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Home My WebLink AboutNC0004979_Fact Sheet Amendment_20051031NCDENR/DWQ FACT SHEET AMENDMENT Duke Energy.Corp®ration - Allen Stearn Station NC0004979 . l ' $ iiT �"" F t t 4 .A"k�'K =��cg. -�"� C { 5' Sik +�w/'}♦ /y 'y�ye"v }/'i f 6 y�`(^b� .{i�.3 '�f `#^ ,C'€ �':.. Z . nr 9,. ' (1.) Facility Name: j Allen Steam Station 4 (2.) Permitted Flo — 1 No o flow limit (6.) County 1 Gaston �— (3.) Facility Class: — y_ I — (7J Regional Office: Mooresville (4.) Pretreatment Program: j N/A (8.) USGS Topo Quad: —_ G14NE (5.) Permit Status: Renewal (9.) iJSGS Quad Name: _ - — - Belmont 411 � h^ 3 �`� �vx, � 4 4.y £ -:�"n✓+R d R 4H3 k "4 .Y "3g+d'gy " 4' RFs t�i�5', x � a irs��,�.� �; a:. �" #� �+ + � r j}�paye�^yq yp� m i •�j.��}ry�� r�j,��7�rz. � e. �"r � z�. 2 � ��,:. r>rz' i� a°�.4 �. Y`�,zSr-?` ,a.:,.,.a. xb'�r:n�2'�wB�.Lia....;�•.�F'i'. t s'�K+a..rs^yy�6J4.iclAA1LcA�.C`kG156R1.O%i13; (1.) Receiving Stream: Catawba / (7.) Drainage Area (mi?): ' ??/635 South Fork Catawba Rivers (2.) Sub -basin: t 03.08^34 (8.) Summer 7Q10 (cfs),: L__ i 95/12n _.._. (3.) Stream Index Number: _ 11-123.5 ( (9.) Winter 7Q10 (cfs): 95/22% (4.) Stream Classification: _ j WS -V B .^1 (10.) 30Q2 (cfs): j 314i/� -9 (5.) 303(d) Status: i Not listed (11.) Average Flow (cfs): 06 (6.) 305(b) Status:_.__...__ - j (12.) IWC %: -2,4702;` .....___.___...__..__.. 24 (0'u f fall 002) Notes: 1. 30Q2 for the Catawba River has been defined as the minimum daily average release at Mou: , tain Island Hydro. 2. Average flow (QA) for the Catawba River has been defined as mean annual flow based on cr.c!rations records from 1929 to 2003 at Mountain Island Hydro. 1.0 Proposed Changes Incorporated Into. Permit Renewal • Add language allowing the construction of the FGD system and the dry ash. ) Candling system. • Add monitoring requirements at internal outfall 005 (treated FGD wet scrut,her wastewater to ash settling basin). • Remove arsenic limit and monitoring requirement due to lack of reasonable ;>otential for levels of this parameter to cause an exceedance of water quality standards. • Add 3 -year compliance schedule for 21 pg/L selenium limit to coincide with the estimated completion date of the dry ash handling system. 2.0 Summary Selenium Compliance Schedule During the comment period, Duke Power and Division staff met to discuss several proposed changes to the draft permit. The primary point of concern involved .the increase in IWC and the resulting change in permit limits (particularly selenium). Duke indicated that at this time they would have difficulty meeting the selenium limit, however they will be installing a dry ash handling system that is expected to cut flows in half. Since the IWC calculation is based on actual flows, a reduction in flow would decrease the IWC and therefore increase the allowable selenium limit. Duke has asked Division staff to allow 3 years for the construction of the treatment system before the 21 ug/L selenium limit takes effect. Until that time, the existing limit of 31 pg/L will remain in the permit. NPDES Permit Amendment - 06/28/ Page 2 Removal of Arsenic Limit During the cornment period, Duke i was recalcula ak-d using 30Q2= 314 (1 license) and Q,`•: -= 2470 cfs (mean ar Hydro). Based ;-i this data, there is water quality s: idards. The RPA) and aj z allowal, concentration of 8 be removed. Duke Power/ Allen Steam Station NC0004979 s able to provide updated 30Q2 and QA values. The RPA umum daily average release as defined in the FERC Cal flow based on 1929-2003 data for mountain Island > longer reasonable potential for an exceedance of arsenic [ded a maximum predicted concentration of 203.5 Vg/L pg/L. The arsenic limit and monitoring requirements will Constru ion of e Gas Desulfurizatioi' and Dry Ash Handling Systems Duke) i,is to. all two major pollu ion control systems at Allen Steam Station in 2009: a Dry Ash 11 Cling tem and a Flue Gas Desulfurization (FGD) system. The Dry Ash Handling system fl de, se the flow and pollutant loading to the ash basin (Outfall 002). The FGD system 11 int uce an additional Wastewater stream that will be treated by a dedicated wastev -r tr( lent system (WWT9). Effluent from the WWTS will discharge to the ash basin, -here .• itio) reatment will occulprior to discharge. Once both systems are installed, the i'rnw rat( om ash basin is expect d to be reduced by approximately 50%. 1 ..e pro,, iec� )ected pollutant c 11. In so � ie s tions, literature D, D sites. trations based primarily on models and the analysis of h was used along with analytical results from current NPDES Permit Amendment - 06/28/06 Page 3 Flue Gas Desulfurization Wastewater Characteristics Duke Power/ Allen Steam Station NC0004979 Potential Parameters of Concern Projected Average concentrations in FGD wastewater (pg/L) Projected Concentrations after WWTS (pg/L) Projected Average Concentrations at Outfall 002 (pg/L) Applicable Water Quality Standards (pg/L) Antimony 0.02 0.01 0.01 5.6E Arsenic 0.28 <0.14 0.14 10C Barium 4.9 <2.5 0.52 1000 Beryllium 0.035 <0.02 <0.0005 0.0068c Boron 20 10 1.54 750E Cadmium O.U7 0.035 <0.0005 15.OA COD 450 225 31 Chloride 2997 1499 184 250000 Chromium 0.40 0.20 0:06 1022A Cobalt 0.37 0.18 <0.030 Copper 0.44 0.22 0.04 7.3A Fluoride 52.2 26.1 3.46 1800 Lead 0.30 0.15 0.02 33.8A Manganese 5.74 2.8 0.40 200 Mercury 0.35 0.0005 <0.0001 0.01.2 Molybdenum 0.43 0.21 0.07 - Nickel 0.70 0.40 0.06 261A Selenium 6.9 0.05 0.01 56A Silver O.07 0.03 <0.005 1.23A Sulfate 1500 750 142.1 250000 Temperature 133 OF 95 OF Ambient Narrative Thallium 0.22 0.11 0.01 0.35E TSS 16000 15 10 - Vanadium 0.21 0.11 0.01 24E Zinc 0.37 0.18 0.04 67A C= carcinogen A= acute criteria E= EPA criteria Duke has received permit modifications at several other plants for the addition of FGD systems. Each of those has received monthly flow monitoring as well as weekly monitoring at an internal outfall (discharge to ash basin) for the following parameters: TSS ® Chloride 8 Silver • Arsenic o Mercury m Zinc • Cadmium o Nickel • Chromium • Selenium In addition, the following appear to be potential pollutants of concern at this facility and will also be monitored: Beryllium • COD NPDES Permit Amendment — 06/28/ Page 4 Duke Power/ Allen Steam Station NC0004979 4.0 Proposed Schedule for Permit Issuance Draft Permit to Public Notice: TBD Permit Scheduled to Issue: TBD 5.0 State Contact Informatio If you have any questions on any of tie above information or on the attached permit, please contact Toya Fields at (919) 733-5083, I xtension 551. ed t� provide further•information on the permit development: Copies of the following are attach p p p ® Draft permit NPDES Signature I Date Regional Office Comments: Regional Recommendation by: Signature ��`� Date�� Reviewed and accepted by: Regional Supervisor: Signature Date NPDES Unit Supervisor: Signature Date , 5 t REASONABLE POTENTIAL ANALYSIS Allen Steam Station NC0004979 Time Period 2002-2005 Qw (MGD) 18.9 7Q10S(cfs) 95 7Q 10W (cfs) 95 30Q2 (cfs) 314 Avg. Stream Flow, QA (cfs) 2470 Rec'ving Stream Catawba River WWTP Class I IWC (%) @ 7Q10S 23.569 7Q 10W 23.569 @ 30Q2 8.5335 ® QA 1.1721 Stream Class WS -IV B Outfall 2 Qw = 18.9 MGD Legend: C = Carcinogenic NC = Non -carcinogenic A = Aesthetic Freshwater Discharge 4979_rpa.xls, rpa 12/14/2005 STANDARDS & PARAMETER TYPE CRITERIA (2) POL Units REASONABLE POTENTIAL RESULTS RECOMMENDED ACTION (1) NCWOS/ Vi FAV/ n #&L Mar Prod GW Allowable Cw Chronic Acute Acute: WA Arsenic C 10 ug/L 42 42 203.5 ' Chronic: 853 Max predicted «allowable Acute: N/A - Barium NC 1000.0 ug/L 9 9 691.2 ' Note: n<12 ................ ----------' Chronic: 4,243 ------------------------------_. Max predicted «:allowable Limited data set Remove monitoring Acute: 15 Cadmium NC 2 15 ug/L 13 8 3.3 ---------------------------------------------- Chronic: 8 Max predicted << allowable. Remove monitoring Acute: 1,022 - Chromium NC 50 1,022 ug/L 14 1 61.6 .............................................. Chronic: 212 Max: predicted << Removemonitoring ' Acute: 7 -- Copper NC 7 AL 7.3 ug/L 79 76 117.9 Chronic: 30 max predicted » allowable. Action level. parameter limit required by 40. CFR 423.12' Acute: 22 Cyanide NC 5 N 22 10 ug/L 12 3 5.0 --------------------------------------------- ________________Chronic: Chronic:21 max predicted << allowable. Remove monitoring ' Acute: N/A Iron NC 1 AL mg/I 52 52 2.4 ---------------------------------------------- _________________Chronic: Chronic: 4 Max predicted , allowable limitrequired by 40. CFR 423.12 Acute: WA Napthalene NC 570 ug/L 19 1 13.9 Chronic: 2,418 Max predicted << allowable Remove monitoring Acute: A-- Nickel Nickel NC 25 ug/L 12 12 47.9183 --------------------------------------- _____________Chronic: 106 Chronic: Max predicted << allowable Remove, monitoring Acute: N/A ,.. Phenols A 1 N ug/L 19 0 5.0 _______________ ----------------------------------- Chronic: 12 No detections. Remove monitoring Acute: 56 Selenium NC 5 56 ug/L 80 80 58.6 —_—_—_—_—_—_ Chronic: 21 _—_—_—_—_—_—_—_-----_—_—_—_—_-- Several values above the allowable in 2003 Retain limit Acute: 67 ... ' Zinc NC 50 AL 67 ug/L 13 13 79.1 _ _ __ _ __ Chronic: 212 _ _ Max .rpedicted«allowable Remove monitoring Acute: WA Sulfates NC 250.0 mg/L 13 13 96.4 Chronic: 1,061 Max predicted <,allowable , Remove monitoring Acute: N/A 0 0 N/A _ -------------------------------------- Chronic: °rro- Type -------------- --------------- Acute: N/A 0 0 N/A Chronic:: --- Type ------------------------------- rror Legend: C = Carcinogenic NC = Non -carcinogenic A = Aesthetic Freshwater Discharge 4979_rpa.xls, rpa 12/14/2005 7 r - n N N m O m N Omi V N ^Nm O a O nm N II U o j � U d 7Q C LL1a. y 2iniU c rL �� O Oi N m N Oi Oi N O N N N N t0 N r m J O fL W h m N V N V W N N N N m O� Nm '7 w m n m W n 0 N M a m m n W O� O N M a m W m m 0 - �- •- � � � r � �- N N N N N N N N N N M t7 MMM M M M M M V a 'd' d' V O V? 7 �} to N n C O m N 6 c6 (m0 QMi tW0 h N M N u Z5 0 U O c i > d man>U c ami J 7 r M N q O a W m N r N M m m m n N O W m M I*� m N W m N 7 r W N V m m O m O h 0 7 m N O, N 0 N m I: m m C m N N N N m m a V N r T M N m I' a f' m Ih ' r m N r m a N m t2 ' w? J O m O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O y N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N ,. m m � rn o n v C� t0 t7 a 4 C FD M n 9 Q n a � N Q. C N - - �c��v�n�onmrnolc�.-cl. ��mm�m�o�c��c�Ma�nconcornoTc1� c�a�mm� a N m n m OI O N M V N W h m m 0 N Main m n m O� O N M �t N m n m m O N M m m n W W O N M a m m n m rn o N M a W m n m O! O .- � �-- .- �- �- N N N N N N N N N N M M M M M M M M M M V a a V VR C C a V m m to m �n in �n m m m m co m m m m m m m m h n n n n n n l� n h m ao r r REASONABLE POTENTIAL ANALYSIS 4979_rpa.xls, data 2- 12/14/2005 Cadmium Chromium Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results Date Data 1 1/7/2003 < 0.5 0.3 Std Dev. 0.3185 1 2/5/2002 <5 40 20.0 Std Dev. 5.3452 1 7/1/2003 <' 5' 2 7/1/2003 < 0.5 0.3 Mean 0.5531 2 5/7/2002 < 40 20.0 Mean 21.4286 2 8/9/2003 < - 2 3 10/7/2003 `< 0.5 0.3 C.V. 0.5759 3 7/2/2002 40 40.0 C.V. 0.2494 3 9/10/2003 <# 5 4 1/6/2004 <, 0.5 0.3 n 13 4 10/1/2002 d% 40 20.0 n 14 4 1/2/2002 11 5 1/4/2005 ,<:: 0.5 0.3 5 1/7/2003 <': 40 20.0 5 2/5/2002 ;;f 11 6 7/2/2002 :-- ` 0.63 0.6 Mult Factor = 2.6200 6 7/1/2003,-{ 40 20.0 Mult Factor = 1.5400 6 3/5/2002, ' e 16 7 10/1/2002 0.53 0.5 Max. Value 1.3 ug/L 7 10/7/2003[<' 40 20.0 Max. Value 40.0 ug/L 7 4/2/2002 ¢ 10 8 4/1/2003 0.59 0.6 Max. Pred Cw 3.3 ug/L 8 1/6/20041,<9 40 20.0 Max. Pred Cw 61.6 ug/L 8 5/7/2002, f 7 9 4/6/2004 € 0.59 0.59 9 4/6/200411< 40 20.0 9 5/14/2002{ , # 17 10 7/6/2004 1.25 1.25 10 7/6/20041� 40 20.0 10 5/15/2002 % 18 11 10/5/2004. 0.52 0.52 11 10/5/2004 < 40 20.0 11 5/16/2002 _. 16' 12 4/5/20055, 0.92 0.92 12 1/4/20051<, 40 20.0 12 6/4/2002: 12 13 7/5/2005 0.91 0.91 13 4/5/2005 c 40 20.0 13 7/2/2002 's -16. 14 14 7/5/2005 ,S 40 20.0 14 7/16/2002 - 17 15 15, 15 8/6/2002 10 16 A16 16 8/21/2002 7 17 4 17 17 9/3/2002 8 18 5 18 18 9/17/2002 6 19 19 _. 19 10/1/2002= 11. 20 20' 20 10/15/2002 8 21, q 21- 21 11/5/2002- 16 22 22 22 11/19/2002 11 23 g 23 23 1/7/2003 9 24 8 24' 24 1/21/2003 6 25 25 '� 25 2/4/2003 ' < 22'. 26 26 26 2/18/2003 y( 9 27 27 27 3/4/2003 # 14 28' 28 28 3/18/2003' B 7 29' 30 29' 30�? ,# 29 30 4/1/2003 1 4/15/2003. 16 13. 31 31 31 5/6/2003444, .,888 6 32 " € 32 32 5/20/2003 4 33 33. 33 6/3/2003 8 34 ,° 34� g ¢ 34 6/17/2003, 4 35 �( 35 35 7/15/2003t 4 36 36- 36 8/26/2003 2 37 37• - 37 9/24/2003 .. 3 38 38' 38 10/7/2003 8 39 39 # 39 10/21/2003 6 40 40. ;' ,. 40 11/4/2003e 1 7 41 41 g 41 11/18/2003 10 42 42 # -' 42 12/2/2003 ' 21 43 1. 43' 43' 12/15/2003 .' 5' 44 44 I-�, 44 1/6/2004.- 8. 45 l 45 45 1/20/2004 , 14 46 E 46. 46 2/3/2004 26 47 _ # 47• 47 2/17/2004: 18 48 48, 48 3/2/2004 6 49 ;, 49, 49 3/16/2004 4 50 50. '^ 50 4/6/2004 ' 6' 51 51 51 4/20/2004 4 52, 52' 52 6/1/2004 11 53 53: 53 6/15/2004 10 54 54 - 54 7/6/2004 " 21 55 55 55 7/20/2004 ' ' " 4 56 56 56 8/3/2004 7 57 g 57 57 8/17/2004 6 58 58 - 58 9/7/2004 6' 59 I1 59 59 9/21/2004! € 24 60 60 60 10/5/2004 18 61 61 61 10/19/2004 14 62 62' 62 11/3/2004 " 18. 63 63; 63 11/16/2004' 27 64, 64 3 64 12/7/2004 "� 10. 65' ( %' 65• 65 12/20/2004 8 66 t 66 66 1/4/2005 -6 67 67 67 1/18/2005 6 68 68 68 2/1/2005 r 43 69 E 69 69 2/15/2005 40 70 70 { 70 3/1/2005 54 71 ` 71 # 71 3/15/2005 { 43 72 LA 72 2 72 4/5/2005 67 73 73� 73 4/19/2005 13 74 74 .1 74 5/3/2005 20 75 k 75 y s 75 5/17/2005 s 31 78 3 76 � � 76 6/7/2005 j . J� 29 77 3 77 77 6/21/2006 8 78 l E 78 78 7/5/2005 49 79 79 ( 79 7/19/2005 1 43 80 1 80- 80 81 � _i 81 i s 81 1 4979_rpa.xls, data 2- 12/14/2005 Copper BDL=1/2DL Results Results 2.5 Std Dev. 12.7816 1.0 Mean 14.4304 2.5 C.V. 0.8857 11.0 n 79 11.0 2 5.0 16.0 MultFactor= 1.7600 10.0 Max. Value 67.0 ug/ 7.0 Max. Pred Cw 117.9 ug/ 17.0 2 5.0 18.0 5.0 ug/ 2 16.0 Max. Pred Cw 5.0 ug/ 12.0 5.000 0.1 16.0 2 5.000 17.0 2 10.0 0.2 7.0 5.000 0.1 8.0 2 5.000 6.0 0.1 11.0 1.1 8.0 0.1 16.0 0.1 11.0 0.1 9.0 0.3 6.0 0.2 22.0 0.0 9.0 0.1 14.0 0.1 7.0 0.1 16.0 0.2 13.0 0.1 6.0 0.7 4.0 0.7 8.0 0.2 4.0 0.3 4.0 2.0 3.0 8.0 6.0 7.0 10.0 21.0 5.0 8.0 14.0 26.0 18.0 6.0 4.0 6.0 4.0 11.0 10.0 21.0 4.0 7.0 6.0 6.0 24.0 18.0 14.0 18.0 27.0 10.0 8.0 6.0 6.0 43.0 40.0 54.0 43.0 67.0 13.0 20.0 31.0 29:0 8.0 49.0 43.0 REASONABLE POTENTIAL ANALYSIS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15: 16 17 , 18 19 20 21 22 23 ` 24 25. 26 27 28 29 30 31 32 33 34' 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62' 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 -3- Date Data 1 1/2/2002 ` 0.1 2 1/15/2002 0.1 3 2/5/2002{ 0.3 4 2/19/2002'P:' 0.0 5 3/5/2002 0.1 6 3/19/2002; 0.21 7 4/2/2002 0. 8 4/16/2002 ":6' 0.1 9 5/7/2002" 0.0 10 5/14/2002 = : 0. 11 5/15/2002,' 0.2 12 5/16/2002 0.1 13 5/22/2002 0.1 14 6/4/2002 , 0.1 15 6/18/2002 0.11 16 7/2/2002 " 0.0 17 8/6/2002.'. 0.0 18 9/3/2002 i, 0.1 19 10/1/2002 0.0 20 11/5/2002 0.0 21 12/2/2002 0.0 22 1/7/2003 0. 23 2/4/2003 0.1 24 3/4/2003 '> 0.1 25 4/1/2003 I" 0.1 26 5/6/2003 ,�;� 0.1 27 6/3/2003 < 0.7 28 7/1/2003 0.0 29 8/9/2003 I' 1.0 30 9/10/2003 ' 0.81 31 10/7/2003 £ 0.09 32 11/4/2003'- F 0.1 33 12/2/2003 ';;;[ 0.0 34 1/6/2004 ` 4': 0.09 35 2/3/2004 ` ` 0.34 36 3/2/2004 :;; 0.06 37 4/6/2004: 0.15 38 5/4/2004 7=.- 0.04 39 6/1/2004 0.05 40 7/6/2004'' 0.1 41 8/3/2004 _: ;5 0.05 42 9/7/2004 0.06 43 10/5/2004 a 0.14 44 11/3/2004 0.19 45 12/7/2004 „ 0.18 46 1/4/2005 ` ' € 0.08 47 2/1/2005: l 0.69 48 3/1/2005 0.61 49 4/5/2005 ' 0.71 s 50 5/3/2005 s 0.24 51 6/7/2005 "'' 0.1 52 7/5/2005 '• ° 0.31 53 54 55 56 [ 57 1 58 59 60 ..;.`. 61 1 62 63 64 65 66 67 ;'.. 68 69 70 71 72 73 74,s 75 76 f 77 78 79 80 `- 81 Iron BDL=1/2DL 7 4 7 9 2 3 2 9 3 3 4 5 3 6 7 7 2 8 4 2 3 7 6 7 BDL=1/2DL Results Std Dev. 2 5.0 Std Dev. 0.0000 0.1 n Mean 5.0000 2 5.0 C.V. 0.0000 2 5.0 n 12 2 5.0 0.2 2 5.0 Mult Factor= 1.0000 2 5.0 Max. Value 5.0 ug/ 2 5.0 Max. Pred Cw 5.0 ug/ 2 5.000 0.1 2 5.000 0.1 2 5.000 0.2 2.5 5.000 0.1 2 5.000 0.7 -3- Date Data 1 1/2/2002 ` 0.1 2 1/15/2002 0.1 3 2/5/2002{ 0.3 4 2/19/2002'P:' 0.0 5 3/5/2002 0.1 6 3/19/2002; 0.21 7 4/2/2002 0. 8 4/16/2002 ":6' 0.1 9 5/7/2002" 0.0 10 5/14/2002 = : 0. 11 5/15/2002,' 0.2 12 5/16/2002 0.1 13 5/22/2002 0.1 14 6/4/2002 , 0.1 15 6/18/2002 0.11 16 7/2/2002 " 0.0 17 8/6/2002.'. 0.0 18 9/3/2002 i, 0.1 19 10/1/2002 0.0 20 11/5/2002 0.0 21 12/2/2002 0.0 22 1/7/2003 0. 23 2/4/2003 0.1 24 3/4/2003 '> 0.1 25 4/1/2003 I" 0.1 26 5/6/2003 ,�;� 0.1 27 6/3/2003 < 0.7 28 7/1/2003 0.0 29 8/9/2003 I' 1.0 30 9/10/2003 ' 0.81 31 10/7/2003 £ 0.09 32 11/4/2003'- F 0.1 33 12/2/2003 ';;;[ 0.0 34 1/6/2004 ` 4': 0.09 35 2/3/2004 ` ` 0.34 36 3/2/2004 :;; 0.06 37 4/6/2004: 0.15 38 5/4/2004 7=.- 0.04 39 6/1/2004 0.05 40 7/6/2004'' 0.1 41 8/3/2004 _: ;5 0.05 42 9/7/2004 0.06 43 10/5/2004 a 0.14 44 11/3/2004 0.19 45 12/7/2004 „ 0.18 46 1/4/2005 ` ' € 0.08 47 2/1/2005: l 0.69 48 3/1/2005 0.61 49 4/5/2005 ' 0.71 s 50 5/3/2005 s 0.24 51 6/7/2005 "'' 0.1 52 7/5/2005 '• ° 0.31 53 54 55 56 [ 57 1 58 59 60 ..;.`. 61 1 62 63 64 65 66 67 ;'.. 68 69 70 71 72 73 74,s 75 76 f 77 78 79 80 `- 81 Iron BDL=1/2DL 7 4 7 9 2 3 2 9 3 3 4 5 3 6 7 7 2 8 4 2 3 7 6 7 Results 0.2 Std Dev. 0.1 Mean 0.4 C.V. 0.1 n 0.1 0.2 MultFactor= 0.3 Max. Value 0.1 Max. Pred Cw 0.1 0.3 0.2 0.1 0.1 0.1 0.1 0.1 0.0 0.1 0.1 0.1 0.1 0.2 0.2 0.1 0.1 0.1 0.7 0.1 1.1 0.8 0.1 0.1 0.1 0.1 0.3 0.1 0.2 0.0 0.1 0.1 0.1 0.1 0.1 0.2 0.2 0.1 0.7 0.6 0.7 0.2 0.1 0.3 4979_rpa.xls, data 12/14/2005 REASONABLE POTENTIAL ANALYSIS 4979_rpa.xls, data - 4 - 12/14/2005 Napthalene Nickel Date Data BDL=1/2DL Results Date Data BDL=1/2DL Results 0.2244 1 1/2/2002 10 5.0 Std Dev. 1.1471 1 7/2/2002 , 18.37 18.4 Std Dev. 5.5846 1 0.2083 2 2/5/2002 < 10 5.0 Mean 5.2632 2 10/1/2002 15.79 15.8 Mean 17.3667 2 1.0774 3 3/5/2002'<. 10 5.0 C.V. 0.2179 3 1/7/2003 13.7 13.7 C.V. 0.3216 3 52 4 4/2/2002< 10 5.0 n 19 4 4/1/2003 18.26 18.3 n 12 4 5 5/7/2002 K' 10 5.0 5 7/1/2003 '. 13.53 13.5 5 2.3100 6 6/4/2002 s1 10 5.0 Mult Factor= 1.3900 6 10/7/2003, --- 10.51 10.5 Mult Factor= 1.79 6 1.1 mg/I 7 7/2/2002 :-- 10 10.0 Max. Value 10.0 ug/L 7 4/6/2004-. 16.58 16.6 Max. Value 26.8 ug/L 7 2.4 mg/l 8 10/1/2002 r: 10 5.0 Max. Pred Cw 13.9 ug/L 8 7/6/2004 26.64 26.6 Max. Pred Cw 47.9 ug/L e 9 1/7/2003 10 5.0 9 10/5/2004-: 17.58 17.6 9 10 4/1/2003�<:::., 10 5.0 10 1/4/2005 : 9 9.0 10 11 7/1/2003i'<' 10 5.0 11 4/5/2005F 21.67 21.7 11 12 10/7/2003 e-: 10 5.0 12 7/5/2005' , 26.77 26.8 12 13 1/6/2004 < 10 5.0 13' 13 14 4/6/2004 < 10 5.0 14 14 15 7/6/2004 S11 10 5.0 15 15 16 10/5/2004 < 10 5.0 16 16 17 1/4/2005 <: 10 5.0 17' - 17 18 415/2005'�+ 10 5.0 18 18 19 7/5/2005 2= 10 5.0 19 4 19 20 <' 20 20 21; 21 21 22 ¢, 22 22 23 23 r •: 23 24 A, 24 [p 24 25 t 25 - 25 31 27 27 27 28 28' 28 29' 29 29 30 30 30 31 ': 31 31 32 � 32 ; ,'� 32 33- ,; 33 33 34 F" 34 34 35 • 35 35 36 ; ` 36 -`- 36 37 '. 37 37 38 38 38 39 39' 39 40 40 i 40 41 41 t' 41 42 °' 42 42 43 43 43 44 44 44 45 45 46 46 s 1' 46 ,, 46 47 47 47 48 i48 48 49, 49 49 50 50 50 51 51 51 52 52 52 53 53 pp 53 54 54 d d 54 55 55 3l 55 56 d 56 56 57 57 57 58 58 58 59 59 • 59 60 60 60 61 61 61 62 62 62 63, ° 63 63 64 64 64 65 ; 65 - 65 66 6 66 67 67 67 68 68 68 69 69 69 70 70 70 71 71 71 72 72 72 7373 73 74 �' 74 74 75 75pj' 75 76 i 76 I 76 77 77 } e 77 78, 78 78 79 79 79 80 -'� 80 80 81 r 81 d 81 4979_rpa.xls, data - 4 - 12/14/2005 _y O c d r IL com1 cmmrn .rn mN t n 1 N N n n n (O m t to m f� o ' N � N Nm m M M O O O O O O O O O O O O O , 0 0 N 0 0 ........ 0 0 0 0 0 0 0 0 y N N N N N N N N N N N ,a v n �44izz p n o o iz � v l� n N m t N m n m OI O N m 1 N m n m 0 0 N m 1 N m n m Q O N m 1 N m n m O, O N m t N m n m W ON M 1 N n m O, O N M 1 N tp n m m 0 N m t N m n m m 0 - �-+- NNNNNNNNNNMMMMMmmmMM1 V 1t1111t1NN f0 NNm NN NNNt0Nmc0 t0mmm(pmn f�nn n nn n nnmOD mmoo oto N N m O c6 Ci m N t t N . r O II U j a V d 7� c li> d y a ami JtOMtmtc0 N m N mt m O M n m C, nt 1m m 00 1nN.-OM1N"It NNOm tOm 0O, n rn mtrn 7nnV t N N n m t OI Ntm C1 M Nr n 0 N m Nm N c2 N T ,N-- N ; �� C2 7 N V� Oi N N r c0 a m T r c0 � Oi tcj O O C] O NI tD I� n N OI 00 c7 Qi T ' 00 OD a n m T I� m m cV m W O O m � cD N C] f� tD c7 n V� Oi t0 � Ih O r 1� IO r (V m 1 .- .- .- N N m N t N N• - J p m t O, M t f t tD N m N c0 t fp m M n m O .- n t It m m .- O r 1 n N .-- n M 1 N 1 N N 1 m n M M O n m m t M n n t t N m n m t O, N 1 m O M N n m N m N m N N m N Off. N N N' IN 6 w M c i Oi — c6 c6 t 6 T f� N m m Qi cV O O m t0 N m n M I� V N Qi t0 V 1� O' n. n [V M 1� N N N N N N N N N N N N N N N N N N M m m m m M M M M m m m M M M M M M m M m M M m t t t t t t t t t t t t t t t t t t t t N N N..•N N N N N N N N N N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O QNaNianhNNalN CNNvN aN nNoNoNom c�N nmN `N- uoN��N rnN �NcmN CN �N vN aNoaN mN �N N N N N N N N N N N N N �N N TN N N N N N N N N Nt vN NN nN�N mN N oN rNO nON nONrnnON o,nvm,noNmn n mN NO aNO wON �ON iONn N?O ON".n� zi ZQ m v Nm o - ac, cvON rnON NrOn� `ONn CON ONN nON�NoO, r N M 1 N f0 n m T O r N M 1 N c0 n m �-- �- � � � � O O O O O O O O u) O O N O II U o IL � p c %xx 0. y V d > > N @ ¢ U c J o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N J O m 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 m N N N N N N N N M m m m 1 1 1 1 N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O O O O O O O O O O O O O O O O m N N N N N N N N N\ N N N N N N N 01 N Mn J Q Z Q J Q Z W O M W J m Q Z 0 co) Q ui m cnD MO � M O V V ci o N o II U oma U N LL roc >a` N CA f0 m Q! N : m a M (Ll �NNv�nvn V NCO �TMNN J O m N N 7 v, o N r- v v N rn a n ry�� N 2 N N— n O m ON N Nm. aN NN NN NN MN ON OM m7 NM MM M am NM m0M M n MM mT O N M V'N I� m OI O N M V N w n m m O N M V N M n M O O N M V N N n M 0 0 r r .- +- M a a a a V V m0 V t N N N N N N N N N N N iD n n n n m tp N a M O M .- O OOD V N M m 0 o cV 11 U Z5ma C �O N I cnD MO � M O V V ci o N o II U oma U N LL roc >a` N CA f0 m Q! N : m a M (Ll �NNv�nvn V NCO �TMNN J O m N N 7 v, o N r- v v N rn a n ry�� N 2 N N— n O m ON N Nm. aN NN NN NN MN ON OM m7 NM MM M am NM m0M M n MM mT O N M V'N I� m OI O N M V N w n m m O N M V N M n M O O N M V N N n M 0 0 r r .- +- M a a a a V V m0 V t N N N N N N N N N N N iD n n n n m tp N a M O M .- O OOD V N M m 0 o cV 11 U Z5ma U N �O li>a` c J O N N V M M n n N N M N t2 ;E N N O N O N II J O m �, r NO DATA NO DATA NO DATA 0 A m A REASONABLE POTENTIAL ANALYSIS -i- as as,_ 12/1412005 _. Data nL=1 aL __ , 2 \ 2 * _ mo DATA m . _. mo A 3 C.V. NO DATA !:> : \n 0 /\ ° . . _ Factor N/A 7 _.«_ a , :.;Q z Max. m,G _ 1 ^ » \ \ 13 # 3 . s / j \ \ . 20 S \ / , m 2 . " 2 .. j { # � 7 m $ \ ) « ,q . / » \ .. . 40 { a # d 45 _ . m « y. + w,.. e Q, 50 m S o. . 5 \ m t e . . 2 60 6 \ \ \ 65 m d . / e . 70 2 . a73 -x /' s s \ / / « q -i- as as,_ 12/1412005 Duke IPower® n I I OCT 3 1 2005 October 27, 2005 Ms. LeToya Fields North Carolina Department of Environment and Natural Resources Division of Water Quality 1617 Mail Service Center Raleigh, North Carolina 27699-1617 Subject: Allen Steam Station Comments on Draft NPDES Permit No. NC0004979 Dear Ms. Fields: PROCUREMENT, CONSTRUCTION AND EH&S Duke Power 526 South Church St. Charlotte, NC 28202 Mailing Address: EC13K / P. 0. Box 1006 Charlotte, NC 28201 With reference to the draft NPDES permit Duke Energy Corporation offers the following comments: In -Stream Wastewater Concentration (IWC) Determination Mountain Island Hydro is the dam located upstream of Allen Steam Station. Mountain Island Hydro ensures that a minimum daily average release of 314 cfs (202.8 mgd) occurs. This is a requirement of current FERC Hydro Operating License Project No. 2232. Using the minimum daily average release value of 314 cfs and a discharge from outfall 002 of 19 mgd, the IWC equals 8.6 %. Mean Annual Flow In review of the operation records from 1929 to the end of 2003 for Mountain Island Hydro the mean annual flow is calculated to be 2,470 cfs. Reauested NPDES Permit Revisions Using the above release rate of 314 cfs, the selenium and Whole Effluent Toxicity (WET) limits for outfall 002 are requested to be revised. It is requested that the selenium limit be revised to 58 ppb weekly average. The WET limit is requested to be revised to 9 %. - With reference to 15A NCAC 02B.0206 (3) (B), based on the mean annual flow of 2,470 cfs, it is requested that the arsenic limit be removed for outfall 002. Duke Energy appreciates the opportunity to review and comment on the subject NPDES permit. We are more than willing to meet with you at your earliest convenience to discuss any of the above. Please contact me at 704 382-4669 if you have any questions or comments. Sincerely, W r Robert Wylie, Engineer Environmental Support www.dukepower.com r Re: Thanks for the info Subject: Re: Thanks for the info From: Robert R Wylie <rrwylie@duke-energy.com> Date: Tue, 17 Jan 2006 09:58:36 -0500 To: Toya Fields <toya.fields@ncmail.net> Thanks Toya. Just let me know if you need additional information or have any questions. Duke Energy / Plant Allen is willing to have the minimum daily average release of 314 cfs as a requirement in the NPDES permit if that helps matters. 1 of 1 1118/2006 1:59 PN MOUNTAIN ISLAND HYDRO Subject: MOUNTAIN ISLAND HYDRO From: Robert R Wylie <rrwylie@duke-energy.com> Date: Fri, 6 Jan 2006 13:53:44 -0500 To: toya.fields@ncmail.net Toya, Today I met with Ed Bruce who is one of the Duke Power permitting representatives for the hydro relicensing project. The following is in response to your recent questions based on my meeting with Ed and also includes some facts from previous correspondence. Mountain Island Hydro releases every day at least a minimum average of 314 cfs (202.8 mgd). So this is a guaranteed flow every day of the year. The average daily flowrate is substantially higher. A mean annual daily flowrate has been calculated to be 2,470 cfs., The FERC license does not specifically define "daily average". Therefore, it is Duke's interpretation that a daily average is with respect to a calendar day.. There is a direct correlation between flow through the turbine and megawatts generated. Therefore, the flow is calculated based on the megawatts that are generated. 1 MW equals 177-cfs. To reach a daily average flowrate of 314 cfs Mountain Island Hydro is required to generate 31.7 MW -Hours plus 80 cfs for the continuous leakage rate. MW/flow recordings occur each hour. At noon each day if the minimum 314 cfs has not been already achieved an*alarm will appear in the "Hydro Central" control room and stay lit until the required daily 31.7 MW is achieved. Some names of the DENR representatives involved in the hydro relicensing project were mentioned to me. These employees are 'Dan Rayno, Tom Franson, Steve Reed and Jim Mead. It may be of'some benefit to touch base with them. Duke is committed to releasing a minimum daily"average of 314 cfs at the Mountain Island Hydro Station. If a check and balance is needed such as providing the daily releases on each monthly DMR Duke is willing to do so. Please let me know if youneed further clarification or information. Thanks, Robert Wylie Environment, Health and Safety Office Phone Number 704 382-4669 Cell Phone Number 704 562-8258 Fax Number 704 382-6240 Mail Code: EC13K 1 of 1 1/18/2006 1:58 PU FW: MOUNTAIN ISLAND HYDRO RELEASES Subject: Fw: MOUNTAIN ISLAND HYDRO RELEASES From: Robert R Wylie <rrwylie@duke-energy.com> Date: Thu, 5 Jan 2006 17:09:22 -0500 To: toya.fields@ncmail.net Toya, I have corrected my last comment. I was just informed by Hydro that we "certify" that we have met the requirements, Robert Wylie Environment, Health and Safety Office Phone Number 704 382-4669 Cell Phone Number 704 562-8258 Fax Number 704 382-6240 Mail Code: EC13K ----- Forwarded by Robert R Wylie/Gen/DukePower on 01/05/2006 05:07 PM ----- Robert R Wylie/Gen/DukePower To Toya Fields <toya.fields@ncmail.net> 01/05/2006 12:42 PM cc Subject Re: MOUNTAIN ISLAND HYDRO RELEASESLink Toya, The following is in response to your questions. If you need a lot more detail in the equipment used and actual process please let me know. Thanks, Robert As far as you know, is there any place that FERC specifically defines the calculation of this value? FERC license No. 2232 states that a minimum daily average release of 314 cfs is required. Also, how is release compliance tracked by Duke? On a daily basis Duke ensures that the minimum flows are met based on the amount of MW generated. There is a direct correlation for a hydro station between flow and generation. So the central Duke Power control room tracks to ensure that the minimum MW is generated each day. How is it tracked by FERC? An annual compliance report is submitted to FERC that certifies the FERC requirements have been met. 1 of 3 1/11/2006 1:54 PM Fw: MOUNTAIN ISLAND HYDRO RELEASES Toya Fields <toya.fields@ncmail.net> 01/05/2006 09:33 AM Thanks Robert, To Robert R Wylie <rrwylie@duke-energy.com> cc Subject Re: MOUNTAIN ISLAND HYDRO RELEASES As far as you know, is there any placelthat FERC specifically defines the calculation of this value? Also, how is release compliance tracked by Duke? How is it tracked by FERC? Thank for your help with answering all the questions. George Everett from Duke has been in contact with the Director and he wants to meet internally to discuss this issue. These are some of the questions that have come up. Toya Robert R Wylie wrote: > Toya, > The FERC license requirement is a cal( > requirement. > Robert Wylie > Environment, Health and Safety > Office Phone Number 704 382-4669 > Cell Phone Number 704 562-8258 > Fax Number 704 382-6240 > Mail Code: EC13K > *Toya Fields <toya.fields@ncmail.net>� > 01/04/2006 01:31 PM > To > Robert R Wylie <rrwy_ > cc > Subject > Re: MOUNTAIN ISLAND F > Thanks Robert, > I did a quick scan and in September t) > the flow stays at 80cfs. One beginnii > 9/22. 2 of 3 day minimum average flow ie@duke-energy.com> RELEASES e are two 25 -hour periods where on 9/15 and another beginning on 1/11/2006 1:54 PM Fw: MOUNTAIN ISLAND HYDRO RELEASES > -ALert R Wylie wrote: > > Toya, > > The attachment includes the all the hourly release flow (including > > corrected values) for Mountain Island Hydro during the drought of > > 2002. These are for the months of July through Sept. Upon receipt of > > June's data I forward it to you. > > Please call me if you have any questions or need additional information. > > Thanks, > > Robert Wylie > > Environment, Health and Safety > > Office Phone Number 704 382-4669 > > Cell Phone Number 704 562-8258 > > Fax Number 704 382-6240 > > Mail Code: EC13K > Toya Fields - toya.fields@ncmail.net > Environmental Engineer I > Western NPDES Program > Division of Water Quality > Tel: 919-733-5083 x 551 > Fax: 919-733-0719 > [attachment "toya.fields.vcf" deleted by Robert R Wylie/Gen/DukePower] Toya Fields - toya.fields@ncmail.net Environmental Engineer I Western NPDES Program Division of Water Quality Tel: 919-733-5083 x 551 Fax: 919-733-0719 [attachment "toya.fields.vcf" deleted by Robert R Wylie/Gen/DukePower] 3 of 3 1/11/2006 1:54 PM Rd: Duke Power- minimum instantaneous release Subject: Re: Duke Power- minimum instantaneous release From: Matt Matthews <matt.matthews@ncmail.net> Date: Wed, 04 Jan 2006 18:23:27 -0500 To: Toya Fields <toya.fields@ncmail.net> Toya, I have some questions and some comments about this. I'll follow up with a phone call tomorrow. 1. I am assuming we used 80 cfs to calculate limits previously. Is this correct? 2. I'm curious about the nature of the scrubber waste stream. Can the facility provide characterization data or is there a similar waste stream at another Duke plant? Comments: 1. The October 2001 failure was based on seven-day reproduction suppression (34% reduction from control), so this, on its face, does not make an argument for acute toxicity concerns. The October 2003 failure was based on 58% mortality over 48 hours. To me, this most recent failure puts us on solid ground regarding "acute toxicity concerns" using the current 16% limit, much less 24%. Note that the toxicity occurred over 48 hours and we can document they've maintained 80 cfs for 96 hours in the past. 2. Another to look at the issue of acute toxicity has to do with mixing zones. Their current chronic WET limit assumes instantaneous mixing across the entire stream seqment to get to that 16% concentration value. Depending on whether the outfall has a diffuser, we may not be adequately protecting the stream in the immediate area of the outfall. We may want to consider asking them to model their outfall and assign a chronic limit based on the concentration of the effluent at the edge of the chronic mixing zone, or possibly assign an acute limit as well, based on the effluent concentration at the edge of the acute mixing zone. 3. Should we back away from 80 cfs based on the "downstream attenuation" argument, we should require the facility to conduct a flow study to generate an appropriate number. I'll talk to you tomorrow, Matt Toya Fields wrote: Hi Matt, Duke Power has requested that we change the 7Q10 flow estimate we're using at their Allen Plant. We are using the minimum instantaneous flow release at the Mountain Island Dam as defined in the FERC license (80 cfs). They feel that we should be using the minimum daily average release, also defined in the license (315 cfs). They argue that 7Q10 is defined as a 7 -day average flow and therefore minimum average daily flows are more appropriate. There is a rule regarding this, however we have interpreted it to support our flow value and they have interpreted it to support theirs. The rule is 02B.0206(b). We met with the facility and asked them to provide us with actual 1 of 2 1/11/2006 1:58 P1Vl Re: Duke Power- minimum instantaneous release releases during a drought period (Jun that the dam maintains the minimum increases the release (above 2000 cfs of this data electronically, if you'd lik periods during this time frame where consecutive 4 -day period. During thi to around 6000 cfs which increases tl Duke argues that based on attenuatii that are released from the damn. TI 7Q10 might be, however during the (under 300 cfs). We noted that this We tend to feel that in order to pr( the lower flow. The facility has a additional metals limits once they discharge. -August 2002). Based on the information they sent it appears nstantaneous flow approximately 19-21 hours a day, and then for several hours to meet the daily requirement. I have a copy to see it. However it appears that there are at least two he minimum average daily release was not met. One was a time the release stayed at 80 cfs, constantly. It then went up daily average (depending on the period of calculation). 11 miles downstream, you do not see the high and low flows did not provide us with a calculated estimate of what a "true" seting their modeler guesstimated a flow of "two -something" lue is still below the average daily minimum requirement. against acute toxicity concerns in the stream, we need to use aic WET requirement and a selenium limit. They may have y for a permit modification to add scrubber wastewater to the It looks like Alan would like to speak1with Susan and myself about this matter. We wanted to get your thoughts. I can give you a call a little later but wanted to give you a quick email overview. Thanks, Toya Matt Matthews NC DENR/Division of Water Quality Aquatic Toxicology Unit 1621 Mail Service Center Raleigh, North Carolina 27699-162 v-(919) 733-2136, ext. 256 f-(919) 733-9959 Matt.Matthews@ncmail.net http://h2o.enr.state.nc.us/esb/ 2 of 2 1/11/2006 1:58 PM Re: MOUNTAIN ISLAND HYDRO DATA R Subject: Re: MOUNTAIN ISLAND HYDRO DATA From: Robert R Wylie <nwylie@duke-energy.com> Date: Thu, 22 Dec 2005 13:35:11 -0500 To: Toya Fields <toya.fields@ncmail.net> Toya, Your initial definition is accurate.. I will need to go back and check on the days of concern. Everyday there should be at least a daily minimum average of 314 cfs. Robert Wylie Environment, Health and Safety Office Phone Number 704 382-4669 Cell Phone Number 704 562-8258 Fax Number 704 382-6240 Mail Code: EC13K -----Toya Fields <toya.fields@ncmail.net> wrote: ----- To: Robert R Wylie <rrwylie@duke-energy.com> From: Toya Fields <toya.fields@ncmail.net> Date: 12/22/2005 01:24PM Subject: Re: MOUNTAIN ISLAND HYDRO DATA Thanks Robert, One question: how is "minimum average daily release" defined? I had assumed that it was a 24 hour average but from looking at the data it appears that it might actually be an average over a period of several days. There are several periods of time where the 80 cfs is released for more than 24 consecutive hours, and in one case it remained at that value for over 4 days. Robert R Wylie wrote: > Toya, > Attached is the spreadsheet for the hourly release rate from Mountain > Island Hydro during the summer drought of 2002. Please let me know if > you need any additional information. > Thanks, > Robert Wylie > Environment, Health and Safety > Office Phone Number 704 382-4669 > Cell Phone Number 704 562-8258 > Fax Number 704 382-6240 > Mail Code: EC13K Toya Fields - toya.fields@ncmail.net Environmental Engineer I Western NPDES Program Division of Water Quality Tel: 919-733-5083 x 551 Fax: 919-733-0.719 1 of 2 1/18/2006 1:58 PN Re: MOUNTAIN ISLAND HYDRO DATA [attachment "toya.fields.vcf' removed by Robert R Wylie/Gen/DukePower] 2 of 2 1 1/18/2006 1:58 PN Re: draft permit for Allen Steam Subject: Re: draft permit for Allen Steam From: Shell.Karrie-Jo@epamail.epa.gov Date: Mon, 31 Oct 2005 15:32:29 -0500 To: Toya Fields <toya.fields@ncmail.net> Sounds good. Thanks for revising the FS. Karrie-Jo Robinson -Shell, P.E. Toya Fields <toya.fields@ncm ail.net> 10/31/2005 03:27 PM Hi Karrie, To Karrie-Jo Shell/R4/USEPA/US@EPA cc Subject Re: draft permit for Allen Steam The following justification was included in the previous permit file, when the limit was first established. I will add it to the fact sheet. Originally the explanation was sent from Robert Wylie (Duke representative) to you and Natalie Sierra (former permit writer). "The limit of 50 mg/L TSS for the coal yard sump is form 40 CFR 423, however it applies to coal pile -runoff during a rainstorm event. The layout for the coal yard sump is such that an overflow would most likely be low volume wastewater instead of coal pile run off. Chemical metal cleanings do not go to this sump. Therefore it was agreed that the limits for this sump should be O&G 20 mg/L daily max and 15 mg/L monthly average and TSS- 100 g/L daily max and 30 mg/L monthly average..." Let me know if this is sufficient. Toya Shell.Karrie-Jo@epamail.epa.gov wrote: LaToya, The daily max TSS limit for outfall 002A should be 50.0 mg/l, unless the basin is constructed & operated to retain the 10Y24H storm event. See 40 CFR 423.12(b)(9) & (10). I could not tell from the fact sheet if this was the case. Please revise the DM limit on page 5 of the permit to 50 mg/l or include a discussion in the fact sheet about the volume of Ithe coal pile run-off basin. 1 of 2 11/1/2005 9:50 AM Re: draft permit for Allen Steam I ,.!S Karrie-Jo Robinson -Shell, P.E. Toya Fields - toya.fields@ncmail.net Environmental Engineer I Western NPDES Program Division of Water Quality Tel: 919-733-5083 x 551 Fax: 919-733-0719 (See attached file: toya.fields.vcf) Content -Type: application/octet-stream i toya.fields.vcf i Content -Encoding: base64 2 of 2 11/1/2005 9:50 AM 4. 1