.0 I i l IV I IYl lW l lTI l I i I I I l I I l I l l l l l I i l I g g , gS0%
- l. 3/21/86 RON 3/21/88 TUE 3/22/88 ,NED 3/23/09 TWU 3/24/8R FR3 3/25/08 SRT 3/26/88 I I ) l t I l I I l l l l l l ]
i i i i i mil . w' 1MMl l Pm [ l! FTY _' I I~t ITI lVi V! I i i i i i ! I i i ! .) l l Ssh 3/27/88 M4 3/28/88- Tut 3/29/02 WID 3/38/88 THU 3/31/88 dI2 DELTR TEMPERATURE (DEG. F) 220-33 A-3
APPENDIX A-1 } (continued) l l r Delta Temprature from the 220 Ft. ' Tower for January - June 1988 April ' 18.8 , 48 r( j
.t.g \ }V "%, ) -4.0 FA! 4/01/08 SAT 4/82/08 , i ~
o , i i i , A ,! M l, ,
~**' 13 .m l 8 t
m i l un w I i i i 1 m , r-i 'i i i i : iii i i v'i I t I i i iI i I i i i l 'g
'' tuk 4/93/88 MON 4/ft/88 TUI 4/05/85 WED 4/96/08 THU 4/07/88 FRI 4/08/88 SAT 4/09/88 l i l l l
I i i l I l I 4 . i i i
. ' m, im,~
2 , ,~ , ,1 ,, g"I' ' l l j l jVl j" ~ Nf - "
"l l
1 I ii i i e i i i i I i
~
I Sun 4/10/86 M0h 4/11/8l TUE 4/12/88 , WED 4/13/88 lTHU 4/14/08 FR1 4/15/04 SAT 4/16/86 l l l l 1 w\
! I i 4 ! i I i 1 l l l l > , , i n ,
u , , i i :
-- -L N~~L Y M JQt I# sni ' '* # '
i
~ %ir !Yl l'l I Yl l 'I] I I l l l l l l I l I l l ? , Sun 4/17/88 po4 ellette TUE 4/19/88 WIC 4/20/88 TMU 4/21/08 FAI 4/22/08 SAT 4/23/86 j 1. I i l , ,
42s 1_ \ , l Pr x 4 \ s.
'?f%f I/~
- Ny
/ ~
1.9 - 3l ym' - f /' \ ,l f .
-4.0 * '' TMU 4/20/08 SAT 4/S8/88 S 4/24/88 mei F .T ; Tut 4/t4/06 NED 4/27/88 rRI 4/29/88 .2 220 Fy URE (DEG. F)
] A-4 ,
i APPENDIX A-1 (continued) Delt5 Temperature from the 220 Ft. Tower for January - June 1988 May l l l l l l ! l l } l i
} l 4.8 m l l I t I i i i I ( ,M I w
kIAn' -- i NI[7 [ '
\b \ .[
Tl V " " l { l Vl lVi ' I I i i i i t i l i l SUN 5/01/88 M0h 5/02/66 Tut 5/f3/88 h!D 5/84/88 THU 5/85/88 FAI 5/86/88 SAT 5/f7/8f 10.8 t 1 l i n i i l l l l l l l l l l I A
~
4 i i i tr '\ ! 1 i i i _t. i Al i . I l'_
~* m! / Nt Wm V ! vi \ / \l AI J - -a.8 iw tv i i i l i I v " .y Afri *10.8 l SUN 5/06/86 M0h 5/09/85 Tut 5/18/88 WID 5/11/88 THU 5/12/88 fAl 5/13/86 5AT 5/14/88 I J i l i i l i t I i i i i I l I l i , _l I , I i l _ _ % W\l/
W
~ ( l f\% / " TN i f i% l i tw i r' ! i vi ! i i ~i .'-6.8, I i t ! l I t i i l l l l l I
j Su% 5/t5/8L MD% 5/16/81 Tut 5/17/81lWED 5/18/88 THU 5/19/06 FAI $/28/81 1RT 5/21/8t-
. 6 i i l l I l i I l l l I Ai l l i k i I_ ./\ l ! Al ! IA i i l l I A /V l _ .i !
W / KiV \l/ hH ! / ~ \! r '\ P [ ';' I i'- !Yi iv i i V Yi v t l l 1 I I I I l 1 l l l l l lSUN 5/22/06 M0h 5/23/88 TUI 5/24/89 WED 5/25/86 THW 5/26/88 FR1 5/27/88 SET 5/28/86 I 1 , i i , i 1
' ,' ,i .r~ i , ; .~
i / L i , ,~% li' i l '' l ' W 1 i i i l l f 5,0% 5/21/8F MO% 5/38/86 Tut 5/31/8F DT2 220 FT DELTR TEMPERRTURE (DEG. F)
, A-5 L
i APPENDIX A-1 (continued) Delta Temperature from the 220 Ft. Tower for Janusry - June 1988 l 3 June I ! l . i l l l l I I t l l l l t I t t i
~ T t im_ l '[\w i i m I i # 1 t
5 IV~ i ~l Wfi Wf V
-18.8 NED 6/01/83 THU 4/02/86 FR! 4/SS/EE SAT 4/04/tf (
i15.9 ' ' ff.I' ' ' '
,,,{ l i !
t ?m I i l l l 32 1 i i IJ '/ ' T' _I _/\' /
\ J!
i HA ' ' I t/\ i I I
'ci v__ v v' w w .w i .
- : i l i j7 i t SLk 6/f5/48 M04 6/8066 Tut 6/f7/06 dtD 6/08/84 THU 4/99/$$ FR) 6/ll/tt SRT 6/11/88 "i,
18.9
, , , i , , ,
l i i I I , i , i i 5.0 L.' I !. t i 'A i i ts ' i i i l I ' I i ! i I /N _._ I [ TI [ kl A4 I I __ I - Nl i-W [f-~LV' i i ' ' ' *
'V I I l i AV i i I fW t l M
l l l
%/!
l I
,l1$Ln 6/12/6t M:N 6/llitt Tut 6'14/56 WID 6/15/88 Thu 6/16/88 FRI 6/87/68- SAT 6/16/66 g l l. r i ! i I l i t i i i ! l l l } l l I l I i ! l E ' ! I I I I ! I b 1 l l l l l l- i I i l
[ tr v N E i : i. I \i l I i IAi : i i l ( ,~' tU ~ U IW IW ' I Y \M M E i 1 . i i l ! I l l l 1 l l "I l l I l SLA 6/tt/tl PDA 6/2f/tt Tut 6/21/t8 WID 4/22/83 TNU 4/23/tt F F.! 6/24/$t $41 6/25/38
! I ' I l i l l l l } l l * " i i i l i , i l i I ! i 8.5 -
l',ft . l 6 ! t l f { i i l v' Iv%i
'W m i W
i lJ/
%WI l/ ,,,,i i i i ; I I i ; I i i l sun 6/24/sr;Moh 6/27/es tut 6/2s/c WID 6/p/se TwU s/se/s8 l' 2 220 FT DELTA TEMPERATURE (DEG. F)
A-6
i APPENDIX A-2 Hind Direction at 33 Ft. Level from the 220 Ft. Tower for January - June 1988 January Sir 1 20t l l _y MN i g
~
214 , l l l l l 144 l I I l i e 12 1 1 l l 1 I e
$RT t/ft/ttl i'",
FA: t/01/tt . l . i : ( k ai!xesi : i l N i W - l Vl ' I"l 1 l I i ) { i ! i Cl l;-
; rN - , i i
i i ! i ; ;
/ i T - ' t i i .h ,
l : ' l 7 '
! l l 1 l l l 1 l 1 I l hi '
l
! . '. :/d!/ttje:S 1/f e 'It T.! l/ff/tflht; 1/ft/ff fa. 1/87/3t FRi 1/l?ft!l$1' t/ fast!l Set r l l . . , j j l p , qN,j g ; ; . ; j j ""i_ c www~ l' "
i oi w~~ m,~.: 144{ i{ l~ ,
]} l l l l 8 : l i] I ' t , IN i l I i I I ! l i i i
[ i l i i ! t l l] ! I t I l I , l
; t . *. *:filt *;% D:;r!! l Tst 14:I/!? m!; 1/tt/f t l T6 t/14/St 'El 1/1!/ttl15* 1':t*!!j '6f ~
l l _f ' l + i ! Ma L dj i<l t _j
*"'i'% if VVv i I fi , i i i : i 7 / WI 144; in) i i i <
i iv i i
! , i 8
t I ! i : i i t 1 I i l
?!
i e e i
- l ! t i i i l 4 i i ( l t A { ! ;
, $ .'. :t:?/tt ( G% 1/tt/t! TUI 1/19/t6ght: t/2f/tt ,1w; l/21/14lFR1 1/!lt/tt l s' 1/21'll ,
IS6t*"i ! ! i
- I u 1 _' hz i_ _ i 2 M ,,Ml !
l i ' l
, ,n a ' i m- 1 N Fi l I t I t i !11 L N' .V ' 'T , i ? I i i i : U{ [- 1 I ,[; ' ',}vm i 8
i ! I I l I i {l[:
, i . .
i i i i i i i ; i fr i , i . .
! .t. : *24/11 l C% 1/21/12 { T'.! t/2t/S! g=!: 1/27/01 ,TMs 1/2t/36 ' f.1 1/2 8.'I t !8' :/!.t!j 36f I^
2tt'
, 2:6 M1 A' g , ~
I t 144 72 , t i ; l'.* :/3:/!! l xD4 3S/22C FT W.IND DIRECT!DN (DEG)
! A-7
4 1 1 APPENDIX A-2 I (continued) . 1 Hind Direction at 33 Ft. Level from the 220 Ft. Tower for January - June 1988 February ser
' ^
i It! ' -- w L- i1 i i I t ,j i l l l ' 'l I~, 3 4 , ,' i
- I + ! i l i i /W l i f I i i i l i i i ! t ! I la[ l I i l l I l l
\ ;
- l l t J.r - 6' f l lQ f l 1 l l l l l MLA 2/f:/ft , TWL 2/02/61 h!O 2/01/06 T A' 2/f s/tt , FR1 2/05/tf SET 2/ta/tt 6 I '6f iF M i i
/ 'j * '
i f (! i i ! ! 3 m I ' _i _I l 2:(l{ 1 iW I E 'l i !/ l ! i l ,i l li' l 1
-m l ,
[ /- - i i t i ; l i ! i ![ l I l
/ i i W i -- N i 'l ! i l r ,,i : 1 : W. - / , ! Ih I t 6 l I i i i i t i
t, 38f
' j $,N 2/f 7/L? j ': A tit!/t1lTs! 2/ft/ftlb!: t/tt/C! TN; 2/11/83 FAI 2/12/26l$Et 2/13/84j' W
m) 2t't i ' N' : Th;- # V \- t i
* * 'l I : t t i m/ '
I WA i '
- i w ,
e t i , , , . t ' { '[ l t t 1 ': , fI i i t .l i i ' l r tw l 5.N 1 < ! ' / L ! l r4 *. 2/1Eettjis! Zitt/L1lht; 2/17/11lirv 2/10/61 g FF; 2/il/EllS&* 2/2:Jttl 36f l' y' l l
;m 6
I u -- _ i 2 l 4" Y I f/
/
I
'M.Mi 17 i YT' i
l/' t[G i I i I ir~ ' , If d I i l 1 , I : ); } i 'l l' t
-) _
1 i i l 1 4 t i ! t i I ii i l i l /t i N' Bl [ san 2/2:/tt{'T. 2/22/11 ,TVI 2/21/82 WL; 2/2a/22 TMJ 2/25/tf F F. : 2/24/88 ; BET 2/27/tt Hg -w
! {
Ist
,jsM r',
i i 1 ll'*,*, tea
% ' [l9 i i i i
- l t
I,j ! \ 2/2t't! j a0% 2/26/21 i
$ 34 33/220 FT WIND DIRECTION (DEG) a , A-8 l 6
1 APPENDIX A-2 (continued) Hind Direction at 33 Ft. Level from the 220 Ft. Tower for January - Jtne 1988 March 368 - ggg j l lM ! MI l I tie
...i i l ! M V i i i l l J l I 72 I I I I\ M I '
l , i i fut 3/01/88 i i WED 3/02/8e L TWV 3/03/08 W i 1 i FAI 3/84/88l$4T 3/05/88 f I l I ! I l I l MI I
'\I j L ! _A l/ I gg h%M' '
I I l_ _I _ fi / d I i } l 'l iM I i i i : i i/ # 'Ti i ! i i 11t l,,,,, +! i ' 1 1 1 , ! Vt i ii i i p' I g i ! ' I I ! ! / I l l l l fl L l l l 'l l l SJA 3/06/88 Ph 3/97/88 TLt 1/88/8% ktD 3/09/88 THU 3/10/88 FA! 3/11/88 SAT 3/12/88 I380-288 f ' ! l ! ! I- ^i iI "i Il ~ YkmM
,,, s A) i i t i I L ! ! i g, YI - I ! I I I [If l l l !/ , , w,l ~
W, l , . n , . , , ,,
, Ir # M ',' i I I' i W '
I ! I f i 504 3/11/86 804 3/14/86 TWE 3/15/88 EZ: 3/16/t8 THg 3/17/88 FRI 3/10/86 'SRT 3/19/86 *
- 368 IS' O ' ' ! ,,[N I i t i i i ! T l_ > ' --' i j - _iw i i '
i ! I i i i l 1 I i /N' Ll i i C l t
' ~
i I i 1 i i { t /= I i j I t I f,,, t i t i i t i I I 'l i i l ?1 I I l l { 8 Suk 3/28/88 m;h 3/21/85 l fut 3/22/88 WED 3/23/88 TNU 3/24/08 FAI 3/25/88 SAT 3/26/88 368
! k .W -P i 1 3I i I i ![l _ td 'I ! I - 1 i AAl i # I IC .
l g, ! ! I i i l I ! r Ei/ 1 / - ii t i i Fi IV' i i ift I,,, i ! I i i
! V i l' i ! ! J!
l SJh 3/27/88 RCh 3/28/06 Tut 3/29/88 WID 3/30/08 TNU 3/31/08 D4 33/220 FT WIND DIRECTION (DEG)
, A-9 i
n
APPENDIX A-2 (continueO l-I- Hind Direction at 33 Ft. Level from the 220 f t. Tower for January - June 1988 Acril
* ~/ I Ui i 3 ,, i P' ,
W i 144 12 g Yib Il FAI 4/81/88 SRT 4/82/88,
'{
l l I I I i lJ l 1 1 l U l -l
,,, , I t J _,W'T I I i i j MTI '
t 8 ! I I [g , ! t i I !
, ~ n , ,: , , , , , , . ~
suh 4/as/,e t no* 4/84/88 tut 4/85i.B ute 4/Os/98 twu 4/87/88 [,a!,4/88/e8. sat 4/89/88 i i' I I I i i j l l i i RI ~' t i i 1 i ) l 1 ' i
'214 ' C ! I I T,_yR )
A 7, I i . u A _ . /t l WWI'l t l' l IR i T l g YN 4/18/tB MD% 4'11/88 'UE 4/12/88 utu 4/13/88 TWV all4/80 FRI 4/15/88 SAT 4/16/88
,J68 ,,g M' I i 1 ! Mi !MM I PN.E l# TVi J l g ,,, P I i L ' . MF i i 6/. I I NA .l i
A 1 ., I I 3 I I I I I/Y l ! 1] / I I i i i i / I I i u H f . I i i t I i r, j j j i y g , i Su% 4/17/88 M3h 4/18/88 fut 4/19/88 NED 4/28/88 THU 4/21/88 FRI 4/22/88 SAT 4/23/88 bi I N_ l I l l 1 l J l I (,,,, li I '_l I
~ ' m _ rwt = ' > i (* ,,, W i
( b vm d ' i f- t) l,i ' ' Mah 4/25/88 i
! I l
ht0 4/27/88 THW 4/28/08 Fit! 4/29/08 Wi SAT 4/38/88 i SV4 4/24/08 fut 4/26/88 i . j4 33/220 FT WIND DIRECTIDN (DEG) 1 A-10 l I i
' APPENDIX A-2 (continued)
Hind Direction at 33 Ft. Level from the 220.Ft. Tower for January - June 1988 May i sar-l i i l l f f } l i
" fle *~l M
I t i i ! l l V7 w I l I I 1 I l ! I I _l l' % _ w w
; i i i i e i n - -
s
,1 l / fV i i ! (W l I . fI \( Wt SUN 5/t1/03 Moh 5/ft/88 Tut 5/83/88 WED 5/64/80 ;THU 5/85/88 FRI 5/04/80 SRT 5/07/88 -
I l l l l l 6 1 i l l In _; i l l l l l l l l l /9i l l l i sdl[ l #D l l u (* I i i/ 5 ; j" %r i Vi i i l' 4 I i t / Li/ 1% t ! ! i i i I ( I I It'i t i i t i i l i I t i l /l i #1 ! Suh 5/98/88 moh 5/89/86 TUI 5/10/88 WID 5/11/88 THU 5/12/88 FR1 5/13/88 54T,,5/14/88 l t I i l f I l l I l } l I l l I I[ [1l 1 I 1 I i 1 i I ! i I I I . 1 I WA kM IMAA I I I $ i i 2 AW ' W: L 34, n . V ', l i i ! i i ,< L fi) (' lW I (_ W W i t i 4 4 i- ,~l Y l L/ I I I I Sub 5/ll/f t i M0h 5/le/tt Tut $/17/06 WID 5/18/86 THU 5/19/88 FR1 5/20/88 Sai 5/21/08 340-
' ' - '^ ! k 1 214 208 - " " ,, ! l/i ' i ! i . i V !
i l ,9g l [ ' l I I I I l l I l s , i i !
' i i i I i l % i e i i i I Suh 5/tt/tt MDh 5/23/03 Tet 5/24/88 WIC 5/25/85 THU 5/26/88 Fa! 5/27/88 Sat 5/28/88 IS40 'Mf l
I I I I l/ ! MI Ir~/\; I I / ! I l
; / e'i : i l,7, -
fi i ! I I ' i ;
, A / . 1 i i i Q i LWh S/29/88 MDb 5/38/88 Tut 5/31/88 I ,J4 33/220 FT WIND DIRECTIDN (DEG)
A-11 I i 3
l APPENDIX A-2 (continued) L Hind Direction at 33 Ft. Level from the 220 Ft. Tower for January - June 1988
. June 361 288 l ! l i i f f ' { k' l i W N f i 214 )
g,, I l 'l
/ '
I N l l 3 I I li V ' 1\ la - I i ; i I i "! V 1 l
,lNED 6/81/86 I 6/02/88 FRI 4/83/48 SAT 4/84/05 Sif ^ ' ! A 2tt Ri I" l l f i l ;W ' ] Yl l Q
(,,, i 4 i ,
' I i t _:
f 1 i i/ i i /: i
'J i I i ' / I F1 J/V e TI I ri i i i [ l l l i" I i l I l @ ('t l lr; ;
S0% 6/85/86l MON 4/84/88 TLE 4/87/06 ht0 6/88/8t- TWU 6/89/88 FR1 6/10/68 S RT. 6/11/E8
- Sep E
28t " i W ; PM LM i (L =b ' _--g td _I _ I M Ig,4 I '
! I /t ! 5 '
I I l I kj i I[
, I / I I / i ! i t i I i I i Ni i / f ,, i f- i i ( t i i' I i i l i i 'l t l 'i !
I SUA e/12/86 mN 6/13/06 TWC 6/14/81 W t t' 6115/65 TWV 6/16/88 FRI 6/87/05 jSAT 6/1L/tl Sit, A Itti %
- _ WW I M' kM ! l- '/ M J t ,,, T/ '
i , 1 M i l 1 i i ! / I e i' [ ,, I V. t i ! f: i i i i i fl I i l E , t ! i ! ! l [ l l l l lD l /6 I I l l SW 4/19/tt P3% 6/28/20 TV! 4/21/88 h!O 6/22/86 TNU 6/23/88 FR1 6/24/88 laf e/25/tt l '*""~> t i t I i i i i i1 ;i Ii LiN i i i : ir in../ iAi M IJr iii i i / F l i 11 / I /i l' /' t r"
~
i i i /i i i IV! i i i 6 i i 'i j wi i , s3 ./2./8e .:= 6/2f/n , iwt .ile/n w!D 6,2./88 tNu ein e, I 804 33/220 FT WIND DIRECTIDN (DEG) A-12 t i
A APPENDIX A-3 Nind Direction at 220 Ft. l.evel from the 220 Ft. Tower for January - June 1988 J:nuary set { 298 I l. Ild M i l I' ' I i i 1 gg4 6 l l t i 72 l I ! ! l I e 1
; FAI t /01/88- SET t/ft/8f g l 112 '
l a ' I i - i L1 1 4 __ ' - 'W 6 l t N ij l I i5 ! 1 Vt ! ! Wri i l' l l 6 1 i . IV l u ,,,i m . i ; : i i I i i i i ' i ; i 7,t
/ % : i i t ; i i i ! m : i I ,' l 'l '
t i i i l i I I l 1 I i \,i 4 TWE 1/ f f ,' E t ht: 1/f./8L 3;f{(Js tvi!'4!jr;h lefa/t! TW t/07/tt FK! 1/ft/t![38,7 t /2Ut t lm I l I I Il m .L l A i l 1 l ,* f_*f,.- i ', I N'%' ' E '
' i i i ih N~
144 i i . , s==.\/ 1 ! n I t : : l 'i ! 4 i r t . i I , I i i i i c i i : i + ! I_.2,t i + i 1 . i i j i i i i i i t i ! t I i l t ;
- l f.\ : sit 't! ; *b art;/16l'C2_ triu3Igat: t/:3/31 T6 t/14/tt F A.! 1/11/16l387 1/:t/It l,3.,t ,,
i T_. - I .m m i i A; i Lo n i as ; i l 2:; w * :s . M i i : t t tr i M .\ Wi t
."~ r ,, c i i ,.
u L. n) , 1 i t' w _w't- , . ' ;
.'i l I s/~ ! ! I i l 1 I / : ,i i . 1 i_ 1 ni i q 3 , i i i i m . , , i l
g i ses p:7/tt , r:e. /:seerjigt ine/evjun pru 6 To uit/st , n t/2use ; sai s/zzist ' y 3.e i e i . * ' I t _ I _ _I L ,%' J A M- t : i I i ! vF y i t i 7') j w _ .y i
* .. i i i T,r v-l u9p ' W(- . i i i . ! i ,
f a~-.; i
, p g- ,
1 4 . i, i i f i 1
- _; i_ i
. M .,__ L' _. _.i. i ... - ~ .__.
i i i i i ri i i 4 I ser p.s io .u , .:s v2i n ; ni un o gn ,,2me 3 ..- uneme n: in ,it gi, ine/si ; i i i l ttir I ggs - N
- ,e. l- , ,
t
' 3.'s 1/31/ftj ?
L2 222 FT h'IND O!RECTION (DEG)
, A-u l
f
! APPENDIX A-3 (cont'qued)
Wind Direction at 220 ft. Level from the 220 Ft. Tower for January - June 1988 i February ser gggl \ I I I] $ l l l l W%' _ k Nl !) m 214 I , o __ t -'J i i i i I I ll l l' l' N g,,
; I I i i l
I l Mlb i ! i 7,
! I i ! l !
i P ll IH l l ! TUE t/t2/tt h!O 2/03/tt THU 2/84/88 FAI t/05/0! SAT 2/te/tt Il M:h 2/ft/Et W I / / a 4 i ! #I I N! l i I 6 A .I I I I 2M l ! 1
~
f] ' l ! ) i if ' ' ' t
/ /: i i t .
I i i ; ,1 ; i i i g,,,,, I C /, . :l i p-= =4 i i : . I I i l < i l Lt YI I l fN l I 4 l t l l { t l 6 5.!% t/t?,tt j r s 2/8t/ttl Tut t/06/tt ht t/tt/ttlThu 2/11/88 FAI 2/12/88j l47 t/IS/tt j,, _8 ' . l I j .
!A! l l) l , .l i l I It m l['!i '
I t I N t i i
- i t _J l Q t
4 1 t r i; pJ i i i i ( f-f l l I [ I 1 Am_ lJ [t /I j t i i J. i i i t t I ,l_5L% 2/t e rt! j r:'. l'15/ttlTV! 2/16/it h!: 2/17/01lT*. 2/16/tt F 8. ; 2/19/89l1*T 2/2 /61 , 3et l ' ! i i WA O'^ ^' i l iP' u~ L ' ". ' w _ _i ' r T1 1/ iri ;i l '28'{
! i . i . 1 i+i ; i t
i
; : ! IU i
i i i 1/ i E i i i ,
,ii i I /: ( i 'I j i / i ! I I i . t I i i 4 } l It i l i j fl i M SUA 2/21/81jP:A 2/22/84l Tut 2/21/tt [ ht: 2/24/tt Tiq t/25/08 FK! 2/26/09 , Sti 2/27/88 Set . . , , i i m' zM i - - *[iit i i : /; v '
I144
/t , 1 ,, h n , ,( 5,4 t/f t /t t ; *; A l !/26stl l l-l}2 220 FT WIND DIRECTIDN (DEG)
A-14 L t ~
APPENDIX A-3 (continued) Hind Direction at 220 Ft. Level from the 220 Ft. Tower for January - June 1988 March 3ar l i i ISS
! ! I X'sf" Y l ,,, ! , , , , i ,
72 i t I I b ^ I I , I i i i l l l l' l \_ h j j l Tut 3/81/88 h!D 3/82/88 TNif 3/83/89 FR1 3/04/08 SRT 3/85/88 348 til
;u- -f 1 i i i _
i i L/ i i t 7: 1 1 , fi *
' t i i if ~Wt I t { l i I fi
( ,,,,, ' ; - i i ! /' I i : I i I . , , I Vi I ! I l i l L/ ! { } l l l l l l 1 SWh 3/fs/88 M0h 3/87/88 Tut 3/86/88 WED 3/89/tt THW 3/18/88 FAI 3/11/88 ,3RT 3/12/88 348 l f ' I i ! i I k jJ D % / Usl } !)I _I
' A ' l i i ' 1 i W 214 'I , j t i 4 l l l j I g, i 1
gg l I i I i i ! )i ! I o l 1 [I I J W \ .V I I ! I L I I I FRI 3/18/88 I l I l SRT 3/19/86 q SWh 3/13/06 m:% 3/t4/81 TUE 3/15/ft htL 3/16/tt THW 3/37/86 , I,368
,, la! h dMW91 I i i i lj l ! ! I f l g
L
\/ i i I i 1 i i (( t i - 'd l j[ i i_t I g l'i i ! I I I ; i @fI ! ! ,W i ! W I i i i i r i ! I IV t i i I Wi i i I ! i I ' I ! l l 1 i l lV i l l l l l Sch 3/28/8f P;h 3/21/01 TLE 3/22/82 ht0 3/23/82 TNU 3/24/88 FR1 3/25/88 SBT 1/26/88 348
, i i ul i# , : 11 i i / i ! l l ,", i i/ mi! i i i ,Fi d i if y 's i i i t i : W) l/ 1 !/ . . t i i i i ! (: \ f'i j W I,,, i i i ; i i / i "r, i h!D 3/38/87
; tj i TNU 3/31/8t SUA 3/t7/tt MCA 3/28/8t 1WE 3/29/8t J2 220 FT WIND DIRECTIDN (DEG)
I I l A-15 i
- APPENDIX A-3 (continued)
Hind Direction at 220 Ft. Level from the 220 f t. Tower for January - June 1988 April
**' 1 M l lj v ) "' "3 tis V
i , PCT l r-
~
['j. N!
, o oi
- FA: 4/01/06 SA 4/02/88,
" 1 I i ) i i _M i l I 8 i l F i t i _Li v'I i l l J l l .
W t i i i j i l I i i i } l i l l i , i i , i i w mm% _ l Su% ,4 / 0 3 / l,t PCh 4/04/88 fut 4/85/86 WED 4/06/88 THU 4/97/,88 F A), 4/08/00, S4T 4/09/06
"" " N i . i i ! I l 1 i i I l < l ' " I- 1 i I i i l l i i' .['* ;
i i i i i ' I 7% _ 1 I i I . i 1 - _ i .m / l~ I , I w L# ." W1 P l I i Sus enim m mm tut enim wie em/. i rwu 4n4/.. rn ens /ei nr en./ .
't i_I i i i h i h! _ i es _l ps i !
l #" ,iL l_!_V I , i/ I 4 (',,./ ~T I I i 1
'[
i i i j i
~
W I I fi k g" i i I 4 i /i ' <
/1 I l i i ! t i i r, j ' . I i J: i su. Anim na enim ra 4mm tut o n.m ute emise l Twu 4nvei ,
ut emm ; l u, A, IAU! l ! I I I i i s "l a T. i i i_i n_ h m l V I,4, 4 n i I ' i
' L i r l'
w a - - ,
' J , i i i i fI I I WI Su% 4/24/80 m3 4/26/02 TUL 4/26/88 ut0 4/27/98 TNU 4/10/08 FAI 4/!9/I4 541 4/H/88 I .
l 12 220/220 FT WIND DIRECTIDN (DEG) A-16 ~! l
APPENDIX A-3 (continued) Hind Direction at 220 Ft. Level from the 220,Ft. Tower for January - June 1988 May 3rf '
! l i i 285 i i f i i l ,,, j I i i l iV F^t _I i i I i ! I f i I i1 ) U" W ! i l ,,,,, I W f I I I l.I! Il ' %i _!
i J Y"\r, T - N' i fi i iVV vs su= sieilu Mes siel/ei tut sin /se ut0 s/s.in twu Siasin rai si nion g sai sis 7enl a ,"'I i i i ' i i i i i : i ji i q f : i 1
! i i wI I i I i _ _ if '
t I-____ - _ w / i i i, 1,,,,,, 1 i !/ t W W# Ni 1 /> ! !
! /
i !7 i i i i i i i ff I I /- I Wi i i 1 ' I t i fi j i L/" ; ~ suu s/s /se m sis +/n wtc s/siese twu siitene l "I fut siis/st ran siis/se sat sei ins
' ,I i i i i ( ,
r i i ! I i ! r i ti
# i i ii iJ '
1 i t i ! ! 't il [ l '"' r7 wW/
- i i i
t , r x , i i i i I , / r
./ \J w f Vlr If
["' Sif i Su% 1/15/8f MO% 5/te/6L i J s7 fu! 5/17/tt hsiv ht0 5/11/88 THU 5i19/IB i FR1 5/20/06 r,- Sat 5/21/08 i i
~
I,288,, A i t~..~4 nA i> N / -Si _ a ' -
~I ~ /
j! _!>. t I i ! i i n fl J j l l l rgfi l l i , IF i i i i l i i i a '. I i i i i l Su% 5/22/06 MD% 5/23/98 fut 5/24/06 ht0 5/25/80 Twu 5/26/08 FAI 5/27/88 SAT 5/2t/88 I f I I I I l l/ %
/ w i I y 1 we; i, l,n,, 'III I I IF I , Ji i ! I i lun litteet MD= 5,30/38 Tut s/31/88 j l2 220/220 FT WIND DIRECTION (DEG)
A-17 e i
I APPENDIX A-3 (continued) I Hind Direction at 220 Ft. Level from the 220 Ft. Tower for January - June 1988 June I i l lj i l I it' [,' I M i _ # 1 l 1 V l l
/ i j {
f
~
I /l M A b' j j L-vl I vi v i NED 6/81/88 THU.6/82/68 FRI 6/83/88 SET , 4/f 4/Of , 5 l_t I
/ 6 e 1 94i i _
I V 1 NI ( N7 l l 1 I i t l ' (_V i A > {' f
, i i i i i t t i t ! I i /l ! i i i t i I I F r M I l if \ /'
i i , i I" } l tS l 1 [{ M / D ifI i SLk 6/05/tt MON e/06/t8 fut 6/f5/88 wt0 6/88/88 THW 6/09/88 FRI 6/10/88 SRT 4/11/88 2a' I fj l 1 AI l l l l l l l I Y l I t' WM \/ W i__&&'_ LI_ __ l l 4
; 1 i[1 I i 1.
i i / ! i i i ! ! I E i 1 if t i / i I i i : i i I T i 6i l ',' t i i SWh 6/12/88 i r MOA 4/13/6L i t i , TUI 6/14/88 i i htD 6/15/88 i , TWV 6/16/86 j FR1 6/17/88
) ,
L ri laf 6/1t/88 l l 1 I l i l I/ I I l l l lm d D l l l I i ! l,,, A I L_' ' - mi ad 1 i- I ~' ! :_ l) f I l t i 4 1 /l l ! l E l Y IV I,if l
, i i i i fi i t i Il tr's i:
I i ! I t t I f l I lM / l ii SW4 6/16/88 MON 6/ft/tt TV! 6/21/89 htL 6/22/ft TWJ 6/23/88 FRI 6/24/08 Sai 6/20/82 l t i i i I i i 1 j l f I l o s i l I t,-ns s J *
> pu ! ](s ~i ! t i i / F6 i F T i I,,,,, i I t/ . l' i I . /- n i . ; i I i 1 1_I J ,
I i j sun 6/24/er nos 6/2?/er Tut eils/ss ute erlo/es Twu 6/ss/8e lu2 220/220 FT WIND DIRECTION (DEG) A-is J
,s
APPENDIX A-4 Wind Speed at 33 Ft. Levei from the 220 ft. Tower f,or January - June 1988 January I' n r.' '_, I i i ! t t _=f \ *# [ht_ i I l 't W. I I l i l
.I
[ l FR! t/01/8& SET t/82/41 g [ !!.I
'3,,i I , 8 l t I ! i ! l i l I L
{ l { ). ' 4 i l
. i .
4 iI W A h .I 2 vA i i NV ( i i i l [,,;.1 v w v,' W i%
+
i . ,w i 'i /! i - - 6 / %fV i - i P 3,,i i
. i I
i t i i 1 i i s. f, #
. i : i i
fi 1 . t e'. < tint j =.:n 1/t6/!! g Ivt 1/f5/tt h!; t/et/et , Twv 1/e7/6L FAI t/st/6e 65 * / t. 6 4 t 15.f. . 12
' ' ^ '
t,'.t , i : . I t I h !,/ v ! M . I u! i '
, !. i n .W V i i N - m J \' IV r -ss LN N /~t '
N n i i ! i vwv i W i - - i . , l , ! i i i : i i i i i l "dj ec,:nt.: ; *:s / :nt ; st seit/f t , =t: t/::/ , w. /ts/t l r r.: t/:t/stjtt' t wet l tvi l i t 15.t I '
+ l i 1 ! l ! I i l 1 i ' i t
112.2{ A I i ! ! i i i i t i i i ! i i ! ! l / k .l A' ai N f A A'. li n AM I l [! {\/ d i l WPW~ V 4 < iV \f(i/YVT 'i iN _ i h
) i ' > l ? ?? l l t Pl V l '
l 3.% 1.'t ?'il l r0% 1/it/It g7.t 1/15/08 WID 1/28/ft TWV t/21/8f FR1 1/22/0fj$8? I/21/8t , 128'r12
- t - '
. . : . i i , i i i i i i * ,1 i I i . i : I I l I i } l ! l I p/ M /
g 9/M'M4! l {vs, i I il g ! l [. ! l , , , y i i , 4M F.g/w i i . M- l t i i i j i i i i l' t I 'l t i ' 3.* 1e le 't? j *:% 1 <2! '!! Tc! Ftitt mt; I/27/$f fwi 1/28/31 'A! l/25/3t 18' l '3 i .'i t Iil.f If ' I
*9.t** 'r \1' m, j y v g- s ..s . . .
i 1. i i i l I*4 5.% 1/31/ffl ha 33/222 T h.'ND SPEED (MILES /HR) A-19 I
-..g,
APPENDIX A-4 (continued) . Hind Speed at 33 Ft. Level from the 220 Ft. Tower for January - June 1988 February 2t.2l > I ! i l 1 i I I i ! I l-14.t i i I 3,,,I ! l l 1 ' Il h! I i l i t i I . l I t
^ '
3
, *}ti i ivt !% gA.
i a . Ih A3 < f: I .t i } l 1 i ! 'Mi l l l l V I IVl r0% lett/tt ; Tot 2/f2/tt k!D 2/ft/97 Twi' 2/94/tt ,FR1 2/ft/tt $87 2/f:/ttj tt t i i ! '
'l i i t i ! ,
f I !
] I i t t I . . I i I ! ' i l ! I I l l l , [ ik I i I
- l
E i. . 1 i e i ! i l / the i ! .
f N ' ['? ' V 1 . A -h ' AM 'l \ ' . i i
!t 't . w 'i i i wi i . 1 i ; i i ye ! ,
i
j$.4 2/t?/ftj";% 2/t!.'It j T.! 2/fl/ttlht: 2/tt/t!lTwJ 2/11/3t 1/ t ! 'I t '
FE! 2/12/88l58 t i l j
- l ! ! l ! l 1 8 l l l l l i l 5.16.8 ' '
} ',( 4 i ! ,A' l i l i l 1 I I ! l l ,1 l l I i /V\ ' ' : LI I*,**',idNM i l l'\ i 1 l I l i N '_ m% f v \g i ! Aw V N m f i , , .
iv i t : N %J i , i . i i l 3. A 2/;4/t!jr;\ 2/:!/fLji.E !/:ttflk!; 2/ T/tt / f.; 2/It/87 FE: 2/tt/tt j $e 21 '!! ; I 2t.t ,t i i l . i l 1 i I I i e i i I x ! w .fi)/\ g i i 8
! I I t i ! ! I !
- (
l !
%i V i V 'T t / '
- aj l***'i/ f -
! ! : I : ' N f/
v l T m J 'A. ' i 5 i M' M\
il 3;A 2/21/t1lP:A 2/22/81jf.! 2/23/8I . i i i j i i L /WV iv ; v .ihv i ht: t/24/ItlT*J 2/21/88 FE! g 2'/2e/tt j lET 2/27/61j 28.8 le'8 , , , , ,
I12.fj ' l 8.0
jPD\ MTN W,W ' ~ ,j g
SA 2/2t't!jP.'A !/26/t!j I
<4 35/220 PT WIND SPEED (MILES /HR)
A-20
?
I
t I APPENDIX A-4 (continued) Hind Speed at 33 Ft. Level from the 220 Ft. Tower for January - June 1988 March 3 , I I I I i I !I i i I [ I l lA . Al I I i
i_ lem F V \1 1 n - / ',
1 A' !. M i i l 't l NM / h f l l ' \/ '
, ';l t i i i i i I i F IV: I 'i j TWE 3/fi/88 FAI 3/04/80 SAT 3/05/8f htD 3/92/86 [ TNV 3/83/06 i i i I'IiLi l i I I 6 I i l { i l l l l l '
I
- 8 i_J t i i . i At i A i iN i 6 4/ b/\ /'; N Y\ /wA I/ \ M N/s i'A'M L i 2A
('ll ' uv; Y l ! I t i :" j i i kI v" i I' l i t l
\FY } l l I
l l
) _ i P. ' T 'l t Sun Stft/tt pih 3/f7/06 TWE 3/08/86 k!D 3/CS/88 Twa 3/10/38 FRI 3/st/sg sai 3/12/86 'I i t 1 I i A' . l I ! I 5 I '
d l l I I I i i i i /TM 4 : I I ,
.I I i
((ll in t : I Jew / I il I - ! ! ! I_I _ M J f%
,,, W wi/ iV' -
t\lrbsl#'Y % F VVi ( ,fvN J '
'N " '~, i i , ,V I i i i i "i i ~ij5 i i SW= 3nsiet n:= Sna/st Twu an7,si
["I - fut ans/si l wto Sno t rn: Insiss-sat an5/ei l .. o , . , i , , . i , , m., , , , , , i 41 % i a . W: i i in: fi F%; il 'f'9 l' '' iA/ I . W i 7N i /7 IV it /
/
if v i i , I i i N ' /i j - i i i N
! I/
i \ ;f i I 4 l t i i i I 7i l l I NV. I 'l I I I I** Sun 3/lf/06 RL= 3/21/88 Tut 3/22/05 WED 3/23/09 TMW 3/24/98 FAI 3/2F/IB SAT 3/26/06 k . . i i ! , , i t i i i (,l - t i.i ! i_i i i : i i i i i\/ hW g \: x i 4 i i i i ! 4 i 'l f } 7*t i I'n l l l I l 1 t i i i l l i 6 i l l I , l i
' ) Su 3/27/8t l 50m 3/28/05 TWI 3/49/89 htD 3/3f/tt Twg 3/31/88 4 33/220 FT WIND SPEED (MILES /HR)
A-21 1
~ APPENDIX A-4 (continued)
Hind Speed at 33 Ft. Level from the 220 Ft. Tower for January - June 1988 April H.3 , 14.5 12.0 t 4.5 A. m [ ' bb k FMI 4/91/88 3AT 4/92/p6 l j i f l l t l l ll l l
, , , i i < l i n l:'; iM#v 'nu , , . , m ruri-~r w n*
we r \ j _ ,,g i y u , i ! i j ' yl~ 9 I ' i Suk 4/03/86 ,M 04 4/94/88 Tut 4/85/08 ut0 4/96/88 TNu 4/97/98 FRI 4/98/88 $AT 4/99/88
'0. 0 .
I I I ! I l l l l l L.! .J /'\ t I I I ' l l \ t I ~ f \W% M ll \
~>\ in >
1- t V ' _ . g_w /eM i,*,, 'I l l i !
" W(/ l lM l l Sun 4/18/88 i M04 4/11/86 fut 4/12/88 NED 4/13/08 TNV 4/14/83 FAI 4/ll/BW SAT 4/le d " i i 1 i i I I ) i ! 1 !
I I c j l l l 4 I 1 l l l w m , n m . .v x . rN nf NvN%
,**' i , / w\ i v sF N 1 A
[ i i i ! ! I ~i V l I ~ i -- 6' Syk 4/l?/8g men erl0/88 tut 4/19/88 WED 4428/08 THU 4/21/08 FAI 4/22/88 541 4/23/06 l I ' l I I .L ' l l I a Ww W m A 'A t .l_ l l'4.eM-y IA,
" ~/ < 1 NL . C \. n A' 7f y y , --
v; y
; sv. 4, 4 /u =0- 4m/ujivt er:4/n .to 4/rrin tus erri m lrni 4/r in i41 4/w/88 I .
I
!S4 33/220 FT WIND SPEED (MILES /HR)
A-22 i l : i
- APPENDIX A-4 (continued) i I Wind Speed at 33 Ft. Level from the 220 Ft,. Tower for January - June 1988
,, M4Y I i7 i ;; i i i i i l l X l l i t i,J b si 1 1 I I i . I / ,1 1 t i #i l TW LJN /V NI ! l .# IW
_ Ri / I ! i \/ (f il L i iN 'l i ,
r T i v~ i i i l t 'i T vi iw i V 'p n i/eit : m imm ivt i m /.. .te it../.. in it.s/.. r: i m /.. .Ar imm 5
a i i I i i i i ! i e i i i I ; l 'i t i i i t l 4 i i is i N, . { #.M s, it /\j : i i : i i
)
r,V i /\i ! Tr/Vt M/vv4 i i H NIv i
% i 1wn i
i I I , t j l l l l l f j l l W Su% 5/ft/88 M0h 5/09/68 Tut S/18/60 htD 5/11/88 Twu 5/12/06 FAI 5/13/88 SAT 5/14/88 a- l i . . i i i I i i l I ! I i i l i l l I A' l I I i l i t i I , u I i
/ 1\_ L iA - 2li JM' '".~ M M L AlW , r uv W - ivi , , i i' ivvp7 A
[ *,lI/v 5UN S/15/86 R04 L/16/88 tut $/1?/08 l ktD 5/1t/88 i TWJ 5/19/88 FAI 5/2f/18 SAT 5/21/61 ![','iiiii MA fI l j l I i t I } l I ! ! I ! l l l l t !, i .i 2n A. I i i i I m M !A t l" V hP i i t ! AJi ' Nl r l -> 'M ivi N :
!'i i !vi i i i t v l~ i i i e i i I i l i i i V l ! l 30% 5/22/tt M0m 5/23/10 1UE 5/24/88 WED 5/25/89 twW 5/26/06 FAI 5/27/88 SAT 5/28/05 l l l I I t i i l }
%2,9 9.8 AI { 3',3! _ i l i i t i / t i 1 3, W Alf't i Lka M If\ I l' I Vi i i 17 " {,l sm smm moa 5/ m se fut s/ m se L4' 33/220 FT WIND SPEED (MILES /HR) A-23 h
APPENDIX A-4 (continued) Wind Speed at 33 Ft. Level from the 2k0 Ft. Tower for January - June 1988 June i ( l A' f l l l l ! ! ! l I J l (f W ! I i l I I ! ' t { lf'! i\ l i l i ! i/
r% M /
i I\i #+V AA t' l ; 'l l' l t 'r/ l l V 1 l' i I WED 4/01/08 YMV 6/02/08 FRI 4/03/88 SAT 6/94/t! ,
"' i ' , i i i i t i i i I i i (, r e v y t i ! i i I 82 ';
3 . ; e i i i i i i t i i i Li r * ', .. .. e tA J l. J i i i i i / 'i I s 8:
- s/'ri A,~s \ r ,N ifv.N As iV ;
v i i w i yi w, cLMi ,
, SLk estilteja;h tire,66 Tut (/07/b8 W1C 4/03/88 Thy e/06/88 FR1 6/10 /t t. i SET 6/11/98j, 15.0 g , ; , ; ; , l 9 ;l l , , e l
18 '. l
,i i u;2 i t i i :
e ' 'i a _g .p/\ i r 'iV~iLP\Ai : i , i l 3.8 g ^p w g ,/ %,/ i i i i \a itvVk y - .v , , , , , ; ; V i lg ' SLh 4*12ct4 PC 4.!!il! . iWE 6'l*/6! w!D e/15 f6 TWU ell 6/tf FRI ell? /tr SAT o r t t < S!. l l.:$.9 - - - -
~7*-
g j ; ; , ; ; 7 ; i ~J , , 12.7 e i al _m
- i. n i
! l [;
[*;t *- f vv 1 ,rx _ L d'V hui i ' A M/i 3,* p . .
.%: I 's ". i \%^N %f * ~
7 %s , . i
,;i r; i sg s 'l t t ! g r. t. t?! tift Tut f.,/21 t t htC e/22/85lTWU 6/23/tt FRI t/24/L6 1AT t/25/thl 15.0, , , > i .
l ,
,.e;y. , , , , e , rv-\ , .
s AA I i M
\t i M k l8'jr N
3 ,,k e., ,tt r;h .,,,,,, m .,,,,t, .t. . ,, e . . . ... . ..... 44 35/220 FT WIND SPEED (MILES /HR) I A-24 i e
I APPENDIX A-5
'f Wind Speed at 220 Ft. Level from the 220 ft. Tower Nr January - June 1988 January 8
I l l 1 , I l l l 1 ! 24*I i I r hl 4 . g gyf [ ( l l l l l t7 l l
, l FR! t/II/ttl187 1/ftttij af.f ,
e i f i . t I r i t ! I ! l l ii't A i i - f ' I t ; [\ j 1 1I iW I i 3 ,1 [a l' I i l
+
i . t .
/"VV'V W V W h1 [ \/ \l -
v
* ' t v'. A m, fr iN v . i e v1. / ,s I "' i i i v 'Y 1 ,
i t i i t i v4 i i i i
* 'l 1.%U !.!! j o 1/f=/f t j fw! t/ftett l hts 1/86 tit T% 1/f7/t&lFF; t/86ft1g5At 1/f4/I?l 4t.f *'t l i i l 1 . ! l t i I Lt ! ! 3 l l t i . i 't i l i
i
; I im I ! ;
i l
- mi el t i IN V \'
i I i% .> i i i i a l I i N l'! Wuim i s l \ - i w/ a f T~ i i i I i i i i i i t vy i r. i r
- NJ i 7' 1
I12.2,ls.- :. .nu , a v:v u i .1 umet ; t: :': sin ; w. v: /n tra: vlirit i s v:.<ct ; ,
, i i . ,
l ! l . I t l i 1 i ! t, i l i l i i t t j i j l 1 4 l '"i a .. _ i WA I '
- i. . i 2 - '
2
N w n.y >
y M M M ; /L/r Mi m, l .'d
ij l.4 l'7/ftjr:N , i j . 1 i m ! i' jw i i i i hr,i l 1/tt/tf ;ful 1/:etti g ht: t / t t 't ! l T w.' 1/21/88jFA: t/22/88l$E! t/23/ttj 'i . : .
i . ,
; i i i i ; i , i '*l' . . I i ? [\ f ! ! t 1 i i ! l t i 1 : .1 * 'I % s wi ': i t : - :t ;
I NF
"%N.(v F : \ ,1 I r v V -
i , 71 tv %> g, i Vl 'I'6 i W. i i 4 I i i ; I l < 6 (t.s !!14't!{P:t Is!!st! j ?.! I'le/t t l !: t/I'/f t j fn !!!t/t t j f f. t/ test! g le- l*!fetij af.f i I ! l32.8I g,* g! f\ ' ' F , \ A' j w , IIt.t 1.t-i . , fl.k t/h/f t . 4 2 220 "I h!ND SPEED (MILES /HP) A-2s i
t l APPENDIX A-5 (continued) Hind Speed at 220 f t. Level from the 220 Ft. Tower for January - June 1988 February 42..- t ! I i ! ' j j 32.t- ' ! I i i i l l l' I I l I 2 4. t'i
! f !
i i i J^^ i i i I l' i i i f l i,, A N W " A . i il E \i 1
, f; l 2.8 B -
I l ! l l I 'Nl l l l l t Pi l tr.t
.8ll P:A 2/t;/t! j ?'J E terI/tt , h t:' 2/ft/ft lTWJ 2/94/tt , FR! 2/ts/tt j $&T 2ett/ttj i I i '
f l t I
,,i ' ' ' i f l i i 1 l /\ I l l 1 i l
- 24.f i t i i\' t i t t ]
k '. t . l ; '
! . I i /' !ki , Wl I 1 MI'. _ ~ '
i M%% (M - Y\', 5 ! I l 3 l t ( L /' !
'N i 1 l l V "l ! l '
l
l $4% Itt*<!! ;*;*. 2 /2! '!! ?.! k!; !<! tits Tna 2/11/88 !!f t.'t!
FF; 2/12/ttj$A! 2/Ile12j ,,
,.t.tl i 2 ' t l ' i l i 22.t l 1 ! I I ! I i i i ,q,, N ! /T , f i i 1 i ' l ! l l i : ', M A #\ 'N 'm J t I 8 / \im vN Nf A ,',j _
iV iN
/ ' i\ , . .p'i v'M f . i *,j s.s 2 r:./11 j ': . Ir: tit l'at 2/:s/St ht: vi /tr j % 2rst/ttj't: li:$<t t ; 53-i i j iW+ t j i -
j 4t.t 2 4 : 11 ,
*2.t 4.8 ^ ^ -
I 14.8 I -
"^
2.8 - - t : 1 i i i i i IW Yh I
" 'l V l '
i W.W. I l Qt
,j $4% 2/21/88jr;% 2/22/ttl?.'! 2/23/t8lht: 2/24/ttlTMJ 2/25/ttlFP! 2/26/tfjl&T 2/27/ftj s , .
2.9 ,
...I te.t A ' \-
It*t
- t
'T i i l t.\ 2/lf/t! ;*2% 2/26/11j l .
- c. 2 220 FT w!ND SPEED (MILES /HR)
{ A-26 i f
APPENDIX A-5 (continued) Wind Speed at 220 Ft. Level from the 220 Ft. Tower for January - June 1988 March 48.8-32.8 g,,,i i l l l l l A l l l l g,', I. I M _i I M ' A /0 l g', WWI ~Wf &\ 15 h [' h I A i i ivi' l Tut 3/01/06 i i WED 3/02/88 i i TNU 3/03/08 Ivl FAI 3/04/08 i i i f SAT 3/05/88
! ' i i i . i l i e i t I l l Is i l l l l i ,, i I ' i I A 1 I I I l 1 if( I lAl l l I , , m ,rivw i n .- a ,. 11 w c , , C, j
s if/r ivi V: ! I f i i \g i'i v ri i l I r~ v l i l iI 1 l l
' Li N
i3 i
~
Suk 3/8titt P0% 3/87/88 TUE 3/88/88 WED Sif9/08 TMU 3/10/08 FAI 3/11/88 SAT 3/12/38 l I f I i I i ! f j l l t l l l l l 1 l l i i l i O I i l I l l l l l l16.0 M' / \ l / 7V i
!\ P% i # ' i M' ~ hf\N I 'w/ i wi i . i y ivi ! 4 i t'! i j i m
EN 3,13/06 MON 3/84/8t Tut 3/11/86 h!D 3/16/06 TWU 3/17/88 FAI 3/10/06 SAT 3/19/86 , 1 I i ) i f l : 1 i ! - t i I l l l l l l
.' ! ln '
i l i ! ! ,, ,.4Ai i i i 4 l l 1 , {~ yi ' ' iJ~ [\ _M. NM i tAJ c hn t i jf\ f I 6 ! 4 i i ( N;/i i iv L M / ! i \ ifv
. I ! ' ! I j l i Vi i l l " "I ~l I i 5 SUh 3/28ist PO% 3/Zi/St fut 3/22/88 WID 3/23/88 TW 3/24/88 FAI 3/25/88 SAT 3/26/88 l i I .! i i l i t' i l } I i l l Mi I l I I i i i i I l t i I I h _! A MA .i i t I t he i . .
- i v v '.i V i T W1 i j ,.J ' iT I l ' ' ,'- , 1 i ; I i?I b/ i I ,9 -
J Suh 3/27/88 M0h 3/28/86 TUI 3/29/88 ut0 3/38188 TNU 3/31/08 l 62 220 FT WIND SPEED (MILES /HR) A-27 i i
APPENDIX A-5 (continued) Hind Speed at 220 ft. Level from the 220 Ft. Tower for January - June 1988 April As.s St.s , 24.0 14.s e9 g "W
,q rs 4/en/ss h
Wu s4T 4/sr/se b
,**' I i ! l l i i l l l u l l i_ j i ls I 'II i l I I i I . fhAki H\ .
f i _a m i t 4 ,Ni /V \Je vrl 1 'N ' L- ' , _i e'i7 "Y i i i(w ~iv we ' T i i i i i c suh 4/s3/ss moh ersales fut 4/estes WED 4. /se/es TWu 4/s7/ss rn: 4/ss/ss , sat ,4(es/ss i { l l I I I
" l l l l A'.I_ / i% i ! I I I i
W
. . " ' ' "! t V " l IU%R ("W i t v; i i l ILeft W '
_ m p 4 r I i i i i i i i ! i ! M Vi I { suh 4/is/es moh 4/tt/ss Tut 4/it/ss uto arts /ss Twu 4/,14/ss rR1, 4/ts/se sai 4/ss/st l i i j i I l I I l l j l 2.s -
- i i l I { l , I i i l ! ! _hl M WM l 8'*' A'I[ grvM k$/<J wvv /D '\
u v a f VW/
\ I _ ; i - T x f g ,/q I i i i MF i '
I ! Y, i suw 4/17/ss M0h arts /se} Tut 4/t?/es uto 4/2s/ss Twu 4/21/ss rm! 4/22/es SRT 4/23/st P I 1 i j i i I 1 I I I I I
I I ,'- i t ik i l i l l
I
n 1 m _\ ~ m - n myi j w X/ y w -
1 Mysg A _ IV i i l Vi I v V i\/ sun 4/24/ss men 4/rs/ss fut 4/26/ss uto 4/27/ss .Iyp 4/2s/es rat 4/2s/es sai 4/ss/es 15 2 220/220 FT WIND SPEED (MILES /HR) A-28
APPENDIX A-5 (continued) Hind Speed at 220 f t. Level from the 220 f.t. Tower for January - June 1988 May 18.8 i I i I I L i i i l } l l ~ l N l i f i Ift NN 6 I/si i ( ,i l P ( l W t I i ' # ' \ / IT' 1 1 - I' \l L.ir.8 . , , m_ ! I i i . i/ i LJ /I 'R m I' \'1
, l i' V I f i l IVi l l l Vl l lYI I I SUN 5/8,/81 mh 5/81/88 , fut 5/83/88 kl0 5/84/88 THU '5/el/88 FAI 5/86/88 SAT 5/97/88 I*; l l 1 ! I f i I i I l l f I l l F l l l l ! l l l 1 ll i AI l I l l l[NI NA. 2. I l l.I' A , , , ,1 ! ,\V7N/
i A W MV i i /i \ Mr l i _i V i il L/> T v VN F I Ii% I i l i 4 I I ( l I i f I l l l l l U1 SUN 5 *t/88 M;b 5,86/88 Tut 5/is/88 WEL 5/il/88 THU 5/it/88 FAI 5/i3/08 SAT 6/i4/88 g ', l l l 8 !
! l l l l l l l l l l l l l 1 l 1 i i i i i i i i i i i i I I i 8.8 L " l [\ i i i - i i l i } } , wd i i I af f un-ir W > /\ A> i . u l' i MAi" I .
N , , i A,rv v w/i w f", . i , i , N s! 7 Lf ( * * ,'15,,5,8, r ah 5, .,8E Tut 5,,,,8 p to 5,ig,8, 5U, 1Mu 5,it,88 , i 5,,8,88 SAT 5,,,,88 38.8 . [ l i i t l . I i t i ' I i i Al l l l l l A Al t Al l' i i i. u m i + WVi : .i l Tvi \l i l i m i I/ hI / I i i ynW N M: ij' 1i/~)/ T yi ! v' i l j' 'l (V . if/ i iv l I i I tv4 %N l l t f ;V : i l
'T l l I I V l
i l i I t l l I Suk 5/Z2/88 P0h 5/23/88 Tut 5/24/88 h!D 5/25/88 TMU 5/26/88 FAI 5/27/88 SAT 5/28/88 l I8.8~ ,,
! I I I I ! 2 l I \l I i ! I i /h I i ki i fg i i _ I, / DIM l' M WFMV W '
e i . i. i i i ; e l Sub 5/tt/88 M0h 5/30/88 TUI 5/3,/64 l l [IS2 220/220 FT WIND SPEED (MILES /HR) A-29 t l
APPENDIX A-5 (continued) P Hind Speed at 220 Ft. Level from the 220 Ft. Tower for January - June 1988 June et.t
,1.
I i 1 ,' i i i ( l i ! . 1 24.0 t f f@ 8 i 1 ' ! t,,, p%I i
'l i T-i !\ t r7 lW i i i !
w _ / ;
.A .8 i i i' i iv tvr N WV. i WED 4/01/88 THU 4/02/88 FRI 6/f 3ett Sal e/forill 4f.2l 92.f l . .he ' I i i ! I i l l l t j t ?
l
,,,,i , /, \.. a . : , i i i i 6 -t t l 4 i i i m #1"'l m -
i i t i i t i i i i i W Yi I i V I , M 'l w m.h/\A ivr , r ,y
#\:
MJ vLg;
- i/ i i ,
,,j Stk 6/fl.(! M% e.!er66*
TVE t!a7/6) htD 4/86'43 TMU 6/99/48 FRI till/ELj $67 s.ll/61l i
'48.ti -
gg,,i l ' l i l i ! + 1 l l t I i . , i j i i 24.C l i .
. ,, k n I fv\ r'h A m ! ; - . , ,,'N\ /
3*, Nz _. / M
.w w / . W im i' Wr A > ,JtA l , . i THW t/16/tt
- v. W m,
, $th e/12itt i rth ein3/tt ?ct o '14ct3 l =stD estl/83 FR1 e./1//t;lta; ellges! ; ...e ' , ,i l i l . I I i I i i i i I l . . ! I i ! - " t l
mA .. A/% 'MA _i . . /
' ' ,' ' i f 'N 5
W~ _ /v v w'v<vs i i V '. f Tfi V j g SVA e'IS/t! g rt t. 4/2t/t! , *WE 6/21/8t htD a/22/$3 TMV 6/25/85 F f.! t/24 !t4 ,127 4/25/l?l 48.f. I [72. .., t < g,,i - _M I_' '
'A _ ,,,8 i / T /' V' \ WA /Vk_
i r y , .v, v is l .9
, 50h e/24/tt r0h t/2?/tt g 'VI 6/28/ft ut0 6/28/88 TNU 6ilfst!
l
.2 220/220 FT WIND 5 PEED (MILE 5/HR)
A-30 l i l i
APPENDIX B
' I NIND ROSE DIAGRAMS -
1 1 1. B-1 Wind Rose Diagrams at the 33 Ft. Level for the 220 Ft. Tower January - June 1988 B-1 , 5-2 Wind Rose Diagrams at the 220 Ft. Level for the 220 Ft. Tower January - June 1988 B-10 i I e*, L i ! t a I i l .I
APPENDIX 8-1 (continued) Hind Rose Diagrams at the 33 Ft. Level of the 220 Ft. Tower for January - June 1988 January WIND RO5E 09EE WED WIND FREQUENCY FOR 1/01/88 TO 1/31/88 l sich tels:6 ::. sa:ev etsafsattre I
.st:a h :.ter. p:.tt st.'ics utne c:s't:t.'t:as I rect es tat r 7: wit IN Pratthi h ===
{ wwt
'd f ha / 7 e at /\/ ,
l t ww. 5 t=t t 't
' y
- i '
\
I
/ / / \ '\i \ !
i l I I - t ;
\ \, i , , I I r - \ > ,
I i i i -
' ~
l l I t i l vs. l Ist I s= St LEGEN0 _ v. evts 24.7 ar- .tt i324h 13. 04 f 35 sst u . 19.4 TO 24.7 M8- .t1
- tt.t 01
- 0!s:t.! W:;tt 744 3 y . 12.E 70 19.0 MPw 2.t!{
- h. 7.6 T !!. P'k 21.!! '
i 1!!8 C' k:Lt! 64? I. 4.1 TC 7.5 m*d 51.51 n . :. wir n..q ,. . Te ..t i .ii , as ... :...
- at uset& .s ... O M>- .ti B-1
APPENDIX B-1 (Continued) Nind Rose Diagrams at the 33 Ft. Level of the 220 Ft. Tower for January - June 1988 i February I OBSE:,VED WIND FREGUENCY FOR WIND ROSE 2/01/BB TO 2/29/BB
'*S?$% !*!$0A CC. SR!D VAWil R!tt.tSt%T tst!Q hJ:Llas p 6tt $'A?!CN hlh3 Cll?R!!;TICA as F097 CN 122 FT TLAE8 th PER:thi k
h% #~ h%E Whh 5 ggg h ' \ l ll : .: N \ \\ .t . l lllII ! I e
, \ \ \ \ \,\ t ,
I I ; i .I us.
,y ESE
- s. st tgggg; T. Obit 24.5 M8a .f!j
$$146 4.3181 $$. S$t U 19.1 10 24.7 mod .81 8 E!kl.1 SY 3 Ve 12.2 10 19.e MPb . 0 33 m:3!!t.! W:J8! Oc w. 7.4 T: 12.1 ria , !!.!! 6 R15: C' W:l.8! ed! 3 4,1 10 7.5 mia !
41.!! o?R 08P7.'St 95. 60 f, y. .5 TO 4.1 MF> 29 51 puu...c., . . Cn., us:t . i . . .- O . A B-2
APPENDIX 8-1 (continued) Hind Rose Diagrams at the 33 Ft. Level of the 270 Ft. Tower for January - June 1988 March
~
NIND ROSE OBSERVED WIND FREDUENCY FOR 3/01/88 TO 3/31/88 8057c% ELISON CD. 5R10 VALut$ REPRtithf p~ galo WV:Ltas powgt stat!CN WIND 0!$fAIBWfir.N I FCC9 Ch !!f FT 70stR IN PER:thf k hmW hh! m
-~
5
- u. nr ut s
/ e w%. 5 '
the f N, [y t j usw est
- s. s st
_ LEGEND T= OrtR 24.7 M*W .82 ($51h6 II.48f $5h $$t U = 19.8 TO 24.7 MPN .01 I 1Rtit 81 3 V = 12.e 10 19.5 MPH 2.73 Va9196E WOgr.$ 744 W. 7.6 70 12.1 MPH 2,.48 ff!8CFWpa 464 I= 4.1 10 7.5 M*> 49.41 iicarruit ...sr3 ,. . To ... ,,- ie.n om na c. . , cata u= m .s new .e 8-3
( APPENDIX 8-1 (continued) U Wind Rose Diagrams at the 33 Ft. Level of the 220 ft. Tower
!' for January - June 1988 April MIND ROSE OBSERVED W)ND FREQUENCY FOR 4/01/88 TO 4/30/88 305fot 10!$0h Com8AhY SA10 VRiuts REPP!5 TNT ** 6413 NVCLt8K P0htt $f 8710h MIND DI$fRIOU110h '22f FCCT IN PER ENT h
MW NNE 5 km f NE 5 0 wkn 5 ggg
/ , 8 / , / .
t W
-; q, E , s i W5= ESE Sh _/ St LEGEND l !
T= OvtR 24.7 MPH .88 13511 6 $5= $$t 5.]t ST4 U . 19.3 10 24.7 MPa .81 ' IAELt 3 y = tt.t 10 19.8 MPH , 2.91 % 318it WDVES 72f W. 7.4 T0 12.3 NPE , $2.81 qutta CF WCVal 672 3 4.1 70 7.5 MPd 42.21 }4CR87WRt 94.] T* .5 TO 4.5 MPd !!.91 40gt3 ALL CALP 4 CRL* UuctR .5 MPW .61 B-4
APPENDIX B-1 (continued) Nind Rose Diagrams at the 33 Ft. Level of the 220 Ft. Tower for January - June 1988 May WIND ROSE 085 EAVED WIND FREQUENCY FOR 5/01/88 TO 5/31/88 105T0% E0! SON COMPRm SRIO VALUtl REPRE$thf LERIM hvCLeaR P0=tR STRf!04 k!ND DISTRIBufl0N W 228 FCOT IN PERCENT h
. hhw NNE s
h= te ht I . kw 5 ent
/ o - ,. s 7
i 3 . \ ,
/
l I usm y . est su sr LEGEND T= OVER 24.7 MPW ift 8 ' $lhb 35= $$t U = 19.1 TO 24.7 MPW .81 l t IRELE 9.Sf$}01 3 y . 12.1 70 19.0 MPW . .73
'OSSIBLE Hour! 744 W= 7.6 10 !!.i MPW 21.51 4 474 g fIA 0' W3UK! I. 4.1 TO 7.5 MPH 34.83 N R CApfumt y.
98.993 .5 TO 4.0 MPW 43.51 0 05 R.L CA.P 3 CRLs uwotR .5 MPW v 43 8-5 l
4 APPENDIX 8-1 (continued) - Hind Rose Diagrams at the 33 Ft. Level of the 220 ft. Tower for January - June 1988
. June WIND ROSE OBSERVE 0 WIND FREQUENCY FOR 6/01/8B TO 6/30/88 g770NE0150%Coria=$ SR10 VALUt3 REPRt$thf 1 ERIM h0CLE84 P0ttk STRitch NIND 0137R18U110h 33/228 FOOT IN PER0thf h ..
hhh kN! 5 . I - , .t
/ 5
- kha 5 ggg 8
I ..
, 1 - 1 , = i WSW ESE I
sw st LEGEND Te OVER 24.7 MPH +81 1 5thi 5.4371, 55w SSE y . 19.1 T0 24.7 ##H .81 8 kNlt 83
$ y . 12.2 TO 19.0 RPH .et 0551BLt WQURS 729 W= 7.6 TO 12.1 MPd . IF.41 4 !!A 0F NOUR! elf '
3 4.1 10 7.5 #PN 42.8I ITA Captunt 94.581 y. .5 TO 4.8 MPd 34.31 15 Rib CA.* 1 CALn UwDta .5 MPH .11 i
! B-6
{
~ APPENDIX B-1 (continued)
Hind Rose Diagrams at the 33 Ft. Level of the 220 Ft. Tower for January - June 1988 1 First Quarter 1988 3/31/88 NINO ROSE DESEP.vEC WIND FREQUENCY FOR 1/01/88 TO . .ch [8150h CD. SRIO VALut$ REPPtsthi t L tlQ DV:Ltar. P0mit STAT!Ch WIND SISTRIBUTlch 307 0% 22f FT 70mt- IN PERCthi h NAA kNE I ., hw
%, $f wt ,* s l
5 the u s ., I I u 1 [ G
- =
h' l
) , \
t
/
I Est us. I - I sw st LEGEND 1e oVtA 24.7 MPW .51 165th5 $5m SSE U 19.1 10 24.7 MPw .01 9.386} 3.72 856! If i V = 12.2 10 19.5 MPH ,,, 4 !!;.t W:1 4! !!!4 W. 7.6 to 12.1 K7H , 26.91 NBIE CF WOVt! 1975 I. 4.1 10 7.5 MPW 47.53 4 CCs7vit Ye .5 10 4.8 MPn !!.91 } 98.eli n u u c.,, . cata u= eta .i Mr O .2, 5-7 ; l
i i APPENDIX B-1 l- (continued) (. Nind Rose Diagrams at the 33 Ft. Level of the 220 Ft. Tower for January - June 1988 Second Quarter 1988
. WIND ROSE OBSERVED W]ND FREQUENCY FOR 4/02/88 TO 6/30/88 3 910% E0150h CCaPAhv SA10 VA.Ut$ REPRI5thf P . alm hvCLEA8. PCetA STAfloh MihD D15fR19U110%
31/tti F001 IN PERCthf a anS wat 5 nw I ht 5 e hww 5 th!
/
p / u y < :\ E
/ an v5w tSt sw St LEGEND T. CVER 24.7 MPH .81 1 li k '3 4.59) $5m SSE y . 19.1 10 24.7 MPH .8!
8 :Atit I s v . 12.t TO 19.8 MPd 1.41 055!t.t WCut5 2164 m. 7.4 10 12.1 ppd 25.31 L ltR (F WCU8! 2032 I. 4.1 10 7.5 MPd 39.73 8.d CattUnt 93.4tg T. .5 70 4.0 MPW 33 4I C "95 A.L C A.. 8 Catm UmptR .5 MPW 43
~
l r 5-8 1
i i APPENDIX B-1 (continued) Hind Rose Diagrams at the 33 Ft. Level of the 220 Ft. Tower for 0 nuary - June 1988 Semi-Annual NIND ROSE OB5ERVED W]ND FREQUENCY FOR 1/01/88 TO 6/30/88 p**.fch tel$th CO*8A%) SRID VALUt! Rt8Pt5thf a telm hutttst PC=ts STAT!0% W!nD OllfR!Butick Shrrf FOOT IN PERtthT W W%h th! hm
't Nr .ww I tht I f '
I ,s Y , I I h 1 l E
, a /
uss est
/
I 5 st LEGEND T. ' Ovta 24.7 pre .St 7.99t F5m $$t } il%i u . 19.3 to 24.7 R h .31 1:Cf.E 9 5 V = 12.2 70 19.9 MFw
'. 3.51 DS$16Lt H3085 43ef W= 7.4 T !!.1 Mb . 26.11 C ?tR Cr NCULt eff? I= 4.1 70 7.5 M*w { 43.51 8.4 CRPfWS!
92.fth Y= .5 10 4.9 Mb 27 9I eu : na c.. it ca a vastr- 5O it
, 3-9 l
. APPENDIX 8-2 f Hind Rose Diagrams at the 220 Ft. Level of the 220 Ft. lower for January - June 1988 *.
c January 3 105E DESERVE 0 W n . FD.EQ'EN:V
. FO:: $/B1/88 TO 1/31/88
. CD. SR10 VA.'Jtt P.EPRt!Lht g3 se posgr stat::b W!N: O!!TK!BJTICE
- = pra:ts?
h nw
^
hht 7 *$ n ,
't NE l t kw 5 ggg G% . 8 \' !l!(1 , , -e yi \ \\
1 t
/ .- , s / j /
- 1. .
Elf i < 86 88 L E GE N". T= Ovtr 24.7 stW 1.t! g,gg O! $5h $5! ue 19.1 TC 24.7 pr> lt.tt gg,gg ST 3 Ve 12.2 TO 19.0 men ,, 48.!! i 37.!! 144 W= 7. 6 10 12.1 mas. , 22.61 3.,73 1 St4 3e 4.1 TC 7.5 MPd 19.6I 3g,4 lI t t, Y= .5 TC 4.9 RPd 4.!!l; 6.81
- as us:ce .s ... O .. , ..,
e e t-10
APPENDIX B-2 (Continued) Hind Rose Diagrams at the 220 ft. Level of the 220 Ft. Tower for January - June 1988 February
~
NIND ROSE DESERVED WIND FAEQUENCY FOR 2/01/8B TO 2/29/88 Bas 9e* t::s:s :e. sato vnLuts atPatstut
!LG4!m hWCLlan Pewtm statlOh N!hD 0!$tRIBut!CN !! FC t IN PER thf j "
nsw ==t s hW p ht 5 e 5 Wu thE e l . t t I \
, \ \ > , , ,- I !
us, est l .sw it LEGEND [ T= eftR 24.7 mPd 0.12 IM35Slhi 6.46aj $5m SSE u = 19.1 70 24.7 MPW 13.52 fARIALLE Of 3 ye it.t 10 19.0 MPH 37.51 POS$!B'E
. N0;*! 496 W= ?.6 TC 12.1 RPM 21.73 gympta CF R30*$ 451 I. 4.1 10 7.5 MPd 12.41 C]?A cat!Ut! 93.53g Y= .5 TO 4.5 M8d 4.81 G ;85 A.L Ca., g CALM umstm .5 MPa ". 0 !
3-11 i n
t l APPENDIX B-2 . (continued) Hind Rose Diagrams at the 220 Ft. Level of the 220 Ft. Tower for January - June '988 March WINO ROSE OBSERVED WIND FREDUENCY FOR 3/01/88 TO 3/31/88 g;$Tch [0!$0% CD. SR10 VAiU!$ REPF.E!!ht p rGLl3 hytLt&R PC,tt Stat 10% WIk3 DllTR! tut 10% i rc:1 lu Pract=1 h h%w hht s hw g *t ht .
- r. t I
5 ww. t=t [ %
\ f -
t w . A_ -- i t i t .
# /
hs, est I / I 5 se ggggg3 I. T= Orts 24.7 RPW .0! ) tilllhi 10.46 $$. $$t U = 19.5 10 24.7 M8W .II
' IRfit I 3 V = 12.2 10 19.g new t.71 % 31 bit WCuat 744 W= 7.610 12.1 MPW , It.ek EPlth O' HOVE! 4&e Ie 4.1 10 7.5 M'd 49.43 W 4 CA810Ft Y= .5 TO 4.0 M8W 18.31 89.523
[cyasn;tCn., t CALM UMatt *I " *i! I 3-12 l
APPENDIX B-2 (Continued)
, Wind Rose Otagrams at the 220 Ft. Level of the 220 Ft. Tower for January - June 1988 April WIND RDSE DBSERVED W)ND TREQUENEY FOR 4/01/88 TO 4/30/88 's037CN E0!$ca Co*8 aNv 6410 VAtuts REPRtltki L64!P. h)?Ltu, Ponta stat 106 WINO Cistplayflom 8/2!t FT IN PERCthf N
mew tht
~ / , , ,e 5
t < j wh= I tht t
, / \ , w I uS= tit P 'E LEGEND T= Ofta 24.7 R8W 8.51 Allllhi SI s$m sst U = 19.8 TO 24.7 M8d 22.63 t 11ag$t 31 T = 12.t T0 19.9 #'d S 35.13 9wJ33BLE hoyR1 72p g* 7.6 9 12.1 M8N , !!.83 a m ta CF Hogal 728 I 4.1 TO 7.5 M'W 7.41 t a CAPTVQt tefi 1e .5 10 4.0 MPW 3.63 WCVtl R6L ta,y e CALu Uw0tm .5 MPd %/ .It ~
F13 l I t
APPENDIX B-2 (continued) I
- l. Hind Rose Diagrams at the 220 Ft. Level of the 220 Ft. Tower for January - June 1988 I
I May
'g WIND ROSE OBSfRVED WIND FREQUENCY FOR 5/01/88 TO S/31/88 I
3:19Ch 10150h CortRkt SRID VRtVES REPRESthi I NihD DISTRityfloh
,'6sRlo a/22f FT hy:L(A% PCatt $18110h th PERCthf k
htm th! hw e h! s whm I th! t l' < 6y I
, w p- = t L
g use ist l 5 st LEGEND l 1 Ofta 24.7 RPM 3.!! 9116165 8 35m $$t u . 3 3.3 To 24.7 MPH 11.61 1 Rest S y . 12.2 70 19.0 CPW g '. 29.01 MllBit HOURL 744 m. 7.4 TO !!.1 #'d i 27.78 C*f th CF WOVr! 744 I. 4.1 TC ?.5 M'd 18.81 , 3 A CR8 tut! IDf .5 TO 4.8 RPd 9.73 coypS R.L Cm., 7~j T. CALM ue tt .5 PPH .98
- 4-3-14 4
) APPENDIX B-2 (continued)
Wind Rose Diagrams at the 220 Ft. Level of the 220 Ft. Tower for Sanuary - June 1988 I June WIND RD5E OBSERVED WIND FREQUENCY FOR 6/01/88 TO 6/30/88 nestos telsc6 cc en o sa!O inLuts atPktstA1 UltE8!R NV;LEst PCnth $187106 WikD Dll1R!tt!Ch .
; l/329 FT lh P!E0tWI N
h%h ^* hht I hw e NE
/ $
0 hkg 5 th! g I 5 i w " t l usu
- ESE sw st LEGEND l
l 1 psta 24.7 R8W 3.!! 4156ths 4.722 35m 35E U . 19.8 10 24.7 p'd 14.31 ( latit 31
$ 9 12.2 TC tv.I #Pa 34.11
- 8. lltit M0','t! ?!I g. 7.6 1C 12.1 m7m , 23.78
*JMIER OF WDVES 686 3 4.1 10 7.5 MPW 16.21 e taPTU8t l 95.fth T. .5 TO 4.0 #8W 7.41 d'd5 A.. Ca.e p CALM UeDtt .5 M8w wr .51 1
F15 w -
' APPENDIX 8-2 (continued) l Wind Rose Diagrams at the 220 Ft. Level of the 220 Ft. Tower
- . for January - June 1988
[ First Quarter 1988
, WIND ROSE OBSERVED WIND FREQUENCY FOR 1/01/88 TO 5/31/88 9 70%EDIS %(C. aAID WALuts AtP.'lltht plL$tle hv;ttar P0mtr ffatt:A Wih! OllfR!tWi!0%
3 rett th PERtthf N h4W hht 5 h'
' "I Wh5 5 th! . I h
I 4 Y ] N usw (St su 81 LEGEND
- t. OttA 24.7 #Pd 7.l8
' Inits 3.463j S$h $5E Ue 19.1 10 24.7 p'd 15.83 Af'Atit Of 3 ye it t 70 19.0 MPd 39.41
!!Is
{ !?it WOLt! We 7.4 10 !!.1 MPa !!. WattK CF N0 Jet g434 3 4.3 10 7.5 #8d 11.51 W* Ca8tra! 94.34fg 1 .5 TO 4.0 Pra 4.61 5.S8.LCa., y CALn Um0tp .5 M**
.It' 5-16 i
APPENDIX 8-2 (continued) Hind Rose Otagrams at the 220 Ft. Level of the 220 Ft. Tower for January - J0ne 1988 Second Quarter 1988 WIND ROSE OBSE A'.'E0 WIND FREQUENCY FDA 4/01/88 10 6/30/63 - cst 0s telse6 t0**au 8A10 vntuts PrePtstst sm13 hs Ltas P0att $1Atich WIND O!5fAltutich . /22f F1 lb PERithf a nn. est
- n. -
e nr [ 5 r . , 5 w=w the I . l
- l Mi '
u- 4 g 1 7th i usm tit I - I - s= st LEGEND I T= St!A 24.7 rpm 5.ft lillhi 1.55?C 35= ISE y . te.t TO 24.7 m'= 14.01
'"lit 8 $ V = 12.t 10 19.0 P.PW 32.78 !! Bit wegt! 210' We 7.6 T: St.l #Pn 24.51 t[A Or Novel 2150 g. 4.1 TO ?.5 prd 14.18 ; CatfWit 98.443
- y. .5 TO 4.0 P8* 4.91 Out! A LL Caim I CAta Uu;tt .5 MPW .01 I
n-n i
APPINDIX B-2 (tontinued) Wind Rose Diagrams at the 220 Ft. Level of the 220 Ft. Tower for January - June 1988 Semi-Annual WIND ROSE OB5ERVED WIND FREQUENCY FOR 1/01/88 TO 6/30/88 SC59CN !DisCh CD'5Ahv SRID TRitts REPFttF%f po.stlo hutLta8 #0=tn STAtt0% WlhD Olltally110h a lr22f FT la PER:En1 h huh h6E 5 hw
- p NE 8
Wu 5 th! u l k' - t W5= (St h SE LEGEND I ,. .... g... ... ...! 1115166 2.418f sla SSI u . 19,1 10 34,7 prw 14.3! latit 81 ' g y .12.2 10 19.8 P'. 36.81 51861 Wout! 436f h. 7.8 10 !!.! PPh 23.11 IUmBER OF WDve$ 4254 3 4.8 TO 7.5 8'a !!.It
& cat?W81 #7.351 y. .3 13 4.s ppd 5.01 ga5 Q ta,e e C*La uw:ta .5 MPm .81
-e 1 3-18
i l l , Appendix C I I Pilgria Nuclear Power Station ' Offsite Dose Calculation Manual t i Revision 2 1 i ' I I l I i1 l i i 1 l1 1 4 i i ! I i I L I ! f I I. ' I i I Il t il l f l i ll l r l , l i
f
'l .
PILGRIM NUCLEAR POWER STATION OfFSITE DO$t CALCULATION MANUAL r i o 1. l d . [ t
. t t
i i l BY: PLANT $UPPORT DEPARTMENT ! RADIOLOGICAL ENGINEERING DIVISION
}
AND ; PLANT OPERATIONS DEPARTMENT : 1 CHEM!$ FRY DIVISION l . l i ( ) L f u li tevision 2 - September 1988 BOSTON E0!$0N COMPAN) ! i i i
I PILGRIM NU; LEAR POWER STATION Orts!TE DOSE CALCULATION MANUAL ' I I i
)
- I :
l .- ! I I r l i APPROVED BY: I _ - _ - ___ C.E'. Iowman l ' RADIOLOGIGL ENGINEERING DIVISION MNAGEA i VA' APPROVED BY:
' R . A .'Ta A a fa s ' ~ ' ' 'wl u r CHIEF CHEMICAL ENGINEER I l REVIEWED BY: A'Mb / - M em*, TP T7 i y; CHAIRMW ;
I Rev. 0 was originally reviewed by ORC on
- on June 10, 1983 i EFFECTIVE DATE
- SEPTEMBER 1988 I
,i
l' Changes to this document shall be reviewed by the Operations Review Com.ittee and st,b itted to the huclear Regulatory Comission in the next Semi-Annual Effluent Felease Report. All such changes shall be recorded below. i RECORD Or DO*UWENT CWANCij , REV. REVISION DOCUMENT SECTION ND. IDENTIFICATION or cWAN;E DATE AND PAGE INITfg I , L 0 Original Submittal 6/10/23 All Sections @ ; 1 Update of TLD and Air Stepler 6/1/87 7.0/7-7 & 7-8 d7 Locations 2 Changes in response to NRC ' 15/88 All Sections I avestions on PhPS OD;M (TAC 853012). Changes in I rest:nse to technical revie. ptiforeld by EECo Radiological Secticn. , i 1 I I I I Rev. 2 l ii
I l PNPS-0DCH Rev. 2, 7/15/65 l Taett or CONTEN13 sectien Rau 1.0 Introduction 1 2.0 Limiting Conditions for Operation and Operational Objectives 2 3.0 Release Point and Monitor Description 5 3.1 Radioactive Effluent Release Point Description 5 3.1.1 (tain Stack Gas (telease 5 3.1.2 Reactor Building Exhaust Vent Release 5 3.1.3 Liquid Radiation M55te Effluent Release 6 L 3.2 Cadioactive Effluent Monitoring System Description 7 3.2.1 Main Stack Gas Monitoring System 7 3.2.2 Reactor Building Exhaust Vent Monitoring System 8 3.2.3 Liquid Radiation Maste Effluent Monitoring System 8 3.3 Measurement Method During Release 12 3.3.1 Gaseous Effluent 12 3.3.2 Liquid Effluent 12 3.3.3 Limitations 12 - 4.0 Calculational Methods 13 4.1 Concentrations of Liquid Effluents 13 J 4.2 Liquid Effluents Dose Assessrent Methodology 14 4.2.1 Liquid Pathways Annual Dose Rates 14 4.2.1.1 Aquatic foods Ingestion (Fish. 14 Shellfish) 4.2.1.2 Shoreline Deposits (Discharge Canal and 15 Recreational Area) 4.2.1.3 Swimin (White Norse Beach) 15
.- 4.2.1.4 Yachtin /8cating (Cape Cod Bay) 15 4.2.2 Definitions 15 I
I 111 I i
PNPS-0DM Rev. 2. 7/1$/66 Ta!*.E or CONTENTS (cor.#inued) Stetien RAjl1 4.3 Ga:eous Effluents Dose Assessment Methodology 17 4.3.1 Gaseous Pathways Annual Dese Rates from 18 hoble Gases 4.3.1.1 Gamma Air Dose 18 i 4.3.1.2 Beta Air Dose 18 4.3.1.3 Total Socy Dose 18 l 4.3.1.4 Skin Dese 19 4.3.2 Gaseous Pathways Annual Dose Rates from Iodine 19 131 and 133. Particulates with a half-life Greater Than 8 Day *. and Tritium 4.3.2.1 Ground Plant Desposition 19 4.3.2.2 treathing/ Inhalation 19 I 4.3.2.3 Leafy Vegetation Ingestion 19 4.3.2.4 Root Crop /Non-Leafy Vegetation 20 Ingestion 4.3.2.5 Milk Ingestion 21 I 4.3.2.6 Heat Ingestion 21 4.3.3 Definitier.s 22 4.4 ' notal Dost to a Me-ber of the Public 27 l 5.0 Receptor Locations. Hydrology and Meteorology 28 ! { 6.0 Moriter Set Points 32 ; 6.1 Liquid Eifluent Monitor 32 6.2 Gsseous Effluent Manitors - 33 - 7.0 Radiological r,nv ronmental Sampling a 34 I and Measurement Locations i 8.0 Description of Radenste Syster.s 56 l 8.1 Liquid Radmaste System 56 ! 8.7 Treated Gaseous Radmaste System 58 : 9.0 References 60 ! Appendia A Data Required for Effluent Caltviations A-1 l Appendix 8 Lefinition of the Lower Lir.it of Detection 8-1 iv l
PNPS-00CM Rev. 2, 7/15/65 LIST OF FIG EI.5 t
- 1. W ;?e No. Eggt 71 Pilgrim Nuclear Power Station Environmental 51
, The moluminescent Dosimeter and Air Sampling Locations Within Exclusion Area 7-0 Pilgrim Nuclear Power Station Environmental l Thermoluminescent Dosimeter and Air Sampling 52 Locations Outside Exclusion Area to About .
2 Hiles 7-3 Pilgrim Nuclear Power Station Environmental 53 Thermoluminescent Dosimeter and Air Sampling ** Locations Outside Property Boundary 74 Pilgrim Nuclear Power Station Terrestrial 54 and Aquatic Sampling Locations 7-5 Pilgrim Nuclear Power Station Environmental 55 l- Sampling and Measurement Control Locations 8-1 Liquid Radwaste Treatment System Schematic 57 8-2 Gaseous Effluent Treatment System Schematic 59
\.
l~ !I I l l l I !I v i 1 . . - _ - ___ -... - . .__-. I
PNPS-0DCM Rev. 2, 7/15/8B LIST OF TABLES t l ILLi t No, P_asut 2-1 PNPS Technical Specifications /Offsite Dose 3 , Calculation Manual Cross-Reference for Limiting Conditions for Operation and Operational Objectives 3-1 Radiation Effluent Monitor Data 10 5-1 Critical Receptor Locations and Atmospheric 30 Dispersion Factors 7-1 Pilgrim Nuclear Power Station Operational Radiological 36 Environmental Monitoring Program 7-2 Pilgrim Nuclear Power Station Air Particulate, 41 Radiciodine, and Soil Sampling Locations 7-3 Pilgrim Nuclear Power Station Environmental 42 - Thermoluminescent Dosimter (TLD) Locations 7-4 Pilgrim Nuclear Power Station Pressurized Ion 47 Chamber (PIC) Survey Locations Pligrim Nuclear Power Station Terrestrial
~
7-5 48 and Aquatic Sampling Locations 7-6 Haximum Values for the Lower Limits of Detection (LLD) 50 l l
'I
, I , I ll vi ,I l
,.e --~m ,--,n.
i PNPS-0DCH Rev. 2, 7/15/85 1.0 Introductie, l The purpose of the Offsite Dose Calculation Manual (ODCH) is:
- a. to identify the applicable effluent release limits defined by the Pilgrim Nuclear Power Station - Unit #1 (PNPS-1) Ttchnical Specifications; and, .
- b. to identify the equipment, methods, equations, and data used to verify compliance with these offsite release limits.
This manual contains the current methodology, parameters, data, and information used in the calculation of offsite doses due to radioactive gaseous and liquid effluents, in the calculation of gaseous and liquid effluent monitor alarm / trip setpoints, and in the conduct of the radiological environmental monitoring program. l
- l I
I l l l ll _1 l l l 4 l ( t
i PNPS-0DCH Rev. 2, 7/15/S5 2.0 Liritin Conditions for Oeeration and Deerational Obiettives Table 2.1 presents a sumary of the Limiting Cc.ndition for Operation contained in PNPS Technical Specification Sections 3.8.A. 3.8.C, 3.8.D. and 3.8.F and also the Operational Objectives contained in PNPS I Technical Specifications Sections 7.2, 7.3, 7.4, and 7.5. This table is intended to serve as a sumary of the contents of the PNPS Technical Specifications and does not, in itself, establish limits. The I Technical Specifications should be consulted for exact wording and specifics. I I I l .. l . I I I . I I . I l e d i
- - - - - - p.r.2-cu - ..<. 2. .. 5/8.
TABLE 2-1 PNPS_lECHNICALSPECI FICATIONS /0F_FSI T E_0OS E_ CALCULATION _MANUA L_ CROSS-R E F_ERE NCE f0R_ LIMITING _ CONDITIONS FOR_0PERATION AND_0PERATIONAL_0BJECTIVES Limiting Technical Appilcable Conditions Specifications 00CM Limits and Exposure for_0peration Section Sec.tlonisl Objectives _ Period _ Requi red _Act.l.on Liquid Effluent 3.8.A 4.1 10CFR20. App. 8 Instantaneous Restore concentration to Concentration Table II within limits and2x10golumn2uClIm1 for dissolved noble gases Liquid Radwaste 3.8.C 4.2 0.06 mrem H.B. Projected for Operate Liculd Haste Treatment 0.2 mrem Organ 31 days Treatment System Gaseous Effluents 3.8.D 4.3.1.3 500 mres/yr N.B. Instantaneous Restore release rates to O Dose Rate from noble gases within specifivations 4.3.1.4 3000 mreelyr skin from Noble Gases 4.3.2 1500 mres/ r Organ - from particulates w Ty, > 8d., I-131, 133 and tritium Operational Objective.s_ Dose-Liquids 7.2 - 4.2 1.5 mrem N.B. Calendar Quarter 30 day report if 5 mrem Organ exceeded Dose-Liquids 7.2 4.2 3 mrem N.B. Calendar Year 30 day report if 10 mres Organ exceeded Dose-Noble Gases 7.3 4.3.1.1 5 mrad gasse Calendar Quarter 30 day report if 4.3.1.2 10 mrad beta exceeded Dose Noble Cases 7.3 4.3.1.1 10 mrad gasuna Calendar Year 30 day report if 4.3.1.2 20 mrad beta exceeded
p.,q, f 73g - TABLE 2-1 (continced) PMPSJCHNICALSPECIFICATIONS/0EESITE_DOSLCALCULATIoM MANUAL _ CROSS-REFERENCE FOR LIMITING _ CONDITIONS _IOR_0PERAT. ION _AND_0PERATIONAL_0BJECTIVES Technical Applicable Operational Specifications 00CM Llalts and Exposure _0bjecilves Section Sec.tlonisl Objective.s. _. Period _ Requl_ red _Ac t.lon Dose I-131, 133 Particulates, H-3 7.4 4.3.2 7.5 mrem Organ Celendar Quarter 30 day report if exceeded Dose I-131, 133 Particulates, H-3 7.4 4.3.2 15 mrem Organ Calendar Year 30 day report if exceeded Total Dose 7.5 4.2, 4.3.1, 25 mrem M.B. Calendar Year Report if 2 times 4.3.2, 4.4 25 mrem Organ specifications in 75 mrem Thyroid 7.2, 7.3, or 7.4 exceeded. Restore dose
, to pubilc to within the y applica1be EPA limit (s) or obtain a variance.
NOTE: M.B. means whole body or total body.
PNPS-ODCM Rev. 2, 7/15/EE 3.0 Pelease Point and Moniter Descriction 3.1 Radioactive Effluent Release Point Description (Reference 10) 3.1.1 Main Stack Gas Release The processed gases from the unit are routed to the main I stack for dilution and elevated release to the atmosphert (see Figure 8-2). The main stack is continuously monitored by a radiation monitor (see Section 3.2.1). I Dilution air input to the stack is provided to reduce the hydrogen in the air ejector off-gases to a concentration of less than 4 percent by volume. Dilution air is supplied by I one of two fans located in the filter building at the base of the main stack. The stack is designed such that prompt mixing of all gas inlet streams occurs in the base to provide I prompt dilution of hydrogen and to allow location of sample - points as near to the base as possible. The main stack is a pipe with a top elevation of about 400 I feet mean sea level (HSL). The main stack is supported by the filter building. The filter building is a reinforced r concrete structure which houses the dilution fan (16,680 cfm l each fan), off-gas filters, and heaters. The main stack is located about 700 feet west northwest of the reactor building. [ 3.1.2 Reactor Building Exhaust Vent Release Air from areas containing potential sources of radioactive { contamination such as the reactor building, radwaste building i basement, and turbine building basement are discharged through the reactor building exhaust vent (see Figure 8-2). Normal airflow is routed from lesser to progressively greater I areas of radioactive contamination potential prior to final exhaust. The reactor building exhaust vent is continuously monitored by a radiation monitor (see Section 3.2.2). The operating floor ventilation is normally supplied with 40,000 cfm of filtered and tempered outside air which enters the reactor building through louvers in the east wall. Air I . is exhausted from the operating floor through ducts located in the roof truss area and the south wall, adjacent to the floor (54,000 cfm per fan). Additional exhaust ducts are located above the water level in the fuel poo!, steam l dryer / sept.rator storage pool, and the reactor cavity. I r f i
PNPS-0DCH Rev. 2, 7/15/BB Two contaminated area exhaust fans ('25,000 cfm per fan), each rated at design capacity, are located in the reactor building. The fans discharge to the main exhaust plenum at the base of the reactor building. An additional smaller I exhaust fan (5,000 cfm), located in the reactor building, exhausts only from the control rod drive maintenance shop and 3 discharges to the main exhaust plenum. Constant volume . l control is maintained by inlet vanes which are automatically positioned. The reactor building exhaust vent is a square plenum I extending from the top of the west corner of the reactor building. The exhaust plenum releases to the atmosphere at an elevation of 182 feet HSL. 3.1.3 Liquid Radiation Haste Effluent Release l The liquid radwaste discharge header receives discharge from the chemical radwaste monitor tank pumps, the clean radwaste treated water transfer pumps, and the miscellaneous waste l drain tank pump (see Figure 8-1). The header provides cmtrolled discharge through either a low flow discharge path or a high flow discharge path. The high flow path is normally used with a variable liquid radwaste effluent flow I from 1-200 gpm. The common discharge header extends from both the low and high flow-paths and is monitored for ' radiation prior to discharge (see Section 3.2.3). Themonitortripsthedischargepumps,closesthefkow control valves, and provides an alarm on high radiation. The liquid radwaste effluent is finally discharged through an outlet diffuser to the circulating water discharge canal. Liquid effluent releases enter the Cape Cod Bay at the outfall of the discharge canal which is located about 1100 l feet north from the center of the reactor building. In addition, batch releases from sources other than the [ radwaste tanks are permitted provided at least two I independent samples are analyzed in accordance with PNPS Technical Specifications section 4.8.A.1, an independent verification of the release rate calculations is performed, I and an independent verification cf the discharge valving is performed. Concentrations released to unrestricted areas must be limited to the values specified in 10CFR20. ! All batch releases which are not processed through the liquid radwaste treatment system are also discharged through an l l outlet to the circulating water discharge canal. These l I untreated liquid effluent releases also enter the Cape Cod l Bay at the outfall of the discharge canal. l .. . - _ - - - - --
l PNPS-0DCH I Rev. 2, 7/15/86 3.2 Radioactive Effluent Monitoring System Description (References 8, 9, and 10) 3.2.1 Hain Stack Gas Hor.itoring System The main stack gas monitoring system consists of two individual channels (see Section 7.12 of Reference 10) to monitor the release of noble gases. Each channel consists of I a gamma-sensitive scintillation detector and a seven decade logarithmic count rate monitor that includes a power supply and a meter. Both channels are recorded on a two-pen I recorder located in the main control room. Both channels are connected to the 24 volt DC power bus and to the AC Radiation Protection System via a transfer switch to the emergency diesel generators. Each monitor has two upscale alarms and one downscale alarm. g Exceeding a setpoint initiates an alarm in the main control . [ room, but no control action is provided. The uostale alarms indicate high radiation (see Section 6-2 for gaseous effluent monitor setpoint), and the downscale alarm indicates instrument trouble. l To monitor noble gases in the gaseous effluent from the main stack, a sample is drawn through an isokinetic probe which is I located in the stream to assure representative sampling. The sample passes through a particulate filter and charcoal cartridge. The filtered gas then flows to two shleided chambers where the radiation level of the noble gases is .. measured by two scintillation detectors, one located in each shleided chamber. The system also provides for sampling of particulates and iodines by the use of a filter and charcoal cartridge located upstream of the gas being monitored in the shielded I chambers. The filter and cartridge are routinely analyzed in a chemistry laboratory lit accordance with PNPS Technical Specification. Each individual channel includes a built-in check source and a purge line to purge the stack gas fromthe ' sampling chamber. Both the purge valve and the check source are I operated from the main control room. Each channel is calibrated by laboratory analysis of a grab sample in the offgas line. Alarm trip circuits can be tested using a test I source. I I .,. i i
PNPS-00CH Rev. 2, 7/15/88 The channel has an upscale trip to indicate high radiation level and a downscale trip to indicate instrument trouble. The upscale trip alarms in,the main control room (see Section 6.1 for liquid effluent monitor setpoints), trips the monitor tank pumps, and terminates the discharge. The downstale trip alarms in the main control room. The waste discharge valve is the isolation control device for the liquid radwaste , effluent stream and it is automatically closed when the alarm is tripped. There are two waste discharge valves, one is situated on a two inch line and the other is situated on a one inch line. Both valves are located prior to the I radiation waste effluent monitor and prior to the discharge canal. The valves are air operated valves. The waste discharge valves are: A07216A and SV7216A, which are on the 2 inch line; and A07216B and SV7216B, on the 1 inch line. The power source is the 24 volt DC power bus. . Alarm trip circuits can be tested using test signals. The channel is calibrated by laboratory analysis of a grab sample from the liquid radwaste system. ll' - 'I . !l l l l l I . l l .. l I l l 9 1 - i
- , , ,, , 7 m - 4*'A**F TABLE _3-1 , RADI ATION_E F F LUEN T_ HON.I TOR _DA_TA E f fluent _Moni_t. ors Stack Gas Reactor Ridg. Vent
[ tem Channel 1 Channel _2 Channel _A Chan.nel B liquid _Ef f_luent Manufacturer 'GE GE GE GE GE Model Number 194X900G9 194X900G11 194X900G11 194X900G11 194X900G9 Serial Number 6.343,901 PPA 6.550.PA6.343 6.550,733 6.550,789 6.342,995 PPA 6.342,790 PRM 907 6.342,788 PRM Scale cps cps cps cps cps Range 10 105 10 106 10 106 10 106 10-1 _ 106
~
Power 24V. DC 24V, DC 24V, DC 24V, DC 24V, DC location Panel 910 Panel C910 Panel C910 Panel C910 Panel C910 1:sta11ation Date 8/20/71 8/20/71 8/20/71 8/20/71 9/13/71 Surveillance Test
- a. Daily Channel Check Channel Check Channel Check
- b. Monthly Source Check Source Check
- c. Quarterly Channel Functional Test Channel Functional Test Channel Functional Test Co11bration '
- a. Quarterly Check Source Check Source Check Source
- b. 18 months Known radiation source Known radiation source Known radiation source
' '" 4;aan a -
Stev. .e. 71. .,. 8 1ABiL3-1 RADI ATION_E ff_LUEN T_HONI, TOR _DA TAlcon t i nued). EfiluenLMonl_to.rj Stack Gas Reactor Bldg. Vent Item Channel 1 Channel 2 Channel A Channel _8 1,lgul.d_Eff_luent Alarm Set Points
- a. Hi Alarm see Section 6.0 see Section 6.0 see Section 6.0
- b. Mi Hi Alarm Isolation Control Mone None Maste Discha.ge Valve Device e
O e e
PNPS-ODCH Rev. 2, 7/15/BB 3.3 Heasurement Method During Release (References 5, 7, and 10) 3.3.1 Gaseous Effluent The gaseous effluent radiation level is continuously monitored as it is being vented to the atmosphere. Periodic samples are collected from the reactor building vent and the main stack. The particulate filters, charcoal cartridges, ' I gas samples, and condensed water samples are analyzed for isotopic identification and quantification, in accordance with the PNPS Technical Specifications. 3.3.2 Liquid Effluent Prior to the release of any liquid waste, a sample of the l release is collected and analyzed for gross beta and gross gam.a activity, and the specific activity of each release is determined by isotopic analysis. The waste discharge tank is - retirculated at least 60 minutes prior to the collection of a sample. The release of any liquid waste is controlled on a 3 mixed maximum permissble concentration (MPC) basis, where the ' [ sum of the ratios between the isotopic concentration and the - HPC is less than one. The specified waste discharge flow rate must be at least 10% less than the maximum waste discharge flow rate which shall not exceed 200 gpm. The l discharge of the liquid effluent is made from the liquid radwaste discharge header. 3.3.3 Limitations
- a. Gaseous Effluent
- 1) PNPS Technical Specifications for gaseous release values.
- b. Liquid Effluent
- 1) PNPS Technical Specifications for liquid release i values.
- 2) If one pump is used to discharge the liquid waste and fails, the release is isnediately discontinued.
l
- 3) If the discharge flow rate recorder fails, the release is immediately discontinued.
I l l
l PNPS-0DCH i Rev. 2, 7/15/BB 4.0 Calculations Methods This section presents the calculational specifics required to demonstrate compliance with each of the Technical Specifications for limiting conditions for operation and operational objectives identified in Section 2 of this document. The equations in this section are based on the equations and calculational methods described in Reference 1. Unless otherwise specified. These equations have, in some cases, been presented in a slightly differed form in an effort to sirplify their use. The subscripts use i tre "a" for~ age group, "j" for orgai), "1" for radionuclide, 'p" for pathway ar.d "1" for location. Capital letters have been used on the dose / dose rate, use '..dct, concentration, and dose conversion factor abbreviations to t'>synate pathways. "A" is for
- aquatic foods, "S" for shoreline depc. sts, "M" for swiming, "Y" fcr yachting / boating, "N" for noble gas, "G" for ground plane deposition, "B" for breathing / inhalation, "L" for leafy vegetation, "R" for root ,
crops /non-leafy vegetation, "M" for milk, and "C" for meat. The descriptions of constants, variables, and parameters in this section are also based on those described in Reference 1 unless otherwise specified. The descriptions have, in some cases, been modified to describe the constant, variable, and parameter specific application in the corresponding equation. In addition, some of the constants and variables values have been revised to include more site specific values, to include more technically correct information, or to provide uniformity (e.g., Xj values always presented in hr-l). Values for parameters which i only have a single value will appear along with the definition. For .- those parameters which can take on different values for different conditions, the appropriate value will appear in the referenced tables. All numerical contants have been derived from the indicated base I conversion factors and are represented in scientific notation to the third significant digit. ( 4.1 Concentrations of Liquid Effluents The following equation shall be used to determine the discharge flow I rate such that concentrations of radioactive effluents released to unrestricted areas do not exceed the concentration limits specified in 10CFR20 Appendix B. Table II. Column 2:
- DFR = CH / { ( Cwi / MPCj )
i where: 1 DFR = Maximum discharge release rate of 11guld effluent. (gal / min). l
PNPS-0DCH l Rev. 2, 7/15/88 ) CW = Flow rate of diiution water, (gal / min). Cwt = Contentration of nuclide i in the liquid waste discharge volume prior to any dilution as determined
- i. by current isotopic analysis for gamma eamitting nuclides ar.d most recent results from pure beta and alpha emitters, (uC1/cc).
HPCt = M.ximum Permissible Concentration of each nuclide i from 10CFR20 Appendix B, Table II, Column 2, (uti/cc). I 4.2 Licuid Effluents Dose Assessment Methodoloav f The following equations shall be used to estimate the annual dose rates due to release of radioactive liquid effluents. All input parameters (i.e. activity and volume) must be normaltred to a 1 year release period. Modification of final results is necessary for { comparison to dose rate limits for periods different thar, one year. For comparison to monthly limits and quarterly limits, results would be scaled by 1/12 and 1/4, respectively. To determine the dose or I dose commitment for a desired period, multiply the annual dose rate - by the fraction of the year for the dose period desired.
.- Pathways assuming internal deposition of radionuclides (i.e.,
I ingestion) involve the use of a 50-year comitted dose conversion factor. This entire prospective dose will be assigned to the [ individual for the year of intake (Reference 1). For pathways 1 involving external radiation to the total bcdy (i.e., shoreline . activity, swimming, boating), the dose to all other organs is assumed equal to that for the total body (Reference 1, Appendix E). Summation of the dose rates from the equations below should be performed for all significant pathways. 4.2.1 Liquid Pathways Annual Dose Rates 4.2.1.1 Aquatic Food Ingestion (Fish, Shellfish) DAa jp = UAap E CAip DFlaij . . i ' I where: CA lp = CHt ) Bjp e - O CHg) = 1.00E12 Qt ' Nt L e Aii l Above equations derived from Reference I equations 2 and A-3. o f I
- PNPS-0DCH Rev. 2, 7/15/88 4.2.1.2 Shoreline Deposits (Discharge Canal and Recreational l Arc:,)
DSaj) - USal Hi [ CS )t DFGgj I i where:
- CSt ) - 2.89 CHg1 (1-e - D*)
11 l CHgg - same as indicated in equation 4.2.1.1 Above equation derived from Ref. I equations A-4 through A-7. l 4.2.1.3 Swimming (White Horse Beach) DWaj) - UWal E CHg) DFWij i i where: CHgg - same as indicated in equation 4.2.1.1 Above equations derived from Reference 14 equation l E, 41 on page 151 . 4.2.1.4 Yachting / Boating (Cape Cod Bay) I DY,)j 0.50 UY,j CH gj DFW) g where: CHg ) - same as indicated in equation 4.2.1.1 Above equations derived from Reference 14 equation 41 on page 151 . .
4.2.2 Definitions
I Bi n is the equilibrium bioaccumulation factor for 5 ra5tonuc11de 1, in aquatic foods pathway p expressed as the
, concentration in biota (pC1/kg), divided by the concentration in water (pct / liter) from Table A-1, (liters /kg);
Cage is the concentration of radionulcide 1 in pathway p of aqvrtic foods, (pC1/kg); C5j) is the effective surface conctntration of radionuclide i in sediments at location 1 (pCi/m3);
i PNPS-00CH Rev. 2, 7/15/88 CHil is the concentration of radionuclide i in seawater at iocation 1 (pCi/ liter); - DAajp is the total annual dose rate from ingestion of aquatic foo.s to organ j, of indiviiuals of age group a, from pathway i p, (mrem /yr); i DFG i j is the open field ground plane dose conversion factor i fororgg/pti-hr);n (mrem-m j, from radionuclide 1, from 7able E-6, ! l DFlaij is the ingestion 50-year committed dose conversion factor for organ j, of individuals in age group a. from I radionuclide i, from Table E-11 through E-14 (arem/pCi ingestad); l I { DFH i s is the submersion dose conversion factor in water, for organ j, of individuals in age group a from radioriuclide 1, from Table A-2, (mrem-liter /pti-hr); ( DS is the total annual dose from exposure received during sh Niine activities rate to organ j, of individuals of age group a, at location 1, (mrem /yr); , DHail is the total annual dose rate from exposure received during swimming, to organ j, of individuals of age group a, at location 1, (mrem /yr); { ' DYai) is the total annual dose rate from exposure received during yachting / boating, to organ j, of individuals in age I group a, at location 1, (mrem /yr); M1 is the mixing ratto (reciprocal of dilution factor) at location 1 of exposure or harvest of aquatic food, from Table I A-3, (dimensionless); Qi is the annual release rate of radionuclide i in liquid I effluents, (Ci/yr); tb is the period of time for which sediment is exposed to l radionuclides in seawater, including buildup, (hr, assumed to be 1.31ES hr 15y); , th is the time between exposure of aquatic foods to I radionuclides in sea water and their consumption by an individual, from Table A-3, (hr); l ti is the transit time required for radionuclides to reach I location 1, (hr, assumed to be 0.0 hr from the liq;1d waste tank to the discharge canal); UAao is the use factor of aquatic Joods from pathway p, by individuals in age group a, from Table E-5 for maximum l individual Table E-4 for average individual, (kg/yr); i i
PNFS-0DCM I Rev. 2, 7/15/88 USal is the use factor (amount of time) an individual in age group a, engages in shoraline activities at location 1, from Table E-5 for maximum individual, Table E-4 for average individual (hr/yr); UWal is the use factor (amount of time) an individual in age ' group a, engages in swimming at location 1 from Table E-5 for maximum individual Table E-4 for average individual, (hr/yr); UYa1 is the use factor (amount of time) an individual in age group a, engages in yachting / boating at location 1, from Table E-5 for maximum individual Table E-4 for average , individual, (hr/yr); V is the total annual discharge rate of liquid effluent + , condensor cooling / dilution water, (liters /yr); - l. is the shoreline width factor for location 1, from Table H)3, A- (dimensionless); At i the radioactive decay constant of radionuclide i, (hr-{); 0.50 is a scaling factor for yachting / boating assuming that doses received while on the surface of the water are 1/2 of doses received while immersed in water from Reference 14 (dimensionless); e 2.89 is the factor to convert for transfer of nuclides from water to sediment, equal to 100 liters /m -day z from Reference 16 multiplied by 1 day /24 hr and by in 2 (to convert reciprocal i to halflife), as calcuated in Reference 1 equation A-5, (liter /m2-hr);
- L l
1.00E12 is the factor to convert from Ci to pC1, (pCi/Cl); l 4.3 Gaseous Effluents Dose Assessment Methodoloov The following equations shall be used to estimate the annual dose rates due to release of radioactive gaseous effluents. All input I I parameters (ie, activity and volume) must be normalized to a 1 year release period. Modification of final results is necessary for comparison to dose rate limits for periods different than one year. I For comparison to monthly limits and quarterly limits, results would be scaled by 1/12 and 1/4, respectively. To determine the dose or dose comitment for a desired period multiply the annut, dose rate I by the fraction of the year for the dose period desired. ( i
PNPS-0DCH Rev. 2, 7/15/88 Pathways assuming internal deposition of radionuclides (i.e., inhalation, ingestion) involve the use of a 50-year committed dose
,. conversion factor. This entire prospective dose will be assigned to the individual for the year of intake (Reference 1). For pathways involving external radiation to the total body (i.e., noble gas total body dose, ground plane deposition), the dose to all other organs is assumed equal to that for the total body (Reference 1, Appendix E).
Sum ation of the doses rates from the equations below should be performed for all significant pathways and all release points from which significant radioactive effluent releases have occurred (i.e., Main Stack and Reactor Building Exhaust Vent). 4.3.1 Gaseous Pathways Annual Dose Rates from Noble Gases P 4.3.1.1 Gamma Air Dose . DNi= [Cy tDFNig i where: P Cti 3.17E4 'X_L Qt
,0 / g Above equations derived from Ref. 1 equations 6, 7 B-1, B-2, B-4, and B-5, as well as References 3 and 4.
4.3.1.2 Beta Air Dose DN 3 = [i Cgg DFNg , l' where: l '{ Ci >- 3.17E4 ' X ( Qi iOcl I i L Above equations derived from Ref. I equations 7, B-4, and B-5.
- 4.3.1.3 Total Body Dose DNTB S [ C gi DFNITB i
l where: l Cji - Same as indicated in equation 4.3.1.1. l Above equations derived from Ref. I equations 8, 10,
, B-1, B-2, B-4, 8-5, B-6, and B-8, as well as References 3 and 4 l , , . ~ - - .
PNPS-0DCH , Rev. 2, 7/15/85 ' 4.3.1.4 Skin Dose L DNS=ECi3 DFNi s + 1.11 S DN, i where: Cjs. DN = same as indicated above in equations 4.3.1.2 and 4.3.1.1, respectively. Above equations derived from Ref. I equations 6, 7, 9, 11, B-1, B-2, B-4, B-7, and B-9, as well as References 3 e.nd 4. 4,3.2 Gastous Pathways Annual Dose Rates from Iodine 131 and 133 Particulates with a Half-Ilfe Greater than 8 Days, and
, Tritium.
1 PNPS Technical Specifications do not consider doses from C-14 and I-135 for compliance. However, equations for these radionuclides are included in this section for completeness. . 4.3.2.1 Ground Plane Deposition DGj S E CGt DFGt j i f where: . l ,. CG) = 1.00E12 'D' Qt (1-e - M0 ! 10, A) Above equations derived from Ref. I equations 12 C-1, and C-2. , 4.3.2.2 Breathing / Inhalation DBaj-UBa{CB t DFBaij i , where: CBt - 3.17E4 X) Qi for H-3, C-14
'Olc CBt 3.17E4 'X( Qt for particulates with ,04d , Tx and >I-135.Bd and 1-131, 1-133, 1
Above equations derived from Ref. I equations 13. C-3, and C-4.
PNPS-0DCH Rev. 2, 7/15/88 l I' 4.3.2.3 Leafy Vegetation Ingestion DLaj = ULa f1{CLgDFIaij where: CL< = leafy vegetation concentration as ca'culated below. Above equation derived from Ref. I equations 14 and C-13. where: CHj, CLj, CPt. CRt = 1.19E7 Qt 'Ist /H for H - 3 L Q LC CHj, CLj, CPj, CRt = 2.18E7 p Qt 'X ' for C - 14
,0 i c .
1
.- CH i , CLj, CP t . CRt=5.71E7'D(Qt*
601 r! ( 1 - e A sn t t )
+ .
Yy XEi , By(1-e l - Alt 6 ) for I-131, e- I4 h I-133, and PXg I-135 I CHj, CL{, CPj, CRj - 1.14E8 Qt
- l rp ( 1 - e Ant *>
Yv h El I A)ti >
~
siv ( 1 - e 4 e- ik for particulates P At with T)p 8 days l _ Above equations derived from Ref. I equations C-5 through C-9. I l i
o 1 I PNPS-00CH Rev. 2, 7/15/88 4.3.2.4 Root Crop Non-Leafy Vegetation Ingestion DRaj - URa fr E C,Rg DFlaij i where: CRt - root crop concentration as calculated - I in 4.3.2.3. Above equations derived from Ref. I equations 14 and C-13. 4.3.2.5 Milk Ingestion DHaj=UMaECHjDFlaij i ( where: CH i -Fmi CFj Qt e - A'i f
. CFj - f pfsCPj , (CH;(1-fp )) + CHjfp (1-fs)
CPj,CHj = concentration in pasture grass and harvested / stored feed as calculated in equation 4.3.2.3. . Above equations derived frera Ref. I equations 14, t C-10, C-11, and C-13 - 4.3.2.6 Heat Ingestion DCaj = UCa CCt DFlaij i where: CC) - Fjr CFj Qt e M3 . ! , CFj = concentrail a in forage as calculated la equation 4.3.2.5 Above equations derived from Ref. I equations 14, C-12, and C-13 I l
PNPS-0DCH Rev. 2, 7/15/88 4.3.0 Definitions Bl v - is the concentration factor for uptake of radionuclide i, from soll in the edible portions of crops, in pCi/kg (wet weight) per pCi/kg dry soil, from Table E-1, (kg/kg); Cl e- is the effective semi-infinite cloud concentration of 1 noble gas 1. for the purpose of calculating beta air dose. (pCi/m3); C1 , - is the effective finite cloud concentration of noble 1 gas i for the purpose of calculating gamma air dose (pCi/m3); CBI - is the ground-level airborne concentration of I radionuclide 1. (pCi/m3); CCi - is the concentration of radionuclide i in meat, (pCi/kg); { CF - is the concentration of radionuclide i on forage, , (p 1/kg); CGg - is the ground plane concentration of radionuclide 1, a (pCi-hr/m4-yr); CHI - is the concentration of radionuclide i on harvested /s Mred feed, (pCi/kg);
,. CNi - is the concentration of radionuclide i in milk, (pCi/ liter);
CLi - is the concentration of radionuclide i in leafy vegetables, (pCi/kg); I CPt - is the concentration of radionuclide i on pasture l grass, (pCi/kg); CR) - is Joe ...icentration of radionuclide i in root 1 crops /non-leafy vegetable:, (pCi/kg); DBaj is the total annual dose rate from breathing / inh &la tion to organ j, of an individual in age group a, ' I - (mrem /yr); DCaj - is the total annual dose rate from ingestion of meat l to organ j; of an individual in age group a, (mrem /yr); is the inhalation 50-year committed dose cow ersion , I DFBat3 factof for organ j, of individuals in age group 4 from radionuclide 1, from Tables E-7 through E-10. (mrem /pC1); DFGi - is the open field round plane dose conversion factor ! l for rgan j, from radionut ide i, from Table E-6, (mrem l
-m2/ pCi-hr);
t I i l i - ,. , -- - _ _ _ _
PNPS-00CH Rev. 2, 7/15/8B DFlaij factor for organ j, for individuals in age group a, fromis the ingestion 5 radionuclide i, organ j, fr.om Table E-11 through E-14 (mrem /pC1); is the beta skin dose conversion factor for a DFNgs semi-in finite cloud of noble gas 1, which includes the attenuation by the outer "dead" layer of skin, from Table I B-1, (mrem-m3/pCi-yr); is the total body dose conversion factor for a l DFNyfnfinitecloudo{noblegas1,whichincludesthe sem'- attenuation of 5 g/cm of tissue, from Table 8-1, (mrem-m3/pCi-yr); DFN's- is the beta air dose conversion factor from a sem'-infinite cloud of noble gas 1, from Table 8-1, (mrad-m3/pCi-yr); - DFNa - is the gamma air dose conversion factor from a inite cloud of noble gas 1, from Table B-1, sem'-in{/pCi-yr); (erad-m l DGj - is the total annual dose rate to organ j from direct exposure to the contaminated ground plane from all I radionuclides, (mrem /yr); is the total annual dose rate from ingestion of leafy DLaj vegitables to the organ j, of an individual in age group a, i (mrem /yr); DH a j - is the total annual dose rate from ingestion of milk I to the organ j, of an individual in age group a, (mrem /yr); DNS - is the total annual skin dose rate due to ternersion in I a finite cloud of noble gases, (mrem /yr); DN is ihe av a. ....i cody dose rate due to imersion in 4ffnitecloudofnoblegases,(mrem /yr); l DN - is the annual beta '.ir dose rate to a semi-infinite cloud of noble gases (r. rad /yr); DNr - is the annual gama air dost rate due to a finite cloud of noble gases (mrad /yr); DRa - is the total annual dose rate from ingestion of root cro or non-leafy vegetables to the organ j, of ar. individual in age group a, (mrem /yr); 1A - 14 the deposition rate considering depletion L Of at the rtceptor location in question, from Table I 5-1, (m-'); t l l
I PNPS-0DCH l' Rev. 2, 7/15/88 l' f1 - is the fraction of the ingestion rate of k leafy vegetable that is produced in the garden of interest, (dimensionless; assumed to be 1.0); fp - is the fraction of the year the animals graze on pasture, (dimensioniess; assumed to be 1.0); i fr - is the fraction of root crops /non-leafy vegetable that art produced in the garden of interest, (dimensionless; assumed to be 0.76); fs - is the fraction of daily feed that is pasture grass when the animal grazes on pasture, (dimensioniess; assumed to be 1.0); { Fi f - is the average fraction of the anim1's daily intake et radionuclide 1 which appears in each kilogram of meat, from - Table E-1, (days /kg); Fim - is the average fraction of the animal's daily intake of radionuclide i which appears in each liter of milk, from I- Table E-1 for cows Table E-2 for goats. (days / liter); H - is the absolute humidity of the atmosphere from Reference 15 (g/m3; assumed to be 5.6 g/m3); p - is the fractional equilibrium ratio, (dimensionless; assumed to be 1.0 for coatinuous release); P-istheeffectivesgrfacedensityfordrysoil,(kg/m2; assumed to be 240 ke ~ ); Of - is the amount of feed consumed by the animal per day from Table E-3, (kg/ day); is the annual release r#+t n' radionuclide i in gaseous 01 eff luents (Ci/yr); '- TI - is the fraction of deposited radiciodine retained on crops, (dimensionless; assumed to be 1.0 from References 17-20); rp - is the fraction of deposited particulates retained on crops, (dimensionless; assumed to be 0.2 from References 21 and 22) I S - is the attenuation factt,. .t accounts for thG dose redu; tion due to shielding provided by residential structures i from Table E-15, (dimensionless); I I tb - is the time period over which the radionuclide buildup l is evaluated, (hr; assumd to be 1.31ES hr . 15 yr);
PNPS-0DCH Rev. 2, 7/15/86 t' ~ I is the time period that crops are exposed to te radionuclide deposition during the growing season, from Table
; E-15, (hr);
tt - is the average transport time of the activity from the feed into the milk and to the receptor from Table E-15, (hr); I i th - is the holdup time that represents the time inter!al between harvest and consumption of the food, from Table E-15, (hr); ts - is the average time for radioruclides to pass from feed through meat to the consuming individua~., (hr; assumed to be 483 hr - 20 Jays); UBa - is the annual breathing rate, for individuals in the age group a, from Table E-5 for maximum individual. Table E-4 - for average individual, (m3/yr); UCa - is the annual intake of meat, for individuals in age group a, from Table E-5 for maximure individual, Table E-4 for average individual, (kg/yr); is the a-*'.'41 intake of leafy ve(gtables, for ULa individuals in the age group a, from Table E-5 for maximum individual Table E-4 for average individual (kg/yr); UMa - is the annual intake of milk, for individuals in the , age group a, from Table E-5 for maximum individual, Table E-4 for average individual. (liter /yr); URa - is the annual intake of root crops /non-leafy vegetables, for individuais in the age group a. from Table E-5 for maximum individual, Table E-4 for average individual, i (kg/yr); Yv-{s'theagriculturalprocuetivity.,<t-, (kg/m , wet weight); f;om Table E-15, I fX1 - is the appropriate value of undep'leted atmospheri-LQ /c dispersion factor used to estimate ground level airborne concentration of gaseous. (i.e., non-particulate) radionuclides, from Table 5-1, (sec/m3); s l 'XL - is the appropriate value of the average gaseous
,Q'd dispersion factor corrected for depletion of particulates and radiciodines, from Table 5-1, I (sec/m3);
4
'X' - is the appropriate value of gama atmospheric ,QL dispersion factor used to estimate ground level I gamma dose rate from an elevated or ground level plume as calculattd in References 3 and 4 from i . Table 5-1, (sec/m3);
\ I
PNPS-0DCM ! Rev. 2, 7/15/6B g Xi - :s the radioactive decay constant of radionuclide 1, l (hr - ); XEi - is the effectlye removal rate constant for radionuclide l i from crops, in hr-3, where A tg *At + Aw , hi is the i. radioactive decay constant, and A y is the removal rate cons (hr- ); {antforphysicallossbyweatnering X w = 0.0021 hr-1, 1 i 1.11 - is the average ratio of the tissue to air energy absoeption coefficients (mrem / mrad); 3.17E4 is equal to 1.00E12pti/C1 divided by 3.15E7 sec/yr,
' Ci-yr/Ci-Sec) l i 1.19E7 - is equal to 1.00E12 pC1/Ci divided by 3.15E7 sec/yr and multipliec by 1.00E3 g/kg and by 0.5 g H-3 in plant water e par g H-3 in atmospheric water from Reference 23 (dimensionless) and by 0.75 g water per g plant (dimensionless), as calculated in Reference 1 equation C-9, (pci-yr-g/Ci-sec-kg);
2.18E7 - is equal to 1.00E12 pCi/Ci divided by 3.15E7 sec/yr and aultipled by 1.00E3 g/kg and by 0.11 g Carbon /g plant
. mass from References 24 and 25 divided by 0.16 g Carbon /m3 of air, as cliculated in Reference 1 equation C-8, (pci-yr-m3/Ci-sec-kg):
5.71E7 - is the conversion factor to correct for activity, time units, and elemental forms of radiciodines, equal to the particulate rad'enuclide conversion factor 1.14E8 multiplied i by an tiemental iodine fraction of 0.5 from Reference 26, l (pti-yr/Ci-hr); 1.14E8 - is the conversion factor to correct activity .inits and time units for particulate radionuclides, equal te 1.00E12 pCi/Ci multiplied by 1 yr/8760 hr. ( pri-vr /r.1-hr) ; 1.00E12 - is the conversion factor to correct for activity l units. (pC1/Ci); I 6 i i , I, f l !
PAPS-0DCH Rev. 2, 7/15/88 4.4 Total Dose to a Member of the Public 1 The purpose of this section is to describe the method used to calculate the cumulative dose contributions from liquid and gaseous effluents in [ accordance with PNPS Technical Specifications for total dose. This method .an also be used to demonstrate compliance with the Environmental Protection Agency (EPA) 40CFR190, "Environmental Standards fcir the . Uranium Fuel Cycle". ( Co ;11ance with the PNPS Technical Specifications dose objectives for the m2ximum individual demonstrates compliance with the EPA limits to any I meeber of the public, since the design dose objectives from 10CFR50 Appendix I are much lower than the 40CFR190 dose limits to the general public. With the operational objectives in PNPS Technical Spe:ifications sections 7.2.A. 7.3. A and 7.4.A being exceeded by a factor of two, a I special analysis must be performed. The purpose of this special analasts is to demonstrate if the total dose to any member of the public (real individual) from all cranium fuel cycle sources (including all real . I pathways and direct radiation) is limited to less than on equal to 25 mrem per year to the total body or any organ except for the thyroid which is limited to 75 mrem per year. If required, the total dose to a member of the public will be calculated for all significant effluent release points for all ret 1 pathways including direct radiation. Only effluent releases from PNPS (Pilgrim I Station) need to be considered since no other nuclear fuel cycle facilities exist within a 50 mile radius. The calculations will be based on the equations contained in this section, with the exception that the I usage factors and other site specific parameters will be modified using more realistic assumptions, where appropriate. The direct radiation component from the facility can be determined by l using environmental TLD results. These results will be corrected for natural background and for actual occupancy time of the recrer,tional areas accessible to the general public at the location of maximum direct I radiation. It is recognized that by including the results from the environmental TLDs into the sum of total dose component, the direct radiation dose may be overestimated. The TLD measurements msy include i l the exposure from noble gases, r,round plane deposition, and shoreline I depositic,n, which have already been included in the s.umation of the '
- significant dose pathways to the general public. However, this
] conservative method can be used, if required, as well as any other method 1 -
for estimating the direct radiation dosc from contained radioactive sources within the facility. Therefore, the total dose will be determined based on the most realistic site specific data and parameters to assess the real dose to any member
, of the general public.
i
PNP 3 0DCH Rev. 2, 7/15/88 5.0 Reeerter Locations. Hydroleav. and Meteoroloav The purpose of this section is to identify those receptor locations which represent critical pathway locations e?1 the methods used to estimate dilution and dispersion factors for these locations. g For the dose calculations from liquid effluents, the maximum individual - is assumed to: 1) ingest fish and shellfish from the discharge canal, 2) l receive direct radiation from shoreline deposits at both the discharge canal and PNPS shortline recreational area, and 3) receive external radiation while swimming at White Horse Beach as well as while boating on I the Cape Cod Bay. The doses are calculated for the various age groups (i.e., infant, child, teenager and adult), as well as for the various g organs, (i.e., bone, liver, thyroid, kidney, lung, gastrointestinal [ tract / lower large intestine, skin, and total body). The maximum total body and organ doses are selected from the totals of the various age group and organ doses calculated as described above. For liquid effluent pathways. Table A-3 lists the conservative values for the mixing ratio and shore width factor for the various aquatic receptor l oc a t i c..s . For the dose calculations for gaseous effluents, the maximum individual
, is assumed to reside at the receptor location that provides the highest dose from the dose contributions from all gaseous release points where significant releases have occurred. The locations selected in Table 5-1 ~
are the site boundary, a garden at the site boundary, and the nearest milk animal at the P11 moth Plantation. The dose calculations are
,, performed for each release point and totalled for the following dose pathways; 1) noble pas immersion, 2) ground plane deposition, 3) inhalation, and 4) ingestions of leafy vegetable, root crops /non-leafy vegetables, milk, and meat. The doses are also calculated for the various age groups and for the various organs as described for liquid effluents. The maximum total body, skin, and orgar. doses are selected
, l. from the totals of the various age group and organ doses calculated as I describec above. 3 In order to estimate atmospheric dispersion and deposition factors for 1 l each of these locations. a computer code supplied by the Yankee Atomic Electric Company was used. The code. AEOLUS (Reference 3), was used to ' calculate quarterly average values of dispersion and deposition factors. I Meteorological data for a three year period, January 1, 1977 to December ! 31, 1979, were used for these analyses. The most conservative quarterly average values of ground level average atmospheric dispersion factor I ground level average atmospheric dispersion before factor after depletion (X/Q)c(,X/Q)d, average gamma dilution factor (X/Q), and deplettor. average deposition rate (D/Q) for the three year period were chosen for l I tach of the critical receptor locations. l 28 -
PNPS-00CH Rev. 2, 7/15/88 i
~
The technique used to estimate ground level gamma doses from an elevated or ground level plume is based on the sector average finite cloud model
, of Regulatory Guide 1.109 (Reference 1). The equation has been rearranged into a form similar to the standard semi-infinite cloud ecuation thereby allowing the use of a "gamma Chi /Q" which includes the effects of plume dimensions, gamma energy mix, atmospheric and geometric attenuation, etc. (See Reference 3 and 4 for a detailed discussion.)
For gaseous effluent pathways, Table 5-1 lists the critical locations for receptors and conservative atmospheric dispersion factors for each atmospheric rec 2ptor location. I I r
, l i
ir-T f I . I i , t
- - -- - - - - - - - = gg', rgg - ---
_T;b10_5_-J. Cr_i_t I ta l_N ec ep t or_Eoc a t l on s_a nd_A t uos phe r_l c_Dl_s pe.rs i on_ra c t ors Atmosph.er_lL Dl_5persion Factor
- 1) Reactor Building Vent
- 2) Main Stack
'XL 'X' ' Xi.
Technicaj_Spectfication_Sectjon ,0, c ,04 d 60[ '0O 'J (sec/m3) (sec/m3) (sec/m3) (1/m2) 3.8.0 Caseous Effluent Dose Mate 51te Boundary (l) 1) 7.400-06 7.04E-06 4.69E-06 5.22E-06
- 2) 4.69E-07 4.69E-07 1.68E-M 2.92E-09 Mearest Garden (2) 1) 7.40E-06 7.04E-06 4.69E-06 5.22E-06
- 2) 4.69E-07 4.69E-07 1.68E-06 2.92E-09 l Nearest Milk Animal (3) 1) 4.29E-07 4.21E-07 1.70E-07 7.93E-10
? 2) 3.73E-08 3.70E-08 3.22E-08 2.46E-10 3.8.r Gaseous Effluent Treatment 51te Boundary (l) 1) 7.40E-06 N/A 4.69E-06 N/A
- 2) 4.69E-07 N/A 1.68E-06 N/A 7.3 Dose - Noble Gases Site Boundary (1) 1) 7.40E-06 N/A 4.69E-06 N/A
- 2) 4.69E-07 N/A 1.68E-06 N/A 7.4 Dose - Iodine-131 Iodine-133, Nadioactive Materials in Particulate Form, and Trltlum 51te Boundary (1) 1) 7.40E-06 7.04E-06 N/A 5.22E-00
- 2) 4.69E-07 4.69E-07 N/A 2.92E-09 Nearest Garden (2) 1) 7.40E-06 7.04E-06 N/A 5.22E-06
- 2) 4.69E-07 4.69E-07 N/A 2.92E-09 Nearest Milk Animal (3) 1) 4.29E-07 4.21E-07 N/A 7.93E-10
- 2) 3.73E-08 3.70E-08 . N/A 2.46E-10
.. - _ _ _ _ n - - _ _ _ sv. 3- 7/1sJoe - - --
Table 5-1 (Continued) Cr_ltical Receptor _t.ocations_and_ Atmospheric _01spersion_rac. tor _s Atmosphert.c_ Dispersion _ractor
- 1) Reactor Building Vent
- 2) Main Stack
'XL 'X' 'X1 0 Technical _SpeCJf_lcation_Section ,0 c $QJd ,0N 0 (sec/m3) (sec/m3) (secf 33 (jf 2) 7.5 Total Dose Site Boundary (I) 1) 7.40E-06 7.04E-06 4.69E-06 5.22E-08
- 2) 4.69E-07 4.69E-07 1.68E-06 2.92E-09 Nearest Garden (2) 1) 7.40E-06 7.04E-06 4.69E-06 5.22E-08
- 2) 4.69E-07 4.69E-07 1.68E-06 2.92E-09 Nearest Milk Animal (3) 1) 4.29E-07 4.21E-07 1.70E-07 7.93E-10
- 2) 3.73E-08 3.70E-08 3.22E-08 2.46E-10 ,
NOTES: (1) "Site Downdary" means the location at or beyond the boundary of the rettricted area with the highest calculated dispersion and/or deposition factor. (2) "Wearest Garden" is considered to be the same as the site boundary due to the abundance of smal! gardens near Pilgrim Station. (3) "Nearest Milk Animai" 15 presently considered to be at the P11 moth Plantation 2.2 r.sles west of' Pilgrim Station. I
PNPS-00CH e Rev. 2, 7/15/8B l 6.0 FN'ter Set Points 6.1 Liquid Effluent Honitor i The set point for the liquid effluent & monitor (see Section 3.2.3) u is established as follows:
,. 1) Prior to a liquid batch release, the waste discharge tank is recirculated for at least 60 minutes and a sample is taken.
L
- 2) The liquid effluent sample is analyzed (see Section 3.3) to determine the concentrations of each detectable isotcpe in i
uti/cc. (See Appendix B 1*or the definitions of lower limit of detection.1
- 3) The efficiency (in counts /see per uti/cc) of the liquid discharge monitor is calculated based on prior release experience. PNPS Chemistry Procedure 7.3.38 entitled "Determination of Conversion Factors for Liquid PRH's" describes the method to determine the efficiency.
- 4) The setpoint for the liquid effluent & monitor is calculated as follows: -
51 - (E G) + Bg where: S) - Liquid monitor setpoint for steady-state, equilibrium I discharge (counts /sec). E - Efficiency of liquid discharge n 11 tor in counts /sec per UCi/cc for the mixture of isotopes observed in the grab i sample. G - Total specific gamma activity of the grab sample. Bg - Heasured background count rate of the monitor with no sample present (counts /sec). The setpoint will ensure that the concentration of liquid effluents discharged does not increase above the valt;e for
- which the maximum permissible discharge flow rate was I established (see Sectiote 4.1 of this manual).
I r
PNPS-00CH I Rev. 2. 7/15/88 1. 6.2 Gaseous Effluent Monitors The only components of the station's gaseous effluent and discharge which is continuously monitored are the noble gases. The method of determining the Hein Stack Gas Monitor (see Section 3.2.1) and Reactor But Hi-Hi alarm,1s ding is asExhaust follows:Vent monitor (see Section 3.2.2) Hi and
- 1) At the time a gas grab sample is taken at the discharge point, the gross monitor reading is recorded (in counts /sec).
- 2) The results of the isotopic analyses on this sample in terms of uti/cc of each isotope detected are used along with estimates of gaseous discharge flow rate (SCFH) to determine
. the current release rate of each detected isotope in UCi/sec.
- 3) These calculated release rates (uC1/sec) are used along with the equations given in Section 4.3.1.3 and 4.3.1.4 of this manual to calculate the maximum offsite dose rate due to -
noble gases.
- 4) The ratio of this calculated dose rate to the PNPS Technical Specifications instantineous dose rate limit (500 mrem /yr for the total body and 3000 mrem /yr for the skin or some fraction thereof) is used to scale the observed monitor l reading at the time at which the grab sample was obtained as i follows:
Sc = (Cs - Bg ) DRLiH t +B g DRCalc . where: Sc gaseous monitor setpoint corresponding to 500 anrem/yr to the total body or 3000 mrem /yr to the skin, whichever is more limiting (in counts /sec) Bg - measured background count rate at the sampler with no r saeple present (in counts /sec) 4 4 Cs = observed monitor reading at the time of the grab sample (in counts /sec)
- t i .
DRLimit = the appilcable dose rate limit 500 mram/yr for the total body or 3000 mrem /yr for the skin or some fraction g thereof I l f
, l 1
PNPS-0 DOM ( P.ev. 2, 7/15/S8 DRCalc = the calculated dose rate for the maximum individual i from the metho'Js of Section 4.3.1.3 and 4.3.1.4 of this manual using the release rates determined from the grab sample, erem/yr The rest.1 ting setpoint will be valid until the next grab sample is taken from the release point. . This rethod will be used to establish the Hi-Hi alarm at 500 mrem /yr to the ttstal body or 3000 mrem /yr to the skin, whichever is more restrictive. Since two release points exist for noble gas effluents, the set points may be varied to allow greater release rates from one point than the other, provided the total limit is below 500 mrem /yr for the total body I or 3000 mrem /yr for the skin, whichever is more restrictive. The Hi-Hi alarm setpoint for the gaseous monitors will be based on the equation in this section. The Hi alarm setpoint may be set at or below, I but in no case above, the Hi-Hi alarm setpoint. 7.0 Fadieleeical Environmental Sareline and Heaturament Locatl12M Saepling and measurement locations have been established for Pilgrim Station considering meteorology, population distribution, hydrology, and I land use characteristics of the Plymouth area. The sampling locations are divided into two classes: indicator and control. Indicator locations are those which are expected to show effects from PNPS operations, if any exist. These locations were selected primarily on the I. basis of where the highest predicted environmental concentrations were calculated to occur. While D e indicator locations are typically within a few miles of the plant, the control stations are generally located so I as to be outside the influence of Pilgrim Station. They provide a basis on which to evaluate fluctuations at indicator locations relative to natural background radiation, natural radioactivity, and fallout fre-prior nuclear weapons tests. ( The environmente' saepling media collected in the vicinity of Pilgrim Sta us., inclu:s ... ;titiculate filters, charcoal cartridges, seawater, I shellfish, Irish moss, American lobster, fishes, sediment, milk, cranberries, vegetation, and beef forage. The media, sample designation location, description, distance, and direction for indicator t 1 control samples are Itsted in Tables 7-2 and 7-5. These sampling locations are I also displayed on the maps shown in Figures 7-1, 7-2, 7-3, and 7-5. The frequency of collection and types of radioactivity analysis are described l in the PhPS Technical Specifications and in Table 7-1. The maximum lower I limits of detection (LLD) for the analytical measurements are specified in the PNPS Technical Specifications and Table 7-6 (see Appendix B for the definitions of the lower limit of detection). t I
l PNPS-0 DOM i Rev. 2, 7/15/8B The environmental TLD location designations, distance, and direction from the reactor are listed in Table 7-3. The radiation measurement locations for the environmental TLDs are shown in' Figures 7-2, 7-3, and 7-5. The frequency and type of radiation measurement is described in PNPS Technical Specifications and in Table 7-1. The pressurized ion chamber measurement locations, distance, and
, direction from the reactor are listed in Table 7-4. These radiation reasurement locations for the surveys performed on local beaches are shown on Figure 7-3. The frequincy and type of radiation measurement is described in PNPS Technical Specifications and in Table 7-1.
{ The atmospheric and land-based samples are collected by Boston Edison personnel from the Electrical Engineering and Station Operation I Department's Environmental Laboratory. The aquatic samples are collected by the Division of Marine Fisheries - Pilgrim Station Project personnel. The direct radiation measurements and soil radioactivity measurements are conducted by Yankee Atomic Electric Co. - Radiological Engineering Group
- l and Environmental Laboratory personnel. The radioactivity analysis of samples and the processing of the environmental TLDs is performed by Yankee's Environmental Laboratory personnel.
The Bostor. Edison staff reviews the radioactivity analysis results from Yankee Atomic Electric Company. Reporting levels for radioactivity concentrations in environmental samples are listed in PNPS Technical Specifications. If the radioactivity concentrations are above the re'Jorting levels, the NRC is notified in writing within 3D days. A determination of the cu mulative dose contribution for the current year i w',11 be performed for radioactivity which is detected that is - attributable: to PNPS operation. Depending upon the circumstances, a special study may also be completed. If radioactivity levels in the environment become elevated as a result of the station's operation, an investigation is performed, and corrective actions are recom ended to reduce the amount of radioactivity to as far { below the legal limits as is reasonably achievable. The radiological enviro.Nr.a.'supling and measurement locations are I reviewed annually, and modified if necessary. A garden and milk animal census is performed every year to identify changes ,in the use of the environment in the vicinity of the station to permit modification of the saepling and measurement locations. I , I I u i
- -. -- - .- .-me ass == == - m - ==== - - - v, m/tr -
I Aft l E,7.1 PILGRIM.C2fCLEAR_P0HER_ STATION OPERATIONAL _RADIOLOGICt.L_ENVIRONM[MTAL_ MONITORING _ PROGRAM Exposure Pathway Sampling Measurement Type and Frequency or Sample / Measurement and/or Collection of Analysis or
. Type Locations frequency Measurement AIRBORWE Particulates See Table 7-2 Continuous sampilng with Gross beta radioactivity particulate filter 24 hours af ter weekly coIIection weekly filter changel Quarterly composite (by location) for gamma isotopic 2 Radiolodines See Table 7-2 Contin w>s sampilng with Analyze weekly for 1-131 charcoal cartridge collection weekly DI. RECT _RADIATI_0N Environmental TLD See Table 7-5 Ouarterly Gaiana eroosure ovarterly9 Pressurized Ion Plymouth Beat.. Annually Gasuna exposure survey 9 Chamber Priscilla/Mhl e Horse Beach and Dust,Jry Beach 4 Soll See Table 7-2 3 Years Gamma Isotopic and exposure rate
. . . . _ _ _ _ ~ -
m - m Av. ' ' *I 1 E !='
~ ,
inni t_1- e_ PILCRIM_QCLEAR_PONER_5TATION
, OPERAT_IONAL_ RADIOLOGICAL _ENVIRONMEM_TAL_ MON!_TORING PROGRAM Esposure Pathway Sampilng, Measurement Type and Frequency or Sample / Measurement and/or Collection of Analysis or ,
Type loca t_i_ons F_requency Measuremen_t AQUATIC Seawater Discharge Canal Continuous Composite Gamma Isotopic 2 monthly. Bartlett Pond Heckly grab sample and composite for H-3 analysis Powder Point Contro14 Neckly grab sample quarterly 3 Shellfish (class, Discharge Canal Outfall Quarterly (at apprortsately Gamma Isotopic2 ,6 mussels or quahogs Manomet Point 3 month intervals) as available) Plymouth Harbor Dunbury Bay Contro14 Green Harbor Contro14 Powder Point Contro14 2, Lobster Vicinity of D*scharge Four times per season Gaiana Isotopic 2 on edible
? Point or Plymv th Harbor portions Offshore Contrc14 Once per season Fishes Vicinity of I, charge Quarterly (when particular Gaauna isotopic 2 on Point srecies available) for edible portions 5 Groups I and II, in season
- for Groups III and IV -l Offshore,Contro1 4 Annually for each group 5 Irish Moss (Algae) Discharge Canal Outfall Quarterly (at approx. Gasuna Isotopic 2 Manomet Point 3-month intervals)
E111sv111e Brant Rock Contro14
- -- -- - - ammmun ammme ammme ammune ammmme en - ammmme emmin summ= ==== **cv. ~ 7/l*'M e ntilF_ s,- 8 PILGRIM C3 CLEAR ;0HER_ STATION OPERA T IONAL_RADI OLOGI CALENVI.RONME N T Al._ HON I TORI NG_ PROGRAM Exposure Pathway Sampling. Measurement Type and frequency or Sample / Measurement and/or Collection of Analysis or Type L.oca t.lons Frequency Measuremen.t Sediment Rocky Point Semlannually Gamma isotopic 2 , 3. 7 Plymouth Harbor Plymouth Beach Manomet Point Dunbury Bay Contro1 4 Green Harbor Contro14 Powder Point Contro14 TERR GTRIAL Milk P1ystouth County Farm.8 Semimonthly during periods Gasuna 1sotopic2, radiolodine when available when animals are on analysis all samples Whitman Farm Controi4 pasture, otherwise monthly
; Cranberrles Manomet Point Bog 8 At time of harvest Gaasna 1sotopic2 on edib1'e o> Bartlett Rd. Bog portions Pine O Rog Contro1 4 Tuberous and Gree", Plymouth County Farm 8 At time of harvest Gasuna 1sotopic2 on edible Leafy Vegetab1".. Bridgewater Farm Contro1 4 portions Forage Plymouth County Farm 8 Annually Gamma Isotopic 2 Nhltman Farm Contro14
PNPS-0DCM
- i. Rev. 2, 7/15/88 t-TABLE 7-1 (Continued)
- NOTES I
If gross beta radioactivity is greater than 10 times the control value, gam a isotopic will be performed on the air sample. t 2 Gan-a isotopic means the identification and quantification of gamma-emitting radionuclides that may be attributable to the effluents from the facility.
~
3 If integrated gama activity (less K-40) is greater than 10 times the control value (less K-40), strontium-90 analysis will be performed on the sample. - 4 Indicates control location. 5 Fish analyses will be performed on a minimum of 2 sub-samples, consisting of approximately 400 grams each from each of the following groups: r I. Botto- Oriented II. Near Bottom III. Anadromous IV. Coastal Distribution Niaratory Winter Flounder Tautog Alewife Bluefish Yellowtail Flounder Cunner Rainbow Smelt Atlantic Herring Atlantic Cod Striped Bass Atlantic Henhaden Pollock Atlantic Mackerel Hakes 6 Hussel samples from four locations (imediate vicinity of discharge outfall, Manomet Point, Plymouth Harbor, and Green Harbor in Marshfield) will be analyzed quarterly as follows: i j One kilogram wet weight of mussel bodies, including fluid witnin i shells will be collected. Bodies will be reduced in column by drying at about 100*C, Sample will be compacted and' analyzed b Ge(11) gamma spectrometry or alternate technique, if necessary,yto I ' achieve a sensitivity of 5 pC1/kg for Cs-134. Cs-137, Co-60, 2n-65, and Zr-95; and 15 pC1/kg for Ce-144. Sensitivity valoes are to be i determined in accordance with a 95% confidence level on ka, and a l 50% confidence level on kb (See HASL-300 for definitions). The mussel shell sample from one location will be analyzed each quarter. One additional mussel shell sample will be analyzed semiannually. l I Unscrubbed shells *o be analyzed will be dried, processed, and analyzed similarly to the mussel bodies. o il { , i
PNPS-0DCH i Rev. 2, 7/15/88 TABLE 7-1 (Continuen) NOTES Because of the small voluT.e reduction in pre-processing of shells, sensitivities attained wit, be less than that for mussel bodies. The equipment and counting times to be employed for analyses of shells will be the same or comparable to that employed for mussel bodies so that the reduction in sensitivities (relative to those for mussel bodies) will be strictly limited to the effects of poorer geometry related to lower steple volume reduction. Shell sample', not scheduled for analysis will be reserved (unscrubbed) for possible later analysis. { If radiocesium (Cs-134 and Cs-137) activity exceeds 200 pC1/kg (wet) in F mussel bodies, these samples will be analyzed by radiochemical [ separation, electrodeposition, and alpha spectroscopy for radioisotopes of plutonium, with a sensitivity of 0.4 pC1/kg. 7 I Sediment samples from four locations (Hanomet Point, Rocky Point, Plymouth Harbor, and head of Duxbury Bay) will be analyzed once per year (preferably early sumer) as follows: Cores will be taken to depth', of 30-cm, minimum depth wherever sediment conditions permit by a hand-coring samplin If e- sedicent conditions do not permit 30-tm deep cores,gthe device. deepest [ cores achievable with a hanj. coring device will be taken. In any case, core depths will not be less than 14-cm. Core samples will be sectioned into 2-tm increments, and surface and alternate increments {. analyzed, other reserved. Sediment saeple volumes (determined by core diameter and/or numbtr of individual cores taken from any single location) and counting technique will be sufficient to i achieve sensitivities of 50 pCi/kg dry sediment for Cs-134 Cs-137 Co-60, Zn-65, and Zr-95 and 150 pC1/kg for Ce-144. In any case, individual core diameters will not be itss than 2 inches. { The top 2-cm section from each core will be analyzed for Pu isotopes (Pu-238, Pu-239, 240) using radiochemical separations, electrodeposition, and alpha spectroscopy with target sensitivity of 25 pC1/kg dry sediment. Two additoinal core slices per year i I (mid-depth slice from two core samples) will be similarly analyzed. l 8 These locations may be altered in accordance with results of surveys 1 discussed in paragraphs 8.1.A-3 and 8.1.A-4 of the Technical Specifications. 9 Minimum sensitivities for gama exposure / exposure rate measurements are I as follows: ' ' Gam-a exposure quarter 1) - 2 UR/hr average quarterly expcsure rate. Gamma exposure rate survey - 1 uR/hr exposure rate. l t
PNPS-0DCM Rev. 2, 7/15/6B TABLE 7 2 . PILGRIM NUCLEAR POWID STATION AIC PACTICULATE. RAD 1010 DINE AND S0lt SAWDLING LOCATIONS Sam;11ng Location Distance and (Desineation) D,1rection from Reactor ,
- 1. Offsite Statiens East Weymouth Control (EH) 24 Miles NH f
^
Plymouth Center (PC) 4.1 Miles W Manomet Substation (MS) 2.3 Miles SSE ; Cleft Re:L (CR) 0.86 Miles SSH
- 2. Onsite Staties E. Rocky Hill Road (ER) 0.65 Miles SE l W. Rocky Hill Road (HR) 0.43 Miles NNW I
Overlook Area (OA) 0.09 Miles W l Property Line (PL) 0.32 Miles NW . j Pedestrian Bridge (PE) 0.13 Miles N East Breakwater (ES) 0.33 Miles ESE Harehouse (HS) 0.11 Miles SSE l I t I I
~
l t
dNd$-003H yaA' t' L/LS/BS 1V613 4-E dTTDbIh NG3:4 dN36 51V1 ION 3NAIcGNn3N1vl 1H3shClnnIN35J3N1005Id3134 )lla( l'XvlIQNS ccpse;ea las 46ow )gapouspow( GH4vuae tup gnaeap ou ;aow setJ4aJ L t- )aatnpaw yaet 1 Mtasyenta. )MS( 900 ) sag SS3 stetgou g. )t( 1900 Jaal MNM dJodaatt 1gua. )d1( LLOC Jaat NM Stennou J. )J( ttoC laat NM stennou 0. )0( LL00 Jaal NNM dealguE yaat. )dy( LZ0C Jaat NNM dapatnavtu gpp54. )d3( loc Jaat N ! 1 aticenny Hetaolo!nati loasa )dH1( tt00 J3al MNM l o^aatoc3 w at, )OV( 100 isal M stetnou y. )V( lC00 iset MSM stetlou D. )D( LLOC Jaat H ' M' W031X HgLL 30tp. )Mh( ltCC Jaa4 MNM stetnou g. )6( ttoC 3a41 S 1:tt gaavqtlaJ. )39( LICC Jaal 3S3 snettou 1. )1( ltCC Jaat 353 snetgou 3. )3( LLOC Jae% 153 Httt t 906. )HG( Z0CC Jaat $3 12vguluS 3auta2 )13( glO Jaal MSM
)outatstoa atalluS lot )31( tloC Jaat S3 {
I sasnagtt Honsa $yCJa )401( LZO laat NNM ! Jausa syoJa ) dot ( ttO J881 MM jauO ' la;) snaaauqensa ) dot ( ttO Jaat NM i jausa' yn$yt snaaauqcnsa ) dot ( ; liO J884 M jau1a' Mttaa ivuT )401( 290 lael NN3 4
, tupnattas 110 losstgout JatngJ8P 4A dNdS lasyugaet sda3g;gatnnout l 5 - tI - i 1
PNPS-0DCH Rev. 2, 7/15/6B
'TADLE 7 3 (Continued) .
l PILGRIM h2 CLEAR P @iD STATION INVIt049tNTAL THEEv3LUw1NESCEWT.D051WETER (TLD) LOCATIONS Desirster tocatien (Desienation) Distance and Direction fro 1 Reneter
- 1. Evetesien area teentinued)
Fence Culvert (P06) 280 feet NE g Fence, Intake (P07) 400 Feet ENE I Fence New Administration Bldg. (POB) 300 Feet [ Fence. TCF Side of Triangle Area (P09) 450 Feet E Fence, Intake Side TCF (P10) 740 Feet ESE Gate. Warehouse to TCr iD11) 620 Feet ESE Fence. Harehouse Contrac,er Gate (P12) 660 Feet SE Fence Contractor Gate & Parking Lot (P13) 740 Feet SSE Fence. Butler Sidg. (P14) 750 Feet $ Fence, Unit #9 (P15) 720 Feet $ Fence, Switchyard and Main Gate (P16) 560 Feet SH . Fence, Shorefront and Main Gate (P17) 350 'iet M 1 & C. Ad-inistration Bldg. (Pil) 25. eet S i Coepliance Area Admin. Bldg. (P19) 280 Feet $ I Dosimetry Window. Ad-in. Bldg. (P20) 220 Feet SE i Walkway, Admin. Bldg. & Turb. Bldg. (P21) 160 Feet SE f { QA/QC Area. Admin. Bldg. (P22) 450 T'est 5'E !
. CH3 Area, Admin. Bldg. (P23) 400 feet SSE Old 1.dmin. Bldg., 2nd F1. (P24) 190 Feet W ^
First Aid Trailtr (P25) 250 Feet WNH l ll f g l t
l' g PhPS-0DCH Rev. 2, 7/15/8B 1 TABLE 7 3 (Continued) FILGt1H NUCLEAD POW'Eo STAf f 0N EN','IDSNutNTAL THERW3 LUMINESCENT DDS1 HETER (TLD) LOCATIONS i Defireter Locatiem (Desienatien) Distance and Direction from Peacter
- 2. Eveletiem Area to Abeut 2 Milet '
On BEco Procerty l Greenwood House (GH) 0.57 Miles SE East Rocky Hill Rd.* (ER) 0.65 Miles SE Emerson Road * (EP) 1.1 Miles SSE White Horse Road' (W4) { 1.3 Miles SSE Right of Way (RW) 1.7 Miles S Station K* (K) 1.4 Miles SSE Station J' (J) 1.3 Miles S Edison Access Road' (AR) 0.92 Miles S i l Station E* (E) 1.2 Miles S I Manomet Road (MR) 0.98 Miles S , Cleft Re:L* (CR) 0.86 Miles 5 1 Micromave To.er* (MT) 0.58 Miles SSH i Station H* (H) 0.57 Miles SH , Dirt Road (DR) 0.94 Miles SW
' [
Goodwin Property (CN) 1.4 Miles SH ! Off BfCo Procerty I Emerson Rd. & Priscilla Rd. (EP) 1.1 Miles SE i Taylor Ave. L Thetas (TT) 1.5 Miles SE I Taylor Ave. L Pearle (TP) 1.9 Miles St Rt. 3A & Bartlett Road (B!) 2.1 Miles SSE l; Valley Road (VR) 1.8 Miles SSH
- Indicates TLD locations requireJ by PhPS Technical Specifications ;
j i !
PNPS-0DCH Rev. 2, 7/15/BB IA9tE 7-3 (Centinued) PILCRlW NUCLEAR POWER STATION ENVIASNWENTAL THEPw?LUu1NESCENT 0051 HETER (TLD) LOCATIONS Desirette Letatien (Desicnatien) Distante and Direction from Rentter
- 2. Evelusi e Area to About 2, Miles (centinued)
Q!(s3Eco Proedy_f etmtinued) Yankee Village (YV) 1.4 Miles NSW Recreational Pool (RC) 1.3 Miles MSN I John Gauley Residence (JG) 1.1 Miles H Bayshore (BS) 1.3 Miles W - Bayshore Drive * (BD) 0.B1 Miles HNH Harren Ave & Clifford (HO) 2.1 Miles W
- 3. 2 Miles to About 5 Miles '
L Manomat Point * (MP) 2.3 Miles SE i Beachwood Road (BW) 2.5 Mllen SE
- 1
.. Manomet Elementary * (ME) 2.1 Miles SE Manomet Substation * (MS) 2.3 Miles SSE j Manomet Beach * (ME) 3.4 Miles SSE Earl Road (EA) 3.0 Miles SSE dt. 3A & Hyanr.ls Road (HR) 4.8 Miles SSE ~ , Beaverdam Road (BR) 3.5 Miles $
l - Pines Estates (PT) 2.7 Miles SSH Lon; Pond Rd. & Clark Read (LP) 5.7 Miles SSH Cellege Pond * (CP) 4.8 Miles SH Rt. 3 Overpass W ) 3.0 Miles SH i Russell Mill Read (RM) 3.0 Miles WSW i I i Long Pond L Dre. Road (LD) 4.5 Hiles WSH l S. Plymouth Substation * (SP) 2.8 Miles W
- Indicates TLD locations required by PhPS Technical Specifications PNPS-0DCH Rev. 2, 7/15/88 IABLE 7-3 (Centinued)
PILGRIM NUCLEAR PNEP STATION ENVIRSNu!NTAL THEfM3LU41NESCENT 0051FETER (TLD) LOCATIONS De s i r e t e r L o c a t i o n ( D e s i e n t.tjjlLnl Distance and Direction from Reatter 3, 2 Files te About 5 Miles (continued) . H111 dale Road (HD) 3.1 Miles M Deep Hater (DH) 5.3 Miles W Plymouth Center * (PC) 4.1 Miles W [ Hemortal Hall (MH) 4.7 Miles HNH
- 4. Creater Than 5 Hiles Rt. 3A & Ellisville Road (EL) 7.2 Miles SSE Division of Harine Fisheries (DMF) i4 Miles iSE Cedarville Substation * (CS) 10 Miles S
{ Bourne Road (BE) 8.4 H!1es $$H Upper College Pond Road (UC) 7.4 Miles SH h Main Street & Headow. Carver (HM) 11 Miles HSH
. Sherman Airport * (SA) 8.4 Miles NSW Sacred Heart School (SH) 8.1 Miles H North Plymouth * (NP) 5.8 Miles MNH Kingston Substation * (KS) 10 Miles WNH l Standish Shores * (55) 6.5 Miles NH Church & West Street (CH) 10 Miles NW East Weymouth* (EH) 24 Miles NW r'ig Caesar Road (KC) 8.1 Miles NNH Landing Road (LR) 10 Miles NNH
- Indicates TLD locations required by PNPS Technical Specifications
PNPS-00CM Rev. 2, 7/15/BB i TABLE _7-4 . PILCRIM NUCLEAR Pon'ER STATION PRES $UDIZED 10N CHAMBER (PIC) SURVEY LOCATIONS Survey Location Distante and Direction from Reneter White Horse Beach 2.1 Miles SE (Near Hilltop Ave) White Horse Beach 1.5 Milks SE (In Back of Full Sail Bar) I Plymouth Beach 4.4 Hiles NNW (Outer Beach) Plye09th Beach 3.5 Miles NNW (Inner Beach) , f Plymouth Beach (Behind Bert's Restaurant) 2.2 Miles N Duxtury Beach 7 Hiles NNW l Control i i
~
I - I : I . I . I , I I , I
PHPS-0DCH Rev. 2. 7/15/BB TABLE 7-5 PILGDIM NUCLEAR POWER STATION TERPESTRIAL AND A9)ATIC SA@ LING LOCATIONS i. St rline Letatien (Desienatien) Distance and Direction from Reacter TERRESTRIAL Cranberries ( Manomet Pt. Bog * (HR) Bartlett Rd. Beg * (BT) 2.4 Miles SE 2.7 Hiles $$E Pine St. Bog Contro1* (PS) 16 Miles NNH Fera:e e- Plymouth County Farm * (CF) 3.5 Miles N [ Davis Farm (DF) 3.1 Miles S Hnitman Farm Contro1* (HF) 20 Miles HNH Hilk P1 mouth County Farm * (CF) 3.5 Miles W Wh tman Farm Contro1* (HF) 20 Miles NNH Seawater Discharge Canal * (DIS) i- Bartlett Pond * (BP) 0.13 Miles N 1.7 Miles SE Powder Point Control * (PP) 7.9 Miles NNH f Ve:etatien . Plymouth County Farm * (CF) 3.5 Miles W I Bridgewater Farm Cont.* (BF) 20 Miles W Whipple House (H9) 1.8 Miles SW Alden Road (AF) 0.77 Miles SE Malmgren Residence (ML) 1.0 Miles SE l Jenkins Residence (JG) 1.2 Miles PSH Moon Residence (MG) 2.1 Miles WSW i I i 1
- Indicates sa?;11ng locations required by PNPS Technical Specifications f
I i I
PNPS-00CM Rev. 2. 7/15/88 TABLE 7-5 (Continued) PILGDIM NUCLEAR POWER STATION TED:ESTRIAL AND A00ATIC SAMPLING LCC ATIONS Sa-r18ne locatiem (Desienatien) Distance and Direction from Reactor AOUATIC Fishes Discharge Canal * (DIS) 0.21 Miles N Cataumet Control (CA) 20 Miles SSH Priest Cove Control (PC) 30 Miles SH l Jones River Control (JR) 7.8 Miles MNH Buzzards Bay Control (BB) 23 Miles SSH Vineyard Sound Control (MV) 40 Miles ESH Atlantic Ocean Control (AO) 30 Miles E ' I N. River-Hanover Control (NR) 15 Hiles NNH Nantucket Sound Control (NS) 30 Miles SSE Cape Cod Bay Control (CC-Bay) 15 Miles ESE Provincetown Control (PT) 20 Miles NE 1rish Hess Discharge Canal (DIS) 0.21 Miles N Manomet Point (MP) 2.2 Miles ESE E111sv111e (EL) 7.9 Miles SSE I Brant Ro:k Control (RK) 10 Miles NNH - Letster Discharge Car..'.* (DIS) 0.21 Miles N Plymouth Harbor * (Ply-H) 4.0 Miles MNH Dunbury Bay Control (Dur-Bay) 7.1 Miles NNH I Duxbury Beach Control (Dur-R) 5.8 Miles NNH Sedicent Rocky Point * (RP) 0.21 Miles N Plymouth Harbor * (Ply.H) 3.0 Miles M ' Plymouth Beach * (PLB) 2.5 Miles M I . Manomet Point * (MP) 2.5 Miles ESE Durhury Bay Contro1* (Dun-Bay) 8.7 Miles NNH Green harbor control' (GH) 10 Miles NNH Shellfish Discharge Cana1* (015) 0.21 Miles N Plymouth Harbor * (Ply-H) 2.8 Miles M Manomet Point * (MP) 3.0 Miles ESE Duxbury Bay Contro1* (Dux-Bay) 7.8 Miles NNH l Green Harbor Contro1* (GH) 9.9 Miles NNH r l
- Indicates sae;11ng locations required by PNPS Technical Specifications g i
- - - - - - - - - - - g , my , ,
new. 2. 7/15/88 TA8tE_7-6 MK ! MUM _VALUE5_FOR_TNE_t0Mf R_L I MI T S_'Or_DE T E CT I ON_( t t D) a Alrbornefartl.tviate Nater or_ Gas f Met _ Sol _fds Ml_1k r_ cod _Prodocts Dry _Sollds Analysts (pCl/kg) (pCl/m3) (pCi/kg. wet) (pCilkg) (pCilkg. wet) (pCilkg. dry) gross beta Ab 1 x 10-2 3ii 2000C 54Mn 15 130 59Fe 30 260 58.60Co 15 130 50
, 65Zn 30 260 50 E
95Z r 15 50 1311 1 7 x 10-2 1 608 134.137Cs 15. 18 1 x 10-2 130 ?5 60 50 idosa 15 15d 144Ce 150 IAstLN07Airou
- a. Refer to Append 1m B for LLD deflattlon.
I
- b. LLD for surface water.
- c. If no drinking water pathway entsts, a value of 3000 pCl/1 my be used.
- d. LLD for 1cary vegetables. '
P i; i2 sm ea em t.m ae ei; i. ,i.ia :a o a w E,_f) I' i l .. iy 00' i3 it$ i a i I , . ..---. ... ,y .- . . -- . ll f tl 5 4
*i h: y lI?j' \ 9 cY/ k \ / N /l < ~ } - l ,:; - 2 *? )W.+!
j., x . j e l/
.! t *.:' ' '. A 4 lY' __
t,- l ff[ '!' . 4 i $id, I \
! 4 i. h 4
A N x\\
\
5
'I
[ ji
$I \s .,! / L P
N).\ /.-o
\'
(/ ' 6 St APERTURE l 6g/ CARD I '\ Abo Asallab!r On ga : ... \ Aperturt Card
',1$ -
k ,.. ,.- s s i o t t c 2 so - o (
- - _ _.- - . - . . - . . . ..m
I l NNW N NW , I WNW L i ( i y - ENE e,
\i h s ,'N f $m .-t.
_D ,d '% t' y
- 6. y f
ws ,
' E !
j'Y/ . !
, w h ! l ' % i .s; , .. . @ f SW '., ,h*
ESr [
/ . . /
SI r 1 SW r f #
'@ SE CARD -
SCR[ g S SE . - - - Aho Asallable On f U1re n e m t.: A[wrture Card l e=MY e BOSTON EDIS0N COMPN !
---- Dim FJ PM Em NE M.N ! - - . . mf.n ounca maasmr maniw a !
SYusoi . m-O 1L0 l c3
- w3
.s:. d'$ l O l( 013 0 - 0 2_ !
t (
~~ --..- . . .___.....,.2 , j
OL h . 3 ' AI ** E e
\ == I{' j 'I N' %
g i i
/ /4 NNV \ /' , , NV gqg l / I U M 'm 4. 'UY r/ 4 NC b t' ~
g,
\ / * ' *,9* st V! 4 j' sv .
e b p M S
\ S sst N. \
Yj/ g . ,\ t S1
/ /
p APERTURE cAnn Ab0 Avall311le On A[4Tture Card O g g t O l l O ?_30 - 0 3 / N . ,4 " *"V g t
/*\ ie Figste 7 3 i ? I BOSTON EDIS05 COMPN = "_ t = ma . _ . _ . . mun ma smm Nm mas
_ _ _ _ re.s tuom nuuecar m a san o awxtawcuerroe n 7, C O SW'.[1 ~
. es cut u,o \* O o% , o==
- =
c2 marmunru Cr rua
.., U n.m / / l] =
j O == sa:came ,g g O an3=r idme = oux = . . . 0 ..
*. I1 j s :.. / > ,' ,'
ca 7
% /
A l
+ NNV l N NV :n :
_Qsaa c e
, NNE / .d.
I- e%p NC
"*f QQ @ tut \(j/*l ~.
t Ivsv C c' ~F
\ yJ ,ESE g.3, ,fg m it \ -
e N
/* sv sc sst \ .r sl s \ \ \ /[ \/ /
1 SI . I
/
APERTURE CARD Atso Asailabte On . .a g 1 Aperture Card Gr
.a ===
f'\ '
@a S S I O l l D 2 3 0 - O ']
B W D J0.' 00% 0 ANT 58- I&h" w x creas d*d$ l
a -~/~ SYMBOL XEY: [ Ta ==u
- =
0 mm c3 a == = CI FM3 . i g,T ' O INAS
/ '
1 *\
~ g" _
3 . ru o 4 7 0
- a s
e N8 h
/
v. g Y ~ j . i h o - i, a g i 3
,L . t j 's s P , ,
4 A 3 -/ gP V =
-}' =
r s Sl M , APERTl'RE
, caau ,7,,,,,,,
A tso m e w e o n BOSTON EDIS0N C0VPN Ancrt"" nird P w 3 E 0IB NTB m t0S twposutsw swPuso no , up s h iuchT CO P CL LCC C O'<S E 3 ( O i l 0 2. 3 0 - O 'I 3 3.-
PNPS-0DCH Ree. 2, 7/15/88 8.0 Des M etien of the Pa haste Systers 8.1 Liquid Radmaste System Liquid wastes from Pilgrim Station originates from a variety of < sources which have a considerabit disparity in chemical and , 9 radio-chemical composition and concentration (see section 9.2 of l keference 10). Normally these wastes are collected and treated separately. The liquid wastes fall into the following categories: l
- 1) High Purity
- 2) Low Purity
, 3) Detergent High purity clean wastes may have high or low solids content and generally have low conductivity, and variable radioactivity. They -
come from equipment drain sumps, from *trasonic resin cleaner (UR;) operation, and from the backwash and resin transfer water used to change out the conciensate demineralizers. Liquid wastes collected in the turbine building equipment drains may sometimes be included with the high-purity waste stream; more frequently, they are returned directly to the main condenser hotwell. Reuse of processed high-purity waste is highly desirable. Low purity chemical wastes have moderate conductivity and solids content. They come from building floor sumps and are generally high-purity wastes which have been contaminated by dirt, oil, etc. - When processed, this stream may or may not be reused depending on I the water balance in the plant and the quality of the product. I' Detergent wastes, are low radioactivity concentration wastes that have the potential to contain detergents. This waste is generated I. from washing and decontamination of the equipment, the plant, and I- personnel. This detergent waste which is collected in the Miscellaneous Waste Tank is not treatable. The waste is :ssted through strainers, prior to discharge through the radwaste discharge header and into the circulating water discharge canal,
't A schematic of the cost beneficial system as determined in Ref. 2 ; . is shown in Figure 8-1. In the system, the High Purity waste is collected in one of two 15,000-gal clean waste tanks, and processed , through mixed bed ion exchangers. The processed liquid is
( collected in one of four 18,000 gal treated water holdup tanks. It a is reused to the greatest extent possible, i 1 I
f+ PNPS-0DCH Rev. 2, 7/15/88 q:.. og::iv h:5?E SiSTEM Clean Waste' '
t xed Eed ( Treated Water s Disctarge Ta"6 s lonen Tanks or Re:y:1e I
I L0u PU:!TY WSi! SrSTEM I :ner.ical Waste s !ischa ge T a n 6. s ", . I I I . DETEE0!NT I . Wa$i! SfST!H (De:On A eas) Mis: haste Tanks or N0n-trea:a:le Releases > :ischarge (e.g., ne.<trali2er sur;s) I s I
,,,-e e., u - a 3,1e 1,ea:,e,: s,ste, s:he=31 u .
I . I t I . i l
1
)
PNPS-0DCH Rev. 2, 7/15/88 i 8.2 Treated Gaseous Radwaste System f The Air Ejector and Augmented Offgas System (see Section 9.4 of Reference 10) includes the subsystems that process and/or dispose of the gases from the main condenser air ejectors, the startup mechanical vacuum pump, and the gland seal condensers. All such 9 gases from the unit are routed to the main stack for dilution and g elevated relrase to the atmosphere. Discharges from the air ejector, the charcoal vault, and the stack are continuously-monitored by radiation monitors, i Gases routed to the main stack include air ejectvr .nd gland seal offgases, and eases from the Standby Gas Treatment System (SGTS). Dilution air input to the stack is supplied by one of two fans , , located in the filter building at the base of the main stack. The , stack is designed such that prompt mixing of all gas inlet streams occurs in the base to allow location of sample points as near the base as possible. - The Augmented Offgas System uses a high temperature catalytic recombiner to recombine radiolytically dissociated hydrogen and oxygen from the Air Ejector Syste.a. NoncondensiblJ radioactive offgas is continuously removed from the main condenser by the air ejector during plant operation. The air ejector offgas normally f* contains activation gases, principally N-16, 0-19, and N-13. The N-16 and 0-19 have short half-lives and quickly decay. The 10 min half-life N-13 is present in small amounts which is further reduced by decay. The air ejector offgas also contains St-90, Ba-140, and Cs-137. After hydrogen / oxygen recombination and chilling to strip the condensibles to reduce the volume, the remaining g noncondensibles, principally the kryptons, xenons, and air, are delayed in a 30 minute holdup system before reaching the adsorption bed. Radioactive particulate daugthers of the noble gases are retained on the HEPA filters and on the charcoal. The charcoal I adsorption bed, operating in a constant temperature vault, t selectively adsorbs and delays the xenons and kryptons from the bulk carrier gas, principally air. This delay on the charcoal I l permits the xenons and kryptens to decay in place. The ofi m i. discharged to the environs via the main stack. The activity of the ! gas leaving the Offgas Treatment .5ystem is continuously monitored i as described in 3.2.1. This system results it a reduction of the i l
- offgas activity (Curles) released by factor of approximately 185 i relative to a 30 minute holdup system. i
? The cost-beneficial system as determined in Reference 2 for I handling gaseous waste in Pilgrim I is shown in Figure 8-2.
I I
't i I
PHPS-0DCH Rev. 2, 7/15/BS 5]AE from m u Main ' Recombiner N Conc,nser N Drier Y Charcoal N to Stack Condenser , I GLAND SEALS from m m I Turbine ' 1.7-minute Holdup' ' to Stack Gland Seals l MICHANICAL VACUUw PU@ from I Main > to Stack
,Concerser DRYWELL 1
from x Drywell ' to Stack 1 REACTOR E'JILDING from Reactor > to R.S. Eld 9 Vent RADWASTE BJILDING from i f Rad =aste > to R.B. l Bld; Vent !l l l TURBINE B'J1LDING l from l Turbine s to R.B. i Bldg Vent l No significant effect in reducing offsite doses when compared to transit time required for releases to reath site boundary. f g Figure 8- 2 Gaseous Effluent Treatment Schematic {
PNPS-0DCH Rev. 2, 7/15/BB 9.0 Peferences .
- 1) U. S. Nuclear Regulatory Commission, Regulatory Guide 1.109, "Calculation of Annual Doses to Han from Routine Releases of i Reactor Effluents for the Purpose of Evaluating Compliance with 10CFR50, Appendix I", Revision 1, October, 1977.
- 2) Boston Edison Company, Pilgrim Station Unit 1 Appendix I 4
Evaluation, April, 1977. l 3) 3.N. Hamawi, "AEOLUS", Yankee Atomic Electric Company YAEC - 1120, t 1977.
- 4) J. N. Hamawi, "SKIRON", Yankee Atomic Electric Company YAEC-1138, 1977.
- 5) Boston Ed'. son Company, PNPS Technical Specifications.
I 6) Boston Edison Company, PNPS Operations Manual, Volume 8, Book 8: s Surveillance Procedures. l 7) Boston Edison Company, PNPS Operations Manual, Volume 7. Book 2: Chemical and Radiochemical Procedures.
- 8) General Electric Company, GEK-32445A, Pilgrim Process Radiation Honitoring System Manual.
- 9) Boston Edison Company, PNPS Maintenance Department Recalibration I and Halfunction Records. '
- 10) Boston Edison Company, Upated Final Safety Analysis Report for I Pilgrim Nuclear Power Station, Volumes 1 through 7.
- 11) U. S. Nuclear Regulatory Commission NUREG-0133, "Preparation of l Radiological Effluent Technical Specification for Nuclear Power 1 Plants", Revision 2 Hay, 1982.
! I 12) U.S. Nuclear Regulatory Commission, NUREG-0016 "Calculation cf l l Releases of Radioactive Haterials ir 3aseous e.nd Liquid Effluents from Boiling Hater Reactors (BHR-GALE Code)," April,1976. l 13) Letter from Thomas A. Ippolito Chief, Operating Reactors Branch l .
#3, Division of Operating Reactors, to G.C. Andognini, Boston Edison Company, dated January 23, 1979, including guidance on the general contents of the ODCH.
- 14) "HERHES", A Digital Computer Code for Estimating Regional i
Radiological Effects from the huclear Power Industry, HEDL-THE-N1-168, December 1971. i ! 15)
, U. S. Nuclear Regulatory Commission, NUREG/CR-3332 "Radiological l ,
Assessment". December 1983. l [ [
PNPS-00CH
! Rev. 2, 7/15/88 1
1 l' 9.0 References (continued i )
- 16) G. L. Toombs and P. B. Culter, "Comprehensive Final Report for the g
Lower Columbia River Environmental Survey in Oregon June 5, 1961 - i
}' July 31, 1967," Oregon State Board of Health, Division of Sanitation and Engineering, 1968.
- 17) D. F. Bunck (ed.), USAEC Report IDO-12063, "Controlled Environmental Radiciodine Test, Progress Report Number Two".
January 1968.
- 18) J. D. Zimbrick and P. G. Voilleque, USAEC Report 1D0-12065, "Controlled Environmental Radiolodine Tests at the National Reactor Testing Station, Progress Report Number Four," December 1968.
- 19) F. O. Hoffman, IRS-N-6, "Env; rp'nmental Variables Involved with the Estimation of the Amount of 3'I in Hilk and the Subsequent Dose to the Thyroid," Institute fur Reaktorsicherheit, June 1973.
- 20) F. O. Hof fman, IRS-N-13. "A Reas sessmen PredicttheEnvironmentalTransportof{3'IfromAirtoHilk,"pf the Parameters Use Institute fur Reaktorsicherheit, April 1975. -
21)
- C. A."The 777, Pe11etter andof Behavior P.137Q. Vo111eque, Health Physics, Vol. 21, p.
Cs and Other Fallout Radionuclides on a Michigan Dairy Farm," 1971. r 22) P. G. Vo111eque and C. A. Pelletier, Health Physics, Vol. 27, p. 189, "Comparison of External I Hilk as Critical Pathways for q'3 Cs,5gHn,anddiatinandCongmptg4n I Ce- Pr Released of Cow's to the Atmosphere,", 1974.
- 23) L. R. Anspaugh et al., USAEC Report UCRL-73195, Rev.1, "The Dose r to Han via the food-Chain Transfer Resulting from Exposure to Tritiated Water Vapor,",1972.
- 24) Y. C. Ng et al., USAEC Report UCRL-50163, Part IV, "Prediction of the Maximum Dosage to Han from the fallout of Nuclear Devices IV I Handbook for Estimating the Maximum Internal Dose from Radionuclides Released to the Biosphere," 1968.
- 25) R. C. Weast (ed.), "Handbook of Chemi:try and Physics " CRC Press,
! I 1970.
- 26) U.S. Nuclear Regulator Commission, NUREG-75/021. "Detailed Measurement of I-131 in Air, Vegetation and Hilk Around Three i Operating Reactor Sites," Harch 1975.
I' i l l
-6t-
__ - - - -- - - , - - - - - - - ~
PNPS-0DCH Rev. 2, 7/15/86 ll I e I lL k DATA REQUIRED FOR EFFLUENT CALCULATIONS i E 4 I e i . I . I I I l . I I I
O I
- tat.t A 1 I!OA*tLHJ'. Af f 0% FA!T0:5 TO 9t U5fD Ih TNT Af 5thtf 0F $1'!.5etCIFIC DATA I (p;1/ag per p;1/11ter)'
FRTswATER SALTWAttR fttWIA' fl5W INV[eff8tlit I Fl5M lhytRT[ltitt M 9.0[.01 9.0E 01 9.0t 01 9.3I.01 C 4.6C 03 9.1E C3 1.It 03 1.4! 03 1 ha 1.0C 02 2.0C 02 6.7! 02 1.9t 01 P 1.0C 05 2.0C 04 2.9t 04 3.0t 04 CR 2.DC 02 2.0f 03 4.0E 02 2.0t 03 I M '. 4.0t 02 9.0t 04 5.5E 02 4.0E 02 Ft 1.0E 02 3.2t 03 3.0C 03 2.0E 04 C0 5.0t 01 2.0( 02 1.0! 02 1.0( 03 I h: 1.0I 02 1.0C 02 1.0! 02 2.5E 02 CL' 5.0C 01 4.0C 02 6.7I 02 1.7C 03 g , Zh 2.0! 03 1.0C 04 2.01 03 5.0t 04 3 et 4.2t 02 3.3t 02 1.5t 02 3.11 00 R$ !.0t 03 1.0C 03 8.3! 00 1.7[ 01 Sa 3.0t 01 1.0! 02 2.0! 00 2.0[ 01 1 2.5! 01 1.0! 03 2.5E 01 1.0I 03 l 28 3.3I 00 6.7[ 00 2.0! 02 8.0C 01
- hl 3.0! 04 1.0f 02 3.0I 04 1.0! 02 MO 1.0C 01 1.CC 01 1.0f 01 1.0t 01 TC 1.5E 01 5.0t 00 1.0C 01 5.0t 01 RJ 1.M 01 3.0C 02 l
I R- 1.0! 01 3.0I 02 3.0C 00 1.0! 01 1.0! 03 2.01 03 i TI 4.0C 02 6.1E 03 1.0C 01 1.0! 02
! 1.5! 01 5.0L 00 1.0t 01 5.0t 01 l C5 2.0[ 03 1.0t 03 4.0t 01 2.5! 01 B1 4.0C 00 2.0( 02 1.0! 01 1.0! 02 LA 2.5C 01 1.0! 03 l
I
- CI 1.0C 00 1.0C 03 2.51 01 1.0t 01 1.Of 03 6.0t 02
! PR 2.$t 01 1.0t 03 2.5! 01 1.0! 03 ho 2.5! 01 1.0C 03 2.5C 01 1.0t 03 w 1,2E 03 1.0( 01 3.0t 01 3.0C 01 ht 1.0[ 01 4.0! 02 1. 0( 01 1.0C 01
'va1wes in Tatie A.1 are taken fre Reference i eless otherwise indicated.
I I l i ^-2 l I - . _ _ _ - . . - - - _ - .- ---
m ev -a 7/ 9 8 - - ~ ~ TABLE _A-2
' DOSE _ FACTORS _FOR_ IMMERSION _IN MATER' '
(mrem /hr_per_pCi/1_ iter)_ W Nuclide Skin Total Body _(b) Nuc11de Skin To.ta l_ Body _(b) N-3(C) 0 0 Zr-95 1.8E-6 1.5E-6 0-13 2.6E-6 1.9E-6 Mb-95 1.6E-6 1.4E-6 C-14(C) 3.8E-6 0 Ho-99 9.1 E- 7 4.7E-7 Ma-22 4.8E-6 4.0E-6 Ru-103 1.1E-6 8.9E-7 Na-24 9.3E-6 7.8E-6 Ru-106 1.9E-6 Cr-51 3.80-7 6.4E-8 5.2E-8 Te-132 4.8E-7 4.0E-7 Hn-54 1.8E-6 1.5E-6 I-129 6.1E-9 2.1E-9 Fe-55(d) 3.6E-10 6.4E-11 I-131 9.5E-7 6.dE-7 Fe-59 2.6E-6 2.2E-6 I-132 5. 5E-6 4.4E-6 Co-58 2.3E-6 1.8E-6 I-133 1.5E-6 9.6E-7 Co-60 5.4E-6 4.6E-6 I-135 4.0E-6 3.3E-6 Ni-63 0 0 Cs-134 3.5E-6 2.9E-6 Cc-64 5.2E-7 3.7E-7 Cs-137 1.4E-6 1.0E-6 Zn-65 1.2E-6 1.1E-6 Ba-140 7.6E-7 4.6E-7 Sr-89(d) 5.4E-7 4.6E-9 La-140 5.3E-6 4.1E-6
?" Sr-90(d) 1.5E-7 5.4E-10 Cc-141 2.4E-7 1.3E-7 'o Y-90td) 9.6E-7 1.3E-8 Ce-144 6.2E-8 3,0E-8 (Sr+Y-90)(d)(e) 1.1E-6 1.3E-8 Pr-144 I .3E-6 5.6E-8 (Ce+Pr-144)(I) 1.4E-6 8.6E-8 (a) The same factors apply to adult, teenager, and child.
(b) Total body factors also apply to other internal organs. (c) Not including penetration of ontde into skin. (d) Includes bremsstrahlung. (c) Use these factors for Sr-90 unless Y-90 concentration is given separately. (f) Use these factors for Ce-144 unless Pr-144 concentration is given separately. Data presented in this table are from Reference 14
l PNPS-0DCH Rev. 2, 7/15/88 l TABLE A-3 , REC 0 WENDED VALUES FOR LIOUID EFFLUENTS Parameter l Syrbol l l Values M1 is the mixing ratio at location 1 0.2 (Aquatic foods, ! of exposure or harvest of aquatic Discharge Canal) l foods" 0.5 (Shoreline, ! Pilgrim Station Recreational Area)a 1.0 (Shoreline, l , Discharge Canal) 0.03 (Swimming, White Horse Beach) l- 0.03 (Boating, Cape . Cod Bay) th is the period of time between 24 hr for maximum exposure of aquatic foods to individual radionuclides water and their 168 hr for average consumption individual, sport fish doses 240 hr for average individual, commercial fish doses H1 is the shoreline uidth factor for 0.5 (Recreational location 1 ** Area) 0.1 (Discharge Canal) i Data presented in this tam a a.re from Reference 1 unless otherwise noted.
** From Reference 2.
I a Swiming is prohibited at Pilgrim 3tation Recreational Area. l I i i A-3
- - - - - - - - - , - - , - , - - . ~ - . - - ,
PNPS-00CH l Rev. 2, 7/15/88 ! l TABLE B-1 l DSSE FACTO:S F0D EYDOSURE TO A SEH1-INFINITE CLOUD OF NOBLE GASES
- j 0-air (OFNi) 6-skin (OFN ) T-air (OFN ) 1-body (DFNmrem-m3/et'TB) h N. elide read-r3/rCi-vr nrem-r3/eC' -vr rrad-r3/e i-vr vr Kr-83m 2.88E-04 ---
1.93E-05 7.56E-08 lKr-85m 1.97E-03 1.46E-03 1.23E-03 1.17E-03 Kr-85 1.95E-03 1.34E-03 1.72E-05 1.61E-05 Kr-87 1.03E-02 9.73E-03 6.17E-03 5.92E-03 Kr-88 2.93E-03 2.37E-03 1.52E-02 1.47E-02 Kr-89 1.06E-02 1.01E-02 1.73E-02 1.66E-02 7.83E-03 7.29E-03 1.63E-02 1.56E-02 lKr-90 Xe-131m 1.11E-03 4.76E-04 1.56E-04 9.15E-05 Xe-133m 1.48E-03 9.94E-04 3.27E-04 2.51E-04 . Xe-133 1.05E-03 3.06E-04 3.53E-04 2.94E-04 Xe-135m 7.39E-04 7.11E-04 3.36E-03 3.12E-03 Xe-135 2.46E-03 1.86E-03 1.92E-03 1.81E-03 Xe-137 1.27E-02 1.22E-02 1.51E-03 1.42E-03 Xe-138 4.75E-03 4.13E-03 9.21E-03 8.83E-03 Ar-41 3.28E-03 2.69E-03 9.30E-03 8.84E-03 Data presented in this table are fro- Pehrence 1. I I I I I A-4 I
1 l l t 1 TABLE t.) l STA5'.E tt tMENT TRANSFET DATA' l-g, g F,(Cow) Fg Elve.t vect5:11 Milt (d/t) Meat (d/tti M 4.8! 00 1.0I.02 1.2t.02 C 5.5E 00 1.2E.02 3.1E.02 ha 5.2E.02 4.0I.02 3.0E.02 F 1.1E 00 2.51 02 4.6E.02 Cr 2.5t 04 2.2I.03 2.4E.03 M r. 2.91 02 2.5t.04 8.0E.04 Fe 6.6E.04 1.2[.03 4.0E.02 Ce 9.4E.03 1.0!.03 1.3I.02 hi 1.91 02 6.71 03 5.3I.02 Cu 1.2E.01 1.4I.02 8.0E.03 2 r. 4.0E 01 3.9E.02 3.0[.02 R: 1.3t 01 3.0E.02 3.1!.02 Sr 1.7t.02 8.0E.04 6.0t.04
- Y 2.6I.03 1.0!.05 4.6I.03 Ze 1.71 04 5.0!.06 3.4I.02 h: 9.4E.03 2.5I.03 2.8I.01 M: 1.2[.01 7.5E.03 8.0!.03 i
Tc 2.51 01 2.5t 02 4.0E 01 As 5.0I.02 1.0!.06 4.0E.01 R t. 1.3E 01 1.0E.02 1.5I.03 A; 1.5E 01 5.0t.02 1.7[.02 Te 1.3E 0" 1.0E 03 7.71 02
" 1 2.0E 02 6.01 03 2.91 03 Cs 1.01 02 1.2[.02 4.01 03
- Be 5.0E 03 4.0E 04 3.2I.03 La 2.5E 03 5.0E.06 2.0t.04 I Ce Pr 2.5E.03 2.5t 03 1.0t 04 5.0E 06 1.2E.03 4.71 03 hi 2.4t.03 5.0I.06 3.3t.03 W 1.8E.02 5.0F.04 1.3t.03 h; 2.5I.03 5.0t. 96 2.0t 04 0ata presented in this table is fror Refer:.:* 1 l
I I l 0 A-5 i. l.
I l PNPS-00CH Rev. 2, 7/15/88 TABLE E-2 l NUCLIDE TRANSTER PARAMETERS FOR COAT'S MILK
- l Element Fm (days / liter)
H 1.70E-01 C 1.00E-01
. P 2.50E-01 Fe 1.30E-04 Cu 1.30E-02 Sr 1.40E-02 I 6.00E-02 Cs 3.00E-01 TABLE E-3 ANIMAL CONSUMPTION RATES
- 0F OAW Feed Or Forage Water Aninal (ke/dev fwet weicht]) (f/ day)
Hilk Cow 50 60 Beef Cattle 50 50 Goats 6 8 j 0.t. presented in these tables are from Reference 1. i f ( A-6 l
PNPS-0DCH Rev. 2. 7/15/88 IH LE E-4 REC 0uuENDED USE FACTORS TO BE APPLIED FOR THE AVfRAGE INDIVIDUAL
- Pathway Infant Child Ilta Mal.1 .
Fruits, vegetables, & - 200 240 190 I grain (kg/yr) Hilk (f/yr) 330 170 200 110 Heat & poultry - 37 59 95 (kg/yr) Fish (kg/yr) - 2.2 5.2 6.9 Seafood - 0.33 0.75 1.0 i (kg/yr) Drinking water 330 260 260 370 I (f/yr) Shoreline recreation ** (hr./yr) I Discharge Canal - 9.5 47 8.3 Pilgrim Station Recreational Area - 9.5 47 8.3 Swim-ing - White Horse - 29 52 52 Beach ** (hr/yr) Boating - Cape Cod - 29 52 52 Bay ** (hr/yr) Inha ation 1400 3700 8000 8000 (m3/yr) I A Usage factors for the average individual are used to determine the innnual dose to the total body and thyroid of an average individual and the annual integrated dose to the population within a 50 mile radius. Data presented in this table are from Reference 1, unless otherwise indicated.
** From Reference 2.
I I A-7 1 e
I l l I PNPS-0DCH Rev. 2, 7/15/88 ' TABLE E-5 REC 0W ENDED USE FACTORS TO BE APPLIED FOR THE MAXIMUM EXPOSED 'NDIVIDUAL
- Pathway Infant Q11d 113n Mul.t Fruits, vegetables & -
520 630 grain (kg/yr) 520 l Leafy vegetables - 26 42 (kglyr) 64 Milk (llyr) 330 330 400 310 Heat & poultry - 41 65 (kg/yr) 110 Fish (fresh or salt) - 6.9 16 (kg/yr) 21 Shellfish " - 3 6 (kg/yr) 9 Drinking water 330 510 510 (f/yr) 730 l Shoreline recrestion " (hr/yr) Discharge Canal - 14 67 Pilgrim Station 12 I Recreational Area - 14 67 12 Swim.ing - White Horse - 29 52 i Beach ** (hr/yr) 52 Beating - Cape Cod - 29 52 l Bay " (hr/yr) 52 j Inhalation 1400 3700 8000 8000 (m3/yr) Data presented in this table are from Reference 1, unless otherwise l indicated.
" From Reference 2.
I
- 1 A-B i
TAB.! t 6 INTrevi 005t F A 1085 F08 STACINO 04 C0C&41MTO SRDUC * (pre /hrperPC1/r.3) [1rril Total Bo b SHa N.3 0.0 0.0 C 14 0.0 0.0 M.24 2. 50!. 08 2.90t.01 ' P.32 0.0 0.0 Cr41 I M'*$4 2.2:f.10 3,30t.09 2.60!.10 M^.56 6.80[.09 1.10t.04 1.30t.06 F'.55 0.0 0,0 Fe 59 I Co.58 s.00t.09 7.00!.09 g.40t.09 8.20t.09 Co.60 1.7CI.04 2.00!.06 hi.63 0.0 0.0 hc.65 3.70!-09 4.30t.09 I Cw.fa Zm.t! 1.50t.09 1.70t.09 4.00!.09 4.60t.09 26.E9 0.0 Br.83 0.0 6.40t.11 9.30t.11 Br.84 1 Br.t5 1.20!.C8 0.0 1.40[.06 0.0 Rt.85 6.30t.10 R:.fi 7.20t.10 3.50t.09 4.00C.C9 Rt.Il 1.50t.08 I Sr.85 3r.51 5.60t.13 1.30t.08 6.50!.13 7.10t.09 8.30I.09 Sr.92 9.0;t.09
! 1 9; 1.00[.08 2.20[.12 2.40t.12 f.91M 3.8 [.C9 1 91 4.40t.03 2.40!.11 2.70t.11 T 92 1.6:!.09 T 93 1.90t.09 y 5.70t.10 7.3:t.10 2r*91 5.00f.C) % 2r l? 5.Ot.c) 5.50t.05 6.4Ot.09 hb.95 5.10E.Cl Me.ii 6.0Cf.09 1.9:!.Cl 2.20!.Cl T C. 9ie' 9.6 !.1C TC*101 1.10t.Cl ' 2.701.Cf 3.0C!.09 Rw 1C3 3.60!.09 Rw.105 4.20t.09 4.5Ct.09 5.10t.03 e
Iw.10f 1.50t.Cl 1,3;I.C9 i A 3.11CP8 1.00!.08 2.10t.04 e Te.12tp 3,5;t.11 g,g0g.ig To.1277 1.1 ct.12 Te.127 1.30[.12
- 1. 00!.11 1,10t.))
g Te.12P 7.70t.10 fe.125 9.0Ct.10 7.1CI.10 3.49t.10 fe.131* 8.431 09 p,90t.cg 14 131 2.201 01 f T4 131 2.60t.0(
- 1.70!.05 2.00!.09 3 130 1.40 t .04 I !.131 1.70t.08 2.00t.09 3,ect.03 1 132 1.701 06
!.133 2.00f.08 e
3.70!.09 4.50t.05 1 134 1.6:1 08
. 3 135 1.DCf.0 1.20t.06 1.40t 0,4 t
- Data presented in this table 15 fr0'. Reference 1 t
/\r10
TAI.t 16 (Continwed) * . t ireat Tetai sees Skin Cs.134 1.20E 00 1.40(.04 - ll Cs.136 1.50t.00 1.70( 08 Cs.137 4.20!.09 4.90t.09 Cl.134 2.10t.04 2.40t.04 84 139 2.40t.09 2.70t.09 B4 143 2.10t.09 2.40t.09 Ba.141 4. 30 t.09 8.90E.09 Ba.142 7.90!.09 9.00!.09 La.143 1.50t.04 1.70t.08 La.142 1.50t.04 1.00I.06 . Co.141 5.50t.10 6. 20t.10
, Ct.143 2.20E.09 2.60E.09 Co.144 3.20t.10 3,70t.10 Ft.143 0.0 0.0 Pr.144 2.00t.10 2.30t.10 .
1.00t.09 I ha.147 W.167 3.10t 09 1.20E.09 3.601 09 hp.239 9.501 10 1.10t.09 f . 1 i
- l. .
I 1 I 1 1 ! i
- I l
l . i
- Data presentec in thi$ table is fro.1 Cefertice 1
. A-10 I .
I 740l* t-7 I Paat ! QF 3 INMaLafl0% DCSE F ACf 0e5 Fna AnULTS * (Mage F[a WCl lNM4(to) Nv*tlLt 80NE tivte f.a0Cf TMya010 K10NEY LUNG GI-LLI
...............s................. .................. ...... .... ... ..
M J NO Cafa t. Sit-07 l.SIF-07 l.SSt-07 1.50t=0? 1.SIE-07 1 508-07 2 27[-C6 4.261-07 4.26t-0 7 4.26t=07 4.26t-07 4.26E-07 4.26t=0? I ; le Na 24 1 28t-C6 1 281-C6 1.28t-06 1.20E-06 1.28t-06 1.24t-C6 1 201-06 P 32 1.6SE-C4 4.64t=06 6.26t-06 NO 0674 NC Cafa Nn cata 1.00E-OS (a S t NO Data NO Defa 1.2 S t -O S 7.44E-09 2.8SE-09 1.00E-C6 4.ltt-07 I =N S4 NO 0414 4.9tt-C6 F . 8 7 t =0 F NO Cafa 1.231-06 1 75t-04 9.67E-06 NN $6 NU Cafo 1.S$f-10 2. 2 % E-I l NO DAfa 1.638-10 1 18t-06 2.53t=06 FE $$ 3. Cit-C6 2.12C-06 6.111-07 90 Defa No DATA 9.CIE-06 1.54t-07 I Ft 59 1.47t-06 1.47t-ce 1.32E-06 No cafa NO Cafa 1 272-04 2.3St-OS CC 58 NO Cafa 1.90F-07 2.59t-37 NO CATA NC Defa 1 16!-04 1.33t-05
*C to NO Cafe 1.448-06 1.8st-06 NO Cafa NO 04fA F.46t=04 1.56t-OS NI 61 S.40E-CS 3.93t=O6 1 816-06 NO Defa NO DafA 2.23E-OS 1 67t-06 I
tl 65 1.928-10 2.e2C-Il 1.14F-ll No Cafa NO CafA 7.00E-07 1.54t-06 CU 64 No Cafa 1.tJt.10 F.691-11 NO Cafa S.?II-10 8.4IE-07 4.121-06 2% 65 4.05t-C6 1.29t-05 s.02t-06 NO Cafa 8.62E-06 1 08t-04 6.68t-66 1 ............................................................................ 2N 69 4.231-12 8 14*-12 S. 6 S t-13 No cafa S.271-12 1.15E-07 2.04t-C9 . 4a g3 NO Cafa 40 Data 3.018 08 NO Data NO DATA NO Data 2.908 03 ga 84 NO Cafa NO Cafa 3. 9 t t-0 8 NO Cafa NO CafA NO CATA 2.01t-13 I de 8) NO Cafa NO Cata 1.608-09 NO DAfa NC Cafe NO Defa LT I-24 it to NU 06f4 1.61t=0S 7.371-06 NO Cafa NO DATA ho Cafa 2.08t-06 90 88 NO Defa 4.04E-08 2.41t-03 NO Cafa NO Cafa NO C474 4.lti-19 I 48 89 NQ cafa 3 2CE-18 2.121-08 NO 04f4 3.Ict=0S NO Cafa NO DATA NO DATA 40 Cafe 1.168-21 la at 1.09t*06 NO Cata l.75t=04 4.378-05 la 90 1.24t=02 NO Cafa 7.62t-04 NO Cata NC Daft 1.20t=03 9.02E-05 I la il la 92 7.74t=09 N0 cafa 8.431-Jo No caft 3.13 E -10 No cafa
- 1. 6 4 t -i l NO Cata No Data 40 DafA 4.56t-06 2 39t-05 2.06E-06 S.381-06 Y 90 2 611-01 NO Cafa 7 01 E -0 9 NO Data .NO 04fA 2 12t-05 4.32t-0S
................................. .........................t... 4...... ..
91= 3 26t-il NO Data 1 278-12 NO Cafa NC caTA 2.40t*07 1 66E 10 I t Y 94 5.708-CS NO Data 1 55f-06 NO Data NO Defa 2.13t-04 4.Ilt 05 Y 92 '.79t-09 NO Cafa J.171-il NO Defa NC 04fA l.96t-06 9.19t-04 I e
,
- Data presented in this table is from Reference 1 i
A-11
0 I I TAsLE E-7e CONiep PA3E 2 DF 3 INM&Lat!ON DCSC FAC10as PO4 ADULT 5 * ("4t* Pf4 PCI IhmALEcl
, AuCL104 SONI LIvfA 7. 803y TMfR E10%fy ................................. .........OIO LU4G Gl.LLI t 93 1 188-08 NO DATA .. . .........................
la 95 3 26E-10 40 DATA NO DATA 6 06t-04 5 27E-05 la 97 1.34f.05 4.3C1 06 2.91t-06 40 CATA 6.77f-06 2 21E-04 1 88t 05
. 1.21f-08 2.45t=09 1 13E-09 NO DATA 3.71E.09 9.84f-06 6.54t-05 hl 95 1.761-06 9.77t=07 S.26t.07 40 DATA 9.67f-07 6.38t-05 1 30E-05 #0 99 40 CATA 1. 5 8 t -0 8 2.87(-09 he DATA 1C 9'#= 1.29E-13 3.641-13 4.63E-12 N0 DATA 3.64E-08 3 14E-CS l.lCE-05 S.S2f-12 9.S$f=Of S.20E-07 1C101 S.221-15 7.52E.ll 7.3st-14 40 DATA .Rulo) 3.91f-07 NO Cafa 8.2Jf-08 NO DATA 1.358-13 4.99E 08 !.36f.21 i
l' Rul05 9.88f-!! NO DATA 3.89t-il 40 DATA 7 29f.07 6.3tt-OS 3.38t=05 1.271-10 8.STE*06 6 02t-06 RV106 4.o4f.C6 40 Defa 1.071-06 40 DATA 1.67f=05 1.17L-03 1.14t=04 ACil6* 1.351-C6 1.25f-06 7.4 JC-0 7 NU D&fA 1(125= 4.27E-07 1.98Ea07 S.84f-08 2.46E-06 S.79t.04 3.78i.05 1.31C 07 3.lli-06 3.92f-05 0.03E-06 fil277 1.58f-06 7.211-07 1.96E-07 4.llE-07 S.72E-06 1.20E 04 1.87E-05 TEI27 1.751-10 0.015-11 3.871-11 Ill29* 1.221-06 S.64t*07 1.32E-10 6.37t=10 8.14E-07 7.17E-04 1.9&f-07 4.30f=07 4.57t-06 1.4SI-04 4.79f*C1 til29 6.221-12 2.99I 12 1. 5 5 t-126.88F-09 4.87f-12 2.34f=11 2.42E.07 1.965 08
- ft:315 8.74E-09 5.451 09 3.6)F-09 3.86E-08 1.82E-05 6.95t*05 Ifl31 1.39I-12 7.44E-13 4.49[-13 1.17E-1 l
.............................................2 fill!
S.46E-12 1.74E-07 2.304-09
+
1 13; 3.251-08 2.69f-08 2.02E 08 2.37(-08 5.721-07 1.82E-07 3.60E-05 6.3 7t <05 1.681-06 6.6CE-07 1.421-04 2.617.*06 h0 Onta 9.6tf=07 3 131 3.151-06 4.471-00 2.56t=06 8.491-03 7.66 he DAfa 7.85f-C7 1 132 1.4ht=0?
.................1-06 .... ................. ' 4.076-07 3.46E-07 1.431-05 6.481-07 NO Daft 5.08F-08 I 13A 1.08!-C6 1.851-06 S.651-07 2.691-04 3 2AE-06 NO DATA 1 136 8 051-08 2.167-07 7.%91-08 3.'3E-06 3.44E-07 1.11t*06 ................................. ............ ..... ...NO DATA 3.261-10 I 135 3 35t-C7 0. 73f-C 7 3.2 8 t-0 7 S.60f-C5 C5136 4.66t-C5 1.06f-06 1.39E-06 NO Data 6.56f=07 9.10f*05 NO DATA 3.591-05 1.22t 05 1.30f=06 i C5136 4.881-C6 1.8JL 05 1.38t-05 40 DATA 1 07 f=05 .l.50t-06 1 46t-06 t ' CSI)? S.98f-03 7.76t 05 b.35t 05 00 CATA 2.78t-05 9.40f.06 1.0$f*06 C1138 4.141-08 7.76! 08 4.05t.C8 ko DATA 6.001 00 6.07f-09 2.331-13 e
8A139 1.lff.10 0.32f-14 3. 4 2 t .12 Nu Data 7.78s-14 4,701-07 1 12t.07 f i i t
< >
- Data presented in this table is fron Reference 1 I
i i s , i A-12 I
1 1 e I T ABL L E-7. CON f'O Pact J OF 3 INHALafl0N or.5E 84Cf085 POR 40VLf5 (* rem Pf4 er,I INMALED) I NUCLict SONE tivEt f.8bCY THYR 010 KIONEY LUNC GI-LLI ei s t
- 0 4.90E-C6 6 13F-09 l.2 t t-0 7 NO Cafa 2.09E M9 1.59E-06 2 73F=05 -
.4141 1.25E-Il 9.41E-15 4.2CE-13 NO Cata I 841(2 3.291-12 3.3tE=ll 2.07E-I l NO Cafa 8.75E-15 2.42E-07 E.45E-17 2.96E-15 1.49E-07 1 96E-26 Lal40 4.5CE-Ce 2.171-08 5. 7 3 E -01 NO 04fa NO DATA 1.70E-05 S.73E-05 taint 8.54E-Il 3.88E-11 9.64E-12 NO Def a NO Cata 7.9tE-07 2 64E-07 I CEint 2.49E-C6 l.691-06 1. 9 t E-0 7 NO Caf4 7.83E-C7 4 52E-05 1 50E-05 CEl63 2.33E-C4 1.f2E-Os 1. 91 t -0 9 NO Cafa CE164 4 29E-C6 1.79E-04 7.60E-09 9 97E-06 2.C3E-05
- 2. 3 0E -0 5 N0 0474 1.06E-04 9.72E-04 1 02E-04 i val 6J Pal 46 1 17E-C6 4 69Ea07 5. 8 0E -0 8 Nn Data 2.70t-07 3. Sit-C5 2 50E-05 3.76E-12 1.56E-12 1. 91 E -13 NO Cafa 8.p!E-13 1.27E-07 2 69E-It 10147 6.S9E-07 7.62E-07 4.56!H33 Nn cafa w 18 7 . 1.06E-09 8 85i-10 3 10 E -10 No Cafa 4.45E-n? 2 76E-05 2 16C-05 NO Dafa 3 63E-06 1 94t=05 I %P239 2.17E-08 2.R2f=09 1. 5 5 E -0 9 NO Cafa s.75E-69 4.70E-06 l.49E-05 1
l !I I - 1 I . l
- Data presented in this table is from Reference 1 lI A-13
O e
, fasLt Eat l PA3E I DF 3 INMALAfl0N DD3E FACT 0e5 FD* ftth4CER*
(#4t* Pit PCI thMALEDI NUCLICE 80%t LivtR 1.500Y THvt0lb RID 9tY LUNC DI-LLI H 3 NO DATA 1.591-Cf 1.591-07 1.59t-07 1.59f-07 1.591-07 1 59f-C1 C 14 3.2 > t-06 6.C9t-07 6.09E-07 6.091-07 6.09t=07 6.09 t -O f 6.091-C1 1 Na 24 1 72t-06 1.72t=06 1.72t-06 1.721-06 1.724-06 1.72t 06 1 721-06 P 12 2.36t-04 1.3?i-03 8.9%-06 40 DafA he Data NO DATA 1.168-C5 CR bl NO Data 40 Data 1.69F-08 9.371-09 3.84t=09 2.62t=06 3.75E-07
*N $4 NO Data 6.318-06 1.031-06 NO Data 1.198-06 2.481-04 8.15t-C6 I *N 56 40 Data 2.12i-10 3.15 t -1 1 NU Data 2.241-10 1.90f-C6 7 181-06 FC 55 4.18t-C6 2.981-06 6.931-07 h0 Data %D Data 1.951-05 7.99t-Of Ft %9 1.191-06 4.621-06 1.79t*06 40 Data 40 DATA 1.911-04 2 23t-C5 I CD 5: NO Data 2.S9t-C7 3.476-07 NO D&fa h0 DAf4 1.68t-04 1 19F-05 CU 6C NO Cafo 1.87t-C6 2.481-06 NO Daf4 hC DATA 1.09t-03 3 241-C5 hl 6J 7 25t-C5 5.*31-06 2.471-06 NO Data hn Data 3.841-05 1 771-06 R. NI 65 2.73t-in 3.96F-Il 1.598-11 40 DATA NO Data 1 171-06 4.591-06 Cu 64 NO DATA 2.541-10 1.06E-lO h0 DATA 8.018-10 1 31t-06 7.68t-06 th 65 4.22t-C6 1.e71-05 7. 0 0 t-0 6 NO Data 1.001 06 1.SSE-04 5.831-06 I IN 69 hp f) 6.04f-12 1.15 F - 11 8.C?t-13 he DaVA 7.531-12 1 988-07 3 56F-08 NO DefA NO Data 4.30t-C8 NO DATA NO D414 kn Data LT t=24 DR to NO DATA AC 04fa 5.415-08 NO Data NC D&fa h3 Data LT E-24 1 4R 83 9? 86 NO DafA NO Dafa 40 C&Ta 2.381 05 2.2 9t -0 9 60 0414 1.C5f-05 NO Data he Data hc Data NO Data .NO DafA LT t-24 2 28E-06 RP 83 40 Data 6.821-08 3.40E-08 NO DafA NO DATA k0 Data 3 651-15 i at 89 59 89 NC DafA 4.4 C t = n B 2.911-08 h0 Data 5.43f-C5 NO Cafa 1.561-06 NO Data ht Data 4C Data NO Defa 4 221-17 3.021-04 4 641-05 Sa 90 ;.551-02 NO Data 8.351-04 hc Cafa hc Data 2.06t=C3 9.561-05 na 91 1.let-08 h0 Cafa 4.391-10 NO DATA NO Dala 7.591-06 f.24t=05 I 5' 92 1.191-C9 h0 Cafa 5.C8t-il 40 Data NO Dafd 1.43f=06 1 49t=05 Y 90 3 731-07 NO Daft 1 00t-08 NO DafA NO Dafa 3 665-05 4 99f-03 Y 9t* 4 631-11 NC Data 1.77 tan t 40 Data h0 Defa 4.00E-07 3 771-09 1
- Y 91 Y 92 8 261-05 ND 04fa 1 84t-C9 NO Data 2.28t-06 NO Data
- 5. 3 6 t al l No cafa M0 Data MD DATA 3.6?f-04 5 111-05 3.351-06 2 06t-05 l
I l
- Data presented in this table 15 from Reference 1 I
A-14 I _-
1 . 1 i TAdLE t-0. CONT'O Paat 2 0F 3 INm&LaflOt 005E F ACf 0a1 FCs 7tFNAGER
- l't!" Pat PCI INMattel .
vu:LI:t BCNE LivF4 f.PCCv TMya010 E10Ntv LUNC Cl LLI y 93 1 69t=00 40 Ctra 4. 6 5 t -10 NO Defa NO Cata 1.048-05 7.24t=05 2a 95 1.82E-05 S.73t=06 3. 9 4 t -0 6 NO DATA 8.421-06 3.36t-04 1.06t-05 ga 17 1.72t-C8 3 40t-C9 1.578 09 NO DATA $.198-09 1.62t-05 7.08t-05 N* 9b 2.32 -06 1.29t-06 7.041-07 NO CafA 1.25E-06 9.39t-CS 1.21t=05 a0 94 '40 Cala 2.!!f*08 4.03E-01 MQ CafA 5.14t=08 1.92t-C5 1.56E-05
- TC 99s 1.fitall 4. Alf-I l 6 24t =12 NO Cata 7.20E-12 1.44t-07 7.66t-07 TCICI 7.40E-15 1 06t=14 1 0 3 t-13 NO Cafa 1 90t=1) p.34[-00 1.098-16 uut03 2.63t=07 NO Cafa 1.12 t = 0 7 NO Data 9.29t=07 4.79t=05 1.36t-05 -
1U105 1.601-10 NO Cafa 5.42t-11 he Cafa 1.76E-10 2.27t-06 1.135-05
, tutCe 1 23t-C5 N0 C&T4 1. Sit-06 NO DATA 2.38t-05 2.Olt-03 1.20t=04 4C113= 1.731-06 l.64?-06 9. 9 9 t -0 7 NO DATA 3 13t-06 0.44t=04 3.4tt-05 ftt2s" 6 101-07 2.80E-07 8.34t-00 1.75t-07 NO 04fA 6.75t=05 9.38t=06 fil2?a 2.25t-C6 1.C2C 06 2.73t-07 5.48E-07 0.171-06 2.07t-04 l.99E-05 ftt27 2.51t-10 1 1=F-10 5.52C-11 l.77t=10 9 101-10 1 40t=06 1.018-C5 fil29= 1.74t-06 8.23t-07 2 81t-0 7 5.726-07 6.498-06 2.47t-04 5.06t-05 18129 8.87t-12 4.22t-12 2.231-12 6.4RE-12 3.12E-il 4.121-07 2.0ft-07 t ft131" 1.25t-08 7. Sit-09 S.0 3 t-0 9 9.061-09 S.49t=08 2.97t-OS 7.76t-05 fil31 1.97t-12 1.042-12 6.30t=13 1.SSt-12 7.728-12 2.92t=O7 l.89t-09 ft132 4.501-04 1. elf-01 2.74E-00 3.07t-02 2.44t=07 S.612-05 S.79t-05 1 130 7.80t-07 2.t4:=06 8.96t 0 7 1.f6t=0% 3.441-06 NG 04f4 1 14t-06 I 131 4.43f-06 6.14t-r) 3.301-06 1.87t=0) 1 0$t-03 NO DATA 8 115 07 1 132 1 99t=07 5.478-07 1. 9 7 t -0 7 1.0198-05 0.65t=07 h0 DATA 1.59t=07 8 133 8.l?t-C6 2.s6t**6 7. ? t t -0 7 1.411-04 4.49t=06 h0 Cafa 1 29t=06 8 134 1.11; 07 ...C . t . f e i >C 7 4.941-06 4.llt=07 h0 Daft 2. Sit =09 i i 116 4 62t=0? l.18C-06 4.368-07 7.768-05 1 06E-06 NO 0474 8.69t-07 C5tl4 6.208 0$ l.4tt-04 6. 0 6 t.0 5 =0 Data 4.691-05 1 032-05 1.22t-06 C5196 6. 4 4 7. = 0 6 2 428-05 1 711-05 N0 Data 1 308 05 2 22t=06 1 168-06 ..................... c.......... . ... ...... .. .,.... . - . . C$137 0.38t=0S 1.06t-04 3. 8 9 t =0 b NO Otfa 3.00t=0S 1.Slf-05 1.06t-06 C$138 9.82t=08 1.078-07 $. Sit =04 ho Cafa 3 281-08 9.84t-09 3.38E-11 sal 39 1 67t=10 1.148-13 4.Off=12 NO DATA 1.11F 11 0.00t=07 8.06t-07
- Data presented in this table is from Reference 1 l
f A-15
I I I s. TasLt E.g. CONF *C e PAGE 3 0F 3 L lhM&LaflDN DUlf FAC10tl FCa TFEha0ER* (Mk!* PA4 PCI 14Haltci
%VILluf DONE LIvfa TMYa010 alD%tY . T . B C CY tal40 6.841-06 8.307-09 LUhD .. l-LLI O
4.4 0f-0 7 h0 Data 2.0lt 09 2 94E 04 2.8#P-06 sal 41 1 784-11 1.s2t-14 6.9 At=18 he Data 6a'42 4 62t-12 4.63t-lb 2. 84 E .13 40 Data 1 28t-14 4 11t*07 9.She-14 . 3.924-15 2 39E-07 g
................................. ... ............. .......... .5.99t-20 .. ...
Lal40 6.99t=08 2.9 5t= 08 7. 8 2 t-0 9 he Cafa 40 Cafa 2.60t=05 6.09t=0S F L aint 1 20f-10 S.318-!! 1.32E-!! he Data %Q Data 1.274-06 1.50t-06 Cfl41 3.55E-06 2.3?:=C6 2.718-07 ho 04f4 1.llt-06 7.67E-05 1.58t-05
- l Cile) 3.12t=08 2.421 08 2. 7 0 E -6 9 NO cafa I.00E-00 1.63E-05 3 19t=05 Cilen 6.111-04 2.531-04 3.20t-05 40 Data 1.518-04 1 67t-03 l.08t-04 i Pain) 1 67t-06 6.641-07 8.20t.00 40 Data 3.86t-07 6.04E-05 2.67t=05 i.
Falet 5.37t=12 2. 2 C f- 12 2.72 tall NO Data 1.26t=12 2 19t=07 2.94t-14 N0le? 9.83t-Cf 1.0ff=06 6.4tt-08 40 Data 6.Itt-C7 4.65!-05 2.28F-05
, b 187 1.601-09 1.228 09 4. 2 9 t .10 40 Data he Oafa 5.92t-06 2 21E-05 j NP239 4.21E-CI 3.99t 01 2.21E-09 40 Defa 1 25E-00 A.!!I-06 1.651-05 L
1 1 r
?
j 4 ~ I I
- Data presented in this table is fror. Reference 1 i
- I i
l A.16 1
1 l i I l i fastE E.1 1 Pa*f 1 0F 3 INMatafl0% 00lt Fatteel FCR CHILO * ("Sta Pts PCI !%MaLEC) NUCL I'; f 80%E Livia f . m o ry ?>yeOIO E10Ntv LUNC Cl.LLI n a N0 Dafo 3.C4!.07 3.04f.3 f 3.04f.0? 1.04t.07 3.04f.07 h 1 04t.07 C 16 9.fot.C6 1.82t.06 1. 9 2 t .0 6 1.t28 06 1.42t.06 1.87E.06 1 02t.06 Na 24 4.35t.C6 4.Al*.06 4.3>t.06 4.3%E.00 4.35t.re 4.35t 06 4 35f.06 P 32 f.o*t.06 4.f91 06 2.6 f f.0 5 NO Cafa 90 Data Nn Data 1 14t.01
, Ce $1 40 Cafe No Data 4.lTE.00 2.11r.08 6.574 39 4.59t.04 2.93E.C7 >% $6 '40 Cafa 1.161 05 2.lff.De NO Cafa 2.71f.06 4.26f.04 6 19f.06
- N 16 NU Cafa 4.68t.10 0.45t.it NO 0414 4.128 10 3.llt.06 3 33I.05 f t il 1.24t.06 6.C01.co 2. l C t.0 6 NO 04f4 NO Cafa 3.00t.05 7.75[.07 PL $1 1.59 .Ce 9.L4t.06 4.1IL.06 %Q cafa N0 Data 3.43C no 1 91E.05 f( $8 NL Lafa .4.f18 07 8.55t.07 NO 047% NC Cafa 2.99t.04 9 29t.04 CC 60 NO Data 3.15t.06 6.12 t .0 6 No cafa NO Cafa 1.9tt.03 2 60E.OS NI 6 8 2 22t.04 1.257 0% 7.56t.06 NO Cata NC Unfa 7.43[.05 1.ftt.06
'4 B 6 5 0. Cat.10 7.91[.11 4.46t.lt Nn 04f4 NU Cafa 2.ftt.06 2.27f.01 CU 66 NO Cafo 1.J9f.10 2 90t.10 No 04T4 1 63t.09 2.19t.06 9.92E.06 2% 6% 1 155 05 3.C6f.05 1.90t.05 NC 04fa 1 93t.05 2 69t.04 4.48t.06 2 N 61 1.Ilt.it 2 68t.it 2. 4 8 C .12 NO Cata 1.let.lt 3.34t.07 2,fSt.06 l' 4 8s NO Lafa NO Jafa 1. 2 8 t .0 7 %D Cafa NO Data NO CafA LT t.24 l Ja ** NO Cafa Nu cafa 1.441 37 NO Wafa NO Cafa NC cafa LT t.2a et at NO Cafa NO Cafa 6.84t.09 NO Cafa NC Data NO Data L7 f.24 s- en a6 NC Ut.f4 3.3af.05 1. C11 0 5 NO Cafa NO Cafa h0 Cafa 2 168 06 - ) er 40 %0 Data 1.511 0f 1.90C.00 40 Defa %Q Oafa NO Data 4 661 09 g ................................. ........................... . .......
al 31 60 Data *.511 00 7.0st.09 NO CafA 40 Data No cafa S.Ilt.10 54 39 1.628.C4 NO Cafa 4.tet.0L N0 Ot'a 69* Da'a 1.0)t.04 4. lit.05
! Se to 2.731.C2 ND Cafa 1 7
- t .1 s NC 9 0.e4 3.998 03 9 20f.05 le 94 3 208.C9 NO Cafa 1 244 09 NO Data NO Data 1,44t 05 6.70r.0f SR 92 3.54t.09 NL Data 1. 4 2 t .10 NO Data .NQ Cafa 6.49t.06 4.llt.05 1 Y 90 1.llt.C6 40 Cafa 2.94f.08 NO Data NO Defa 7.D7E.05 7 24t.05 Y 9t* 1.171 11 40 Data 4. 9 8 t .12 40 Data 40 Data 7.60f.07 4.64I.07 Y 18 2.478 04 %D Data 6.19 t.C 6 %Q 04fa NO Data 7.lGE.64 4.97t.01 y 92 1.50s.C9 80 Cafa 1.l f t.8 0 %Q Cafa NO Cafa 6 46E.c6 6.46t.Cl I
I
- Data pretented in thin table is from Reference 1
, _ -_ w _ . _ _ . _ . - . _ _ . . . _ . _ - , . -_-
f
,-~
i I fabtL I-9, CONT *D Pa3E 2 0F 3 INnatatION DLit F ACfont F0a CHILO
- l*RI* PER PCI thMALID)
, NUCLlCL BUNI L I Vi t f . d Q DY THYRQlO &lDN!Y LUNG Cl-LLl 6 Y 9) S.04t=08 40 0a14 1 38t-09 NO Cafa 40 Data 2. 018 -C 5 1.Clf-04 In 95 b.13f-CS 3 131-Ch 1 00E-0% hD Defa 1.61d=0h 6. 03 f *04 1.65t 05 la 97 S.07t 08 7.A4t-09 4.12f-04 NO Dafa 1.05 3.061-05 9.49t-0S g
48 93
.................1-08 .......................
{ 6.35t=06 2.481-06 1.771-06 40 Data 2.331-06 3.66t=04 1.00f 0%
#D 99 he Cafa 4.661-C6 1.135-08 he Daft TC 99 4 818-13 9.41t-13 1.56t-il NO Defa 1 06t-f7 3.66f-05 1.42t-05 1 378-11 7.57f-C7 1.30E-06 1Cl01 2.19t-14 2.3CE-1= 2.911-13 40 Data 1 Rul03 7.%SI-C7 NO Data 2.901-07 ho Data 3.928 13 1.bRI-n? 4.418-09 1 901 06 1.191-04 1.24t-C5 RulCS 4 13s=lC 40 CATA 1. 6 C1 -10 hn 0414 3.63t IC 4.10!-06 2.691-05 RU106 3 688-03 NO Cafa 4.lff=06 40 Data 4.97f*05 3.87t 03 1.16t=04 i Acilce 4.56I-06 3 081-06 2.47t=06 NO DATA 5.74L 06 3.48t=03 2.71E-C)
Til25= 1.821-06 6 291-C7 2 471-07 5.203-07 hC Cata 1.29t 04 9.llt-C6 fil2Fa 6.728-06 2 38t=0e 0 198-07 1.641-06 1 721-05 4.00t 04 8.93f-C5 11127 7.496-10 2.$71-10 1. 6 5 t = 10 S.3Ct=10 1.91t-00 2.7tF 06 1.121-05 Ill21- 5.19t-C6 1 86t=06 8 228-07 8.71t-06 1 166-05 4.76t 04 4.9tt-Cl fil21 2.64F-!! 9.451-12 6.44talt 1.93 fall 4.94L-ll 7,411-07 6.89t=06 fil3nr 3.63t-C8 1. 6 0 t - 0 8 1.37t-08 2.64t-08 1 081-07 S.56t=05 0.12f-05 I Til31 S.87C-12 2 281-12 1. 7 8 t -12 4.594-12 1 59t-il 5.951-C7 3.60f=0? fil32 1.301-C7 7.361-08 7 121-08 8.68t-08 4.79L-07 1.02t-04 3.72t-C5 I 130 2.211-06 4.431-06 2 288-36 4. 9 t!- 04 6.614-06 No Data 1.181.-06 I 1 131 1 301-C5 1.307-0) !.)?ta06 4.391-03 2.13f=0% NO D&fa 7.68f-07 1 132 S.72[-CF 1. 8 Cl- 46 S.0FI-67 9.2 M ( S 1.691-06 40 Cafa I.61t 07 g i 133 4.48[-06 3.69:=06 2.081-06 1.04t-93 9 13!-06 h0 0*f A i i 136 t.481-06 g ),171-C? 5.141-87 2 61t-07 3,3744C5 f , 9 71. ' l h0 nata 2.5:( 07 1 135 1.13t-C6 2.l6t=06 1.12t-06 2.14!-04 3.*0f 04 40 Data 1.20t-06 C$lle 1.748-04 2.74t-04 6.07t-GS 40 Caia n.s.'-0% 3.278-01 1. 0 4 t = C 6 Clll6 1.761-C5 4.62t-Ob 3 141-05 40 Data 2.581-Ob 3.931-C6 1.llt-06 CSI)? 2.4St-04 2.237 04 3.47F-05 No Data 7.631-05 2. Sit 05 9.78t-07 Chl)O 1.11t-07 2 !!!-07 1.S48-07 he CafA I.68t=07 1 84t 08 7.29t=08 Pall 9 4.98t-10 ?.468 12 1. 4 b t. ! ! 40 Caf& 2 13tel) 1.$6t-ce 4.*6f-Cl I i I 6 i l . I
- Data presented in this table is from Reference 1 I
i
, A-18 1
l I 74CLt E.9 CONTec . I Pact J OF 3 1%MALaflO% DC$t FACTCel F09 CHILC* (WRtm P!4 PCI 19mattel h v C L i. t SUNE LIvit f.50Cf TMYe010 EIONtv LONG GI-LLI cat 40 2.CCE-Cb 1.ftt=08 1.1ft-06 NO Defa S.7tt-09 6.7tt-04 2.75t-05 1.72F-12 NO Cefa 7.89E-07 I sat 41 est62 S.29t-tt 1.35t-!! 2.95t=t6 1.73C-15 f.56 tall NO Cefa 2.16E-14 7.374 15 4.44t-07 7.44t-00 7.4tt-10 Lat6e 1.74t-Of 6.C81-C8 2.04t-06 %D Data NO 06fa 4.94t-05 6.10t-OS Lal62 3.50!=tc !.11t-10 3.69t-11 40 Data NO Defa 2.35t-06 2.058-05 I Cit 41 1.C6t CS 5.241-06 T. 0 3t=0 F NO Cata 2.38t-06 1.47t-04 1 13t-05 Cit 63 9.89t-C8 S.)?t*08 7.?ft*09 NO Data 2.266-00 3 12E-OS 3.44t-05 Cit 44 1 83t-C3 S.72t=0* 9.775-05 NO Defa 3 178-04 1 23t-03 1.0$t-04
- l. sats) 4.991 06 1. 3 CI- 0 6 2 47E-07 40 Defa 5.11t-07 1 17t=04 2.63t-OS Pal 46 1 61t-18 4.99i-12 0.10t-13 NO Defa 2.661-12 4.23E-07 S.32E-08 Not47 2.92t=06 2.36t-C6 1 8*t.07 yn Cata 1 10t.C6 8.876-05 2.228-05 i w 117 6.*lt-C9 2 6tt-09 1 1 tF-0 9 Nn Caf4 NC Data 2.63t-08 1.llt=0S 2.466-05 N#219 1 268-07 9.06f=09 6.35t-09 NO Cafa 1.571 0$ 1 73t-05 I
I I t 1 l1 i I 'I
- Data presented in this table is from Reference 1 I
I A-19
I i I fasLt E-10 Past 1 0F 3 1%aaLafl0% DC58 F ACf Den Foe INFANT
- Imat* Pit PCI INMat tDI NU;Llet 80%t Ltvtk f.8007 TMYADID ElDNEY LUNO Gl-LLI H 3 NO Data =.628-07 C 14 1.ltf*05 4.62t=07 4.62F=07 4.67t-07 4.42E-07 4.62f-07
%a 24 7.b41-06 3.79C-06 3.79t-06 3.798-06 3.79t-06 3.79t-06 3.191-06 7.64I-06 7. 54 t-0 6 7.54E-06 7.let=06 7.54t=06 7.54t-06 P 32 1 451-t. 8.031-05 6.53E-Oh NO Data ND paTa No Data Ca St N0 pata go cafa 1.lst 05
( u% S4 NO Data 1.. I l t = 0$6.39f-04 3.56t-06 40 4.!!!-01 Data 9.45t=09 9.171-06 2.llt 07 1.161-06 7.lat-04 S.04t=06 k , mh $6 NO Data 1.102-09 1. S B E -10 No cafa f t 55 1.41t-05 8.69I-06 2.18t-06 NO Data 7.86t-10 0 95t-04 S.12ta05 s 40 Data 6.21t*05 7.62 t*( ! Ft 57 9.691 C6 !.611-05 6.7?f-06 40 Data 40 Data 7.21t 04 1 171-05 4 CD le NO Data 9.?tt-07 1.30t-06 NO Cafa CC 60 NO Data S.73f=06 8.41E-06 40 Data NO Data S.llf 04 7.9tF 06 NO Cafa 3 228-03 2 281-05 NI 63 2 42E-04 1.468-05 8. 2 9 E .0 6 40 DATA NO Cafa f 1 49E-04 1 73t-06 g NI 65 1.?tE-01 2.03C-10 4. 7 9 f -l ! NO Data No cafa S.801-06 CU 64 NO Cafa 3. Set =05 1.348-09 S.531-10 ND Data 2.04E-09 6.64E-06 1.014-05 I 2% 65 1 30E-05 4.47t-0$ 2.228-05 NO Dafa 2 32E-CS 4.62t-04 3 67t-06 IN 69 3.95E-11 6.911-11 3.11t-12 NO Cafa 2.878-11 1.05t-06 9.44E-06 B4 83 NO Data NO Data 2.72t-07 NO Data NO Data pa as NO Data NO Data 2. 86 t-0 7 NO Data NO Cafa L1 t 24 NO Data NO Dafa (1 t-26 I 6.0 Data 40 Data i I to 83 1.4et-58 40 Data NC Data NO Data LT tage at P6 NO D4sa 1.345-14 $.30t-05 NO Dafs NO Data NU Data
?S 01 2 176-0s /0 Def4 4.484-07 2.Ost-07 40 Data ...........m..,s....r,.ano... he Cafa No Dafa 2 428 07 ...... ... ..... . . ~ .o. ...
K at #1 40 Cafa 2,.211-07 1.4?g-J) NL nafa NO Cata NO 04f4 4.0?f-08 4 58 09 2. Int-04 N0 Defa 4.ISr~06 NC 04f4 NO Data ga 90 2.12t-C2 ku Cata 1.458-01 4.912-0% 1.061-03 An Da?6 NO Defs 3,03t.03 9.16t=05 e in 91 6.83t-01 40 CATA 2 478-09 40 04Ta NC DATA > *48-0$ " la 92 7.50t-09 NO Cafa 2 19 t *10 NO Cafa 40 O&fa t.70t=0S 1.04t=04 a Y 90 2.35t-06 NO Data 4.30E-06 NO Data 40 04fa 1.928-04 7.43t=05 T tir 7.911 10 NO Data 7.901-12 NO Cafa NO DATA t.99t-06 1.688-06 7 41 4.204 a4 40 Dafs 1.128-05 NO Data No pata 1.75t-03 S.0ff DS i t %2 1.114-03 NO Data 3 298-10 NO Data 40 Omf4 l
.. ....................... ..... .. ... ... _ .1.7tf-05 9.04t=0).
l l , i i (
- Data presented in this table is from Reference 1 A-20
f I i TABLL t 10e CONF'D I g Pa3E 2 0F l 1%=aL&7 ION OC$t FACfott FOR INFANT I"Rfm Ptn *Cl INdatt03
'du;L i s t 80%f LlWER f.BORY THY 2010 E109tY GI-Y 91 1 078-07 NO Cafa ......................................LLILUNG 2 91t-09 40 04f4 NO Cafa S.46f-05 1.19f-04 la 95 s.24t-CD 1.99f-CS 1 4St-05 NO Data 2.228-65 1 2St-03 1.SSt=0S ta 91 1.C7E-07 1.838-08 8 36t=09 40 Cafo 1 058-08 7.88E-05 1.0CE 04 48 1S 1 128 CS 4.591-06 2.708-06 No cafa 3.178-06 3.42t=04 9 058-06 . 80 19 NO Data 1.18t-07 2.318-08 40 Data 1 89t-07 9 63E OL 3 40E-05 TC 99a 9.98tal) 2.0&f-12 2.661-11 40 Data 2 221-11 S.79t-07 1 4SE-06 * '
b ICIDI 4.6SE-14 S.981-14 $< 80 8-13 40 Data 6.91E-13 4.17t 07 6.03E-07
^ dulc) 1.44f C6 NO Cafa 4.85t=0 F NO Daf4 3.03t=06 3.94t 04 1.lSt=0S .19105 8.74f-10 NO Cafa 2.93E-10 NO Cata 4.421-10 1 12t-05 3.465-05 .
agiC6 7.771-06 NO Data 6 201-05 h0 Cafa S.16t=06 7.6tt-05 8.26t=03 1.lft=04 4Gil0* 7,13f-C6 1.57f*06 NO Cafa 7.80t=06 2.628-03 2.36E-CS fil25= 3.40t-C6 8.42L-06 4.701-07 1.168-06 NO Cata 3.19t-04 9 22f=06 fil278 1.19(-05 4.93t-06 1.488-06 1.488 06 2.698-05 9.37f-04 1 95t=0S fft2f 1.59t=09 6.81[-10 3 418-10 1.32t=09 3.478-69 7.39t-06 8.74f=0S fil29' l.ftf-OS 4.35C-06 1 518-06 1.918-06 2.27t-05 1.201-03 4.9*f=0S fil29 S.638-11 2 48t-il 1.34f-ll 4.828-11 1.25t-10 2 14t=06 1.881-05 fil31m 7.621-C8 3.118-04 2.59t=08 6.381-08 1.091-07 1 428-04 8.588-05 f2131 1 241-11 S . 8 ?k' 12 3. 5 7 t =12 1 138-11 2.85t-il 1 478-06 S.Aff*06 , g ................................. ......................................... l l 7E132 2.668 07 1.69f*07 1. 2 6 E -2 7 1.99f 07 7.39t=C7 2.438 04 1 152 05 8 8 130 4.S*t-ce 9.9tt-06 3.*8t=0) 1.lef=03 3.091 05 NS Orfs (.42fa06 8 131 7.718 CS 3 17f-05 1,40t-05 1.061-02 3.708 05 hU caft 7.56E-07 -
, . . . . . . . . . . . . , . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ~ . . . . . . . . . . . . . . . .
l IM 1. Pat =C6 2.531 J6 8.998 L 7 1 21f-C4 2.eff.06 40 Daft 1 36t-C6
, t 114 9.46E.06 8.17t-CS 4.00t=06 2 341-03 1 20t*05 40 Daf6 1.54t 04 i 134 6 58f-Of 1.84t-06 4.?St=0 F 1 181 0) 1 498 C6 NO Cata 9 218 07 1 135 2.76t=06 S.4 8t 06 4.900-06 4.97ta04 6.eSt=06 40 04f4 1.11t 04 CSl14 2 83t C6 S.02f 04 S.0Zf-OS f40 Data 1 166-04 S.49t-05 9.518 07 Clt36 1.45t=0S 9.614-05 3.78t.0$ NO 04fa 4.038 01 8.408-06 8.62t-06 I til6F 1. 9 ': f - C
- 4.37F=04 3.247-05 NC cefa 1.23t=04 S.098-OS 9.S3t'07
, Cll10 3.41% 07 S.t3(~of 2.848-07 NO CafA 2.13t 07 4. lit-us 4 36F=0?
! 9alla 4.c64 09 7.011-13 s.cft-il NO Cafa 4.21t 83 4 25t 04 3.64f 05 l
l I
- Data presented in thil table il from Reference 1 l *
[ t A-21
- -- -_.--_. ._. .- - - - _ ~ . _
! O o I t i ta8L L t-10, CONT'D i PAat 3 07 3 INH 4Lafl04 Oc1E FatT0a$ pot INFagt * (* Rim Pts PCI INHALE 01 huCLICE 80ht LivtB f.500Y fnva010 ElDhtV 104 Cl-LLI sal 40 4.00t-C5 4 C0t-00 2.07f-06 h0 CafA 9. ',9 t - 0 9 1.14t-03 2 74t-C5 - e4141 1.128-f0 7.70r-14 3.151-12 he DATA 4.648-14 2.121-06 3 398-06 mal 42 2.84t-il 2.361-14 1.401-12 40 Dafa 1.361-14 1 115-06 4.95t=0? Lalot 3.681-C? 1.43t-07 3.601 08 40 Data 'g0 Data 1 2Ct-04 6.56!-C5 , a.al42 7.36t=10 2.69E-10 6. 4 m t -i l h6 Drfa I Ctl41 1.961-C) 1.19t-05 1.428-06 NO D f4 he Data 3.75k-06 6.87t.06 4.25t 0$ 3.697-04 1.54!-05 Cile) 2.39t-C7 1 181-07 1.lti-08 NO Data 4.03E-08 8.3Ct=05 3.551-05 Cline 2.20E-C3 0.elt=04 1.26t=04 40 Data 3.841 04 7.031-03 1.36F-06 e4143 2.00t-C5 3.74t-06 4.9 9t -0 7 40 Daf8 1 415 06 3.Det-04 2.66t-05 PRl64 3.42t-il 1.32t-il 1. 72 t -12 he Da'a 4.401-12 1.llF-06 3.06t 06 j NCl47 6.671 06 S.81F=06 3.S78-07 NO Data 2 231-06 2.30t.04 2.231 05 0 k 181 9.26f C9 6.44t=09 2.231-09 he D'sT A he Data 2.83f.05 2.541-05 hP239 2.6St=0? 2.)?t-CI 1 14t.03 ho 9ata 4.73L-05 4.2SI-CS I.Tel-C% I . I I I I
. o.t. presentee in this tidie is frne Reference i i
h I t 4 A.22
i I l I l s. TA4LE E-Il Paat 1 0F 3 1%Glltt0*d DUlf FACTORS PCs 40VLft
- l'atu Ptt PCI Iqtt$tt0) fdVCLILE 80%I LIvte f.m0Cv TNyacic KIONtv LUNG GI-L se I NO Cafa 1.05t-07 1. C $ t -0 7 4.Olt-07 1.051-07 1.05t-07
...........LI ..
C in 2.941-C6 1 05t=07 S.6ft-07 S.40s-07 Se6st-Of 5.601-07 9.60s-07 9.6tt=07 ha 24 8 70t-C6 1.fCf-C6 1.'08-06 1.fot=06 1.701-06 1.70f=06 le70E 06 P 32 1.93t-C4 1 20f-05 7.46E-06 NO Cafa NC Cafa ho Cafa 2 17t.Cl Ca il NC Cafa 40 Cafa 2. 6 6 f -0 9 1.51t-09 S.861-10 3.llt-09 4.69E-07
>4 54 NO Cafe 4.l?t-C6 0.728-07 N0 Data 1.36t-06 NO Cata 1 40f=0S e- *N $6 40 Cafa 1. llc-07 2.04 t =0 8 NO Cafa 1.46t=07 40 Data 3.67E-06 I ft SS 2.fts-C6 1 90F=0s 4.4 st-0 7 NO Cafa NC Dafa 1.c6E-06 1.09t-06 Ft 19 4.34t-C6 1.C2E-Cl 3. 9 8 t-0 6 %D Data ho Cafa 2.95t=06 3.40E-C5 CC 10 NC Cafa 7. 4 5 t'- 0 7 4.67f-06 NO Cafa NO CATA 40 Cafa I.S!E-Cl CC'60 No cafa 2 14F-86 4.72C-06 40 Data NO Caft NO Catt 4.02E-Cl %I 63 1 3Ct-C4 9. Cit-06 4.36t-06 40 Data 90 CATA MO Cafa 1 00E-06 NI 6> 5.281-07 6 06f-C0 3.13 t .0 3 40 cafe he Cafa 40 Cafa s.74t.06 CU 64 NO Cafa 8.338-08 3.94t.03 me Cafa 2.let-07 40 Defa 7. lot-06 2% 65 4.84t-C6 1.64t=0S e.ist-06 40 Data 1.C31-05 ND Cafa 9.70E-06 2h 69 1.0lf-08 1.97t=ft 1. 3 7 t-0 9 NO Caft 1.281-08 ho Cafa 2.96t=09 I
sh 43 40 Cafa %Q Cafa 4.028-08 90 Data No Cafa ho Data 1.79t-CI l sa I4 NO Cafa No Cafa 5.214-01 h0 Defa 40 Data he Cafa 4.09t=13 sa 35 NO Cafa 40 Cafa 2 14 t.0 9 40 Daft he Cafa ha Data LT f=24 at 46 40 Data 2 11E-05 9.83t=06 40 Data 40 Data 40 Caf a 4.16t=06 at 80 %Q Cafa 6.05!-08 1.28t=08 40 Data 40 Data 40 0474 8.36t-At 89 he Cafa
.. ... . . 19 .
4.0lt-CI 2.82t-08 40 Data he Cafa he DATA 2.33t-21 la 19 3.001-C4 %Q Cafa 8. e n t -0 6 40 Data No Cafa ho Cafa 4.94t.05 la 90 f.let-C3 40 Dafa 4.0 a t-0 3 90 Cafa 40 Data he Cafa 2 19t 04
...............................-.... . . . . . . . . . . . . . . . ~
la 91 S.67t.06 NO Cafa 2. 2 9 t =17 40 Cafa hc Cafa 40 Data 2.70E-05 i la 92 2.llt C6 No Cafa 9. 3 0 E-0 8 NO Cafa
- ho Cafa 40 DafA 4.26t=0S Y 90 9.62t=09 90 Data 2 588-10 40 Data 40 Cafa 40 06fa 1 02t=04 y tip 9.091-11 NO Data NO Data 3.92t-12 NO Cafa WC 04fa 2.67t-10 Y 91 1.41t-C7 40 Data 3.17t-09 40 Cafa NO Cafa 40 Dafa 7.76t-05
. y 92 2.4 7 t-i l %Q Ca a !
s.45t-10 NO Cafa
..... ...... . ...... .'. -.. NO Caft NO Data 1.4st.05 \ ?
I i l
- Data preserted in thin table il from Reference 1 l
n.23
i I
. l \
l l l TalLE I-Ile CONtep Pait 2 Of 3 INC!$fl0% Dalt p at t091 FCs ADUL il * ' laatm Pit PCI 140tlff01 hVCLICE 80%t Livit T. 8 007 THY 90lt El D%t v LUN; GI LLI Y 93 2.681-C9 NO Data 1.401-11 NO Data 24 9b ho Oafa he cafa 0.50s Cl la 97 3.04t-Cf 9.75t=09 6.60t-09 NO Cafa 1.531-08 he Data 3.091 05 4.681-C9 1.391 10 1.llt-2 0 40 0414 8 12t 10 h3 Cata 1 051-04 N9 96 6 228-C9 3.46t-09 1.86t-09 40 Cafa mn 99 h0 Cafa 3.428-C9 h0 DATA 2.101-C6 TC 99= 4.38t=06 8.20t=07 NO CATA 9.76t=06 h0 DATA 9.991-06 2.471-1C 6.991-10 8.891-09 he Data 1 061-08 3.42f=10 4 13t=07 ICICI 2.b4t=lt 3.66t-10 3. 5 9t -0 9 40 Data RulC) 1.tSt-C7 40 Data 7.97E-06 he cafa 6.991-09 1.87 fate 3 10t=21 7 061-07 h3 Data 2.lat=05 Rules 1.let-ce 40 CATA 6 081-09 Rol06
. ho Cafa..... 1 99t-07.h3.. O&fa ..
9.4 2t=06 2.1$t-C6 %Q Cafa 3.48t-07 40 Cafa 5.111-06 hD Data 1.78t.06 AC180= 1.60t-07 1 48t Of 0.19t-08 40 Data 2.98t=0? hD Data 6 04t-06 L fil25m 2.618-C6 9.71t-07 3.59
.......................... .....f*07..........
8.047-01 1.09t-05 he Cala 1.076-06 ftl27* fttr7 6.175 06 2.421-06 025 t -01 1.73I-06 2 75t-05 h0 Cafa 2.27t-Cl 4 ' 1.10t.cf 3.951-04 2.39 t 0 0 0.158-08 4.494-0? WO DATA 8.68t-06 ft!!9= 1.llt-05 4.29!-Ce I.m 3.951-06 4.006-05 hD CATA
, ................................it-06.
ft129 3.let=08 1.88!-04 .......... . ......... .... S.79f-cl IL131* 1 75t-C6 8.46:~07 7.7.6st-09 2.411-96 1 12t=0? NO Data 2.37t=08 T1131 C 51 -0 7 1.34t-06 I.978-C8 8 231-09 6 22t-09 1.62t-08 0.17s-06 NO DATA 8.401-05 8.631-08 WO cafa 2.191.C9 fil37 2.128.C6 1.651-C6 1.lJi-06 1.8CE-06 1 130 1.56t-07 2 2 31-C6 0.001-07 1.57t.05 ho Cafa 7.ftt-05 I til 4.161-C6 b.93t=06 3.41E-06 1.091-C4 3.48t-04 k0 Data 1.97t=06 8.95t=03 1 02t-PS he cafa 3.57t-06 l t 132 2.0it-C7 5.431-07 I 133 1.90t=07 1.90t*05 8.6SL.07 ho Cafa 1.02t=07 1 134 1.42t=06 2.47t-06 1.535 07 3.63t=04 4.311-06 h0 cafa 2.22E-06 3.C6t-07 2.88t-07 1.03 t-0 7 4.991 06 4.ltt=07 ho 0414 2.llt-lC 1 131 4.431-01 1 161-06 4.201-07 Cll34 6.228-Cl 1.48t-04 1.218-04 h0 7.65t Cl 1.068-C4 h0 Data L.llt 06 Data Cll36 6.51t-06 2.57E-06 3.951-05 40 Dafa 4.796-05 1.195 05 2.591-06 1.41t'-05 1.96t=06 2.921-06 Clll? 7.978-05 1.091-04 7.14t-05 ho Data 1.09t=07 S.40E-04 hO Cata 3.701-05 1.25t-Cl 2.11t-06 4 Cll38 S.521-08 i 84839 9.70t-C8 6.91 tall 2.048-09 ho Cafa 6.46t-il 3.018-09 7.918 09 4.65t=13 !i 3.92t-il 1.72t-C1 1
- Data presented in this table il from Reference 1 e
I
- A-24
e t l e I. Ta3L8 E-II, CONT'O 8 P ACE 3 0F 3 1%st1710% 0011 F AC7045 Fra aDVLTS* (* alm PCR #Cl INetiftel l* vvCList 50%f Liv!L f.R00Y THYt010 410%EY LU40 GI-LLI salei 2.05t 05 2.551 08 1 3 A t -0 6 'to Cafa 8.6ft=09 1.46t=08 4.let-0S Patel 4.ftt=08 1.66t-il 1 59f-09 %D Data 3.3tt-il 2 02E-il 2 22t=17 46162 2 13t-08 2 19E-il 1 36t-09 40 Data 1.85t-il 1.24E-il 1 00t=26 Lal60 2.6CL-09 1.262-09 J.3Jt-10 40 cafa NO Cafa NO C&Ta 9.298-09 l t4162 1 28t-10 S.82t il 1.65t-il NO Cafa he Cafa go Cafa 4.255-07
] 0(141 9.36t=0e 6 lst.09 reltt-10 NO Cafa 2.94t=09 h0 Dafa 2.42f=01 Ctl43 1 65t-09 1.228-06 1. 3 5 t -10 NO Cafa S.371-10 NO Cafa 4.96t-05 i Ctl64 4.ast.07 2.54t=07 2. 6 2 E-0 8 40 Cafa 1.218-07 40 Dafa 1 65t=04 1 Dal4) 9.20E-09 3.69E-09 4.lof-10 %D Dafa 2.13E-09 90 Data 4.03t-05 pales 3.08t.Il 1.25!-11 1.581-12 NO Cata 7.056-12 NO Data 4.53t-le 50167 6.24E-09 7.471-09 4. 3 5 E-10 No cafa 4.218 09 90 Data 3.49t.0%
h lit 1.03E-07 0.stt-08 3 01E-7 8 NO Lafa 40 Cafa hn Cafa 2 82f-05 hp239 1 19t=0i 1.l?C-10 6. 4 5 E al l 40 Data 3.658-10 ho 04f4 2.40E-05 4 g-i, e 1 i 1 F e i
- Data presented in this table is from Reference 1 l l
( A-25 _
148 L E E=12 Pa3C 1 DF 3 thattflDN 00$t FACTORS FCa fttha3te* teatr Pfa PCI INetsitol huCLICf ODNE L i vl t f.40CY TMVACID RIDhtv Luh3 Cl-Ltl at 3 40 Data 1.061-C7 1.cet-07 1.06f-C7 1.961-07 1.061-07 1 061 07 L 14 4 306E-06 8.127-07 8.12E-07 8.12F=07 8.128-07 8.12E-07 8.12 F = 0 7 - Na 24 2.30t-06 2.208-96 2.3CE 06 2.30[-06 2 304-06 2.30t-06 2 30!-06 P 32 2.76C-04 1.71t-05 1.071 05 kn Data hC Data h3 Data 2.32f-Cl Ca 54 hu Data NO Data 3 60t-0 9 2.001-09 7.89a-10 S.14t-09 6.05t-C? Ph 54 h3 Cala S.9CE-Ce 1.171-06 kn Data 1 76t-06 he Data 1 21t.Cl
#h 56 40 DATA 1.68t=07 2.818-08 he Data 2.005-C7 he Data 1.04t=0S P f $3 3.781-06 2.08f=C6 6.26t-07 46 Defa NC Data 1 70t-06 1 161-06 FI 19 S.87t-C6 1. aft-C5 S.291-06 40 Data 40 Data 4.32f-06 3.24t-Ob CC 58 N0 Data 9.721-Cf 2.24t-06 40 Data ND pafa h3 Data 1.34t-Cl CU 60 NO Cafa 2. Cit-06 6.131-06 h3 Data NO Data h0 Data 3.66f-C5 hl 6J 1.77t=04 1 25L*05 6. 0 DI-0 6 40 Dala he Data h0 Data 1.99f-06 %I 65 7.491-C7 9.b7t-03 4.36t=08 NO Data NO Data NO Data 5 19t.06 CU 44 h3 Data 1.Ilt-C7 5.41t-08 to Oafa 2.91t-07 ho Oafa 8.92t=06 2h 6) 5.76t-C6 2.CCI-C5 9.13t=06 40 Data 1.28t*?$ NO Data 8.47t.06 l
2N 69 8.471-08 2.60t-C8 1.96t-09 to Oafa 1 811-08 NO Data S.16t-C8 i e et 83 NO Cala he Cafa t.74t-08 ho Data hc Data 40 Data L1 t=24 tt 8* NO Data hn Cafa 7.221-08 he Data NC Data 40 Data LT t-24 L en 84 NO Data NO Cafa 3. Cit-09 he Data 40 Data h3 Data LT t=24 at 86 40 Data 2 . '. ' t . 0 5 1 431-05 he Data hc Data he Data 4.alf-06 48 IB NO Data 8.528 0A 4.let-08 h0 Data he Data ho Data 7.301-16 ut 99 h3 Data S.601-08 3.891-08 NO Data h0 Data he Data 8.43f.47 la 8 7 4.4Ct=04 NO Data 1 26C-05 h3 Data ho Data ho 0414 b.24t-CS
%4 9C 8.3CI-03 4C Data 2 0bt 03 40 Data mn Data he Cafa 2.llf-04 , ................................ .......... .. .. ... . . ......... t SR 91 8.C71-06 NO Data 3.28t=07 40 Data NO Defa h0 Data 3.661-Cl 54 92 3.C5t-06 NO Cala 1 30t-07 NO Data he Data hD Data 7.77f-05
, V 94 3.37E-04 40 Data 3.678-10 40 Data hc Data 40 Data 1 13t.04 i ........................ .... . .. ........... .....r...... . ...... ,
. Y 948 1 291-10 NO Cafa 4. 9 3 t.12 he Data hC Data 40 Data 6.091-09 Y 93 2.0!!-C7 NO Data D.391-09 40 Data 40 Data hn Data 8 24t=06 i 9 92 1 21t-C9 tic Cafa 3,5Cl-11 kn Data ho Data NO Data 3.32t-CS t
i t I s l i l
- Data presented in this table is fron Reference 1 l
6
1 I i fastF E-12, CONT'O PaSt 2 0F 3 INGttfl0% CnSt F4Cf 0th Pc4 Tithacta
- Imalm WFR WCl Ig$t%f(Of hy: LICE 60NE f.dCCY Livta Tmytcl0 EIONEY LUNG Cl LLI y 93 3.03t-C1 NO Cafa 1.C58-10 h3 0474 hc Cafa 40 Data 1.17E.04 fu 93 4.126-C4 1.3CC-C8 8. 9= t-0 9 NO Cafa 1.ilt.C4 40 Data 5.00t=0S Fa 97 2.37t-09 4.691-10 2.161-10 NO Data 7.llt=10 NO CATA 1.271-04 er 95 0.22t-09 4 361-09 2.blt-09 NO Cafa 4.428-09 40 Cafa 1 95f-OS 80 99 NO Cafa 6.C3C-06 1.lst-06 he Cafa 1 108-05 40 Cafa 1 01t-05
- l TC 99a 3.92t-10 1.261-10 1.2CE-04 ho Cafa 1.18t-nB 5 14t-10 6.00t-C7 g TC101 3.60E-10 S.121-10 5.011-09 h0 Data 9 26t-09 3.12E-10 8.75t=17 9W103 2.llt-07 4U cafa 1.C9t-07 NO Defa 3.998-07 NO DATA 2.13f-05 .
.I Wul01 2.18E-04 ND Unfa s.46t.09 NO Cafa 2.75f=07 NO Cafa 1.76t=0S tulC6 3.ilt=04 NO Cafa 4.148-07 NO Cafa 7.56t-06 h0 Cafa 1. Bat =04 actle= 2.Clf-07 L.948-07 1 14t-07 NO Cafa 3.108-07 NO Data 1.45t-05 ill23* 3.83E-C6 1.388-06 S.12t-07 1 07t=06 40 Data h0 Cafa 1 13t=05 78127m 9.678-C6 3.431-06 1.llt-06 2.30T-06 S.92k.05 ho cafa 2.4tt 0%
ffl27 8.llt-07 S.sti-C4 3.4 CE-O s 1.C9t-07 6.401-07 40 Daft 1.27t-Cl fil29m 1.63E-Cl 6. Cit-06 2.50t-06 5.26f-06 6.42t-05 Nn Data 6 128-08 I fil29 4.48t-Cl I.6?F-Cl I.C1t=0B 3.20t=08 1.98t-07 hO Data 2 495-07 2.44t-06 fillis 1.lft-06 9.761-07 1.F6t-06 1.228-05 WO Data 9.39E-Cl final 2.791-08 1.llt-L8 8.72t=09 2 15t-08 1.!!! 07 h0 Cafa 2 29t=09 I fil12 3.49f-06 2.218-C6 2.001-06 2 336-06 2.128 05 NO Data 7.00E-05 1 110 1.03E-06 2 98t-C4 1 198-06 2 415-04 4.196-06 40 Data 2.29t-06 J l 131 5.tSt-C6 0.11C-16 4.401-06 2 398-03 1.48E-Cl h0 Cafa 1.62t-06
- .......................... ..... ........... . .. .....==--- . ..
l i 132 2.79f-07 7.3CE-C7 2.62t-07 2 46t-05 1.151-04 NO Cata 3.18t-07 1 133 2.Olt-C6 S.4Lt=06 1 04t-06 4.16t-04 5.94t=06 NO Dafa 2. LIE =06 I 13, 8 46t-C7 ' **t-0? 1 198-07 6 4St=06 6 1C8-07 40 C&Ta 5 104-09 I l 13% 6 101-C7 4.l?t=06 5.028-0 7 l. Cit =04
===-
2.48E-06 h0 Data 1 748-06 C$134 0.17t-05 1.97t=04 9. I n t -0 6 h0 Cafa 6.26t-05 2.39t-05 2.49t-06 Cll36 0.198-06 3.JIf=0b 2 27E-ul h0 Data 1.84E 05 2 908-06 2 728-06 i ly ................................. .. 1.12t-C4 1.49t=04 i Cll37 S.19E-05 No cafa 5.07t=0S 1.9?E-05 2.128-06 C$138 7.76t-CI 1 49t-07 7.458-04 40 Data 1.108-07 1.III-08 6.76E-Il 34139 1 39t-07 9.78E-il 4.0 6 t-0 9 he Data 9.221-11 6.74t-il l.248-06 , .............. ................. ................... . . ..... .==_. . 1 I l l I
- Data pre $ented in thin table il from Referente 1 ,
f A-07
I e i faRLt I-12, Coht*C P&31 3 0F 3 3%*.Infl0N 005t Fatf ott FCa ttr4 acta
- 4"4t* Pts PCI thCtlft03 Nuttl&C BONI Livte f. tety TMyacto 5 LUNG '
34160
...............10%tv ............
Gl-tt! 2 041-CD 3.4RI-09 1. tit =06 40 Data Rain! 6.78t-CA 5. Cit-il 2.74f-09 90 Data 1.181-08 7.let=08 4 30t-CS 4 698-11 8.43t-il 1.436 11 84162 2 99t-CD 7.99f-11 1.863-09 40 Data 2.lat-ll 1 99t-ll 9 191-7C talte L4862 3.681 09 1.14t-09 4.llt 10 40 Data he Data he Cafa 9 82f-C5 Ctl61 8.79t=10 7.95 tall 1.981 11 40 0aT4 hc Cafa h0 Cafa 2.4ff=06
- 1.38t*04 8.Stt=09 1.023 09 40 Data 4.ltt=09 h0 04TA 2.lef-Cl Ctl63 F.35t-09 1.748-C6 1. 91 t -10 h0 Data 7.671 10 he Cafa til6= 6 9ht-C1 7.881-C7 3.16t=08 h0 CafA S.14t.Cl Pal 6) 1 311-04 S.73t=09 6.571-10 40 Data 1.12t=O7 40 Data 1.flF=C6 3 64t.09 40 Caf a 4.llt-05 Pal 46 4.3C1-11 1.764-11 2.18 t -12 h0 Data 1. cit-il 40 Data
%C16 7 9.90t-09 1.02F=08 6.Ilt=10 hD Cafa 4.76t.14 h 181 3.991-09 km Data 3.60t-CS 1 661-C7 1 19t-C7 4 171-06 40 Data 40 Data h0 C&Ta 3 72t-05 %*239 1.741-C9 4 66t-20 9.22E-18 hD Cafa 5 78t=10 h0 Data 2.67t-05 4
l 1 e I i i e I l i . g I 1 !*
- Data pretented in thin table is from Referente 1 I .
- i l
l I n.m .. - -
l l 1 TasLt t-13 Past t op 3 1%3tlfl0% 0054 Petfotl 80s CHILO
- tents ett act 1%gtsft0!
No!LI.t 80%f Livtt f.migt fMv4010 al0%tv Lu%C GI-LLI - et 3 %0 Data 2.031-07 2. 01t =0 7 2.031-07 2.631-07 2.031-07 2.03t-07 C to 1.28t-06 2.=21-06 2.42t=06 2.42t=06 2.42t=06 2.42t-66 2.42t-06 44 24 6.let*06 1.001-06 S.Ict*06 5.808-06 S.904-06 5.00E-06 1.001-06
- 32 8.258-06 3.16t=0S 3.181 05 cc Cafa %0 Data he C a f .*, 2.20(.05 Ca it %D Cata NO Cafa 3.951 09 4. 9 41.P.9 1.35t=09 9 028-09 4.72t=07
>% in 40 Data 1 0ft.05 2.8%E*06 NO Dafa 3.00C*06 40 Cafa 0.98t=06 >% $6 %C Cata 3.341-07 7.lgt-Og %Q Cafa 6.04t=0? h0 Data 4.04t=01 ft lb 1.tSt=0S 6 101-06 4.stf-06 NO cata he Daft 3.45t=06 1.135-06.
FE $9 1.6st-05 2.6ff-06 1.3st-05 %Q DATA 40 Data 7.748-06 2.78t-05 3- CC le %D Cata 1.801-06 S.ltt-06 40 Data NO Cata 40 Data 1. Cit-05 Co.60 NO Cafa 5.298-06 1.56t-05 40 Daf t No Cafa me Data 2 931 05 l gl 61 S.Itt+04 2 84F-Cl 1.8st-05 h0 Data 40 Data 40 Cafa 1.94t.06 ;
%I 65 2.228-06 2.098-07 1. 22 t-0 7 40 Data he Cafa h6 Cata 2.96t-05 CU to 40 Defa 2 4St.07 1 4 6 t-0 7 40 Caf4 S.92E-07 NO Cafa 1.llt=0S 2% 65 1 37t-05 3.951-03 2.2ft-05 No Cafa 2.10t-05 kn 0474 6.41t-06 2% 69 4.344-08 6.a3!-00 S.ftt=09 NO Cafa 3.94t.00 40 Data 3.99t=06
- pr is %g Data %0 Cafa 1.714-07 40 Data 40 Data NO DATA Lt 3 24 sa g4 %Q CATA No c4TA 1. 9 t(-0 7 no Cafa 40 Data NO Cafa LT t.24 ta $$ h3 04f6 he Cafa 9 12t-09 NO Defa he Cafa 40 Data LT tale 48 On h3 Data 6.70t=0% 4.12t*0$ NO Cafa 40 Cafa hi Daft 4.318-06
- l. at St %Q Defa 1 90(=0? 1.llE*07 40 Caf a 40 04f4 ho 06f4 9.32C-09 i
95 89 NO Data 1.171 07 1.04t.07 40 Data 40 Data he Cafa t.02t-09 ' la 89 1.32t.03 Nu cafa 3.77t-OS %0 Defa 40 C&T4 40 Data 9.llt.05 la 90 1.70t=02 NO Wafa 4.3 t f =0 3 tip,mata NO Cafa ho Cafa 2.291-C4 la 94 2.40t*05 NO Cafa 9.06t=07 %q cafa No Defa 40 Data 5.10t=0S la 92 9.03t=06 40 Cafa 3.6Cl*07 40 Data , 90 Data 40 Otta 1.7tt 04 e Y 90 4 11t-08 40 Cafa 1.lat*09 40 Data 40 Cafa no Cafa 1 171 04 4 Y 918 3.lft-to %D Cafa 1. 31 f -! ! ho Cafa 40 Data mn 04T4 f.4pt.07 Y 98 6.02E-07 NO 0414 1 617-08 40 Cafa 40 Cafa 40 Defa 3.02t=0S , T 92 3.60t=09 No Cafa 1.0 s t .4 0 40 Data 40 Data 40 Data 1.048 04 g ................................. .............. .. .......... ...... t t
- Data presented in this table is fro.9 Reference 1 A.29 i
l
- l. .
TabLt E 13 CCNf'O P43t 2 DF 3 14011110% Dott pac 7045 FOR CMIL DI totip Pit PCI INCtlit03 hvCLICL tomt Livtt 1.000f
.......................... ..... .....TNya010..... .. MI D*!Y LUhG GI-L V 93 1.14t-Cl he Cafa 3.13 t .10 hD Da74 he Data . ...... ....LI..
ft 95 h0 Data 1.701-04 2R 97 1.161-07 2.stt-08 2.21tr ol NO Cafa 6.991-09 3.651-05 he Dafa 2.66t-Cl
..............................t-10 NF 95 lecil-09 9.96 .... 40 Da a .....'.....1.45t.09 .. 40 Data .. ..... 1.53I.04 m: 99 2.251-05 S.761-09 4.26t 09 40 Data he Cafa 8.231 09 hD Data 1 62f 05 1.311-05 3.291-06 ho Data 2.945 05 h0 Data it 99= 9.231-10 1.Ill-09 3. 0 0 E -0 8 40 Data 1.lCI-Cl 2.65t=08 9.h9t-10 1.031 06 fCl01 1.07t=t9 %.lli-09 1.42t-06 40 Data avlo) 7.)lt-Of NO Cafa 2.811-07 40 Data 1 911-CR 5.92E-lC 3.16t-09 autos 6.451-43 NO Data 1.84t 06 720 0474 8 89t=0S 2.34E-08 40 Dafa S.611 07 h6 Data 4 211-05 Rul06 1.17t-Cl NO Data 1.46t-06 40 Data AGitCw S.391-C7 3.64t=07 1.198-05 NO Data 1.821-04 2 94t-07 h6 Cafa 6.701-C7 hD Data 4.33t-05 fil25m 1.14t-35 3.091-06 1.521-06 3 ........ ....................... .... 20t-06 NO Data he. Data 1 10s 05 Tillfa 2.09E-05 11127 4.78t-C? 7.781-06 1.2?'-07 3.4Jt-06 6.9tt-06 1 24t-05 k0 Data
- 1. Cit-07 3.26t=07 1 34t-06 kn cafa 2.341-05 fil29= 4.lft-Cl 1.htt.0%
1.s61-0) 7.let-06 1.l?t-05 1 431-04 40 Data S.941-05 fil29 1.341-07 3.741-09 3 18I 08 9.56E 08 3.92t-07 40 Data fillla 7.201 C6 2.498 06 2.611-06 3 34t.06
- final s.30t.C8 2 531-Ce 2.47t-08 4. S.121-06 2.48t-05 NO Cafa 1 0lf-04
................................. .....35E-Ot ....
2.llt-07 he Data 4 361 07 Tin 32 a. Cit-Cl 4.471-06 S.401-06 4.511-06 4.llt=05 40 Data 1 130 2.97t-06 S.90t=06 3.04t-06 4.let.05 i i 131 1 12t*Cl 1.731-05 9.BJt-06 65.7501-04 9.021 06 NO Data 2.76t*06
....... 0.00t-C7 d 132 .............. ....... . . 2t-03 2.84te05 .......40 Data 1.541-06 ' l 1.41t=06 6.76t-07 6.82t-05 2.25t 06 h6 Data 1.731 06 a I 11) 1 134 6.924-06 7.328-06 2.778-06 1.361-03 1.224 06 h3 Data 2.951 04 4 19t=01 7.181-07 3.181-07 1. 7 9 8 - n
- 1 194-06 h3 Data 5.16t=07
- 1 135 1.155-06 3.151-06 3.491 06 2. 7 9t-0 4 4.93t-06 ho Data 2.40f=06 Cll34 2.341-04 3.84t 04 8.101-05 40 Data 1 194-04 4 276-05 2.0ft 06 C1136 2.358 0% 4.461-05 4.let=0S ho Data 3.44t=05 S.13t.06 2 21t-06 l C1137 3.271-C4 3.131-04 4.628-06 to Data 1.02t-C4 3 67f Cl 1 96t-06 i -
C1136 2.281-01 3.17t.07 2.0lt=07 NO Defa 2.236-07 2.40t-DO ls Ballt 4 141-07 2.28tal0 1 20t-08 40 04Ta 1.93t-10 1 50t-10 9.191-05 l.46t=07
- I
- l I
t 4 l1 l 0 I
- Data pretented in thin table il from Reference 1
! A.30
t t TadLE tal). CONI'0 Pa t 3 QF 3 INJt$flON DC1! FACf095 F0a CwtLO I tuatw p!9 #Cl Inst $ftc) NLCL .1 C BUNT Livta f . 0 0 CY TMya010 E10Ntv LUNC Cl-LLI
' P.4160 8..tt-C6 f.2st-03 6.0$t-06 NO Defa 2.37t-04 4.36t-08 4 28t=05 *alet 2.0C0-C7 1.122-10 6. lit-09 NO Date 9.691-11 6.SOf-10 1 14t=0?
Sat 42 8.76t*98 6.291-11 6.887-09 No pafA S.C9talt 1.70C-It 1 141-09 Lat60 1.Clf-CP 1.53t-09 1. tit-09 to Cafa NC C&T4 40 DafA 9.042-05 E Lal62 5.96t IC 1.678-10 6,2 5 t-i l NO Cata hD Cafa NO DATA 3.38t-C5 Ctl61 3.97L-Ca 1 94t-CI 2.9et-09 NO Data 8.6BE-09 h0 Data 2 4ft-05 CEt4A 6.99t=C9 3.79t=06 5.4 9f-l o 40 Data 1.198-09 NO DATA %.55t-05 i Ctl66 P9463 2.0ft-C6 6.52t=07 3 93t-C8 1.181-00 1.!!E-Of NO 04f4 3.61t-07 40 Data t.fot-06
- 1. 9 5 t =0 9 NO Cata 6.19t=09 40 Data 4 24E-05 I p9164 1.29t-10 1.111-11 6.49t 12 No Cafa 2.11t-11 40 Data s.lgt-Os !
NCl67 2.79t-Ce 2.26E-CI 1.?St-09 NO Data 1.26L C8 %0 DATA 3.S$t-05
= 18f 4.298-07 2.54f-Of 1 161-07 NU Data NO 0474 he DATA 3 5ff=05 4r239 5.268-Ci 3.???-10 2.69t=10 NO Cafa
< 1 09d=09 h0 DATA 2.798-05 i I 1 . I I . l . I
- Data presented in this table is fron Reference 1 i
I
; i A-31
i f atti E-14 PA3E I DF 3 INCilflut 005t FACf045 F04 INFANT
- lusta Pit PCI INGilftDI NUCLILt SON! L l yt a 1. 80 pv TMvt010 alDNtv LUNG GI-LLI H 3 h3 Data 3.088-07 a.C8E-07 3.09F-07 3.08t=07 3.00f=07 3.00E-C7 L in 2.3ff=05 b.0Lt=06 S.06C-06 S.06t=06 5.066-06 S.068-06 S.06t-06
%4 24 1.084 05 l. Cit-OS 2.014-05 1.01t-05 8.Dit=05 1.Dit=0D 1 0lf-Cl P 3 .' 3.701-03 1.C01-04 6.S94-05 NO Defa 40 Data NO Cafa 2 9CI 05
- C8 51 NO Data NO Data 1.48t-08 9 20t-09 2.Dit-09 8.79t-CB 4 111-07 as 66 %D Data 1.991-0) 4. Sit =06 NO Data 4.411-06 40 Data f.38t-06 MN 56 40 DATA 8.181-07 8.4tt-07 40 Data 7.0it-Of 40 Data 7.43f-C5 ft $5 1.391-05 0.901-06 2.4Ct=06 h0 Data he Data 4.19 t = 0 6 1.141-06 Ft 59 3.004-05 S.s8!-03 2 128-0) %Q Data he Data 1.59 2.l?t-05
................................. .... ........ .. .. . .t=05 .. .........
CD 58 NO Cafa 3.604-06 8.93t-06 90 Data 40 Data NO Data CC 60 h3 Data 8.9?C-06 1.00t=05 2. S b t-0 5 NO Data he Data kn Data 2.57t=05
%I 63 6.36E C6 3.92f-cl 2.20t-05 h0 Data NO Data NO Data I.95f-C6 41 63 4.701-06 S.32f=07 2.424-07 NO Data he Data h0 Data 4.05t-C5 , 40 66 NO Data 6. 0 9t-C f 2.82t-07 NO DafA 1.03t-06 WO Cafa 1 25t-C5 th 65 1.141-05 6.stt=05 2.91t-06 40 Data 3.06t=0S 40 Data S.33t.C5 I N 61 9.33t-Cl 1.ett-Cf 1.25f-03 NO Data 6.901-09 ND Data 1.178-05 on 83 Nn Data he Data 3. 63 t-0 7 h0 Data NO Data 40 Data LT t-26 en g, %a Data NO Data J.37t-07 NO Dafa he Data ho Data LT t-26 en 33 NO Data 40 Defa 1 96t=08 NU Data NC Data hD Data L1 E-24 NP 36 NO Data 1.70!-06 8.401-05 h0 Data NO DATA he Cafa 4.35t-06 de 89 h0 Data 4.984-C7 2.73t-07 ND Data he Data 40 Data 4 8b RC se ..... .....t-07 hD Data 2.86E-07 1.971 37 NO Defa 40 Dafa he Data 9.74t=08 la to 2. tit.C3 NL Data 1.20t.05 No Data he Data ho Data 5.16t-Cl la 90 1.85t.CF NO Data 4. 7 8 t -0 3 NO Data hc DATA NO Daf* 2.31t.04 l
g la 93 S.CCE-C5 NO Data 1.818 06 NO DATA he Data 40 Data S.92t-05 la 92 1.92t*05 40 Defa 1.13E 07 h0 Data 40 Data 40 Dafa 2.07t=04 Y 90 8.691-00 40 Data 2.331 09 NO Data he Data 40 Data 1.20E-06
- = _ ... .....
I
- Y 9t* 8.10E-!C NO Data 2.76t-il hD Data NO Data 40 DATA 2.70E-06 v 91 1 13t-06 40 Data 3. 01 t.0 8 ho 0&fa ho Data NO Data S.10t-C5 Y 92 7.65t=09 NO Data 2. llt .10 h0 Data WO Data ho Data 1 46
, ................................. ......................................t*06 .
I 1! t l
- Data presented in this table is from Reference 1
I l i fatLE t=14e CONT'O Pakt 2 CF 1 IN0t%fl0N 005E FACTCal FCa theahf
- ImRt* PF4 PCI INotlftDI NUCLICE SONE Livtt T.000v TMya010 RIONEY LUNO Gl-LLI v 93 2.43t-08 NO Cafa 6.62t-10 NO Cafa NO Data NO Daft 1.92t-04 la 9% 2.06t-07 S.02t-08 3. % 6 t-0 0 NO Cafa S.41t=00 WO Cafa 2.let-05 la 97 1.48E 03 2.$4t 09 1 16t-09 NO Data 2 56t-09 NO DATA 1.62t-04 I 1B 95 4.20t=00 1 13t-04 1.03F-08 NO CATA 1.P4t-06 NO DATA 1.46tacl 8
"O 99 NO Data 3.4Cl-05 6.63t-06 NO DATA S.018 05 NO Cafa 1 12t-05 -
TC 998 1.92t-09 3.961-09 5.101-08 Nn Data 4 261-00 2.07t=09 1.lSt-06 l IC101 2.27t=09 2 86t-09 2. 8 3 t.0 8 No cafa 3.401-08 1.S68-09 4.861 07 i 20103 1.48t-06 NO Cafa 4.951-07 NO Data 3 08t-06 NO DATA 1.00E-05 . 4U10% 1.36t.07 NO Deft 4.588-03 90 Daft t.00E-06 hn Cafa 5.4tt=05 I 9U106 2.41t-05 NO Cafa 3.018-06 NO DATA 2.05E-05 NO DafA 1.03F-04 l 4Gtt0m 9.96t-07 7.27t-07 4.01E-07 NO Cafa 1.04t-06 NO Cafa 3.77t-01 ftl26p 2.33t-05 7.79t=06 3. l ti-0 6 7.04t=06 NO DafA N O 0 *,f A 1.llt=0S o fil27m S.Ilt-05 1.94t-05 7.0ft-06 1.69t-05 1.448-04 hD Data 2.36t-0% fil27 1.00t-06 3.35t-Of 2.llt=07 B.14t=07 2.44d=06 40 DafA 2.let=0S { fil29= 1.00E-04 3.43t-05 1 54t-0$ 3.84t-05 2.50E-04 ho DafA S.97t-05 ) fil29 2.84t=07 9.79t-08 6.63t 08 2.3BE-07 7.C7t-07 MO CATA 2.27t*Cl f fit 31* 1.b2t-05 6.12t=06 5. Cit-06 1.24t-05 4 211-05 40 DATA 1.03t-04 l ftt31 1 76t=07 6.50t-08 4.94 E-O S 1.575-07 4.50E-07 No DATA 7.llt-06 ftt32 2.00E-01 1.031-05 9.6tt-06 1 52t-LS 4.44t=05 NO CATA 3.Ilt-05
- l. i 130 6.00E-06 1.321-15 5.301-06 1.48t-03 1.45t=0S NO Cafa 2.83t=C6 l
l I 131 3.591-05 4 231-05 4.e4E-0% 1.39t-02 4.94t-Cl NO CatA 1 9tt=06 1 132 1 668-06 3.37t=06 1 2 0 t =0 6 1.58t-04 3.761-06 NO Data 2.73t-06 t 133 1.2bt=0S 1.82f-05 S. 3 3 t -0 6 3.3tt=03 2 14t-05 h0 Cafe 3.00t-06 l
, i 134 8 691-07 1 18t=06 6. 3 3 t-0 7 4.LSE-nl 1.99E-06 h0 DAfa t.'.t.06 i ........................ ....... ................... . ... . . ... .
l I 13$ 3.64t=06 7.24t-06 2.64t-06 4.49t-04 5.071-06 ho 04fA 2.629-06 Cll34 3.77t-04 7.032-04 7.10 E -0 5 No cafa 1.Ilt=04 7.62t-05 1.9tt 06 l Cll36 4.S9t-05 1.35t-04 S.06E iO S NO Data 3.3st-05 1 10t-05 2. cit-Os a Cll37 S.22t-04 6.llt-04 4.331-OS NO Cafa 1.64t=04 6 64t=0S 1.91t-06
- Clllt 4.Ilt=07 7.82t-07 3.791-07 NO Cafa 3.90t-07 6.09t=08 1.25t=C6
' ' 84139 8.81E-07 5.04t*10 2. lli-0 0 40 Data 3. Sit-10 3.94 tate S. Set-OS i !
. t l 1 i
4
- Data prelented in thil table il fron Reference 1
- i An93
1 4 1 fastt f.14, C0%1'D
) &act 3 CF 3 1%Ct11101 Dnst Factoes Fen Inta%1*
q l'at* Wit #CI thCElitC) o %vCL I .'t WONI Livia f.4CCv tava0IO R I C % F. T Lu%C Cl.LLI t a l 4 's 1.?l1 06 1.711 07 8.411 06 %D Dafo 4.C6t.00 1.05t.C7 4 207 05 Patel 4.25!.C7 2.911 10 1. 3
- t~ .0 8 NO Data 1.15t.lc l.??F.lt b.191 06 tal42 1.161.t? 1.63d.10 9.061 09 No Cafa 8.914 11 9.26t.Il 7.591 07 Lan6C 2.llt.09 4.42;.C9 2.let.09 40 0414 NC 0414 ho Data 9.11t.0b tal62 1 10!.09 4 06t.10 9.6 f f all hn Data NC Data 40 DATA 6 06f.05 ,
Ctlet 7.l?t.Ct 4.00!.08 5.6st.09 40 0414 1.481-09 ho Cata 2.4Bt.05 Ctle) 1,48t*Cl 9.t2!.C4 1.12t.09 40 Cafa 2.96t.C9 40 Data t.13t.05
, Ctl46 2.913.Ct 1 22t.06 1.67!.07 40 cata 4.93t.07 NO Data 1.?tt.06 pal.3 p.13t-Ce 1.tet.00 4.031 09 h3 DafA 1.13t.nl 40 Data 4.298.Cl Pel** 2.1*t.lc 3.06E.10 1 381.!! 40 Data 3.44t.it hn Data 4.93t.06 Nti.? 5.33t.Cl S.681.C8 3.488 09 No Cafa 2 19t.0R %Q nata 3.60t.CS
. . It? 9.elt.C1 6.28 .07 2.17t.0 7 %n cata h0 Data 40 C&Ta 3.69t*C$
%P2ti 1.llt.Cr 9.93t-10 h. 617 10 se vata 1.98t.C9 =0 cafa 2 87t-Cs l
It i 1 a 9
) *
- Data presented in this table is from Reference 1.
I I e I e e O A-34 1 e
o PNPS-0DCH Rev. 2, 7/15/8B IABLil-15 RECCH ENSED VALUES FOR CASE 005 EFFLUENTS
- I ,
l Para eter Values 9 S is the attenuation factor that 0.7 (maximum individual) ' g accounts for the shielding 0.5 (average indiv.) provided by residential structures 1.0 (noble gas-gamma instantaneous dose) te is the time period that crops are exposured to contamination during growing season
- 1) for forage ingested by animals 720 hrs (30 days, for for pasture grass) 1440 hr (60 days for i I stored feed)"
l it) for crops ingested by man 1440 hrs (60 days) i I , tf is the average transport t'.me of 48 hr (2 days, maximum ! activity frcm the feed into the individual milk and to the receptor g6 hr ( 4 days, average I individLal) l I th Time delay between harvest of vegetation or crops and , ingestion r
- 1) for forage ingested by Zero (for pasture grass) animals 2160 hr (90 days for stored feed) i.
I t ti) for crops ingested by man 24 hr (1 day, for leafy I vegetables & max. l
, individual) ' '4440 hr (60 days, for ;
e 'produ'ce & mar. ; j individual) j 336 hr (14 days, for average I individual) l , f l
- All data presented from this table are from Reference 1, unless otherwise indicated.
l r
" From Reference 2.
4 3s l l l 1 _l - .. . - -
l 1 j PNPS-0DCH Rev. 2. 7/15/8B TABLE E-15 REC 0 WENDED VALUES FOR CASEOUS /FFLUENTS* Paraatter Values Yy Agricultural productivity by unit I area (measured in wet weight) () for forage ingested by animals 0.42 kg/m2 (for pasturt grass)" 1 2.5 kg/m3 (for stored feed)" ti) for crops ingested by man 2.0 kg/m2 ! l ! 1 i
- All data presented from this table are from Reference 1, unless otherwise
- indicated.
" From Reference 2. \
l I l l - I . !l . i i i i d l A-36 ! I l _ _ - . -
PNPS-00CH Rev. 2. 7/1518B APPE CIX B t DEFINITION OF LOWER LIMIT OF DETECTION f I f. 4 'l I i t 1 i l t ? I i e 1 1
PhPS-00CH Rev. 2, 7/15/88 ' APPENDIX B Definition of Lower timit of Detection
- a. The LLD is defined for purposes of these specifications as the smallest concentration of radioactive material in a sample that will yield a net count (above system background) that will be detected with 951 probability !
with only 5% probability rif falsely concluding that a blank observation I represents a "real" signal. For a gross activity measurerent system (which may include radiochemical separation): - { LLD . 4.66:sb I E x V x 2.22 x 106xy ,.M Where: l LLO is the "a priert" lower limit of detection as defined above (as microcuries per t. nit mass or volume), sb is the standard deviation of the background counting rate or of the counting rate of lank sample as appropriate (as counts per minute) defined as ,
,T B is the average background count rate (as counts per minute),
T is the total tire of the background (in minutes), f E is the counting efficiency (as counts per disintegration), V is the sarple size (in units of mass or volume), 2.22 x 106 is the number of disintegrations per minute per ! microcurie. Y is the fractional radiochemical yield (when applicabit), . histheradioactivedecayconstantfortheparticular l radionutilde, and t for plant effluents is the elapsed time between the midpoint of ! sample collection and time of counting, a Typical values of E. V, Y, and t should be used in the calculation. I 8-1
10CFR50.36a(a)(2), - PNPS TS Section 6.9.C.1, g Reg. Guide 1.21 l sosMWaD50N Pilgrim Nuclear Pw.tr station l Rocky Hill Road ! P4 mouth. Massa:husetts 02360 l hiph G. Bird BECo 88-128 sen.or v><e President - Nxtear U. S. Nuclear Regulatory Commission August 31, 1988
. Document Control Desk Hashington, DC 20555 Licensa DPR-35 Docket 50-293 , SEMI-ANNUAL RADIOACTIVE EFFLJENT AND HASTE DISPOSAL REPORT FOR THE PERIOO l JANUARY 1 THR00GN JUNE 30.,Jjlg i In accordance with the requirements of 10CFR50..Soua)(2), Pilgria Nuclear l Power Station Technical Specification Section 6.9 C.1, and Regulatory Guide l l 1.21, the Boston Edison Company submits the Semi-Annual Radioactive Effluent l and Haste 01sposal Report for the period of January 1 through June 30, 1988.
l l R. G. trd 1 l RPH/jcp/2415 Attachttents , cc: Mr. D. Mcdonald, Project Manager Office of Nuclear Reactor Regulation U. S. Nuclear Regulatory Commission l Mail Station P1-137 l Hashington, DC 20555 l U. S. Nuclear Regulatory Comission t Region I l 475 Allendale Road i King of Prustia, PA 19405 ; i Senior NRC Resident Inspector l Pilgrim Nuclear Power Station ! t l (}}