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HomeMy WebLinkAboutNC0025445_Wasteload Allocation_19921112NPDES DOCUHENT SCANNING COVER SHEET NC0025445 Randleman WWTP NPDES Permit: Document Type: Permit Issuance Wasteload Allocation Authorization to Construct (AtC) Permit Modification Complete File - Historical Approval Speculative Limits Instream Assessment (67b) Environmental Assessment (EA) Permit History Document Date: November 12, 1992 This document los printed on refuse paper - ignore any content on the reYerse Bide NPDES WASTE LOAD ALLOCATION PERMIT NO.: NC0025445 PERMI IThE NAME: FACILITY NAME: City of Randleman Randleman WWTP Facility Status: Existing Permit Status: Modification Major Minor Pipe No.: 001 Design Capacity: * 1/�5 MGD Domestic (% of Flow): 42.8 % Industrial (% of Flow): 57.1 % Comments: GAu'47Y pip • * application for expansion to 1.745 MGD pretreatment information -- attached - t f o / 4- } A q-cf-f �-T . RECEIVING STREAM: Deep River Class: C 15 ce A-r ; r0 t.Y 1((1(146 Y Ir ck, Sub-Basin:03-06-0y Reference USGS Quad: D 15 SE County: Randolph Regional Office: Winston-Salem Regional Office Previous Exp. Date: 7/31/93 Treatment Plant Class: Class 2 Classification changes within three miles: none Requested by: Prepared by: Revi we b fr Rosanne Barona (please attach) PLOTrED Date: 11/27/91 ,,, f _( Date: // /0 G!—�� i Date: / �ofl� s Of,-vi 09 33 Modeler Date Rec. # DAB 121 z.191 (ofn Z9 2 " ' Drainage Area (mi ) �Q Avg. Streamflow (cfs): / 7/ 7Q10 (cfs) 5 Winter 7Q10 (cfs) /Z 30Q2 (cfs) 2� Toxicity Limits: IWC 33 % AcuteLChroniD Instream Monitoring: Parameters p hi tri 1 ( C t \)TA4A19 . 6 »l41 k) G'; ui, � A► Upstream Peace Location Fox • - Downstream Per-p Location c I/ Y-liw, it c.C7A..bi 2ourt)9 cZGAM 17, c..(' _- ft,t UPS-lrcq/vt 04- 1-task.c.ifs. c r..c-k . Effluent Char -' BOZ • NH_ D.O TSS F. C pH 11 relH9 PT Recommended Limits; ‘11 Wasteflow (MGD): BOD5 (mg/1): NI-13N (mg/1): DO (mg/1): TSS (mg/I): Fecal Col. (/100 ml): pia (SU): Temperature (°C): 'IP (mg/1): TN (mg/1): Residual Chlorine (µg/1): Pollutant Analysis: Chronic Tox. (P/F): Chromium WA): Copper (lie):Nickel ale): Lead (µg/1): Zinc We): Cyanide WA): Fluoride (me):Cadmium (µg/I); Aluminum (µg/1): Tetrachloroethylene (µg/1): Chloroform (}tg/1): E 1LkIL-y M WlntPr Monthly Average Summer Winter 1.745 1.745 5.0 10.0 2.0 4.0 6.0 6.0 30.0 30.0 200 200 6.0-9.0 6.0-9.0 monitor Woonitor monitor monitor 28.0 28.0 monitor monitor @35% Jan, Apr, Jul, Oct 142 ir 142 monitor monitor 250 i" 250 71 + 71 monitor monitor 14.0* 14.0 5.1 5.1 5.7 )r 5.7 monitor monitor monitor monitor monitor monitor 1 Comments: MolorTOR1ld6 CNiL"/ FOR.. 1 n T'G) 41.11 tl%'D.7 PEA g. I NIC41ST l 2- MO iSTI- f a- l s s U q-1I AoT $P tit tr1 „4M 1 ,(tro�t)06-7 . RECEIVED N.C. Dept. of EHNR Facility Name: NPDES No.: Type of Waste: Facility Status: Permit Status: Receiving Stream: Stream Classification: Subbasin: County: Regional Office: Requestor: Date of Request: Topo Quad: FACT SHEET FOR WAS 1 LT OAD ALLOCATION NOV 2 1992 Winston-Sa . m Request # 6629 Regional Office City of Randleman/Randleman WWTP NC0024881 wporn- PEArn+r-f Domestic - 43%/Industrial - 57% we, ooP.54Y3 Existing Renewal Deep River 030608O` Randolph Winston-Salem Barona 11/27/91 D15SE 0 14SE Stream Characteristic: USGS # Date: Drainage Area (mi2): Summer 7Q10 (cfs): Winter 7Q10 (cfs): Average Flow (cfs): 30Q2 (cfs): IWC (%): 02.1001.1525 1988 180 5.0 12 171 23 35 Wasteload Allocation Summary (approach taken, correspondence with region, EPA, etc.) WLA held as a result of EA requirements. Permit limits will change a good deal. BODS and NH3 limits will change to 5 mg/land 2 mg/1 (summer) and 10 mg/land 4 mg/1 (winter). Several toxicants should be monitored or limited (see page 2 of fact sheet) based on PPA and DMR data. - Permit should be renewed at 1.745 MGD only per Mickey (WS-RO). Special Schedule Requirements and additional comments from Reviewers: Recommended by: Reviewed by Instream Assessment: Regional Supervisor: Permits & Engineering: 7 7,L9fr/64Date: /0# //qL c 171 Date: l b/4§,2 Date: —3— 5 Z /7/ Date: NOV 2 4 1992 RETURN TO TECHNICAL SERVICES BY: 2 Rxisting Limits: Wasteflow (MGD): BOD5 (mg/1): NH3N (mg/1): DO (mg/1): TSS (mg/1): Fecal Col. (/100 ml): pH (SU): Temperature Cr): TP (mg/1): TN (mg/1): Residual Chlorine (4/1): Pollutant Analysis: Chronic Tox. (P/F): Chromium (µg/1): Copper (µg/1): Zinc (4/1): Cadmium (4/1): Recommended Limits: Wasteflow (MGD): BOD5 (mg/1): NH3N (mg/1): • DO (mg/1): TSS (mg/1): Fecal Col. (/100 ml): pH (SU): Temperature (°C): TP (mg/1): TN (mg/1): Residual Chlorine (µg/1): Pollutant Analysis: Chronic Tox. (P/F): Chromium (4/1): Copper (4/1): Nickel (µg/1): Lead (1g/1): Zinc (µg/1): Cyanide (pg/1): Fluoride (mg/1): Cadmium (pg/1): Aluminum (4/1): Tetrachloroethylene Chloroform (µg/1): Bis(2-ethylhexyl)phthalate (µg/1): PARAMETERS Monthly Average Summer Winter 1.25 1.25 28.0 30.0 2.0 monitor 5.0 5.0 30.0 30.0 1000.0 1000.0 6.0-9.0 6.0-9.0 monitor monitor monitor monitor monitor monitor monitor monitor monitor monitor @28% (Jan, Apr, Jul, Oct) monitor monitor monitor monitor monitor monitor monitor monitor Monthly Average WQ/EL WQ WQ WQ EL WQ WQ monitor monitor �r ..2.,e''+'ra, .2:0"nto Avr WQ monitor monitor 28.0 28.0 WQ monitor monitor @35% Jan, Apr, Jul, Oct 142 142 WQ monitor monitor 250 250 WQ 71 71 WQ monitor monitor 14.0 14.0 WQ 5.1 5.1 WQ 5.7 5.7 WQ monitor monitor monitor monitor monitor monitor monitor monitor Summer 1.745 5.0 2.0 6.0 30.0 200 6.0-9.0 Monthly Average Winter 1.745 10.0 4.0 6.0 30.0 200 6.0-9.0 limits Changes Due Tox New regulations/standards/procedures New facility information My MtS yq 3 '� Parameters) Affected x Fecal x various toxicants, Flow x Parameter(s) are water quality limited. For some parameters, the available load capacity of the immediate receiving water will be consumed. This may affect future water quality based effluent limitations for additional dischargers within this portion of the watershed. 3 INSTREAM MONITORING REQUIREMENTS Upstream Location: Deep River at Fox Street Downstream Location #1: Deep River at Worthville Bridge Downstream Location #2: Deep River upstream of Hasketts Creek Parameters: Temperature, Fecal, Conductivity, Dissolved Oxygen, Metals* Special instream monitoring locations or monitoring frequencies: *Quarterly monitoring for Cr, Ni, Pb, Cn, and Cd at Fox Street and Worthville Bridge. MISCELLANEOUS INFORMATION & SPECIAL CONDITIONS Adequacy of Existing Treatment Has the facility demonstrated the ability to meet the proposed new limits with existing tr facilities? Yes No V/ If no, which parameters cannot be met? .f f j Res et. } Roo- T .s..S atment Would a "phasing in" of the new limits be appropriate? Yes L-" No If yes, please provide a schedule (and basis for that schedule) with the regional office recommendations: U sE Fkisrt)Jc. L.Ir',TS Fo t2 aeov&' PAR/21,7 7s2c. R-ASE: IAl r`hF Aral aim iTS Ic? rnhtPTEk PE' RI* T EFFEcrlvc DlfiTE If no, why not? Wasteload sent to EPA? (Major) (Y or N) (If yes, then attach schematic, toxics spreadsheet, copy of model, or, if not modeled, then old assumptions that were made, and description of how it fits into basinwide plan) Additional Information attached? Y (Y or N) If yes, explain with attachments. VA-4 ioreS) Ta Po I kl vno, y . sprz sf-tc—er= Facility Name CITY gG 0-&/11,P1 Permit # Pipe # CHRONIC TOXICITY PASS/FAIL PERMIT LIMIT (QRTRLY) The effluent discharge shall at no time exhibit chronic toxicity using test procedures outlined in: 1.) The North Carolina Ceriodaphnia chronic effluent bioassay procedure (North Carolina Chronic Bioassay Procedure - Revised *September 1989) or subsequent versions. The e uent concentration at which there may be no observable inhibition of reproduction or significant mortality is % (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 the effective date of this permit during the months of y/, / yi,.,4 Oct . 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: Environmental Sciences Branch North Carolina Division of Environmental Management 4401 Reedy Creek Road Raleigh, N.C. 27607 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 5:0 cfs Permitted Flow /• 7 `1'5- MGD IWC Basin & Sub -basin GPF Receiving Stream I� -.1+-1;2-- County 12ANpoi.-FA- Recommended by: Date 9/7 /7Z QCL PIF Version 9/91 ,6•Zsr /11CCC,75-41-4/ ffe,c 4riotaad ai=1. 7Kee,p ,qe,/e/i/tv 03(560g 45r-v.04 R/L71 Ofryamail, /giro mi-k Was /fr./ kremt. 30130. /.5.fr? We/re e(le,( ea hi/ 414' q-C frt/t/le£er hrib- -?.',2(74119' a okwo, apd. 11741141Y1 7y WIG"(7. /;I C /1/-- xas. /?/5-54,4;) 6leowieff /;(71-, /f/ ..eyted/n *Aratily -Ati.34:51 //pelt WPC n/k6'... .7 . shAdy r/isA-- rap iet/6c Ve4/6( /11 /5- `1‹ia. 14?)I pt/o7, //( .57‘1,9(&17 41, did ,e)11 / r r if by 428i4 •'4/e;76 (2,46.ff3g 4fs" /44 A t-(-ity-e--- IV/ l'76K - /P1511-5114 Pk/e 11/4-c Ica41 Lod 7/ /0 /t7 re; • 7:ri miim 1.212 46m_son 611W 66,1 /;is.--/-ni,-44 4.7a .41 ./.716.74,- AA,/ extd,ff_r/i74 ry.q..gepi- Agf rzall(el 74& /‘/9'.0. /6411/e1Wil al/he/ de, 6-flogniaih f/ Aszsgov vetoes/ :exp,m-43.11 VS / air 4 -so 02,/ e Ji#7.5-0Y7 d/a/ WZ-4 for sii/eV m)k/0 a/d/ k&s.6( , /11 ke._ et?-1'./V 4 iteAvi/ /417 t4 WC 0114 etplo &/(1'W a 4, C c".'_/:t7e KRA/ 0 AR/I-WC 4,71 , . 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"44e/t2 eiver Gf/c'af/I � Gt gOGnCd CLrt'E:GI //e61.11/7;/;kr . 10/14/92 ver3.1 TOXICS REVIEW Facility: City of Randleman NPDES Permit No.: NC0025445 Status (E, P, or M) : E Permitted Flow: 1.7 mgd Actual Average Flow: 1.1 mgd Subbasin: '030609 Receiving Stream: Deep River I PRETREATMENT DATA I----EFLLUENT DATA ---- Stream Classification: C I ACTUAL PERMITTED' 7Q10: 5.0 cfs I Ind. + Ind. + 1 FREQUENCY IWC: 35.10 % I Domestic PERMITTED Domestic 1 OBSERVED of Chronic Stn'd / Bkg 1 Removal Domestic Act.Ind. Total Industrial Total 1 Eflluent Criteria Pollutant AL Conc. 1 Eff. Load Load Load Load Load 1 Conc. Violations (ug/1) (ug/1) 1 t (#/d) (#/d) (#/d) (#/d) (#/d) 1 (ug/1) (#vio/#sam) Cadmium S 2.0 1 92% 0.0 0.1 0.08 0.3 0.310 1 ZO Chromium S 50.0 I 76% 0.0 0.1 0.16 0.7 0.670 I !fs 1 I Copper AL 7.0 1 82% 0.0 0.2 0.24 0.5 0.550 1 1 N Nickel S 88.0 1 32% 0.0 0.4 0.41 0.7 0.730 1 1 P Lead S 25.0 1 81% 0.0 0.6 0.57 0.8 0.830 1 1 U Zinc AL 50.0 1 77% 0.0 0.8 0.85 7.6 7.650 1 1 T Cyanide S 5.0 1 59% 0.0 0.0 0.01 0.0 0.010 1 3o Mercury S 0.012 1 86% 0.0 0.0 0.00 1 1 S Silver AL 0.06 1 94% 0.0 0.1 0.07 0.0 0.000 1 1 E Selenium S 5.00 1 0% 1 1 C Arsenic S 50.00 1 40% 0.0 0.0 0.00 1 1 T Phenols S NA 1 0% 1 1 I NH3-N C 1 0% 1 1 0 T.R.Chlor.AL 17.0 1 0% 1 1 N ALLOWABLE PRDCT'D PRDCT'D PRDCT'D---------MONITOR/LIMIT I--ADTN'L RECMMDTN'S-- I Effluent Effluent Effluent Instream 1 Recomm'd Conc. using using Conc. Based on Based on Based on 1 FREQUENCY INSTREAM 1 Allowable CHRONIC ACTUAL PERMIT using ACTUAL PERMITTED OBSERVED 1 Eff. Mon. Monitor. Pollutant 1 Load Criteria Influent Influent OBSERVED Influent Influent Effluent 1 based on Recomm'd ? (#/d) (ug/1) (ug/1) (ug/1) (ug/1) Loading Loading Data 1 OBSERVED (YES/NO) Cadmium S 1 0.90 5.697 0.715 2.702 0.00 Limit Limit LfS?f 7 1 I A Chromium S 1 7.53 142.430 4.105 17.517 0.00 Monitor Limit L4f1 r 1 1 N Copper AL 1 1.41 19.940 4.667 10.785 0.00 Monitor Monitor 1 1 A Nickel S 1 4.68 250.677 30.372 54.077 0.00 Limit Limit 1 1 L Lead S 1 4.75 71.215 11.715 17.180 0.00 Limit Limit 1 I Y Zinc AL 1 7.86 142.430 21.222 191.677 0.00 Monitor Monitor 1 1 S Cyanide S 1 0.44 14.243 0.447 0.447 0.00 Monitor Monitor 1.frtl r 1 1 I Mercury S 1 0.00 0.034 0.002 0.000 0.00 Monitor �� re r I S Silver AL 1 0.04 0.171 0.451 0.000 0.00 Monitor ���C. I Selenium S 1 0.18 14.243 0.000 0.000 0.00 /VV ,14a1TV 't N4 1 R Arsenic S 1 3.01 142.430 0.000 0.000 0.00 1 1 E Phenols S 1 0.000 0.000 0.000 0.00 1 I S NH3-N C 1 0.000 0.00 1 1 U T.R.Chlor.AL 1 48.426 0.00 1 1 L I I I T I 1 I S t•••• U.. • cre ) . . ) ••• • : • ' • ) . . ... . st• i •-• ::. ('' ;. - -. !, y, •• ..,-‘ k • , - ..., • • 1 r vro ..... ••• i :.:•••••••••-- ••::•.'.....:. -. • \\ .(,.. *1* )1 )1!••• ..5)) .0••11,, , „_•< z:1)1.1 ICC.VAt F . his I Osog 1110113SAVOW • NPDES PRETREA'TMFNNT INFORMATION REQUEST FFp FACILITY NAME: :REQUESTER: DATE: / 1 / 6 / 7/ REGION: W O.: - r PERMIT OONDITIONS COVERING PRETREMMENT NPDES NO. NCO0 r . This facility has no SIUs and should not have pretreatment language. This : facilityshould and/or is developing a pretreatment program. Please include the following conditions: amDevelo Progr pment Phase I'' 'due , / / Phase II=due' / Additional_ Conditions (attache_ is facility is currently irnplenenting a pretreatmen Please include the following conditions: HEAMOiucs :REVIEW PARANEIER DAILY LOAD IN LBS/DAY ACTUAL;: PASS (THROUGH 1 ALIAMBLE DOMESTIC PERKvialin INDUSTRIAL % -REMOVAL ♦ - ♦ ib 1 'Ste 1 alte /13192 dam- Y\Q.c,c.) G'Q 0-ra - F-t-d 0 . o0 o i S a 6u‘e.r( (jiff ryv2_ tVJ - We- LA-3:112a 1')k- eS44/Y1/.11 4j6' ArlijAAr- tt) p,00 I04j- tkrrAA fe?d vi 5 vtlit Radisson Plaza Hotel Raleigh toO ff#1‘3 jidk 9plot 1420 + 9/11.0617_ FACILITY NAME: REQUESTER: NPDES PRETREATMENT INFORMATION REQUEST FORM DATE: NPDES NO. NCOO 0� 5 44 4{5 LLikifi REGION: kJ/i7542.21,1 - PERMIT CONDITIONS COVERING PRETREATMENT This facility has no SIUs and should not have pretreatment language. This facility should and/or is developing a pretreatment program. Please include the following conditions: Program Development Phase I due / / Phase II due / /— Additional Conditions V/ (attached) This facility is currently implementing a pretreatment program. Please include the following conditions: Program Implementation Additional Conditions (attached) SIGNIFICANT INDUSTRIAL USERS' (SIUs) CONTRIBUTIONS SIU FLOW - TOTAL: -COMPOSITION: TEXTILE: • menu, FINISHING: OTHER: o I,D 1 MGD MGD MGD MGD MGD HEADWORts REVIEW PASS P !THROUGH i i ALIMMBIE cd cr CU Ni Pb Zn CN Phenol DAILY IOAD IN LBS/DAY ACTUAL DOMESTIC PERMLIT11) INDUSTRIAL % REMOVAL --Ft 71( 32 9/0617 NPDES PRETREATMFNT INFORMATION REQUEST FORM FACTT.TTY NAME: (mot dl NPDES NO. NCO° 5 44 6(S" REQUESTER : i�eQ� DATE: / / 6 / 7/ REGION: I4) r PEPMIT CONDITIONS COVERING PRETREATMENT This facility has no SIUs and should not have pretreatment language. This facility should and/or is developing a pretreatment program. Please include the following conditions: Program Development Phase I due /_/_ Phase II due ---/---/ Additional Conditions (attached) This facility is currently implementing a pretreatment program. Please include the following conditions: Program Implementation Additional Conditions (attached) IGNIFICANT INDUSTRIAL USERS' (SIUs) CONTRIBUTIONS SIU FLOW - TOTAL: - COMPOSITION: TEXTILE: METAL FINISHING: OTHER: MGD MCI) MGD MGD MGD HEADWORKS REVIEW PASS PAiZAM4h r ,• q ', t iAL °THRTABLE - rp _ .-Cd Cu Ni ..: ;Pb -=Zn G CN Phenol Other DAILY LOAD IN LBS/DAY ACTUAL PEI 1Tr= INDUSTRIAL % REMOVAL o,8I 0,O12 2 71( DOME51'1C ,0 0, 00 Q,0I i RECEIVED: / / REVIEWED BY: � � �- � RETURNED tl / 24 / r .4, ;-/ii0/. Tile SAS system z 14:25 Wednesday, November 13, 1991 NPDES=NC0025445 Variable Sum PIPE TYPE_ _FREQ. MCDL • MCRL MCUL MNIL MPBL MZNL MCNL MHGL MAGL MASL MPHENOLL MFLL MBODL MCODL MTSSL MTOLUL MFLOW 6.0000000 0 96.0000000 0.0822810 0.1468299 0.2275930 0.4102168 0.5562050 0.8068790 0.0016016 0.0687007 . 0.1693632 . 1283.75 4799.53 410.1491070 0.8254646 IU NAME I U# PIPE # FLOW LIMIT MAD CD LIMIT MG/L CD LOAD LBS CR LIMIT MG/L CR LOAD LBS CU LIMIT MG/L CU LOAD LBS COMMONWEALTH HOSIERY MILL 1 1 0.0500 0.02 0.0083 0.5 0.2085 0.1 0.0417 LAUGHLIN HOSIERY MILL 3 1 0.1000 0.02 0.0167 0.15 0.1251 0.08 0.0667 DEEP RIVER DYEING CO.. INC 4 1 0.6500 _ 0.05 0.2711 0.05 0.2711 0.05 0.2711 JOCKEY INTERNATIONAL 5 1 0.1750 0.01 0.0146 0.03 0.0438 0.1 0.1460 RANDLEMAN MANUFACTURING 6 1 0.0300 0.01 0.0025 0.04 0.0100 0.05 0.0125 TOTAL ALLOWED FOR INDUSTRIES ALLOW CD 1.35 CR 8.33 CU 8.33 TOTAL PERMITTED FOR INDUSTRIES 1.01 Ca 0.31 CR 0.66 CU 0.54 PERM STILL AVAILABLE FOR INDUSTRIES LEFT CD 1.04 CR 7.67 CU 7.79 RANDLEMAN IUP LOAD, 11/21/91, page 1 IU# CN LIMIT MG/L CN LOAD LBS PB LIMIT MG/L PB LOAD LBS NI LIMIT MG/L NI LOAD LBS AG LIMIT MG/L AG LOAD LBS ZN LIMIT MG/L ZN LOAD LBS 1 0 0.0000 0.05 0.0209 0.05 0.0209 0 0.0000 0.3 0.1251 3 0 0.0000 0.1 0.0834 0.1 0.0834 0 0.0000 0.6 0.5004 4 0 0.0000 0.1 0.5421 0.1 0.5421 0 0.0000 1.2 6.5052 5 0 0.0000 0.1 0.1460 0.05 0.0730 0 0.0000 0.2 0.2919 6 0 0.0000 0.1 0.0250 0.05 0.0125 0 0.0000 0.75 0.1877 ALLOW CN 0.35 PB 0.82 NI 0.97 AG 2.09 ZN , 8.30 PERM CN 0.00 PB 0.82 NI 0.73 AG 0.00 ZN 7.61 LEFT _ CN 0.35 PB 0.00 NI 0.24 AG 2.09 ZN 0.69 RANDLEMAN IUP LOAD, 11/21/91, page 2 I U# BOD LIMIT MG/L BOD LOAD LBS TSS LIMIT MG/L TSS LOAD LBS 1 250 104.25 250 104.25 3 350 291.90 250 208.50 4 250 1355.25 250 1355.25 5 250 364.88 250 364.88 6 250 62.55 250 62.55 ALLOW BCD 2560.00 TSS 2560.00 PERM 2178.83 2095.43 LEFT 381.17 464.57 RANDLEMAN IUP LOAD, 11/21/91, page 3 State of North Carolina Department of Environment, Health, and Natural Resources Division of Environmental Management 512 North Salisbury Street • Raleigh, North Carolina 27604 James G. Martin, Governor A. Preston Howard, Jr., P.E. William W. Cobey, Jr., Secretary September 16, 1992 Acting Director Mr. H.J. Marziano Marziano & Minier Post Office Drawer 2048 Asheboro, NC 27204-2048 Dear Mr. Marziano: I am enclosing the comments received as a result of the Department of Environment, Health and Natural Resources review of the environmental assessment for the City of Randleman Wastewater Treatment Plant Expansion. Please prepare a response to these comments in order that I can ensure the Department's concerns are adequately addressed. When the revised document is acceptable to the Wildlife Resources Commission and to DEM's Technical Support Branch, we can proceed with the State Clearinghouse review process. Please feel free to contact me at (919) 733-5083 if you have any questions on the attached materials. You can also reach Dave Goodrich in DEM's Technical Support Branch at (919) 733-5083. I recommend that you contact Steve Pozzanghera at (919) 528-9886 to ensure that the Wildlife Resources Commission's comments are addressed. Sincerely, ff'' Monica Swihart Environmental Review Coordinator 474ea.ltr Attachments cc: Steve Mauney, WSRO w/attachments Dave Goodrich Steve Pozzanghera, NCWRC ECEWVED SEP 1 8 1992 TECHNICAL SUPPORT BRANCH REGIONAL OFNCES _... Asheville Fayetteville Mooresville Raleigh Washington Wilmington Winston-Salem 704/251-6208 919/486-1541 704/663-1699 919/571-4700 919/946-6481 919/J95-3'960 919/896-7007 Pollution Prevention Pays P.O. Box 29535, Raleigh, North Carolina 27626-0535 Telephone 919-733-7015 An Equal Opportunity Affirmative Action Employer North Carolina Division of Environmental Management Water Quality Section/Rapid Assessment Group September 15, 1992 MEMORANDUM To: Monica Swihart Through: Carla Sanderson 0$e Trevor Clemen From: Dave Goodric Subject: Comments on EA for Expansion of Randleman WWTP After reviewing this document, it should be noted that effluent requirements outlined in Section 4 do not include limits for the expansion. A wasteload allocation (WLA) evaluation for the increase in flow was finalized by Technical Support in February, 1991, for conventional pollutants as well as toxicants (see attached WLA form). As the WLA indicates, the expansion will require a significant reduction in BOD5 and NH3-N limits (to 5 mg/1 and 2 mg/1, respectively) from previous allocations. Also, the increase in wastewater flow will also require a change in the pass/fail limit for the quarterly chronic toxicity test. The new test must be passed using a limit representing the 35% instream waste concentration of the discharge at design conditions and low flow. A change in the fecal limit (to 200/100 mi); a residual chlorine limit (28 µg/1); a TSS limit of 30 mg/1; and monitoring for lead will also be required at a minimum upon permit renewal. It is recommended that the document be amended to include these proposed limitations. In addition, additional limits for metals and/or other toxicants may be added to the NPDES permit. Randleman should work closely with DEM's Pretreatment Unit to assure proper control and permitting of the city's significant industrial users. Section 6 (p. 9) has a section regarding the potential for eutrophication. Recent studies by NCDEM in the Deep River above Carbonton Dam indicate a severe eutrophication problem is occurring in the river. While it would be premature to place nutrient limits upon any specific source, the EA should acknowledge the problem. The existing statement regarding DO and BOD Page 2 - Randleman EA review val requirements limiting the impact to eutrophication is irrelevant, since it is nutrient inputs that we would be concerned with (i.e., TP and TN). Also, Section 7 (p.9) should be expanded to indicate the historical water quality concerns in this portion of the river. The large number of impoundments in the river, along with pollutant inputs from point and nonpoint source, greatly restrict the assimilative capacity of the river. DEM has observed dissolved oxygen standard violations and eutrophication problems behind many of these dams. Therefore, the upgrade of Randleman's effluent to the proposed limits will help reduce existing loads to the river that have proven to be problematic. cc: Steve Mauney, WSRO ENVIRONMENTAL ASSESSMENT CITY OF RANDLELMAN WASTEWATER TREATMENT PLANT 111�tf1��j� • • rIsr 1 lismAsit By: Marziano & Minier, P.A. 919 S. Cox Street, Suite B Asheboro, NC 27203 July 1992 ENVIRONMENTAL ASSESSMENT CITY OF RANDLEMAN WASTEWATER TREATMENT PLANT 1. Existing Environment. All construction activity related to the expansion of the existing City of Randleman Wastewater Treatment Plant (WWTP) will be performed on property currently owned by the City of Randleman in Randolph County, North Carolina. This property contains the existing 1.5 million gallons per day wastewater treatment facility as indicated on the attached figures. The topography of the site slopes rather severely from northeast to southwest. Originally when the plant was constructed in the 1960's, the site was benched into the side of the ridge that borders the eastern side of Deep River. Therefore, the currently graded slope of the existing treatment plant site is approximately 2% to 5%. Because this is an expansion to the City's existing wastewater treatment plant, the land use in the immediate vicinity of this site will not be effected. The land around the wastewater treatment plant site is wooded and accessible only through a City maintained roadway. All areas around the plant site and within the plant site are covered by either trees, grass or shrubs. The main construction activity will be located a sufficient distance from the Deep River, such that there will be no significant impact to the surface water quality during construction. The exact construction of the units at the existing treatment plant site will require no major clearing of the site and will comprise much less than one acre in area. Additionally, the earthwork required will be for excavation of pits for structure installation and thus will 4 c )l� ,I 1,`?J`7�a •li11 £ ' . 1 1'it.(4 1 , l ).) L... \ ram.: \k'_-lJ[r L� ;(L.��' Ili 1�1, X l ANDLEMAN QUAD w Salem ITV OF RANDLEMAN *Y-1— 7 f .—.( (V I )))) . ‘' ---Fki. ... :1% • IV�ail '1� l l 'fin % /1 i - � �1 MODIFY SLLD6f ChILOR 1EY34: r AEw CCII Lt7F Air L/I/T n SLUDSE HOLM'S TANK SITE PLAN CITY OF RANDLEMAN PROPOSED WWTP FACILITIES M AREAS DISTURB BY CONSTR OONN BASIN SERVICE )? RANDLEMAN AREA i CITY of RANDLEMAN WASTEWATER TREATMENT FA ES SITE LOCATION NO SCALE act as their own silt basin. Additional requirements relative to silt fencing, etc. will be used if necessary to insure no siltation to any streams. Because no construction for this project will occur in wetlands or in the Deep River, it will not be required to obtain a 404 Permit. The average ground elevation at the wastewater treatment plant is approximately 660 MSL. No construction at this site will take place in the 100-year floodplain. Ground water is estimated to be from 30 feet to 40 feet below ground surface and will not present a problem during construction. 2. Need for Project. The existing wastewater treatment plant has a hydraulic capacity of about 2.0 million gallons per day. The permitting capacity of the wastewater treatment plant is 1.25 million gallons per day. Average daily flows currently being received at the wastewater treatment plant are approaching the permit limit. Additionally, the continued connection of flows to the City's wastewater interceptor system can be expected to increase the loading at this plant site. The City of Randleman is currently operating under a Special Order by Consent until such time as improvements can be made to the plant to being it within compliance of its existing NPDES Permit. In the past, the wastewater treatment plant has experienced flows to the degree that it is unable to effectively treat the wastewater solids that are being received. Additions to this plant are intended to provide the required treatment to handle the additional current loading and to meet expected future flows. Future flows to the City's wastewater treatment plant are expected to include only the existing corporate limits and currently served urban areas adjacent to the corporate limits. No major expansion of this plant is being determined to meet an expansion in corporate limits. A study prepared by Minier & Associates, P.A. in August, 1989 2 indicated that the City of Randleman would experience a population increase over the next 20 years. Basically, the population is expected to increase from about 2,490 in the year 1990 to about 3,013 in the year 2010. Additionally, some growth would be expected in the wastewater system due to industrial usage. Currently, the City of Randleman's wastewater usage is in the neighborhood of about 70 percent. Attached to this Environmental Assessment in the Appendix is an excerpt from the previously referenced report giving additional information relative to the current wastewater flows and expected wastewater flows for the City of Randleman's wastewater treatment plant. Since it is expected that the wastewater treatment plant will continue to grow and it appears that it is currently overloaded to the extent that it cannot treat the wastewater effectively at this time, the referenced report recommends an upgrade to the plant for biological and additional flow capacity. While the study recommended a 2.0 million gallons per day wastewater treatment plant, it is currently proposed to expand this plant only to about 1.495 million gallons per day at this site. If additional capacity is needed in the future, then operating history can be used to expand the plant accordingly. 3. Alternative Analysis. This wastewater treatment plant was studied under the 201 Program in the late 1970's. At that time, it was recommended to expand the wastewater treatment plant at this site in lieu of other available alternatives. Reasons for doing this include: a. Currently functioning wastewater infrastructure to this wastewater plant site. 3 b. No additional wastewater treatment plant sites were available and/or needed. c. Current operating history at this wastewater plant site was in conformance with existing land use patterns. Other alternatives required to be considered by the State of North Carolina include: a. No Action Alternative. This alternative is not acceptable because it fails to provide treatment for the wastewater existing in the service area and fails to alleviate current problems caused by the inability of this wastewater plant to effectively treat the wastes under its current NPDES Permit. b. Land Application. Treatment of wastewater by land application is not feasible on this project because of the large area of land which would be required for a 1.5 million gallons per day plant. It is expected that up to 750 acres may be required for spray irrigation area if the wastewater was land applied. This quantity of land would be very impractical to obtain in the Piedmont area where slopes and hillsides typically would make this type of wastewater treatment impractical. It would be extremely difficult to control such a wastewater system, not only from the land area requirements but also from the hydraulic problems involved. There would be no advantages for land application over that currently being employed by the City of Randleman. 4 4. Effluent Requirements. As previously mentioned, the City of Randleman is currently operating the wastewater treatment plant under a Special Order by Consent Permit No. NC0025445. This Permit is effective until December 1, 1992. The required wastewater treatment improvements are necessary in order to continue operating the plant under previously approved NPDES Permit limits. Previous NPDES Permit limits are: Flow: 1.25 mgd BOD: 30.0 mg/1 Total Suspended Solids: 75 mg/1 Dissolved Oxygen: 5.0 mg/1 Fecal Coliform: 1000/100 ml Total Nickel: 81.0 ug/1 Cyanide: 18.0 ug/1 The fact that the wastewater treatment plant is currently having to operate under Special Order by Consent indicates that past performance has been below the level required by the current NPDES Permit. The Special Order by Consent has been amended to allow a Total Suspended Solids limit of 75 mg/1 during the term of the Consent Order. Additionally, it is expected that future expansions and permit renewals will likely result in more stringent discharge limits at this point in the Deep River. Therefore, effluent filtration is being added to the proposed wastewater treatment plant process in order to meet current and expected stream limits. 5. Sludge Disposal. The City of Randleman currently operates a land application system for sludge disposal. The sludge is aerobically digested at the wastewater treatment plant site and then decanted. Private contract haulers take decanted sludge and land apply it on lands currently under contract for this purpose to the City of Randleman. The 5 site is approximately 10 miles from the Randleman wastewater treatment plant site. Additional land application sites are available in this area should the need arise in the future. Part of the upgrade to the existing wastewater treatment plant will be to add additional sludge handling facilities for aerobic digestion of waste activated sludge. 6. Environmental Consequences. The preferred alternative for this project is to upgrade and expand the existing wastewater treatment plant at the existing site using similar treatment process technology. The following impacts have been considered: Changes in Land Use. Continued growth in the Randleman area includes specific plans for a new major industry to be located in the southern portion of the City. This industry is Timken and they plan to invest about 100 million dollars in a facility in Randleman's wastewater service area. While this industry will be contributing primarily domestic wastewater to the system, the 200 jobs created will have a very beneficial impact on the area economy. Additionally, the City of Randleman is experiencing a need to annex potential areas that contain several hundred septic tanks. If feasible, the annexation will provide needed wastewater treatment to a residential area. Wetlands. As previously mentioned, no wetlands will be effected by this particular project since all of the construction will be contained within the existing fenced area of the wastewater treatment plant site. 6 t Prime Agricultural Land. There are no known areas of prime agricultural land within the City's current wastewater service area. Public Lands. No public land will be effected because all construction work will be confined to the existing wastewater treatment plant site. Public land within the service area is extremely limited and will result in minimal secondary impacts. ,Scenic and Recreational Areas: The plant is only slightly visible from the Deep River during the Fall and Winter and no major impact on scenic or recreational value of the river should result. _ Areas of Archaeological or Historic Value. As previously mentioned, a 201 Facility Plan for this wastewater treatment plant was prepared in the late 1970's. An archaeological site study was done at that time and the subsequent plant modifications at that time were performed without injury to any known sites. Since this project is within the confines of the same construction area, no impact to archaeological or historical sites should result. Air Quality. The treatment process to be used at this plant is extended air, activated' sludge. There will be very little odor potential associated with the liquid treatment process. Sludge also will be aerobically digested and should present no odor problems. Complaints of odors coming from this plant in the past are non- existent. 7 Groundwater Quality. Groundwater quality will not be effected. All process basins are fully contained and constructed above the any known groundwater table. The ability of this wastewater plant to serve future residences and the ordinance requiring mandatory hook-up will result in better groundwater quality by eliminating septic tanks in the future. Noise Levels. Noise level will not be increased by the plant expansion. All blower equipment at the existing plant will be utilized for the new upgrade. It will not be necessary to increase the horsepower for these facilities. Water Supplies. There are no known water supplies within 5 miles of the discharge of this wastewater treatment plant. Additionally, the City of Asheboro wastewater treatment plant discharges in a small tributary to the Deep River just downstream of the City of Randleman's wastewater treatment plant. _ Shellfish or Fish. The dissolved oxygen level in the effluent will be at least 5 mg/1. This should be sufficient to maintain fish population in the river. It is not known that there would be any species of fish endangered by this plant location. As previously mentioned, there is another wastewater discharge just downstream of this plant. Wildlife Habitats. Because the general land use is not changed as a result of this project, there will be a minimal impact on wildlife and their habitats. 8 Toxic Substances. The only chemicals that will be in contact with the environment will be chlorine. Additional measures to neutralize the chlorine residual prior to discharge to the river will be utilized. The City of Randleman has a pretreatment program for industrial wastewater that is discharged to the existing wastewater treatment plant. However, some toxic substances such as household cleaners, paint and petroleum products may enter the system from residential customers. The City is currently upgrading their pretreatment program and headworks analysis to identify any potential problems in this area. Eutrophication of Receiving Waters. With the dissolved oxygen requirement and the low BOD effluent requirements for the wastewater discharge, it is expected that eutrophication the Deep River will not be an impact of this project. Additionally, high turbidity levels in the river, coupled with constant mixing of the water and short residence time for nutrients tend to limit the eutrophication of the stream. of 7. Water Ouality. The Deep River is classified as Class C in water quality in this region. Expansion of this plant will increase non -point source pollution to some extent. However, the upgrade facilities to the wastewater treatment plant will optimize the effluent quality currently being discharged to the Deep River. Also, there will be some benefit to eliminating faulty septic tank systems in the area due to annexation or other connection practices. 8. Adverse Impacts and Mitigative Measures. Construction of the proposed upgrade and expansion project will cause 9 some minor adverse environmental impacts that can be mitigated through appropriate control measures and good construction practices. Adverse impacts include: Consumption of resources during construction activity including money, energy and construction materials. Mitigation would be to develop a useful facility for the public. Air pollution could occur from windblown dust and engine exhausts during construction. Mitigation would be to enforce dust control measures during construction. Soil erosion possibly could occur. Mitigation would be to enforce strict erosion control measures during construction. Long term impacts would include the continued expenditure of labor, chemicals and energy, coupled with escalating costs for operation and maintenance. Mitigation would be to increase the water quality in the Deep River and improve local groundwater supplies. Sound construction practices and careful planning during construction will reduce the above mentioned adverse impacts. All local, state and federal regulations designed for environmental protection will be adhered to. 9. Secondary Impacts. The major reason for this project is to upgrade the existing wastewater treatment plant process. The investment of money by the City of Randleman for this project will be to insure that the environmental impact will be minimal. The City will use local development controls such as zoning, subdivision regulations, sewer tap permits 10 and building permits to prevent incompatible land uses brought about by future growth and development. 10. Summary. In summary, a need has been shown to improve the wastewater treatment plant process to alleviate documented treatment deficiencies that are below the NPDES Permit requirements. Additionally, documents contained in the Appendix indicate the need to expand the plant to meet future needs of the City of Randleman. Since this project is being developed to meet current conditions with minimal increase in plant capacity, it is not expected to create a great deal of additional development in the area. Other items likely to improve will be groundwater quality and stream quality due to improved treatment. 11 4.0 PROJECTED PLANT LOADINGS 4.1 GENERAL. Plant loadings are projected in order to determine the ability of the existing treatment units to handle future flows with possibly higher wastewater strength. For the purpose of this report, evaluation of the treatment units and sludge handling capabilities (i.e. size of clarifiers, volume of tankage) is based upon projected maximum month average daily flow. Evaluation of plant equipment (i.e. pumps, screens) is based upon the range of plant flow that occurs between peak daily flow and annual average daily flow. The flow projections and plant loadings contained in this report are based upon a study of the water meter readings and wastewater plant reports between July, 1988 and June, 1989. These flows coupled with projections of population growth are used to develop future plant requirements. 4.2 POPULATION PROJECTION. Proper sizing of a wastewater treatment facility to meet future needs depends greatly upon development of accurate population growth projections. Projections of population growth are at best only a guess based upon historical growth trends. Table 4.1 indicates the growth of the Randleman area since 1940 and compares it with the growth of the State and surrounding Townships. Table 4.2 indicates the population projections for Randolph County and North Carolina between 1990 and 2010 as prepared by the NC Office of Budget and Management (NC OBM). RANDIEMAN Wit REPORT 4 - 1 TABLE , 4.1 POPULATION GROWTH OF SELECTED AREAS(1) 1940 1950 1960 1970 1980 1987 Ava, Chance City of Randleman 2,312 2,123 2,439(2) 5.6% Back Creek Township 897 1,223 1,608 1,859 2,170 * 35.5% Franklinville Township 3,635 4,308 5,042 5,250 5,530 * 13.0% Level Cross Township 822 694 878 1,660 2,150 * 40.4% New Market Township 1,634 1,587 2,152 3,975 5,250 * 55.3% Providence Township 1,043 1,025 995 1,288 1,290 * 5.9% Randleman Township 3,637 3,714 4,439 4,853 5,260 * 11.2% Randolph County 44,554 50,804 61,49.7 76,358 91,300 * 26.2% North Carolina 5,084,411 5,880,415 15.7% (1)Source: U.S. Census Data (2)Source: Estimated by NC Department of Administration *Not available TABLE 4.2 STATE & COUNTY PROJECTIONS Avg. Change 1990 1.295 2000 2010 Der egade Randolph County 103,977 110,528 117,078 131,830 17..6% North Carolina 6,633,108 7,057,627 7,472,146 8,439,860 12.8% New population projections are shown in Table 4.3. They are based upon the following: Past growth trends in Randolph County, nearby Townships and the City. • Population projections by NC OBM. • The existing water and sewer systems' ability to promote and support additional growth. NC OBM has projected a conservatively low growth rate for Randolph County when compared to the growth over the past 40 years. In developing a future growth rate for this report, a growth of 10 percent per decade will be used for Randleman, unless otherwise noted. 4.3 INDUSTRIAL GROWTH In order to experience the population growth as projected, it will be necessary for the Randleman/Asheboro area to grow industrially. The type of industry that will locate in this area cannot be determined. Currently, in the Randleman area, the major industries are made up of textile producers, some of which use significant quantities of the City's potable water. Projections of industrial growth, relative to generation of sewage flow, can only be estimated based upon current trends and established planning of existing industry. Current industrial trends are to locate plant facilities that can access municipal wastewater systems. Whether or not the industry would RANDLEMAN NW REPORT 4 - 2 TABLE 4.3 POPULATION PROJECTIONS 1990 1995 2000 20.10 City of Randleman 2490 2615 2739 301.3 TABLE 4.4 METERED WATER CONSUMPTION FOR SEWEREI) CONNECTIONS No. 0 l 1) Water Used Service Class Connections NovLUec_, 88 Hill.L11itr i__09 Residential 1048 10,256,800 13,065,500 Commercial 1.39 2,592,500 3,061,000 Industrial 12 34,700,300 32, 805, 01)i) Totals 1199 47, 549, 600 50, 532, .300 (1) No. of connections is the average of the months selected be a major contributor of wastewater cannot be determined with much confidence. Based upon Randleman's current situation at the wastewater treatment plant, this report will assume that future growth from new industry will be less water intensive than in the past. On the other hand, the City has been advised that Jockey International proposes to double its wastewater discharge to a projected quantity of 170,000 gpd by 1990 and this projection has been included into flow estimates of this report. 4.4 WASTEWATER FLOW PROJECTION The projected wastewater flow is a function of residential, commercial, and industrial growth and increasing infiltration and inflow of groundwater to the system. The following subparagraphs briefly discuss the steps taken in determining the projected maximum month average daily flow. Table 4.4 lists the metered water consumption for customers on the sewer system for the bimonthly periods of Nov/Dec, 1988 and Mar/Apr, 1989. These periods were selected because they coincide with the low flow and high flow months recorded at the wastewater treatment plant. Table 4.5 lists the daily wastewater flows recorded at the wastewater treatment plant and summarized important information about the flows. Relational data contained in these two tables, along with population projections, will be used to project future plant flow requirements. 4.4.1 Residential Water Use Table 4.4 is used to determine the average daily flow per capita for residential users. The table indicates RANDLEMAN WW REPORT 4 - 3 TABLE 4_5 DAILY WASTEWATER FLOWS (MGD) DAYIMTH Jun-88 JuI-88 Aug-88 Sep-88 Oct-88 Nov-88 Dec-88 Jan-89 Feb-89 Mar-89 Apr-89 May-89 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 MTHLY. TOT. AVG. DAY MAX. DAY MIN DAY MAX/AVG. 1.15 0.52 1.10 1.06 0.65 1.16 0.99 0.73 1.24 1.37 0.87 1.36 1.10 0.23 1.12 0.97 0.45 1.10 0.71 1.19 1.28 1.21 0.52 1.04 1.00 0.22 1.10 0.72 1.36 1.28 0.30 1.03 0.93 1.25 1.30, 0.94 0.74 , 0.21 1.10 0.50 1.02 1.10 0.38 1.29 0.38 0.71 1.30 0.89 0.41 0.21 1.05 0.49 1.03 0.90 0.98 1.10 0.66 0.71 1.30 1.13 1.10 0.21 0.77 1.06 0.90 0.45 1.01 0.85 1.27 1.56 1.23 0.97 1.18 0.23 0.48 1.10 0.91 0.99 1.00 0.61 1.18 1.45 1.49 0.82 1.10 0.30 1.14 1.10 0.57 1.00 1.04 0.52 1.06 1.19 1.51 0.89 1.23 0.31 1.09 1.35 0.26 1.13 1.00 1.21 1.11 1.23 1.21 1.17 1.01 0.55 1.10 0.96 0.91 1.23 0.66 1.31 0.80 0.87 1.15 1.08 0.94 1.13 1.12 0.91 0.95 1.01 0.41 1.21 0.50 0.55 1.24 0.96 0.42 1.10 1.13 1.04 0.90 0.70 0.98 1.28 0.47 0.59 1.22 0.96 1.16 1.10 0.79 1.10 0.88 0.45 0.98 1.06 1.13 1.09 1.26 0.60 1.12 1.16 0.45 1.09 0.90 1.16 1.03 0.65 1.19 1.11 1.28 0.17 1.01 1.12 . 1.11 1.04 0.52 1.04 0.96 0.52 1.33 1.36 1.13 0.95 1.06 0.82 1.21 1.04 0.35 1.18 0.77 1.26 1.20 1.26 0.61 0 97 1.12, 0.49 1.15 0.79 0.99 1.28 0.23 1.15 1.16 0.92 1.29 0.97 0.75 1.17 1.22 0.46 1.21 1.00 0.39 1.28 0.35 0.79 1.37 0.99 0.38 1.12 1.24 1.14 1.04 0.84 0.87 1.12 0.68 0.62 1.28 1.02 1.25 -.1.16 1.10 1.06 1.21 0.49 0.92 1.03 1.71 1.40 1.24 0.66 1.11 1.12 1.00 1.04 1.07 1.06 0.85 0.48 2.02 1.37 1:31 . 0.971 0.29 1.08 1.11 1.15 0.96 0.97 1.04 0.73 0.47 1.68 1.57 0.92 1.13 0.82 1.14 1.06 0.87 0.79 0.48 1.31 1.24 1.97 0.52 1.00 1.13 0.47 1.16 0.76 0.94 0.31 0.31 1.20 0.71 1.20 1.23 0.95 0.98 1.21 1.10 0.85 0.89 0.26 0.27 1.25 0.49 0.69 1.29 1.06 0.96 1.06 ' 1.13 0.97 0.95_ 0.35 0.25 1.25 0.74 0.74 1.30 1.27 1.03 1.17 0.84 1.00 1.18 0.75 0.26 0.81 1.82 1.30 1.02 0.42 1.03 1.08 0.63 1.03 0.97 1.11 0.27 0.46 1.73 1.41 1.28 0.21 0.98 1.12 1.10 1.06 0.80 1.04 0.26 0.31 1.37 0.70 0.89 0.64 0.98 1.05 0.96 0.39 0.99 0.32 1.24 1.34 0.35 0.96 0.97 1.13 1.52 0.52 1.19 1.27 1.03 29.30 24.47 32.00 28.67 27.56 27.19 20.13 30.37 30.06 35.47 33.77 27.54 0.98 0.79 1.03 0.96 0.89 0.91 0.65 0.98 1.07 1.14 1.13 0.89 1.25 1.21. 1.24, 1.35 1.52 1.28 1.04 1.31 2.02 1.97 1.51 1.36 0.38 0.21 0.45 0.46 0.26 0.26 0.23 0.31 0.35 0.55 0.35 0.17 1.28 1.53 1.20 1.41 1.71 1.41 1.60 1.34 1.88 1.72 1.34 1.53 ANNUAL MAX DAY ANNUAL AVG DAY ANNUAL MAX/AVG. AVG. DAY -MAX MTH. 2.02 0.95 2.13 1.14 that about 85.6 percent of the sewered customers are residential users. These customers accounted for about 21.6 percent of the water used in Nov/Dec, 1988 and about 27.4 percent used in Mar/Apr, 1989. Averaging the two periods together and assuming that 100 percent of the population is served (2439 people), the per capita water usage would be about 81 gallons per day. For the purposes of projecting sewage flow, a per capita water usage of 80 gpd will be used. This number is reasonable and is within normal limits for residentialcustomers living within corporate limits. 4.4.2 Commercial Water Use Table 4.4 indicates that the commercial usage category accounts for about 11.6 percent of the sewered customers. The commercial customers accounted for about 5.5 percent of the water used in Nov/Dec, 1988 and about 7.6 percent used in Mar/Apr, 1989. This report assumes that the growth of commercial establishments in the Randleman area will continue. To meet the expected commercial growth, this report will assume that the sewage generated by commercial enterprise will maintain its proportional share of the total flow. 4.4.3 Industrial Water Use The industrial water usage shown in Table 4.4 accounts for about 1 percent of the total customers. Conversely, industry by far is the largest water user in the Randleman system, accounting for an average of about 68.9 percent of all water used. Fluctuations in the amount of industrial business in Randleman can have a significant impact on the water and wastewater flows for this system. This report assumes that steady RANDLEMAN WW REPORT 4 - 4 industrial growth will continue in the Randleman area; but, as mentioned previously, new industry locating in the area is not expected to be of the large water using type. This report, however, does include the known projection of Jockey International to double its current discharge to 170,000 gpd by 1990. For the purposes of this report, an allowance of 20 percent of the plant capacity will be allocated for industrial growth. 4.4.4 Other Flows Other flows into the wastewater system that contribute to the required size of the wastewater treatment plant include: • Current Commitments • Annexation • Infiltration/Inflow Of the items listed above, infiltration and inflow pose probably the most significant problem to the City of Randleman. Table 4.6 compares the total water meter readings with the wastewater flows recorded at the wastewater plant. Inspection of Table 4.6 indicates that during periods of wet weather, the flow to the wastewater plant can be greater than the amount of water metered. This additional wastewater flow is generated by stormwater and groundwater entering the wastewater collection system. The comparison i.n Table 4.6 is somewhat distorted by the fact that the periods for the flow records for water vs. wastewater do not coincide RANDLEMAN NW REPORT 4 - 5 TABLE 4.6 COMPARISON OF WATER & SEWER FLOWS Wafer Sewer Ual. i n of period Billed Flow ^,/W Jul/Aug, 88 50,931,000 56, 470, 000 1 . 1 1 Sep/Oct, 88 57, 447, 900 56, 230, 000 0 .9n Nov/Dec, 88 47, 549, 600 47, 320, 000 0.99 Jan/Feb, 89 41, 846, 100 60, 430, 000 1 . 44 Mar/Apr, 89 50, 532, 300 69, 240, 00(1 .1 . 37 May/Jun, 89 56,970,000(1) (Data Not Avail . ) Total 248, 306, 900 209, 690, 000 1.. 1 7 (1) Not included in l:otal exactly. Nevertheless, the total wastewater flow metered was larger than the total water metered by about 17 percent. Normal practice for new systems is to allow about 10 percent for infiltration and inflow. This report will allow about 15 percent reserve for infiltration/inflow to account for potential growth along the existing wastewater collector system. Investigation of the extent of the infiltration/inflow is beyond the scope of this report. There are programs and procedures that can be set up to find some cause of infiltration and inflow. Many of these problems can be minimized with City maintenance personnel; however, experience shows that reduction is costly and chlorination is virtually impossible. 4.4.5 ,Summary Using the assumptions contained in the above subparagraphs, the projected wastewater flows for 1990, 2000 and 2010 are summarized in Table 4.7. As indicated, the required plant capacity is projected to be about 1.54 mgd by the year 2010. There is no real reserve built into the projected wastewater flows. Should more aggressive annexation occur or industrial growth increase more rapidly than anticipated, the City would have to make additional expansions. For conservation and economy of expansion, Minier & Associates recommends that the plant be designed for 2.00 mgd capacity. This would allow about a 30 percent reserve hydraulic capacity beyond the projected year 2010 capacity. RANDLEMAN WW REPORT 4 - 6 4 a r TABLE 4.7 PROJECTED MAXIMUM MONTH AVERAGE DAILY FLOW (MOD) Source 1990 2000 201.0 Residential 0.228 0.250 0.275 Commercial 0.068 0.075 0.082 Industrial* 0.696 0.832 0.982 Infiltration/Inflow 0.150 0.164 0.180 Annexation/Other 0.000 0.020 0.020 Total 1.142 1.34]. 1.539 *Industrial flow projections include the advisory to the City that Jockey International proposes to increase lts flow by 85,000 GPD by 1990. State of North Carolina Department of Environment, Health, and Natural Resources Division of Environmental Management 512 North Salisbury Street • Raleigh, North Carolina 27604 James G. Martin, Governor William W. Cobey, Jr., Secretary Mr. Richard D. Hardin City of Randleman 101 Hilary Street Randleman, North Carolina 27317 May 27, 1992 RECEIVED JUN 0 •'1 1992 RE: TECHNICAL SUPPORT BRANCH George T. Everett, Ph.D. Director NPDES Permit Application NPDES Permit No. NC0025445 Randleman WWTP Randolph County Dear Mr. Hardin: As per previous corresponden e dated November 6, 1991, prior t'processing your application to modify the Randleman WWTP NPDES permit to increase the flow to 1.745 MG, an environmental assessment is required to be completed. The North Carolina Administrative Code, 15A NCAC 1C .0504, requires an environmental assessment for major activities. For expansions of existing facilities, the definition of a major activity is one that is increasing the flow by 0.5 MG or where the design flows are proposed to be one-third or more of the 7Q10 flow of the stream, In the case of the proposed expansion of the Randleman WWTP, the increase in flow is 0.495 and the flow is greater than one-half of the 7Q10 of the flow of the stream, therefore, an environmental assessment is required for the review of the application to proceed. If the environmental assessment is not received within,p0 days, it will be returned to you and may be resubmitted when complete. N ,). If you have any questions, please call Coleen Sullins or Don Safrit (919/733-5083) of the Permits and Engineering Unit. cc: Winston-Salem Regional Office Technical Support Branch boo `5 Co el Sincerely, Steve W. Tedder, Chief Water Quality Section REGIONAL OFFICES Asheville Fayetteville Mooresville Raleigh Washington 704/251-6208 919/486-1541 704/663-1699 919/733-2314 919/946-6481 Pollution Prevention Pays P.O. Box 29535, Raleigh, North Carolina 27626-0535 Telephone An Equal Opportunity Affirmative Action Employer Wilmington Winston-Salem 919/395-3900 919/896-7007 919-733-7015 UPSTREAM 1 I I DOWNSTREAM #1 I 1 DOWNSTREAM #21 I Deep River at Fox St. Bridge Deep River above Worthville Dam Deep River above Haskett Ck. DATE TEMP D.O. BOD5 FECAL CONDUCTIVITY TEMP D.O. BOD5 FECAL CONDUCTIVITY TEMP D.O. BOD5 FECAL CONDUCTIVITY /0/9 �ftl // 77 373Y0 // -7. 2 5 53 3 .3s6. /2, 7. �- it I '2? ei-.6 / 7 G. 7 /3K 376 /2 57 q /697 370 /9 6,7 7 I /7/ 4/ 4-7 V7I 2-9 7-3 S 282 2/ 2--/ _.7 ...550d ZO 2/ 7.o 44 izZ Z Z5 l Z 6- 6 /O /� 3�/ 23 .c q 7 jig 936 Z � ‘..7 7 I 6/ Z.o � 6 9/ /g 75 // 307 /7$ J9 7.4- /z "7,95 /7 - 5/7,, /G 7, C £ 2 /4-7 /0 7., 3 252,- /5.42 .\\- "/qf /2.- g.S 5 i 2- Fs. S -�0 93 3/ 7 9.5 4 o 6 7 9./d 7 /7_ 90 z19/ .5 // / 3 /�'/ /Ow .5 //. 3 74f // � % %/ C it-2 6- 6c0 9Z Iz. z . 711 87- C l /2/f0 9 io.3 3 �27 /ii 9 /o.� 3 //� 1 / U/ o lD 7.? ' 37 /so // 9.7 .� 37 /eF- f °/70 / 9 8. L 2- 7 vil %f g S z Za 27 S �� 5Oldgritii*6) /41/t (5cV(. fy)Shtton. Linc. Co. Compliance Judgement A B C E F G H 1 -D 1 Lincoln County Compliance Judgement „^ q J -C 2 3/1 /92-6/3Q/92 �1 J - 3 4 / Date Sampler Cadmium Chromium Copper Lead Nickel Zinc TTO 5 920528 s 0.0160 0.0180 0.1580 0.0200 0.1320 0.1860 6 920410 i 0.0100 0.0500 0.1500 0.0500 0.0700 0.1100 4.6900 i 0.0100 0.0500 0.1300 0.0500 0.1900 0.1200 0.8820 7 % 920409 8 920408 i 0.0100 0.0500 0.2500 0.0500 0.5500 0.2000 0.0000 9 920407 i 0.0100 0.0500 0.1000 0.0500 0.1800 0.1300 0.0340 10 920326 s 0.0050 0.0100 0.1110 0.0080 0.1330 0.0540 11 - - -- 12 Average - s 0.0105 0.0140 0.1345 0.0140 0.1325 0.1200 0.0000 13 Average(Monthly) i 0.0100 0.0500 0.1575 0.0500 0.2475 0.1400 1.4015 1 4 Grand Average (2s+41)6 0.0102 0.0380 0.1498 0.0380 0.2092 0.1333 0.9343 15 16 Limits 1 7 Daily Max. 0.0020 0.7400 0.1290 0.0950 0.1340 0.1550 0.5700 18 Monthly Avg. 0.0020 0.4500 0.1030 0.0760 0.1070 0.1240 19 20 Daily Max. TRC 0.0024 0.8880 0.1548 0.1140 0.1608 0.1860 0.6840 21 Monthly Avg. TRC 0.0024 0.5400 0.1236 0.0912 0.1284 0.1488 22 23 Chronic Violations 100% 0% 71 % 0% 57% 43% 50% 24 TRC Violations 100% 0% 29% 0% 57% 14% 50% 25 26 27 28 *italics are detection limit values cv�. c(✓f` C o . 'D, s c1, u'je Page 1 RESEARCh & ANA[VICAL LABORATORIES, INC. Analytical/Process Consultations City of Randleman 101 Hi 11 iary ;.street Randleman, NC 27317 Attn: Joan Wall Job Number : 03372 Parameter E OD-5 T SS NH-3-N Cadmium, Tot Chromium,Tot Copper, Tot Cyanide Lead, Tot Mercury, Tot Nickel,Tot Silver, Tot Zinc, Tot Arsenic, Tot Clients Sample Storet # (00310) (0c:)530 ) (00610) (01027) (01034) (01042) (00720) (01051) (71900) (01067) (01077) (01092) (01002) NC C:.;T #34 Date Sample Collected : 12/04/1 Date Sample Received : 12/01J/91 Date Sample Analyzed : 12/0/'.)1 Date of Report : 12/13/91 Analyses Performed by : EH -YJ -MH --MM Lab Sample Number, 122313 Results 4.92 MG/L 52 NG/L (1.00 MG/L (0.005 MG/L (0.0a0 MG/L 0. 109 I1G/L <0.005 MG/L (0.050 MG/L (0.00020 MG/L (0. (:)25 MO/L (0.005 MG/L 0.056 MG/L <0. 0050 MG/L Source/Number UPSTREAM AT FOX ST Time Collected : 14: P. 0. Box 473 • 106 Short Street • Kernersville, North Carolina 27284 • 919/996-2841 RESEARCi1 & ANAFyTiCAI LAboRAToRiES, INC. Analytical/Process Consultations City of Randleman 101 Hi 11 iary Street Randleman, NC 27317 Attn: Joan Wall Job Number : 03372 NC C RT 4,34 Date Sample Collected : 03/18/92 Date Sample Received : 03/19/92 Date Sample Analyzed : 03/20/92 Date of Report : 04/10/92 Analyses Performed by : EH •--YJ --LM -MF-1 -NM Lab Sample Number 131251 Parameter Storet R Results DUD-5 (00310) 3.96 M1 / L TSS (005 c:>) 7.0 NG/L NH-3-N (U061 i i) (1. 00 tfMU/ t_ Cadmium, Tot (01027) (0. 00 MG/ L Lhromium, Tot (01034) (0.010 NU/L Copper,Tot (01042) 0.033 3_ .';`..;/ :_. Lead, Tot (01051) 0.0264 P'II: /L N1 cke 1, 1 of (01067) (O. 025 No/L. hlurcury, Tut (71900) W. 000L0 1,1Li /L... Llilver, Tot (01077) (0.005 MG/I.._ 7_inc, Tot (01092) 0. 128 MG/L. iirst:nic, Tut (01003) (0.0050 IYlL; L_ SAMPLE NUT PRESERVED FUR NH-3-N Clients Sample ',source/Number UPSTREAM FOX Sf BNID Time Lollected : 8: P. 0. Box 473 • 106 Short Street o Kernersville, North Carolina 27284 • 919/996-2841 RESEARCii & ANA[yTICAI. LAbORATORIES, INC. Analytical/Process Consultations City of Randleman 101 Hilliary Street Randleman, NC 27317 Attn: Joan Wall Job Number : 03372 NC CERT 4i 34 Date Sample Collected : 06/30/92 Date Sample Received : 07/01/92 Date Sample Analyzed : 07/02/92 Date of Report : 07/16/92 _Analyses Performed by, : EH --YJ —LM —TIC —IIH Lab Sample Number 139580 Parameter Storet # BQD-5 (00310) TSS (00530) Cadmium,Tot (01027) Chromium, Tot (01034) Copper, Tut (01042) Arsenic, Tot (01002) Nickel,Tot (01067) Lead,Tot (01051) Zinc, Tot (01092) Mercury, Tot (71900) Silver,Tot • (01077) NH-3—N (00610 ) Results (3.0 MG/L. <5.0 h1G/L (0. 005 MG/L (0.010 MG/L 0.047 MG/L (0.010 (0.025 ( i:► . 050 !'1G/L MG/L h1G/L ii.077 MG/L (0.00020 MG/L (0. 005 MG/L (1.00 MG/I_ Clients Sample Source/Number UPSTREAM Time Collected . 8:20 Y P. 0. Box 473 . 106 Short Street s Kernersville, North Carolina 27284 • 919/996-2841 (I( 0 "Ik RESEARCIi ANALyTICA1 LABORATORIES, INC. Analytical/Process Consultations City of Randleman 101 Hi 11 iary Street Randleman, NC 27317 Attn: Joan Wall NC crrtT #34 Date Sample Collected : OB/21/91 Date Sample Received : 08/22/91 Date Sample Analyzed : OB/23/91 Date of Report : 08/30/91 Analyses Performed by : EH —YJ —LM —MM —MH —DW Job Number : 03372 Lab Sample Number, 114610 Parameter Storet 0 Results BOD-5 (00310) 3.96 MG/L 1 SS (00 3i0) 12 MG/L_ NH-3—N (006 10) < 1 . 0 MG / l_ Cadmium,Tot (01027) (0.020 IYIC:i/L.. Chromium, Tot (01034) (0.040 MG/L_ Led,Tot (01051) (0.10 MG/L Mercury, Tot (71900) (0.00020 MG/L Nickel, Tot (01067) (0.050 MG/L Silver, Tot (01077) <0. 02(:0 MG/L Zinc, Tot (01092) 0.092 MG/L Arsenic, Tot (01002) (0. 010 MG/L Cyanide (00720) <0.00 MG/L. Clients Sample Source/Number UPSTREAM P. 0. Box 473 • 106 Short Street m Kernersville, North Carolina 27284 • 919/996-2841 I ., • . Anne..., Pollutant Analysis Monitoring Req. anent Reporting Form A I. Facility tnformatlon: NPDES.Permlt No: NC 0025445 Discharge (Pipe) No: •r 01 Year: 1990 Cityof Randleman Randolph Facility Name: Class: County: r Person(s) • Collecting Samples: ' Frankie Brewer S i �`i '' o."1— , j . • Analytical Laboratory: Research & Analytical Laboratories, Inc./ EMS GCiMS Library Size (number of chemicals catalogued): 40 , 000 II. Sampling: 24 hr composite for main sample i grab sample for purgeable fraction Date.Sampled: (composite sample) 10/24/90 Sampling .begun (date, time): Sampling finished (date, time):. 10/25/90 Pao 1 ul Date and time .eampled (grab (ample): Instructions The purpose of this document Is to standardize the sampling, analysis and reporting procedures to he usi for the Annual Pollutant Analysis Monitoring Requirement as described In the permit In addition to the monk( Ing and reporting requirements described herein, the permitee will meet all other relevant monitoring aiui rep Ling requirements as described In the North Carolina Administrative Code Section 15 NCAC 28 .0500 - Surfa, Water Monitoring: Reporting. The permltee should use copies of this Annual Pollutant Analysis (APA) Form A report the results of the analysis. Completed forms should Include the signatures of the analytical laboratc representative and the facility operator In responsible charge (see p.6). Mall two completed copies to: ATT: Cents Files, Division of Environmental Management, NC NRCD, P.O. Box 27687, Raleigh, NC, 27611. A 24-hour composite sample must be taken from the final effluent during mid -week (Wednesday through F day). A grab sample for the volatile organic fraction must be taken when the 24-hour composite sample Is corriplet( The effluent must be analyzed for.pollutants, Including those to be Identified and approximately quantified urr( the 10 significant peaks rule , using appropriate EPA approved methods for each of the analytic fractions to analyzed, as listed on this APA Form A. Other analytical methods can be substituted only with prior, written proval of the Director of the Division of Environmental Management (DEM). All chemicals (or elements) to be analyz for are Included in the attached tables (parts A through F of this APA Form A, each of which Includes space the chemicals to be identified under the 10 significant peaks rule), and organics should elute in the chemical f r, Lion as listed. Detection Limit Targets which should be met are listed on this APA Reporting Form A. Use of any higher deli tton limit for the purpose of this Annual Pollutant Analysis Monitoring Requirement must be reported along w the results of this analysis. An explanation as to why the listed detection limit target could not be met must al be subrnitted, attached to this APA Form A. Examples of acceptable reasons for not meeting a detection llr target could be high background concentrations In a sample, or the necessity for sample fraction dilution to till a chemical to within a detectable concentration. If a chemical is found to be below the detection limit target, rep the concentration detected as less than (or '<') the detection limit target in the appropriate space. Cfrernlc listed on the attached tables that are detected In concentrations above the detection Ilinit targets must be qu tifled. All chemical concentrations should be reported in units of micrograms per liter (ug/l). All metals concoui tlons should be reported as total recoverable metal (as ug11). The total number of peaks detected in each analy fraction must also be entered In the appropriate space on this APA Form A. Chemicals to be analyzed for according to the 10 significant peaks rule (as described In Item 2 of the Arm Pollutant Analysis Monitoring Requirement In the permit) must be Identified whore possible using a GC/MS lib► search. An estimate should be given of their concentration based on an Internal standard using a known el%elnl having the closest retention time. Quantltatlon should be approximate and will be used by DEM for planning 1: poses. The size of the GC/MS library being ulilizled must also be reported In the appropriate space, along w other required Information, at the top of this APA Form A. A. Purgeable (Volatile Organic) Fraction Pout) 2 of u of chemicals detected In Fraction 3 Number Fraction STORET Number 84085 STORET Compound Nurnber Detection Limit Target 'Concentration Detected GC/MS Confirmation? YoslNo 1. Pollutants to be analyzed for: (ug/1) (uglt) 34210 Acroleln • 100 <100 34215 Acrylonitrlle 100 < luo 34030 Benzene 5 <5.0 32101 Bromodlchloromethane 5 5.0 Yca 32104 Bromoform 5 <5.0 34413 Bromomethane 10 <10 32102 Carbon tetrachloride 5 <5.0 34301 Chlorobenzene 6 <5.0 3431T — Chloroethane 10 <10 _ 34576 2-Chloroethyl vinyl ether 10 <10 32106 Chloroform 5 9.1 Yes 34418 • Chloromethane 10 ,_ I n 32105 Dlbromochloromethane 5 .5.0 34496 1,1-Dichioroethane 5 <5.0 34531 1,2-Dlchloroethane 5 <5.0 34501 1,1-Dlchloroethylene 5 <5.0 34546 trans-1,2-Dlchlorotheylene 5 <5.0 34541 1,2-Dichloropropane 6 <5.0 34704 cis 1,3-Dlchloropropene 5 <5.0 34699 trans 1,3-Dlchloropropene 5 <5.0 < u 34371 Ethylbenzene 8 . 34423 Methylene chloride 5 <5.0 34516 1,1,2,2-Tetrachloroethane 7 <5.0 /4 ` 0, lyn ft* 34475 Tetrachioroethylene 5 8.9 ihrt.itiI% lv Yfs 34010 Toluene 6 <5.0 C. 34506 1,1,1-Trichloroethane 5 <5.0 34511 1,1,2-Trichloroethane 5 <5.0 39180 Trlchloroethylene 5 <5.0 34488 Trlchlorofluromethane 10 <10 39175 Vinyl chloride 10 <10 2. Other purgeables (up to 10 highest peaks): B. Acid Extractable Fraction Number of chemicals detected In Fraction Fraction STORET Number 45582 0 PaUo3of6 STOREY Compound• Number "• Detection Limit Target '• Concentration Detected GC/MS Conlirmatlui YeslNo 1. Pollutants to be analyzed for: (ugl1) (ugll) 34452 j 4-Chloro-3-methylphenol • 10 <10 34586 2-Chlorophenol 10 _ < 10 34601 _ 2,4-Dichlorophenol s 10 V <10 34606 2,4-Dimethylphenol . 10 < to 34616 • 2,4-Dlnitrophenol 50 <50 34657 2-Methy1-4,6-dinitrophenol 24 • <50 34591 2-Nltrophenol 10 <10 34646 4-Nltrophenol 50 <50 39032 Pentaclrlorophenol• 50 <50 34694 Phenol 10 <10 34621 2,4,6-Trlchlorophenol 10 <10 2. Other acld extractables (up to 10 highest peaks): • • • • C. Base/Neutral Fraction Number of chemicals detected in Fraction Fraction STORET Number 45583 1 STORET Compound Number Detection Limit Target Concentration Detected GC/MS Confirmation lr osIllo 1. Pollutants to be analyzed for: (ugll) (ugll) 34205 Acenapthene 10 - <10 34200 Acenaphthylene 10 <10 34220 Anthracene 10 <10 39120 Benzidine • • - 44 <2n 34526 _ Benzo (a) anthracene • 10 <10 34247 Benzo (a) pyrene 10 <10 34230 Benzo (b) fluoranthene 10 <10 34521 Benzo (ghl) perylene 10 <10 34242 Benzo (k) fluoranthene 10 <10 34278 _ F Bls(2-chloroethoxy) methane . 10 <10 C, Base/Neutral Fraction (Co, cued from page 3) Fraction STORET Number 45583 Pap 40!6 STORET Compound Number 0 Detection Limit Target Concentration Detectod GC/MS Confirmation YosltJo 1. Pollutants to be analyzed for: (ug/1) =r. (ug/1) 34273 BIs(2-chloroethyl) ether 10 <10 34283 Bis(2-chlorolsopropyl) ether 10 <10 39100 Bls(2-ethylhexyl) •hthalate 10 13 Afoilihr'tiaulYtrY i 34636 ' 4-Bromophenyl phenyl ether 10 34292 Butyl benzyl phthalate 10 <10 34581 2-Chloronaphthalene 10 <10 34641 4-Chlorophenyl phenyl ether 10 <10 34320 Chrysene 10 <10 34556 Dibenzo (a,h) anthracene 10 <10 34536 1,2-Dichlorobenzene 10 <10 34566 113-Dichlorobenzene 10 <10 34571 114-Dichlorobenzene 10 <10 - 34631 3,3-Dlchlorobenzldlne 20 <20 34336 Diethyl phthalate 10 <10 34341 ' Dimethyl phthalate 10 <10 39110 DI-n-butyl phthalate 10 <10 34611 2,4-DInItrotoluene 10 <10 34626 2,6-DInolrotoluene 10 <10 34596 DI-n-octyl phthalate 10 <10 34346 1,2-Dlpheny!hydrazine 10 <10 34376 Fluoranthene 10 <10 34381 Fluorene 10 <10 39700 Hexachlorobenzene 10 <10 34391 Hexachlorobutadiene 10 <10 34386 Hexachlorocyclopenladlene 10 <10 34396 Hexachloroethane 10 <1u 34403 Indeno(1,2,3-cd) pyrene 10 <10 34408 Isophorone 10 <10 34696 Naphthalene 10 <10 34447 Nitrobenzene 10 <10 34438 N-nitrodosimethylamine 10 <10 34428 N-nitroso-dl-n-propylarnlne 10 <10 34433 N-nitrosodlphenylamine 10 <10 34461 Phenanthrene . 1C <10 34469 Pyrene 10 <10 34551 1 112,4-TrIchlorobenzene 10 <10 2. Other base/neutrals (up to 10 highest peaks): t D. Organochlorlde Pesticides and PCB's • Number of chemicals detected In Fraction Fraction STORET Number 00188 • ° •r Patu 5 ui 6 STORET Compound Number Detection Limit Target Conc©ntratlon Detected GC/MS Coaill:niutlu,i YeslNo 1. Pollutants to be analyzed for; (ug/1) (ug/1) 39330 I Aldrin 0.05 <0.05 39337 alpha-BHC • 0.05 <0.05 39338 Beta-BHC 0.05 <0.05 34259 Delta-BHC 0.05 <0.05 39340 Gamma-BHC (Lindane) 0.05 <0.05 - 39350 Chlordane 0.5 <b • 5 39310 4,4'-DDD 0.1 <0.1 39320 4,4'-DDE • 0.1 <0.1 39300 4,4'-DDT 0.1 _ <0.1 39560 Demeton 0.1 <0.1 39380 Dieldrin 0.01 <0.1 34361 ' • Endosulfan I (alpha) • 0.05 <0.05 34356 Endosulfan I1 (beta) 0.1 <0.1 34351 Endosulfan sulfate • 0.1 <o .1 39390 Endrin 0.01 • <0.1 I 34366 Endrin aldehyde • 0.01 <0.1 39410 Heptachlor . • 0.05 <0.05 39420 • Heptachlor epoxide 0.05 <0.05 39480 Methoxychlor 0.5 <0.05 39755 M l rex 0.06 • <0.06 39540 Parathion (ethyl) 0.6 <0.1 39400 Toxaphene 1.0 < 1. o 34671 PCB 1016 0.5 <0.5 39488 PCB 1221 0.5 <U • 5 39492 PCB 1232 . . 0.5 <0.5 39496 PCB 1242 • 0.5 <0.5 39500 PCB 1248 • 0•5 <0.5 39504 PCB 1254 1.0 c i • u 39508 PCB 1260 1.0 < 1. o • 2. Other pesticides (up to 10 highest peaks): • • t. N-erblcides number of chemicals detectec Fraction 0 ' Fraction STORET Number 0014d Pauo6of 6 STORET Number Compound ; •. 1. Pollutants to be analyzed for: 39730 39045 2,4-D Sllvex Detection Limit Target (ug/1) 50 39740 2,4,5-T 2. Other herbicides (up to 10 highest peaks 50 5 Concentration Detected 4 (ug/1) <10 <10 <10 GC/MS Confirmation? Yes/No F. Metals and Other Chemicals Number of Metals and Other Chemicals (as listed below) detected In Sample 6 Fraction STORET Number 78240 STORET Number Compound 1. Pollutants to be analyzed for: 01104 Aluminum Detection Limit Target (ug/1) 50 Concentration Detected 01097 01002 01012 Antimony Arsenic Beryllium 01027 01034 01042 01051 71900 01067 Cadmium Chromium Copper Lead Mercury Nickel 01147 01077 01092 Selenium Silver Zinc 50 10 25 2 5 2 2, Other Inorganics: 10 0.2 10 5 (ug/1) 830 <50 <5.0 <5.0 5.40 5 10 <4.0 9.2 <10 <0.20 <10 5 <5.0 71.0 01007 v Barium 500 <40 00940 Chloride 1000 19,500 00720 Cyanldb• 20 <10 00951 Fluoride 100 5600 ii'rtr,4 y y y AnalyticaId tzor,,attory�/Representative: Signed. .�f "E. rit Facility Operator in Responsible Charge (ORC): Az 1-,-2%(/ Fn rS/.•-2 i-c, c.)e r-" / 2 be) fi(') Date: I certify that this repArt Is accurate and complete to the best of my knowledge. Signed• Date: /,2-/->•`(..