ML20064E405
ML20064E405 | |
Person / Time | |
---|---|
Site: | Peach Bottom |
Issue date: | 11/09/1978 |
From: | PECO ENERGY CO., (FORMERLY PHILADELPHIA ELECTRIC |
To: | |
Shared Package | |
ML20064E404 | List: |
References | |
NUDOCS 7811170131 | |
Download: ML20064E405 (37) | |
Text
- .
PEACH BOTTOM ATOMIC POWER STATION :
I i
i Monthly Report No. 60 l for l June 1978 l
P Thermal and Biological l l
Monitoring Programs '
for }
Units No. 2 and 3 !
1 i
[
i PHILADELPHIA ELECTRIC COMPANY l p
i i
k i
i.
7 311170 )))*J bs~d4f r1~7 R
MONTHLY REPORT NO. 60 FOR JUNE, 1978 THERMAL AND BIOLOGICAL MONITORING PROGRAMS PEACH BOTTOM ATOMIC POWER STATION UNITS NO. 2 AND 3 This report includes the thermograph data for the months of April, May, and June 1978. (Table 3-8) Figure 1, illustrates the locations of all thermograph and boat survey locations for the survey period. The monthly mean delta T temperatures for the state line minus ambient are itemized below and represent the entire contribution of PBAPS plant plus natural variation.
DELTA T *F PLANT MONTH HOURLY OBS. POSTIOP PRE-OP IMPACT 'F April 587 .29 .01 .28 May 695 .25 .04 .21 June 708 1.64 .73 .91 The 5'F delta T above ambient criteria at the state line was not exceeded in April, May, or June, 1978.
The daily summary of air temperature data for June, 1978 is presented in Table 1.
The daily river flows as measured at Holtwood Hydro-electric Station and the daily generation at PBAPS in thermal megawatts for June, 1978 are presented in Table 2.
Figures 2, 3, 4, and 5 are isotherm plots, which include three (3) horizontal sections of boat surveys made during the June recording period. Boat survey information is tabulated in Table 3. Surveys for this period were started at the north end of Conowingo Pond. The delta T at the state line indicated on the isotherms is calculated by subtracting the Holtwood Dam temperature and the hourly Confidence Limit (applicable to the mid-survey time) from the state line temperature. This delta T can be interpreted as being caused by PBAPS since ambient hourly variations at the state line have been considered.
Table 9 lists the results of analysis of Susquehanna River water for heavy metals during the months of January through June 1978. Chlorination data for the months when the units were chlorinated is shown in Table 10. Table 11 lists the results of the monthly survey of chlorine residual determinations made on samples taken at the discharge to the river during chlorination in the plant.
- 4 ,
TABLE 1 AIR TEMPERATURE FROM WEATHER STATION NO. 1 CONOWINGO POND June, 1978 Air Temperature AT 1200 HOURS AT 2400 HOURS 1 1 , a June 1 81 62 2 87 68 3 71 61 4 69 53 5 80 54
, 6 75 64 t
7 77 75 8 82 72 9 80 54 10 76 56 11
- 84 60 12 82 74 13 69 56 14 70 50 15 66 52 16 76 70 17 64 65 ;
18 75 74 19 90 70 20 86 66 21 71 66
- 22 77 60 23 74 58 24 70 56 25 E3 64 26 74 74 l 27 36 71 l 28 86 66 29 85 66 30 44 70
- l TABLE 2 HOLTWOOD DAILY FLOWS (CFS) AND DAILY PEACH BOTTOM TOTAL THERMAL MEGAWATTS -JUNE 1978 YEAR MONTH DAY HW_ FLOW MW_ THERM 78 6 1 39000 6029 78 6 2 34400 6025 78 6 3 32800 6078 78 6 4 31100 3760 78 6 5 33100 4569 78 6 6 31500 5263
} 78 6 7 27900 5675 78 6 8 26500 5925 78 6 9 25600 3310 78 6 10 32400 2744 78 6 11 39300 2565 78 6 12 36800 3368 78 6 13 34400 4242 78 6 14 32100 4446 78 6 15 29300 4972
) 78 6 16 26000 5553
- 78 6 17 25400 5998 1 78 6 18 22400 6036
) 78 6 19 21400 6026 i 78 6 20 21400 6028 78 6 21 21700 6522 78 6 22 21000 5886 78 6 23 21000 6023 j 78 6 24 22100 6017 -
78 6 25 19600 6114 78 6 26 19200 6345 78 6 27 27400 6335 j 78 6 28 21000 6326 j 78 6 29 18600 6324 78 6 30 16100 6779 I
TABLE 3 t CCNOWINGO PCND THEPROGPJLMI STATISTICS Ap o I L ,19 78
SUMMARY
v&RIABLE N MEAN STANCARD MINIMUM
- M A X I MUM.
DEV!ATION VALUE VALUE ,
.* _FLCh T2 0 93741.3- 5:196.17 32500.'O IP90Cn.00 N_THEre4 720 3196.2r 51.2 7 3137.'" 34 c7.0 0 52 o45 9.96 1.31 6.60- 14.4C
$3. 53 7 10.72. L sa 6.90' 14.10 sto 0 . . . '
SL3A 53 T 10.55 1.57 6.67 13.90 SLJ3 0 . . .
S te6 0 . . .
513 T10 9.93 2.00 . 6.20 14.30 i S id A 58 t.53 0.36 5.5' 7.o o 530 0 . . .
5 31 720 17.56 3.63 12.30 26.13 .
532 72 0 L7.77 L .91 14.70 2?.60 S 2B 0 . . . .
LL3_2 517 0.23 0.36 -C. 70 1.to
'2_19 o95 -0.01 7.30 -0."0 0.70 CL3_18 5d 7 0. 16 0.42 -0.90 1.30 013_13A Sti 7 0. 15 0.17' -0.60 q.70 C 10_ L 8 A Sd 7.73, 0.0L -1.17 2.50 C31.30 0 . . .
C32.30 0 . . .
C3L_32 72 0 - t' . 2 r' 2.34 -4.70 3.60 ,
U13.132 0 . . .
Llo_16B 0 . . . . ,
02_2B 0 . .. .
5135 T2 0 c.c3 2.90 6.20 14.go 0135_18A 59 C.73 1.01 -1.l0 2.50 C2_t85 o95 -0.02 0.30 -C.90 0.70 Ji3_tes 537 e.it c.42 -0.90 1.39 Definitions are as follows:
N - Number of Observations during the month 5 - Thermograph Station (e.g. , S2 is thermograph Station 2) *
(TEMPERA'IURES ARE IN DEGREES CENTIGRADE)
D - Difference in temperature of the two stations (e.g. D13-2 is the temperature at Station 13 minus the temperature at Station 2, in degrees Centigrade) !
HW Flov - Holtvood Flow in CFS MW Therm - Total Thermal Output of PBAPS in Megawatts S18S - Thermograph SIBA is substituted when S18 is missing or spurious readings are observed when low river flows occur and Holtvood Dam is not operating. SISS is used to deter-mine exceptions in Table 2'5 . 3.
TABLE 4 PbAPS IPFACI t0LN5 460VE APRI! CCAFIDEPCE LIPITS P
R 1 '
H b C b S C E I E M
~
A _ C C L E E a M 0 0 1 C P Y 0 _ 1 I L H S 1 2 3 F H A I i 1 A X ! P I 1 0 t N O u ! $ 3 2 2 1 2 3 1 A 3 d A . L E 1 3 I A O S 3 I
. . 3 3 C 5 M H Y 1 1 0 p L a 2 I 8 2 8
_ 1 1 _ ! ! 1 i h P S 2 i E 2 8 8 2 F 8 1 FJ 4 19 2 10.S 12.0 12.0 1.5 -1.5 C.C 4SE00 2 7J 4 22 12 16.7 16.1 15.6 -0.6 1.1
. PRE _0P I.4 0.7 1.1 0.1 -2.2 -1.1 0.18 J 7J , 44 1J 0.* 39900 . PR E_CP 1.3 1.0 17.7 16.3 15.6 -1.4 21 0.7 19900 1.5 -1.9 0.1 -1.0 . 0 18 .
4 FJ
- 22 14 17.3
. PRE CP 1.5 1.5 1.5 -2.9 0.6 -0.8 1.08 16.5 15.6 -0.8 I.7 0.5 39900 1.4 5 73 4 42 15 17.2 16.5 15.7
. PRE _0P 1.4 1.5 -2.2 0.3 -0.6 0.54 6 JJ 4 44 2+
-C.7 1.! 0.E 39900 . FRE_0P 1.4 1.4 I.e
- 15. F 17.5 16.7 1. 8 -1.C C.i -2.1 0.1 -0.8 . c.18 .
F 73 4 23 1 15.8 17.1 16.9 39 SOC . PR E_CP 1.5 0.9 1.2 0.3 - 1. 9 -0.4 0.54 .
1.9 -1.1 0.0 3S200 1.4 .
d 73 4 23 2 15.8 17.1 16.9
. PRE _0P 0.8 1.1 0.5 -1.9 -0.3 0.90 .
v 13
- 43 1.5 -1.1 C.E 38200 . PRE _CF 1.4 0.7 1.1 3 !$.8 11.6 16.9 1.8 -1.1 0.7 38200 0.5 -1.8 -0.3 0.50 . .
10 73 4 23
- 16.0 17.4 16.9 1.4
. PRE _0P I.3 0.6 1.1 0.5 -1.1 -0.4 0.90 .
-C.9 0.5 39200 . FaE_0P 1.3 0.e I.0 0 .1 -1.5
-0.5 0.18 . .
Definitions:
8 = Thermograph Station Temperature D = Delta T (C*)
NWFLOW. Moltwood Daily River Flow (CFS)
DetTMERM. Daily Thermal Generation of .PSAPS (Megawatts)
CL = Confidence Limit (C*)
er = suceptions (C*)
l IMP = Impact (F*) ,
accinc_r = pacirculation tr*)
>= .
TABLE 5 CCN0WINGO PCNC UEAu.0 GRAPH STATISTICS pay 197E SUMMART VARIABLE N MEAN ST AN DAR D MINIMUM '
MAXIMUM DEV I ATION ' VALUE VALUE HW_FLC> T44 31464.51 65411.22 26400.00 39300.C0 Mn_TFeA= 74 4 34C3.1C 1056.16 1594.00 6118.CC 52 718 15.45 2.38 11.90 26 .50 S L3 153 14.CE 0.49 13.1C 27.33 5 16 0 . . . .
SL3A 720 15.56 2.51 11.8C 27.CJ S 138 0 . . . .
S lo E 0 . . . .
SIS 690 16.C1 2.58 8.80 26. 63 S id A 53d 16.3C 2.66 12.20 26.60 S30 728 15.52 2.47 11.9C 26.60 S31 13 2C.E6 0.39 20.50 37.CC S32 741 21.51 3.L7 16.CC 3 3 . 20 523 0 . . . .
C L3_2 695 C.14 0.39 -C.80 2.9C 02_13 66 5 -C.47 ,
0.63 -2.10 tc.70 013_L8 153 -C.11 1 14 -1.L0 11.6c 013_13A 15 3 C.11 0.22 -C.7C 1.33 OL8_18A 53 7 C.22 0.15 -0.20 C. 80 0
031_30 . . . 11.CC 032_30 728 6.03 1.32 2.20 a . 3c 0 3 t_3e L3 1.64 0.37 C.90 5 gc D13_13t 0 . . . .
01o_165 0 . . . .
02_28 0 . . . .
SLd5 o9 L 16.01 2.58 8.8C 26.60 Dias.1EA 538 C.22 0.15 -0.20 27 3C C2.18S 666 -C.47 0.63 -2.1C o.eg 013_185 153 -C.1L 1.14 -1.10 7. 90 11.t3
~
Definitione are se followe:
N'- Number of Observations during the month S - Thermograph Station (e.g., S2 is thennograph Statiou 2) *
(TEMPERATURES ARE IN EGREES CENTIGRAM)
D - Difference in temperature of the two stations (e.g. D13-2 is the temperature at Station 13 minus the temperature at Station 2, in degrees Centigrade)
HW Flow - Holtwood Flow in ".FS MW Therm - Total Thermal Output of PEAPS in Megawatts S185 - Therzograph S18A is substituted when S18 is missing or spurious readings are observed when low river flows occur and Holtwood Das is not operating. SISS is used to deter-mine exceptions in Table 2'.5-3.
~
'ABIE 6 ~
~ '
Pfl APs I P P ACI FCUuS UCVE way CCNF l[thCE L IPIIS 4 R I .
Y a C E I E P 0 h . 1 C ( t E E K M C P et 0 0 t . I i L t i K a 1 P 1 l' V u et 5 1 2 3 F H a. I 2 2 2 3 1 1 R 3 o L u o J & S 3 _ _ L E I 3 _ _ 3 . _ 3 C _
d & T A J $ 3 1 _ 1 1 C e U _ 1 3 _ 1 1 _ 1
% M is f M 2 I 8 2 8 8 b P 2 5 E O 2 8 8 2 F E 1 l$ 5 1 3 12.8 14.1 13.4 1.3 -0.6 0.7 43500 . F # E_tP 1.2 0.R I.1 0.1 -1.4 -0.4 0.18 . .
2 is 5 1 4 12.7 14.0 13..i 13 -0.7 0. 4 43501 PRE _0P 1.2 1.1 0.1 3 F3 >
. Q.8 -1.5 -0.5 0.18 . .
T 5 12.7 14.0 13.s 1.3 -0.1 0.6 43503 . PRE _0P 1.2 0.8 1.1 0.1 -1.5 -0.5 0.18 . .
4 73 $ 7 a 12.7 14.0 13.4 1.3 -0. 7 0. 6 43500 . PRE _0P t.2 0 .9 1.2 0 .1 -16 -0.6 0.18 . .
S T3 5 1 14 &4.4 14.4 12.9 0.0 1.5 1.5 43500 . PRE _0P 1.4 1.4 2.1 -1.4 0.1 -0.6 . 0.18 .
6 F3 5 7 15 14.3 14.7 12.9 0.4 1.4 1.4 43500 1.3 7 73 5 F 16
. P RE_0P 1.6 2.2 - 1.2 0.1 -0.4 . 0.18 .
14.3 14.8 12 .9 0.5 1.4 1.9 43500 . PRE _0P t.5 1.2 2.1 - 1.0 0.2 -0.2 . ,0.34 .
8 F3 $ 10 12 15.1 17.5 15.1 1.8 0.0 1.8 40603 . PRE _0P, 1.6 1.3 2.2 0.2 -13 -0.4 0.36 . .
9 F3 5 to 16 1S.6 17.5 15.8 1.5 -0.2 1.7 4C600 . PRF 0P 1.5 1.2 2.1 0.4 -1.4 -0.4 0.72 . .
10 13 > 10 il 15.5 11.3 15.8 1.6 -03 1.5 4C6C0 . P RE_0P 1. 5 1.0 1.9 0.3 -1.5 -0.4 0.54 . .
!! F3 5 zJ 9 13.8 14.0 13.0 0.2 0.e 1.0 52500 . PRE _0P 11 0.7 1.3 -0.9 0.1 -0.3 .0.18 i m{d T3 5 20
- 13.8 14.0 13.0 0.2 0.E I. 0 - 52500 _. PRE _QP ,1,1.97 13 -0,9 01 -0.3
. c.18 Definitions:
S = Thermograph Station Temperature D = Delta T (C*)
HWFLOWa Holtwood Daily River Flow (CFS)
HWTHERM= Daily Thermal Generation of.PBAPS (Megawatts)
CL = Confidence Limit (C')
EX = Exceptions (C*)
IMP = Impact (F') .
RECIRC_F = Hecirculation (P')
-1 e
1 ItJLE 7 .
CONOWDf00 PCNC Eh*H STATkSTICS J L A E ,19 78 SUMMART
- , VARIABLE N MEAN STANDARD MINIMUM MAXIMUM DEVIATION VALUE VALUE nw_FLCW 720 27016.66 6394.28 161CC.C0 72 0 5376.1C 1165.96 2565.00 232300 00
- d h_ THE F P 52 713 2 .,t,. 1.40 20.50 6226.00 513 365 24.45 1.68 2C.8C 5 16 0 . . . -- h.32
$13A 710 23.79 1.'35 21.C7
- 5, $g, 5138 0 . . .
S 163 0 . . .
S 18 718 22.94 2.40 11.9C 0.90 S18A 71 8 22.11 2.00 14.CC S30 718 23.43 1.41 20.60 0.30 531 351 34.CS 1.84 3C.70 2.80 5 32 113 25.!6 - .21 9 1.67 25.20 0 8.
S2B . . .
013_2 703 C.41 C.65 -1.2C
- C 2_18 713 C.29 2.23 -2.50 4.00 D13_18 363 1. E f' 2.97
-1.6C
- g C 13_13A 365 C.1' C.32 -C.80 018_18A 71 8 - C . 2 3, 1. 14 -9.9C 2.30 351 1C.15 0.90 031.30 0.33 E.2C 21.70 D32_30 71 8 6.13 1. 36 2.40 031_32 35 1 3 E E' 1 10 1 1C 18. 70 3,
C13_138 0 -
. . ?
016_168 0 . . .
02_2e 0 . . .
S 18 S 71 8 22.54 2.40 11.90
- S13 5 710 23.E7 1.41 2C.EC. 0.90 018 5_16 A 71 8 -C.23 1.14- -9.90 0.90 0513S_S2 70 3 C.61 C.65 -1.2C 1.50 0135.165 70 8 C.51 2.44 -1.80 4 . 0-i Definitions are as follows:
N'- Number of Observations during the month S - Thermograph Station (e.g., S2 is thet9mograph Statiota 2) *
(TENPERATURES ARE IN MGREES CENTIGRAE)
D - Difference in temperature of the two stations (e.g. D13-2 is the temperature at Station 13 minus the temperature at Statica 2, in degrees Centigrade) l HW Floer - Holtwood Flow in CFS MW Thorn - Total Thermal Output of PBAPS in Megawatts S183 - Thermograph SI8A is substituted when S18 is missing or spurious readings are observed when low river flows occur and Rolewood Das is not operating. S18S is used to deter-eine exceptions in Table 2*.5-3.
l l
t
TABLE 8 .
P8APS IMPACT HOURS A80VE JUNE CONFICEhCE LIMIIS
- M R I H W C E I E M 0 W _ 5 C C L E E X MC P M D 0 1 _ T T L L 1 X X 1 P I 1 Y O H $ 1 2 3 F H A 1 2 3, 1 '2 3 1 R 3 0 E WD 0 1 5 3 . _ L E T 3 _ _" 3 _ _ 3 C _
8 A I A U S 3 1 _ 1 1 0 R U _ 1 1 _ 1 1 _ - 1 5 A H Y R 2 1 8 2 8 8 h M S 2 ) 8 2 8 8 2 F S 1 73 6 21 16 23.6 25.4 21.9 1.8 1.7 3.5 23000 . PR E_0P 2.6 1.9 3.4 -0.8 -0.2 0.1 . . 0.18 2 73 6 22 1 22.4 24.0 22 . 0 1.2 0.8 2.0 26400 . PR E_0P 15 1.4 19 -03 -0. 6 . 0.1 . . 0.14 3 73 6 22 2 22.9 24.4 22 . 0 1.5 C.9 2.4 24400 . PRE OP 1.5 1.3 2.0 0.0 -0.4 0.4 . . 0.72 4 73 6 22 3 23.0 24.5 22 . 1 1.5 0.9 2.4 26400 . PR E_0> 1.5 1.4 2.1 0.0 -0.5 0.3 . . 0.54 5 73 6 22 4 23.2 24.5 22 . 3 13 0.9 2.2 26400 . PR E_0 P. 1.4 1.3 1.9 -0.1 -0.4 0.3 . . 0.54 6 73 6 22 5 23.2 24.7 22 . 5 1.5 0.7 2.2 26400 . PRE _0P 1.6 1.3 2.0 -0.1 -0.6 0.2 . . 0.36 7 73 6 22 8 23.3 24.8 22.3 1.5 1.0 2.5 26400 . PRE _0P 16 14 2.2 -0.1 -0.4 0.3 . . 0.54 8 73 6 22 9 23.4 24.7 22.1 1.3 1.3 2.6 26400 . PRE _0P 1.7 1.6 2.4 -0.4 -0.3 0.2 . . 0.36 9 73 6 22 10 23.2 24.4 22 .1 1.2 1.1 2.3 26400 . PR E_OP 1.7 1.5 2.2 -0.5 -0.4 0.1 . . 0.18 Definiticass S = Thereograph Station Temperature D . Delta T (C*)
HWFLOW= Holtwood Daily River Flow (CFS)
HWTHERH= Daily Thermal Generation of.PBAPS (Megawatts)
CL = Confidence Limit (C*)
EX = Exceptions (C') ,
IMP = Impact (F') .
RECIRC_F = Recisculation (F')
o
TABLE 9 BOAT SURVEY INMRMATION SURVEY DATE 6/6/78 6/15/78 6/21/78 6/27/78 TIME:
Survey Start (EST) 0845 1225 0854 1240 i State Line (EST) 1032 1330 1008 1410' 4
Survey Finish (EST) 1250 1435 1130 1530 HYDRAULIC DATA-
,1 Pond Elevation Start (Ft.) 107.73 108.58 108.91 108.83 Porti Elevation Finish (Ft.) 107.64 108.62 109.07 108.17 '
Natural Flow (24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> ave., CFS) 29,800 27,900 21,300 25,200 Conowi.go Irt*. low (24 hrs. ave., CFS) 28,750 28,650 20,800 24,96 '
Conowingo Dam Draft (24 hr. ave., CFS) 30,275 30,300 21,700 31,200 PBAPS Power Output:
Unit 2: Thermal (W) 3257 2223 3260 3210 Electrical (MN) 1042 654 1023 1016 Unit 3: N==1 (MW) 2006 2749 2762 3126 Electrical (MW) 595 861 860 986 METEOROIDGICAL DATA: ., .
Time (EST) 0857 1210 0903 0100 Air Terrperature ('F) 68 67 74 86 Relative Humidity (%) 62 55 88 ' 72 Precipitation (24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> total, in) Trace 0 1.21 0.33 Wind Speed (rrph) 0 8-10 5 .
cloud over Clear clear Cloudy Ptly. Cls 4 Location: Boat Sta. 67 Boat Sta. #7 Boat Sta. #7 Boat sta.
Wind Direction N NW S~ SSE WATER TEMPERATURE (THERPOGRAPH)
Daily Mean: Holtwood *C, (*F) 23.2(73.7) 20.6(69.1) 22.8(73.0) 24.5(76.2)
Muddy Run 'C, ('F) - - - -
Mid Survey: Holtwood 'C, (*F) 23.1(73.6) 22.2(72.0) 23.7(74.7) 25.2(77.4)
Muddy Run 'C, (*F) - - - - ,
WATER TEMPERATURE (SURVEY)
PBAPS Discharge 'C, ('F) 30.5(86.7) 26.4(79.5) 28.3(82.9) 31.0(87.8)
Intake 'C, (*F) 24.8(76.7) 23.3(73.9) 24.7(76.5) 28.4(83.1)
T 'C, ('F) 5.6(10.1) 3.1(5.6) 3.6(6.4) 2.6(4.7)
Pond Surface Max.- 'C, ('F) 30.4(86.7) 25.6(78.1) 29.0(84.2) 31.6(88.9)
Min. 'C, ('F) 24.0f"'.2) 23.1(73.6) 24.5(76.1) 27.3(81.1) 3r.e Pond Bott m Max. 'C, (*F) 25.1(77.2) 30.0(36.0) '32.4(90.3)
Min. *C, (*F) L.4 sJ.9) 22.9(73.2) 22.9(73.2) 25.0(77.0; No. of C.W. Pungs Operating 6 6 6 6 No. of Cooling Towers Operating 2 4 3 4 4
4
~
i b-kitvNb _.
it i i=: iv
\g#i'
\
'e m z
C 3
sii Il 1 L
!= p __ y o
si \LL%
C 2o
[ .]. -iJ- L
- 2 a #1
- i - >o
- 1I i 1 j I t\ Giv
[l!I
' t II: o" J t l .\ J ia , IA @2y m I eii I n. t I i 1 il.l i iei vr; i 1 4 i j3[
e lgg ,
i i et J i i sin . i it o
!:n:
r i i i5 ,r ii at < i i , 3 <g
.y.
i i irt i e i 2, i ::-1*.
s i i, i irl yo .
i , i i w
Q'A.Li l i i 'J /
( s ' A l m .i U 85 ') % ) 1l i) 3 i
Nii/ 3
/8 AN, /! i iN
/ .NQ N; Lts,iW,.Ng % ;hN %
m
/ i i '\ /8 i i !% fi i i %~ z
/8 i i h 'Js M # /i e i i
/t i i it' ff i e i .4 fi e i e il Ji' i e i i 71 4 'i ? >v ' k i i i i il j -
. i i i i g ii i s i .; e e i '
i- r :
'Tl i i iN 'Ti i i lir 9ie i( I fi i i ;
l 19: 4 4 tli la i e i 4; Fi 8 : I k ft i i I 4. ft il I 4 3, I a i i ssp Li R - . .$ i i i i ;
=Li i l i Q diiiI. ( diiiI L $
/Vi e i if /VI
- 23 / Vi 6 8 i I : i 's i ! I ij fI i i i ij i l a.i l 'g . W . S "I I.ii I (i i i ij 01 ii (1 i i
/i i t a\ ~
/i .si .( li i i i ,(
3eit i T _\1 i iiI\ Niiii\
"X i e i e i l7iie i i 1 T! i i i i l N i i i ei Nt i i il Niri il
.W t il \! I i 16 \t_ i i it 14 e ir T e i i\ \q C
\ .(
(I ! i\ li i I i\
11 i !1 \1 et ' \l ii1 i e ia i i 1
e i ,
i s - ,, x
. 1
!\1
- i, dI 1
3
, i -9
- s. HA i i
s -
o
\ = k i
.]
3' H. Q.
- o. . .
Gme z.
- . ww u
.. L, 8s o
U N N f#
o-o aw 23 o I
., 4 I, 3 s l9 ,,
/ f
~
I
. l l ',1 .u.
.tll:,, i. t * %. . . .
.
- 3 "a - -
==
as
- o
-. ==:::=
. = ~F .# .""*--
= - = -
E * =E
- t.. ' . 5e3 .y * . F. -
L -
1
. .a e e -
.#. J m =* w e te'
.. t
-4
. s
.==.= . . . .. -
i, e,s
[ %*
",i. 'S* .- m' a a *eo E. -U~" -
E "3 m* e "B" w w 3 i
i
. ':::::" =.. ..
J ".=. .o *me i, . % *=. = = es u "s"""=" .
. 1. .
= -1. 3
' 8 3. I -
- HEi:. r s.i" F. '
q
.r r 4 -- .
k
=.- =* = 1l==
T=::L i
=.- 1., % N::'
c . [= -
. .L.-
3."==
~
== - * .== ; =::::'
. = - =* -
F- A::= === *=* .
=
=.'
5:' %
=h*
=
% . '::=: : . = = *
.=. eE"" .=. _= = = -
= :
= .
J:L b.. :* .::= "W = i ~
- =.
.I ==lL \
" - ~"= " ,
- 1, = =
= *
. .=- %.
.="
l- .M E t "=. l 3 m:" '3 j.f.. .=. g .
"r"" E-
.:j:.. .- . ., g. !!!!., jj;g, = . .
". ,=
t . ["~.:., -
J .%*
=lll:'
- 1.&
- ' 8" g """ =
!.= L""
5 :!, is .':. 5 EE . ii. ~ Y.:..!:
.- =. = = = .= = _.* ::. .- = .
- =lll .'.::" .: " :.. -" =:' ~
,("E"E:
= -
.=: = = 35. ::=: = =
l E
=. 5 !! -
.. !! R5iii:. 'E
=
.=:.=
=:::= = '
== ' "
, . . =
- =. ** r.
'g *=
= := = = .=~.
- =".*.=':= 'g * == :. .% . ".."
y
===.r y .L.=. = ,xd . .. =.
l+ rg =..
""":le-
'=* .
- C' 8
- .- ,.L * "
= .J
- . .I w
. .= - . .= e.
. .a.
'= .2 .- ::::" ~ =:: .- *
- : : . == g
= - ..=-= = -
': = "
L: "::::
""" q :- "',
- (fR v* =*=
- :
=' '
I *: '"
= i.
" ",e W. = .=" ". $ C-
.:Ei:. M' Ti .:23
=:~ J '
"il -
E e. , s. ..
.. e ei.
'"..* ..'". M. 3 = ,
%- 9. -
.D ',Ap.,
/ .,
~
g":'C. . w g
$' ":=: L
- 33. E *,, '3 E"'. . N- i s'as Y"" g
- =. ::. =-.- ==.-- :. . =x
- D "T- -
s:== ~ n :.~ . :i. E _. .
1
=.-
- ..,u"J=. =:. ~~~~
.: a. 2
'aga
.m-I.* .a ==
.=.
.e -
e 1:;.
.)..-
- - - e, at as
. - .. f w
% = L % "::: .::. .
e.
=
.== -
=
, ==.
=.=. -
=. - 55 . .. .
=" = _ .
- $=" ' . a,
- I 1.".:::=".."
- = '
L. *.
- ==. i
.. = l-- - :: : -
7.=I 5
% 4. -
" =! ! I::::" :i y
=
u . -
. .. I 8.=- =
=..
. !E.
=.
- i. =: = - 1 .
.i
--==
, - = .. === - .-
j ==. =. =- =. -
===. = - =:. :
_ -- *: = ' ' .=.- .a -
== - = :- -. - e
'85 .- .. . =
w -""".
. f
- ,/.*$
m JE-E 1:. W 1 .g .:::= t =
- .. ._ .= " .= .k l =.= =::= i .
. . = *
= % = % = %
i .
r t =. -
'=. =. .
l l i
I I .m I
h :
jg:
- i ' e .!.:i! li:t j ii.
, ? !i::!3a s
8 e s
'8:
8 3
8 s
a a
s 8
8 : '*:lamqs i l i:
q 8
s s
s s s -
s a
s
/ )ujid.'g!iu l!minag !f
!f i!
ii l ia s 3 s i. iiiu ,ifnljs jniiniuui.i:!u i::! .
D s
- s 8 8 sg - s s a a E .
8, s s u i gi l i! !
s
'8 iiiuuu!"u. :
P , 8 8 T
H a
n
,s H s
eM jim,!
i s m s 8 sii 5'n:i
$ a s
d s -
- s a
- 9u: .+ :
nuii, i - s e
c E
s
- a. - '
- :s s
1 0
f k-u s
s 5
H ,s; gi n; :nlulj umi.
ji l!
s s
s 8
s s
a s
s i
i.
a s
s 3
- i ,s -
s s
8,-.
aH. e s ,e ~.ii, :
s a
s
. : F. e :iu. s s i, s 1 :is, s i s s
- 8 : s a
js s s f l s : 4iu i l a n :
i II 8 s in a Qi n :
Il g
8 s
- ni l .
- ia . T'Is
! 8 d
g 8
"! *i.
iM I l i s *i a; l
' !! e L.8/ :ia
.i '
i
- . s r'uk: SOW g .
.l*
!! ii Jiu. -
L . ,
8
,j I
e s
s a
"ii. pu.
i:
"s!.
~u!j
- !:iu:.: LH I
l AN 4 I.s 0l
- b. . , .:
a s
"iIsua "::H !ui . : NS iu : DO s
.- ilu j: it1
- nu iia ,H'uiulus l
. , s. 8
.s s a" . -
s s
, ..s-
=-
s nn!u iu! i i
!:s N na!tnlln!ps
- 8 ! I s
uu. s a
= .s:
e.
.s . ~ u !u
(~ -
mn!!m.h i i:e H u- .
' . I!nispiu,a i s s
O P s" ,. . 1 3 R L lu. p.Hj i ui . .i s 2
0 I A a8 -
q ':u u u.
- j. s a
0 I Z N .
- u. M;a i s a 0 O hI'
,s
- ,s8 T .
- a: .. -
. "u. . 8 n u,,ui,t, sh:ip ' . @' u N a i 8 t g.
s . 8 nh .
T
.l - - si .
a L
A P O
4 8
iart 7
, ahS- i li si3 j}J i:
"p. ;",
g H sa S a a
- a. 'na Hjiu.j l:j:ui iiuim i t ,
S W sT. i4g
, i i
jj H
G s a
'+
7 s
C E i je i
.s "I*IW 6 i ,
A R j "i j , ,3 . ji s , A-0 i :
0 l L : ju:. **], s
!sau lm,$iu i J ,e lT :-
Q.
ai 0 E i
i :
j . 3l st d - n!
s m: I!a*jua.
- s. 8ln::,:u 4 8 st a!
i
(
F T.
1 5 a 8 j
.j.
luul 8' s
- i 8
"i d
4uiibq,n i .j y : :
8 8
a a!
j
.i a
I s
) 9 s s
us :
jnH s 8 a!
s.- 8 qui
.{: ,
s s
s a
- ,s .
a3 us a A % 5
[
gui ndan N 8
, nu::h:f s s
T 8 s 8N
. ' unn :3 j i
e s
uVwu 8 *.
n8TM ' mu.4 A
- s s :uu?
- s t
T s
s s s u f n s n..a s g
T S
"uUl
.di,g ig I
i s- .,g 3
i71luanU 8Tsa:i:nu:
a Hs A ee ]i, i
I:8 s
',f'up li.
l4 s
s T s f,.j. - ln
] ,s / s s
- i. a E i
/ jt
~is a
,s a 8' j ::
! a L ,s p -j/ ji. a I . :n! 8 as *y',eg, !
4 a th!ut !
,s N
E s
s ,
i l:
8 s
,s gy,s
=
a, ai' , - r,h,.'s l!!n:1n
/,/
s A, N
=
'88mn" .u s - Esi5 ui; i5 a
8 "l!:.i
- ui
,8 0
0 n
8 .
s a
a s
n n;.
i;:
1t;l-s s
a j I siiu:u,{l atl f
t
- 5 s , i;i.
a; s s -
i ali.sn. !
sli F 8 s ,
";j: a '8 i iL:
8 a s
s g mis f t
u~:.! ia
- s , .:
s s =:
- ! im.
i s"- ~"i 8 i yp 1 ,
i n si f
.ss t j
"a: - ,u i i i 9
t $s a ,
a
~i a n ,, l u
.d s"Ug
!g n: z I s ami a
'p, *h - II s hdw.in
- g
[f u!y i; 8
i a s
s 8
I a; I 2.j
- 3 s I l - un! !
- s
. d' #li .na Iu'
- g
- u..
- ss n ,iD,s i
f a
l in :
im. w. " %vu.n.u u 8 a :
' nsi 1 n
g e
u n ::i
- in 3.
",. *!:u
- s a
x .4 "H'us i uU s
s
- - ~i2:u.
f.
s i i:
inti n~U;3s ,
- . ";;.g::-
3i i :
s
=
iu:,s:g l : ig K
ius.p 8 ii g!i s!n s!
! is
!gs
!,,y e
s s
a ai ai
'i i
- =
iu:uig j : ;g
- s
- tnn;!,
- i!
k
" s, e,5go a s 1 ' ' <
i . s
", :ua!
.n!
8 s 'j s . -
j
- g 8
- i a
"u:i 8!
- r:.
s i .u g ja g
a ~! ! -,
- au 8 s8 :u. - ,g s2! s 8 -
8 ju j
- u . !,e sh
,e i! e "3
i s
3 s!
t:7 s
- ju.
a u,jq i':
uun:ul!
8 3 s ' a "" 5 H 8 g
i s
s 8.
i.
s , !
" s
- ss , M..u,!:(: j,:
l a5 ' t e s s' s s2 8 ::naagI j{
ht 8 s3 s :,
s : :, !,:l,
!5
!83!'g jg g H ,3 u i t !8!jj 8
n- gs2 u! s! s
- . g!jj
- 3Ijg 8,
- n i:
js ":n!j. I ' a *., . - i s
H n g s .
7 a
O t a 3 8 lt s
cR :
8 :
s a a
0 I Z
'd1 s l g I
s l s
a, TDN O I.:y s -
e n
s -
s MTA 0 I
lf a ji s : s N n j EE WT :,
8 u
G 3 , 8 ja 1
2 C NI G
L Au t E
8 s
8 8
)
p a
I a
g g
a g
3 /
OI S a , .gI s
' n.
8 55 dy
/ / P O 3 n. 8 E
C O
i, @ a ,s 1
4 7 O T s' ,i a . N 8 s s 3
5 N HE l j 1 8
l8 e
g s
-,sap e M
D R s ,s :
,s g e N
M S
s 8 * ,
8 d,
- g a
a l
i s-
) ,s e
(7G O f
I
1 l l
l
' CONOWi&
til.10HN50N '
BAM 15LANI s tady s
,s,spes8,Iss::::: .as::s:::::: ,,s es ,,,, ,a n 8
,qlt!,h,
ill S .,. e,s k
as s 8s s 88 8'"""
8 : l 8 is .. 'JI. ,,8 y . - l i 'i."
~ sj;.4.
i !;j(([$i- ;ji A 79
,ii l ' [ " '
8ff s
as,a s s :::::::: ,,, W n W ::e nnys
,,l 38 l' -
'P I!ssss?alsa/sassutst ll I- :
al 8 77 - :!!! ,. .'
i; '
79 @ ::::::
88 ' "as, ses es888'""Is 8
g; i - ; 98:ssa{ .
8'as s,, :888::is:::: ,,18::::
... 83Dk801IDM ! f 8 I SURIACE ATOMIC F0WIR stagion fj8s,818 q /
/
an n,.,3 " s i 8 8', ,, ::: 'isass:::::: ,,g ,,,ess
,3 s s 8
!!:,3l"s" ,e 8
,a ,ess 88 :::: g :
s 3 ss 7
, ,,, 3 s
Ie~!! ','!$8:,, ,33 8 " i j;[:
3 8 ! '". '"
Q .,
'b jl!j,:'l il" ri:1.
.:7lli!!H!!!...
. :FM H ' e!!! .
ti;;- .
s8'Y
.s :::::p!!ggtfs
- aijgi:
i a s
! H
-h .". . . :[ j !
,,,,79 8 ::::8s ::::::::::::::,,3 8' 8
!!I!!!!!I i. s e- . .
+ 4.. "ii .lgl '
. 7 r
- g ;
g, :;@jlll 1111
' ~
ij 1
,gg es 8 " ,,*
7:~ .
4 qi ,ntag,il
-: -*** :~~
- H 8ss =""H a s sa, f .
lii ..
y .iii"gjg,,asa
.. 18;;i iii!!isi:is;ji8nndl}.li'""M.. ..
~
II Ijp i
y'8 .
. . . Hf 4, .
- . n:8y 3
8 ,'88'8 M""~. :- - se:88888 sis 8'si -
- . 8I DEPTH 5 FT* I8 sines s 8 yst I y '88
- I 8 8n 81 s8
.s 8
! s'
- 8! !!" '"" y .!.
la !s 9si ssy , ,3:88 e
8:
'g 3, 8! '; ..: .- ..: .;.
9 ,
,- ~ ijE - -
H I 'jjjjj,,,,ts Ue ,
8 b,,: q"
.l
'..Ia- ~ ii's ,N '
t
.i!!ili'!! .it F ,,," :: HHH 3'8 t
-jg 3 "' D !; I[fggggf aggingissips: ,as: !ggggggi ;_ , ;.y.
+!{
.{ ' " * ' :
it: l8 88
'. !! , , ' .. 3d J* M: angu 4 78 iii. 88::::::: g 83 1"'
' i
.... .- ,9 8 :::::::::s388"88s::'s[ff;t .
8 3
.'; .- :g 08 :
,' 3888:23 ::: ,,318:::g.].!..t.s'.--
t
"". :8:
8s 8 -
7g 3
5,I DEPIH 10Fi
[ W'*n '8I8 n 8 8 8" 3 ",,, 8 risent 1:
PLANT POWER: 184 % ui
.e i u.. u8 nu s,: 8n N0Ril0NTAL ISOTHERMS .
.1 ,si HORIZONTAL SC ALE (Fi . -
MNOWINGO POND -
I a I .s . I s A1 AT STATE LINE = 3.42 ct DATE s/21/ 7e .
e 3000 sooo ,
TIME 0850/1830 -
e
' ' " ~'
= .~.. ..
..m M
. .a m =~. m.n
. . ..n.
mm,. mo.
- n
-3 c na m
..n..nnu.n ,. m m* = .
.-o.o.~. .. an n n. .n m...n. o t pr
.as
.m oXee. g ea ,
" " ' *:::"!!::::#" == n 5 m , ;;. "!
um n.;,
. 2=".*
....nm... ,,,,,,
e e.,
s =. . m, =
.n.mm g
= . , ..
.==.m
.,, =.,
n
=~
m.nu mnm.
.,, m.58ou,.s o
.s . e. == .
an.m.m., . .
e
-.* w~N r e
. m n
mu.ummm.. a,s as .a,,, '
1
,., =. ..m . m ua.unun ..
u .u e
..a
> Be3 >w w i m
.m. . .
.>m c
. n ..
. o em3>
N m - .m. ,
as e,n 1
. mo .,.
. . m. . ooe .
et
/>' = u
- e. m. .n . ..
- n. . , ,
m
- u. n.m m mmm.... .
.m g s ,.e .e m.m. .
f
.e..
d.':# .
. n m.
., . . .m..m .o
.m .
. n --
. .-.m mn.
um
- . n . um
. .n.
. n=.m.. .ma .
f .-
. m..o . ..
~=
m
..n..
,, = ., =o,m.m. om. , . m. .. ..,
. mm ., .u.m.. . . om.
- = ,, m m.
,n,m
/ ~~
/ . ,, u. .a,,u,.
.- . n
.m m
~~mm
=
. m,m m..
un na um.
m um
,n..,
e
.sumnan,
~~ ,,
ua
.~ .
n .
m m m.m m,
ua u .
.~
.m
<=~ n n .... .=
.m, ma
.(
e , , . - .- m ., "
~- "
du "# ::w:% **;*,
-. m C' m ~ . = . .
~ a f."
. m a e%a.7..
.a mo ..m..,,.,,,
unu.
us
- ~. .m. .m m
.m
. am e .,.,,
n.. . m,m ,g q
. n g u,ggg n
. ,. n.au .,
e
.~ .. .mma.~a
~n , ,,
=- - ~ . .
~.-.ama,
~ .. -n n.
.m..~n...
. . m
~ . ,,
.. m..
~. ... ,
~~~ ma
-a ,.,
n m.,
. ~ . . .n. .
. mmmm. . .
~~uu . nm,.um.a uuu.m ., , . . , , ,
%,:.=....
m.
~.
.m.n......nu .- .
n a.n...nm:.,,n,,,,.,,,,
- u. ,
, , , , ,, ~ . ,
.mn,,,,,m,,,..,,
w 3
, .,, m ,,
. .*h.
. ... .30 .
..m um.mm. , . .
gn ,,.
O M ~~
" E!!@ [
iU .b.
,[ ,. .5.'!.!..'ii'[\'{!!jj'.3,n.j[ w
- ~~.~ un. .
. ,"1 m. . . n >.
. n n m. u,,,,,,, <
=~a.
. "J,
= #
=
lrg >
~" m
- ..,.. =
.c e
w
= -.n a "
m ,. , ., .
1
': s
- y 4
"m- . .: .
, . m. . ac. -. .
E $ .f . s
.., h E. [
c, n =
., . n, o
m..
.. .= n
=
. . =
- n. -
as.,,
u 30 >-
=. m
~ m. =
=
n m,
. . n... mn..~, ,
, . , . .... m g n
- y. =
.a = . ...
n.u non m
m m.n, m,
., a n
....m...m....
m
.n,,,..m..,
m, , ,
=
m m
- m. ., .a as m,mu m,,m, .
V =,, -
....m....n..m.m. ..
n ,n.n,,.,.,, , 4 a.s N
==m u. m ,,.,
. , . == n .,. n ,.
n...n.n..m.....
, , i
~~. .
nm. n.. . .,,..,
~. .,_.= ,
m u .
- " * " " ' ' " " " " " - N .n= R .,a
".7*
.@ ' _ n =
= ** m =ownm,..m * .
,, .,. 9-==.,
e '; e. n....n..m.n...m....
....m.n .
, ga4,:- ,, ,
, ,* =e a
a.
c
-e m,.n
.,m,,,;, =.,,, ,a,,=nn
- o n.n.un
.'".'.m"'.","n.,o
.".a,_a'"'=.am
,, ., ie. .e s
. . . m...n....
.m..n.m. n. .. m
.. . .n n.,m.m n.n n ,,
.,, g n
.u ,. .n .n..
. ... . . y
, ........m.....z..
= .
est
.m.n
., ...,nn nnu.n m.m ,a ,
-om . ..m.m
.mo ,m m.m.. no
. . a
- %.m . -n.m ., ,
nmmu ,
sh,
= ,
e .ume . , , n.m...n.n
.u ..m. un..nmum.n ,,
M . .n.m
.m ,o ,
...n
.nm..n.n n.
.n. .. . mna . , ,
m nu nnu
. m.am m >. . .unn , ,,. .
m
.,, -n nom . . mm
=,.
a == :=
= .
J..'. ; ,:,"r"* . ' * .. '.':::::"
ma mam .
=m
- a. ,,,. - =
m..
. m o
/M" ==:
4" an .. . . . . .
.mn
,::p .=.=.:
==
-. w .,4 m . =m
- o ,
..n.m.n.
a..n . .
. ., , .a.n.~...,.
. . n, u.m..
e-. . e.n.nn,.
m -J.* .
. -n
~ ~ mm on m
n.
.m ==="m n,o,,
m.a.=,m,.., .
~=.~
== ~=== nam um.,,. . ~=a"~== = ,num .. .,
m
= = ~. ,.smam a =. m nmm m .,.
e .. .nmm. c u.
~
=d.".".%w c'.m.
mm un,n,a
~ m,m,
=- ., m~ = ,
w
=
. "
- w =
- = ,
e ym.-m ;:T.' . . . ; m: i.u :lIn "= its :
u
.l"" ::'::",1,
.m . .n,. m.n. .m ,,....,
.n .=. -
.- .-ommm .
.m.
u ,.
.ca ag .=..n nun ,. m,,, .nm,n . n..
ma n. ...n. ..m. ..m..m...m...,
m n......... ,m,
. ,q m , .
.*. . - m
, m .m..
.,n o. ,m,,
mm on g
m .nm ., , . ..mn " -,on......,, ,
~
7 , .,
. a,q,, ,
==a o ,
(i =, m =:::annunnum NW m.n ga
= .=.,, E.o.nmonn...n.
nn -
. n.mn;;;;;;;;;* ,
.momm.,.,.,m..,.,,.,
.n
=.m mu m....n n.ma,,n.,,
. . . . ,n.,,U.::.,:,'.
.. n.um.un m- um m.m...n ,,
. ,m.
.nnum..nnm..
. .:, nanno ._ 2a .nn
- .m.,,.....
- J.:;;,;,,,,
. . _. .. .. ....m..,.,,,n
.m.nnmmm,~.,,,,,,,.., .onmu .m. m..m. . . , . . . . . .- mmm.mmm, ...,,
TABLE 9 (Sh. 1 of 6) -
REPORT NO. CL- 220hh .
. SUSQEHANNA RIVER WATER ANALYSIS JANUARI,1978 Peach Botton Atomic Power Station .
. Philadelphia Electric Company Date March 17, 1978 ,,
Upriver Plant Canal Sample Intake Discharge T A, ha 1A1h8 1 h7 ha pH at 25'c .
71 70 70 Conductivity,puho/ cur at 25'C 325 3h5 330 N' Suspended. Solids, ag/I -1 .
3- 3- ,
Phosphate, ag/l as PO., 0.28 0.28- 0.27 Sulfate, ag/l as SO, 50- 55 - 50' Copper, ppb as Cu 2, 6 5 Zinc, ppb as Zn 50 57 60 Cadmitsa, ppb as Cd 0.2 0.8 0'.1 Iron, ppb as Fe- 500 h87 500 Cobalt, ppb as Co 6 5 7
- Nickel, ppb as Ni 8 6 5, Chramin=, ppb as Cr 1 1- 1 ,
Manganese, ppb as Mrs 265 227' -
235 -
Analyzed by: - -
t
}p Approved by: / ///71e m g-P. E. Co. Chemical Laboratory V
4 s
4 TABLE 9 (Sh. 2 of 6)
REPORT !!0. CL- 22170 SUSQUEHANNA RIVER WATER ANALYSIS FEBRUARI, 1978 Peach Bottom Atomic Power Station Philadelphia Electric Company r
Date Febr2arr 28.1978 I
Upriver Plant Canal Sample Intake Discharge pH at 25'C Conductivity,pmho/cm at 25*0 Susper.ded Solids, mg/l Phosphate, mg/l as PO 4 Sulfate, mg/l as SO 4 Copper, ppb as Cu 19 26 33 Zinc, ppb as Zn 110 267 150 Cadmium, ppb as Cd 0.h 0.6 0.5 Iron, ppb as Fe - - -
Cobalt, ppb as Co 18 3h 25 Nickel, ppb as Ni 8 16 15 Chromium, ppb as Cr 8 15 13 Y.anganese, ppb as Mn h30 675 525 Analyzed by: GCS
'(
Approved by:
P. E. Co. Chemical Laberatory i
l c .
, a TABLE 9 (Sh. 3 of 6) .
REPO!tT NO. OL- 22171 SUSQtEHANNA RIVER WATER ANALYSIS MAR 2 , 1978 Peach Bottom Atomic Power Station Philadelphia Electric Comparr/
Date March 31. 1978 Upriver Plant Canal hapl e Intake Discharge '
pH at 25 C t Conductivity,umho/cm at 25'C l
Susper.ded Solids, mg/l l Phosphate, mg/l as PO.
Sulfate, mg/l as SO, Copper, ppb as Cu '16 32 3h Zinc, ppb as Zn 37.5 100 100 Cadmium, ppb as Cd 0.2 0.6 0.6.
Iron, ppb as Fe 2750 6500 ,6500 Cobalt, ppb as Co 19 38 32 Nickel, ppb as Ni 26. 73 5h Chromium, ppb as Cr 10 22 20 i
Manganese, ppb as Mn 250 575 506 Analyzed by: JWS I V Approved by: '
~
P. E. Co. Chemical Laboratory
(
TABLE 9 (Sh. 4 of 6)-
REPORT UO. CL-22172 SUSQUEHA!!NA RI'!ER WATER ANALYSIS APRIL,1978 Peach Bottom Atomic Power Station Philadelphia Electric Company l Date Am il 28.1978 Upriver Plant Canal Sample Intake Discharge pH at 25'C
( Conductivity,pmho/cm at 25 C Susper.ded Solids, ng/l Phosphate, mg/l as PO 4 Sulfate, mg/l as SO 4 Copper, ppb as Cu 11 2 21 Zinc, ppb as Zn 32 25 107 Cadmium, ppb as Cd 0.1 0.1 0,5 Iron, ppb as Fe 2600 877 6600 j Cobalt, ppb as Co 8 3 22 Nickel, ppb as Ni 10 8 51 Chromium, ppb as Cr 5 2 11 Manganese, ppb as Mn 2h0 112 550 Analyzed by: .Di5
[5**/ \
Approved by: U"~~ l P. E. Co. Chemical Laboratory
TABLE 9 (Sh. 5 of 6)
REPORT NO. CL-22173 SUSQtEHANNA RIVER WTER ANALYSIS Peach Bottom Atomic Power Station Philadelphia Electric Company Date Mar 31. 1978 Upriver Plant Canal Sample Intake Discharge ~ ,-
pH at 25'C Conductivity,paho/cm at 25'C Suspended Solids, mg/l Phssphate, ag/l as PO 4 Sulfate, mg/l as S0 Copper, ppb as Cu 7 12 20 Zinc, ppb as Zn 15 70 32 Cadmium, ppb as Cd 0.2- 0.3 0.2. ,
Iron, ppb as Fe h37 525 725 Cobalt, ppb as Co 2.0 2.0 3,o Nickel, ppb as Ni 2.0 5.0 5.0 Chromium, ppb as Cr 2.0 1.0 1.0 Manganese, ppb as Mn 112 125 162 Analyzed by: J)5 Approved by:
P. E. Co. Chemical Laboratory
. .
- i TABLE 9 (Sh 6 of G)
EPORT NO. OL- 22351 ,
SUSQlEHANNA RIVER WATER ANALYSIS JUNE, 1978 Peach Bottom Atomic Power Station Philadelphia Electric Company -
Date June 30, 1978 Upriver Plant Canal Sample Intake Discharge 6/8/78 6/8/78 6/8h8 pH at 25 C Conductivity,pmho/cm at 25*C Suspended Solids, mg/l Phosphate, mg/l as PO4 Sulfate, mg/l as SO 4 Copper, ppb as Cu 3.5 3 '.5 9.o Zinc, ppb as Zn 12 75 62 Cadmium, ppb as Cd h 32 68 Iron, ppb as Fe 625 725 1625 Cobalt, ppb as Co h.0 6.0 11.0 Nickel, ppb as Ni 12 1h 18 Chromium, ppb as Cr h.0 -
9.0 Manganese, ppb as Mn 237 212 300 Analyzed by: J1E Approved by: I P. E. Co. Chemical Laboratory l
I i
TABLE 10 (Sh. 1 of 10)
MONTHLT CHLORINE DATA .
PEACH BOTTOM ATOMIC PCTc.R STATICH PHILADELPHIA ELECTRIC CCMPANT UNIT [2 CONENSER SECTIONS A, B, C February 1978 ,
Chlorination Rate, f/ day Time, minntes Froe C1, outlet, ag/1 hh i E E A B g c E 1.
1 2
3 h
5 6
{ .
9 '
10
, 11 12 13 1h 15 5000 17 o,3 16 17 h500 ig 18 h500 a h500 15 15 19 h500
.35 .h h500 15 15 .1 .15 21 h5co h300 15 15 .02 .o3 22 23 -
, 2h l
25 26 27 28 29 30 31 Philadelphia Electric Co. Chemical Laboratory
TABLE.10-(Sh. 2 of 10)
MCNTHLY CHLORDIE DATA PEACH BOTTCM ATOMIC PCWER STATICN
. PHILADELPHIA ELECTRIC COMPANT UNIT (3 CONDENSER SECTIONS A, B, C February, 1978 '
Chlorination Rate, 4/ day Time, minutes Free C1, outlet, nst/1 D*t* A. E E A. a, q A, 1 C 1
2 3
h S
6 3500 15 o 7
8 9
lo 11 12 13 lh 15 16 17 18 h500 ngoo 15 15 o o.2 19 h500 h500 15 15 .op 20 .ol
'l c2 hgoo hgGO
.I 15 15~ o .oh 23 2h 25 26 27 28 29 30 31 Philadelphia Electric Co. Chemical Laboratorf 4
+
- _ p. . ._ _ _ _ .
I !
l a
TABLE 10 (Sh. 3 of 10)
MONTHLT CHLOP. DIE DATA .
l PEACH BOTTOM ATOMIC PCWER STATION PmamPHIA ELECTRIC COMPANI UNIT #2 CONDENSER
} SECTIONS A, B, C March 1978 CN1orination Rate, #/ day Time minutes Free C1, outlet, nr/1 AU b b E E E E b E E 1
2 3
h 5 .
6 7 3500 -
.02 8
9 10 11 12 13 1h 5000 5000 5000 ao lo 10 o o o 15 16 17 18 19 20 -
21 h600 h600 15 15 0 o 22 '
23
, 2h -
i 25 26 l 27 28 -
15 0
, 29 30 31 Philadalphia Electric Co. Chemical Laboratory O
e l
TABLE 10 (Sh. 4 of 10) ,
NONTHLT CHLORINE DATA PEACH B(7tTOM ATOMIC POWER STATIN PHILADELPHIA ELECTRIC COMPANT UNIT f3 CONENSER SECTIONS A, B, O March 1978 Chlorination Rate, f/ day Time, minutes Free C12 outlet,aut/l hk i E E i E E E E E 1
2 3
h o
7 ~
8 h700 him 15 15 <0.1 <o.1 9
10 11 12 13-1h 15 h500 h500 - - - -
16 17 18 19 20 n.
23 .
2h 25 26 27 28 29 30 31 Pn11adelphia Electric Co. Chemical Laboratory
TABLE 10 (Sh. 5 of 10) '
MONTHII CHLORINE DATA .
PEACH BOTTOM ATOMIC POWER STATION PHIIADELPHIA ELECTRIC COMPANI
! UNIT f2 CONDENSER i SECTIONS A, B, C
. April 1978 Chlorination Rate, 4/ day Time, minutes Free C1, outlet, nst/1 D*t* l. 1 E 6. 1 E 8. 1 E 1
2 3
h 3500 3500 15 15 o o 5 -
6 7
8 9
10 11 3000 15 0 12 13 1h 3500 3300 3300 15 15 15 o o' o 15 16 17 18 19 20 21 22 /
23 2h
- 25 26 27 28 29 30 31 Ph41=rialphia Electric Co Chemical Laboratory O
J
_______s
TABLE 10 (Sh. 6 of 10)
NOITHLI Ch*LORINE DATA PEACH BOTTOM ATOMIC PCWER STATICH PHILADELPHIA ELECTRIC COMPANY UNIT f3 CONIENSER
]
l SECTIONS A,B,C 4
April 1978 1 Chlorination Rate, #/ day Time, minutes Free C1, outlet, un/1 hu { g Q [ g Q { R E 1
2 3
s.
6 7
8 9
- 10 11 12 3cco 15 o
! 13
! 1h 15 3 16 17 18 19 j 20
'u 23 2h
! 25 26 i 27 28 29 30 31 i
i Philadelphia Electric Co. Chemical Laboratory 1
~~ - - .,
TABLE 10 (Sh. 7 of 10)
MONT!H2 CHLORINE DATA .
1 l
PEACH BOTTOM ATOMIC POWER STATICN PHILADELPHIA ELECTRIC COMPANI
, UNIT f2 CONDENSER
- SECTIONS A,B,C May 1978 Chlorination Rate, 4/ day Time, minutes Free C1, outlet. aut/1 h" i E A B E E i & E 1 2700 2700 15 18 o 2
o 3
h 5 -
6 7
8 2500 2000 2300 15 15 15 .15 .25 .30 9 2500 2500 2000 10 15 15 15 .20 .30 .20 2200 2200 2000 15 15 15 .20 .50 .20 11 3hoo 3200 3100 .20 12 15 15 15 .30 .20 3500 3300 3300 15 15 15 20 .15 .15 13 3300 3300 3300 15 15 15 .15 .15 .10 1h 3hoo 3hoo 3hoo 15- 15 15 .10 .10 .10 15 3300 3300 3300 16 15 15 15 .10 .10 .10 3200 3200 2200 15 15 15 .07 .08 .08 17 2600 2600 2600 20 20 20 0 o o 18 3100 3100 3100 15 15 15 .o5 .o6 .oh.
19 2800 2750 2800 17 15 18 .10 .10 .10 20 2800 2800 21 22 - 15 .10 .10 2850 2850 2700 18 15 18 .10 .10 .30 22 2800 2800 2800 17 20 15 .10 .15 .15 '
23 2800 2800 2800 18 2h 20 16 o .10 .10 275o 2750 2800 30 20 18 o .10 ~ o 25 26 1300 1300 1300 - - - 0 .10 .10 27 28 29 30 31 Philadalphia Electric Co. Chemical Laboratory O
e
TABLE 10 (Sh. 8 of 10)
MONTHLY CHLORINE DATA 1
PEACH BOTTOM ATOMIC PCWER STATICH PHILADELPHIA ELECTRIC COMPAhT 4 UNIT f3 CONIENSER
- SECTIONS A, B, C d
May 1978
- j Chlorination Rate, f/ day Time, minutes Free C1, outlet, at/1 nata A B C A 9 C A B C,
]
2 1
2 3
1 4
h 1
i O
7 8
1 9 10 -
11
- 12
- 13 lh 3h00 15 .10 15 16 i 17
- 18 3100 15 .07 19
! 20
~
5 15 0.2 23 25 2 26 27 1
28 i 29 30 31 i
Philadelphia Electric Co. Chemical Laboratory i
e
TABLE 10 (Sh. 9 of 10) ' " '
MONTHLT CHLORINE DATA PEACH BoIToM ATOMIC POWER STATION PHIIADELPHIA ELECTRIC COMPANI UNIT #2 CONDENSER 4
SECTIONS A, B, C June 1978 Chlorination Rate, f/ day Time, atinutes Free C1, outlet,ag/l
"" L L L L B E L E E 1
2 3300 3300 3300 15 15 25 .o7 .06 .08 3
h 330o 33co 33co 5
15 15 15 .o8 .oS .07 3200 3200 3200 15 15 15 o o o 6 3200 3200 3200 15 15 15 o o 0 7 -
8 9
lo 3800 25 .20 11 12 13 1h 15 2 .
17 18 19 20 21-22 '
23 2h -
25 26 27 28 3
b b 31 Philadalphia Electric Co. Chamical Laboratory
TABLE 10 (Sh. 10 of 10)
NONTHLT CHLCRINE DATA PEACH BOTTOM ATOMIC PCWER STATIQ(
PHILADELPHIA ELECTRIC COMPANI.
tiNIT f3 CONI]DISER . l SECTIONS A,B,o June 1978 Chlorination Rate, f/ day Time, minutes Free C1, outlet. aut/1 D*t* 6. E E. A, B Q A,, g Q 1 3300 3300 330o 15 15 15 .oh .ok .05 2
3 h 3300 15 .ok 3200 3200. 3200 15 15 15 o o o
. 3200 3200 3200 15 15 15 o o o 7
8 9
lo 11 12 13 1h
- 15 16 -
17 18 19 20 21 23 2h 25 26 27 ,
28 29 3100 3100 3100 15 15 -15 .10 .10 .2o 3o 3200 3200 3200 15 15 15 o o o 31 Philadelphia Electric Co. Chemical Laboratory
TABLE 11 (Sh. I of 5) 1 l
i PONTHLY CHIDRINE SURVET PEACH BOTTOM ATOMIC POWER STATICE PHIIATIPHIA ELECTRIC COMPANI FEBRUARY 1978 The following data lista results of the monthly survey of chlorine residual determinations made on samples taken at the canal discharge to the river during chlorination in the plant on March 1,1978.
Chlorination Data Condenser Rate Free Chlorine Residual, ag/l ~
Time Section g Start Middle _ End 2:02 p.m. 31 h500 0 <o.1 <o.1 Canal Discharge Data Time Total Chlorine Residual, ag/l 2:02 pm <o.02 .
2:17 pm <0.02 2:32 pm <0.02 ,
2:h7 pm <o.02 3:02 pm 4 .02 3:17 pm 4 .02 Philadelphia Electric Co. Chemical Laboratory 9
4 4
--- -- - _ . - - _ _ - - - - - - -. -._-.--- --------__--w
to 8 g
, TABLE 11 (Sh. 2 of 5)
MONTHLY CHLORINE SURVET PEACH BOTTOM ATOMIC POWER STATICH PHILA2IPHIA ELECTRIC COMPANY MARCH 1978 The following data lists results of the monthly survey of chlorine residual determinations made on samples taken at the canal discharge to the river during chlorination in the plant on 2farch 21,1978.
Chlorination Data Condenser Rate Free Chlorine Residual, mg/1' Time Section g Start Middle _ Erwi 2:50 p.m. 2A h600 .2 .2 .1 Canal DLacharge Data Time Total Chlorine Residual, mg/l 1th5 p.m. <o.1 2:00 p.m. <o.1 2:15 p.m. <o.1 2:30 p.m. <o.1 2:h5 p.m. <o.1 3:00 p.m. <o.1 3:15 p.m. <o.1 Philadelphia Electric Co. Chemical Laboratory
TABLE 11 (Sh. 3 of 5) .
!Of.~lHLT CHLORINE SURVET PMCH BOTTOM ATOMIC PO'4R STATICH PHILAEIPHIA ELECTRIC COMPANY APRIL 1978 ,
The following data lists results of the monthly survey of chlorine residual deteriminations made on samples taken at the canal discharge to the river during chlorination in the plant on g Ig, pg, ,
Chlorination Data Condenser Rate- Free Chlorine Residual, ag/l 4/ Day Start Middle End Time Section 10:00 a.m. 3A h500 %oz wo2 5 02 Canal illscharge Data _
Time Total Chlorine Hasidual, mg/l 10:15 a.m 4 .02 10:30 a.m . <c.02 .
<c.02 :
10 h5 a.m 11:00 a.: . <c.02 11:15 a.m do.02 t,
Philadelphia Electric Co. Chemical Laboratory
+
t
~ -
TABLE 11 (Sh. 4 of 5)
NONTHLY CHLORINE SURVET PEACH B0ff0M ATOMIC POWER STATION PHILAELPHIA ELECTRIC COMPANY MAY 1978 The following data lista results of the monthly survey of chlorine residual determinations made on samples taken at the canal discharge to the river during chlorination in the plant on May 17, 1978.
Chlorination Data Condenser Rate Free Chlorine Residual, mg/l Time Section f/ Day Start Middle End 10:55 a.m. 2A h500 <o.1 m.1 m.1 Canal QLacharge Data Time Total Chlorine Residual, mg/l 10:55 a.m. <o.1 11:10 a.m. <0.1 11:25 a.m. <o.1 ll:h0 a.m. 4.1 11:55 a.m. <c.1 12:10 p.m. <o.1 12:25 p.m. <0.1
(
Philadelphia Electric Co. Chemical Laboratory
h s~ g (TABLE 11 (Sh. 5 of 5)
PCNTHLY CHIDRINE SURVEY PEACH BOTTOM ATOMIC POWER STATICN PHILA2IPHIA ELECTRIC COMPANI JUNE 1978 The following data, lists results of the monthly survey of chlorine residual determinations made on samples taken at the canal discharge to the river during chlorination in the plant on June 30,,1976. -
Chlorination Data Condenser Rate Free Chlorine Residual, ag/l Time Section g Start Middle End 13:2o 2A 3hoo -
o o o 13:35 2a 3hoo o o o U:50 ,,
2c 3h00 o o o Canal Discharge Data Time Total Chlorine Residual, mg/l 13:15 o 13:30 o 13 ho o 13:50 0 -
Ik:oo o Ik:15 o lh:30 o j
1hsho o l
Philadelphia Electric Co. Chemical Laboratory l
.