ML11195A161
| ML11195A161 | |
| Person / Time | |
|---|---|
| Site: | Indian Point  |
| Issue date: | 01/31/2011 |
| From: | Cohn N, Crowley D, Decker L, Yeon Kim, Mendelsohn D, Miller L, Swanson C Applied Science Associates |
| To: | Entergy Nuclear Northeast, Office of Nuclear Reactor Regulation |
| References | |
| Download: ML11195A161 (76) | |
Text
ENCLOSURE 2 TO NL-11-078 2010 FIELD PROGRAM AND MODELING ANALYSIS OF THE COOLING WATER DISCHARGE FROM THE INDIAN POINT ENTERGY CENTER - APPENDICES (JANUARY 31, 2011)
ENTERGY NUCLEAR OPERATIONS, INC.
INDIAN POINT NUCLEAR GENERATING UNIT NOS. 2 and 3 DOCKET NOS. 50-247 and 50-286
asa science. sevices soutions.
Applied Science Associates Inc 55 Village Square Drive South Kingstown, RI02879 USA phone: +1 401 789-6224 faxý 11 401 789-1932 ASA Offices.
Sko Paulo, Brazil Shanghai, China Gold Coasý Australia Perth, Australia mwaisasci ence.coM
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge APPENDIX A: THERMISTOR TEMPERATURE TIMESERIES wwwa...... A-i www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 -- 1 OIt deep 5 3 It deep 94 15.8 ft deep 25 3 It deep 90 88 88 84
- 82 80 78 17 74 I-Stehon0l 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-1: Hourly sub-sampled temperature time series for all depths at Station 1 from July to September 2010.
96 1 0 It deep 5 4 It deep 16.3 It deep 94
- 19 0 It deep 92k 90-88-86 ILI 84 82 80 78 76 I-74'-
72 70 S I .r I , .,
I ,, I . i ,.
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. . . I . 1 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-2: Hourly sub-sampled temperature time series for all depths at Station 2 from July to September 2010.
.... *.*A-i www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 1,0ff deep 5 3 ft deep 1
158 ft deep 265 ft deepj CL Of Sfaborbf3 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 Jufy 2010 August 2010 September 2010 Figure A-3: Hourly sub-sampled temperature time series for all depths at Station 3 from July to September 2010.
1 0 ft deep 96 5 2 ft deep 15 7 ft deep 94 27 6 ft deep 92 F-901-88 -
86 84 0.L Ef E-82 80 78 76-74 72 Stabon04 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 Jtfy 2010 August 2010 September 2010 Figure A-4: Hourly sub-sampled temperature time series for all depths at Station 4 from July to September 2010.
Aw-www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 - 1 0 ft deep 5 1 ft deep 94 153 It deep 25 5 ft deep 32.0 It deep 92 -- 38 4 ft deep 90 88 86 E
i- 82 80 18 76 14 72 StabonO5 70 - I . L L L . L L - -
05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-5: Hourly sub-sampled temperature time series for all depths at Station 5 from July to September 2010.
96 1 0ift deep 5 1 ft deep 5s3 ft deep 914 25 5 ft doep 322 It deep 92 I- 38 9 ft deep 90 -
88 86 84 82 80 18 161-74 I-72 SteaonO6
. I . I . . . I , I . i . . . I I I . I . i , . , i . I . I . .
"05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-6: Hourly sub-sampled temperature time series for all depths at Station 6 from July to September 2010.
A -3 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1.0 If deep 5 3 If deep 16.0 It deep 94 22.9 ft deep 92 90 88 86
..,84 E
i 82 80 78 76-74 k 72 StationO7
.05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-7: Hourly sub-sampled temperature time series for all depths at Station 7 from July to September 2010.
I w I I I I 1 I 96 1.0 It deep 53 f deep 15 9 ftdeep 94 23 9 ft deep 92 F 90F 88k 86 L-0-84 E
i..82 80 78 76 741-72 SttahonO8 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-8: Hourly sub-sampled temperature time series for all depths at Station 8 from July to September 2010.
A-4 -A www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 10 ft deep 5 2 ft deep 94 1560 deep 26 0 ft deep
-- 30 4 ft deep 92 90 88 86 Q_., 84 CL-ES82 80 78 .
76 .
14 -
72
-StalienOg 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-9: Hourly sub-sampled temperature time series for all depths at Station 9 from July to September 2010.
96 -- 1 0 ft deep 5 2 ft deep 15 5 ft deep 94 I- 25 6 ft deep
-- 32 1 ft deep 92 I-90 F 88 86
-,84 CL E
82 80 78 16F 141k 72 StationlO
,05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-20: Hourly sub-sampled temperature time series for all depths at Station 10 from July to September 2010.
A-5 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1.0 deep 5 2 ft deep S 15 7 ft deep 9427 4 t deep 92 .
90 .
88 88
- "84 E
. 82 80 78 .
76 .
74 .
72 Stabeoni1 I
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70 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-31: Hourly sub-sampled temperature time series for all depths at Station 11 from July to September 2010.
96 - 1.0ft deep 5 2 ft deep 10.6 ft deep 94 -- 20 1 ft deep 92 l-88 86 U-Q_ 84 CL E
lo. 82 80 78 74 F 72 Station12 13 17 21 25 29 02 00 7...................................................................................
05 09 10 14 18 22 26 30 03 07 11 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-42: Hourly sub-sampled temperature time series for all depths at Station 12 from July to September 2010.
www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge F ,, W* i , p. . .
96 -- 1 0 It deep 5 1 ft deep 94 15,2 ft deep 25 3 ft deep 35 8 ft deep 92 - 7-7 46 36t deep 90 88 86 84 E
.. 82 80 78 76 74 72 Stabonl3 105 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-53: Hourly sub-sampled temperature time series for all depths at Station 13 from July to September 2010.
96 160 ft deep 5 1 ft deep 94 1s649i deep 25 7 it deep 30 5 it deep 92 239i 3___ deep 90 88 86 U-Q- 84
.82 80 78 76 74 72 Stabonl4 05 09 13 17 21 25 29 02 065 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-64: Hourly sub-sampled temperature time series for all depths at Station 14 from July to September 2010.
A-7 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 -- 1 0 ft deep 5 0 It deep 94150 t deep 25 0 ft deep 4198 t deep 92 58 8 t deep 90 88 86 Lt C- 82 80 78 76 74 72 Stetien15 - - - I I -
,05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-75: Hourly sub-sampled temperature time series for all depths at Station 15 from July to September 2010.
96 1 0 it deep 5 2 It deep 151 It deep 94 28 5 ft deep 921-90-88 86
-. 84 CL-E
~.82 80 78 76 141-72 Station163 70 .' '
.L . . , . . . I . 02 I . 06
- . 10 i . 14 i L . 22 i _L , 30 ,L 03 05 09 13 17 21 25 29 18 26 07 11 July 2010 August 2010 September 2010 Figure A-86: Hourly sub-sampled temperature time series for all depths at Station 16 from July to September 2010.
A-8 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 ft deep 5 0ft deep 15.1 ft deep 94 25 1 ft deep 38 9 ft deep 92 -- 52 7 ft deep 90 88 86 94 E
j- 82 80 78 76 74 72 Stafimnl7 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-97: Hourly sub-sampled temperature time series for all depths at Station 17 from July to September 2010.
96 1 0 ftdeep 5 0 ftdeep 15 0 t deep 94 25 0 ft deep 43.1 ft deep 92 61 2 ft deep 90 88 ., I i .
86 84 E
- 82 80 78 16 74 72 Sitat.e18 - I I I . - . H
. I
. . . I - I H
'05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-108: Hourly sub-sampled temperature time series for all depths at Station 18 from July to September 2010.
A-9 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 - 1.0 It deep 5 1 ft deep 94 15 3 ft deep 25 5 ft deep 31 9 It deep 92 38 3 ft deep g0o-881 86
'-L84 E
82 80 78 76 74 1-72 StabionI9
,05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-119: Hourly sub-sampled temperature time series for all depths at Station 19 from July to September 2010.
86 10 ft deep 5 2 ft deep 1586 It deep 94 -- 28 8 ft deep 92 I-901F 88 86
- a. 84 E
82 80 78 76 74 72 Station2O 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-20: Hourly sub-sampled temperature time series for all depths at Station 20 from July to September 2010.
_A-10.
www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1.0 it deep 5 0 It deep 94 150 ft deep S 25 0 ft deep 42.9 ft deep 92 609ff deep 90 88 86 I C- 84 E
82 80 78 76 74 72 Stetion2l 711 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-212: Hourly sub-sampled temperature time series for all depths at Station 21 from July to September 2010.
I T I I
- W 1 96 -- I 0 ft deep 5 0Oftdeep 15.0 ft deep 94 25 0 ft deep 42.5 ft deep 92 -- 60 0 ft deep 90 I
88 86 84 0.
82 80 78 76 74 72 05 1I40 1 7221 252 28 0 9 0 30 03 07, 11, Station22 7* ,. . . .
05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-22: Hourly sub-sampled temperature time series for all depths at Station 22 from July to September 2010.
A-11 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 ft deep 5 0 ft deep 94 15 0 ft deep 24 9 ft deep 43.6 It deep 92 62 4 ft deep 90 89 86
°.84 CLJ E
- 82 90 78 76 74 72 Statbn23 I . I . I . I . I . I . I . I , I . I . , . , , ý
. I . I . I .
05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-23: Hourly sub-sampled temperature time series for all depths at Station 23 from July to September 2010.
96 1 0 I deep 94 2490 ftitdeep 15 deep 24 9 ft deep
_ 439 ft deep 92 r03 0 ft deep 90 88 86 84 CL E
- 82 r
80 78 76 74 I 1I 1. 1 1 1 72 Staton24 7 n.
05 09 13 17 21 25 29 02 08 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-24: Hourly sub-sampled temperature time series for all depths at Station 24 from July to September 2010.
A-12 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 1
94 442 t deep 92 92 _63 6 ft deep 90 88 I 86 84 E
.. 82 78 .. . . . . . .. . . .. .
74 72 -
Stabon25 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-25: Hourly sub-sampled temperature time series for all depths at Station 25 from July to September 2010.
1.0 I 96 1.0 It dee deep' 5,0 ft deep 149 ft deep 94 F-24.9 It deep 46.0 ft deep 92 67 2 ft deep 90 8
96 U-Q. 84 E
082 72 . . . .
Station26 :
.05 09 13 17 21t 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-26: Hourly sub-sampled temperature time series for all depths at Station 26 from July to September 2010.
A- 13 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 10 ft deep 5 0 ft deep 14 9 ftdeep 94 24 9 ft deep 46 6 ft deep 92 - 68 4 ft deep 90 88 86 ft- 84 82 74 72 Stteon27 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-27: Hourly sub-sampled temperature time series for all depths at Station 27 from July to September 2010.
96 l1ft deep 52 ft deep 94 - 15.5 ft deep 25 8 ft deep 33.63ft deep 92 90 88 86 9-4 02 E
8 82.
80 78 76 74 72 Stetion28 05 09 13 17 21 25 29 02 08 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-28: Hourly sub-sampled temperature time series for all depths at Station 28 from July to September 2010.
A - 14 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 ft deep 52 ft deep 94 94 I 28 7 15 ft deep 5 ft deep 921-901-881-86 84 E
82 18 16l-
'4 72 Stahon2g 70 ..................................
05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-29: Hourly sub-sampled temperature time series for all depths at Station 29 from July to September 2010.
96 - 1 0 ft deep 5 0 ft deep 15 0 ft deep 94 F 25 0 ft deep 42 0 ft deep 92 - 59 0 ft deep 90 88 86 84 M11 82 761 r
14L 721
-~Stebon3O, 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-30: Hourly sub-sampled temperature time series for all depths at Station 30 from July to September 2010.
15A- -S..
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ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 10 ft deep 5 0 ft deep 94 14.9 It deep 24 8 ft deep 48.1 ft deep 92 71 5 0t deep 90 88 94d2 e 78 76 74 72 Stalaon31 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 90 Figure A-313: Hourly sub-sampled temperature time series for all depths at Station 31 from July to September 2010.
96 l 1A0 ft deep 5 0 ft deep 941 W9 ft deep 94 24 9 ft deep 46 4 It deep 92 68 0 ft deep 90 70 88 S84 E
8O 78 74-72 Stabon32 05 09 13 17 21 25 291 .2 06 Ill 14 18 22 111 3. . 111 11 July 2010 August 2010 September 2010 Figure A-32: Hourly sub-sampled temperature time series for all depths at Station 32 from July to September 20.10.
A 1 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1,0 It deep 49 It deep 94 14.8 ft deep 24 7 ft deep 51 8 It deep 92 786 ft deep 90 oT1 I*II 86 Ol CL E
S82 84 78 74 72 70 05 09 13 17 21 25 29 02 06 10 14 1. 22 29 30 03 07 11 July 2010 August 2010 September 2010 Figure A-33: Hourly sub-sampled temperature time series for all depths at Station 33 from July to September 2010.
96 1.0 Rddeep 4 9 ftdeep 14 ,8It deep 4
94 ;1u46 ft deep 58.3 ft deep
-- 920 ftdeep 92 90 88 86 o-84
- 2 80 18 7'4 72 T0 10 14 18 22 26 30 03 07 11 05 09 13 17 21 25 29 02 06 August 20 10 September 2010 July 2010 34 from July to September 2010.
Figure A-34: Hourly sub-sampled temperature time series for all de pths at Station www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 It deep 49 ft deep 14 8 ft deep 94 24 7 ft deep 55.4 It deep
- 86 1 ft deep "1
92 90 88 86
- 84 E
82 80 78 76 74 72 Station35 7* , I . t . I
- I , I . I I I : I i I : I
- I : I i I i I
- I , I =
05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-35: Hourly sub-sampled temperature time series for all depths at Station 35 from July to September 2010.
96 - 1 0 It deep 5 1 ft deep 94 154 0t deep 25 7 ft deep 34.5 It deep 92 88 86 84 80 78 76 74 72 Statbon36 70.....I :. :.................. ,I I I, ,I 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-36: Hourly sub-sampled temperature time series for all depths at Station 36 from July to September 2010.
. ..... . ...- 18.
www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge I ,i -i i 'I r.i ,i. i *i ii ii' LLL LX 96 - 1 0l deep 5 1 ft deep 94 15 3 ft deep 25 5 ft deep 31,9 Itdeep 92 -- 38 3 ft deep 90 -
88 86 84 80 78 76F-741k 72 Statmn37 7n-
-05 09 13 17 21 25 29 0? 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-37: Hourly sub-sampled temperature time series for all depths at Station 37 from July to September 2010.
96 1O0-ft deep 4 9 It deep 14 8 It deep 94 24 6 ft deep 58.5 ft deep 92 92 4 ft deep 90 88 86 U.
< 84 CL 82 80 78 76 74 72 Stabon38 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-38: Hourly sub-sampled temperature time series for all depths at Station 38 from July to September 2010.
A-19 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 It deep 4 gt deep 94 148 ft deep 24 6 ft deep 57.9 It deep 92 -- 9 1 2 ft deep 90 88 86 84 E
g-82 76 74 1-72 Stahonr39 I - - I
,05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-39: Hourly sub-sampled temperature time series for all depths at Station 39 from July to September 2010.
96 1 0 ft deep 5 1 ft deep 94 15 4 ft deep 25 6 ft deep 3069 ft deep 92 -- 36 2 ft deep 90F 88 I-86 84 E
82 80 78 76 F 74 I-72 4
._[Sfeben l[O I . . I I 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August2010 September 2010 Figure A-40: Hourly sub-sampled temperature time series for all depths at Station 40 from July to September 2010.
_A-20 A -
www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 - 1 0 ft deep 5 1 ft deep 94 154 ft deep 25 6 ft deep 31 4 ft deep 92 .... 37 1 ft deep 901-881-86 84 E
82 80 78 76 F 74 I-72 Station4l
,05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-414: Hourly sub-sampled temperature time series for all depths at Station 41 from July to September 2010.
96 1.0 ft deep 50Oft deep 15.0 ft deep 94 k 24,9 ft deep 44.1 ft deep 92 r 63 2 ft deep 90 F 88-86 84 E
82 80 78 76 74k 72 Statlen42 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-42: Hourly sub-sampled temperature time series for all depths at Station 42 from July to September 2010.
21 ----
www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 - 1.0 ft deep 5 2 ft deep 1586 ft deep 94 26 0 ft deep 92 29 3 ft deep 92 . . . . .. . .. . . .
88-86 k 84 IE i-82 80 78 741-72 Stabon43
,05 0gl 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-43: Hourly sub-sampled temperature time series for all depths at Station 43 from July to September 2010.
I 96 -- 1 OIt deep 5 2 It deep 15 5 It deep 94 k 25 8 It deep 334 It deep 92 I-90 F-88 84 E
lv82 80 78 76F 74 .-
72 t[aton44 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-44: Hourly sub-sampled temperature time series for all depths at Station 44 from July to September 2010.
A- 22 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 _- 10 It deep 5 0 ft deep 94 150 It deep 25 0 It deep 41 2 R deep 92 L 57. .ftdeep 90 88 86 Q 84 E
- 4) :
80 18 76 74 72 Stehen45 70 t L L 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-45: Hourly sub-sampled temperature time series for all depths at Station 45 from July to September 2010.
96 -- 1 0 It deep 50ft deep 94 149 ft deep 24 9 ft deep 48 5 ft deep 92 -- I 1t deep 90 88 86
-84)
CL 82 80 18 76 14 72 Stetion46
°05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-46: Hourly sub-sampled temperature time series for all depths at Station 46 from July to September 2010.
A-23 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 - 10 ft deep 5 0 ft deep S149 t deep 24 8 ft deep 50W2 ft deep 92 75 6 ft deep 90 88 86 84 E.
02 0
78 76 .
74 .
72 Station47 7A[
05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-47: Hourly sub-sampled temperature time series for all depths at Station 47 from July to September 2010.
96 1.0 It deep 4 9 ft deep 14.7 ft deep 94 24 6 ft deep 62 7 ft deep 92- 100 8 ft deep 90 88 86 84 CL E
80 78 76 74 72 Station48 711 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-48: Hourly sub-sampled temperature time series for all depths at Station 48 from July to September 2010.
+
A- 24 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 ft deep 5 1 ft deep 1523 ft deep 94 25 5 ft deep 31.9 ft deep 92 .38 3 ft deep 90 88 86 84 E
82 80 78 76 74 72 Station49
,05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-49: Hourly sub-sampled temperature time series for all depths at Station 49 from July to September 2010.
-- 1.0 It deep 96 5.4 nt deep 1092 ft deep 94 -- 19.9 ftdeep 92-90 -
88-86 9_84 E
82 80 78 76 74 72 tSte~on~o .i.
.1 .
05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-50: Hourly sub-sampled temperature time series for all depths at Station 50 from July to September 2010.
A-25 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96
-- 1.01 ltdeep 160 deep
- 221 It deep 94 92 90 88 86 84 i 82 80 78 76 14 72 Station5l "05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-515: Hourly sub-sampled temperature time series for all depths at Station 51 from July to September 2010.
96 10 ft deep 14 8 It deep 78 3 ft deep 94 92 90 88 86 84 0.
E El.
U-80 78 76 74 72 Station52 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-52: Hourly sub-sampled temperature time series for all depths at Station 52 from July to September 2010.
A-26 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1.0 It deep 156 tfdeep 305 It deep 94 92 90 88 86 84 E
to 82 80 78 76 14 72 S9t=1i01153 "05 09 13 17 21 25 29 02 06 10 14 is 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-53: Hourly sub-sampled temperature time series for all depths at Station 53 from July to September 2010.
96 190 It deepl 94 92 80 88 86 Q 84 E
t,"0 82 80 18 76 14 72 Stabon54 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 Aaugust 2010 September 2010 Figure A-54: Hourly sub-sampled temperature time series for all depths at Station 54 from July to September 2010.
A-27 -
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ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 It deep 14 9 ft deep 11.4 ft deep 94 92 90 88 86 84 E
82 80 78 76 74 72 Station55
'05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-55: Hourly sub-sampled temperature time series for all depths at Station 55 from July to September 2010.
96 1.0 It deep 14 7 It deep 117.5 ft deep 94 92 90 88 86 84 E
80 78 76 74 72 StltlOn56 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-56: Hourly sub-sampled temperature time series for all depths at Station 56 from July to September 2010.
A-28 -
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ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 15 7 ft deep 27 9 It deep 94 92 90 88 86 Q984 82 lil 82 80 78 76 74 72 Station57 "05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-57: Hourly sub-sampled temperature time series for all depths at Station 57 from July to September 2010.
1.00 deep 96 15 6 ft deep 29 5 ft deep 94 92 90 88 86 84 E 82 80 78 76 74 72 Station58
. I . i . , I. . .. iI . .. . I .
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05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-58: Hourly sub-sampled temperature time series for all depths at Station 58 from July to September 2010.
A -29 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 Itdeep 15 8 ft deep 295 It deep 94 92 90 88 86 84
- 0. 0 E
82 80 78 76 74 72 Station59 u05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-59: Hourly sub-sampled temperature time series for all depths at Station 59 from July to September 2010.
96 1 0 It deep 15 7 It deep 94 27811 deep 92 90 88 86 E
82 80 78 76 74 72 Station60 71.1,I i , , , ,
05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-60: Hourly sub-sampled temperature time series for all depths at Station 60 from July to September 2010.
A-30 ---
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ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 ft deep 15 4 ft deep
- 36. 5 ft deep 92-90-88l-86 84 E
82 80 78 76 741-72 Station6l
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05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-616: Hourly sub-sampled temperature time series for all depths at Station 61 from July to September 2010.
96 1.0 ft deep 15 7 ft deep 94 27.4 ft deep 921-90 88 86 84 C.
E 82 80 78 76 74 -
72 Station62 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-62: Hourly sub-sampled temperature time series for all depths at Station 62 from July to September 2010.
A-31..-
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ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 1 0 ft deep 156 ftdeep 30.5 ft deep 94 92 90 F-88-86 CL ft., 8 4 E
82 80 78 76 741-72 Statlion63
.n Ii . . I
- i . I . . , . , .
- I . I , I . I , I . I , I , I 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-63: Hourly sub-sampled temperature time series for all depths at Station 63 from July to September 2010.
96 1i0 ft deep 150 ft deep 56.9 ft deep 94 92 90 88 k 86 L-0- 84 0.
E i-82 80 78 76 741-72 Stetion94 70-05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-64: Hourly sub-sampled temperature time series for all depths at Station 64 from July to September 2010.
- A-32 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge 96 t f1.0 deep 15 4 ft deep 94 36.9 ft deep 92 90 88 86 Q_384 E
82 80 78 76 74 72 Station65 S . I . .. - . . I
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- I
. . I . I
,05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-65: Hourly sub-sampled temperature time series for all depths at Station 65 from July to September 2010.
96 1.0 ft deep 15 1 ft deep 94 47 3 ft deep 92 90 88 84 E
92 80 78 76 74 72 Station66 05 09 13 17 21 25 29 02 06 10 14 18 22 26 30 03 07 11 July 2010 August 2010 September 2010 Figure A-66: Hourly sub-sampled temperature time series for all depths at Station 66 from July to September 2010.
A - 33 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge APPENDIX B: THERMISTOR TEMPERATURE STATISTICS www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Station Depth (ft) Min (°F) Max (°F) Mean (°F) Median (°F) StdDev (°F) 1 1.0 77.3 86.7 82.3 82.6 1.98 1 5.3 77.1 85.8 82.0 82.3 1.89 1 15.8 76.8 85.4 81.4 81.8 1.86 1 25.3 76.7 85.2 81.1 81.4 1.84 2 1.0 76.9 85.7 81.7 82.0 1.87 2 5.4 77.0 85.0 81.5 81.8 1.79 2 16.3 76.9 83.8 81.0 81.3 1.72 2 19.0 76.9 83.8 81.0 81.3 1.72 1.0 77.1 86.4 82.2 82.6 2.01 5.3 77.3 85.8 82.1 82.5 1.87 15.8 76.7 85.1 81.5 81.8 1.84 26.5 76.9 84.9 81.3 81.6 1.83 1.0 77.1 85.7 81.9 82.2 1.87 5.2 77.0 84.7 81.6 82.0 1.81 15.7 76.8 84.0 81.2 81.6 1.79 27.6 76.8 84.0 80.9 81.3 1.87 1.0 76.8 86.6 82.2 82.7 2.10 5.1 76.7 85.8 82.1 82.5 2.03 15.3 76.6 85.7 82.0 82.4 1.99 25.5 76.1 85.4 81.7 82.1 1.99 32.0 76.1 85.2 81.5 81.9 1.98 38.4 76.1 85.0 81.2 81.6 1.96 1.0 77.1 85.9 81.8 82.2 1.91 5.1 77.0 85.3 81.7 82.1 1.85 15.3 77.0 85.2 81.5 81.9 1.81 25.5 79.4 84.6 82.3 82.4 1.00 32.2 76.5 84.2 81.2 81.4 1.74 38.9 76.6 84.3 81.1 81.3 1.72 1.0 76.8 86.9 82.3 82.8 2.06 5.3 76.7 85.6 82.1 82.6 1.99 16.0 76.4 85.0 81.8 82.3 1.92 22.9 76.2 84.9 81.6 82.0 1.92 1.0 77.2 85.8 82.1 82.5 1.91 5.3 76.7 85.1 81.7 82.2 1.89 15.9 76.7 84.9 81.5 82.0 1.86 23.9 76.4 84.4 81.4 81.9 1.86 1.0 77.1 87.6 82.5 83.0 2.12 5.2 77.3 86.9 82.4 83.0 2.04 15.6 77.2 86.6 82.0 82.6 2.02 26.0 80.4 85.7 83.1 83.2 1.06 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Station Depth (ft) Min (°F) Max (*F) Mean (°F) Median (°F) StdDev (*F) 9 30.4 77.3 86.7 82.1 82.5 2.00 10 1.0 76.5 87.5 82.4 82.8 2.16 10 5.2 76.1 85.7 81.9 82.5 1.98 10 15.5 76.0 85.0 81.7 82.2 1.93 10 25.9 76.1 85.5 81.6 82.0 1.92 10 32.1 76.1 85.3 81.5 81.9 1.91 11 1.0 76.9 88.6 82.9 83.2 2.39 11 5.2 76.3 85.7 81.8 82.5 1.97 11 15.7 76.0 84.8 81.6 82.1 1.94 11 27.4 76.1 84.5 81.4 81.9 1.87 12 1.0 77.1 87.3 82.4 82.9 2.07 12 5.2 77.3 87.0 82.1 82.7 2.01 12 15.6 77.3 86.6 81.9 82.5 1.96 12 29.1 77.3 86.5 81.9 82.4 1.94 13 1.0 76.9 88.7 83.2 83.5 2.43 13 5.1 76.9 87.3 82.5 83.1 2.15 13 15.2 76.1 85.1 81.6 82.3 1.94 13 25.3 76.2 84.5 81.5 82.0 1.91 13 35.8 76.2 84.4 81.3 81.8 1.90 13 46.3 76.3 84.3 81.3 81.7 1.89 14 1.0 76.9 88.2 82.8 83.2 2.30 14 5.1 76.2 85.7 81.9 82.6 1.98 14 15.4 76.1 84.9 81.6 82.2 1.94 14 25.7 76.0 84.7 81.4 81.9 1.91 14 30.5 76.1 84.5 81.4 81.8 1.90 14 35.3 76.2 84.5 81.3 81.8 1.86 15 1.0 77.2 87.0 82.1 82.6 2.04 15 5.0 77.5 86.3 82.0 82.5 1.92 15 15.0 77.3 85.5 81.7 82.4 1.88 15 25.0 77.3 85.0 81.6 82.2 1.86 15 41.9 79.0 84.7 82.3 82.5 1.17 15 58.8 76.1 84.4 81.4 81.8 1.82 16 1.0 77.2 87.7 82.3 82.8 2.10 16 5.2 77.3 86.8 82.0 82.6 2.00 16 15.7 77.3 86.1 81.8 82.4 1.94 16 28.5 77.2 85.1 81.7 82.3 1.91 17 1.0 79.3 92.9 86.8 87.3 2.68 17 5.0 79.3 89.4 84.7 84.7 1.85 17 15.1 79.8 85.6 82.9 83.0 1.08 17 25.1 79.3 84.7 82.5 82.7 1.10 17 38.9 78.9 84.4 82.2 82.4 1.20 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Station Depth (ft) Min (°F) Max (°F) Mean (°F) Median (°F) StdDevv('F) 17 52.7 78.7 84.3 82.1 82.3 1.23 18 1.0 78.8 88.0 83.7 83.5 1.75 18 5.0 79.9 86.2 83.2 83.3 1.22 18 15.0 79.9 84.8 82.7 82.9 1.05 18 25.0 79.6 84.7 82.5 82.7 1.02 18 43.1 78.9 84.1 82.1 82.3 1.09 18 61.2 78.5 83.7 82.0 82.3 1.17 19 1.0 77.3 87.1 82.0 82.6 2.02 19 5.1 77.4 86.0 81.7 82.3 1.98 19 15.3 77.1 84.9 81.6 82.2 1.87 19 25.5 77.0 84.5 81.5 82.0 1.85 19 31.9 76.9 84.2 81.5 82.1 1.84 19 38.3 76.6 84.0 81.4 82.0 1.84 20 1.0 77.3 87.0 82.1 82.6 2.03 20 5.2 77.5 86.1 81.9 82.5 1.93 20 15.6 77.3 85.5 81.6 82.2 1.87 20 28.8 77.2 84.6 81.5 82.1 1.84 21 1.0 80.2 93.8 87.7 88.1 2.99 21 5.0 79.4 90.3 85.6 85.8 2.08 21 15.0 80.1 86.0 83.3 83.3 1.15 21 25.0 79.7 84.4 82.5 82.7 1.00 21 42.9 79.0 83.9 82.1 82.4 1.11 21 60.9 78.5 83.8 82.0 82.3 1.16 22 1.0 76.4 88.5 82.7 82.9 2.50 22 5.0 76.6 87.8 82.4 82.9 2.33 22 15.0 76.5 87.1 81.9 82.5 2.11 22 25.0 76.4 86.1 81.6 82.2 1.97 22 42.5 76.3 84.1 81.2 81.8 1.88 22 60.0 76.1 83.7 81.1 81.6 1.92 23 1.0 81.0 94.7 88.7 89.0 2.94 23 5.0 81.1 91.7 87.3 87.7 2.19 23 15.0 80.2 88.5 84.7 84.7 1.45 23 24.9 80.5 85.3 83.0 83.1 0.92 23 43.6 79.1 84.3 82.2 82.4 1.11 23 62.4 78.7 83.8 82.1 82.3 1.14 24 1.0 75.5 91.9 83.9 83.6 3.43 24 5.0 76.4 90.7 83.4 83.3 3.11 24 15.0 76.6 88.7 82.6 83.0 2.55 24 24.9 76.5 86.7 81.9 82.4 2.12 24 43.9 76.4 83.9 81.3 81.8 1.87 24 63.0 76.0 83.8 81.0 81.5 1.92 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Station Depth (ft) Min (°F) Max (°F) Mean (°F) Median (°F) StdDev (°F) 25 1.0 75.6 95.1 85.3 84.3 4.64 25 5.0 76.4 93.2 84.7 83.9 4.07 25 15.0 76.7 90.3 83.6 83.3 3.19 25 24.9 76.6 88.5 82.8 82.9 2.61 25 44.2 76.6 85.6 81.4 82.0 1.99 25 63.6 75.8 83.9 81.0 81.6 2.02 26 1.0 75.5 91.0 83.6 83.3 3.34 26 5.0 76.5 89.8 83.4 83.3 3.00 26 14.9 76.7 88.1 82.7 82.9 2.55 26 24.9 76.6 87.3 82.1 82.5 2.19 26 46.0 76.5 84.7 81.2 81.7 1.95 26 67.2 75.6 83.8 80.9 81.5 2.04 27 1.0 77.6 88.5 83.2 83.1 2.39 27 5.0 76.5 88.2 82.6 82.8 2.48 27 14.9 76.6 87.1 82.0 82.4 2.21 27 24.9 76.5 86.2 81.5 82.1 2.01 27 46.6 76.3 83.8 81.1 81.7 1.93 27 68.4 75.6 83.6 80.8 81.4 2.03 28 1.0 77.4 87.4 81.9 82.5 2.05 28 5.2 77.5 85.9 81.7 82.3 1.96 28 15.5 77.2 85.0 81.6 82.2 1.88 28 25.8 77.1 84.2 81.5 82.1 1.85 28 33.6 77.2 84.0 81.4 82.1 1.83 29 1.0 77.5 86.2 81.9 82.5 1.98 29 5.2 77.5 85.1 81.7 82.3 1.90 29 15.7 77.3 84.5 81.6 82.2 1.85 29 28.5 77.4 84.2 80.7 80.6 1.76 30 1.0 75.4 89.8 82.9 82.8 2.83 30 5.0 76.5 88.8 82.8 82.8 2.58 30 15.0 76.8 86.8 82.2 82.6 2.20 30 25.0 76.5 85.6 81.7 82.2 1.97 30 42.0 76.5 84.7 81.2 81.7 1.93 30 59.0 75.7 84.3 81.0 81.5 2.01 31 1.0 75.5 89.7 83.0 82.9 2.96 31 5.0 76.5 88.3 82.8 82.9 2.64 31 14.9 77.4 86.5 82.1 82.2 2.27 31 24.8 76.6 85.5 81.7 82.3 2.00 31 48.1 76.5 83.9 81.1 81.7 1.93 31 71.5 75.7 83.8 80.9 81.5 2.02 32 1.0 75.5 88.7 82.7 82.6 2.74 32 5.0 76.5 87.7 82.5 82.6 2.43 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Station Depth (ft) Min (°F) Max (°F) Mean (°F) Median (°F) StdDev (°F) 32 14.9 76.7 86.7 81.9 82.4 2.11 32 24.9 76.7 85.2 81.6 82.2 1.93 32 46.4 76.6 84.0 81.2 81.8 1.90 32 68.0 75.8 83.6 80.9 81.5 1.98 33 1.0 75.7 88.2 82.5 82.6 2.64 33 4.9 76.7 87.5 82.4 82.6 2.47 33 14.8 76.8 86.9 82.0 82.5 2.19 33 24.7 76.6 85.8 81.6 82.1 2.01 33 51.8 76.5 84.1 81.1 81.7 1.94 33 78.8 75.8 83.7 81.0 81.5 2.04 34 1.0 75.9 87.9 82.3 82.4 2.56 34 4.9 76.2 87.2 81.2 81.0 2.37 34 14.8 76.7 86.2 81.7 82.3 2.07 34 24.6 76.6 84.9 81.4 82.0 1.95 34 58.3 76.5 83.9 81.1 81.7 1.94 34 92.0 76.1 83.7 80.9 81.5 2.05 35 1.0 76.1 87.7 82.3 82.5 2.50 35 4.9 76.9 86.8 82.1 82.4 2.30 35 14.8 76.8 85.8 81.7 82.2 2.10 35 24.7 76.5 85.1 81.4 82.0 2.00 35 55.4 76.5 84.2 81.1 81.7 1.95 35 86.1 75.8 83.8 81.0 81.6 2.06 36 1.0 77.5 87.5 81.9 82.4 2.05 36 5.1 77.6 85.9 81.8 82.4 1.97 36 15.4 77.3 85.2 81.5 82.2 1.89 36 25.7 77.2 84.3 81.5 82.1 1.84 36 34.5 77.2 84.0 81.5 82.0 1.83 37 1.0 77.5 86.8 81.8 82.4 1.96 37 5.1 77.5 85.7 81.7 82.3 1.91 37 15.3 77.4 84.9 81.6 82.2 1.88 37 25.5 77.4 84.5 81.6 82.2 1.86 37 31.9 77.4 84.5 81.6 82.2 1.85 37 38.3 77.4 84.6 81.6 82.2 1.85 38 1.0 76.2 87.1 82.0 82.3 2.23 38 4.9 76.5 86.0 81.7 82.2 1.99 38 14.8 77.5 85.5 81.5 82.1 1.92 38 24.6 77.4 84.8 81.4 82.1 1.88 38 58.5 76.9 84.3 81.3 81.9 1.86 38 92.4 76.2 83.8 81.1 81.7 1.90 39 1.0 76.1 87.7 82.2 82.3 2.34 39 4.9 76.6 86.3 81.9 82.3 2.07 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Station Depth (ft) Min (°F) Max (°F) Mean (°F) Median (°F) StdDev (°F) 39 14.8 77.4 85.5 81.6 82.2 1.95 39 24.6 77.3 84.6 81.4 82.1 1.89 39 57.9 77.5 84.3 81.6 82.1 1.66 39 91.2 76.1 83.7 81.0 81.6 1.90 40 1.0 77.5 86.7 81.8 82.3 2.04 40 5.1 77.5 85.6 81.8 82.4 1.97 40 15.4 77.4 85.1 81.6 82.3 1.89 40 25.6 77.3 84.2 81.5 82.1 1.84 40 30.9 77.3 84.1 81.5 82.1 1.84 40 36.2 77.3 84.0 81.4 82.0 1.83 41 1.0 77.6 86.7 81.8 82.4 1.95 41 5.1 77.7 85.5 81.7 82.3 1.90 41 15.4 77.6 85.1 81.6 82.3 1.88 41 25.6 77.4 84.6 81.5 82.1 1.86 41 31.4 77.4 84.6 81.5 82.2 1.85 41 37.1 77.3 84.4 81.4 82.1 1.85 42 1.0 76.2 86.7 81.7 82.1 2.08 42 5.0 77.0 85.5 81.4 82.0 1.94 42 15.0 77.4 85.0 81.3 81.9 1.90 42 24.9 77.4 85.0 81.4 82.0 1.87 42 44.1 77.4 84.5 81.4 82.0 1.86 42 63.2 77.4 84.1 81.6 82.2 1.66 43 1.0 77.3 85.4 80.7 80.7 1.86 43 5.2 77.2 85.0 80.7 80.7 1.83 43 15.6 77.4 84.5 80.7 80.7 1.78 43 26.0 77.5 84.5 80.6 80.6 1.77 43 29.3 77.4 84.5 80.6 80.6 1.77 44 1.0 77.3 86.3 81.4 81.9 1.96 44 5.2 77.3 85.0 81.3 81.8 1.92 44 15.5 76.9 84.4 81.3 82.0 1.88 44 25.8 76.5 84.2 81.3 82.0 1.87 44 33.4 76.6 84.2 81.4 82.0 1.84 45 1.0 77.3 85.8 81.3 81.8 1.86 45 5.0 77.4 84.9 81.2 81.8 1.85 45 15.0 77.4 84.1 81.2 81.8 1.85 45 25.0 77.4 84.1 81.3 81.9 1.85 45 41.2 77.4 84.1 81.2 81.9 1.85 45 57.3 77.3 84.0 81.2 81.9 1.85 46 1.0 76.6 85.6 81.2 81.6 1.96 46 5.0 77.3 85.3 81.2 81.7 1.95 46 14.9 77.2 84.9 81.1 81.7 1.92 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Station Depth (ft) Min (°F) Max (°F) Mean (°F) Median (°F) StdDev (°F) 46 24.9 77.1 84.6 81.1 81.7 1.90 46 46.5 77.2 84.1 81.1 81.8 1.86 46 68.1 77.3 84.1 81.2 81.9 1.86 47 1.0 77.2 84.5 81.1 81.7 1.88 47 5.0 77.2 84.2 81.0 81.6 1.87 47 14.9 77.1 84.2 81.0 81.6 1.88 47 24.8 77.2 84.3 81.1 81.8 1.87 47 50.2 77.2 84.1 81.1 81.8 1.85 47 75.6 77.3 84.0 81.1 81.8 1.84 48 1.0 77.1 84.7 80.9 81.5 1.84 48 4.9 77.1 84.3 80.8 81.4 1.84 48 14.7 77.4 84.3 81.3 81.8 1.65 48 24.6 77.1 84.2 80.9 81.5 1.84 48 62.7 77.1 83.8 80.9 81.6 1.83 48 100.8 77.2 83.6 81.3 81.9 1.68 49 1.0 77.0 84.3 80.7 81.2 1.82 49 5.1 77.1 84.2 80.8 81.3 1.82 49 15.3 77.1 84.1 80.7 81.3 1.82 49 25.5 77.1 84.1 80.8 81.3 1.82 49 31.9 77.1 84.1 80.7 81.3 1.81 49 38.3 77.1 84.1 80.7 81.3 1.80 50 1.0 76.4 84.4 80.6 81.2 1.77 50 5.4 76.9 83.9 80.6 81.2 1.76 50 16.2 77.0 83.9 80.7 81.3 1.76 50 19.9 76.9 83.8 80.6 81.2 1.76 51 1.0 76.9 84.0 80.6 81.2 1.73 51 16.0 76.9 83.8 80.5 81.2 1.83 51 22.1 76.9 83.8 80.4 81.2 1.83 52 1.0 76.8 83.4 80.4 81.0 1.67 52 14.8 76.6 82.6 80.2 80.9 1.65 52 78.3 76.4 82.8 80.2 80.9 1.73 53 1.0 77.8 82.9 80.8 81.1 1.04 53 15.6 77.8 82.4 80.9 81.2 1.05 53 30.5 77.5 82.4 80.7 81.1 1.15 54 1.0 76.7 83.3 80.2 80.7 1.64 54 15.0 76.4 82.9 80.0 80.7 1.64 54 59.2 76.5 82.9 80.1 80.7 1.64 55 1.0 76.8 83.3 80.3 80.9 1.69 55 14.9 76.7 83.0 80.4 81.0 1.67 55 71.4 76.8 83.2 80.6 81.3 1.69 56 1.0 77.0 83.9 80.0 80.2 1.72 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Station Depth (ft) Min (°F) Max (°F) Mean (°F) Median (°F) StdDev (°F) 56 14.7 76.9 83.7 80.6 81.2 1.73 56 117.5 76.9 83.6 80.9 81.5 1.74 57 1.0 75.0 84.4 79.7 79.7 1.91 57 15.7 74.6 83.1 78.8 78.9 1.73 57 27.9 73.6 82.8 78.3 78.2 1.75 58 1.0 75.3 84.9 79.9 80.1 2.01 58 15.6 75.4 83.0 79.2 79.3 1.77 58 29.5 75.2 82.6 79.1 79.1 1.69 59 1.0 75.9 84.9 80.3 80.4 1.86 59 15.6 76.0 83.3 79.7 79.9 1.66 59 29.5 75.2 83.1 79.1 79.2 1.74 60 1.0 76.5 85.0 80.8 81.0 1.83 60 15.7 76.1 83.6 79.9 80.1 1.63 60 27.9 75.9 83.4 79.6 79.7 1.67 61 1.0 76.0 86.9 81.5 81.8 2.17 61 15.4 76.4 84.4 80.9 81.2 1.81 61 36.5 75.9 84.0 80.0 80.2 1.86 62 1.0 76.5 85.6 81.2 81.5 1.93 62 15.7 76.2 84.0 80.4 80.6 1.76 62 27.4 75.9 83.2 80.0 80.3 1.74 63 1.0 76.2 85.3 80.8 81.0 1.93 63 15.6 76.1 83.7 80.1 80.3 1.73 63 30.5 76.0 83.4 79.4 79.6 1.80 64 1.0 75.4 85.1 80.1 80.2 1.95 64 15.0 75.7 83.0 79.5 79.6 1.79 64 56.9 75.5 81.6 78.5 78.6 2.01 65 1.0 75.9 83.7 79.9 80.0 1.71 65 15.4 76.1 82.3 79.3 79.4 1.51 65 36.9 75.3 82.1 78.7 78.7 1.64 66 1.0 75.2 84.5 79.5 79.5 1.91 66 15.1 74.9 82.7 78.6 78.6 1.63 66 47.3 72.9 81.3 77.9 77.8 1.67 www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge APPENDIX C: MOBILE STATION TEMPERATURE DATA www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 0
13 July 2010 Temperature Profiles for Survey 1 (Slack before Flood)at Iona Island, July 13, 2010 (Spring Tide) 9:56-10:02
Mobile Thermistor at 1 ft Mobile Thermistor at 3.3 ft 90 ........ Mobile Thermistor at 6.6 ft Mobile Thermistor at 9.8 ft
-Mobile Thermistor at 13.1 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 19.7 ft 88 Mobile Thermistor at 23 ft 0 Station 48 at 1 ft o Station 48 at 5.2 ft
- Station 48 at 15.7 ft X Station 48 at 25.9 ft 086 0 Station 47 at 1 ft O Station 47 at 5.2 ft Station 47 at 15.4 ft Station 47 at 25.9 ft
- -4 t5 84 821-80- 01 14UU 1200 1000 800 600 400 200 0 Approximate Distance Across River from East (f)
Figure 1. Temperature profile for survey I at Iona Island between 9:56-10:02am on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities A
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>\ 2 10 11 12 13 14 July 2010 T6 Temperature Profiles for Survey 2 (Flood) at Iona Island, July 13, 2010 (Spring Tide) 11:51-11:58 Mobile Thermistor at 1 ft Mobie Thermistor at 3.3 ft go - Mobile Thermistor at 6.6 ft Mobile Thermistor at 9.8 ft
-Mobile Thermistor at 13.1 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 19.7 ft
-- Mobile Thermistor at 23 ft 88 .. 0 Station 48 at 1 ft
- Station 48 at 5.2 ft
- Station 48 at 15 7 ft
. Station 48 at 259 ft 0 Station 47 at 1 ft 0 Station 47 at 5.2 It
°,86 Station 47 at 15 4 ft Station 47 at 25 9 ft 8-S84 82 F AnI-14100 1201 1000 800 600 400 200 Approximate Distance Across River from East (ft)
Figure 2. Temperature profile for survey 2 at Iona Island between 11:51-11:S8am on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 0
13 16 July 2010 Temperature Profiles for Survey 3 (Flood) at Iona Island, July 13, 2010 (Spring Tide) 12:20-12:28 Mobile Thermistor at 1 ft
-- Mobile Thermistor at 3 3 ft Mobile Thermistor at 66 ft Mobile Thermistor at 98 ft Mobile Thermistor at 131 ft Mobile Thermistor at 16 4 ft Mobile Thermistor at 19 7 ft 88 - Mobile Thermistor at 23 ft 0 Station 48 at 1 ft 0 Station 48 at 5 2 ft Station 48 at 15 7 ft Station 48 at 25 9 It
'86 ... ....
Station 47 at 1 ft 0 Station 47 at 5 2 ft
- Station 47 at 15 4 ft E i Station 47 at 2659 ft 864 82-p 0 :
80 k 1400 1200 1000 800 600 400 200 Approximate Distance Across River from East (ft)
Figure 3. Temperature profile for survey 3 at Iona Island between 12:20-12:28pm on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 4 I 2 ..
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-4 1' 10 11 12 13 14 15 16 July 2010 Temperature Profiles for Survey 1 (Slack before Flood) at Indian Point, July 13, 2010 (Spring Tide) 9:17-9:33 Mobile Thermistor at 1 ft Mobile Thermistor at 33 ft 90 -
Mobile Thermistor at 66 ft Mobile Thermistor at 9,8 ft
_ Mobile Thermistor at 13 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 19.7 ft 88 -
Mobile Thermistor at 23 ft 0 Station 19 at 1 ft
- Station 19 at 5.3 ft
- Station 19 at 15.7 ft A Station 19 at 25.6 ft 0 Station 20 at 1 ft 0 Station 20 at 5.3 ft
- Station 20 at 15.4 ft 03 N Station 20 at 28.8 It Station 27 at 1 It bt 84 Station 27 at 4.9 ft Station 27 at 14.8 ft Station 27 at 24.9 ft 0 Station 31 at 1 ft 0 Station 31 at 4.9 ft 821
- Station 31 at 14.8ft N Station 31 at 24.9 ft I
80 1 4000 3600 3000 2500 2000 1500 1000 500 0 Approximate Distance Across River from East (ft)
Figure 4. Temperature profile for survey 1 at Indian Point between 9:17-9:33am on 13 July 2010 (Spring Tide)
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ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities
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/ 1 10 11 12 13 14 15 16 July 2010 Temperature Profiles for Survey 2 (Flood) at Indian Point, July 13, 2010 (Spring Tide) 11:04-11:27 CL CU-E a)
ý5 84 3500 3000 2600 2000 1501 Approximate Distance Across River from East (ft)
Figure 5. Temperature profile for survey 2 at Indian Point between 11:04-11:27am on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 4
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10 11 12 13 14 15 16 July 2010 Temperature Profiles for Survey 3 (Flood) at Indian Point , July 13, 2010 (Spring Tide) 12:57-13:20 (U
Approximate Distance Across River from East (ft)
Figure 6. Temperature profile for survey 3 at Indian Point between 12:57-1:20pm on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities U-July 2010 Temperature Profiles for Survey 4 (Slack before Ebb) at Indian Point, July 13, 2010 (Spring Tide) 16:05-16:21 FU
=E I-5000 4500 4000 3500 3000 2500 2000 1500 1000 500 Approximate Distance Across River from East (ft)
Figure 7. Temperature profile for survey 4 at Indian Point between 4:05-4:21pm on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge il Tide Velocities
........ "i....... .. S \,:>...
01
-2 / :~ ,~
10 11 12 13 14 15 16 July 2010 Temperature Profiles for Survey I (Slack before Flood), Stony Point, July 13, 2010 (Spring Tide), 8:34-8:44 Mobile Thermistor at 1 ft
.. .... Mobile Thermistor at 3.3 ft 90 -
Mobile Thermistor at 6.6 ft Mobile Thermistor at 9.8 ft
- Mobile Thermistor at 13.1 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 19.7 ft 88 - -- Mobile Thermistor at 23 ft 0 Station 9 at 1 ft 0 Station 9 at 5.2 ft
+ Station 9 at 16.7 ft
- Station 9 at 25.9 ft "7 86 0 Station 10 at 1 ft O Station 10 at 5.2 ft
ý-
- Station 10 at 15.4 ft E q, Station 10 at 25.9 ft t3 84 A0 821 .....................
801-2500 2000 1500 1000 500 Approximate Distance Across River from East (ft)
Figure 8. Temperature profile for survey 1 at Stony Point between 8:34-8:44am on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 0 -4 / iF 7 10 11 12 13 14 15 16 July 2010 Temperature Profiles for Survey 2 (Flood) at Stony Point, July 13, 2010 (Spring Tide) 10:37-10:48 Mobile Thermistor at 1 fIt
__-- Mobile Thermistor at 33 ft 90 Mobile Thermistor at 6 6 ft Mobile Thermistor at 9.8 ft
-Mobile Thermistor at 131 ft Mobile Thermistor at 16.4 ft
- Mobile Thermistor at 19.7 ft 88 - Mobile Thermistor at 23 ft 0 Station 9 at 1 ft o Station 9 at 5 2 ft
- Station9 at 15.7ft Station 9 at 26.9 ft 786 .. 0 Station 10 at I ft 0 Station 10 at 52ft
- Station 10 at 154 ft
= Station 10 at 25.9 ft t3 84 0
0 82 t
2500 2000 1500 1000 500 Approximate Distance Across River from East (ft)
Figure 9. Temperature profile for survey 2 at Stony Point between 10:37-10:48am on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities A
~2 S0 t
/:
iJ!i
/' i /
4'k
_-2 K ..11 S 10 11 12 13 14 15 16 July 2010 Temperature Profiles for Survey 3 (Flood) at Stony Point, July 13, 2010 (Spring Tide), 13:41-13:54 Mobile Thermistor at 1ft
-- Mobile Thermistor at 3.3 ft 90n-Mobile Thermistor at &6B1 Mobile Thermistor at 98 ft
_ Mobile Thermistor at 13.1 ft Mobile Thermistor at 164 ft Mobile Thermistor at 19.7 ft 88 `- Mobile Thermistor at 23 ft 0 Station 9 at 1 ft
- Station 9 at 5.2 ft
- Station 9 at 15.7 ft X Station 9 at 25 9 ft 86 C' Station 10 at 1 ft 0 Station 10 at 5.2 ft
- 13
- Station 10 at 15.4 ft 2 X Station 10 at 25.9 ft (13
ý584 82 80 -
2500 2000 1500 1000 500 Approximate Distance Across River from East (ft)
Figure 10. Temperature profile for survey 3 at Stony Point between 1:41-1:S4pm on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities
> 2
/ \ ~ ~ N~ .... ....... / I
'I 10 11 12 13 14 15 16 July 2010 Temperature Profiles for Survey 4 (Slack before Ebb), Transect 1 (Stony Point), July 13, 2010 (Spring Tide), 16:38-16:49 Mobile Thermistor at 1 ft Mobile Thermistor at 33 ft 90 . Mobile Thermistor at 6,6 ft Mobile Thermistor at 9.8 ft Mobile Thermistor at 13.1 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 19.7 ft Mobile Thermistor at 23 ft1 0 Station 9 at 1 ft O Station 9 at 5.2 ft
- Station9 at 15.7 ft a Station 9 at 25.9 ft O Station 10 at 1 ft 086 Station 10 at 5.2 ft a I' Station 10 at 15.4 ft X Station 10 at 25.9 ft H 4 4 .. .........
-- r 04~
82 90 I-2500 2000 1500 1000 500 Approximate Distance Across River from East (ft)
Figure 11. Temperature profile for survey 4 at Stony Point between 4:38-4:49pm on 13 July 2010 (Spring Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities I.
S-0 2K
-101 02 03 04 05 06 August 2010 Temperature Profiles for Survey I (Ebb) at lona Island, August 3, 2010 (Neap Tide) 07:49-07:56 Mobile Thermistor at 1 ft
__ Mobile Thermistor at 3.3 ft 901- .Mobile Thermistor at 6.6 f Mobile Thermistor at 9.8 ft
___Mobile Thermistor at 13.1 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 19.7 ft 88 Mobile Thermistor at 23 ft 0 Station 48 at 1 ft 0 Station 48 at 5.2 ft Station 48 at 15.7 ft Station 48 at 25.9 ft
¥86 0 Station 47 at 1 ft 0 Station 47 at 5.2 ft U- Station 47 at 15.4 ft Station 47 at 25.9 ft E
S84 82 -
80k 1400 1200 1000 800 600 400 200 0 Approximate Distance Across River from East(ft)
Figure 12. Temperature profile for survey 1 at Iona Island between 7:49-7:56am on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 02 w>-2 -
01 02 03 04 06 August 2010 Temperature Profiles for Survey 2 (Slack before Flood) at Iona Island, August 3, 2010 (Neap Tide) 14:15-14:21 Thermistor at 1 It -
90 - -- Mobile Thermistor at 3.3 ft
. Mobile Thermistor at 66 ft Mobile Thermistor at 9.8 ft MMobile Thermistor at 13.1 ft Mobile Thermistor at 16.4 ft 88 I- -- Mobile Thermistor at 19.7 ft
-- Mobile Thermistor at 23 It 0 Station 48 at 1 ft
- Station 48 at 5.2 ft
- Station 48 at 15.7 ft
" 86 A Station 48 at 25.9 ft 0- Station 47 at 1ft 0 Station 47 at 5.2 ft
- Station 47 at 15.4 ft X Station 47 at 25.9 ft
ý5 84 82 -
801-1400 1200 100U 800 600 400 200 0 Approximate Distance Across River from East(ft)
Figure 13. Temperature profile for survey 2 at Iona Island between 2:15-2:21pm on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities I
0-0 V
>1
~\ /
,I 01 02 03 04 05 06 August 2010 Temperature Profiles for Survey 3 (Flood) at Iona Island, August 3, 2010 (Neap Tide) 16:15-16:21 Mobile Thermistor at 1 ft Mobile Thermistor at 33 ft go Mobile Thermistor at 6.6 ft Mobile Thermistor at 9.8 ft Mobile Thermistor at 13 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 19.7 ft 88 F -- Mobile Thermistor at 23 ft 0 Station 19 at 1 ft
- Station 19 at 5.3 ft
- Station 19 at 15.7 ft Station 19 at 25.6 ft 0 Station 20 at 1 ft CLl O Station 20 at 5.3 ft BE " Station 20 at 15.4 ft
= Station 20 at 28.8 ft S84 82 -
1400 1200 101 0 800 600 400 0 Approximate Distance Across River from East(ft)
Figure 14. Temperature profile for survey 3 at Iona Island between 4:15-4:21pm on 3 August 2010 (Neap Tide)
- ,*.* I*t www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 0
August 2010 Temperature Profiles for Survey 4 (Flood) at Iona Island, August 3, 2010 (Neap Tide) 17:28-17:36 Mobile Thermistor at 1 It
- _ Mobile Thermistor at 3.3 ft 90-Mobile Thermistor at 6.6 ft Mobile Thermistor at 9.8 ft
- Mobile Thermistor at 13 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 19.7 ft 88-k
-- Mobile Thermistor at 23 ft o Station 19 at 1 ft 0 Station 19 at 5.3 ft 0 Station 19 at 15.7 It
! Station 19 at 256 ft 86 O Station 20 at 1 ft 0 Station 20 at 6.3 ft
- Station 20 at 15.4 ft E Station 20 at 28.Bft F-
ýi 84 82-80 I-1400 1200 1000 800 600 400 200 0 Approximate Distance Across River from East(ft)
Figure 15. Temperature profile for survey 4 at Iona Island between 5:28-5:36pm on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 0
August 2010 Temperature Profiles for Survey 1 (Ebb) at Indian Point, August 3, 2010 (Neap Tide) 8:34-8:50 I I I I IIIII MobileThermistor at 1 ft
...... Mobile Thermistor at 3.3 ft 90 1- Mobile Thermistor at 6.6 ft Mobile Thermstor at 9.1ft Mobile Thermistor at 16 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 197 ft MobileThermistorat 23 ft 881 0 Station 19 t 1 flt O Station 19 at 5.3 ft
+ Station 1l at 151 ft X Station 19 at 25 6 ft 0 Station 20 at I ft E-86 o Station 20 at 53 ft
- Station 20 at 154 ft X Station 20 at 28 8 ft Station 27 at 1 ft E Station 27 at 4.9 ft Station 27 at 14 8 ft a3 84 Station 27 at 249 ft 0 Station 31 at I ft o Station 31 at 4.9 ft
+ Station 31 at 148 ft X Station 31 at 249 ft 82 1-80 -
I I I I I I I I I 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 Approximate Distance Across River from East(ft)
Figure 16. Temperature profile for survey 1 at Indian Point between 8:34-8:50am on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 0:
CU August 2010 Temperature Profiles for Survey 2 (Slack before Flood) at Indian Point, August 3, 2010 (Neap Tide) 11:04-11:27 U-23
('3 0.
E 03 I-03 35M 3000 2500 2000 1500 Approximate Distance Across River from East(ft)
Figure 17. Temperature profile for survey 2 at Indian Point between 11:04-11:27am on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 3-o August 2010 Temperature Profiles for Survey 3 (Flood) at Indian Point, August 3, 2010 (Neap Tide) 15:33-15:53 U-E a) 80 -
IIIII IIII 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 Approximate Distance Across River from East(ft)
Figure 18. Temperature profile for survey 3 at Indian Point between 3:33-3:53pm on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 0
August 2010 T
E (U
E a) 3500 3000 2500 2000 1500 Approximate Distance Across River from East(ft)
Figure 19. Temperature profile for survey 4 at Indian Point between 6:06-6:25pm on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 4
2 -
Z 0 0oF T
0L 01 02 03 04 05 06 August 2010 Temperature Profiles for Survey 1 (Ebb) at Stony Point, August 3, 2010 (Neap Tide) 09:10-09:23 Mobile Thermistor at 1 ft
-- Mobile Thermistor at 3.3 ft 901 Mobile Thermistor at 6.6 ft Mobile Thermistor at 9.8 ft
- Mobile Thermistor at 13.1 It Mobile Thermistor at 16.4 ft
--- Mobile Thermistor at 19.7 ft
..... .. ....................... . Mobile Therm istor at 23 ft
- Station 9 at 1 ft o Station 9 at 5.2 ft
- Station 9 at 15.7 ft Station 9 at 25.9 ft O Station 10 at 1 ft 86 .. ............ .... . ....... 0 Station 10 at 5.2 ft
- Station 10 at 15.4 ft o) Station 10 at 25.9 ft E
8-S84 82-80 2500 2000 1500 1000 500 I Approximate Distance Across River from East(ft)
Figure 20. Temperature profile for survey I at Stony Point between 9:10-9:23am on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 4
2-
- 0) 0
.L .... , I 01 02 03 04 05 06 August 2010 Temperature Profiles for Survey 2 (Slack before Flood) at Stony Point, August 3, 2010 (Neap Tide) 12:59-13:11 Mobile Thermistor at 1 ft
____ Mobile Thermistor at 3.3 ft 90 Mobile Thermistor at 6.6 ft Mobile Thermistor at 9.8 ft
- Mobile Thermistor at 13.1 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 197 ft
............ Mobile Therm istor at 23 ft 0 Station 9 at 1 ft 0 Station 9 at 5.2 ft
- Station 9 at 15.7 ft
- x Station 9 at 25.9 ft C: Station 10 at 1 ft 86 0 Station 10 at 5 2 ft
- Station 10 at 15.4 ft i Station 10 at 25.9 ft 0-E
-S.
S84 82-801-2500 2000 1500 1000 500 Approximate Distance Across River from East(ft)
Figure 21. Temperature profile for survey 2 at Stony Point between 12:59-1:11pm on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 4
2I- * '// *...... . . . . . \
.. .. " ./.......... . . .. : ,. . . .. . . . . . . . ..' * . . . . .....
. . . . . . .S ' -
0
-5) 01 02 03 04 05 06 August 2010 Temperature Profiles for Survey 3 (Flood) at Stony Point, August 3, 2010 (Neap Tide) 15:00-15:13 Mobile Thermistor at 1 ft
-- Mobile Thermistor at 3.3 ft 90 I- Mobile Thermistor at 6.6 ft Mobile Thermistor at 9.8 ft
-Mobile Thermistor at 13.1 ft Mobile Thermistor at 16.4 ft Mobile Thermistor at 19.7 ft 88k Mobile Thermistor at 23 ft 0 Station 9 at 1 ft 0 Station 9 at 5.2 ft
- Station 9 at 15.7 ft Station 9 at 25.9 ft 4: Station 10 at 1 ft 86 0 Station 10 at 52 ft
- Station 10 at 15.4 ft i Station 10 at 25.9 ft 0.
E I-B 84 : i 7 82 80-2500 2000 1500 1000 500 Approximate Distance Across River from East(ft)
Figure 22. Temperature profile for survey 3 at Stony Point between 3:00-3:15pm on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Tide Velocities 0
ý2F 01 t
I"-
02 03 04 05 06 August 2010 Temperature Profiles for Survey 4 (Flood) at Stony Point, August 3, 2010 (Neap Tide) 18:43-18:56 Mobile Thermistor at 1 ft
-- Mobjie Thermistor at 3 3 ft 901-Mobile Thermistor at 66 ft Mobile Thermistor at 98 ft
- Mobile Thermistor at 13 1 ft Mobile Thermistor at 16 4 ft
- Mobile Thermistor at 19 7 ft 88- -- Mobile Thermistor at 23 ft 0 Station 9 at 1 ft o Station 9 at 52 ft
- Station 9 at 15.7 ft Station 9 at 25,9 ft j86 0 Station 10 at 1 ft o Station 10 at 5.2 ft 41 Station 10 at 154 ft
. Station 10 at 25.9 ft CU 8-o4 0 _
82 80 -
2500 2000 1500 1000 50W Approximate Distance Across River from East(ft)
Figure 23. Temperature profile for survey 4 at Stony Point between 6:43-6:56pm on 3 August 2010 (Neap Tide) www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge APPENDIX D: MOBILE ADCP CROSS SECTIONAL PROFILES www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Along Channel Velocity Transect: Stony Point I* -1 2.5 2
1.5 1
CO, 0.5 40 o D.)
50 -0.5
-1 60
-1.5 70 -2 80- -2.5 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 Distance from West Shore (ft)
Figure 1. Mobile ADCP along channel velocities shown for the Stony Point cross section on 13 July from 8:33-8:44am Along Channel Velocity Transect: Stony Point 0 m 2.5 10 2 20 1.5 1
30 0.5 Cn 40 0 r'*
Q
-0.5 CD 50
-1 60
-1.5 J 010 10:36:23 70 e ul-2010 10:47:38 -2 Nmax velocity: 2.09 ft/s 80 -2.5 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 Distance from West Shore (ft)
Figure 2. Mobile ADCP along channel velocities shown for the Stony Point cross section on 13 July from 10:36-10:47am www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Along Channel Velocity Transect: Stony Point 2.5 102 20 1.5 30 ol) 0.5
_40 -o0 50 -0.5)
-1 60O
- -2010 13:41:1- -1.5 70 70*max Jul-2010 velocity: 2.86 13:53:40 f/s -2 80 ý -2.5 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 Distance from West Shore (ft)
Figure 3. Mobile ADCP along channel velocities shown for the Stony Point cross section on 13 July from 1:41-1:53pm Along Channel Velocity Transect: Stony Point 2.5 102 1.5 1
-0.5
- -40 -* 0 .
70 50 0 0. 164823 --0.5 60-i -
70- fo-2010 16:38:07 T--Jul-2010 16:48:23 -
-2 r max velocity: 2.13 fUs -.
80 F I-I.5 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 Distance from West Shore (ft)
Figure 4. Mobile ADCP along channel velocities shown for the Stony Point cross section on 13 July from 4:38-4:48pm www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Along Channel Velocity Transect: Indian Point 2.5 10 2 20 1.5 1
30 0.5 o
. 40 (D -0.50 50 60 FA -1 start: 13-Jul-2010 09:16:53 -1.5 70 L end: 13-Jul-2010 09:32:52 -2 max velocity: 1.33 ft/s 80 -2.5 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 Distance from West Shore (ft)
Figure 1. Mobile ADCP along channel velocities shown for the Indian Point cross section on 13 July from 9:16-9:32am Along Channel Velocity Transect: Indian Point 0 1 1 1 1 1 2.5 10 2 20 1.5 1
30 0.5
- 40 o
-0.50 50
-1 60
-1.5 70 -2 80 -2.5 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 Distance from West Shore (ft)
Figure 1. Mobile ADCP along channel velocities shown for the Indian Point cross section on 13 July from 11:03-11:26am www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Along Channel Velocity Transect: Stony Point 2.5 2
1.5 1
C,,
0.5 40 o 50 -0.5 77
-1 60
-1.5 70
-2 80- -2.5 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 Distance from West Shore (ft)
Figure 1. Mobile ADCP along channel velocities shown for the Stony Point cross section on 3 August from 6:43-6:56pm Along Channel Velocity Transect: Indian Point 2.5 2
1.5 1
0.5 C- 0 0
-0.5 0
-1 start: 03-Aug-2010 15:33:00 -1.5 Send: 03-Aug-2010 15:53:30 -2 max velocity: 2.64 ft/s
- I
-2.5 I t I i 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 Distance from West Shore (ft)
Figure 1. Mobile ADCP along channel velocities shown for the Indian Point cross section on 3 August from 3:33-3:53pm www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Along Channel Velocity Transect: Indian Point 0
2.5 10 2 20 1.5 30 0.5~
.D.. 40 -0.5 0, o,
50
-1 60 start: 13-Jul-2010 16:05:23 -1.5 70 end: 13-Jul-2010 16:21:07 - -2 max velocity: 1.51 ft/s 80 -2.5 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 Distance from West Shore (ft)
Figure 1. Mobile ADCP along channel velocities shown for the Indian Point cross section on 3 August from 4:05-4:21pm Along Channel Velocity Transect: Indian Point
.I 2.5 1c 30 I 2 1.5 1
0.5
- 40 0D
-o5 50
-1 60 -
start: 03-Aug-2010 18:05:35 -1.5 70 F end: 03-Aug-2010 18:25:05 -2 max velocity: 2.62 ft/s 80 -2.5 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 Distance from West Shore (ft)
Figure 1. Mobile ADCP along channel velocities shown for the Indian Point cross section on 3 August from 6:05-6:25pm www.asascience.com
ASA 2010 Field Program and Modeling Analysis of the IPEC Discharge Along Channel Velocity Transect: Stony Point 2.5 102 20 1.5 1
30 155
-0.5
..40 - -0 03 200184:0-.
50 0 -0.5 CD 60O 2010 18:43:05 -1.5 70 -ug-2010 18:56:05- -2 70 ' *max velocity: 2.37 ft/s 80-ýý1 -2.5 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 Distance from West Shore (ft)
Figure 1. Mobile ADCP along channel velocities shown for the Indian Point cross section on 3 August from 6:43-6:56pm www.asascience.com