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NC0020036_Wasteload Allocation_19890424
NPDES DOCUMENT SCANNINO COVER SHEET NPDES Permit: NC0020036 Stanley WWTP Document Type: Permit Issuance Wasteload Allocation Authorization to Construct (AtC) Permit Modification Complete File - Historical Speculative Limits Instream Assessment (67b) Environmental Assessment (EA) Permit History Document Date: April 24, 1989 This document is printed on reuse paper - ignore aay content on the relirerse side NPDES WASTE LOAD ALLOCATION Design Capacity (MGD): Domestic (X of Flow): Industrial (X of Flow): %l7; Comments: PERMIT NO.: NCO° - &03G FACILITY NAME• 1c.v� or' slaty e,✓ Facility Status: ( DOMINO PROPOSED (circle one) Permit Status: RENEWAL �MODR'1CA'17UTP tranatmnTED NEW (circle one) Malor Minors Pipe No• 00% xGD Y. SopraeoSo} RECEIVING STREAM: him GUJ /4( 7/A(i Class L Sub -Basin• 0)3 _6 f) r 3S Reference USGS Quad: /4 (please attach) County: Cn£A, Regional Office: As Fa V' Ra Wa Wi WS (circle ..e) Requested By: v " Date: Prepared By: Reviewed By: Date: ate: 11/40Q, Lf-z4-?? Modeler Date Rec. zkzz\ M 5132 1 Drainage Area (mi) " ' Avg. Streamflow (cfs)- 7Q10 (cfs) Winter 7Q10 (cfs) �- g% 30Q2 (cfs) D.6 4•Itazoc4rr', 7a esi4vAleicAter7C Toxicity Limits: IWC % (circle one) Acute / sonic) / 0 o A G+usfi•7 urAt-tvAIQY c, eeK Parameters ��f )o fie/. / a)-0 Upstream _L Location $o %, ' Downstream Y Location fM J ?J ad'-27 Instream Monitoring: Effluent Characteristics Summer Winter BOD5 (mg/1) 3 0 NH3 N (mg/I) 1 / AI,- D.O. (mg/1) 5 s TSS (mg/I) 3 p 3 0 F. Col. (/100m1) 1060 /000 pH (SU) G - q 6 —1-esi iviel cii le 'II c ‘47fLs ace.'"—Clei. +6 X1:47-ri 7 Comments: f o pp /l l 5 ✓ C.e i / f. S �� s e� f Sa Permit Number Facility Name Type of Waste Status; Receiving Stream Stream Class Subbasin County Regional Office Requestor Date of Request Quad WASTELOAD ALLOCATION API? NC0020036 TOWN OF STANLgY 89% DOMESTIC 11% EXISTING, REL0C4T104 MAUNEY CRf . C : 030835 : GASTON MRO . HARRIS 2/22/89 F14SE Wasteflow 5-Day BCD (mgd): (mg/1): Ammonia Nitrogen (mg/1): DissolvedOxygen (mg/ 1) : TSS (mg/1): Fecal Ccliform (;/100m1) : pH (SU): RECEIVED APR 19 1989 INDUSTRIAL Request RECEIVED Mi1SION OF ENVIRONMENTAL IAARAGEME NO 'APR 18 1989 Drainage'4lrea Average Flow Summer 7Q10 Winter 7Q10 30Q2 RE_OMM _D EFFLUENT LIMITS 01mu- Cret of SL.•i: L: )WINTER 0.500 0.500 20 30 11 30 1000 6-9 NR 5 30 1000 6-9 MONITORING A100RESVIILE 9EOIONAI O'Ffcf (sq mi) (cfs) (cfs) (cfs) (cfs) : 2.47 . 2 92 . 0.27 : 0.47 : 0.61 EXIST . (A 0.500 12 8 5 310 1000 6-9 No. :File 1/14.444-4,1(nC4-tok) Upstream (Y/N): Y Location: 50 FT. UPSTREAM OF DISCHARGE Downstream (Y/N): Y Location: @ STATE ROAD 1827 COMMENTS S/W LIMITS RECOMMENDED FOR RELOCATION OF DISCHARGE DIRECTLY INTO MAUNEY CREEK. EXISTING LIMITS FOR DISCHARGE INTO UT MAUNEY CREEK BASED ON DIVISION PROCEDURE FOR EXISTING DISCHARGERS TO STREAMS WITH 7Q10=0 AND 30Q2>0. RECOMMEND INSTREAM MONITORING FOR TEMPERATURE, DISSOLVED OXYGEN, FECAL COLI- FORM, AND CONDUCTIVITY. "TOXICITY REQUIREMENTS FOR BOTH EXISTING AND PROPOSED LOCATIONS ARE ATTACHED. **PERMIT SHOULD CONTAIN LIMITS FOR THE EXISTING AND PROPOSED DISCHARGE LOCATIONS.** Recommended by Reviewed by: 46'ech. Support Supervisor Regional Supervisor Permits & Engineering D .a Ds. 11- Date Lj--j -al 40(71 MAY IS 1989 Date RETURN TO TECHNICAL SERVICES BY 4 Ti%' 4X1Iaurb - (%ru44, p Cf£f-k Facility Name I O 6 Permit# NC Do A6o3A CI -IRONIC TOXICITY TESTING REQUIREMENT (QRTRLY) The effluent discharge shall at no time exhibit chronic toxicity in any two consecutive toxicity tests, using test procedures outlined in: 1.) The North Carolina Ceriodaphnia chronic effluent bioassay procedure (North Carolina Chronic Bioassay Procedure - Revised *February 1987) or subsequent versions. The effluent concentration at which there may be no observable inhibition of reproduction or significant mortality is 9? % (defined as treatment two in the North Carolina procedure document). The permit holder shall perform quarterly monitoring using this procedure to establish compliance with the permit condition. The first test will be performed after thirty days from issuance of this permit during the months of.TAN #7i�.T)G Ocr . Effluent sampling for this testing shall be performed at the NPDES permitted final effluent discharge below all treatment processes. All toxicity testing results required as part of this permit condition will be entered on the Effluent Discharge Monitoring Form (MR-1) for the month in which it was performed, using the parameter code TGP3B. Additionally, DEM Form AT-1 (original) is to be sent to the following address: Attention: Technical Services Branch North Carolina Division of Environmental Management P.O. Box 27687 Raleigh, N.C. 27611 Test data shall be complete and accurate and include all supporting chemical/physical measurements performed in association with the toxicity tests, as well as all dose/response data. Total residual chlorine of the effluent toxicity sample must be measured and reported if chlorine is employed for disinfection of the waste stream. Should any single quarterly monitoring indicate a failure to meet specified limits, then monthly monitoring will begin immediately until such time that a single test is passed. Upon passing, this monthly test requirement will revert to quarterly in the months specified above. Should any test data from this monitoring requirement or tests performed by the North Carolina Division of Environmental Management indicate potential impacts to the receiving stream, this permit may be re -opened and modified to include alternate monitoring requirements or limits. NOTE: Failure to achieve test conditions as specified in the cited document, such as minimum control organism survival and appropriate environmental controls, shall constitute an invalid test and will require immediate retesting(within 30 days of initial monitoring event). Failure to submit suitable test results will constitute noncompliance with monitoring requirements. 7Q10 0 cfs Permited Flow _ p•S' MGD Recommended by: IWC% /00 Basin & Sub -basin CTB3S' Receiving Stream clr /hhwA/t4 CuZ County GIOSIDnI **Chronic Toxicity (Ceriodaphnia) P/F at 99 %, afnleR ocT , See Part 3 , Condition ti . 1 v jr755£ OE/°c4-A6N 9u frtividfi. C✓tgic Facility Name /02wi Permit # Ale 0 0 0 036 CHRONIC TOXICITY TESTING REQUIREMENT (QRTRLY) The effluent discharge shall at no time exhibit chronic toxicity in any two consecutive toxicity tests, using test procedures outlined in: 1.) The North Carolina Ceriodaphnia chronic effluent bioassay procedure (North Carolina Chronic Bioassay Procedure - Revised *February 1987) or subsequent versions. The effluent concentration at which there may be no observable inhibition of reproduction or significant mortality is 71 % (defined as treatment two in the North Carolina procedure document). The permit holder shall perform quarterly monitoring using this procedure to establish compliance with the permit condition. The first test will be performed after thirty days from issuance of this permit during the months of AU //PR t1VI- ' 7- . Effluent sampling for this testing shall be performed at the NPDES permitted final effluent discharge below all treatment processes. All toxicity testing results required as part of this permit condition will be entered on the Effluent Discharge Monitoring Form (MR-1) for the month in which it was performed, using the parameter code TGP3B. Additionally, DEM Form AT-1 (original) is to be sent to the following address: Attention: Technical Services Branch North Carolina Division of Environmental Management P.O. Box 27687 Raleigh, N.C. 27611 Test data shall be complete and accurate and include all supporting chemical/physical measurements performed in association with the toxicity tests, as well as all dose/response data. Total residual chlorine of the effluent toxicity sample must be measured and reported if chlorine is employed for disinfection of the waste stream. Should any single quarterly monitoring indicate a failure to meet specified limits, then monthly monitoring will begin immediately until such time that a single test is passed. Upon passing, this monthly test requirement will revert to quarterly in the months specified above. Should any test data from this monitoring requirement or tests performed by the North Carolina Division of Environmental Management indicate potential impacts to the receiving stream, this permit may be re -opened and modified to include alternate monitoring requirements or limits. NOTE: Failure to achieve test conditions as specified in the cited document, such as minimum control organism survival and appropriate environmental controls, shall constitute an invalid test and will require immediate retesting(within 30 days of initial monitoring event). Failure to submit suitable test results will constitute noncompliance with monitoring requirements. 7Q10 O► 27 cfs Permited Flow 6.5.- MGD Recommended by: IWC% 7.7 Basin & Sub -basin Crj3s Receiving Str am Afif vii c,ta County GASP A) **Chronic Toxicity (Ceriodaphnia) P/F at %%, OfAlet -ac oGT", See Part 3 , Condition H Discharger Receiving Str MODEL RESULTS TOWN OF STANLY eam : UT MAUNEY CREEK SUMMER MODEL @ NEW DISCHARGE INTO MAUNEY CR.(MODEL INTO SF The End O.G. The End CBOD The End NBOD is 7.54 mg/1. is 2. 1 5 mg/1,. is 1. 1 6 mg/1. Segment 1 Reach 1 Reach 2 Reach 3 Reach 4 Reach 5 Reach 6 WLA WLA WLA DO Min CBOD NBOD DO Waste Flo (mg/1) Miiepoint Reach # (mg/1) (mg/1) (mg/1) (mgd) 5.05 1.15 2 45.00.. 48.00 5.00 0.50000 0.00 0.00 0.00 0.00000 0,00 0.00 0.00 0.00000 0.00 0.00 0.00 0.00000 0.00 0.00 0.00 0.00000 0.00 0.00 0.00 0.00000 *** MODEL SUMMARY DATA * Discharger : TOWN OF STANLY Receiving Stream : UT MAUNEY CREEK Stream Class: 5ubbasin : 0308 Summer 70,10 • 0.27 Winter 7Q 1 0 : 0.47 Design Temperature 4 25.0 'LENGTH! Imile1 SLOPE' VELOCITY 1 DEPTH' Kd 1 Kd 1 Ka 1 Ka 1 KN 1 KN ( KNR 1 KNR 1 S00 1 SOD ft/mil fps 1 ft (design' 1120° (design( @20° (design' @20° (design( @20° (design @20° Segment 1 1 0.55 Reach 1 I I i I 1 1 1 1 1 1 1 1 29.40( 0,232 1 0.55 ( 0.48 ( 0.38 113.69 1 12,281 0.73 ( 0.50 1 0,73 (0,00 1 0.00 ( 0.00 Segment 1 Reach 2 0.95 17.801 0.195 i 0.61 1 0,38 ! 0,30 1 6.98 1 6.261 0.44 1 0.30 10.44 1 0.00 1 0.00 1 0.00 Segment 1 Reach 3 0.25 11.801 0.189 1 0,86 1 0,37 1 0.29 1 6.76 1 6.061 0.44 1 0.30 1 0.44 1 0,00 1 0.00 10,00 Segment 1 Reach 4 0,40 17.801 0.196 1 0.67 1 0.37 1 0.29 1 7,00 1 6.281 0.44 1 0.30 1 0.44 1 0.00 1 0.00 (0.00 Segment 1 Reach 5 0.72 11.80) 0.195 1 0.69 1 0,31 1 0.29 1 6.97 1 6.251 0.44 1 0.30 1 0,44 1 0,00 1 0.00 1 0.00 Segment 1 Reach 6 1.00 4.801 0.688 13.27 1 0,29 1 0.23 ( 3,24 ! 2.9010,44 10.30 1 0,44 1 0.00 1 0.00 1 0,00 1 Flow ow 1 CBOD I NBCAL:; 1 0.0 . 1 I c f s 1 mg/ 1 1 mg/11 mg/ 1 Segment 1 Reach 1 Waste 1 0.775 1 45.000 1 48.000 1 5.000 Headwaters ( 0.270 1 2.000 I 1.000 1 7.440 Tr-ibutary 1 0.000 1 2.000 1 1,000 1 7.440 * Runoff 1 0.060 1 2.000 1 1.000 1 7.440 'Segment 1 Reach 2 17asti 1 0.000 Tributary 1 0,000 * Runoff 1 0.060 Segment 1 Reach 3 Waste 1 0.000 Tributary 1 0.120 * Runoff 1 0.000 0.000 2.000 2.000 0.000 2.000 2.000 0.000 1.000 1.000 0.000 1.000 1.000 0.000 7.440 7.440 0.000 7,440 7,440 Segment 1 Reach 4 Waste 1 0.000 I 0.000 Tributary 1 0.030 1 2.000 * Runoff 1 0.000 I 2.000 0.000 1.000 1.000 0.000 7.440 7.440 Segment 1 Reach 5 Waste 1 0.000 Tributary 1 0.000 * Runoff 1 0.140 Segment 1 Reach 6 Waste 1 0.000 Tributary 1109.000 * Runoff 1 0.000 0.000 1 2.000 1 2.000 I 0.000 2.000 2.000 * Runoff flow is in cfs/mile 0.000 1.000 1.000 0.000 1.000 1.000 0.000 7.440 7.440 0.000 7.440 7.440 I Seg # I Reach # I 5eg Mi I D.O. I CBOD 1 1 0.00 5.63 33.89 ? 1 0.05 5.56 33.58 1 1 0.10 5.50 33.28 1 1 0. 1 5 5.46 32.08 1 1 0.20 5,43 32.69 1 1 0.25 5.42 32.39 1 1 0.30 5.41 3 2. 1 0 1 1 0.35 5.41 31-82 1 1 0.40 5.41 31.53 1 1 0.45 5.42 3 1 .25 1 1 0.50 5.43 30.97 1 1 0.55 5.44 30.69 1 2 0.55 5.44 30.69 1 2 0.60 5.36 30.43 1 2 0.65 5.30 30.17 1 2 0.70 5.24 29.92 1 2 0.75 5,19 29.66 1 2 0.80 5.15 29.41 1 2 0.85 5.12 29.16 1 2 0,90 5.10 28.92 1 2 0.95 5.08 28.67 1 2 1.00 5.06 28.43 1 2 1.05 5.05 28.19 1 2 1.10 5.05 27.95 1 2 1.15 5.05 27.72 1 2 1.20 5.05 27.48 1 2 1.25 5.05 27.25 1 9 1.30 5.06 27.02 1 2 1.35 5.07 26.79 1 2 1.40 5.08 26.57 1 2 1.45 5.09 26.35 1 2 1.50 5.11 26.13 1 3 1.50 5.33 23.82 1 3 1.55 5.34 23-68 1 3 1.60 5.35 23.54 i 3 1.65 5.36 23.40 1 3 1.70 5.38 23.26 1 3 1.75 5.39 23.12 1 4 1.75 5.51 21.66 1 4 1.79 5.53 21.76 1 4 1.83 5.55 21.66 1 4 1.87 5.57 21.56 1 4 1.91 5.59 21.46 1 4 1.95 5.61 21.36 1 4 1.99 5.62 21.26 1 4 2.03 5.64 21.16 1 4 2.07 5.66 21.07 1 4 2.11 5.67 20.97 1 4 2.15 5.69 20.87 1 5 2.15 5.69 20.87 1 5 2.18 5.71 20.74 1 5 2.21 5.72 20.61 1 5 2.24 5.74 20.48 1 5 2.27 5.76 20.35 1 5 2.30 5.77 20.23 1 5 2.33 5.79 20.10 1 5 2.36 5.81 19.98 1 5 2.39 5.82 19.85 1 5 2.42 5.84- 19.73 SUMMER MODEL @ NEW DISCHARGE INTO iv1AUNEY CR. {lti1ODEL INTO SF N B O D I Flow I 35.86 1.04 35.41 1.05 34.97 1.05 34.54 1.05 34.11 1.06 33.69 1.06 33.28 1.06 32.87 1.07 32.46 1.07 32.06 1.07 31.67 1.07 3 1 . 28 1.08 31.28 1.08 30.98 1.08 30.69 1.08 30.39 1.09 30.10 1.09 29.82 1.09 29.53 1,10 29.25 1-10 28.98 1 . 10 28.70 1.10 28.43 1.11 28.16 1.11 27.90 1.11 27.63 1.12 27.37 1.12 27.11 1.12 26.86 1 . 13 26.61 1 . 13 26.36 1.13 26.11 1.13 23,71 1.25 23.54 1.25 23.37 1.25 23.21 1.25 23.04 1.25 22.88 1.25 21.57 1.33 21.45 1.33 21.33 1.33 21.22 1.33 21.10 1.33 20.98 1.33 20.87 1.32 20.75 1.33 20.64 1.33 20.53 1.33 20.41 1.33 20.41 1.33 20.27 1.34 20.19 1.34 19.98 1.35 19.84 1 .3 5 19.70 1.36 19.56 1.36 19.42 1.36 19.29 1.37 19.15 1.37 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Seg # 5 2.45 5.86 19.61 19.02 1.38 5 2.48 5.67 19,49 18,88 1 . 36 5 2.51 5.89 19.37 18.75 1.39 5 2.54 5.90 19.25 18.62 1.39 5 2.57 5.92 19.13 18.49 1.39 5 2.60 5.93 19.01 18.36 1.40 5 2.63 5.95 18.90 18.24 1.40 5 2.66 5.96 18.78 1 8. 1 1 1 .4 1 5 2.69 5.98 18.67 17.98 1,41 5 2.72 5.99 18.55 17.86 1.41 5 2.75 6.01 18.44 17.73 1.42 5 2,78 6.02 18.33 17.61 1.42 5 2.81 6.04 18.22 17.49 1.43 5 2.84 6.05 18.11 17.37 1.43 5 2.87 6.07 18.00 17.25 1.44 6 2.87 7.42 2.21 1.21 110.44 6 2.97 7.44 2.20 1.21 110.44 6 3.07 7.45 2.20 1.20 110.44 6 3,17 7.46 2.19 1.20 110,44 6 3.27 7.47 2.19 1.19 110,44 6 3.37 7.49 2.18 1.19 110.44 6 3.47 7.50 2.17 1.18 110,44 6 3.57 7.51 2.17 1.18 110.44 6 3.67 7.52 2.16 1.17 110.44 6 3.77 7,53 2.16 1.17 110.44 6 3.87 7.54 2.15 1.16 110.44 ReiFAch # I so. Mi I D .O. I CBOD I NBOD 1 Flow I cc stir 1??4=.z 2,4,z 44. sz0g s7 ft 1-.5;2 el, es1eps a.ldcS 3t'z s llc_t9' 0.;1y3?,0:000120 vo 1i� 55711- :Ave: 10 10 q v?9M a149c5 7" - = Z't t cf3 J ./ rz /c. D 3 offs P l7i,u r gay: ,? 2c6 , J79to: 0.27� : o.'l7cfs 3°4'Lo 0.4tcfii Rat.cgna DtfC# qri( po'.vr (). 6 0aif1.3f,ifs A., ss7ml Z A;6S3c tJ: to9 c,,7cpta :.Z o 0 /09 z- r-.Z71 cfs 17/61 aU, / 33. 3.2 W ('PI asat�o 4- o.3•K, z 4-a 6.4 c'{s Ao3D w7 /d%o.eb,4 30901z o.oa scr 02, /11.3V. 66 / o c S�ZG4/s,//,yh,L rJ,SGcs/sue�wiiy- 0,/U7c A/L /. ci/,, L - O. /7/ G���t/ / 3ce1S. z¢.�I 2 J/7E/; .21 1 (c,17 t >, /83 cc/ ` 57' 6a = 2, f 7 h,)/ (0,/07 C4/11) 7 �C, f7 (O, >,/ c7/•►�L - d, -17G�s g �L c, ?, 369 z = 62,17 •4, z) o, ¢d c%' /•�' L = O a 0..2 f m' z age7C--- law coy/ vf,A! -cilkt E.,4( cr-P-/4)," i 4, to ./J ea cic- P., ?p,i3-4-e efivif ce",, Ae4tew,..e IkEtti4x tot ),041 Aw), s4 4€, 7? Akit•f;//b Art-Ge 4/("1 Pam. 7? k/Ye-GIN : /0 ° f7 a-4 S- ,teifir.e._ .tee �r• Nl9 y = // 10 = s 7il = 30 /?) o g 6 - 47,A) "i'rfPc?--; 31) 907 S ass= 70 = Govo r—� Ic/;e; Aatitrc jhvv/e7 di4) e,..7f,e-e. ° C. fe.iPoz.sew 01.7ezr s--)0 aek 44-1/14 70Z i Y'q .7 z 61c/114r7"- -C, s7pi. xi) ,r7 2- 0 tfl"6-0.)( v66- czge& , ch • s77) 6179 ci 6 SF-'04-7itgaR4-/2. Piz • 5-.7fx,ed -cI /1,i; 0 g.r74.4.... d sr fic/e Pe/AA) (f4c)5,1A C?/t= s'o c2f j7fO c-ig ��.69 L� Gwt �, �� /- G%L� d yq a�M /06 // �'j �7ie�Y �(j F/ ""til'� %�f" lr Q 9 4 1WC -7 ✓ i / �i K776sLc IV. 447 i 74 /441),'&_. CK5rt C (O,SXASS—) ,775c �" Y 77s 7-, 27 (o,SX% sC2�- , -z7c •, GOC - 7g,/C %� -N 7,f % F,J4- cw. 1x4w ll , `),(\ /1 / 44,k't. t••- .,_ Y� (52 / /Z 7/ r•+u g f L.r.l C c e gAg f `x444,4 OT Alfzpv e-, Cti / % 77/0 o zjc- . %7Sc4 = J x /Go = /oO 2 ,/2(7.v7/2, ,&4/€7, -4 /(AWN O"tic;- A td;k- fiery,), T or $09 s ,3 / AY? iffij/c -5- //e. 7-3.5 I (49/ A400) m--c g S1), AALe6"-t-:) /1-4:- 9k) 4e%, Z•V A-(C-e -74 ,a 5—///‘-0 is = 0 3 a 2,> 0 E j INSTREAM SELF -MONITORING DATA MONTHLY AVERAGES Discharger: / d/ --/4/,// Permit No.: NCOO 0-0631 Receiving Stream:) Ut Al c 2 th Sub -basin: d3i - =.;pstream Location: /0 , „/rh Downstream Location ioo , Upstream Downstream Elf'? T' I P DSO . BOD 5 COND . T oMP D.O. BOD5 COND 8$ 6, 7 // c-6 i•TOV-88 _.Lz /0 /0 /v • OCT— 88 _ J 5 EP-88 P/ 9.8 7- _ ArkUG- 8 ° ZZ Al- 23 Z i JUL-88 23 JAL e3 /O.S +SUN-88__ 9 d 23 g.3 MAY- 8 8 /9 8• e A 3 rP -88 /f 9,s /' 43 MAR-88 9 /Z /7/ ,•EB-88 //.A .s•8 //¢ JAN-88 /1,3 .__ /Z.-, DEC-87 / / _ _.L_ 9,2 NOV-8 i /3 /o, f /3 7, 9' ::T -87 iS 1 / _./3 8.7 SEP-8 7 Z/ _Z Zz S. 9 .., AU-87 zL 1,3 _ Z3 s,Ps— JUL -87 ; UN - 8 7 /9 7, % _ z/ S, ?— MAY— 87 -/G 2=-2- /7 7" f APR-87 /3 9,o / / s. 'iT:R-87 16,.3 9,S f, S /v-� i E3-87 , /,T 73 /o.7 J AN - 8 7 _- /v,,f y s-- //, ° DEC-86� /6, i 6 /0, 9 NOV - 8 6 _I__ j Z� 9, // 9,7 OCR'-86 M 7, 9 /6 tr. Z ::EP-86 Id_ y,2 _ zo 7 9 AUG-86 2/ ILL_zz- 7,3 JUL-86 73 2 6.8 UN-86 2/ 7,9 3 7,l MAY-86 /,G _ Zd 7, APR- 8 6 /. (,. —7 �,er HAR-86 /3 9,.3/z /d.3 FEB-86 9 /0,6 �r /L 3TN-86 g Pill _ G,6 /z,J DEC-85 NOV - 8 5 OCT - 8 5 SEP-85 AUG-85 JUL-85 JUN-85 MAY-85 APR-85 MAR-85 FEB-85 JAN-85 NPDES PRETREAT W TI' INFORMATION REQUEST FORM FACILITY NAME: REQUESTER: 7;wrt_ o 5I' h /.cy NPDES NO. N00 0 Z 0 a 3 6 DATE: Z /17 IS-1 RFZION: Mir PENT CONDITIONS COVERING PR • XThis facility has no SIUs and should not have This facility should and/or is developingpretreatment language' a pretreatment program. Please include the following conditions: Program Development Phase I due / / Phase II due / / Additional Conditions This facility is currentl (attached) Please include the followingconditions: ions•a Pretreatment program. Program Implementation Additional Conditions (attached) SIGNIFICANT INDUSTRIAL USERS' (SIUs) CONTRIBUTIONS SIU Frix,i - TOTAL: -- COM OSITION : TEXTILE: METAL FINISHING: OTHER: MGD msD ma) MOD HMDWORKS REVIEW PARAMETER Cd Cr Cu Ni Pb Zn CN Phenol Other DAILY LOAD IN LBS/DAY i ALL04+1BLE DTIC PERMITTED RESERVE BASIS' RECEIVED: / / REVIEWED BY: State of North Carolina Department of Natural Resources and Community Development Division of Environmental Management 512 North Salisbury Street • Raleigh, North Carolina 27611 James G. Martin, Governor December 30, 1988 R. Paul Wilms S. Thomas Rhodes, SecretaryDirector Mr. Mike Wolfe WK Dixon 1924 Cleveland Avenue Charlotte, NC 28203 Subject: Town of. Stanly Relocation NPDES Permit No. NC0020036 Dear Mr. Wolfe, Technical Services has prepared a speculative wasteioad ana- lysis for the relocationof the Town of Stanly' s WWTP . A Level-B modeling analysis was used for both wasteflows (0.5 MGD and 1.0 MGD) to determine the impact of dissolved oxygen (D.0.) on Mauney Creek and Hoyle Creek. The Stanly WWTP will have to relocate its discharge 2.5 miles downstreamof current outfall (see site 1 on attached map) to Hoyle Creek below the confluence with Mauney Creek, in order to receive secondary limits for either flow. If the Town wishes to :relocate approximately 0.3 mile downstream to Mauney Creek below the confluence with the UT where the current discharge is located, (see site 2 on attached map) their limits for both wasteflows would be as follows: Summer Winter Wasteflow (MGD) 0.5 or 1.0 0.5 or 1.0 BOD5 (mg/l) 30 30 NH3N (mg/1) 11 - DO (mng/1) * 5 5 TSS (mg/1) 30 30 Fecal Coliform (# / 100m1) 1000 1000 pH (SU) 6-9 6-9 Please remember that these are only proposed limits resulting from a speculative wasteload allocation analysis. If the Town of Stanly does decide to relocate their discharge site to Mauney Creek or Hoyle Creek, they will need to submit a formal applica- tion to our permitting section before any modification of their permit can be finalized. Pollution Prerention Pays P.O. Box 27687, Raleigh, North Carolina 27611-7687 Telephone 919-733-7015 An Equal Opportunity Affirmative Action Employer If you have any further questions regarding this matter, please contact me at (919) 733-5083, ext. 514. Sincerely, Carla Sanderson Technical Support Unit Water Quality Section cc: Trevor Clements, Technical Services, DEM Kent Wiggins, Operations, DEM Ron Phelps, MRO WLA File Central Files :Z" Oni+ed 6-1645 Geolcal 5urvej Map M. C145(k) GagtoK.AcLAtor4-hiN,C, 305 • 786 ibra 76 r \ _ - • .... ; Mountain View- _• th II uU\\-/(11,-, • - / . ‘• 117--" Jag 3913 590 000 FEET 3911 w 20' 3909 3908 3907 Uh•1-;ed Geo1 s i (al Serve j F11-1.6E onouM. E lO N.C. 0`ti�- UNITED STATES DEPARTMENT OF THE INTERIOR 9`S,% GEOLOGICAL SURVEY 81 °07'30" ; 489000m.E 490 AL XIS 2.5 MI. 1491 35 ° 22'30" 3914000m.N. 3913 3912 3911 20' ',;ricos 1 /\\ _ . Jj � ez5� mac" ,.. �_ -p' •: �r 2_. ---�: S ringfield - 0 ,_.. J r L Sc. - a28 ". ^/ _� .• : S n ' field it mo_= !� ;. ; ; . _ ;may J /. '�:-•: .•/ , =": _ C Cam., 492 <' ,� (r;L i /•', ,.• �f • / . : &odd 5.ec vio 161114 ,246(4o. 115,16410Y I ! • foe c-Moo-f-/A, May/ otzt,k, FO d*&i- 0.30- (.406-1-, oa) e5 :70.0to ma) ,3g-ff,n) odi 34?"/,' 64aosa-(,g5t Idql 1403) .6)5= eiteA,+ o.(45ntii. 2 L=a,56" tritt):5°..0 7(05 og I- a 71ooLio- -i- ,b5) 0,0V f e561).= = ?0 ,CCp OLP 0 0 OM a. I. 0 Fo 60= 0. it/ 0.76/ I /.1 osq,4 rl I rl* 1 re 19 10.5 1' R • 121 710-4: 0 2 el(011F .3g 100)=- lotoz--.1(1 0.4= 45- M o40 -=- o5i/3f e6P5, Ori&IXF13-41 DO 1. 0 ja..,114j4Eas /54654AntAt � - ----- MODEL RESULTS - Discharger TOWN TOWN OF STANLY Receiving Stream { : UT MAUNEY CREEK The End D.O. is 4,.51 mg/l. The End CBOD is 20.87 mg/l" The End NBOD is 37.98 mg/l. Segment 1 Reach 1 Reach 2 Reach 3 Reach 4 DO (mg Milepoint Reach # 3.55 1.15 2 SUMMER MAUNEY CR. BELOW CONFLUENCE OF UT WHERE EXISTING PLANT LOCATE ^ WLA WLA WLA CBOD NBOD DO Waste Flow (mg/l) (mg/l) (mg/l) (mgd) 45.00 90.00 0.00 0.00 0.00 0.O0 0.00 0.00 5.00 0.00 0.00 0.00 0.50000 0.00000 0.00000 0.00000 . Discharger Receiving Stream ---------- MODEL RE8ULTG : : The End D.O. is 7.44 mg/l. The End CBOD is 6.70 mg/l. The End NBOD is 10.67 mg/l. Segment 1 Reach 1 Reach 2 Reach 3 ~ SUMMER MODEL RUN AT 1.5 MILES DOWN- STREAM WLA WLA WLA DO Min CBOD NBOD DO Waste Flow (mg/l) Milepoint Reach # (mg/l) (mg/l) (mg/1) (mgd> 4.18 0.65 2 45.00 90.00 0.00 0.00 0.00 0.00 5.00 0.00 0.00 0.50000 0.00000 • (.5) • ( %,5=13 C l.o) Wa s tef l ow (MGD ) mmer/Winter (circle one)nov.0e Vr i 4- I i 1 t So 0 c2 !d • • • S /a 1 • ai) NH3-N (mg/1) Potential effluent limit combinations: B0D5 NH3mN 15 �35 r a 1 1 } 1 .10 i 1 8s/4 • Comments:_ bccd FacLc-1 1 `)0 Bo7if).5r: ,q_ ()Iw-d TIC; 3/ are jrig { nt-ouI-mA- c Gt.t..de &r,f., 3 L- . (fi g v . =(33-3a): f-JCf FO 0 5 =15.3-5-y7c =,iq �v a.- - (O53--( ); ,7 - 1, 71s ma's PO%I0, =(/bit- )D`h Fkqco =pop- /4qX-1:--- .4 - / N�k� �up*�� SUMMEV:f ` \ 0MODEL RUN A' 0.5 |i6D AND SECONDARY LIMITS (NO D.O.) ---------- MODEL RFSULTS --- Discharger | : TOWN OF STANLY WWTP Receiving Stream! : UT MAUNEY CREEK The End 0.0. is 7.93 mg/1. The End CBOD is 2.19 mg/l. The End NBOD is 1.51 mg/l. WLA WLA WLA DO Min CBOD NBOD DO Waste Flow (mg /l) Milepoint Reach # (mg/1) (mg/1) (mg/]) (mgd) ______ _________ _______ ____ ____ __ ------------- Segment 1 6.47 0.00 1 Reach 1 45.00 90.00 0.00 0.50000 Reach 2 0.00 0.00 0.00 0.00000 Reach 3 0.00 0.00 0.00 0.00000 * •* MODEL SUMMARY DATA • ** Discharger a TOWN OF STANLY WWTP P Receiving Stream a UT MAUNEY CREE1•'•. Summer 7L 10 n 0.56 Design Temperature % 25. Subbar i. i D 030E13 Stream Class: C Winter 7010 = 1. I LENGTH 1 SLOFE 1 VELOCITY 1 DEPTH I Kd 1 Kd 1 Ka 1 Ka 1 KN 1 KN 1 KNR 1 KNR 1 1 mile 1 ft/mil fps 1 ft Idesign1 420° Idesign1 a20° ldesignl 820° ldesignl a20y 1 1 I 1 I 1 I 1 I I 1 I 1 I Segment 1 1 0.721 17.801 0.325 1 1.11 1 0.37 1 0.29 111.61 1 10.411 0.44 1 0.30 1 0.44 1 0.00 1 Reach 1 l 11 1 1 1 1 1 1 1 1 1 1 I 1 11 1 1 1 1 1 1 1 1 1 Segment 1 1 1.101 17.801 i1.004 12.70 1 0.40 1 0.32 117.53 1 15.721 0.44 1 0.30 1 0.44 1 0.00 1 Reach 2 l 1 1 1 1 1 1 1 1 1 1 1 1 I 1 1` 1 1 1 1 1 1 1 1 1 1 Segment 1 1 0.601 4.801 i0.686. 1 3.27 1 0.29 1 0.23 1 3.23 1 2.901 0.44 1 0.30 1 0.44 1 0.00 1 Reach 3 1 1 1 I I 1 1 1 1 1 1 I 1 I 1 Flow 1 CEO)) 1 1\II3OD 1 D.O. 1 1 cfs 1 mg/1 1 tngl1 I mg/ 1 I Segment 1 Reach 1 Waste 1 0.775 1 45.000 1 90.000 1 0.000 Head va t er s 1 0.560 I 2.000 I 1.000 I 7.440 Tributary 1 4.640 I P..000 1 1.000 1 7.440 'k Runoff 1 0.140 I 2.000 1 1.000 a 7.440 Segment 1 Reach 2 Waste 1 0.000 I 0.000 1 0.000 I 0.0i ;0 Tributary 1103.700 1 P.000 1 1.000 I 7.440 • Runoff 1 0.000 1 2.000 I 1.000 I 7.440 Segment 1. Reach 3 Waste 1 0.000 1 0.000 1 0.000 I 0.000 Tributary I 0.000 1 2.000 I 1.000 1 7.440 •Y Runoff 1 0.000 a0 1 2.000 I 1.000 1 .7.440 Runoff flow is in cfs/mile | Seg 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 I Geg # | Reach # 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 2 2 3 3 8 3 3 3 3 3 3 3 3 # i Reach # SUMMER MODEL AT MTH OF MAUNEY CR 1_IM=O.5MGD & SECONDARY ) Geg Mi I D.O. | CBOD i NBOD } Flow | 0.00 6.47 7.58 12.54 5.97 ()..Of,.6.57 7.55 12.49 5.98 0.08 6.65 7.52 12.44 5.99 0.12 6.72 7.50 12.39 5.99 0.16 6.79 7.47 12.34 6.00 0.20 6.86 7.45 12.28 6.00 0.24 6.92 7.42 12.28 6.01 0.28 6.97 7.40 12.18 6"01 0.32 7.02 7.37 12.18 6.02 0.86 7.07 7"34 12"08 6.03 0.40 7,11 7"32 12.03 6.03 0"44 7.15 7.29 11.98 6.04 0.48 7.18 7.27 11.93 6"04 0.52 7.22 7.24 11.88 6.05 0.56 7"25 7.22 11.83 6.05 0.60 7.28 7.19 11.78 6.06 0.64 7.30 7.17 11.73 6.06 0.68 7"33 7.14 11.69 6.07 0.72 7.35 7.12 11.64 6.08 0.72 7.43 2.28 1.59 109.78 0.82 7.51 2.28 1.58 109.78 0.92 7.58 2.27 1.58 109.78 1.02 7.64 2.27 1.58 109.78 1.12 7.69 2.26 1.57 1091,78 1.22 7.74 2.26 1.57 109.78 1.32 7.78 2.25 1.56 109"78 1.42 7.82 2.24 1.56 109.78 1.52 7.86 2.24 1.56 109.78 1.62 7.89 2.23 1.55 109.78 1.72 7.92 2.23 1.55 109.78 1.82 7.94 2.22 1.54 109.78 1.82 7.94 2.22 1.54 109.78 1.88 7.94 2.22 1.54 109.78 1"94 7.94 2.22 1.54 109.78 2.00 7.94 2.21 1.53 109.78 2.06 7.94 2.21 1.53 109"78 2.12 7.93 2.21 1.52 109.78 2.18 7.93 2.20 1.52 109.78 2.24 7.93 2.20 1.52 109.78 2.30 7.93 2.20 1.51 109.78 2.36 7.93 2.19 1.51 109.78 2.42 7.93 2.19 1.51 109.78 1 Seg Mi | D.O. ) CBOD } NBOD | Flow | r � ~ , Discharger Receiving Stream SUMMER MODEL RUN AT 1.0 MGD AND SECONDARY LIMITG (NO D.O.> ---- MODEL RESULTS ---------- : TOWN OF STANLY WWTP o UT MAUNEY CREEK The End D.O. is 7"89 mg/l. The End CBOD is 2.46 mg/l. The End NBOD is 2.07 mg/l. Segment 1 Reach ` 1 Reach 2 Reach 3 WLA WLA WLA DO Min CBOD NBOD DO Waste Flow (mg/1) Milepoint Reach # (mg/l) (mg/l) (mg/l) (mg(:I) 5.73 0.00 1 45.00 90.00 0"00 0.00 0.00 0.00 0.00 0"00 1"00000 0.00000 Discharger Receiving Stream Summer 7Q1O *** MODEL SUMMARY DATA *** TOWN OF STANLY WWTP UT MAUNEY CREEK 0.56 Design Temperature: 25. Subbasin : 030835 Stream Class: C Winter 7Q1O : 1. !LENGTH} SLOPE! VELOCITY 1 OEPTH! Kd I Kd 1 Ka 1 Ka 1 KN 1 KN 1 KNR 1 KNR I mile 1 ftimil fps 1 ft ldesignl 820° ldesignl 820° Idesignl 0200 Idesignl 220° 1 Segment 1 Reach 1 1 1 1 1 1 1 1 1 1 1 I 1 1 I 0.721 17.801 0.356 1 1.13 1 0.38 1 0.30 112,71 111.401 0.44 1 0.30 1 0.44 1 0.00 I I 1 1 1 1 1 1 I 1 1 I 1 ( Segment 1 Reach 2 1 I 1 1 1 1 I 1 1 I 1 1 I 1 1.101 17.801 1.009 1 2.70 10.40 10.32 117.62 1 15.811 0.44 1 0.30 1 0.44 1 0.00 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Segment 1 Reach 3 1 1 1 1 1 1 I 1 1 1 1 1 1 1 0.601 4.801 0.690 1 3.27 1 0.29 10.23 1 3.25 I 2.911 0.44 1 0.30 10.44 10.00 1 I 1 1! I 1 1 1 1 I 1 1 I 1 Segment I Flow I CBOD I I\IBOD I I cfs 1 mg ; 1 I mg/1 1 1 Reach 1 Waste; 1 Headwaters! Tributary I • Runoff I Segment 1 Waste TribL1tary * Runoff Segment 1 Waste Tvibu'tary * Runr::' ff 1.550 0.560 4.640 0.140 Reach 2 I 0.000 1 1.03„7t 0 1 0.000 145.000 I P.000 I P:,t)00 1 P.000 0.000 2.000 2.000 1 2 . tli„lO I 2.000 90.000 1.000 1.000 1.000 0.000 1.000 1.t:)00 1 0.000 1 1.. t„) i„) i„) 1 1.000 * Runc'ff flow its in cfs/rni:l.e D.O. 1 mg/1 I 0.000 7.440 7.440 '.7„44i) I 0.000 1 7.440 1 7.440 1 0.000 I 7.440 I 7.440 | Geg 1 # | Reach 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 J. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 1 2 1 2 1 2 1 2 1 3 1 3 1 8 1 3 1 3 1 3 1 3 1 3 1 3 1 8 1 3 }Seg#|Reach # # 1 1 1 1 2 ro ru ro n.) ro IV / SUMMER MODEL AT MTH OF MAUNEY CR LIM=1MGD & SECONDARY | Geg Mi. | D.O. | CBOD 1 NBOD | Flow I 0.00 5.73 11.87 21.44 6.75 0.04 5.85 11.88 21.86 6.76 0.08 5"96 11.80 21.27 6.76 0.12 6.07 11.76 21.19 6.77 0.16 6.16 11.72 21.11 6.77 0.20 6.25 11.68 21.08 6.78 0.24 6.33 11.64 20.95 6.78 0.28 6.40 11.60 20.87 6.79 0.32 6.47 11.57 20.79 6.79 0.36 6"53 11.53 20.71 6.80 0.40 6.58 11.49 20"68 6.81 0"44 6.64 11.45 20.56 6.81 0.48 6.69 11.41 20.48 6.82 0.52 6.73 11.38 20.40 6.82 0.56 6.77 11.34 20.32 6.83 0.60 6.81 11.30 20.25 6.83 0.64 6.84 11.26 20.17 6.84 0.68 6.88 11.23 20.09 6.85 0.72 6.91 11.19 20.02 6"85 0.72 7.41 2.57 2.18 110.55 0.82 7.48 2.56 2.17 110.55 0.92 7.55 2.56 2.17 110.55 1.02 7.61 2.55 2.16 110.55 1"12 7.66 2.54 2.16 110.55 1.22 7.71 2.54 2.15 110.55 1.32 7.76 2.53 2.14 110.55 1.42 7.80 2.53 2.14 110.55 1.52 7.83 2.52 2.13 110.55 1.62 7.86 2.51 2.13 110.55 1.72 7.89 2.51 2.12 110.55 1.82 7.92 2.50 2.12 110.55 1.82 7.92 2.50 2.12 110.55 1.88 7.92 2.50 2.11 110.55 1.94 7.91 2.49 2.11 110.55 2.00 7.91 2.49 2.10 110.55 2.06 7.91 2.49 2.10 110.55 2.12 7.91 2.48 2.09 110.55 2.18 7.90 2.48 2.09 11A"55 2.24 7.90 2.47 '2.08 110.55 2.30 7.90 2.47 2.08 110.55 2.36 7.90 2.47 2.07 110~55 2.42 7.89 2.46 2.07 110.55 } 8eg Mi | D.O. } CBOD | NBOD I Flow | A RE,ror'\ 1 U0 c 0 (ogO d &IP0 Gy0 boo city Vico st r eq. : 401r.v.igzt avihk)A. ov (4. (s) Ce,c1,w N ? L 1'tAist m Slo e Calcu k atio rt s ls�vo-tat= 1 , ( f 4.05 ,CAB)- ic-1,84-prvc 080 (ao (� a6 o CuM dist dist slop 0 �� US • • • • , 5 I.) i.S ,).) c2s ..v 3.5 4.0 1• +