ML12089A677
ML12089A677 | |
Person / Time | |
---|---|
Site: | Indian Point |
Issue date: | 12/09/2011 |
From: | AKRF, CDM, United Water New York |
To: | Atomic Safety and Licensing Board Panel, State of NY, Dept of Environmental Conservation |
SECY RAS | |
Shared Package | |
ML12089A671 | List: |
References | |
RAS 22137, 50-247-LR, 50-286-LR, ASLBP 07-858-03-LR-BD01 | |
Download: ML12089A677 (35) | |
Text
ENT00320C Submitted: March 29, 2012 July 2, 2010 Page 26 stormwater runoff and CSOs. The model outputs are available to do a revised calculation in the future should new PERC loading information become available for the two NPL sites, CSOs, stormwater runoff, or other sources. For example, it is expected that measurements will be made in the future of the tetrachlorothylene discharge to the JRSTP from the wastes generated by the proposed Haverstraw Water Supply Project drinking water facility.
3.4 List of Attachments
- Figure 1 - Watersheds included within 26-Mile Radius of the Proposed Haverstraw Water Supply Project Intake Location
- Figure 2 - Contaminant Discharges Identified from NPL, SPDES, and TRI
- Figure 3 - Hudson River Point of Discharge Locations considered in Numerical Modeling Analysis of NPL, SPDES, and TRI Discharges
- Figure 4 - Haverstraw Water Supply Project Numerical Model Computational Grid - Northern Haverstraw Bay zoom in and full model grid views
- Appendix A Mile Radius Facilities/Sites List and Numerical Model /
Calculated Factors for Intake Concentration per Mass Release
- Appendix B Mile Radius Contaminants
- Appendix C - Contaminant Loadings Calculation for 25-Mile Radius for SPDES and TRI data
- Appendix D - Model Calculations of Contaminant Concentrations Near the Intake
July 2, 2010 Page 27 Figure 1 - Watersheds included within a 26 mile radius of the proposed Haverstraw Water Supply Project intake location.
July 2, 2010 Page 28 Figure 2. Contaminant discharges identified from NPL, SPDES, and TRI
July 2, 2010 Page 29 Figure 3. Hudson River point of discharge locations considered in numerical modeling analysis of NPL, SPDES, and TRI discharges.
July 2, 2010 Page 31 APPENDIX A 25-MILE RADIUS FACILITIES/SITES LISTS & NUMERICAL MODEL CALCULATED FACTORS FOR INTAKE CONCENTRATION PER MASS RELEASE
July 2, 2010 Page 32 APPENDIX B 25-MILE RADIUS CONTAMINANTS
'LIQMGEP 74()7 86- 240 '%64
86-',0363)8,%2) < < <
8)86%',0363)8,%2) < <
(-',0363)8,=0)2) <
,T'(( <
,T'(* <
,T'(* <
,\'(( <
,\'(* <
,\'(( <
,\'(* <
,\'(( <
4I'(( <
4I'(* <
8VMGLPSVSFIR^IRI <
86-1)8,=0&)2>)2) <
(-',0363&)2>)2) <
(-',0363)8,%2) < <
(-',03634634%2) <
XVERW(-',0363)8,=0)2) <
1IXL]PRETLXLEPIRI <
1IXL]PTLIRERXLVIRI <
RSREGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
RSREGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
RSREGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
'LIQMGEPW\PW 8EFPI 41
SGXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
'LIQMGEPW\PW 8EFPI 41
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
HMGLPSVSFMTLIR]P <
SGXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
LITXEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
,\'(* <
XIXVEGLPSVSFMTLIR]P <
'LIQMGEPW\PW 8EFPI 41
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
4I'(* <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
8VMQIXL]PRETLXLEPIRI <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
8'(* <
HMGLPSVSFMTLIR]P <
HMGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
((( <
(() <
((8 <
HMGLPSVSFMTLIR]P <
HMGLPSVSFMTLIR]P <
HMGLPSVSFMTLIR]P <
HMGLPSVSFMTLIR]P <
(MQIXL]PRETLXLEPIRI <
%1-234=6-(-2) <
GLPSVSFMTLIR]P <
)8,3<=)8,%230 <
1)8,3<=)8,%230 <
1IXL]PRETLXLEPIRI <
1)8,=04=6-(-2) <
LI\EGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
TIRXEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
HMGLPSVSFMTLIR]P <
XIXVEGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
XVMGLPSVSFMTLIR]P <
HMGLPSVSFMTLIR]P <
HMGLPSVSFMTLIR]P <
HMGLPSVSFMTLIR]P <
GLPSVSFMTLIR]P <
((( <
(() <
((8 <
'LIQMGEPW\PW 8EFPI 41
HMGLPSVSFMTLIR]P <
GLPSVSFMTLIR]P <
2-8633%2-7-(-2) <
%GIRETLXLIRI <
%GIRETLXL]PIRI <
%')832) < < <
%')832-86-0) <
%PHVMR <
%091-291 < <
%1132-% < <
%2-0-2) <
%RXLVEGIRI <
%28-132= < <
%63'036 <
%63'036 <
%63'036 <
%63'036 <
%67)2-' < <
&%6-91 <
&)2>)2) < <
&IR^MHMRI <
&)2>3 & *0936%28,)2) <
&)2>3?%A%28,6%')2) < <
&)2>3?%A4=6)2) < <
&IR^S?FNOAJPYSVERXLIRIW <
&IR^S?IAT]VIRI <
&IR^S?KLMATIV]PIRI <
&,' EPTLE <
&,' FIXE <
&,' KEQQE <
&-4,)2=0 < <
&MW IXL]PLI\]P TLXLEPEXI <
&-7 )8,=0,)<=0 4,8,%0%8) <
&3( HE] HIK ' <
&SVSR <
&VSQS FIR^IRI <
&6313(-',03631)8,%2) <
&6313*361 < <
'%(1-91 < < < <
'EVFSR XSX SVKERMG 83' <
')68%-2 +0='30 )8,)67 <
'LPSVHERIEPTLE GMW <
'LPSVHERIKEQQE XVERW <
'LPSVHERIS\] <
',036-2) < <
',0363&)2>)2) <
',0363(-&63131)8,%2) <
',0363*361 < < <
',631-91 < <
'LV]WIRI <
GMW(-',0363)8,=0)2) < <
'SFEPX < <
'SPMJSVQ <
'344)6 < <
'=%2-() < <
'='03,)<%2) <
HIGEGLPSVSFMTLIR]P <
'LIQMGEPW\PW 8EFPI 41
(- )8,=0,)<=0 4,8,%0%8) <
(MFIR^?ELAERXLVEGIRI <
(-&)2>3 %, %28,6%')2) <
(MGLPSVSFVSQSQIXLERI <
(MGLPSVSHMJPYSVSQIXLERI <
(-',03631)8,%2) <
(MIPHVMR <
(-)8,=0 4,8,%0%8) < <
(-2&98=0 4,8,%0%8) < <
)(8% <
)RHSWYPJER WYPJEXI <
)RHSWYPJER EPTLE <
)RHSWYPJER FIXE <
)RHVMR <
)RHVMR EPHIL]HI <
)RHVMR OIXSRI <
)8,=0&)2>)2) < < <
)8,=0)2) +0='30 <
- PYSVERXLIRI <
- PYSVIRI <
- PYSVMHI <
- 361%0(),=() <
- 6)32 <
+IVQERMYQ <
,EJRMYQ <
,ITXEGLPSV <
,ITXEGLPSV ITS\MHI <
,I\EGLPSVSFIR^IRI <
,I\EZEPIRX 'LVSQMYQ <
,=(63',036-' %'-( %2( %*8)6 %'-( %)637307 320= <
,=(63+)2 *0936-() <
-2()23 '( 4=6)2) < <
-632 < <
0)%( < < < <
0MXLMYQ <
1%2+%2)7) < <
1IVGYV] < <
1)8,%230 <
1IXLS\]GLPSV <
1)8,=0 -73&98=0 /)832) <
1)8,=0 1)8,%'6=0%8) <
1)8,=0 8)68&98=0 )8,)6 < <
1IXL]PIRI GLPSVMHI <
1IXL]PQIVGYV] <
1MVI\ <
1SP]FHIRYQ <
2ETLXLEPIRI <
2,)<%2) <
2-'/)0 < < <
2-86%8) < <
2-86-' %'-( <
2MXVMXI <
21)8,=04=6630-(32) < <
22-86373(-4,)2=0%1-2) <
2SREGLPSV GMW <
2SREGLPSV XVERW <
3'(( <
'LIQMGEPW\PW 8EFPI 41
3'(* <
3MP KVIEWI <
3VXLSTLSWTLEXI <
3\]KIR HIQERH GLIQ LMKL PIZIP '3( <
3\]KIR HIQERH YPXMQEXI <
3\]KIR HMWWSPZIH (3 <
4EPPEHMYQ <
4IV]PIRI <
T, <
4LIRERXLVIRI <
4,)230 <
4LIRSPMG GSQTSYRHW <
4LIRSPMGW <
4LIRSPW <
4LSWTLEXI <
4,374,36-' %'-( <
4LSWTLSVYW <
4SXEWWMYQ <
4]VIRI <
4=6-(-2) < <
6LIRMYQ <
6YXLIRMYQ <
7EPQSRIPPE <
7IPIRMYQ <
7MPZIV <
73(-91 ,=(63<-() 73098-32 <
73(-91 790*%8) 73098-32 <
7SPMHW <
7X]VIRI <
790*96-' %'-( %2( %*8)6 %'-( %)637307 320= <
8ERXEPYQ <
8)86%',0363)8,=0)2) < < <
8MR <
8MXERMYQ <
8309)2) < < <
8SXEP ,T'(( <
8SXEP ,T'(* <
8SXEP ,\'(( <
8SXEP ,\'(* <
8SXEP /NIPHELP 2MXVSKIR <
8SXEP 4I'(( <
8SXEP 4I'(* <
8SXEP TLIRSPW <
8SXEP 8'(( <
8SXEP 8'(* <
86%27(-',03634634)2) <
8VMGLPSVSIXLIRI <
86-',0363)8,=0)2) < < <
8VMGLPSVSJPYSVSQIXLERI <
8YRKWXIR <
8YVFMHMX] <
- %2%(-91 < <
- -2=0 ',036-() < <
<=0)2)7 < < <
>-2' < < <
8SXEP
'LIQMGEPW\PW 8EFPI 41
July 2, 2010 Page 33 APPENDIX C CONTAMINANT LOADINGS CALCULATED FOR 25-MILE RADIUS FOR SPDES AND TRI DATA