ML20003E437
| ML20003E437 | |
| Person / Time | |
|---|---|
| Site: | Oyster Creek |
| Issue date: | 03/31/1981 |
| From: | JERSEY CENTRAL POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML20003E435 | List: |
| References | |
| NUDOCS 8104030462 | |
| Download: ML20003E437 (150) | |
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, , coni, i,g., a t.oni compeny General PutHic Uhlehes System I OYSTER CREEK I NUCLEAR GENERATING STATION I
I I Q I U ; I OYSTER CREEK NUCLEAR GENERATING STATION 1980 ANNUAL ENVIRONMENTAL OPERATING REPORT ig for the '3 OYSTER CREEK ENVIRONMENTAL TECHNICAL SPECIFICATIONS APPENDIX B to LICENSE NO. DPR-16 I DOCKET NO. 50-219 MARCH 1981 .I l 810 4 0 3 0TkN4.
I lI j TABLE OF CONTENTS l SECTION TITLE PAGE NU51BER
- LIST OF TABLES iii
- LIST OF FIGURES iv
1.0 INTRODUCTION
1 l 2.0 LIh!ITING CONDITIONS FOR OPERATION 2 2.1 Slaximum AT Between the Circulating 2 (I 2.2 h'ater Intake and Discharge Bbximum AT Between the Circulating 2 Water Intake and Discharge During Pump or Intake Component Failure 2.3 Maximum Discharge Temperature 4 l 2.4 Use of Dilution Pumps 4 5 2.S Rate of Chrnge of Discharge Canal 3 Temperatures 3.0 ENVIRONMENTAL MONITORING 13 3.1 Abiotic-Aquatic 13 3.2 Biotic-Aquatic 13 3.3 Onsite >!cteorological Monitoring 13 4.0 SPECIAL MONITORING AND STUDY ACTIVITIES 14 l g 4.1 Woodberer Monitoring Program 14 4.2 Thermal Plume Measurement Program 13 3 13 f 4.2.1 Introduction 4.2.2 Materials 5 Methods 16 4.2.3 Thermal plume results 17 4.2.3.1 July 25, 1980 17 j 4.2.3.2 August 27, 1980 17 4.2.3.3 September 24, 1980 17 l 18 4.2.3.4 October 10, 1980 4.2.3.5 November 6, 1980 18 l 4.2.3.6 December 29, 1980 18 i g 19 4.2.4 Discussion E 4.2.4.1 Shape Codes 19 4.2.4.2 Recirculation of Heated Water 20 4.2.4.3 Surface and Cross Sectional Extent 20 4.2.5 Summary 21. l 22 4.2.6 References Attachments 23 l I 4.3 4.2.7 4.3.1 Hydrographic Study Introduction 109 109 109 i 4.3,2 Methods A. Station locations 109 B. Field Instruments and Techniques 109 ! C. Data Reduction Data Analysis and Discussion 110 4.3.3 Chemical Inventory 161 'I 4.4 4.S Unusual or Important Environmental Events 167 i e I
.l STATION TITLE PAGE NDfBER B
E 5.0 ADDITIONAL INFORR\ TION 168 5.1 Summary of OCETS Noncompliances 168 5.2 Summary of Changes Made to Federal and 180 State Permits and Certificates hhich Pertain to the Requirements of the OCETS 3.3 Summary of Changes in Station Design 180 h'hich Could Involve Environmental Impact 5.4 Summary of Changes to the OCETS 180 I , I E r i I ii I
LIST OF TABLES TABLE TITLE PAGE 2-1 Summary of AT's greater 3 l than 23*F 2-2 Summary of Discharge Temperature 6 Data 4-1 Dates of Thermal Plume >!easurements 24 and OCNGS outages in 1980 4-2 >!eteorological Conditions, Tide and 25 l Crew During Thermal Plume >!easurements I 4-3 OCNGS Operating Conditions During Thermal Plume 5!easurements in 1980 26 I 4-4 Shape Codes for the 1980 Thermal Plumes
>!casured in Vicinity of OCNGS 27 4-5 Surface Extent of 1980 Thermal Plumes 28 in Barnegat Bay 4-6 Chemical Usage 165 4-7 Chemical Discharge Frequency 166 l
l 5-1 Dilution Pump Trips - July 1980 171 E 1 g 5-2 Dilution Pump Trips - August 1980 173 l 5-3 Dilution Pump Noncompliances - September 176 1980 l l lii J
LIST OF FIGURES FIGURE TITLE PAGE 4-la Map of OCNGS and Adajacent Naterways 29 4-2a Oyster Creek Plume Shapes 30 _ 4-1 Oyster Creek Cross Section Location Map 112 4-2 Oyster Creek Cross Section Location Map 113 Oyster Creek Cross Section Location Map I 4-3 114 4-4 Oyster Creek Cross Section Location 5bp 115 4-5 Oyster Creek Cross Section Location Map 116 4-6 Oyster Creek Section 1+00 117 4-7 Oyster Creek Section 3+00 118 4-8 Oyster Creek Section 6+00 119 4-9 Oyster Creek Section 9+00 120 Oyster Creek Section 12+00 I,4-11 4-10 Oyster Creek Section 15+00 121 122 4-12 Oyster Creek Section 18+00 123 4-13 Oyster Creek Section 21+00 124 I 4-14 4-15 4-16 Oyster Creek Section 23+00 Oyster Creek Section 24+00 Oyster Creek Section 25+00 125 126 127 I 4-17 4-18 4-19 Oyster Creek Section 26+00 Oyster Creek Section 2S+00 Oyster Creek Section 31+00 12S 129 130 4-20 Oyster Creek Section 34+00 131 I 4-21 4-22 Oyster Creek Section 37+00 Oyster Creek Section 40+00 132 133 4-23 Oyster Creek Section 43+00 134 4-24 Oyster Creek Section 46+00 135 4-25 Oyster Creek Section 49+00 136 4-26 Oyster Creek Section 52+00 137 4-27 Oyster Creek Section 53+00 138 4-28 Oyster Creek Section 55+00 139 4-29 Oyster Creek Section 58+00 140 4-30 Oyster Creek Section 61+00 141 4-31 Oyster Creek Section 91+00 142 4-32 Oyster Creek Section 88+00 143 4-33 Oyster Creek Section 63+00 144 I 4-34 4-35 4-36 Oyster Creek Section 64+00 Oyster Creek Section 67+00 Oyster Creek Section 69+00 145 146 147 4-37 Oyster Creek Section 70+00 148 4-38 Oyster Creek Section 73+00 149 I 4-39 Oyster Creek Section 76+00 150 4-40 Oyster Creek Section 78+00 151 4-41 Cyster Creek Section 83+50 152 4-42 Oyster Creek Section 80+00 153 4-43 Oyster Creek Section 81+65.82 154 4-44 Oyster Creek Section 84+50 155 4-45 Oyster Creek Section 85+50 156
'I 4-46 Oyster Creek Section 94+00 157 4-47 December 1979 Lagoon Soundings 158 4-48 Shy 1980 Lagoon Soundings 159 4-49 Comparison of 1979 and 1980 Lagoon Soundings 160 iv 1
I 1.0 11To:C' JCT I C9 This document is the Annual Envircnnental Opcrating Oe:crt ( AE: ;) f or 1 MC fcr the Oyster Creek Nuclear Generating Station (CCNGS) an: is su:mitted in accordance with Section 5.5.1 of the Oyster Cree < Environmental Technical Specifications (OC5 TS ) . GONGS is a single cycle, forced circulatien, boiling !!ght water reactor af 620 MWe neximum (summer) dependable net capability, canec enc cperated by Jer:ci Cen tr a l Power & Light Company and !ccated in Lacey Township, Ocean County, New Jersey. The plant is subject to a Provisional Operating License No. DPR-16 pursuant to Decket No. 50-219. The date of initial reactor criticality was May i 3, 1969 and cor.mercial generation of power began cn December 23, 1969. This AEOR covers the period from January 1, 1980 thru December 31, 1980. The CCNGS was out of service from Jaaua 5, 1980 through July 13, 1980 for refueling. The report is crganized such that Sections 2.0, 3.0, and 4.0 ccrrespond to those same sections in the OCETS. However, due to differences in the recuired reporting dates of various studies conducted in accordance with the CCETS, reports of those studies have been cr nill ce submittec under separate cover and, tharefore, are not duplicated in inis repcrt. In eacn of Tnese i nstances, I a confirnation of the filing of the required reports is providea in the appropriate sections of the AEOR. All data which are otherwise required to be submitted in the AECR are included in this report. I I I s I i l i l I
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2.0 L! NIT!NG COD!T t CH .r::: CPIR AT I C'. This section of the AECR reccris on tre cata getnered f rc.? the cnitcrin; of eacn timiting concition fer c:ererion (LCD). t g 2.1 Maximum T Setween tne Circulatinc '.iarer intake anc Discnarga i i E LC0 2.1.1 requires that the maximum differ 6nce in temperature 1 ( A T) beTween the circulating water intake anc discharge r.ot exceed 23
- F during nornal cperaticn which, for t':e purposes of this LCO, means that all four circulating water intake pumps are operating (operation with less than all four circulating water pumps is covered i
I in Section 2.2). If this temperature difference is exceeded, ccrrective action must be taken unless en " emergency need fer power" exists as det ined by tne CCETS. 1 At no t:me during the reporting period did the CCMGS exceed its limit of 2f F for A T with all four circulating sater pumps in and intake components in operaticn. Theretcre, the CCNGS cceplied with l LCO 2.1.1. l As shown in Taole 2.1, Surmary of A T's Grearer Then 23 3, ! Tne AT excet.ded 23 .: on September 1, Octc0er 26,23,29,31 enc l November 1 to 7 and 9 to 15. Ho ever, in all but 7 o cases, l fewer than four circulating pumps were cperating, therefore LCC l 2.1.2 was in etfect. The two exce tions were Octcoer 25 and October 31, they were due to intake ccm;cnent failure, therefore LCO 2.1.2.2 was in effect. Mere information on , these occurrences can be found in section 2.2. 1 For this LCO, as well as the remaining ones in Section 2.0, the data recovery rate satisfled the raquirements of the l OCETS. i E 2.2 Maximum AT Between the Circulating Water intake and Discherce l Durino Puto or intake Cecconent Failure er Outace l LCO 2.1.2 requires that the OCNGS operate within specified limits for AT when less than all fcur circulating water intake pumps are operating. Specification 2.1.2.1 requires that the AT not exceed 23' F for more than 48 consecutive hours due to preventive maintenance or inspection of the pumps. Specification 2.1.2.2 requires that the AT not exceed 23 F for more than 14 l 3 consecutive days due to pump failure, corrective maintenance or l E 'atake component failure- Specification 2.i.2.3 requires tnet i at no time shall the AT exceed 33 F. Finally, Specification l 2.1.2.4 directs that corrective action be taken if either of the firct 5c specifications are exceeded, unless an emergency need for power exists. g At no time during the reporting period did the AT exceed l5 23, F eue to preventive maintenance or inspections of the circulating water pumps, nce was the AT limit exceeded for more than 14 consecutive days for reasons of pump failure, i L
I Tab 1e 2.' approximate Curation of I .!aximum aT
- F aT >23*F aT exceeding 23* F Date September 1, 1980 23.3 60 minute' only 3 circulating operating pumps October 26, 19S0 23.' 60 minutes intake component failure I October 2S, 1980 23.3 360 minutes only 3 circulating operating pumps October 29, 19S0 25.3 660 minutes October 31. 1980 26.5 360 minutes intake component failure November 1, 1980 27.3 1440 minutes only 3 circulating operating pumps November 2, 1980 27.6 1440 minutes November 3, 19S0 23.9 1440 minutes November 4, 1980 25.5 1200 minutes November 5, 1980 23.1 30 minutes November 6,1980 26.3 1440 minutes November 7, 1980 26.7 1260 minutes l
, November 9, 19S0 24.9 360 minutes November 10, 1980 25.6 960 minutes November 11, 1980 27.6 300 minutes l November 12, 1980 27.0 1440 minutes November 13, 1980 26.7 1440 minutes November 14, 1980 26.6 1440 minutes November 15, 1980 25.9 660 minutes I 3
ccrrective main'enance er failure of intake ccmpcnen'3. Therefore, the OCN35 cc:plie: with 3pecificaricos 2.1.2.1 and 2.1.2.2. The CONGS al so comp l iec with Specification 2.1.2.3 as the AT never exceeded 33 F. 2.3 Maximum D ischerce Temcerature LCO 2.1.3 places limits en the station's discharge temperature. Specification 2.1.3.1 limits the discherge temperature to 106*F when all four circulating .ater intake pumps are operating. Specification 2.1.3.2 ailo s the discnarge temperature limitation to increase to 110 F ror up to 14 consecutive days if cne or more circulating water pumps is inoperative fcr reasons of pump or intake I component falIure. Specificatio- 2.1.3.3 1 imits the absolute maximum discharge temperature to 110 F. Specification 2.1.3.4 requires tnat corrective action be taken if any of these specifications is exceeded, unless an emergency need for power exists. There was only one day when the LCO 2.1.3.1 was exceeded. The maximum temperature reached was 106.5 F frcm 1744 to 1815 and 106.2 from 1900 to 1930 cn August 11, 1980. Corrective action was taken immediately to stabilize the temperature at 106*F or less. A Nonroutine Environmental Operating Report was f i led f or this cccurrence (50-219/80-6) . t' ora I information can be found in Section 5.1 of this AECR. Table 2.2 Summary of Discharge Tempera +ure Data presents lI the minimum, average, and maximum temperatures and maximum AT by day for each month that the OCMGS operated during 1960. ! 2.4 Use of Dilution Pumos LCO 2.1.4 regulates the minimum operation of the station's three dilution pumps. Specification 2.1.4.1 defines the requirements for minimum use of dilution pumps in warm weather- SpecificalIy, when the water temperature as measured at the U.S. Route 9 bridge I crossing of the discharge canal exceeds 87.0 F, one dilution pump must be put into operation. If the temperature continues to exceed 87.0 F for at least
, two hnnre, a second dilution pump must be put into ope ation.
Specification 2.1.4.2 deals with operation of the pumps in cooler weather. Once the intake water I temperature falls below 60.0 F, two dilution pumps must be put into uperation. Specification 2.1.4.3 requires that the third dilution pump be operated within fifteen minutes of such times as an insufficient number of dilution [ pumps are operable to comply with Specifications l I g .. I
1 l t 2.1.4.1 and 2.1 4.2. S;ecifica-icn 2. 4.2 ai!:os the statica to c oer ate s i Tn f e er c i I u r i on c ur,ps I tnan recuirec 'cr up to 14 cays if an insufficien* number cf pumps are avai t aale To rest any cf Tre specifications accve despite c eraTico of Tne T1irc pump. f l The ditutico puma LCO was comallec wiTh excect l cn the follcsing cccasiens. Vic!ction: cf LCD I 2.1.4.1 occurrea en July 20, Septem:er 10-15 anc Septemoer 17-16 and were reporrec in Nonroutine Environmental Operating Repcrts 50-219/30-3 and 50-219/30-8. Violations of LCO 2.1.4.2 occurred November 11 and hovember I 13 anc were reported in Nonroutine Environmental Operating Reports 50-219/30-10, and 50-219/80 *1. Additionally, a viciation of LCO 2.1.4.2 cccurred en November 25, 1979. Tnis inciden' was l identified as a violation en June 12, 1980 and was recorted in E Ncnroutine Environnental Operating . Report 50-219/20-2 anc is tnerefore inctuced in this AECR. ViolaTicns of LCO 2.1.4.3 ccourred July 27-29, l g August S-9, 11, 12 and Septe-ber 1-2, 4, 5 anc were re:crted in E "onroutine Envircnment3 operatinc ='?=rts 50-219/32-4, 50-219/s0-5 anc 50-219/20-7. %cre infernarica on inese ncncen !iances can te found in Section 5.1 of this AICR. 2.5 Rate of Chance in Discherce Canal Temoerature Curinc ulnTer Shutccwns I LCO 2.1.5 requires that, in the event of a centrolled reacter shuid u with tne intake canal temperaare belcw 50.0 F, the two opert-ing dilutica pumos ce turnec of f when the first circulating water int. e pump is turned off cc upon reaching 70% power, whict ver comes first. The remaining circulating water intake punps shall Oc removed f rcn service when it is safe to do so. On January 5, 1980 OCNGS was shutdown for refueling and maintenance i The shutdown was performed in accordance with CCETS. Although there was a fishkill associated with this shutdown, it was not caused by tne rate l I of temperature change. The fishklil was a result of the ambient water temperature reaching the lower lethal temperature for the affected species. l, 1 On November 21, 1980 OCNGS began a controlled reactor shutdown. The shutdown was done in a manner consistent with CCETS and no violation of LCO 2.1.5 l occurred. I I i
I Tele 2.2 l Fur.ary of Di s char e re .perar:re Dua Oyster Creek Environmental Technical Specifications I 1980 Annual Environmental Operating Report i I Month: January Minimum Average Maximum Maximum Temperature Temperature Temperature 2T Day 'F F 'F *F 1 55.3 57.0 5S.1 19.0 2 56.7 57.5 55.5 18.9 3 55.4 :
.6.6 37.5 1S.9 55.1 56.3 18.7 I 4 5
6 49.3 34.5 33.2 36.9 34.5 50.4 35.8 3.0 1 2.4 1 7 34.2 34.6 35.7 2.01 S 34.7 35.5 36.3 2.2 1 9 34.9 35.4 36.0 2.3 1 10 33.2 34.4 35.4 2.0 1 E 11 32.4 34.3 36.9 2.1 1 I '2 36.3 37.7 39.4 1.8 1 13 34.9 35.6 36.7 2.1 1 14 34.8 36.2 3S.2 2.31 15 37.6 40.0 41.9 2.2 1 16 39.0 40.4 41.4 2.1 1 17 40.0 40.3 41.0 1.6 1 I IS 19 20 39.4 40.0 38.8 40.0 40.6 40.1 40.5 41.3 41.0 1.7 1 2.0 1 1.9 1 1.71 I 37.8 39.2 40.1 . - 21 22 37.9 38.3 39.1 1.61 23 37.9 38.7 39.0 1.6 1 24 34.8 36.4 39.1 1.7 1 25 33.2 34.0 35.1 2.0 1 26 33.1 34.2 35.9 2.1 1 27 31.7 33.5 35.3 2.71 l 28 33.5 34.8 36.9 2.41 29 32.7 34.6 36.1 2.31 30 32.5 33.7 35.2 2.3 1 31.5 33.2 2.6 1 I 31 30.4 1 Station was out of service from 1/5/80 to 7/16/80 I - I .
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T 21e 2.2 e :- n rv of Dischtr:e_T g era ure Data Oyster Creek Environmental Technical Specifications l 19S0 Annual Environmental Cperating Report Month: Ju l:. Minina Average Maxinun "a xin= Temperature Temperature Temperature aT Day *F *F 'F *F 1.4 1 I 2 3 1 74.4 74.S 76.5 76.3 77.6 73.2 78.! S0.0 79.7 1.71 1.S l 75.2 77.9 S0.3 1.61 lg5 I 4 5 76.s 79.2 78.7 S1.3 80.2 0.91 0.9 1 l 6 ~7.2 7 73.9 76.3 79.4 0.91 I S 9 10 73.7 73.0 74.7 74.9 75.1 75.6 76.8 77.2 76.2 0.81 1.61 0.9 1 76.8 79.0 1.4 1 I 11 12 13 74.9 74.8 74.6 77.0 76.S 7S.4 73.7 1 0.9^1 0.9 14 75.4 77.5 79.9 0.91 15 76.3 78.7 80.1 1.4 1 16 79.4 82.2 38.1 7.5 17 78.6 80.3 S3.2 1.5 1 IS 79.3 81.1 83.1 1.1 1 19 80.0 84.2 92.2 10.6 20 90.9 95.0 97.5 16.0 95.0 98.0 102.1 13.8 I I 21 22 23 95.3 95.1 99.4 96.9 102.3 101.8 15.8 15.7 24 94.5 95.6 96.9 15.7 25 91.5 94.0 96.1 15.5 26 92.7 94.9 98.0 15.3 27 93.8 96.8 101.5 17.0 20.1 I 28 29 30 95.8 98.8 96.6 100.5 101.1 99.2 104.8 102.7 103.2 20.3 19.9 31 93.4 99.8 102.4 20.7 I 1 Station Out of Service f t l . .. --
Table 2.2 Sur.arv of Disenarce Trnerr.:ur: Data Oyster Creek Environmental Technical Specificaticns 19S0 Annual Environmental Operatinc Report Month: August Minimum Average Maximum Maximum I Day Temperature F Temperature
*F Temperature
*F aT
*F S1.3 S4.1 93.1 10.3 l
5 1 80.0 81.9 83.1 1.11 2 3 80.0 82.0 84.4 1.01 S1.3 S2.9 S4.4 1.0 1 I 4 5 83.0 90.5 100.1 15.7 6 97.5 100.8 104.0 IS.S
~
99.7 102.0 105.1 18.7 8 99.6 102.3 105.3 19.6 9 101.2 102.8 194.1 19.2 10 98.9 101.1 103.0 19.5 106.5 20.0 I 11 12 13 102.6 98.0 100.8 104.2 101.3 102.7 105.8 104.3 20.0 21.2 100.2 102.4 104.9 21.2 I 14 15 101.2 102.7 103.9 21.2 16 96.5 99.2 101.5 22.0 17 94.5 96.6 100.2 20.8 18 96.7 97.8 100.3 20.6 19 96.7 97.5 99.1 20.6 20 93.0 94.9 97.4 20.9 90.3 91.2 93.0 19.4 I 21 22 23 88.0 87.3 89.1 89.9 90.7 92.8 19.0 18.7 24 89.5 92.0 94.0 19.1 25 91.1 93.8 96.1 18.9 26 93.2 96.2 99.1 18.9 27 94.1 97.0 99.5 19.7 28 95.9 97.6 99.8 20.3 29 96.8 98.0 99.7 20.3 95.9 98.7 102.9 20.3 ( 30 105.2 21.1 99.7 102.0 I 31 I 1 I Station Out of Service
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I 5 =ma ry o f Di s ec a n e : itur_ :2-~ Jyster Creek Environmental Technical Specifications 195G Annual Environmental Operatin: Repor: i Mon:h: Septenber Minimum Average '!axinua Maxinua I Day Temperature F Temperature
*F Temperature
*F iT
*F 1 97.4 100.5 103.3 23.32 2 95.4 101.0 105.9 21.3 3 100.6 102.3 104.5 21.1 4 100.2 102.4 105.5 21.6 I 5 6
102.5 99.6 104.1 101.7 105.7 103.- 103.8 21.4 21.1 21.0 7 96.4 98.7 94.5 97.3 101.5 22.2 l S 99.4 102.1 22.1 E 9 96.4 10 96.2 98.2 101.3 21.9 g 11 94.3 96.7 99.7 22.1 g] 12 92.7 95.5 99.4 21.4 13 95.0 98.2 101.3 21.0 14 98.2 99.6 101.7 21.0 15 95.2 93.0 101.3 21.0 1 16 91.0 93.0 95.4 20.6 17 93.0 95.6 93.0 20.8 20.9 I 18 19 20 82.7 71.4 72.0 94.8 73.7 73.7 97.1 75.7 74.9 0.9 1 0.3 1 21 72.4 74.1 76.2 0.71 22 74.0 75.7 77.9 0.31 23 76.0 79.4 89.9 14.2 24 87.1 89.3 91.2 19.2 j 25 90.4 91.5 93.7 21.3 - l 26 89.7 90.6 91.6 21.6 27 85.8 87.8 S9.9 21.5 28 84.3 87.1 91.9 21.6 , 29 85.2 87.1 90.8 22.3 l 30 85.4 86.7 88.0 21.3 l i 1 Station Out of Service
- Only Three Circulation Pumps In Service
T c lo 2.2 surmarv of Dischar.!e : 2nenature Data Oyster Creek Environmental Technical Specifications 1950 Annual Envircnmental Operating Report Month: October Minimum Average Maximum Maximum Temperature Temperature Temperature 6T Day *F *F *F *F 1 36.2 87.3 S8.3 21.4 2 86.5 83.2 92.0 21.7 39.4 92.5 21.4 I 3 4 5 S7.1 S5.0 S4.1 36.4 85.2 87.4 86.3 21.4 20.9 6 82.1 83.5 84.9 21.2
? 81.2 S2.9 S4.3 21.0 8 80.7 82.7 87.4 20.9 9 34.3 85.9 87.8 20.8 10 80.8 81.9 84.8 20.3 11 81.5 35.5 87.2 21.0
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12 81.5 S2.8 85.5 20.9 78.6 79.7 S2.4 21.0 I 13 14 15 73.4 72.4 76.4 76.5 78.9 81.4 21.4 21.6 16 76.8 79.4 84.4 22.2 I 17 18 19 79.4 86.6 85.1 82.6 90.0 86.8 82.9 93.7 88.7 22.3 22.3 22.4 20 82.0 84.2 86.5 22.5 21 80.0 84.0 87.5 22.5 22 82.1 84.0 86.8 22.5 23 80.3 81.6 83.6 22.5 I 24 25 76.7 77.4 78.6 79.5 70.2 81.5 83.8 82.5 22.9 22.8, 23.7~ 26 62.4 27 61.6 66.7 72.6 19.4 I
! 28 78.3 76.2 81.3 25.3 29 70.3 73.4 77.9 25.31 30 68.4 70.8 75.0 21.2 31 70.2 73.9 80.5 26.5 1 1 Three Circulation Pumps in Operation. Maximum 6T with 4 Pumps was 22.9*F
- Intake Component Failure Due to Crab Impingement.
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l W are ai .. s uar u :=- 8 ca:ure Laza Oyster Creek Environmental Technical Specifica:icas
- 0SD Annual Environmental Oreratinc Recor:
i Month: November ( g Minimum Average \!aximum Maxicun g Ternerature Ternerature Terrerature iT
'F Day 'F ' *F ^ *F I
1 ,1.,
, _,1
,o. _S.o,
, _,.2-2 7'.6 74.2 76.1 27.5-a
. a . i. _,a .6 . 9.6 _a.9, I 4 e 6.6 _9.1
< o0. ,2 _a.a-4.8 a s ., . a. e < 3.5 _3a.1 l 6 s_, . 6 , ,.. S -< , . _ ,
_6.0, -2 , t 7 73.3 7.6 32.3 26.7, 73.6 S 63.4 72.4 19 .1', 9 71.4 74.6 S0.1 24.9,
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- 60. 0 ...^. .. .'. ,
11 65.3 6S.9 73.6 27.6-12 66.4 67.9 69.5 2 .0,2 I 13 67.3 63.9 70.2 26.7-14 69.3 71.6 75.0 26.6 2 l
.a .9 2
, l a- 64.a 6i., ,a.0 , 21.2 16 64.8 65.4 66.3 17 63.1 64.1 65.5 20.5 18 62.8 63.5 64.5 21.0 19 61.8 63.0 63.3 21.0 20 60.4 62.3 63.4 21.8 21 55.0 61.9 63.5 21.1, 22 42.3 J4.9 51.7 23 41.5 42.2 42.9 9.61 1.4 - 1 24 41.0 42.5 43.3 1.4 '- 25 42.9 44.8 45.9 1.3 '- 1, 26 42.8 43.8 45.! 1.5 '- 27 41.4 42.1 43.8 1.4 1 1 28 41.8 43.6 45.5 1.9 29 43.8 45.7 50.3 7.9 30 48.5 54.8 58.5 15.2 1 Station Out of Service Only Three Circulating Water Pumps Operating Maximum AT With 4 Pumps was 11.8'F l l i 1 1
Table 2.2 Sr. mar'> of Disch.tr2e Tercerature cata I Oyster Creek Environmental Technical Specifications 1930 Annual Environmental Operatinc Reper I . tenth: Decem'rer Minimum nyerage Maximum Maximum Temperature Ter.perature Temperature aT Day *F 'F 'F *F 1 58.7 60.6 65.6 17.1 2 6].6 65.1 70.8 17.9 3 63.5 6S.1 72.9 29.3 65 S 63.3 23.7 I 4 63.0 5 55.5 58.4 64.3 26.S 6 56.7 33.1 60.5 21.2 7 55.5 58.0 59.8 22.3 8 58.3 61.0 64.2 22.7 9 62.2 63.3 66.1 22.1 10 ^2.2 63.1 62.2 21.0 11 60.8 62.1 63.6 21.3 12 56.3 60.6 63.7 21.0 13 56.9 60.1 64.4 19.6 14 60.6 62.2 64.7 20.7 15 58.3 59.9 61.S 21.9 16 58.6 59.7 61.4 21.1 17 53.8 59.6 61.4 20.7 18 58.3 58.9 61.0 20.4 19 57.3 59.3 59.8 20.5 20 53.3 55.0 60.9 20.9 49.9 53.1 57.2 20.7 I 21 22 23 50.1 49.9 51.5 51.6 55.2 53.5 21.1 20.4 ! 24 51.0 52.4 52.8 21.4 25 49.3 51.4 54.8 21.2 , 26 49.3 51.5 54.2 20.3 27 50.6 52.6 54.4 21.3 28 50.2 52.4 53.8 19.7 29 51.4 53.3 54.6 19.8 30 51.8 53.8 55.6 20.8 55.6 52.6 50.7 20.5 I 31 I I
I I 3.0 deviro m ,tal Vcnitcrine This secti;n of tre AE;R 0;t!ines Tne varicms envircn ental monit -ing programs recuirec to be conducte: b / de: tion 3. ', o f the CCE T S , a: pc< ices c status of the submissica of the reports cn these /arious sco;ra s. Me repor+ g recuirenents of ine s?Jcies tnat sre curren-l / required :y +ne nonraciolcgical nonitoring program cf the 0 ETS cc r.ct coincice witn tne recuired eubnission date of inis AECR. The resu!?s of The netacrological monite-ing progra- of the OCETS duplicate these of *ne aposncix ; Tecnri:2! I Specifications, anc are incorpcrated into tais /20R Dy reference to the Ap;encix A Semi-Annual Reports. 3.1 Abiotic - Acustic All aquatic a0 iotic measure.aents speci f ie in the envircnnen al nonitoring programs (Section 3.0 of the 00ETS) and special nonitcring and study activities (Section 4.0 of the CCETS) are required to te reported as part of each particular study, and theretcre, are not included in this sectico of the AECR. 3.2 Biotic - Acuatic Section 3.i.2 of the CCE ? specifies *Pe fc!!c..Ing studies: A. General Ecological Survo
- 1. Commercial landings of tin and shellfish
- 2. Finfish species anc abuncance trends
- 3. Impingement of Organisms
- 1. Conventional travel ing screens
- 2. Fish return system C. Entrainnent of Organisms
- 0. Fish Kill Monitoring Program The OCETS require that these studies be reported annually.
These studies were submitted en February 27, 1981. Since these reports were submitted under separate cover, they are not duplicated here. 3.3 Onsite Metecroloaical Monitoring Section 3.3 of the OCETS requires the collection of certain meteorological data. The Appendix A Technical Specifications require +he collection of meteorological data and the submittal of the .esults of these data on a semi-annual basis. Appendix i A Semi-Annual Report 80-1, which covered the first six months of 1980, was submitted in September 1980 and Semi-Annual Report I 80-2, which covered the latter six months of 1980, was submitted in February 1981. Since all the meteorological data required to be collected by the OCETS have been included in those semi-annual reports, these data are incorporated by reference and not duplicated in this AEOR. l
4.0 Soecial 'Onitorina and stucv Ac,ivities - This section of the AECR oresents tre results of the several scecial monitoring and study activities required by the 0 ET5. There are current!y five differenT activities that are per ferned. 4.1 '.icodberer '/cn itor i nc F rocram 1 This program h:3 reacrting recuirenants whicn are different l i f rca tne other CC~lS programs. During tne reporting period, the , fc!!oaing rescrts were submitted: ! l
- a. The 19th quarter report, covering the period frca l November 9, 1979 to February 8, 1980, submittec on AprIl 23, 1980. !
- b. The 20th quarter report, covering the ceriod frc' l I February 9, 1930 to May 10, 1930, was subnitTe: I en July 8, 1980.
- c. The 21st quarter report, covering the period fron May 11, 1980 to August 10, 1980, was submitted I d.
on October 24, 1960. The 22nd quarter rescr- ccvsring the period frca September 11, 1930 to Decem:er 10, 19s0, was submitted on January 20, 1981. In addition, es per the CCETS, the annual report for the woodborer monitoring program will be submitted by the enc of May 1981. Therefere, no results of this program are presented herein. I 6 l P00R OR GINAL l l e i
-,m ..,,,-o-q,,,---,-ve--e,,
,--e--wo,, ,w,-- r,w-. ,.v-,aweg,,m-, rn w ,ne,es-,e-,-,,. n -a e,e- - me e-,---n,-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
4.2 7hermal ? te e es ; e e r Pr ;rr . 4.2.1 Int ::uctic, Tne CCET5 The mai Plu e /easure en- ;r:gra- e:; ires a I contnly piure measuremen? .nen 00!.35 is : era-ing. 7 e re- 2: p lure of tne eccl i ng arer discnerge: 2, ::N35 an Dischar;e Cana! is easurec h 5 rre;e- : 37
?'e 007.35
,n.rs..ycu, six piure scr.eys were perrcrme: O f J.- a,.
i Envircnnenrai Affairs perscene! anc ere ?ne su:Je:t cf ap;ing an: analysis as centaine: in this re;crt. ':c plumes were measure: from January 1 s3 tc June 1953 since C-C::33 .as nor c: era-ing. Plures surveyed from 1974 tc 1975 are centai e: in separare reports (JCFiL, 1973), en ?!u es su veje: in 1979 a e c:ntaire: in the 1979 Annual En/ircementai v;erating :e:cr?. The text conTains coe ating da a a, ciure :e s cr i pr I ce s . T re attachments f r eacn plare (Se:-! n 4.2.7; cc- ai1: :) a:!e c' I plune d5ra, 2) picr of ter:ere?; e vs. :is ance t :- Tjs'er :rca<;
- 3) boat tra 4 in 3ernegar Ecf; 4; :107 cf e : ara'.re in a lengl7ucinal cro s s-s ect i cn in an East ,,es? :irecti;n a r:s:
Barnega? 30/; 5 2;s cf celta ' isc ner s in Ear aga? Esi s' different ceptas. Thermal ;!ure a:s were eralyze; to de ermine if re area O' 3arnegat 5ay affected by Tne c:eraticn cf :CN35 is censisten? .ith the 'le. Jersey Surf ace Water Oualiry Criteria ('..e. DeperTeent of Envirencental Protecticn, 1979). Barnegar Bay, Cyster Creek, end I the Soutn Branch of Fcrked River are classifie: Tidal heter 1 (TWI). The criteria ter temperature for TWi are as folicws:
- 1) General - Shall not be raised a:ove an:ient Oy Scre tnan i degrees F during September through May, ner more tnan 1.5 degrees F during June througn August, ner shall temperatures exceed 85 degrees F in these waters. Terperature shall be measured cuiside of designated heat dissipation areas.
- 2) Heat Dissipation Areas - The limitations specified abcve may be exceeced in designatec heat dissipation areas by specific permission en a case-by-case basis.
- 3) Heat Dissipetien Area Detarminations - The determination i of designated heat dissipation areas in estuarine waters, incl : ding bays, shall take into consideration the extent and aature of such waters. In order to meet the intent and purpose of the criteria and standards, rrovisions f or the passage l of free-swirming and drif ting ceganism, are to be included so that '
negligible or no ef f ects are produced en their popul _tions. As i a guideline, heat dissipation areas shall be limited to no nere than 1/4 of the cross-sectional area and/or volume of fics of the ) body of water, leaving at least 3/4 free as a :cne of 'assate e l which is to incluce a mininum of 1/3 of the surf ace ceasured- I 1 from snoce to shcre at any stage of the tide. I l i
l I i P00R ORIGINAL :
;) Ra's cf T ccerature ; range - T s rats of vwa nce change in casignarec at is:ipari;n a eas sra;, nor ca.:a "crtalir; of fish cr snellfish.
4.2.2 Materials and "ernads casic Instrunentation:
"On/ Ark 19 f t. Utility ..crk Ecc?
A/0 Ref ractoneter YSt Model 46 Tele-inermometer Esterline-Angus odel P02904 Cata Logger Mini-Ranger ill Micro. ave Range Detection System Theraccouple probe and depresscr assembly A 40 lb. cepresscr (brass weight, t2pered to facilitate '!: 4 I . through water), secured to the bo3? with a steel cable, is tcweC at a speed sucn tnar the steel cable is at a 45 c ;r e angle from the vertical. Thernccouples are attached tc the cable at the 1.0, 2.5, and 5.0 'T. and bettcm levels, en: Their measurements are reccrded directly by the cata Ic;;er. This ar angenen' al!c-s 'he p l ume to be cnducted withcur sicpping rne cat ar incisi m i stations. The boot travels aiong at a coastani scee:, irn :ne data legger automatically rec;rcing te ;erature c? tne f;;r ievels as weil as lccatico (via Mini-Ranger ill "icrowave Range L: cation System), care, anc time of day. The data Icgger re:cras measure-ments every 30 secct:3 Vertical tenperatare profiles are measured in tnis fashicn beginning at a point where the Rt. 9 Bridge intersects Oyster Creek and traversing the lengtn of Oyster Creek to the Barnegat Bay. Once out in the bay, transects sufficient in number end extent are made co as to determine the Iimits of The heatec ..a+er area. Salinity ;s measured each time the boat enanges direction I and begins a new transect. The limits of the heated water area are defined when successive measurements are the same and ccrrespond to known Rt. 9 Bridge temperature minus the CC;GS nixed I delta temperature (with the appropriate circulation and dilution pumps in operation). This gives a good approximation of tne acDient temperature of the bay for that particular day and time. La'er, the ambient temperature is verified by taking an average of the range of the lowest temperatures encountered on that day. The data is keypunched and loaded onto an IBM 370/168 computer. The data is then transferred to a basis processor, analyzed, tabulated, and graphically presented using a Tektronix 4054 CRT terminal and 4956 graphics tablet. It should be noted that severe problems were experienced with the Motorola Mini-Ranger til Microwave Range Location System this year. Electronic problems prevented the use of the system altogether for the July and August plumes, during which time the unit was repaired by Motcrola. The July and August Plunes used
P00R ORB K dead reckcning frcn landnerks coc c mp;ss fcr bcat L;s i Ticr . Also, inis year the shcre based transpcaders wera move: 70 increase the usatainess and reliability of tne system. rcse/er, the new crieqTatico of t,e transponders was founc to jive unreliable position co-crcinctes in the crea below .ier etow n . This problem af fected tne Octccer and December plumes. !n the absence of reliable Mini-Ranger data, pcsition location acs cscertainec Of fancmerk reference and straignt fine transects, a less precise method of dataraining bc27 posi+icn. Etaps are b ing t:32n to correct this problem fcr tne 1931 celer. car year. l l 4.2.3 Thermal P f ume Results m ! 4.2.3.1 July 25, 1980 Time: 1213-icc/ A T: 14.6
- F Wind Direction: SSE MJe: 400 Wind Speed: 7-12 mph Circ. flow: 460,000 cpm Tide: Ebc Jil. flow: 260,000 com The heat dissipation area aas defined by tne 1.5 degras F celta T isotherm. At tne 1 fcor levei, the plume was roagniy symmetrical arounc the couTa of Oyster Creek (piume type 6, see F igur e 4-2a), sith a width of 2700 yarcs anc a length of 1500 l yards from the nouth of Oyster Creek. The plune at the 2.5 foot level was of apprcximately the same cimensions. The plume et the 5 foot level was of approximately tne 32 e wictn Out extendec Only 900 yards o.ut into the bey. Recircu latier. of the p l ume did not occur. .
4.2.3.2 August 27, 1980 Time: 1233-1427 A T: 19.3 F l Wind Direction: WSW MWe: 540 Wind Speed: 9 mph Cire. flow: 460,000 gpm i Tide: Ebb Dil. flow: 520,000 gpm The heat dissipation area was defined by the 1.5 degree F j delta T isotherm. At the 1 foot level, the plume extended in a northeast direction, assuming the shape of a truncated ellipse (plume shape 3). The length of the plume was 2550 yards, and the width 2400 yards. The extension of the plume in an east-west l direction out into the bay was 1300 yards. At the 2.5 foot level, the plume was similar in shape but slightly small ar. At the 5 foot level, the plume was similar in length and width, but with an east-west extension out into the bay of only 700 yards. Limited recirculation of the plume occurred. For more information on recirculation see Section 4.2.4.2. 4.2.3.3 September 24, 1980 Time: 1219-1436 AT: 14.8 F Wind Direction: NE MWe: 430 Wind Speed: 9-11 mph Circ. flow: 460,000 gpm i l
P00ll 1 91K M Tice: E:n Dii. 'l - 20,;., ;p-The heat dissipatico cres aas c. s ted by too a ce;ree detta T isotherm. At the i foot ieve!, tne p!;ne a23 rau;n! / sy=eTr i cal arcand tna mouth cr Cyster Cree < (plu e jpe i). Tne lenatn of tne plune was 1353 yards, anc tre sicin 1353 yards. AT the 2.5 and 5 foot levels, the s!ame had a similar shape but was slightly smaller. Recirculaticn of the plure did not occur. 4.2.3.4 October 10, 1950 Time: 1131-1420 1 T: 19.9
- F I Wind Direction: ENE Wind Speed: 9-11 mph
",ie : 620 Circ. tica: 460,000 gpm Tide: Eub Dil. flow: 260,000 gpn
- The heat dissipation area was cefined by the 4 degree l delta T isotherm. The plume w . similar ar all levels (plane
' g type 6) and hugjed the .,estern ncre of the bay frcn a pcin* g midway between the routh of Forked River and Bayside Be2cn Club to tra moutn of Jaretaan Creek. Extensicn out into the bay in an easter 1y directicn was mini.T31, et ca!y 700 yard 3, but the width of the pluma wcs 3700 yards. The northern ;i-it of the 1.5 degree F detta T isotherm a:proached tne mouth of Forked River but remained iust south of it, so that recirculation was not apparent. 4.2.3.5 November 6, 1960 Time: 1210-1337 a T: 25.3
- F Wind Direction: W MWe: 615 Wind Speed: 9 mph Cire, flow: 345,000 gpm Tide: Ebb Dil. flow: 520,000 gpm l The heat dissipation area was defined by the 4 degree F detta T isotherm. At the 1 foot level, the plume was symmetrical around the mouth of Oyster Creek (p lume type 1 ), with a lengin of 950 yards and a width of 700 yards. At the 2.5 foot depth level, the plume was similar in shape but slightly smaller. At the 5 foot level, the plume was smaller still, and extended on!y 500 yards out into the bay. Recirculation of the plume did not occur.
l 4.2.3.6 December 29, 1980 Tide: 1157-1400 2.T: 18.9
- F I Wind Direction: NNE MWe: 605 Wind Speed: 10 mph Circ. flow: 460,000 gpm l
Tide: Max. Flood Dil. flow: 520,000 gpm l The heat dissipation area was defined by the 4 degree F delta T isotherm. The plume was virtually identical at all levels, a l relativel f nerrow band extending to the south alcng the western l shcre of the bay (plume type 5). Plume length was 550 yards and l I
-1S-
I 300R BRl3lNAL iict7 3450 y.r:s, as '7e 2 d33rs; ~ 03l 2 !:twz eccne: r f3r scJih as 3Cuin Mar;;~. I'JCn cf the b2y a2s Iced cie" "'O I day, an d ine 1.5 cegree F celte T isc? .em terminatec in i:e at Sarnegat Seacn. Cecirculation of *ne I re id not cc% r . 4.2.4 Discussion 4.2.4.1 Shape Codes The plume snnpe and extent are determinec by ine currently prevailing meteorological and tical fcrces, l and the station cperating ccnditions. The station operating conditions determine the total content and concentretion of heat (above at.bient) in the Oyster Cree < flow and the veiccity of tne cischarge waters es they intersect the bay. The Oyster Creek fIcw is I always vertically well-mixed down to the total cepth of the creek, which varies from 8-13 feet. After tne Oyster Creek ficw intersects the bay and the initial ccrentum of tne saters is ex; ended, arcient conditicas dcminate t~e dispersicn of the alume. The currentl y crevailing wind airection and speed is tne primary infisence en the ;it.me's dispersien, while tidal fcrces and the bat".jmetry of the bay itse!f a:sa help determine the shape, extent, and vertical strati-fication characreristics of the plume. The cbject of this program is to precict the shape et the plur.e under representative ambient and station operating conditions. Recurrent plume shapes have been established based on previcusly measured plumes (JCP&L, 1978) and are portrayed in cigure 4-2. The eight plume shapes are distingJished by the direction e r.d location of the plume centerline. For the thernal plume; measured in 1980, the Tab l e 4-4 classif ies the surface plumes according to the shape cedes shown in ! Figure 4-2 and provides information on the wind and l tide extent during the time of plume measurements. l Meteorological, tidal, end station operating conditions i during the thermal plume are summarized in Tables 4-2 and 4-3. On July 25, moderate winds from the SSE and ebb , tide conditions resulted in a type 6 plume. This l particular plume was roughly symmetrical about the l mouth of Oyster Creek, and was wider than it was long. Should there have been a flood tide or stronger winds, we might have expected recirculation of the plume io occur, which would have constituted a type 2 plume. At the 5 foot and bottom levels, the bathymetry of the bay becomes e f acter, as enhanced vertical mixing is induced by the deeper waters of the bay away from the western shore. The irregular shape of the plume at these levels reflects this enhanced mixing.
' P00R LRIGIM On August 27, rcderata sincs frcm the ; Sa una e, ce tide resulted in a type 3 p l ume. In this case, the sinc conditicos are clearl f tne cc?.inant facicr in determining the she;e and extent of ?ne plume. Cn September 24, moderate wincs from the norineast and an e b tide resulted in a type 1 plume. Should this aind condition persist for long and into ficod tice stage, we might cxpect *o see a southerly shi f t in the plure into a type I 5 plume. This shi f t s ans to be occurring at tne 5 f oot and bottom levels.
On Octcber 10, mocerate wincs frca the ENE and en early ebb tide result in a type 6 plume. This plume measurement was conaucted ,iust afTer hi gh sl ack, and Tne ccmbination of easterly winds and residual effects of the I flood tice are evident in that the plume is constrained against the shore and spreeds in both directions against the shore. Since the shore areas are generally shallow I (1-5 feet), vertical mixing of the plume is reduced, resulting in a relatively extensive plune in regarcs to surface ares. Tha simi!!arity of the plume at all levels also reflects the influence of the bay batiyTetry. On November 6, moderate westerly winds and an ebb tide result in a type 1 plune. As in tne July 25 plune, I the 5 foor and botten level plumes shos the influence of the bay bathymetry. On December 29, acderate winds from the NNE and a flood tide resulted in a very extensive type 5 plume. On tnis very cold day, much of the i bay was Iced over, and the 1.5 degree F deIta T Isotherm terminated in ice to the south at Barnegat l i Beach. The shallow waters along the shcre contribute ! to the extreme vertical temperature uniformity illustrated. Should the winds have oeen more easterly l ' at this time, we might have expected a type 6 plume to occur, with plume extension to the north as well es the south. 4.2.4.2 Recirculatica of Heated Water Recirculation of the plune was noted on one of the six surveys, that of August 27. On this day, the WSW winds caused the plume to extend in a northeast direction I and some overlap of the 1.5 degree F delta T isotherm with the mouth of Forked River occurred. Under moderate SE winds on July 25, the 1.5 degree F delta T isotherm approached the mou1h of Forked River, but overlap did not occur. 4.2.4.3 Surface and Cross-Sectional Extent I In Table 4-5, the approximate surface extent in Barnegat Bay for each plume in both the north-south
i P00R ORl8 N( and east ..est dire:tions is presentsc. I No plumes ere found to violate the *ac-tnircs surface heat dissipation guidelines in Earrey3+ Eaj. 3ecause of los fres. water ficw from the original Oyster Creek and the minimal effect of tidal influx, Oyster Creek downstream cf CONGS wcs thermally affected fer its entire length and cross-sectional area. As shown in Tne loi;'tudinal sections of Oyster Creek and Barnegat Say, the one quarter cross-sectional guidelines sere not exceeded during any plume measured in 1980. Because of the buoyancy of the plume, the four mile distance across the bay from the mouth of Oyster Creek to Island Beach, and the relatively greater depth I , of the intracoastal Waterway Channel compared to the rest of the bay, it would be unlikely that the plume would occupy more tnan one quarter of the cross-sectional area across Barnegat Bay at any tima. 4.2.5 Summarv Excess temperature maps show the 1950 3CNGS thermal plumes were confined to the western side of Barnegat Bay and contained within a rectangle with average dimensicns of 1050 yards (E- O and 2350 yards (N-S). Recirculation of heated water to Forked River was observed on one cecesion dt. ring ebb tide when the wind was from the WSW at 9 mph. The size of the plumes did not exceed New Jersey's dimensional size guidelines for heat dissipation areas in Barnegat Bay. Plume shapes vary with wind and tide, with wind having primary influence en the orientation of the plume centerline. I I I I . I I- .
.-w- -- - -- . , . . . - , - . - , ,,i,--...~,---,---,,-,.--,w..- .
-%, . . , --.+---+..,.-,...---r- , , . . . . . , - . , - ~~,-w.. ----. ,- --
i..'.b Referan:es Ierse" Central P n er > a ght JCP iL: 1980. 19 9 Annual Environmental Operating Report. Jersey Central Power i L ;ht Company (JCPSL) . 1950 (a). Oyster Creek I Environmental Data Log. 20.0070.001.003. Document Control Center (DCC) file no. ~' Jersey Central Power 5 Light Company (JCPSL) . 1980 (b) . Generator Data Log. DCC Pile No. 20.0070.0003.0004. Jersey Central Power 5 Light Company (JCPSL). 1973. Oyster Creek and Forked River Generating Stations 316 (a) and 316 (b) Report. Volume :: I Appendix 3-Thermal Analysis. I National Pollutant Discharge Elimination System (NPDES) Permit NJ 000 5350. JCPSL, Oyster Creek Nuclear Generating Station. 1973. January 31, 1975 to January 30, 1930. p. 3. I National Oceanographic and Atmospheric Administration (NOAA) 1980. Navigational chart 12324: New Jersey Intracoastal Waterway. Sandy Hook to Little Egg Harbor. I New Jersey Department of Envircnmental Protection (NJDEP) . Division of Water Resources NJAC 7:9-4 et seq. 1979. Surface Water Quality Standards. Docket No. DEP 012-74-11. I Oyster Creek Nuclear Generating Pickard, Lowe 5 Garrick (PL5G) . 1980. Station Meteorological Data. I United States Geological Survey (USGS). 1972 Forked River Quadrangle 7.5 minute (topographic) . I i 22-
i I
- 4.2.7 *tta e..ents Tnis secticn contains the followird data for esch plate
- a. Table of plune data ;
- b. Plot of te peratu e vs. distance for Cyster Creek
- c. Boat track in Earnegat Eay i
I d. Plot of tenperature in a lorgitudinal cross-section (East-West across Earnegat Eay) .
- e. Maps of delta T isathem.s in Barnesat Eay at differer.t depths.
I l l i. I I I I 1 I-I l . t i l i I I I ' l 1
-,,,,-----w-,-,.e,,-.+w,,--,,-,n,,n-,,,v,--,-,,,,m,.v,,,enn.n ,,,a._
I ' I ; Table '. Dates of Thermal Plume Measurements and CCNGS Cutages in 1980 I ! i Dates of Plumes Cutage Dates July 25 January 5 - July 19 I August 27 August 1 - August 4 I September 24 September 19 - September 24 I October 10 November 7 November 23 - November 23 I D-be= 2, l I I i I i i wt+ , .-%=we.+---*w,--+++ m yg,w*,y-,.n,g,-my,.m-.+_y - - - , . , g.g-,,w.
I i _Tabia 1-:
'*et eoro;an cal Canditions. Tide. and Crew :urinc Therral Plume 5feaaurements in 1930 Wind
n 2 r.3 Time Speed (mnhi Directien Tide Crew
.!uie 25 7-12 SSE 5 tax Ebb to Ebb 51BR, TS, JH 1215-122-High Slack to I August 27 1:33-1427 9 WSW Ebb DWB, TS September 24 10-11 NE Ebb to >!ax. Ebb DWB, TS 1219-1436 I October 10 1131-1420 9-11 ENE High Slack to Ebb DNB, TS, DC I,
November 6 Max. Ebb to 9 W Ebb DWB, TS 1210-1337 1 I l December 29 10 N'iE Max. Flood DWB, TS 1157-1400 I Source: a) St. Abrams, Pickard, Lowe, S Garrick: Wind Speed and Direction Data from OCNGS b) NOAA, Tide Table for 1980 Sandy Hook, N. J. + 2h 45m EST or 3h 45m EDS I c) DWB - David W. Ballengee MBR - Stichael B. Roche TS - Thomas Starosta JH - John Hansell l 1 I DC - Donald Callahan
i m m m m m m M m m m i !, T_a b_l e. 4-3 4 Stat ion Operat ing Condi t ions Durg Thermal Plume Mea mrement s in 19mr' i ! Average Temperatures 1: Ft(c f lBTil ' . 1. l'uny l Date and Time per Intake Ambient Discharp Itt . 9-0C At Output lir. Circ 1u 1. I 7/25/80 1213 to 1427 77.8 79.5 94.4 86.2 14.6 400 3360 4 1 8/27/80 1233 to 1427 77.0 78.5 96.3 83.4 19.3 510 1450 3 J
- 9/24/80 1219 to 1436 72.3 73.0 87.1 80.1 14.8 430 3410 1 1 10/10/80 1131 to 1420 61.1 62.5 81.0 72.3 19.9 620 4580 4 I l
11/6/80 1210 to 1337 49.0 51.0 74.3 57.4 25.3 615 4370 3 2 12/29/80 1157 to 1400 34.5 32.5 53.4 40.1 18.9 605 4350 4 2 1 i I i i I j Source: a) Oyster Creek Daily linvironmental I.og, 1980. 4 l 1 i i I
Table 2-4 Shace Code Wind and Tide Condi-ions for the 1930 Thermal Planes Wind I Shape Code Date of Plume Direction-Sceed f th) Tide
>!ax. Ebb to 6 July 25 SSE 7-12 Ebb High Slack to 3 August 27 WSW 9 Ebb Ebb to Max.
1 September 24 NE 10-11 Ebb High Slack to 6 October 10 ENE 9-11 Ebb Max. Ebb to 1 November 6 W 9 Ebb I 5 December 29 NNE 10 Max. Flood I I . I I . _ _ _ . - _ _ _ _ _ _ _ . . _ _ _ _ _ . _ . _ . . . _ . _ _ _ _ . _ _ _ _ _ . _ _ . , _ . . _ _ . _ _ . _ - . . _ _ _ ~ . . . _
Table ;-5 I Surface Extent of the 1930 Thermal Plumes in Barnega Sav l t
'; orth-South I Date of Plume East-Xes:
July 25 b 1500 yards 2700 yards August 27 b 1300 2300 1 i September 24 a 1350 1350 l l October 10 a 700 3700 l i I November 6 a 950 700 l e, December 29 a 350 3450 o l a) 'feasurements are based on the 4 degree F isotherm b) Measurements are based on the 1.5 degree F isotherm
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M M M M M M M M M M THERMAL PLUME OF July 25, 1980 INDEX POSITION Tine TEMPERATURE DEC F COORD] HATES Hr4 tit 1SS I FT 2.5 FT 5 FT 00TTCn 1 122847 07.5 07.4 07.0 07.0 2 122213 87.0 07.5 00.0 07.0 3 122230 07.7 07.5 00.0 00.0 4 122305 07.6 07.5 00.0 07.0 5 122331 07.7 07.G 08.0 07.0 G 122357 07.G 07.6 00.0 G7.0 7 122423 07.0 07.0 00.1 07.0 0 122440 07.0 07.7 07.0 67.0 0 122515 00.0 07.0 00.3 00.1 la 122541 08.1 08.1 08.3 07.0 11 122807 07.0 07.0 00.2 07.0 12 122G33 07.0 07.0 00.3 00.1 13 122G50 07.0 07.0 00.1 07.0 14 122724 07.0 07.7 00.0 07.0 15 122750 07.0 07.0 00.1 07.0 4 IG 1220lG 07.0 07.0 00.1 G7.0 17 122042 00.0 07.0 00.1 07.0 10 122000 08.1 07.0 00.2 07.0 to 122034 07.0 07.0 00.2 60.0 20 123000 OG.0 07.0 00.0 07.0 21 12302G 07.7 07.G 00.0 07.0 22 123052 07.7 07.G 07.0 07.0 d, 23 123150 07.7 07.5 07.0 07.0 s 24 123144 07.0 07.7 00.0 07.0 e 25 123210 07.0 07.7 07.0 07.0 2G 12323G 07.0 07.G 07.0 07.0 27 123302 07.0 07.7 00.1 06.0 20 123320 07.7 07.G 07.0 07.0 20 123354 07.7 07.5 07.7 07.3 30 123420 07.6 07.3 07.1 04.1 33 12344G 07.2 OG.0 01.0 32 05.0 1235l2 07.2 OG.2 04.7 70.5 33 123530 OG.0 05.2 02.0 70.I 34 123604 OG.3 04.0 05.5 70.4 35 123G30 05.7 04.0 04.4 08.0 3G 123G5G OG.I 05.3 04.0 01.3 37 123722 05.0 05.1 04.2 70.0 30 123740 05.7 04.0 02.0 70.1 30 123014 05.0 03.0 U2.4 70.0 40 123040 05.0 03.7 02.0 70.0 41 123CDG 05.7 05.0 42 03.0 70.7 123032 05.2 05.3 01.5 76.7 43 123G50 05.3 03.0 01.0 78.7 44 124024 05.0 04.2 05.3 70.b 45 124050 05.0 04.3 00.5 70.5 4G 1241tG 05.0 47 04.b DJ.4 70.5 124142 04.0 04.G 60.4 70.4 40 124200 05.0 04.5 00.G 70.3 40 124234 05.0 94.G 00.4 70.5
M M M M M M M M- ~ M ~~ M-m M THERMAL PLUME OF July 25, 1983 INDEX POS!180N TINE TEMPERATURE DEG F COORDINATES HHnt1SS 1 F1 2.5 FT 5 FT 00Ticn 50 124300 04.5 04.2 70.7 70.3 St 12432G 04.4 04.0 70.G 70.3 52 124352 04.2 03.G 70.7 70.3 S3 124410 04.1 0".5 00.0 70.1 54 124444 03.7 02.0 70.0 70.1 55 124513 05.5 01.7 70.7 70.8 tG 12453G 03.2 08.4 70.7 77.7 57 124G01 02.0 08.5 00.0 77.4 50 124G27 02.5 01.7 00.3 77.0 50 124Gb3 02.0 08.4 00.2 77.7 GD 124710 01.0 01.2 70.7 70.0 GI 124745 00.0 OJ.5 70.0 77.0 G2 124011 01.0 00.G 00.1 77.G G3 124037 00.0 00.G 00.0 77.7 G4 1240J5 00.G 00.3 00.3 70.1 Gb 124020 00.3 60.0 t10 . 2 77.0 GG 124G55 00.3 00.0 00.0 77.4 G7 125021 00.4 00.1 03.0 77.3 GO 125047 00.1 70.0 70.0 77.0 GD 125113 00.0 70.G 70.4 7G u 70 125130 00.2 70.0 70.7 76.G
, 71 12o205 70.0 70.7 70.G 7G.7 va 72 125231 70,0 70.G 70.4 7G.0 N 73 8
125257 70.7 70.5 70.G 77.1 74 125323 70.5 70.3 70.b 7G.0 75 125340 70.G 70.4 70.4 7G.0 7G 125415 ~ 70.7 70.b 70.3 7G.4 77 125441 70,G 70.2 70,2 75,0 70 12bbO7 70.0 70.6 70.7 7G.O 70 125553 70,0 70.7 70.G 7G.7 03 125550 70.7 70.5 70.5 76.5 Ol 12bG25 70 G 70.5 70.4 7G.5 02 12bGb1 70.G 70.5 70.0 7G.G 03 125717 70.0 70.7 70.4 77.I U4 125743 70,0 70.7 70.4 77.3 05 125000 70.7 70.G 70.0 77.3 UG 125055 70.0 7 0. fi 70.0 7G.0 07 125001 60.0 70.0 70.2 7G.3 00 125027 70.0 70.0 70.0 7G.G 00 125053 70.0 70.7 70.0 7G.I 00 130010 70.0 70.0 70.7 7G.I Of 130045 70.0 70.0 70.7 7G.2 02 130111 00.1 uJ.2 D0.2 7G.5 05 133337 00.G BJ.5 00.3 7G.3 04 130205 00.0 03 G 60.1 7G.? 05 130220 00,0 03,0 70,0 7c.4 OG I302bb 08.5 01.2 GJ.4 76.6 07 130321 08.3 UI.I 70 0 76.5 00 130547 01.0 Ot.G 70.0 >L.7
M M M M M M M M M M M M M M M THERMAL PLUME OF July 25, 1980 INDEx POSITION Tine TEnPERATURE DEG F COORDINATES HHnnSS I FT 2.5 FT 5 FT uO1TDn 00 130413 01.0 01.3 70.3 70.0 100 130430 02.1 01.0 70.2 7G.3 IDI 130505 01.0 01.0 70.0 75.7 102 130533 02.1 01.5 70.1 75.0 103 130657 02.0 Ol.b 70.1 76.1 104 13CG23 02.7 01.5 70.0 76.3 105 130G40 03.2 01.7 70.1 7G.0 10G 130715 02.4 08.6 70.0 77.1 107 130741 02.3 00.5 70.0 77.2 100 130007 02.4 70.0 70.0 77.G 100 130033 02.3 00.7 7J.D 77.7 110 130050 02.7 01.0 70.4 70.1 Ill 130024 02.0 02.3 00.0 70.5 112 1300Su 03.1 02.0 01.7 70.0 113 1310lG 05.2 03.1 01.0 70.2 114 131042 03.3 03.3 02.0 70.0 lib 131100 03.S 05.3 03.4 00.0 IIG 154134 03.5 0.0 03.G Hl.7 117 131150 03.G U.0 04.0 02.2 110 131225 03.3 03.1 05.5 02.G llo 138251 03.3 03.2 H3.4 05.4
, 120 131317 84.3 04.0 04.2 04.0 va 121 138343 04.5 04.3 04.7 va 04.5
' 122 138400 04.3 04.4 04.0 04.5 123 13143S 0.0 0.0 0.D 0.0
- 124 131501 0.0 0.0 0.0 0.0 125 131527 0.0 0.0 0.0 0.0
!?G 131653 0.0 0.0 0.0 154.2 127 138G10 0.0 03.0 03.0 04.0 120 131G45 04.3 04.3 04.4 11 4 . 5 120 131781 04.2 04.4 04.0 04.l 130 131737 04.5 04.4 03.2 04.7 131 13l003 03.0 04.0 04.0 04.5 132 131020 03.0 03.0 04.5 H3.5 III 131055 05.0 84.0 04.G 134 03 0 13l021 03.0 03.0 04.3 02.0 135 131047 03.G 03.7 04.2 02.3 13G 132013 03.G 03.7 137 04.8 H2.0 132030 03.4 03.5 04.1 02.2 130 132805 03.0 130 03.3 04.0 tal . $
132131 02.7 H3.1 03.7 08.5 340 132167 02.G O2.0 03.G til 08.0 132225 02.4 02.G 03.1 til . 3 142 132240 H2.1 02 2 02 G 143 01.0 132315 02.9 02 2 72.G 00.5 144 132341 OI.C I45 02.2 02.G UC.G 132407 09.2 01.7 02.2 be.4 14G 152432 147 00.0 01 4 82 0 02.5 1324b0 00.7 U1.0 01 7 U0.0
m- M M M M M M M M M M m m THERNAL PLUME OF July 25, 1080 INDEX POSITION TIME TEMPERATDDE DEC F COORDINATES HHr'.nSS I FT 2.5 FT 5 FT 001TCn 140 132523 08.0 03.0 08.4 70.7 140 132b40 00.6 01.0 08.4 70.5 150 132Gl4 00.4 01.0 Ol.G 70.0 151 132G40 00.3 00.0 08.6 70.7 152 132705 00.4 03.0 08.6 70.1 853 132731 00.4 03.6 09.3 70.2 154 1327b7 00.3 03.G 09.2 70.G 155 132023 00.2 03.G 08.2 00.0 15G 132040 00.1 03.7 08.3 00.0 157 132015 00.2 00.0 08.4 70.7 150 132041 00.G 03.0 08.5 00.2 150 133037 00.G 00.0 01.3 00.2 ISO 138053 00.7 00.0 01.3 0J.4 1G1 li' 2 0 00.7 00.0 ut.4 DJ.G IG2 83- "i 00.5 0'J. 4 Gd.0 OJ.5 163 131 00.4 0J 3 60.5 OJ.4 164 133. 00.3 00.2 60.3 DJ.4 165 1332 00.0 70.0 l 0.0 OJ.2 IGG 1333c 03.0 70.0 G0.1 00.1 IG7 133533 00.1 70,0 b0.2 DJ.3 100 133401 70.0 70.0 00.5 00.2
', IGO 133427 60.1 00.0 00.6 HJ.3 6 170 1534b3 03.0 00.2 00.4 OJ.S 8
171 133S10 C0.0 03.1 60.7 OJ.G 172 133544 OJ.0 03.4 01.0 0J.0 173 133G10 C. O bd.1 00.5 0a.0 174 133G3G DJ.0 00.3 00.5 UJ.0 675 133702 00.2 03.2 00.0 08.0 176 134720 03.9 04.5 bG.I 05.2 177 1347b5 05.1 05.0 DG.4 09.1 870 134021 05.0 GG.I LG 7 03.C 170 134047 RG.2 IfG.2 LG.5 05.0 100 134013 DG.0 05.0 UG.3 IIS.G 101 134030 05.7 05.5 0 5 .11 05.2 102 135005 05.4 Ob.2 05.5 04.7 103 13t031 05.3 05.1 05.4 04.7 104 135057 05,0 05.1 05.4 03.4 105 135123 05.3 05.4 05.7 U4.7 10G 13SI40 05.2 05.3 65.0 107 04.S 13b215 65.1 03.1 05.6 03.4 800 135241 04.G 04.7 LS.3 0J.0 100 135307 04.1 64.4 14.0 ell I 30J 135353 03.4 03.0 64,3 da.G 108 1353b0 02 0 03.G 04.4 ud.G 102 13542b 02.0 03.7 04.1 00.0 103 135455 ha.7 03.0 01.0 00 G 104 13t587 00.1 og o 03.5 00.7 105 13bb43 03.1 70 0 00.3 00.5 10G 135Gaa 00,4 03,2 OJ G ug.G
M M M .M M M M M M M M M M M THERNAL PLUME OF July 25, 1080 INDEX POSITION T!nE TEMPERATUAE DEG F COORDINATES t*4MMSS I FT 2.5 FT 5 FT 001TCH 307 135635 09.5 00.4 00.0 00.G 100 135701 00.5 00.5 00.0 00.0 100 135727 00.3 00.2 00.0 00.0 200 135753 00.2 70.7 00.4 00.5 201 135010 00.3 00.0 00.7 00.G 202 135045 00.4 00.1 00.G 00.4 203 135051 00.3 00.1 00.0 00.0 204 135037 00.3 70.0 00.4 00.G 205 140003 00.7 00.3 00.G 00.G 20G 140020 00.7 00 3 00.4 80.4 207 1400b5 00.0 09 3 00.5 00.3 200 140121 00.0 LJ.0 00 5 00.4 200 140147 00.7 b0.3 60.4 80.4 210 140213 00.7 00.3 b0.4 00.2 211 140230 00.7 00.5 00.5 00.4 212 140304 00.G 00.3 00.G OJ.G 213 140330 00.6 00.1 00.5 00.7 214 14035G 00.7 00.2 00.5 00.5 215 140422 00.0 00.4 00.5 00.4 21G 140440 00.G 00.5 00.7 00.5 & 217 140514 00.5 00.3 80.G DJ.G m 210 14D540 00.5 00.3 00.0 00.G 8 210 140GOG 00.5 00.2 00.t 11 0 . 5 220 140G5I 00.G 00.1 00 4 00.4 221 140G57 00.7 00.2 00.G ud.4 222 140723 00.0 00.4 00.5 ud.4 221 140740 00.7 00.3 00.5 00.3 224 140015 00.G 00.3 00.5 00.2 225 14004I 00.4 00.2 00.3 00.2 22G 140007 00.3 00.0 00.2 00.0 227 140033 00.2 00.0 00.4 00.2 220 840050 70.0 70.0 00.4 80.4 220 141025 00.1 00.1 00.5 00.3 250 141051 DJ.4 OJ.1 00.3 00.0 231 141117 00.1 70.6 00.3 0u.2 232 141143 70.0 00.0 00.5 0u.5 233 141200 00.1 00.1 00 5 0u.1 234 14l235 70,0 70.0 00.1 70.0 235 141301 70.7 70.7 00.3 00.4 23G 141327 70.G 70.7 00.3 00.5 237 141353 70.7 70.7 00.0 00.1 230 148410 70.3 70.5 UD.3 GO.2 230 141445 70.7 70.0 00.2 00.5 240 idl5tl 70.7 70.7 00.2 00.5 241 141537 70.G 70.0 00.5 0D.4 242 141603 70.0 70.0 00.6 00.4 243 141G20 00.2 01.0 01.0 01.1 244 14l055 01.5 01.0 02.5 01 6 245 141721 02.0 02.7 03.0 U2.C
M M M M M M M M M M THERMAL PLUME OF July 25. 1980 lhDEX PDSITION TIME TEnPERATURE DEC F COORDINATES .%nNSS I FT 2.5 FT 5 FT 00TTON 246 141747 82.0 03.4 04.l 02.G 247 141883 02.0 03.5 04.4 02.0 248 141030 03.3 03.7 04.3 02.5 240 141005 03.0 03.7 04.5 02.7 250 141031 03.7 04.0 04.0 03.0 251 141057 03.0 04.0 05.7 83.3 252 142022 04.7 05.3 OG.I O2.0 253 142040 04.7 06.7 OG.4 02.7 254 142114 04.0 05.G 0G.4 02.0 255 142140 05.1 05.0 LG.3 03.2 2bG 14220G 05.0 05.G 66.4 05.0 257 142232 05.2 05.5 OG.2 05.5 260 142253 05.2 05.7 OG.2 04.0 . 250 142324 04.6 05.4 GG.2 03.0 260 142350 04.5 05.1 05.7 02.5 i 261 14244G 04.2 04.7 05.6 01.4
- - ' 2G2 142442 04.3 04.3 04.0 02.5 2G3 142500 03.0 04.0 04.7 05.3 264 142534 03.5 05.4 04.1 03.0 2G5 142G00 03.4 05.5 03.0 05.4 2GG I42G2G 03.3 03.2 03.0 05.3 f, 267 142G52 03.4 03.b 03.0 02.G o
e i 4 i
W M M M TEMPERATURE MEASUREMENTS OF July 25, 1980 AT 1, 2.5, AND 5 FT . LEVELS 88 -
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______________c [ li];p, , _ _ _ _ _ _ _ _ _ _ _ un,_. ,,,, _ _ _ _ _ _c, 79 - u *,y*, ',e e , 78 - i f A I I i I 1 & 1 & R i i 2 A 1 J 1000 2000 3000 4000 5000 G000 7000 8000 DISTANCE IN PLOT UtJITS .g
M M M M M M M
-p Ov51EA CREEE Yt4ERMAL PLUME N ', C ,
July 25. 1983 s
/
WIND FROM SSE AT 7-12 MPri ' AMBIEN 1 DAv TEnP. 70.5 DEC F l 8 ' CJRCIA ATING Mar 1P FLOV. 46 card CPn . DSLU180N PM ILOd* 2GC333 UU * ' a
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LONGITUDINAL SECTIONS OF OYSTER CREEK AND BARNEGAT BAY SURFACE O-87.9 - 87.9 87.9 . 85.0 . 80. . . . 2.5 - 87.7 . 87.7 87.7 84.5 . 80.1 . . DEPTH ( F T.) i 5- 88.0 . 87.9 88.0 . 80.5 . 80.0 . . 1 i S. O-l ? " ~ ~ .. - B ATHY MET RIC DEPTH '~~~
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' m opm 200 l OYSTER CREEK RIVER MILE IIARNEGAT DAY Mil _ES -l10* COURSE FROM
-M MOUTH OF OYSTER CREEK DATE Jitly 25, 1980 STATION PARAMETERS TIME 1213-1427 AT 14.6 tic;;rees I:
WIND SSli at 7-12 mp!' CIRC. FLOW 460.000 >: lim DIL. FLOW 260,000 >>gim.
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M M M M M M M M M THERMAL PLUME OF August 27, 1980 th0Ex POSITION TINE 1EMPERA1DAE DEG F COORDINATES teir1r1SS I FT 2.5 FT 5 F1 DU1 TON 1 123326 07.6 07.4 07.5 07.5 2 123351 07.G 07.2 07.4 07 G 3 123487 07.4 07.D 07.4 D7.G 4 123443 07.3 OG.D 07.4 87.5 b 123500 07.0 OG.H 07.2 07.3 G 123535 06.0 06.C 07.2 07.8 7 123 Col OG.0 OG.O 07.0 bC.0 0 823G27 OG.0 06.G 0G.0 07.0 0 123G53 07.0 DG.4 0G.0 07.3 10 123710 OG.S 06.G 07.2 07.3 Il 123745 07.0 07.0 07.2 07.5 12 123011 07.0 OG.G OG.0 11 7 . 2 33 123037 DG.G OG.5 07.0 07.1 14 123003 DG.7 OG.b GG.0 LG.0 15 123020 07.I OG.5 uG.0 07.1 16 123D55 06.0 CG.G up.0 07.2 17 124021 DG.0 OG.7 01.1 b7.1 18 124047 OG.7 DG.G GG.0 OG.0 10 124113 BG.7 OG.4 06.7 LG.0 20 124130 DG.5 06.2 0G.5 LG.7 21 124205 OG.2 OG.2 OG.5 8 22 OG.4 124238 DG.4 05.0 6G.3 UG.0
$l 23 124257 DG.I OG.I OG.5 LG.S i 24 124323 OG.2 GG.I OG.2 25 0G.4 124340 DG.I DG.D OG 3 14.G 26 124415 DG.I OG.D 27 OG 4 LG.6 124441 06.3 OG.3 06.4 06.7 20 124507 06.3 OG.I 20 Od.5 DG.0 124b33 DG.I 06.8 OG.6 GG.0 30 124560 OG 2 BG.E OG.5 38 GG.3 124G25 06.4 06.1 OG.3 OG.0 32 124GSI 0G.0 33 05.0 0G.7 LG.7 124787 OG.I OG.2 GG.6 8.G . 4 34 124743 DG.3 35 OG.I OG.5 LG.7 124000 OG.I OG.I OG.4 LG.4 3G 124035 37 DG.2 UG.0 OG.I OG.5 124005 05.0 05.7 OG.4 GG.5 30 124077 30 DG.2 OG.l OG.3 LG.I 124053 05.0 05.4 05.3 04.0 40 1260I0 05.2 04.7 04.3 43 03 1 126045 04.0 04.0 03.1 03.1 42 125111 04.0 03.2 43 02.6 00.G 12b837 03.7 03.2 02.2 00.4 44 125203 45 05.5 02.0 02.5 01.8 125220 03.5 03.2 02.0 L0.0 4G 1252b5 47 03.4 03.1 02.G 00.0 125320 02.7 02.6 01.0 11 1 . 0 40 125346 02.5 02.0 40 01.1 00.0 125412 04.2 01.0 01.0 70.0
N - M M M M M THERMAL PLUME OF August 27, 1980 INDEx POSIT!DN TINE TEMPERATURE DEG F COORDINATES HHnMSS I FT 2.5 FT 5 FT 00110n Sa 125430 02.4 02.2 01.1 70.G bl ?25534 02.4 02.8 01.0 70.6 52 62S530 02.1 01.5 BJ.S 70.7 53 125556 00.7 00.5 03.4 70.6 b4 12bG22 00.5 00.2 ud.4 00.0 55 12bG40 00.0 03.D DJ.C 70.3 5G 125714 00.0 00.2 DJ.7 70,1 57 125740 00.4 00.4 03.6 70.0 50 12500G 00.0 00.7 OJ.0 70.1 60 125032 00.0 00.0 03.3 70.5 60 125050 08.3 00.0 70.2 70.2 G1 125024 01.3 00.3 70.0 70.4 G2 125050 01.2 00.3 70.3 70.6 G3 1300lG al.2 00.0 OJ.5 70.0 G4 130042 08.3 01.0 03.0 70.2 G5 130100 09.3 00.0 01.0 70.2 GG 130334 01.2 01.1 00.G 70.4 G7 130200 08.5 08.5 OJ.3 70.5 60 13D226 01.G 08.3 OJ.5 70.0 60 130252 01.7 01.2 03.G 70.5 70 130310 08.7 01.2 03.7 70.2 76 130544
- j. 72 13D410 01.4 01.0 08.2 00.0 0J.0 03.7 70.3 70.2 vs 73 13043G 01.0 08.2 08.3 70.3
' 74 530502 Ol.G 01.D OJ.5 70.7 75 130520 08.2 OJ.7 DJ.2 70.0 7G 130554 77 08.2 00.0 OJ.b 70.1 130G2D 01.1 00 G OJ.4 78.7 70 13DG4G 08.3 00.G 00.0 77.0 7D 130712 01.2 00.0 OJ.G 80 78.7 D1 130730 01.1 08.0 180.5 70.5 130004 08.4 00.0 00.4 70.5 02 130G30 01.G 00.0 03.4 70.0 83 13005G 01.1 00.4 70.6 04 70.2 13ac22 08.2 00.5 70.5 70.1 05 130040 01.0 00.7 03.0 70.1 BG 131014 08.3 07 01.D DJ.0 70.2 731040 01,2 88.o 7a.0 70,2 00 15110G 00 05.2 08.0 OJ.8 70.1 131131 08.I 00.0 b3.G 70.2 00 831157 00.0 00.G DJ.3 08 70.2 131223 08.3 DJ.0 70.7 70.5 02 131240 01.1 00.0 70.7 70.4 03 131315 08.3 00.0 70.5 70.3 04 131341 70.1 05 03.0 00.7 70.2 131407 08.3 01.0 70.7 70.G OG 13l433 01,1 07 00.0 70.6 70.G 131450 00.0 00.G 70.5 70.G 00 131525 00.0 00.7 00.0 70.7 t
M M THERMAL PLUME OF Au0ust 27, 1000 INDEX P05fTIDH T!nE TEMPERATURE DEG F COOROINATES HHMnSS I FT 2.5 FT 5 FT 00TTDn CD 131553 03.0 00.7 DJ.2 70.8 igg 131Gl? 00.5 00.4 73.7 70.0 101 133G43 00.2 70.0 OJ.I 70.2 102 131700 00.4 00.2 0J.1 70.5 103 138735 00.3 00.D 70.G 70.4 104 138001 00.2 70.0 03.0 70.0 105 131027 60.3 00.2 70.4 70.0 106 135053 00.4 00.2 70 5 70.G 407 13I010 08.5 00.4 HJ.0 70.5 100 138044 00.5 00.2 GJ.4 70.4 100 132010 00.4 00.b O'l. . 4 70.2 l10 13205G 00.7 00.5 CJ.4 70.3 Ill 132102 00.G 00.4 03.2 70.1 312 132120 00.5 00.2 UJ.0 77.0 113 132154 00.7 00.5 70.0 70.0 114 132220 01.8 00.0 03.0 70.1 IIS 13224G 08.2 00.0 OJ.2 70.1 IIG 132382 08.3 01.0 HJ.3 70.0 187 132330 01.4 01.8 70.0 70.1 150 132404 01.G 01.2 70.G 70.1 110 132430 j- 120 1324tG 01.6 09.6 09.2 08.2 00.8 70.7 70.2 70.5 os 121 132b22 8 122 01.6 08.2 70.0 70.0 132540 01.G 08.4 UJ.2 70.7 123 132Gl4 DI.b 08.2 GJ.7 70,0 124 132G40 09.4 08.2 CJ.0 125 70.0 13270G 08.4 01.8 LJ.7 70.0 I?G 133745 03.G 05.1 08.0 127 00.u 133011 04.0 03.2 02.l Oa.3 120 153037 05.0 05.1 120 11 2 . 4 70.5 133005 04.0 04.3 112.7 70.5 150 133020 138 04.5 04.3 112 . 4 70.0 1330S5 04.5 04.2 02.1 70.4 132 134028 04.2 03.0 III 02.2 70.5 134047 03.0 83.4 112.5 70.0 134 134135 01.0 03.0 135 08.3 77.7 134130 02.0 02.5 00.7 70.1 136 134205 02.0 137 02.5 08.2 77.0 134231 03.3 0?.0 01.0 77.b 130 1542b7 03.G 05.1 130 08.0 77.7 134323 03.0 03.5 U2.1 77.0 140 134340 0 3. G 05.4 141 60.0 70.0 15441b 03.4 03.1 01.0 7 tl .1 142 134441 05.2 03.1 143 02.4 70.b 134507 02.0 02.7 01.0 70.b 144 134533 145 02.5 02.5 08.2 70.1 134bbo 03.0 03.1 01.0 70.1 14G 134G25 147 02.0 03.1 02.1 70.8 134Gbl 02.7 02.0 U2.5 70.1
\
IEURI THERMAL PLUME OF AuOusi 27, 1980 7:40Ex
' POSIT 10H 11NE TEMPERATURE DEC F COORD! HATES HHritisS I FT 2.5 F1 5 FT 501 Ton 140 134717 02.4 02.7 02.4 70.0 140 134743 02.4 02.7 02.G 70.2 lho 134000 02.4 02.G H2.5 70.2 151 134815 02.3 02.4 02.5 70.7 lb2 134005 02.1 02.2 02.4 70.b 153 13513G 02.0 el 0 02.G bl.3 154 135202 02.0 08.0 02.7 01.0 155 135220 08.4 81.2 P2.3 00.0 15G 135254 08.1 01.3 H2.3 70.7 157 135320 00.0 03.0 01.8 70.2 lb8 13534G 03.4 03.G 01.b 77.0 150 135412 03.2 00.4 Ot. 70.4 IGO 140115 OG.0 03.G 01. 77.5 IGI 140141 03.0 00.1 70.6 7G.6 162 140207 03.0 00.0 03.0 77.1 IG3 140233 00.5 00.2 03.0 77.4 164 14D250 00.5 00.1 70.0 77.1 ISS 140325 03.5 03.1 70.3 7G.0 IGG I40351 00.G 00.2 70.2 7C.0 867 140417 00.0 00.4 70.0 77.1 IGO 140443 03.0 03.5 70.0 7C.0
[ IGO 140600 01.8 60.0 01.3 7G.0 9 170 140335 08.2 08.0 08.2 77.7 S 171 140 Gal 01.G 172 08.2 03.5 77.5 14CG27 02.2 02.0 03.7 70.1 173 140G53 02.G 02.6 OJ.C 70.2 174 140710 03.2 05.2 uJ.3 175 70.3 140745 03.G 03.1 00.3 70.3 17G 140010. 177 03.4 03.0 01.8 70.4 14003G 03.G 05.3 03.4 70.2 170 140002 70.7 170 04.I 03.G 70.4 140020 03.0 03.3 70.7 70.2 100 140J54 70.0 303 ' 0 3. G 03.1 70.1 141020 03.G 02.7 70.4 76.0 102 j 14104G 03.G 02,2 70.3 70.3 103 141240 07.0 02.0 0.0 104 0.0 141304 00.2 02.7 0.0 0.0 105 5413b0 03.0 02.b 03.1 10G 0.0 141543 08.2 01.0 08.4 00.3 107 148G00 03.3 08.7 70.7 100 70.0 141G35 83.2 02.0 0.1. 2 70.0 000 141708 500 02.0 02.2 6J.3 70.4 14172G B2.1 01.4 03.0 70.5 000 141752 01.0 02.6 00.0 70.5 102 141010 03.2 02.7 01.5 70.0 103 141044 05.3 02,0 01.4 77.7 104 141010 105 03.7 GA.2 01.0 70.0 14105G 03.7 03 2 01.7 70.4 10G 142002 03.G 04.2 02.1 78.3
M M M M M M , THERMAL PLUME OF August 27 1000 INDEX POSITIDN TIME TEnPERATURE DEC F C00R0!P4ATES MS!. I F1 2.5 FT 5 FT B0170.9 107 142020 93.6 03.8 02.5 70.7 108 142054 03.9 02.0 02.2 70.4 800 142120 05.3 02.0 02.4 7J.7 200 142146 03.6 63.3 02.0 70.0 20s 142212 03.D 0 3. G 03.0 70.0 , 202 142230 04.2 03.0 05.3 70 4 203 142304 04.5 04.3 U3.0 70.4 204 142530 05.5 04.7 04.4 70.7 205 14235G 03.0 04.G 04.4 70.0 20G 142422 G4.G 04.0 03.3 70.2 i 207 142447 03.7 05.5 03.2 7d.4 200 142513 04.2 05.0 04.3 70.2 200 142530 03.7 05.6 LG.D 04.7 210 142605 02.6 05.0 b l .1 05.0 213 142631 DD.4 06.0 f,3.l 05.5 212 142G57 04.0 OG.4 JG.5 DJ.D 213 142723 UG.2 OG.G EG.G DJ.o 6m 00 8 I i i i i
M M M M TEMPERATURE MEASURENENTS OF August 27, 1080 AT I, 2.5, AND 5 FT. LEVELS 88 - T 87 - E V ,', , M
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M M M M M M M THERMAL PLUME OF September 24, 1080 INCEx POSITION Tine TEnPERATURE DEG F CDORDINATES luttSS I FT 2.5 FT 5 FT 00110n 1 075 1453 124003 00.2 00.1 00.0 00.5 2 1000 1477 121020 01.0 0.0 01.7 01.G 3 1940 8512 128055 St.5 08.1 0.0 01.4 4 1001 1542 122021 01.6 08.4 08.5 01.G S fila 1574 122047 01.0 al.G 01.7 01.7 G 1835 1605 122:13 08.3 01.1 08.3 01.2 7 1102 1640 122130 01.6 08.3 01.7 01.7 0 1222 1600 122205 08.5 08.0 08.4 01.1 0 1262 1732 122231 08.5 01.4 01.5 08.4 10 1302 177G 122257 08.3 01.2 08.2 01.2 Il 1357 1926 122323 08.4 08.3 08.5 01.0 12 1404 IOGG 122340 01.5 08.3 08.5 08.7 13 1446 1914 122415 01.G 08.4 01.0 01.0 14 8400 SOGG 122441 01.3 08.2 01.4 01.3 15 1531 2010 122507 01.5 01.5 01.7 01.5 16 1570 2051 122533 00.0 01.8 01.3 01.3 17 IGl3 2003 122550 00.5 0.0 01.5 01.4 10 IG40 2110 122G25 01.0 al.1 01.3 09.4 10 1600 2150 122G58 01.0 09.2 01.3 08.4 20 175G 2203 122717 01.5 06.1 68.5 08.4 21 1770 2243 122743 08.4 0.0 08.3 01.2 22 1928 2201 122000 01.5 0.0 01.6 01.5 di 23 l0GG 2322 122035 08.4 01 3 08.4 01.6 os 24 1000 2350 122001 01.5 0.0 08.4 08.5 8 25 1051 2307 122027 01.7 0.0 01.7 01.0 2G 1002 2430 122053 01.5 01.2 08.3 27 OI.G 2032 2476 123010 0.0 01.5 01.G OI.G 20 20GG 2511 123045 01.7 01.2 01.5 01.G 20 2000 2556 123111 01.5 01.2 01.5 01.4 30 213G 2505 123137 01.7 08.4 01.7 01 G 31 2150 2GDG 123203 01.2 01.1 DI.4 01.G 32 2l04 2G32 123220 01.7 01.2 09.3 08.4 33 222G 2673 123255 01.7 08.5 01 G 08.7 34 22GB 2782 123328 01.G OI.I 35 01.6 31.7 23l5 2757 123347 01.7 01.1 U8.5 01.7 3G 23GI 2012 123413 01.0 03.3 01.7 01.0 37 2400 20bG 123430 01.5 08.2 01.7 30 01.7 2454 2002 123505 01 2 00.0 08.5 01.5 30 2500 204G 12353) 08.5 03.0 01.G 09.4 40 25S4 2007 123SS7 01.5 08.3 01.7 01.G 41 2600 3042 123G23 01.2 01.0 42 08.5 01.4 2640 3087 123640 01.3 01.0 09.2 01.1 43 2700 3537 123715 01.5 01.1 01.4 01.3 i 44 2746 3104 12374I 08.5 01.2 08.5 01.7 45 2700 3224 125007 01.3 01.0 08.4 08.4 46 2040 3275 123033 01.3 00 0 01.1 01.4 47 2001 3317 123050 08.4 01.1 08.3 08.3 40 2034 3356 123025 01.6 Gl.1 08.4 06.4 40 2000 3307 123031 01.3 01.1 01.5 ut.G
M M M M M M - M P THERFAL PLUME OF September 24 1980 INDEX PDs! TION Tine TEnPERATURE DEG F troaol pTES WNNSS I F7 2.5 FT 5 FT 001T0n 50 3023 3439 1240l7 8!.I G0.8 08.2 08.2 El 3065 3477 124043 Bl.l 80.7 81.2 08.2 52 3lli 3516 124100 Bl.l 80.0 01.2 01.1 53 31G2 3567 124935 81.3 00.0 01.2 01.0 54 3230 3Gli 124201 01.3 00.0 01.3 08.2 55 3257 3G58 124227 08.2 01.0 08.4 08.3 SG 33t7 3713 124253 81.1 01.1 01.4 08.3 57 33GG 37G1 124310 81.0 00.0 01.3 01.3 50 3417 3812 124345 80.0 00.0 81.0 00.0 50 3474 3871 124413 00.7 80.0 00.1 00.0 Ga 3517 3017 124437 80.4 70.0 00.0 00.1 GI 3573 3073 124503 00.G 7D.0 00 1 00.1 G2 3G20 4028 124520 00.7 00.1 00.2 00.2 G3 3007 4200 124730 80.0 00.2 00.3 70.3 64 3046 4345 124025 00.0 00.3 00.3 7G.G G5 3G00 4401 124031 0.0 0.0 00.2 7G.0 GG 4043 444G 124057 80.4 00.8 70.0 7b.5 G7 4005 4500 124023 0.0 70.0 70.5 75.3 GO 4145 4550 124040 80.2 0.0 70.3 75.2 60 4100 4G05 125015 70.7 70.5 70.0 75.1
, 70 4246 4652 125041 70.4 70.2 77.0 74.0 vi 71 4200 4700 125107 70.0 70.5 77.0 74.0 sa 72 4340 4750 125133
' 77.0 77.6 76.0 74.G 73 4307 4814 125150 77.4 77.1 7G.2 74.3 74 4454 48Gl 125225 77.3 7G.4 74.5 74.1 75 4504 4011 125251 77.2 74.2 73.0 73.2 76 4550 40G0 12b317 77.2 75.G 73.6 72.G 77 4G00 5016 125343 77.1 76.2 73.7 72.0 78 46G0 5070 125400 7G.G 75.7 73.1 71.G 70 4715 5117 125435 76.2 75.3 72.6 71.0 00 4761 bl71 125501 75.7 74.0 73.0 70.7 01 4805 5185 125527 75.0 74.3 73.G 78.3 02 48GG 5135 125553 73.7 73.G 73.2 70.0 83 4005 500G 125GIO 73.2 73.0 72.7 70.5 04 4059 5033 125G45 85 5016 73.0 72.7 72.3 70.5 4006 125711 72.7 72.5 72.2 70.5 DG 50GI 4031 125737 72.4 72.3 72.1 70.5 07 5106 4006 125903 72.2 72.2 72.0 70.5 08 51G1 4830 126020 72.3 72.I 72.0 70.G 00 5207 4703 125055 72.G 72.2 72.1 70.5 00 5250 4733 125021 72.G 72.4 72.3 70.G 05 5305 4G07 12SO47 72.7 72.3 72.4 70.7 02 5357 4G34 130013 72.? 72.1 72.0 70.7 05 5407 4506 130030 71.0 71.0 7! 0 70.8 04 5456 4534 13010b 70.6 70.5 70.7 70.7 05 5501 4400 130131 70.0 7D.6 70 0 70.6 OG 554G 4445 130157 71.1 70.0 70.0 70.5 07 5530 4455 130223 73.3 70 0 71.0 70 G 08 5512 4484 13D240 71.5 71.2 7s.1 70 0
.IIIII THERMAL PLUME OF September 24, 1980 INDEX POSITION TINE TEPPERATURE DEC F CODRDINATES HHMNSS 1 FT 2.5 FT 5 FT 001 TON 00 5482 4580 130315 79.8 71.0 71 2 71.0 100 5444 4560 130341 70.8 7d.G 70.0 70.0 Ist 5487 4500 130407 70.G 70.4 70.7 70.G 102 5373 4636 130433 78.3 71.0 71.1 70.0 105 5343 4G77 130450 75.0 71.0 72.1 71.0 104 5307 4713 130525 72.1 72.8 72.4 71.5 105 5203 4740 130551 72.4 72.4 72.4 71.1 10G 5253 4702 130G17 72.0 72.0 72.5 71.0 IB7 521M 4025 130G43 72.6 72.5 72.7 70.0 120 5104 48G8 130700 72.0 72.6 72.0 71.1 120 51G4 4005 130735 73.2 72.0 73.1 71.0 110 5140 4035 130001 73.1 73.0 73.1 70.G 11 5101 4076 130827 73.3 73.2 73.3 70.4 5017 112 113 5071 5034 5086 130053 130010 ", 4 73.7 73.7 73.7 73.6 70.7 70.3 114 5006 5105 130045 7' - 74.8 73.0 70.4 115 4073 5851 131011 74.1 4.1 73.0 70.5 llG 4044 5103 131037 74.1 7..0 73.0 70.3 117 4014 5240 131103 74.2 74.1 74.2 70.7 IIS 4000 5220 131820 74.0 73.0 74.1 70.4 llo 4863 5102 131155 74.2 74.0 74.3 70.G 120 4030 Sl5G 131228 74.3 74.2 74.5 71.0
, 121 4000 Sito 131247 74.3 74.2 74.3 71.1 ui 122 4708 500G 131313 74.G 74.5 74.G 72.2 Co 123 474G
' 5045 131330 74.1 73.0 74.1 73.0 124 4710 5012 131405 74.1 74.0 74.1 74,2 125. 4601 4003 131431 74.0 73.0 74.1 74.2 12G 4673 4050 131457 74.I 74.1 74.4 74.3 127 4GG1 4035 131523 74.3 74.3 74.G 74.5 120 4G37 4013 131540 73.0 73.0 74.I 74.1 120 462G 4005 131Gl5 73.0 73.0 73.0 73.0 130 4Gl4 4070 131641 74.0 74.0 74.I 74.0 131 4G00 40GG 131707 73.G 73.5 73.0 73.0 132 4G3G 4077 131733 73.3 73.1 73.3 73.G 133 4G42 4887 131750 73.G 73.4 73.G 73.G 134 4565 4015 132100 73.2 73.3 73.5 72.0 135 4540 40J4 132135 73.G 73.4 73.0 74.0 13G 4541 4700 132201 72.0 73.2 75.7 73.7 137 4404 4758 132227 71.5 73.4 73.7 73.7 130 44GI 4735 132253 78.3 73.G 73.0 73.0 130 4450 4719 1323I0 73.1 73.4 73.G 73.G I40 4416 4606 132345 73.6 73.5 73.7 73.7 141 4304 46G1 1324ll 73.4 73.4 73.7 73.0 142 4341 4648 132437 73.4 73.2 73.5 73.G 143 4317 4610 132503 73.2 73.5 74.0 74.1 144 4270 4500 132520 73.5 73.2 75.7 73.0
- 145 4240 4b63 132555 73.6 73.5 73.0 73.0 14G 4213 4534 130G21 75.0 73.0 74.2 74.3 147 4170 4507 132G47 74,1 74 1 74.3 74.4 4
4
M M M
~
M M M M - THERMAL PLUME OF September 24, 1980 thDEX POSITION TINE TEMPERATURE DEG F COORDINATES HHnnSS 1 FT 2.5 FT 5 FT DOTTON 140 4144 4470 132713 74.0 74.5 74.0 74.0 140 4114 4455 132730 74.6 74.5 74.0 74.0 ISO 4003 4431 132005 74.7 74.5 74.0 74.0 151 4050 4404 132031 75.4 75.0 75.4 75.4 152 dall 4372 132057 75.2 74.0 75.2 75.3 153 3070 4345 132023 75.2 74.0 75.2 75.0 154 3030 4314 532040 7G.I 75.7 75.0 75.3 155 3000 4206 133015 70.7 77.4 7G.l 75.0 l5G 3002 42GG 133041 70.1 70.2 7G.0 74.0 157 3050 4251 133107 70.0 70.7 77.0 74.G 150 3042 4240 133 33 00.2 70.0 70.4 75.0 150 3021 4225 133150 01.2- 00.0 G3.7 76,3 ICO 3007 4217 133225 01.1 01.0 01.0 77.1 IGI 3700 4206 133251 00.G 00.4 DJ.5 70.0 162 37G0 4102 133317 00.1 00.2 00.4 00.2 163 3752 4100 133343 78.7 70 G 70.0 70.0 IG4 372G 41G5 133400 7G.2 70.2 70.3 70.2 IS5 3710 41G4 135435 75.2 70.7 70.0 70.1 IGG 3714 4tG5 133501 77.5 77.0 78.1 70.3 IG7 3700 4161 133527 0.0 77.0 77.0 77.0 ISO 3GOG 4 52 133553 7G.4 77.3 77.G 77.G IGO 3GGI 4,26 133714 0.0 7G.3 7G.5 7G 4 0, 170 3640 4121 133740 75.G 75.0 7G.3 7G.2 u) 171 3G31 4104 13300G 75.4 75.3 76.7 75.7 8 172 3G20 4110 133032 0.0 55.7 75.6 75.6 173 3G48 4122 133058 75.0 75.0 75.4 75.4 174 3640 4130 133024 0.0 74.0 75.0 75.0 175 3GG3 4153 133050 0.0 74.0 75.0 74.0 17G 36G3 4150 1340lG 0.0 74.2 74.G 74.0 177 3G40 4147 134042 74.0 75.0 74.2 74.4 170 3634 4136 134100 74,3 74,8 74.4 74.5 170 3G20 4820 134134 74.0 74.0 74.5 74.5 100 3G0l 4117 13420J 74.0 74.0 74.3 74.2 181 3500 4107 15422G 74.1 74.3 74.G 74.$ 102 3572 4006 134252 74.2 74.3 74.5 74.5 183 35G3 4000 134310 74.2 74.3 74.5 74.7 104 3553 4000 134344 74.0 73.0 74.8 74.4 105 354G 4005 134410 74.3 74.1 74.5 74.5 10G 3533 4076 13443G 74.1 74.0 74.4 74.$ 107 3523 40G0 134502 74.2 74.1 74.5 74.4 . 180 35l2 40G1 134520 74.2 74.3 ' 74.G 74.6 800 3504 4050 134554 74.1 74.1 74.3 74.3 10J 3402 4040 134G20 74.4 74.4 74.G 74.7 IDI 340G 4045 134G4G 74.1 74,0 74 3 74.b 102 3471 403G 134712 74.3 74.1 74.4 74,5 103 3451 4021 134730 73.0 73.0 74.3 74.3 104 343G 4006 134004 75.0 74.0 74.4 74.3 IG5 3433 4g00 134030 73.0 75.0 74.3 74.5 10G 3432 4007 1340bG 74.0 74.1 74.4 74.5 l 1
THERMAL PLUME OF September 24, 1980 INDEX POSITION TINE TENPERATURE DEG F CDORDINATES HannSS 1 FT 2.5 FT 5 F1 00TTON 197 3432 4882 134022 74.2 74.1 74.6 74.7 500 3456 4828 134040 74.4 74.3 74.6 74.0 100 3443 4029 136014 74.1 74.1 74.5 74.6 200 3451 4041 13b040 74.4 74.4 74.0 74.0 201 34G0 4055 13510G 74.0 74.2 74.5 74.G 202 3473 4070 135132 74.5 74.4 74.6 74.0 203 3402 4004 135150 74.2 74.0 74.4 74.5 204 3402 4000 135224 74.0 74.0 74.4 74.4 205 3507 4:15 135250 74.0 73.0 74.2 74.1 20G 3510 4133 13b31G 73.6 73.7 74.0 74.1 207 3544 4160 135342 73.7 75.0 74.1 74.1 200 3560 4l04 135400 73.6 73.5 73.0 74.0 200 3505 4210 135434 74.3 74.0 74.4 74.6 210 361G 4238 135500 73.0 73.0 74.3 74.3 211 3630 4257 135526 74.0 74.2 74.5 74.3 212 3G60 4204 135552 73.0 73.0 74.2 74.2 213 3600 4313 135G10 73.5 74.3 74.4 74.b 214 3720 4343 135G44 73.0 73.0 74.1 74.2 285 3744 43G0 155710 74.0 74.0 74.4 74.3 2tG 3770 4307 13573G 73.G 73.G 73.0 73.0 217 3706 4427 135002 73.5 73.7 74.0 74.0
, 210 3825 4453 135020 73.5 73.5 73.7 73.0 os 210 3050 4402 135054 73.7 73.G 73.0 74.2 C) 220 3001 4583 ' 13' '20 73.7 73.G 73.0 73.0 221 3011 4541 l' ,4 G 73.5 73.G 73.0 73.0 222 3054 4504 14u012 73.4 73.2 73.5 73.4 223 3003 4614 140030 73.4 73.4 75.7 73.0 224 4002 4G34 140104 73.3 73.4 73.6 73.7 225 4000 4637 140130 73.3 73.4 73.7 73.0 226 40lG 464G I4015G 73.0 73.1 73.4 73.6 227 4021 4651 140222 73.3 73.4 73.G 73.7 220 4030 4665 140240 73.1 73.3 73.7 73.0 220 4053 4670 140314 75.0 73.0 73.5 73.5 230 4073 4604 140340 73.1 73.2 73.5 73.4 231 4003 4715 14040G 73.2 73.4 232 4103 73.7 73.G 4730 140432 73.1 73.3 73.G 73.7 233 4121 4741 140450 72.0 73.2 73.5 73.G 234 4125 4745 140524 235 4381 4730 73.2 73.3 73.4 73.b 140b50 73.G 73.5 73.7 73.7 23G 4006 4716 140 GIG 73.G 73.G 237 73.0 73.0 4000 4600 140G42 73.2 73.4 73.7 74,0 230 4071 4607 140700 73.4 73.3 73.G 73.0 230 4063 4G75 140734 73.5 73.2 75.7 73.0 240 4043 4657 84S000 73.7 73 6 73.0 73.0 241 4022 4635 14002G 242 4D02 73.5 73.5 74.1 74.1 4614 140652 73.3 73.4 73.0 73.0 243 3000 4500 140010 73.2 73.3 73.0 75.0 244 30GI 4560 140044 73.5 73.5 73.0 73.0 245 3G41 4540 141010 73.6 73.7 74.0 73.0
M M M M M THERMAL PLUME OF September 24 1980 lhDEX POSITION TINE TEnPERATURE DEG F COORDINATES HHnNSS 1 FT 2.5 FT 5 FT LOTT0n 24G 3027 4533 141036
- 73.7 73.0 74.2 74.2 247 3004 4512 141102 73.6 73.G 74.0 74.1 240 3004 4401 141120 73.4 73.7 74.0 74.2 240 3072 4475 141154 73.6 73.G 73.0 73.0 250 3050 44G0 141220 73.7 73.0 74.0 74.1 251 3047 4447 14124G 73.0 73.0 74.1 74.1 252 3037 4434 141312 73.0 74.0 74.1 74.2 253 30lG 4411 148330 73.7 73.7 74.l 74.3 254 3700 4305 141404 73.6 73.7 74.1 74.4 255 3702 4375 141430 73.5 73.G 74.0 74.2 25G 37GG 4355 14I456 73.5 73.G 74.0 74.8 257 3752 4340 141522 73.6 73.G 74.0 74.2 250 3743 4320 14l540 73.6 73.7 74.0 74.2 250 3731 4321 141614 73.0 73.0 74.1 74.2 2G0 3722 4302 141640 73.0 73.7 74.I 74.2 2G1 3716 4201 141706 74.0 73.0 74.1 74.3 262 3703 4270 141732 74.0 73.0 74.2 74.5 2G3 3803 42G5 141750 73.0 73.0 74.2 74.5 2G4 3G01 4250 141024 73.0 73.0 74.2 74.5 2G5 3G77 4242 141050 74.1 74.0 74.4 74.G 2GG 3GGG 4230 1410lG 74.2 74.1 74.4 74.7 s 2G7 3650 4210 141042 74.2 74.1 74.5 74.7 E[ 260 3G50 420G 142000 74.1 74.1 74.4 74.G i 260 3G45 4 tog 142034 74.0 74.0 74.3 74.6 270 3G3G 4105 142l00 74.1 74.0 74.4 74.6 271 3G20 4175 142126 74.1 74.0 74.4 74.G 272 3G20 4160 142152 74.2 74.1 74.5 74.G 273 3G30 4165 142210 74.2 74.1 74,4 74.6 274 3G30 41G3 142244 74.3 74.4 275 3GI? 4150 74.2 74.G 142310 74.1 74.0 74.3 74.3 276 3G3G 4160 142336 73.0 73.7 74.1 74.2 277 3642 41G1 142402 73.7 73.7 74.2 270 74.2 3G51 41G7 142420 73.7 73.7 74.2 74.4 270 3650 41GO 142454 73.0 74.0 74.5 74.G 200 3G50 4165 142520 74.0 74.1 74.7 74.0 201 3GGO 4163 I4254G 74.4 74.5 74.0 282 74.0 3GG5 41G2 142612 75.5 76.5 75.0 75.3 203 3G60 4lG4 142G30 7G.7 7G.G 7G.C 75.G 204 3602 4tG7 142704 77.4 77.2 7G.7 75.7 205 3G03 41G5 142730 77.5 77.4 77.0 75.0 20G 3G04 4873 14275G 77.7 77.7 77 7 207 7G.I 3717 4107 142022 77.0 77.0 77.0 7G.2 200 3730 420b 142040 70.5 70.5 70.5 7G 2 200 37G0 4225 142014 70.1 70.1 70.0 7G.2 200 3702 4242 142040 70.7 70.7 70.7 7G.7 201 3002 42bG I43J0G 70.0 70,0 60.2 70.1 207- 3000 4255 143032 00.2 00.2 00.G GJ.6 203 3702 4231 643050 00.4 00.3 00.0 OJ.0 204 37GI 4203 143124 70.0 00.3 00.7 OJ.0 4
M M M M M M 4 THERNAL PLUME OF September 24, 1000 INDEX POSITION T ir1E 1Er1PERATURE DEG F C00RDINATES F#4tv1SS 1 F1 2.5 FT 5 F1 DOT Tort 205 3738 4108 143150 70.1 00.1 03.6 00.6
, 2GG 3726 4161 14321G 80.5 03.5 01.0 01.1 i 207 3733 4843 143242 70.7 00.8 08.3 08.5
- 200 3702 4127 143300 83.7 01.1 01.6 01.7 200 3603 4108 143334 80.5 81.I 01.7 01.0 I 300 3SS8 4000 143403 81.2 08.2 01.7 01.0 5
301 3640 4065 143426 81.5 01.4 01.0 02.0 I 332 3635 4040 143452 01.4 08.4 01.0 U2.0 303 360G 4011 143510 al.3 08.3 01.0 01.0 304 35G5 3064 143544 08.4 08.3 01.0 02.0
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M M M M M - M TEMPERATURE MEASUREMENTS OF September 24, 1980 AT 1, 2.5, AND 5 FT. LEVELS l j' $ I$ , gg , n . 8t. !'th P 80 ' E R 79 _ ls,t . A *' 8; * , l u 78 - ' R 77 E t . 76 - ' l b' D f'#'.' * E 75 -
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70 - 1000 2000 3003 4000 5000 G000 7000 8000 0000 DISTANCE IN PLOT UNITS
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M M tcE M M M M M M M THERMAL PLUME OF October 10, 1980 INCEx POSITION TJnE TLnPERATURE DEG F C00ROJhATES HHritiss I FT 2.5 FT 5 FT DOTT0n I 905 14G0 113140 72.0 0.0 72.1 72.3 2 103G 14CG 113215 72.3 72.2 72.4 72.4 3 1000 1545 193241 72.1 72.0 72.G 72.G 4 1831 1500 193307 72.5 72.5 72.7 72.0 5 1170 164l 193333 72.2 72.G 73.0 72.0 G 1225 1680 113350 72.0 72.7 72.0 73.2 7 1271 1735 l13425 7 2 . 11 73.1 73.0 72.0 0 1312 1770 113451 72.0 72.7 73.0 73.0 0 1355 1822 183517 72.0 72.5 72.G 73.0 le 1404 1966 183543 72.4 72.4 72.G 72.5 Il 1445 1014 Il3G00 72.2 72.1 72.7 72.5 42 1404 1955 113G35 72.3 72.0 72.3 72.5 13 152G 1000 113701 72.2 72.2 72.3 72.4 14 1565 2030 183727 71.0 72.2 72.3 72.1 15 IGIO 2001 1137b3 71.0 72.1 72.5 72.3 IG 1654 2124 183010 72.1 71.0 72.2 72.4 17 IG03 2157 113045 72.2 72.1 72.2 72.4 10 1720 2105 183011 72.2 72.1 72.1 72.3 ID 1770 2220 193037 72.0 72.1 72.3 72.0 20 100G 22G3 114033 72.1 72.0 72.4 72.4 21 1850 2304 194020 72.2 71.0 72.2 72.G 2, 22 1000 2343 184055 72.0 72.0 72.2 72.5 c) 23 1933 2301 184821 71.0 72.1 72.4 72.3 s 24 1070 242l 184847 71.0 71.0 72.4 72.3 25 2027 24GO 314213 72.1 71.0 72.2 72.G 26 20GO 2510 114230 72.1 72.1 72.2 72.5 27 21 3 2bG0 114305 71.0 72.2 72.2 72.2 20 2157 2G05 194331 71.0 72.2 72.4 72.2 20 2100 2G45 194357 72.0 71.0 72.4 72.4 30 2250 2600 114423 72.1 72.0 72.3 72.4 Il 2205 2730 114440 72.8 71.0 72.8 72.3 32 2335 2708 114515 72.2 71.0 72.0 72.3 33 2304 2011 184541 72.1 71.0 75.0 72.1 34 2432 2077 ll4G07 71.0 71.0 71.7 71.0 35 2477 2010 194633 71.7 71.0 71.6 71.C 3G 2524 2066 184G50 71.G 71.0 71.7 78.7 37 ?570 3088 11472b 71.0 71.7 71.0 71.0 30 2G15 3055 1947b1 71.0 71.0 72.1 72.8 30 2GGS 3100 114017 71.0 71.0 72.3 72.3 40 2783 3140 184043 72.0 78.0 72 2 72.4 41 2752 3100 184000 72,1 78.D 71.0 72.4 42 2001 3233 184035 75.0 71.0 72.0 72.1 43 20G7 327G 115021 71.G 71 7 72.1 72.1 44 2003 3310 115027 71.0 71.C 72.3 72.2 45 2G43 3360 18b053 71.0 71.7 78.0 72.2 4G 2004 3403 115110 71.7 71.7 71 0 72.0 47 3020 3444 186145 40 3071 71 8 72 0 72.0 71.0 3400 185211 71.7 71.7 72 0 72 1 40 3185 3b21 115237 78.0 71.7 71.0 72.1
M M M M M M M M 'M M THERt1AL Plut1E OF Oc t ober 10, 1980 lhDEX POSITION TINE TENPERA1DRE DEC F CODROINA1ES HannsS I F1 2.5 FT 5 FT DOTTON 50 3150 35G5 195303 71.0 71.0 71.7 72.0 51 3213 3614 115320 71.7 71.0 71.0 78.7 52 32G3 36G8 185355 71.0 71.7 72.1 72.1 53 3307 3707 195421 72.0 71.G 71.0 72.2 54 335G 3755 185447 72.0 71.0 71.0 72.2 55 3405 3003 185513 78.0 75.0 71.0 71.2 56 3455 3054 lib 530 73.3 70.0 71.0 70.3 57 350G 3007 Il5G05 71.0 70 G 70.0 70.0 50 3540 30G2 II5G31 78.0 70.7 70.4 70.1 50 3G02 4003 Il5G57 70.0 70.0 70.4 C0.2 CD 3657 4055 185723 70.G 0.0 70.0 C0.1 Gl 3701 410G 195740 70.3 70.2 GO.3 G7.0 G2 3765 415G libalb GO.5 GO.G G7.8 CG.4 G3 3005 4200 185041 GG.4 GG.5 C6.0 G5.7 G4 30 50 4250 11b007 G5.G 0.0 G5.0 C5.G G5 3005 420G 115033 G5.7 G5 G C5.0 C5.0 GG 3040 4340 185050 Gb.0 G5.4 GG.0 CG.I e G7 3077 4370 120025 GG.I G5.7 65.0 0G.2 60 4217 4410 12005I C5.G G5.7 G5.7 GS.7 60 4051 44b5 120117 G5.3 GG.S GS.5 05.4 70 4002 4407 120143 Gb.I 0.0 C5.G C5.5 78 4326 452G 120200 G5.3 G5.3 G5.0 GS.C 0 72 4l65 45GG 120235 G5.G G5.3 G5.7 GS.O
- 73 4202 4G05 12030I G5.5 G5.5 C5.6 G5.0 ' 74 4245 4G40 120327 Gb.3 G5.5 G5.5 GS.4 75 4203 4G05 120353 G4.5 G4.0 G5.2 04.0 7G 4330 4727 120410 G4.3 G4.3 G4.5 64.G 77 4350 47GO 12044b G4.0 G3.0 G3.0 64.1 70 4300 4004 120511 G3.b G3.7 G3.7 G3.G 70 4445 4040 120537 63.8 G3.2 G3.5 G3.4 00 4405 4002 120G03 G3.0 G2.7 G3.0 C3.4 01 4525 4020 120G20 G2.5 G2.7 G2.7 C2.0 D2 45GG 4060 120G55 G2.2 G2.3 62.8 C2.7 03 4 GIG 5014 120721 G2.S G2.3 G2.6 G2.0 84 4G53 $052 #20747 G2.3 G2.6 G2.6 G2.b 05 4G05 5c02 120013 G2.4 G2.3 G2.7 G2 0 HG 472G $110 320030 C2.6 G2.4 C2.4 G2 . .
07 4730 bl2G 120005 G2.2 G2.2 62.G G2.6 00 4700 Sil2 120038 G2.4 G2.0 02.4 C2.0 00 4705 5001 120057 G2.3 G2.4 G2.G G2.7 00 4670 5047 121023 62.1 G2.2 G2.0 02.7 01 4620 5080 128040 G2.7 G2 6 G2.0 G2.0 02 4505 4073 12tilb G2.0 63.2 G3.2 G3.D 01 4S65 4033 121348 G3.5 G3.5 G3.7 C3.7 04 4520 4800 121207 G4 I G4.0 G4.1 G4.2 05 440S 4053 12I233 G5.2 G4 0 G4.7 C4 S OG 44GD 4010 121250 GG.3 G5 3 GS.2 C5 4 07 441G 4773 121325 G7.3 CG 2 G5 3 65.4 GO 4305 4720 121351 G7.0 G7 3 GS.4 04.0
M M M M M M M M " M ~~ M M THERMAL PLUME OF October 10, 1980 th0EX POSIT!DN TINE TEMPERATURE DEC F C00RDINATES HHrit1SS I FT 2.5 FT 5 FT 001 Ton
....--..-----.---.-----------------------------~~---------------------------------------------
00 4351 4600 121417 GO.2 G7.0 66.0 64.0 100 4310 4G50 121443 60.0 GB.O GS.I G3.7 101 4275 4G06 121500 G0.0 60.1 GO.G C2.6 102 4230 4561 121535 GO.4 60.3 GO.I G2.b 103 4100 4510 121601 G0.7 G0.0 C0.3 G3.0 104 4150 4474 821G27 GO.G 60.7 G0.5 G3 5 105 4l10 4428 12tG53 G0.0 60.7 70.1 C6.0 10G 4050 4377 121710 70.3 70.4 70.2 GO.6 107 4010 4324 121745 70.3 70 4 70.7 GO.G 100 3901 4204 121013 70.1 GO 3 70.1 G3.0 100 4000 4314 121037 70 4 70.1 G0.0 G5.3 110 4037 4345 121003 70.3 70.6 70.5 G0.0 lll 4071 4303 121020 70.1 70.5 70.0 GO.7 112 4110 4425 121055 70.3 70.3 70.5 GO.2 113 4150 44G0 122021 70.4 70.2 70.2 CO.7 l14 4105 4400 122047 70.0 70.3 C0.0 G7.5 115 4240 4538 122113 CO.G GO.7 GO.7 GG.0 lis 4200 4570 122130 60.G 60.4 CO.7 G7.7 117 4320 4625 122205 G0.5 GO.4 G0.2 G5.2 110 4375 46G8 122231 GO.2 60 4 G0.3 G4.0 110 4410 4700 122257 G0.0 GO.0 G0.0 G3.6 120 4455 4745 122323 60.0 GG.0 G0.0 G3.0 e 121 4508 4707 122340 G0.0 G0.0 Ctt . 3 C2.0 9 122 4545 4834 122415 60.5 G0.0 G7.4 Gl.0
';J 123 4501 407G 122441 124 60.4 60.5 CG.I G2.2 4637 4D24 122507 60.G GB.4 G5 5 G2.0 125 4G00 4060 122533 GO.3 GO.4 G4.7 472G G3.0 12G 5012 122550 60.0 60.0 G3,7 C3.1 I?? 4770 50b0 122G25 67.4 G7.3 G3.4 G3.3 128 4014 5000 122G5l GG.7 GG 2 G3.1 120 G3.G 40GG 5130 122717 6G.0 GG 0 G3.2 03.5 130 4000 SIGO 122743 G5.5 G5.6 63.6 G3.G 131 4034 5210 122000 G5.1 G5.3 G4.4 G3.0 132 4076 5240 122035 64.0 G4.7 G5.1 G4.3 135 5020 5203 122001 G4.4 G4.4 64.7 G4.b 134 SCG7 5335 122027 G3.0 G4.1 135 64.1 G3.0 bill 5345 122053 G3.7 G4,1 G3.0 G3.G 13G 515G 5311 123010 137 G3.5' G3.7 G4.8 G3.6 SIDO 5203 12304b G3.0 GI.7 G 3.0 G3.0 130 5230 52G4 123111 130 S200 65.0 G4.0 G5.0 G3.0 5237 123137 G3.7 G5.7 G4.1 G4.1 140 5323 5211 123203 G3.0 G3.0 141 53G7 5100 G4.0 G4.0 123220 63.7 63.6 G4.2 G4.2 142 5300 5175 123255 143 5400 63.0 64.1 G4.1 G3.0 5200 123328 63.0 G3 0 65.0 G4.0 144 5377 5244 123347 S3.5 G3.5 G3.0 C3.0 145 5340 5204 123413 63.3 G3.5 G5.6 G3.7 14G 5317 5340 123430 63.4 G3 5 G3.G G3.6 147 5205 5307 123505 63.2 63.2 G3.5 G3.G a
i
M M M M .M M M THERMAL Plut1E OF Oc t ober- 10, 1980 INDEM POSITION TINE TEMPERATURE DEG F COORDINATES HHhnSS I FY 2.5 FT 5 FT BOTTon 140 5274 5434 123531 G2.0 G3.D G3.3 GI.3 140 5252 5474 123557 G2.7 G2.0 G3.1 G3.1 ISO 5210 -5430 123G23 G2.G G2.5 G2.0 G2.0 lbl SIGO 5370 123G40 G2.4 G2.4 G2.7 G2.0 152 5121 533Q 123715 G2.3 G2.4 G2.7 G2.7 153 5075 5206 123741 G2.3 G2.2 G2.4 62.5 154 5030 5240 123007 G2.0 Gl.O G2.3 C2.4 155 4005 5103 123053 Gl.0 68.0 G2.1 G2.3 15G 4032 5137 123050 G1.5 Gl.5 G2.0 C2.2 157 4004 5007 123025 G1.3 61.5 G2.0 GI.0 150 4047 5045 123058 Gl.4 Gl.3 Gl.0 G2.2 160 4000 4005 124017 Gl.4 Gl.4 Gl.7 Gl.0 ICO 4765 4054 124043 Gl.3 Gl.4 Gl.7 Gl.0 161 4720 4912 124100 61.2 GI.5 Gl.6 Gl.7 IG2 4G00 4001 124835 Gl.2 Gl.b Gl.G Gl.7 IG3 466G 4066 124201 GI.0 Gl.3 Gl.4 Gl.G IG4 4G30 4043 124227 Gl.1 Gl.2 Gl.5 Gl.G IG5 4Gl0 4021 124253 Gl.1 Gl.2 Gl.5 Gl.7 IGG 4505 4005 124310 Gl.3 Gl.2 Gl.G Gl.0 167 4540 47G6 124500 G3.0 G2.0 G2.4 Gl.4 ISO 4526 4755 124534 G3.5 G3.G G3.2 G1.0
- 160 4512 4743 124G00
'J G4.5 64.5 64.3 G 3.1 170 4405 4737 124G2G G5.0 G4.8 Gl.7 G3.4 Y 171 4407 4741 124G52 GS.I G4.0 G4.0 G3.7 172 4400 4730 124710 C5.0 G5.6 171 4400 65.5 G3.0 4740 124744 GG.3 GG.2 CG.I G3.2 174 4400 4740 124010 GG.0 GG.7 175 4400 GG.O G3.0 4740 124036 G7.0 G7.3 G7.2 64.5 176 4502 4760 124002 G7.0 60.0 177 G7.0 G4.G 4500 4770 124020 CD.5 GO.b GO.b G5.0 170 4517 470G 124054 Gb.7 170 4520 60.6 60.4 G4.3 4005 125020 G0.0 60.5 67.4 C2.3 100 4535 4015 12504G CO.6 G7.0 101 4540 4030 GO.G 62.7 125832 60.5 60.7 G7.3 G2.0 102 4550 4043 125130 GO.C 60 7 103 G7.0 G2.2 45Gb 4057 125204 G0.4 G0.5 GG.2 G2.6 104 4572 4077 125230 GO.5 I tis G0.2 60.2 G2.4 4570 4001 1252tG 60.0 G7.0 GG.0 G2.3 10G 45G0 4073 125322 G7.2 107 4530 G7.2 C5.4 G2.4 405G 125340 G7.2 G7.3 G4.4 G2.7 100 4515 403G 125484 G7.4 100 4400 G 7. 5 64.5 63.G 4010 125440 G7.6 G7.4 G5.0 G4.b 100 4473 4700 125ba6 G7.4 G7.4 65.3 C4.0 101 4440 4778 12b532 67,I G7.5 G5.5 G5.1 102 4410 4749 125550 G7.3 G7.G G5.7 103 05.5 4300 4724 12bC24 G7.5 67 5 GG.2 GS.O 104 4361 4705 125G50 67.4 G7.2 GG 2 105 CG 1 4320 4670 12571G GG.0 GG 8 GG.5 G 0 14l040 G3.5 G3.2 Gl O G4.2 300 0 0 141014 G3.5 63.5 G4.0 G4.1 381 0 0 141040 G3.G G3.5 G3.0 G4.0 302 0 0 14200G G3.3 G3.4 G3.0 G3.0
TEMPERATURE HEASUREMENTS OF October 10, 1980 AT 1, 2.5, AND 5 FT. LEVELS 7A - T E 73 - 1
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M M M THERf1AL PLUt1E OF November G. 1000 JNDEX POSITION T!nE TEMPERATURE DEG F COORDINATES HHf1 MSS I FT 2.5 FT 5 FT 001 Ton 1 000 1460 I2005G 57.0 0.0 50.8 50.0 2 1968 1530 12IO2G 50.0 0.0 50.7 50.0 3 1910 1505 121066 b0.0 0.0 0.0 50.7 4 1972 1636 121126 50.0 0.0 50 7 50.G 5 1220 IGol 1283bG S0.7 0.0 b0.0 50.0 G 1283 1752 12122G 50.7 0.0 50.S S0.5 7 1342 1805 12I25G 50.6 0.0 S0.6 60.5 0 1488 1000 12132G 58.3 0.0 50.8 50.0 0 1478 1055 12135G 50.3 0.0 50.5 50.7 Is $540 2018 12I42G S0.5 50.4 50.4 50.3 II 1500 2060 12145G 50.3 50.2 50.5 60.5 12 IGG 8 2135 121b2G 50.4 S0.3 60.5 bo.7 13 1738 2 IDS 121bbG 50.5 S0.5 SG.G 50.4 14 1784 2245 12tG2G 50.3 50.6 to.G 50.G 15 104G 2305 12tG5G 50.1 50.1 b0.7 60 G IG 1004 2350 12172G S0.2 bd.2 bo.4 50.G 17 106l 2410 12176G 50.5 60.3 00.5 50.b 18 2024 24GG 12802G 50.5 SG.G 50.G 50.5 10 2007 2530 12:05G b0.2 50.8 60.G 50. r. 20 2137 2503 12l02G 50.0 b7.0 50.I 50.3 21 2l07 2640 12105G S0.1 22 225l 2700 57.0 b7.0 50.0 12202G 60.0 50.2 60.1 57.0 23 2315 2753 1220bG $7.7 bo.2 50.2 $0.2 0'$ 24 23Sb 2012 12212G 50.1 bo.1 60.0 50.2 e 25 2420 2074 1221bG S0.2 S0.2 60.2 57.0 26 2405 2033 12222G 57.0 27 2553 2000
$0.3 S0.2 bO.2 1222bG b 7. 0 57.0 S0.2 bo.3 20 2G13 3040 12232G 57.0 S7.0 57.0 50.1 20 2G72 3106 12235G S0.2 50.1 30 b0.0 50.2 2733 31G5 12242G S7.0 50.3 bo.2 60.2 31 2703 3225 12245G 57.0 50.1 50.3 $0.S 32 2847 3276 12252G 57.0 S7.0 50.0 50.3 33 2005 3320 12255G 34 2050 57.0 57.0 57.0 50.1 3302 122G2G $7,0 50.0 57.0 S0.0 35 3013 3431 122GbG S7.0 57.0 L0.0 50 I 3G 3070 3401 12272G 57.G 57.0 L8.0 $0.3 37 Il35 3534 12275G 57.0 57.7 57.0 50.2 38 3l00 1500 12202G 57.0 57.0 57.7 57.0 30 3245 3G45 1220SG 40 3307 3705 57.0 S0.2 57.0 50.1 122026 b7.7 57.0 57.0 S3.3 di 3374 3770 1220bG 57.0 57.0 57.0 b0.0 42 3432 3020 12302G S0.0 57.7 43 57.2 SG.G 3408 3000 123056 57.1 57.2 SG.0 bb.G 44 3552 30$0 123126 45 56.4 BG.2 b5.4 tb.4 3GPO 4005 125tSG bb.0 b5.7 65.2 b5.1 4G 3GG5 4065 123226 55.0 47 tb.0 b5.0 $3.0 3720 4120 1232bG 55.2 b5.4 54.0 64.G 40 3776 4175 123326 b5.4 $5.G 40 b5 I bS.G 3830 4231 12535G 5G.1 SG.3 55 0 b3.0
M M THERNAL PLUME OF November 6 1980 INDEx POSITION TIME TEMPERATURE DEC F COORDINATES HHfv1SS I FT 2.5 FT 5 FT 001TDn Sa 3004 4205 12342G 56.2 SG.5 55.1 52.0 51 3037 4330 12345G 56.2 55.7 54.0 51.0 52 3000 430s 12352G 5G.1 55.0 54.5 51.0 53 4030 4445 12355G 55.6 55.G 54.0 51.0 54 4001 4405 123G2G 55.0 55.3 53.4 51.4 55 4843 4540 123G5G 55.3 54.7 S2.5 50.4 56 4105 4500 12372G 54.0 0.0 52.6 50.0 57 4244 4G40 12375G 54.6 0.0 52.0 50.1 50 42D5 4702 12382G $4.6 0.0 $2.5 50.3 SO 4340 4757 12305G 54.3 0.0 52.2 53.2 60 4407 4004 12302G 53.0 0.3 52.7 50.3 GI 4455 4054 12305G 53.0 $3.7 52.G bu.S G2 4400 4005 12402G 53.7 53.9 52.7 50.2 G3 4540 4040 12405G 53.0 0.0 52.4 40.0 G4 4G05 5000 12412G 53.2 53.2 52.1 40.2 G5 4G47 5040 12415G b2.0 0.0 52.4 40.1 GG 4G00 5000 12422G $2.7 b3.4 52.5 40.G G7 473G 5146 42425G 52.G 0.0 52.l 40.G 60 4700 5100 12432G 52.G 0.0 51.0 40.3 60 4030 5245 124356 b2.4 52.5 b2.4 50.3 70 4070 5205 12442G 52.4 $2.2 52.1 50.3 8 75 4022 5330 12445G 52.2 52.3 $2.1 5J.0
@l 72 4071 S305 12452G b2.1 52.1 b2.1 58.4 73 5015 5433 424b5G 52.3 52.1 51.0 bl.a 74 SOGO 5403 124G2G 52.3 S2.2 ??.I 51.7 75 5124 5544 124GbG b2.8 $2.2 62.4 b2.2 7G 5100 5505 12472G 52.2 b2.0 b2.5 52.4 77 5227 SG44 12475G 52.4 52.3 62.3 52.0 70 5270 5G04 12402G 52.4 52.7 52.G b2.1 70 5325 5741 1240bG 52.2 b2.2 52.6 b2.0 00 5371 5700 12402G 52.1 52.1 b2.1 51.0 til 5423 5030 1240SG 52.1 52.1 51.0 St.G D2 54GD 500G 12502G 5l.0 52.2 51.0 51.5 83 SSI4 5030 12505G 51.0 58.0 bl.0 bl.0 04 5544 5D50 12512G b2.0 51.7 bl.7 51.4 85 5524 5035 1251bG 51.0 $2.0 b2.0 bl.3 DG 5404 5007 12522G bl.7 51.0 b2.0 bl.7 87 54G4 6074 1252bG 51.0 bl.0 $1.0 51.4 00 5437 5045 12532G 51.0 0.0 52.4 51.0 00 5410 6024 12555G b2.0 52.0 52.0 51.7 00 5305 5001 12b42G 51.7 52.1 52.1 51.0 01 6350 b760 12545G 51.5 bl.G 51.7 S1.0 02 5317 $71G 12bb2G bl.G bl.7 51.0 bl.7 03 5273 5G70 12655G 51.3 51.3 bl 4 51.0 04 522G SG25 12bC2G 51.3 51.7 bl G bl.7 05 5100 Sb06 12SGbG bl.0 Si 2 51.2 bl.4 OG 5156 5b63 12572G t0.0 bl.2 bl.G bl.G 07 5185 5500 12375G bl.3 51 3 bl.2 51.4 00 5075 5465 12b82G 51.1 51 4 bl 5 51.4
M M - M THERMAL PLUME OF November 6, 1980 INDEx POSITION TINE 1EMPERATURE DEG F CocROINATES Hert1Ss i FT 2.5 FT 5 FT 00TTDM 00 5835 5428 12505G St.4 51.4 St.4 bl.I 100 4004 5370 12bO2G 51.3 51.4 51.4 bl.G tel 4058 5330 12505G 51.6 51.0 bl.G bl.3 102 4015 5300 1300?G 51.4 51.4 51.5 5t.l 103 4800 52G3 13005G 58.4 51.7 51.7 50.5 104 4055 5232 13012G 51.7 51.7 51.4 40.0 105 4032 5200 13015G St.G 0.0 51.0 40.0 10G 4007 SIGO 130226 51.0 0.0 51.7 40.C 107 4775 bl40 13025G 51.5 0.0 St.G 40.0 IDO 4740 5000 130326 51.0 0.0 51.4 40.G 100 4713 50G5 13035G 51.9 51.0 bl.0 40.3 110 4G70 6020 13042G 5l.0 0.0 50.5 40.7 11 4G27 407D 13045G 51.0 b2.2 51.0 40.G 112 4G00 4040 13052G 52.1 52.3 51.3 40.5 113 45G5 4002 13055G 52.0 52.1 51.0 40.G 114 4530 40GO 830G2G $2.1 52.4 52.5 50.1 lib 4404 4017 130G5G 52.4 L2.0 52.G 40.0 IIG 4445 4775 13072G 52.4 52 G S2.3 40 b 117 4410 4740 13075G S2.2 b2.4 bl.0 40.6 IIS 4373 4600 13002G S2.4 53.0 bl.G 50.1 llo 4314 4G41 13005G 52.4 52.7 52.5 b0.0 120 42G5 4600 13002G 52.G 52.0 53.0 b2.0
, 12l 4230 45b0 1300$G 52.0 53.3 53.4 b3.4 o, 122 4100 4b13 131026 53.0 53.b S3.7 53.0 4 123 414G 4466
' 1310bG 53.1 b3.4 53.G S 3. 0 124 4101 4422 13tl2G S2.0 53.3 b3.7 53.0 125 4060 4303 1311bG 52.0 bl.l 53.4 b3.0 12G 4011 4334 13122G 53.0 53.3 b3.4 127 b3.5 3000 4303 13l2SG 52.0 b3.3 53.0 b3.0 620 30G4 4201 13132G 120 b2.0 $3.0 53.4 b3.G 3045 4204 13135G b2.7 51.1 53.3 b3.4 130 3040 4204 13142G 53.3 53.3 b3.G 53.7 131 3011 4200 1314bG 54.0 54.0 132 54.1 b3.G 3060 43l4 131724 b4.7 L4.4 b3.5 S2.G 133 3030 4200 131754 b5.1 0.0 54.G 52.0 134 3020 4204 131024 55.0 0.0 135 55.4 b2.0 3005 4273 131054 b5.0 SG.0 55.0 b3.1 13G 3000 42G1 131024 SG.G 0.0 137 55.7 52.0 3074 4240 131054 SG.2 0.0 55.7 b2.7 130 3057 4235 132024 57.2 0.0 55.0 b3.0 130 304G 4224 132054 57.6 0.0 bG.2 b3.0 140 3020 4211 132124 57.0 0.0 SG 4 52.0 141 3707 4800 132154 50.1 0.0 57.3 S4.G 142 3770 4160 132224 57.0 b7 5 50 1 60 0 143 37GI 4165 132254 57.G 0.0 57.0 b7.0 144 37b7 4lb5 132324 145 3757 57.2 0.0 57.5 57 4 4160 132354 5G.G 0.0 SG.7 BG.5 14G 37G4 4174 132424 55.0 0.0 SG.2 SS.4 147 3700 4107 132454 55.4 00 bb.4 52.0
M M M M M M M THERt1AL Plut1E OF November 6, 1080 POSITION JNDEX TINC TEMPERATURE DEC F CCORDINATES NHritiss 1 FT 2.5 FT 5 FT BOT!0M 148 3701 4214 132524 54.0 0.0 54.3 52.4 34Q 37D3 4220 132554 54.0 0.0 b4.4 52.G ISO 3702 4233 132624 54.8 0.0 54.0 54.1 ISI 3027 4260 132654 0.0 0.0 54.7 54.3 152 38G3 4300 132724 0.0 0.0 54.C 54.4 153 3002 4343 1327b4 0.0 0.0 0.0 54.3 i 154 3Q24 4370 132024 0.0 0.0 D.0 54.0 155 3343 4403 132054 0.0 53.2 0.0 51.6 ISG 3051 441G 132024 53.3 52.0 0.0 51.3 157 3052 4421 132054 52.0 0.0 0.0 50.5 lbo 3047 4420 133024 52.5 0.0 0.0 50.5 150 3020 4300 133054 52.4 bl.4 0.0 50.5 ICO 3005 4375 133824 51.0 0.0 0.0 50.5 , ISI 30G8 4350 135154 S0.5 40.G D.0 50.G 1G2 3033 4317 133224 b3.4 50.2 0.0 51.0 , IG3 3700 4203 133254 50.5 50.4 0.0 51.0 IG4 3704 4200 133324 60.8 bo.1 0.0 60.G I 00 CO 8 1 l i
M M M M M M i TEMPERATURE NEASURENENTS OF November 6, 1080 AT 1, 2.5, AND S FT. LEVELS i 60 - T ] E S0 - i N i P
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- . 58.3 . 57.9 . 57.8 . 55.6 . 52.7 . 51.8 .
2.5 - - 58.6 . 57.9 - 57.8 . 55.6 . 5 3. .I . 51.9 . DEPTH (FT.) 5- . 58.6 . 57.9 . 57.8 . 51.9 . 52.5 . 51.9 . 1 i
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BARNEGAT BAY MILES-Il0* COURSE FROM RIVER MILE MOUTH OF OYSTER CREEK DATE November 6, 1980 STAT 10tl PA R Al.1E T E R S TIME 1210-1337 AT 25.3 sh gree , 1: WIND W at 9 mpli CIRC. FLOW 3-15,000 gia 011.. Fl.OW 520,000 gim
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M"~M WMMM-H-M- - THERMAL PLUME OF December 20. 1980 INDEX POSITION Tine TEMPERATDRE DEG F
. EDORDINATES twinSS 1 FT 2.5 FT 5 FT 00T Tott 1 G63 1448 115705 48.6 41,0 41.8 42.1 .
2 1980 1487 115731 41.4 42.1 42.4 42.0 3 1989 1550 115757 41.0 41.4 44.8 42.0 4 1853 IG20 115023 41.2 gl.1 41.0 48 G 5 1224 1600 115040 41.0 40.0 41.7 41.2 G 1200 1758 195015 40.4 40.0 41.2 41.2 7 1357 1825 195041 40.3 41.0 41.2 41.7 8 1424 1000 120007 41.0 41.6 41.G 42.1 0 1400 1050 122033 41.1 41.3 41.7 41.0 10 1550 2023 120J50 41.2 41.0 41.6 41.4 Il 1614 2005 120l25 41.1 di 2 41.7 41.7 12 IG7G 2143 120161 40.0 48.3 41.G 41.7 13 3750 2201 120287 40.5 41.1 41.0 41.G 14 1707 2257 120243 40.1 40.G 40.0 44.4 15 18Go 2313 120300 40.5 4J.0 41.2 41.G IG 1917 2368 120335 40.0 41 0 41.3 41.4 17 1072 2410 120401 40.0 40.0 41.4 44.4 18 2034 2478 120427 40.G 40.5 41.4 41.2 to 2c05 2548 120453 40.6 40.0 41.3 48.4 20 2155 2G01 120510 40.4 40.8 41.1 41.3 21 2210 2GSG 120545 40.0 40.0 41.0 41.5 22 2260 2785 120Gil 40.2 48.1 41.3 41.0
, 23 2327 2777 920G37 40.4 41.1 44.3 41.0 u) 24 2304 2032 d20703 40.7 41.2 41.4 41.8 Os 25 2443 ' 2000 120720 40.0 41.1 41.4 41.7 2G 2501 204G 120755 40.G 40.0 41.G 48.4 27 25G3 3003 120021 40.7 40.0 41.3 41.4 28 2621 30GO 120047 40.4 41.1 41.2 41.7 20 2G00 3110 120013 40.4 41.1 41.1 41.0 30 2737 3175 120030 40.0 41.2 41.4 41.0 31 2704 3227 121005 40.0 40.0 41.3 41.1 32 2050 3275 12l051 40.G 41 8 48.2 41.4 33 2901 3327 121057 40.5 41.1 48,1 41.0 34 2051 3375 121123 40.8 40.0 48.8 41.4 35 3001 3410 121140 40.G 40.7 41.1 40.0 3G 3055 34G7 121215 40.4 41.0 40.0 48.5 37 3103 3515 121241 40.G 40.0 41.0 38 41.4 31GG 3570 121307 40.0 41.0 41.5 41.5 30 3224 3G20 121333 40.6 41.2 41.0 48.3 40 3205 3G01 121350 41.0 40.7 41.2 40.0 41 3351 3740 121425 40.6 41.0 41.1 48.4 42 3410 3810 121451 40.0 41.0 41.2 41.4 43 3478 3018 128517 40.0 40.0 41.4 41.3 44 3536 3038 121543 40.7 4i 2 0.0 41.4 45 3500 30C0 12tG00 40.0 40 0 41.2 41.2
- 4G 3GG4 40G3 121635 40.5 40.0 47 4I.1 41 I 3723 412h 121701 40.1 40 1 43.2 30.5 40 3778 4170 121727 30.2 37 8 30.7 34 t 40 3033 4235 121753 33.0 34 3 34.1 35.0 1
M - m THERMAL PLUME OF December 29, 1980 INDEW POSITION TINE TEnPERATURE DEG F COORDINATES R#1t1SS I FT 2.5 FT 5 FT DOTTOn 53 3087 4205 121010 32.1 32.1 32.G 32.5 51 3037 4330 121845 35.0 32.0 32.4 32.3 52 3003 4300 121011 31.G 32.0 32.8 32.4 53 3081 4375 121037 31.7 31.6 32.2 12.0 54 3023 4318 122003 31.4 31.0 18.0 32 2 55 10G5 4260 122020 31.0 31.G 32.1 38.0 5G 1881 4202 122055 II.G 38.0 31.0 32.5 57 3753 4143 122128 31.0 31.7 32.5 32.4 50 360G 4000 122147 31.0 32.5 12.4 33.0 50 3642 4033 122213 35.4 35.3 3G.5 36.0 60 3587 3070 122230 30.b 30.7 30.0 30.4 GI 3530 3020 122335 30.7 30.5 3d.0 37.G G2 3400 3003 122331 30.G 30.5 30.0 3G.5 63 1506 3808 122357 36.1 35.3 35.3 33.0 G4 3550 3028 122423 34.3 32.7 33.4 33.D G5 1504 3074 122440 32.7 32.0 33.0 33.1 GG 3G24 4 ell 122515 32.5 32.0 32.0 33.1 G7 3641 4031 122541 32.0 32.0 33.8 33.1 60 3G42 4042 122607 37.3 37.4 37.0 30.1 60 3640 404G 122G33 40.0 40.8 40.2 40.7 70 3G25 4030 122G50 41.0 40.G 41.1 40.0 78 3501 4022 12275I 40.3 40.0 41.0 41.2
, 72 3G00 4043 122G17 40.2 40.7 4J.5 41.2 u) 73 3G3G 4072 122043 40.G 40.0 41.0 41.3 sa 74 3G53 ' 40GG 122000 40.0 40.G 41.0 41.1 75 364G 4002 122035 40.0 40.0 41.2 41.3 7G 3G33 4006 123001 40.5 41.0 41.0 41.4 77 3G43 4104 123027 40.0 40.0 41.0 41.1 70 3G30 4101 123053 48.0 40.0 41.3 41.0 70 3G37 4806 123110 40.7 40.0 4a.0 4D.0 00 3G2G 4100 123145 40.5 40.7 40.7 41.0 01 3 GIG 4007 123211 40.2 40 6 40.4 40.7 02 3G30 4316 123237 40.1 40 I 40.2 40.2 83 3G5G 4148 123303 30.4 30.2 30.5 30.2 04 3G00 4301 123320 30.7 30.4 38.0 30.2 05 3784 4207 123355 37.0 30 0 30.2 37.0 UG 3G00 4128 123G52 38.5 37.2 30.0 37.2 B7 3573 4000 123710 30.0 37.G 30.2 37.5 00 3532 4041 823744 30.5 30.4 30.7 3H.4 00 3401 4002 123010 38.0 30 0 30 0 30.0 00 3448 3050 12303G 30.5 30 2 30.6 30.b 01 3407 3020 123002 40.2 10.7 43.2 30.0 02 3360 3083 123020 40.4 40.0 43.5 40.3 03 3330 3044 123054 43.3 40 4 43.G 40.0 04 32G5 3013 124020 40.4 40 6 40.G 41.0 05 3200 3010 12404G 40.4 40.G 40.G 41.1 OG 3323 3640 124112 40.5 40.3 43.G 40.6 07 3354 3801 124130 40.2 30.0 43.5 40.3 ud 3500 3010 124204 30.5 30.7 30.0 30.G l
THERMAL PLUME OF December 20. 1980 INDEx POSITION Tine TEnPERATURE DEG F COORDINATES HHnnSS I FT 2.5 FT 5 FT EnTTON 00 3427 3050 124230 38.5 30.0 30.0 30.2 Ira 3463 4000 12425G 37.6 37.0 37.0 37.0 101 34G0 4037 124322 36.0 36.7 37.1 37.0 102 3541 4001 124340 3G.I 3G.0 3G.4 36.1 103 3503 4125 124414 35.0 3b.3 35.4 35.5 104 3620 41GQ 124440 34.8 34.5 34.3 34.3 leb 3G70 4214 12450G 32.6 32.6 35.0 22.3 lug 3700 4257 124532 32.1 31.0 32.5 32.2 107 3725 4273 124b50 32.0 32.3 32.6 32.0 100 3G05 4237 124624 32.0 32.3 32.3 33.0 100 3644 4107 124G50 32.5 32.0 32.6 32.5 110 3601 4156 12471G 31.0 31.0 32.7 32.5 lli 35bG 4I12 124742 32.2 32.6 32.0 33.4 112 3500 40GO 124000 33.5 33.G 34.1 34.4 113 3464 4025 124034 35.0 34.7 35.5 35.5 114 3423 3005 124000 35.b 35.G 3G.0 3G.I 145 3377 3943 12402G 3G.1 36.G 3G.6 3G.O IIG 3334 3G04 124G52 3G.O 3G.0 37.2 37.5 117 3203 30G3 125010 37.0 37.5 30.2 30.0 110 32GI 3032 125044 30.3 30.4 30.0 30.0 llO 3210 3702 125110 30.7 30.0 30.0 30.6 120 3174 3740 12513G 30.0 30.8 30.4 30.7 121 3120 3706 125202 30.3 30.0 30.7 30.7 e 122 30GG 3S60 125220 30.3 30.5 30.7 30.0 gj 123 3043 3GIS 125254 30.0 30.6 30.G 40.1 e 124 2000 3b72 I?5320 30.6 30.4 30.0 37.2 125 3004 3572 12554G 30.0 30.5 40.3 30.1 126 3043 3G22 125412 30.5 30.6 30.0 30.0 , 127 3080 3GGS 1254311 30.3 30.7 30.G 40.0 120 3l14 3600 12S504 30.0 30.2 30.3 30.G 820 3150 3741 12553D 30.0 30.7 30.2 30.1
, 130 3100 3741 12555G 30.6 30.7 30.2 30.2 131 3243 3827 12bG22 30.6 30.0 30.1 30.5 132 3201 30CG 12tG40 30.5 30.0 30.0 30.5 133 3264 3058 125714 30.4 30.5 30.0 30.0 134 3226 3015 125740 30.G 30.5 30.5 30.1 135 3210 3818 12500G 30.4 30,7 30.0 30.2 13G 3237 3331 125032 30.I 30.7 30.0 30.2 137 3272 30G4 125050 30.3 30.3 30 7 38.0 130 3315 3000 125024 30.4 30.3 30.0 30.0 130 3362 30b7 126050 30.3 30.4 30.0 30.7 140 3415 4013 1300lG 37.6 30.0 30.3 30.3 141 3472 40GQ 130042 37 0 37.G 37.6 37.0 142 3525 4824 130l00 IG G 3G.O 37 0 37.5 143 3570 4100 33c134 3G I 3G.I 3G.7 3G,G I44 3G35 4235 13C2c0 35.5 35.5 3G.I 36.0 145 3GG3 4202 13022G 34.7 35.3 35.3 35 G I4S 374C 4340 1302b2 33.8 34.3 34.4 34 e 147 3703 43GG 130310 33.4 33.4 34.I 13.0
g - m M M M M M THERMAL PLUME OF December 29, 1000 INDEX POSIT!DN TIME TEMPERATDRE DEG F C0 ORDINATES HHf1NSS I FT 2.5 F T 5 FT DOTTCn 140 303G 4448 130344 32.0 33.0 33.0 33.5 140 3070 4407 130410 32.5 32.0 33.1 33.3 150 3034 4541 13343G 31.0 32.G 32.0 33.1 153 3000 4500 130502 31.7 32.3 32.5 32.0 852 3003 4601 130520 38.0 32.1 32.5 32.7 153 30G0 4573 130554 32.2 32.5 32.0 33.0 154 3027 4541 130620 32.5 32.7 33.3 33.4 155 3000 4503 13DG4G 33.0 33.3 33.0 34.1 156 3040 44G4 130712 33.5 34.0 34.3 34.7 157 3000 4425 130730 34.0 34.7 35.0 35.4 150 37G5 4305 130004 34.3 35.4 35.0 3G.2 lbo 1723 4344 13D030 35.0 3G.3 3G.0 37.0 IGO 3608 4301 130056 3G.O 37.1 37.7 37.0 161 1640 42G4 130022 37.2 37.3 38.5 30.1 IG2 3610 4240 130040 37.7 37.G 30.5 30.5 . IG3 3643 42GQ 131014 30.4 30.1 30.7 30.0 IG4 0 0 131040 30.8 30.8 30.4 30.0 165 0 0 13110G 37.2 37.7 37.7 30.3 IGG 0 0 13l132 3G.7 37.2 37.3 37.7 IG7 0 0 138150 3G.2 3G.7 3G.0 37.0 IGO O O 138224 35.5 15.0 3G.2 3G.2 ISO O O 631433 33.0 34.0 34.4 34.2
, 170 0 0 131450 33.3 33.G 33.7 33.0 .o 171 0 0 131525 32.0 33.4 33.3 33.G e 172 0 0 1315bt 32.G 32.0 32.0 ' 33.2 173 0 0 131Gl7 32.2 32.3 32.7 32.0 174 0 0 131G43 32.1 32.0 32.G 32.C 175 0 0 131700 32.2 31.0 32.G 32.4 17G 0 0 131735 32.0 31.0 32.G 32.2 177 0 0 1310JI 31.0 38.0 32.b 32.5 170 0 0 131027 31.0 32.1 32.5 32.G 170 0 0 131853 32.0 32 2 32.7 32.0 100 0 0 131010 32.0 32.4 32.5 33.1 101 0 0 131045 32.3 32.5 32.0 33.8 102 0 0 132011 32.7 32.5 33.4 33.4 183 0 0 132037 33.0 33.2 33.G 33.7 104 0 0 132103 33.4 33.0 34.2 34.0 105 0 0 132120 34.G 34.5 35.? .5.2 10G 0 0 132155 35.1 35.2 35.0 3S.0 107 0 0 132221 3G.0 3G.4 3G.4 3u.0 100 0 0 132247 37.0 3G.0 37.G 37.G 100 0 0 1323l3 37.G 37.G 30.1 33.2 IGO D 0 132330 37.7 30.0 37.0 30.6 lol 0 0 132405 37.0 37 0 30.4 30.5 102 0 0 132431 30.0 30.0 30.G 30.G 103 0 0 132457 37,6 33.3 30.3 3a 7 i 104 0 0 132523 37.0 37.7 30.8 30.2 105 0 0 132540 37.0 37,G 3a.1 30.0 10G 0 0 132G15 37.1 37.G 37.7 30.0
W W W W W M THERMAL PLUME OF December 20. 1000 thCE3 PDSITICH TIME TENPERAIDRE DEG F CODRDINATES HHMNSS l F1 2.5 FT 5 FT 00TTon 107 0 0 132643 37.8 37.2 37.7 37.8 100 0 0 132700 37.1 37.5 37.0 37.6 Igg 3 0 132734 3G.7 37.1 37.2 37.G 2c0 0 0 132800 36.6 36.G 37.2 37.2 201 0 0 13202G 36.1 3G.5 3G.0 37.0 202 0 0 132852 3G 0 35.0 3G G 3G.5 203 0 0 132010 35.5 3G.0 36.2 3G.S 204 0 0 132044 35.G 15.G 36.3 3G.I 205 0 0 133010 35.3 35.0 35.0 3G.2 20G 0 0 13303G 35.3 35.2 35.0 35.G 207 0 0 133102 34.7 35.0 35.4 35.6 200 0 0 133120 34.3 34 G 34.0 35.0 200 0 0 133154 33.7 33.7 34.4 34.2 210 0 0 133220 33.0 33.6 33.6 33.0 211 0 0 13324G 33.0 32.0 35.4 33.3 232 0 0 133512 32.5 32.0 33.0 33.5 283 0 0 133330 32.2 32.3 32.7 32.0 214 0 0 133404 31.0 32.1 32.5 32.6 215 0 0 133430 31.G 31.0 32.2 32.4 21G B B 13345G 31.0 31.9 32.4 52.5
- d. 217 0 0 153522 32.2 32.3 32.0 33.0 c3 210 0 0 133540 c> 210 32.7 32.6 33.2 33.1
' 0 0 133G14 32.4 33.0 33.1 33.6 2?O O O 133G40 225 0 0 32.7 32.0 33.2 33.3 13370G 33.1 32.0 33.5 33.2 222 0 0 133732 33.1 33.2 33.G 33.7 223 0 0 133750 33.3 35.0 34.1 34.5 224 0 0 833024 225 0 0 34.3 34.3 34.7 34.0 133050 35.1 34.7 35.3 35.3 2?G 0 0 1330lG 35.3 34.0 227 35.5 35.4 0 0 133042 35.2 35.2 35.G 35.7 228 0 0 1340D0 220 0 0 35.4 35.0 35.7 3G.I 134034 3G.0 3G.1 3G.3 3G.7 230 0 0 154103 36.7 36.G 37.8 231 37.2 0 0 13412G 37.3 37.1 37.7 57.5 232 0 0 1341b2 37.2 37.1 37.5 233 0 37.3 0 134210 3G.D 37.1 37.5 37.5 234 0 0 134244 36.4 3G.O 235 37.0 37.1 0 0 134310 35.6 3G.I 3G.0 3G.2 23G 0 0 13433G 237 0 0 34.0 35.3 35.3 35.C 134402 34.5 34.7 35.0 35.I 230 0 0 134420 34.3 34.3 230 34.6 14.0 0 0 134454 33.G 33.7 34.8 34.4 240 0 0 134520 33.6 33.7 34.1 241 34.3 0 0 13454G 33.1 33.6 33.7 34.I 242 0 0 134GI2 32.0 33.4 33.5 243 33.0 0 0 134G30 32.0 33.3 33.5 34.0 244 0 0 134704 32.G 33.I 245 33 I 33.5 0 0 134730 32.2 32.7 32.0 33.3
_g g THERMAL PLUME OF December 20, 1980 INDEX POSITION TINE TENPERATURE DEG F COORDINATES HHtir1SS 1 FT 2.5 FT 5 FT BOTTOM 246 0 0 13475G 31.7 32.4 32.8 32.7 247 0 0 134022 31.5 31.7 32.2 32.2 248 0 0 134048 31.4 31.5 32.2 32.2 240 0 0 134014 31.4 31.4 32.2 32.0 250 0 0 134040 31.6 38.G 32.5 32.4 251 0 0 13500G 31.7 31.0 32.3 32.0 252 0 0 135032 31.7 32.0 32.5 32.5 253 0 0 135050 32.0 31.7 32.7 32.C 2b4 0 0 135124 32.0 32.2 32.6 32.0 255 0 3 135l50 32.3 32.5 33.1 33.1 25G 0 0 135216 33.1 33.0 33.5 33.7 257 0 0 155242 33.2 33.5 33.0 34.2 250 0 0 135308 34.2 34.0 34.5 34.7 250 0 0 135334 34.0 34.4 34.8 34.0 260 0 0 135400 34.G 34.7 35.0 35.4 2Gl 0 0 13642G 34.7 34.G 35.4 35.5 262 0 0 135452 35.3 35.G 35.0 36.2 2G3 0 0 135510 35.0 36.0 3G.3 3G.7 264 0 0 135544 35.0 3G.I 3G.3 3G.G
, 265 0 0 135Gl0 35.8 35.8 3G.I 3G.2 -- 2GG B 0 135G3G 34.4 34.2 34.7 33.0 C3 2G7 0 0 135702 31.0 32.2 33.3 32.3 e 2G0 0 0 135720 20.0 31.7 38.5 32.5 260 0 0 135754 20.7 32.3 30.5 32.1 270 0 0 135020 30.0 32.0 30.G 31.C 1 271 0 0 13534G 30.3 32.5 3*J.7 31.0 j 272 0 0 135012 31.0 32.7 32.7 31.0 4
M ' EM - M M TEMPERATURE MEASUREMENTS OF December 20, 1000 i AT 1, 2.5, AND 5 FT. LEVELS 43 - T
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OYS1ER CREEn 1HERMAL PLunE Decemoer 29, 1983 N ' o 4itsO FRDn hkE At iO ttPH g , / An81ENT BAY TEt1P. 12.5 DEG F
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2.5 - - 41.1 - 41.1 . 41.0 31.7 . . . DEPTH ( F T.) 5- . 41.0 . 41.2 . 41.2 32.5 . . - I o- . 2' '~~_.- BATHYMETRIC ', ---- DEPTH io _-- ,,, "~~~_.. ' '
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-108-
l l l l 1 l I 4.3 Hydrograah ic Studv 4.3.1 Introduction The CCETS Hydrographic Study requires an annual bathymetric survey o+ Oyster Creek to determine tne extent of shoaling. The survey w s conducted in May 1980, 15 months after maintenance dredging was completed in Oyster Creek. This re:crt provices an expianation of data collection and reduction methods and presents the data on tables and figures containing a comparison of the bathymetry of the present survey using the 1979 AEOR data as baseline. 4.3.2 Methods A. Staticn Locations In 1969, bathymetric survey stations sere set up in Oyster Creek from U.S. Route 9 east to 3arnegat Bay (Figures 4-1 taru 4-5). The station numbers correspond I to the distance, in hundreds of feet, east of the U.S. Route 9 bridge. All station survey narkers are north of Oyster Creek and soundings are taken from nortn to soutn.
- 8. Field instruments and Techniaues I
As described in Jersey Central Power & Light Environmental Af f airs Department Precedure 105 Revision 0, and Procedure 204 Revision 0, the following equiment is used:
- 1) Metal Plate attached to a rope er rod marked of f in equal and known lengths.
- 2) Raytheon Portable Echo Sounding Survey Recorder and probe.
- 3) Small boat.
- 4) Raytheon Portable Echo Sounding Survey Recorder.
- 5) Hewlett-Packard 3805-A Distance Measuring Device.
l 6) Surveying Equipment. The Raytheon Portable Echo Sounding Survey Recorder has l g a depth accuracy of 2.5 cm (1.0 inch) + 0.5%. The Hewlett- ! E Packard 3805-A Distance Measuring Device is accurate to I within 0.15 meter (0.5 foot) and has a range of 10Km (6.25 miles). After the instruments are calibrated, a transit is used in conjunction with the basellne monument for the particular station being surveyed to produce 6n accurate water elevation at the time of the survey. The distance across the water
- surface to the far shore is then measured and cross-sectioned. As the boat is pulled across the water, I the fathometer measures the depth. Upon reaching the far shore point, the boat is turned around and the survey is repeated. Water elevation is measured before and after each
-109-
I I survey. C. Cata Reduction Data analysis proceeds in two steps: I
- 1) Raw data is plotted fcr each survey station.
- 2) The plots are digitized by using a Te<tronix Grapnics input Tabfet.
The digitized data can be analyzed fcr scouring and shoaling when ecmpared to 1979 baseline data. I The accuracy of the digitizing was octained by inputting ten consecutive cata points of tne sama spot. summarizes the results: Tne following x-direction (ft.) y-direction (ft.) Average .0246 .316 Median .0246 .301 Std. Deviation .020 .1105 Computer generated results will oe accurate to hundredths' of a fcct in depth. Figures 4-6 to 4-46 are the computer graphical and tabular output. On the top graph of each figure, elevations are shown in feet with zero as the local Mean Low Water Level whien is 15.05 feet a:ove tne I National Geodetic Mean Sea Level at Sandy Hook (1929). All profiles are surveyed from north to south and therefore, the graph has north to the left. The second graph shows filling I or scouring. The y-axis of this graph is also in feet. The data is tabulated at the bottem of the page so that comparisons can be accurately made. Due to tne dredging I operations, the 1979 data will be used as a baseline. Data from the tour residential lagoons near the mouth of Oyster Creek is presented as plan sections since only three points are measured per section in each lagoon. 4.3.3 Data Analaysis and Discussion Figured and tabulated bathymetric data from Oyster Creek are presented in Figures 4-6 to 4-46. Figures 4-47 thru 4-49 show the data from the four residential Iagoons. AII sections show the main channel with depths between 9 and 13 feet below mean low water. Side navigation channels are shown approximately 5 feet beiow mean low water. Sections 1 through 21 have at:. average stream width of 300 feet with a channel bottom width of 130 feet The submerged channel banks are generally sloped 1:2. Sections 23 to 52 constitute the widest part of Oyster Creek and include many of the side channels. Side channels were dredged I to 5 teet. Main channel bottom width rarges from 100 teet to 110 feet, while stream width ranges from 300 feet to 1000 feet. I
.m.
I ' Esc? ions 53 cut 70 3ar.egar Saf in:!;ce 9e fcur 23r lagoons in Oyster Creek. Channel wictn averagad 110 feet anc depin 10 feet. Figure 4-43 clearly shc.<s that the four lacocns ~ are navigable with deptn similar to the main channel, f r om 6 f eet to 15 feet. Comparison of 1930 data witn 1979 data for the Oyster Creek discharge canal shows a general trend of very slight to no sedimentation. Channel maintenance in the four lagoons featured on figures 4-47 to 4-49 is tabulated below. In all four lagoons, navigable depths of 6 feet or greater are present. Leccon Statistics Lagoon flame f4ax. 'iax. OveralI C4est to East) scour f1Ii avarage i Venice -1.5 3.5 .35 Sar.abelle -3.0 +1.5 .10 Buccaneer -1.2 +2.6 43 Privateer -1.7 +1.1 -1.23 r
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Oyster Creek Cross Section Location Map I
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FEET FEE 1' FEET FEET F EE1 FEET FLE1 FI E1 IEET FLET Fi f i FLLI S 4.0 3.6 130 -11.0 -10.0 .10 2tD -l.0 -1.0 .01 IS 4.3 3.8 140 -18 6 -10.0 .23 2t3 -I.I -I.? .II 20 3.7 3.7 150 -19.5 -il.b 52 ?>a .6 -I 8 .l?
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Figure 4-49 h I .160-N __ . _ _ _ _ _ . _ , . ,. . _ _ _ _ .- . - . _ . . ~ . . _ - - - _ , _ - - . - . _ , . . - - - - . - . - - . . . . _ - - _ _ . _ - - _ _ . . . _ _ , . -
I i l l 4 . *. Ononical :elaase Inve,Ter, Tne f ollo.ving is a summary cf tnora c unical s cisenarged b y CCI.GS 70 ine aaua?ic envircnment :cring t*e re;;rtim; ceric:. As per the WTO, chemicals used in station laboratories a e excluded. Scme chemicals are discharged in quantities and frequencies otner Than inat reacrtec in Tne Os,:.G5 Final Environment 36 State-nent (FES). In those cases where tre re:crted quant!?ies or frequencies are exceeded, er unlisted chemicals are discherged, no significant adverse environmental imp acts have been noted cr ere expected. In generel, most of the cnemicals will not ce :iscnarge: in the form in which they tire acced as chemical reacticos will Take place during their .esidence time in the various s/ stems. Chlorine The average amount of cnicrine used at tre OTGS on cays of chicrination during the repcrt period was abcut 21) !35., w!?h 22 lbs. per day being the maximum daily discharge allowed by tne M DES Permit issued to tne OCNGS by the U.S. Environ ental ProtecTicn Agency. Although most of this chicrine is used in the main condenser cooling sys+em, some is injected in+c the turbine building closed ccoling water (TECCA) and rea:tcr building closed cooling water (33CCW) systems heat exchanger flows and Tne emergency service water system heat exchanger ficw. Pegarding the main condenser, each of the six condenser sections is secuentially I chlorinated for 20 minutes every four hours when chlorination is necessary. Thus, chlorine can be releas d fcr 12 of every 24 hours with two hours of no discharge between releases. All chlorinated water is discharged to the station's discharge canal . The Oyster Creek FES values for the quantity of chlorine added (up to 2000 lbs per day) and duration of chlcrine addition (3.5 hours of every 4) are higher than those in use during the reporting period (see FES, Section 3.6). I Although chlorine may be added to the cooling water flow of the liquid radwaste/ augmented of fgas treatment system for control of organismic growth on the heat exchanger piping, none has been added to date. The planned chlorine dosage is approximate!y 25 pounds per day to be added during four periods. Each period will last about 20 minutes with approximately six hours between the start of each dose. Due to the low dosage, no adverse environmental impacts are expected from this chemical . The potential for the use of this chemical at this f acility was not identitled in the FES since this system was installed af ter the FES was issued. Chlorine (Sodium hypochlorite) I
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1 I I Scdien hyccchlcrite is adde: To he seaage treatmen+ clant effluent continuously at the rate of accur 20 lbs per montn, or f I 0.57 las per day. The sewage trearment plant effl;ent is discharged to The station's discharge canal via a 30-inch diameter discharge pipe. A small amount of tnis chemical is used to purity station domestic water. Some of this treated water will be discharged (mostly via sewage system), so a smell amount of chtcrides will be added to tne discherge S this way. The FES includes an average value of 1.5 mg/l total residual chlorine for the discharge of this chemical frcm tne seaage treatment plant. Since the purpose of this addition is to kill pathogenic organisms, and this acdition is required by The treatment clant's license to oper:.te (required range is 1.0-2.5 mg/1), and in view of its very low concentration in the 30-inch discharge water pipe, no adverse environmental impacts bave been noted or are expected. Sulf uric Acid Sulfuric acid is used for the recenerations of the makeup water and condensate demineralizers and in the reduaste treatment system. However, only the wastewater from the makeup demineralizer regenerations is discharged to the environment. The wastes fren I the condensate demineralizer regenerations and the redweste treatment system become part of the radwaste that is shipped in casks for offsits burial. The quantity of sul furic acid discharged to the environment is approximately 175 gallons per month, whic1 is less than that discussed in the FES. The acid released by tne regenerations is I diluted by several hundred gallons of wastewater in a sump prior to its release to a 30-inch diameter discharge pipe. This pipe also rece'ves several other flows, primarily the R3CCW heat exchanger I flow, which is a constant flow of either 6,000 or 12,000 gpm of intake canal water depending on whether one or both pumps are operating. This P3CCW heat exchanger flow ensures suffleient dilution of the sulfuric acid so that it should have no significant int luence on the discharge canal . In addition, chemical reactions take place while the dilution occurs, thus the discharge to the environmer.t is not 175 gallons of pure acid. The products of these I reactions should be various sulfate compounds that will be formed while mixing with the salt water from the RBCCW heat exchanger f low. The additional sulfates should not be detectable over the ambient concentration in the salt water. Codium Hydroxide (IIquid) I Liquid sodium hydroxide is also used for the regenerations of the makeup water and condensate demineralizers and in the radwaste treatment system. j 5 -162-
I I The .<asTas frcm tne COncensare cemineral iner regener 3-icns and the radwaste treatment system become part of tne rad aste inat is snipped in casks for offsite bur'al, so onl / ine ~aste-w a ter f rcm the mkeup deminerall:er re';eneration is discnarged to the env ircnnent . The quantity of caustic discharged to the environment is approximately 380 gall 0ns per menth which is less then tnat discussed in the FES. As with the sulfuric acid used in this prccess as descriDed above, the caustic is further diluted first in a samp, tnen by the RBCCW heat exchanger flow, prior to its discharge to the environment. Similarly, it should have no significant impact on the disenarge canal. Instead of additional sulfates, the caustic will add sodium to the environment. When compared to ambient concentrations in the salt water of the RECCW heat exchanger flow, the addition should be undetectable. Auxiilary boiler edditives Flaked sodium hycroxide, tri-sodium phospnate and sodium I sulfite are added to the auxiliary (heating) Doller on a daily basis at the rate of about one pound per day per chemical. There is a boiler blowco n that occurs three times per cay (once per shift) for five minutes nach time. The total quantity of aloa-down, which is approximately 2250 gallons per day, 10 discharged to the station's discharge canal via the 30-inch diameter I discharge pipe discussed above for sa! furic acid and liquid caustic. The quantity of chemical added is about four times that , listed in the FES. However, the dilutloa obtained in the 30-inch water Iine frcm the RSCCW heat exchanger flow and other flows should ensure that there is no significant environmental impact from the additional amount added to the auxiliary boiler. Hydrazine ( Amerzine) Hydrazine (Amerzine) is used for corrosion control in the station's closed cooling water systems, such as the RSCCW and TBCCW, since the cooling water in each system is recycled. Each I of the closed cooling water systems is, in turn, ccoled by its own heat exchanger system, which usos intake wate- in a once-through cooling mode before discharging the flow to the discharge canal. Although these closed cooling water systems are not designed to have a discharge, some minor system leakage does occur. Any leakage that may occur would be released into the associated heat exchanger cooling flow. The total leakage is small enough that the OCNGS needs to add only about 5-10 gallons of hydrazine per month in order to compensate for the quantity leaked. The release of this chemical was not discussed in the FES.
-163-
i 1 i l l In the case of rne TSC0a, ine neat exchanger cco.ing f!c,. l is 10,^00 gpm en a constant basis, an ccmbines witn the main concenser cooling ficw of un to 450,000 gpm prior to cischarge ta the environnent. The RSCOi heat exchanger f!cw is either 6,000 cr 12,000 gpn on a constant basis, cepending en ho.4 nany pumps are operating. Therefore, due to the dilution encountered, the hydrazine lost from the various closed ccollng water syste s should be undetectable in tne station's discharges. There has been no i evidence of an adverse envircoment impact resulting from the reicase of hydrazine. lI I I . I l I -164-
- - - _ _ _ _ . . - _ _ . - _..__._-. .- . - _ - - . . _ _ - __ _ = ._ .--. _ - . _ _ . . _ . _ _ _ ___ . _ _ __ - - - - _
I Tecle 4-6
' Chemir?! Usace Chemical System Released Frcm Amount Released
- 1 ghlorine *1ain Condenser 16,003 lbs. i whicr,ine (Sodium Hypoca torite) Sewage Treatment 250 lbs.
I SeIturic Actd Sodlum Hydroxide (IIquid) Sol dun Hydrocixe (flake) Demineralizer Dem i ner a l ! *-r Auxillary Boiler (Heating) 2,070 ga!. 4,550 gal. 330 los. Tri-Sodlun Phosphate I Sodium Sul tite Amerzine Auxiliary Boiler (Mo ting) Auxiliary Boller (Heating) Closed Cooling dater Systems 353 'ts. 350 tos. 120 gal. I
- Amount released during reporting period (1/1/80-12/31/80) i I
- I e ,
I - I I i .I
- I 1
l ' -165-
. - - - . - -e _ - _ _ _ _ - _ _ _ . , _ . , , , _ , _ , , _
I Tao 1e 4-7 l Chemical Discharge Frecuency Chemical Frecuencv of Discharge Duration of Each Discharge Chlorine 6 per day 1 2 hours Chlorine (Sodium Hypochlorite) continuous continuous I Chlorine (Raduaste) Sulturic Acid Sodium Hydroxide 4 per day 2 9 per month
- 9 per month
- 20 minutes 30 minutes 1 hour I Sodium Hydroxide (flake)
Trl-sodiua phosphate Sodium Sulfite 3 per day 3 per day 3 per day 5 minutes 5 minutes 5 minutes i Amerzine randon random 1 frequency during days of chlorination; however, station condenser is not chlorinated every day. 2 Not used to dats 3 Average l l I I t I I l
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I 4.5 Unusual er I crta-t Envircrental E vents I There were five inci:ents at CCI.G3 this reccrting period wnich can be considered unusual cr im;crTant environmental events, per section 4.5 of OCET5. i The first event occurred on Januar y 5, 1980. On ther cate OC :G3 shui cown for maintenance anc ref ueling. As a result cf this chutcown, a fish <iit of an estimate'] 5790 fish cccurrec. Species included were Menha. den, Eluefish, Wea:< fish, Spot and Scup. This incident was repcrted as a ilenroutine Environmental Operating Report (Section 5.1 Report
!! umber 50-219/80-1 ) . "cre intccmetion en this incident I can be found in section 5.1 of this AEOR.
Tne second event cccurrec cn July 20, 1963. On tnet ce*e I dilution pump l-3 tripped out of service while pumps 1-1 and 1-2 were being repaired. A fisn'< i l l of approx imatel y 340 crgan i sms occurred as a result of thermal shock. These incluced Sluefish, Oyster tcad, Tautog, I and Striped bass. Tnis incident was reported as a lenroutine Environ ental Operating Report (Section 5.1 Recort Number 50-219/30-3) as recuired by CCET3. More information en this incident can be found in section 5.1 of this AECR. The third event occurred on Oc?ccer 26, 1980. I An impingement of blue crab occurred on the trash recks and Ristroph Travelling Screens as a result cf an intense storm the previous day which churned up debris. Approximately 10,000 St ue crab were involved. I The incident was reported as a Nonroutine Environmental Operating Report (Section 5.1 Reper- flumber 50-219/80-9) as required by GCETS. More information en tnis incicent can be found in section 5.1 of this AECR. The fourth event occurred on flovember 18, 1980. A fishkill occurred in Oyster Creek consisting of 75-100 Bluerunner. This incident was reported as a Nonroutine Environmental Operating Report (Section 5.1 Report Number 50-219/80-11). More information on this ir.cident can be found in section 5.1 of this AEOR. The fif th even t occurred on flovember 28, 1980. I On that date a fishkill occurred as a result of dilution pumps being turned of f during a shutdown. The temperature of the discharge canal was lowered and approximately 4700 fish were killed, including; Blue run'ner, Crevalle jack, BIuefIsh, Smooth dogf Ish, Lady f Ish, Northern kingfish, Gray snapper, American eel, and Mojarra. This incident was reported as a Nonroutine Environmental Operating Report (Section 5.1 Report Number 50-219/80-12). More information on this incident can be found in section 5.1 of this AEOR.
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I 5.0 ADD I T I Csu I N FOWAT I C'i i This section of the AEOR is inctuced in crder to repcet any additional inf ormation that is required. I Section 3.6.1 of the CCETS requires a summary or:
- a. Ali CCETS nonccmpilances and the corrective acticn taken to remedy them.
- b. Changes made to state and federal permits and certificates which pertain to the requirements of the CCETS.
- c. Changes in station design which could involve an environmental impact.
- d. Changes to CCETS.
5.1 Summarv of CCETS Noncomoliences During the reporting period there were 13 Nonroutine Environmental Operating Reports filed with the NRC. Each one is summarized below. A. Repcrt No. 50-219/30-1 Date and Time of Occurrence: Approxiaately 0236 to 15u0 I hours, on January 5, 1950.
Description:
On January 4, 1920 OCNGS began a controlled reactor shutdown consistent with CCETS condition 2.1.5. At apprcximately 2300 hours the plant went below 70f. power and the two operating dilutien pumps were taken out of service. At 0033 hours on January 5, 1980 one circulating water pump was taken out of service, leaving three running. At approximately 0225 hours CCNGS went off line. I Water temperatures at 0300 hours on January 5,1980 were as f ollows: location Temoerature F (,C) Intake 34.9 (1.6) Discharge 41.6 (5.3) Route 9 Bridge 45.9 (7.7) At approximately 0236 hours stressed Bluefish and Weakfish surfaced in the area between the circulating and dilution purp discharges. After 0420 hours Atlantic menhaden began showing stress and by 0700 hours they were dying in Oyster Creek and accumulating on the banks. Beach surveys conducted between 1230 and 1500 hours on January 5, 1980 revealed the majority I of dead fish were in the vicinity of the Route 9 Bridge. Little additional mortality was observed.
-168-
I I The folloaing is a surmary of estimatec ccrtalities by scecies as of January 7, 1960. Scecies E stimated "crtal ity Mennacen 5000 Bluefish 700 Weaktish 60 Spot 20 Scup 10 A subsequent survey en January 8, 1980 by USNRO scientists indicated additional mortalities of the above I mentioned species. The !ccaticns of the additional dead fish were: the botten of the fou-resicential lagoons, the vicinity of U.S. Rcute 9, the ncrth bank east of the former marinas, Barnegat Bay's shore betaeen Bay Parkaay and tne eastern mosquito diten in Oyster Creek. I Ccerective Action: Since ro further mortality was expected on tne effecte species and no othe species appeared stressed; no corrective action was taken. B. Report No. 50-219/80-2 Date and Time of Occurrence: 2316 hours on November 25 to 0903 November 25-26, 1979.
Description:
A reacter scram occurred at 1703 hours on November 23, 1979. At this time intake nater temperature was 56.9 F. Dilution pumps 1-1 and 1-2 .ere operating. Both pumps were shut down 127 minutes following tne scram. Reactor startup commenced November 25, 1979 with the reactor achieving criticality at 0553 hours. Dilution pump 1-1 was started at 0056 hours. At 2316 I hours on November 26, 1979 the reactor was put into the run mode. At 0903 hoJrs on November 26, 1979 dilution pump 1-2 was started. During the tima frame from 2316 hours on November 25 to 0903 hours on November 26 the l , I Intake temperature did not rise above 56.1 F. Corrective Action: Plant reactor startup procedures will be revised to incorporate eriteria governing diiution pump operation as per OCETS Appendix "B" Section 2.1.4. l C. Report No. 50-219/80-3 l Date and Time of Occurrence: 0630 hours on July 20, 1980. l
Description:
Reactor startup commenced at 1040 hours on July 19, i 1980. Three circulating ' pumps (1-1,1-3 and 1-4) er d ! dilution pump (1-3) were operating. As the startup progressed, need for a second dilution pump was identified and pump (1-2) was tested and found I nonfunctional. At 1545 hours Dilution pump 1 0 was tested and found nonfunctional. The turbine generator was placed on line at 2010 hours. Reactor power was increased on July 20, 1980. At 0630 hours the Route 9
-169-
I 0 F, 3r i cge tem: era *ure was 37.1 at 09CO hours it ses 87.9 C F and a nonccmpliance was recognizec. During the non-cceplying discharge at 1305 ocurs on July 21, 1950 dilution pump 1-3 tripped due to a plugge: cccling water filter .. n i c h caused a hign lubricating cil alarm to trip the pump. The pump was off 1 hour anc 9 I minutes. At apprcximatel y 1500 hours dead fish were seen at the Route 9 bridge. These included 151 Bluefish, 110 Cyster toad, 36 Tautcg and 13 Stripec bass. Ccrrective action: Pumps 1-1 and 1-2 were shipped of f site for repairs which were scheduled to take 3 to 8 days. Every ef fcrt was made to keep ciiuton pump 1-3 in service. An engine 2 ring I evaluation is in progress to examine and upgrade cilution pump sealing, cooling and lubricating systen. D. Report No. 50-219/30-2 Date and Time of Occurrence: 1952 hours July 27, 1933 to 2354 hours July 29,1960 I
Description:
Curing the sequence of events, dilution pump 1-2 was taggec cut of service due to motor einding failure. Seven cilution trips cccurred cn July 27, July 28, and July 29, 1980. All seven pump trips were l caused by high lubricating oil temperature which was caused by low cooling water l pressure. The lubricating oil temperature j would increase to the system trip point l and trip the pump. This condition was j aggravated by high ambient water and air i temperatures. The accompanying table number 5.1 lists the dates and the times of the pump trips, the total time the pump was off, and the time of noncomplying discharge. Corrective Action: The plant operations staff increased surveillance on the dilution plant during this period. When dilution pump 1-1 tripped, greater than 15 minutes was needed to allos the lubricating oil to coof sufficiently I to restart the pump. Dilution pump 1-2 was returned to the I site and the motor was mounted on its pedestal on July 30, 1980. Subsequent to pump startup tests, this pump will be held as a reserve
-170-
I I Table 3.1 Dilution Pump Trips .Jul:, 19S0 Time Time Total Time Time of Dre Off On Off NonComoliance July 27, 1980 1932 2042 30 minutes 33 minutes July 27, 1930 2334 July 23, 1980 0001 27 minutes 12 minutes Jitty 23, 19S0 0922 1940 613 minutes 603 minutes July 2S, 1930 2047 2114 27 minutes 12 minutes I 1407 1432~ 25 minutes 10 minutes i l l July 29, 1980 July 29, 1980 2102 2129 27 minutes 12 minutes I July 29, 1980 2315 2354 39 minutes 24 minutes I
-171-I . _ . . ~ _ . . . _ _ _ _ _ _ _ _ _ _ . . _ . _ _ _ . . _ _ _ _ . . . . . . , . . _ _ _ _ _ _ _ . _ . _ _ _ _ . _ _ _ . _ _ _ _ _ . . . . . . _ _ . . _ _ _ _ . _ _ . _ _ _ _ _ _ _ . _ _ _ _ . _ - .
pump. An engineering evaluation has been completed for tne purpose of upgracing the dilution pucp sealing water, and cooling water systems. Until modifications can be made, the internal s of tne cool ing water solenci o I valves have been removed to increase flow of cooling water to the lube oiI heat exchangers. E. Report No. 50-219/30-5 Date and Time of Occurrence: 1105 hours on August a,1930 to 1446 hours en August 12, 1950.
Description:
A total of ten dil ution pump trips occurred between August 8, 1930 and August 12, 1980. All trips were caused by high lubricating oii temperature which was in turn caused by low cooling water pressure. The lubricating oil temperature would increase to the system trip point and trip tne pump. This condition was aggravated by high ambient water temperature and air temperotures. The accompanying table number 5.2 list the cates and the times of the pump trips, the total time the pump was pump was off, end the time of ncnccm. plying discnarge: Corrective Action: The plant operations staff increased surveillance on the dilution plant during this period. In each case when the lubricating oil had cooled sufficiently, the punp in question was restarted. An engineering evaluation has been completed l for the purpose of upgrading the dilution pump sealing water and cooling water systems. Until modifications can be made, the Internals of the cooling water solenoid valves have been removed to increase the flow of cooling water to the lube oil heat exchangers. F. Report No. 50-219/80-6 Date and Time of Occurrence: 1744 to 1815 hours and 1900 to 1930 hours on August 11, 1980
Description:
During the above mentioned times, the condenser, F. discharge The exceeded its limiting peak temperatures reachedvalue wereof 1106.5 ,06.0 F at 1744 hours and 106.2 F at 1915 hours. I
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J Table 3.2 DILUTION PUMP TRIPS - Aucist 1930 Total Time Of Time Off Tire On Time Off Noncompliance Date (Pump #) (Pump #) (Minutes) (Minutes) August 8, 1980 1105 (1-1) 1308 (1-1) 123 108 Augusc 8, 1980 1408 (1-1) 1508 (1-2) 60 43 August 8, 1980 1522 (1-2) 1715 (1-3) 113 93 August 9, 1980 0811 (1-1) OS35 (1-1) 24 9 August 9, 1980 1501 (1-1) 1536 (1-1) 35 20 August 9, 19S0 1744 (1-1) 1815 (1-1) 31 16 August 9, 1980 1851 (1-1) 1914 (1-1) 23 8 August 9, 1980 1958 (1-1) 2025 (1-1) 27 12 August 11, 1980 1309 (1-1) 1339 (1-1) 30 15 August 12, 1980 1409 (1-1) 1446 (1-1) 37 22 l.E i l lI
- . . . . . . _ _ . _ _ - - . . _ _ . - - . . _ _ . . . . - . . _ . . . _ . _ . . _ . - . _ _ . _ _ . ~ . _ - - _ _ . . . _ . . . _ . , , . , _ . _ - _ _ _ _ . . _ _ , . _ . , _ _ _ . _ . . _ . , , . _ _ _
1 l I 1 Ccrrscti n Action: Operaticns co< steps ? ccreec7 Tre si?urien by initiating a load recuction. On each occasicn, load was reduced untii Tre,tercerature es stacitize; at cr celos 106 F. G. Report No. 50 719 7 7 Date and Time o. Sep*emaer 1,2 & 4, 1930
Description:
Pr . .. .o September 1, 1930 dilution puma 1-2 was tagged cut of service due to vibrai bn in the motor. instructions were given ine: it be used only in emergencies. At 1704 hours on Seatember 1 dilution pump 1-3 tripped follooing an overload alarm. Dilutica pump i-1 subsequently tripped at 1811 hours due to insuffleient cccling flow setpoint. This pump was started at 1317 hours. Real izing that insufficient diluticn pumps were operating, instructions were given to start pump 1-2. Total time of insufficient cperating dilution pumos was 2 hours 7 minutes. The time of non-compliance discharge was I hour 52 minutes. On September 2, 1930 dilution puma 1-2 tripped twice. Once at 1023 hours, this trip was caused by vibrations causing the mercoid temperature switch to trip the pump cn a false high temperature alarm. The switch was reset and the pump was started et 1050 hours. The pump tripped again at 1109 hours and was restarted at 1141 hours. Total down time was 32 minutes. Time of nonccmplying discharge was 17 minutes. At 0631 hours on September 4, 1980 corrective maintenance was initiated on dilution pump 1-2. Pump 1-2 was taken out of service to uncouple and remove its defective motor. The motcr from the seized pump 1-3 was installed, spin tested and coupled to pump 1-2. Pump 1-2 was started 1808 hours on September 5, 1960. The total time the pump was out of service was 35 hours 37 minutes and the integrated time of noncompliance was 35 hours and 22 minutes. I Corrective Action: The defective motor f rcn pump 1-2 was removed from its pedestal and replaced with the motor frca pump 1-3. This made pump 1-2 fully operational. Dilution pump 1-3 seized because the pump impelier sheared a number of its connecting bolts and jammed against its housing. Pump 1-3 was repaired and returned to service. H. Report No. 50-219/80-8 Date and Time of Occurrence: 1700 hours September 10, 1980
Description:
Prior to the noncomplying discharges, dilution pumps 1-1 and 1-2 were in operation, dilution pump 1-3 was out of service due to maintenance. Dilution pump 174- -
I I 1 -1 aas rencved frcm service at 0925 . curs en Septemoer 10, 1930 due to a suspected fire in the pumo acter. I Further investigation determined ?nat the inboard motor bearing had overheatea and been damaged. During the next eight days, five nonccmplying discharges were identitled. These noncompliances occurred as a result of having only one dilutloa pump in operaticr while the discharge canal temperature, as measured at -he U .S . Route 9 bridge, was 87.0 F cr greater for a period exceeding two hours and fifteen minutes. In ali five cases, while the plant was in a steady state power condition, the U.S. Route 9 bridge temperature paralled the plant intake temperature. The bridge temperature oscillated as a function of atmospheric conditions with the mean temoerature being approximately 87 F during the entire period of time. The maximum I temperature reached during this period of time was 91.7 F. The acccmpanying table number 5.3 lists the dates and the times of the noncomplying discharges. Ccrrective Acticn: Dilutien pump motor 1-2 was shipped of f site September 4, 1980 to repair a vibrarion problem. The motor was returned September 15, 1980. Installaticn of the repaired motor on pump 1-3 was completed on September 18, 1980. Dilution pump 1-3 was available for operatien at 1700 hours on September 19, 1980. The damaged bearings from dilution pump motor 1-1 were removed and shipped offsite I for repair.
- l. Report No. 50-219/80-9 Date and Time of Occurrence: October 26, 1980
Description:
An intense storm occurred on October 25, 1980 which churned up debris in Barnegat Bay. Intake trash racks, Ristroph Traveling Screens, turbine building closed cooling water (TBCCW) heat exchangers and main condensers were fouled with seaweed and Blue crab. A circulating water pump and screen were removed from service when a trash rack caved in. Plant load was reduced to under 50f, in order to backwash the main condensers and clean the TBCCW heat exchangers. An estimated 10,000 blue crabs were drawn into the system. The apparent causes of th'e environmental event ' are unussal service conditions including environmental component failure. The unusual er important environmental event consisted of a high number of Blue crabs being impinged upon the intake components with soi i directed to the main condenser. There were two stages of Impingement. Blue crabs were impinged on
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I
]
I ! 1 l Table 3.3
'I Dilution Puno_ ';cn-Com:11ances - certember 1950 ,
I 5eginning o f Nancomplianca_ End of Scn:cmpliance Total Time of Noncompliance September 10, 1980 at 1700 September 11, 1930 at 0115 3 hours 15 minutes September 11. 1980 at 2130 September 12, 19S0 at 0400 6 hours 30 minutes September 13, 1980 at 0600 September 15, 1980 at 1830 60 hours 30 minutes I September 17, 1980 at 2000 September 17, 1980 at 2145 1 hour 45 minutes September IS, 1980 at 0115 September 18, 1980 at 0145 30 minutes I !I e P e I I -17e-
...._,.,_.m.-..-,... . - , - . _ , . - . . - , . . . . . . . . _ , , , , . . _ _ _ _ _ . . . . _ . . . - . . - _ , _ - . - _ , _ _ - - - - . . _ . _ _ _ _ _ _ _ _ -
I Ristropn screens and uere ri ise: off into me discharge slaiceway. A mcrTality rate at apprcximately 10$ aas notec. The second stage cccurred when tne screen discharge trougns and sluiceway clogged and some debris bypassed the screens into the main condensers. A higher than normal mcrtality could have occurred curing this stage. Corrective Action: Repair of the af f ected trash rack and screens. J. Report No. 50-219/80-10 Date and Time of Occurrence: 1802 to 1829 nours on November 11, 1980
Description:
C;e to gale force winds on Novemcer 10, 1980 debris was churned up in Barnegat Saf. The debris was drawn up into the dilution pump seal strainers, this reduced the sea water pressure which inturn tripped dilution pump 1-2 at 1802 hours. Operators cleared the strainers and ine pump was returned to operation at 1827 hours. Corrective Action: Immeaiate corrective action was taken to cleer debris and restart the pump. A long term proposal is under consideraticn to meet tnis problem. Also, the seal water and filter differential pressure alarms wilI be repaired to alert the operator pricr to pump trip. K. Report No. 50-219/80-11 Date and Time of Occurrence: 0730 hours November 18, 1980
Description:
At approximately 0730 hours on November 18, a resident of Oyster Creek observed 20-40 dead fish in a cove on the south side of the Creek one mile east of the Route 9 bridge. The observation was first reported to the NJOEP then JCP&L personnel at Oyster Creek. The fish were identified as Blue runner, Caranx chrysos. In order to determine the extent of this mortality further surveys were conducted in Oyster Creek. An additional 65 fish were found, I They were all recently killed and averaged approxi-mately 200 mm in fork iength. The apparent cause of the fish kill is that the temperature in Oyste' Creek fell below the lower lethal temperature for the affected species. The fish were attracted by the warmer waters of Oyster Creek. They remained beyond the time when - they would have normally emigrated from the bay.
- As ambient bay temperature fell below 10' C it restricted the fish to the heated waters of Oyster Creek. As the ambient water temperature continued its deciine, the heated discharge canal could not keep the water temperature in Oyster Creek above
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I 10 C, resairing in ine scriality. Corrective Action: JCP'L is investigatirg the feasicility of in,Tal-I ling blocking cevices in '9e ciscnarge canal i r. order to civert fish *nar might be attracte: To the heated discharge. L. Repcrt No. 50-219/80-12 Date and Time of Occurrence: C040 to 1100 hours November 22, 1930.
Description:
The Oyster Creek Nuclear Generating Station began a centrolled reactor shutco n ct apprcximately 2200 hours on November 21, 1960, consistent witn OCETS condition 2.1.5. At approximately 2246 I hours one dilution pump was snut of f anc at 2249 hours the second puma was shut of f. At 2253 hcurs one circulation pump was taken out of service leaving inree in operation. At 0730 hours cn Novemaer 22, 1930 no further heat was being rejected. The following temperatures were cbserved: Lccation Temoerature F ( C) Intake 42.1 (5.7) Discnarge 42.7 (5.00 Route 9 Bridge 42.5 (5.9) At approximately 0040 hours on November 22, Stue runner and Crevalle jack which were cbserved in the condenser I discharge began to show signs of severe stress. The tenperature was approximately 12.9 C. At 0300 hours the temperature drcpped to 8.7 C, dead Blue runner and Crevalle jack were observed floating cown the i I discharge canal and appearing on the ban,s of Oyster Creek. By 0630 hours the temperature was 8.7 C and Bluefish began appearing on the banks. The Blue I runner and Crevalle jack appeared to all be dead by day light November 22, 1980. The bluefish continued to appear on the beaches until approximately 1100 hours after which time little adoitional mortality was observed. The following species of dead fish were collected: l Species Number Collected Blue runner 3638 Crevalle jac > I Bluefish Smooth dogfish 1038 17 l Lady fish 3 i Northern kingfish 2 Gray snapper 1 American eel 1 Mojarra 1 Corrective Action: Since no further mortality was expected and no i 1 I i l i i
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I l 1 i ciner species acuic De stressed, no inmediate act i on was ta'<en . J3&L is investigating ine use of biccking devices which wculd be ins +311ed in the discharge canal in crcer to divert fish that mignt be attracted to the heatec discnerge. M. Report No. 50-219/80-13 I Date and Time of Occurrence: 1735 hours on December 4 to 1733 hours en December 4 to 5,1980.
Description:
During the week of November 30, 1960 tne plant aas I experiencing abnormally low tides, whien resulted in the securing of a circula+ing water pump to allca for suf ficient suction on the screen wash and service water systems. Cn December 4, 1950 the plant intake water level reached a critically low level as a result of low tidos I and persistent westerly winds. At 1735 hours the water levcl dropped below the suction to e screen aash pumps. The pumps cuickly lost prime and tripped. I Decris began to accumulate en the screens causing additional water decrease at the suctico pumos Intake. The shi f t superv isor crdered tne dil uTicn pumps tripped in anticipation of the plant coming I off line due to loss of intake. ' ant shutdcan began and dilu~. 'on pumps 1-2 and 1-3 were tripped at 1758 hours. The tripping of the dilutico I pumps allowed the water level at the intake *o increase so as to alicw suction to the screen wash pumps to support plant operation. Plant electrical output was reduced 25 Mde in 12 minutes. At 1810 hours plant snutdown was terminated due to tne increase in intake water level. Dilution pump 1-2 was started at 1821 hours. Full power output was achieved at 1837 hours. Dilution pumps 1-1 and 1-3 remained off. Again due to low tide dilution pump 1-2 was tripped at 0519 hours on December 5,1980 and circulating water pump 1-1 was started at 0520 hours. This was necessary to supply additional cooling water to the turbine building closed cooling water heat exchangers which were starting to become a*r bound. The intake level decreased to a point where the circulating pumps and the dilution pumps could not run I simulataneously without jeopardizing the plant's main heat sink. This action was later confirmed to be contrary to OCETS 2'.1.4. Af ter discussion I later in the day with the NRC, action was taken to put the plant into full compliance. Dilution pump 1-2 was started at 1655 hours and 1-3 was started at 1738 hours. - Corrective Action: Ccreective action was restarting dilution I
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I pumas 1-2 and 1-3. In adairicn 0Ians are ceing studied to dre ge The in 3.e canal tc rer.cve costructions ahicn restrict flow. A recuest I to revise 'he Envircnmental Technical Specifications to recognize that low tide conditions may exist which a l l c ai cessation of cperation of dilution I pumps so as not to jeopardize +he olant to a loss of heat sink and resultant transient has been submitted to the NRC. [ I 5.2 Summary of Chances Made to rederal a: J State Permits ..hich Pertain to tiie Recuirements of CCETS i There were no changes made to federal and state permits and certificates during this reporting period which pertain to the requiree:ents of CCET3. 5.3 Summery of Changes in Staticn Desien whicn Could involve an E nvironmen ta l iroact. There are two station design chenges which could have environmental impacts. The first was the installstion af a concrete revetment at the waste oil storage tank at the emergency diesel generatcr building. This viff have a positive impact, sis.ca it will prevent any oil from being spittes 'nto t.e discharge canal from this source. AlI the vertical traveliing screens were converted to R I strop h type screens. These screens will aid in reducing the mechanical damage and mortality caused by impingement. New screen wash pumps are presently being installed. These pumps have a higher capacity than the existing pumps and will aid in the reduction of impingement mortality. 5.4 Summary of Chances to OCETS There were no changes made to OCETS during the reporting period. I l I l lI 1 I I 'I
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