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Home My WebLink AboutNCS000122_HISTORICAL FILE_20200922STORMWATER DIVISION CODING SHEET NCS PERMITS PERMIT NO. N CS OOOl22 DOC TYPE ❑ FINAL PERMIT ❑ MONITORING REPORTS ❑ APPLICATION ❑ COMPLIANCE U OTHER +AlSTor-1 CA-u INFov-r ATi [)M DOC DATE ❑ 2(D Z009 22 YYYYMMDD March 15, 2013 Mr. Robert Patterson North Carolina Division of Water Quality 1617 Mail Service Center Raleigh, NC 27699-1617 RE: Outfall 001 Best Management Practices Implementation, General Timber Facility, Sanford, North' Carolina (NCS000122)D' FILE:49305 Dear Mr. Patterson: The purpose of this letter is to document the implementation of the Best Management Practice (BMP) associated with'the National Pollution. Discharge Elimination System (NPDES) permit (NCS000122) for the General Timber Facility in Sanford, North Carolina. The purpose of this BMP is to address elevated capper concentrations that have been detected in stormwater at one of the permitted outfalls (Outfall 001), The sections that follow provide an overview of the background, planning and design, and Implementation of this BMP. BACKGROUND The General Timber Facility pressure treats lumber with two types of preservatives, creosote and Chromated Copper Arsenate (CCA). After treatment, lumber is stored uncovered to complete the passive curing process prior to being hauled offsite for distribution. The drainage area contributing,stormwater to Outfall 001 consists of a portion of this treated lumber storage yard, a wooded area and farm field. The portion of the storage yard that drains to Outfall 001 is used exclusively for the storage of CCA treated lumber. Outfall 001 have exceeded the permit benchmark value for total Ai EVALUATION &'DESIGN General Timber's historical stormwater discharge monitoring reports indicate the pH at,Outfall 001 has ranged between 4.2 and 5:6 Standard Units (SU). Acidic stormwater is often accompanied by acidic soil. For many soil types, a soil can have,a greater capacity to adsorb cations, such as copper, at neutral pH, as opposed to an acidic pH. Additionally, the solubility of copper is greater in water at a lower pH -than at a neutral. l For these reasons, pH plays an important role,in the mobilization of copper. The pli rain local to General Timber and the buffering capacity of native soils were researched to evaluate if acid stormwater was naturally occurring or caused by General Timber's operations: .The 2007 Ambient Air Quality Report by the Department of Environment and Natural Resources reveals that the average pH of rainfall in counties local to the General Timber Facility range from 4.7 to 5.0 SU (consistent with the range of pH detected in stormwater. from Outfall 001). The United States Department of Agriculture (USDA) web soil survey for the area contributing stormwater to Outfa11001 reveals that shallow soils are devoid of calcium carbonate (buffering capacity). These findings, 2610 Wycliff Road, Suite 104, Raleigh, NC 27607 1 p 919-783-7777 1 f 919-783-0757 1 www.obg_com Engineering and Project Delivery Solutions Mr. Robert Patterson March 15, 2013 Page 2 O 2013 O'Brien g Gere. NI Rights Reserved. coupled with General Timber's measures to abide by their SWPPP; indicate that acidic stormwater is likely naturally occurring; Based on this evaluation, O'Brien & Gere developed a plan to perform agricultural soil analyses of topsoil from the lumber storage yard within the drainage area to Outfall 001. An agricultural soil analysis provides a lime dosing recommendation to increase soil pH. Soil samples were required for the analyses, therefore,'a sampling scheme was developed to identify potential variations in lime dosing, if any. Initially, the USDA web soil survey was reviewed to identify if there were documented differences in the soil in the area. this'review identified two types of topsoil in the lumber. storage yard within the drainage area to Outfall 001 (Figure 1). Because the two soil types are very similar, especially in te'r isof cation exchange capacity and lack of calcium carbonate, it was - _ - -- .....- __ - Instead, 0 Brien &Gere selected sampling locations based on the difference in use and appearance of the topsoil. If was suspected, based'on field observation,-tliat there was a difference in the organic content betweenthe roadways and swales resulting from disparities in vegetative cover. Therefore, O'Brien & Gere collected a composite sample of roadway soil, and a,separate composite sample of swale soil. Samples were collected from the top flinches of soil based on the understanding that this interval will have the strongest influence on stormwater pH and copper concentration. Further based on this understanding, it was deemed suitable to apply lime io the surface of the lumberyard, as opposed to disking it into the soil. Disking is used in agricultural.applications where an increase in soil pH is desired at depths greater than 4-inches. In addition to providing little benefit with regard to storm water, disking was also excluded because of the potential negative impact on erosion and sediment runoff from the area. The North Carolina Department of Agriculture and Consumer Services recommends that a composite sample from the top 4-inches consist of soil from 10 to 12 locations. Based on this recommendation, O'Brien and Gere selected 10 locations to generate a composite swale sample, and 11 locations to generate a,composite roadway sample (Figure 2). The composite samples were collected and sent to Waters Agricultural laboratories, Inc., Camilla, GA for analysis. Testing results revealed that Elie initial pH of both soil samples was 5.0 SU. For many soils, the ability to adsorb dissolved copper cations will increase from a pH of 5 to a ph of 7. For. this reason, the analytical laboratory; was requested to determine the dosage o€lime required to increase the pH of each soil samplelto 7.0 SU. Testing results recommended a lime application rate of 0.5 tons/acre for the roadways, and 1:5 tons/acre for the swales in order to achieve the:target soil -pH of 7 SU. IMPLEMENTATION On October 24, 2012 General timber applied agricultural lime as recommended by O'Brien & Gere (Figure 2). O'Brien & Gere observed the application process to document its completion. The prescribed masses of agricultural lime were:loaded into an open -box bed truck Within the open -box, augers fed lime to spreaders. The distribution of lime was controlled by driving the truck throughout the lumber storage area. Pelletized agricultural.lime was used in order to prevent transport by wind. Several `photographs were taken during the application to document the process (Attachment 2). An increase in soil pH is not expected to occur until one to two years after the initial lime application, with a consequent decrease in the concentratitin of copper. in stormwater After -the (nt to two year time frame, the pH of the soil is expected to gradually return to irs'natural acidic condition (around pH 5) if lime is not reapplied. General Timber will continue to collect storm water samples semiannually as required in'the facility's NPDES permit The data From this monitoring will be evaluated to assess the effectiveness of the BMP, and modifications will be recommended, as necessary. 2610 Wycliff Road, Suite Sb4, Raleigh, NC 27607 1 p 919-783-7777 1 f 919-783-0757 1 www.obg.com 360' Engineering and Project Delivery Solutions Mr. Robert Patterson March 13, 2013 0 7013 a8rien & fore- All Rights Rnelel. Page 3 { A copy of this letter and its supporting attachments will be kept at the General Timber Facility for inclusion in the SWPPP as required by the NPDES permit. Please contact m_ a if you have any questions or comments regarding this submittal. Sincerely, t' O'BRIEN & GERE ENGINEERS, INC Jason Lewandowski Engineer If Attachments: Figure 1- Soil Map Figure 2 - Soil Sample Locations & Lime Application Map Attachment 1—Soil Analysis Reports Attachment 2 - Lime Application Photographic Log Cc: Arc Williams, General Timber Greg Williams, General Timber I 2610 Wycliff Road, Suite 104, Raleigh, NC 27607 1 P 919-783 7777 1 f 919-783-0757 1 w w.obg.coln 360- Engineering and Prolea Delivery Solutions FIGURE 2 17v.' Composite sample locations for $wale soil sample Composite sample 03 locations for roadway soil sample. QSwale, area ( 4 tons of lime total) Roadway area ( 1 Mons of lime total) Approximate property boundary General Timber, Inc. STORMWATER SOIL .SAMPLE LOCATIONS .IME:APPLICATION MAP L0 1QORIENEGERE {\ Waters Agricultural Laboratories, Inc. A RS' ICE RAl P.O. Box 382 257 Newton Hwy Camilla. G 317M (( Im�vovin.�C�rotvt :.. (229)336-7216 FAX (229) 336-7967 WLa1�SCiLPiYLC.P/� SON AmolosIs s IY, FCh Grower: GERNERAL TEMBON Received: 07/20/2012 Farm ID: Processed: 07/24/2012 P.O. BOX 667 SamplE ID: t`SWL` Account #: 10358 RAEFORD; NC 28376 - - - - - - - — - -- _ - Lab Resultii - -- -- Target pH: 7 Lab NumbEr: 821781TC Ibz: per Aar Test Method: Mehlich III — P �e K Mg -- - Ca - +;; I _ Sell H? Buffer H 5 B) in = Min 1f ', Fe" Cu Ph ,hm Pptasalum- i Maenaeium [olrmn. P P r5ulM: Boron I, ihicc Me,pvxs y leirn_ _ Cmm, 7103 A ' 198 M ` 180' A 997 M r'6.0=� _ 7.40 —� --= - 27 M c --— tt 0.44 .L —•-�— 22:3 VH, w `47 M 393' H 17a.0 yH , Aluminum Sotllum NIVad N(, spivge Salta Oryalc Matter ENp �t 1.97 % 39:4i ,f fffl ty iifGO11111mdat1011s Crop: SOYBEANS lbw per Acm Yield: ume=, Ta m_ oy su iTns/. NhNp _ . n� ; N--c5--I g Mo�ealum --`S u Cppp<r 1.5 20 - 40 120 - * = Maintenance Recommendation Comments: .. . NITROGEN SHOULD BE EXCLUDED IF FERTILIZER APPLICATION IS MADE MORE THAN 4 WEEKS PRIOR TO PLANTING AS NITROGEN EFFICIENCY WILL BE DIMINISHED. (1 Waters Agricultural Laboratories, Inc. WAi RSW IC�L, RA4, :. L'A OR IES R P.O. Box 362 257 Newton Hwy Camilla, GA 31730 (229)336-7216 FAX (229)336-7967 "TnV &vto, 1 Yr�"�YQf1�"'�•" 'F.CI Grower: GERNERAL TEMBON Received: 07/20/2012 Farm -ID: Processed: 07/25/2012 P.O. BOX 667 Sa_mpIdID: RQW Account#: 10358 I RAEFORD, NC 28376• I - - _ _ lab Results r - --' - - = Target pH: 7 .. Lab Number: 821782TC 1h& Doti A[M , T..+ Mc+hm. Mehlirh 111 Mg Ca _ S; B Zn Mn , Fe Cu 'PhosPharya r Potassium ,i Mae nealwth� ,Celalum Soil H P Buff6r _ pR - r'.• 5ulhn• I, -, ,Btten!; 2b ,Manpawsil Iran, _ CODDer�._. 698 M 6,.A 7.6-0 84, Hill 020 L' 6-d ,A; 30 L 200',A ;28:9 VH ANmawm)v SDeilan; „ NltretaN 9oIPDle Salta 'OpaNP Matta 0.4, 0/co '8i Very High H4h Adequate M mun Low Crop SOYBEANS Soil Analysis Ratings frrNlity Rem. manclations lbs. Mr Acre Yield. Cation Eacharga Caeadty. 3.9 maon000 Base Saturation K: 2.3 % Mg; 10.9 % Ca: 45.3 % H; 41.5' % Na: % Bass Saturation 14 ®XMg Ume syr i ; N P205 1<20 ' Mg, Zn Mn Fe Cu T Aur itT na/M'a� Ntiapen PhoclMate, Potash mwtevu ILStifw Baiq'I a2ini' Manpanna Iron, _ COPPer� 0 5 ' 20.�_ 70 250 10 ;5 1.0 ` 1.0 =5 - -- h— f_ _ COmmEntS: • Maintenance RECOrvnendatlo6 NITROGEN SHOULD BE EXCLUDED IF FERTILIZER APPLICATION IS MADE MORE THAN 4 WEEKS PRIOR TO PLANTING AS NITROGEN EFFICIENCY WILL BE DIMINISHED. If bolomite Lime has been applied recently - Magnesium recommendation can be cut in half. ti 9 General Timber PHOTO NO. i DATE: 10/24/12 DESCRIPTION Roadway application along northern 'side of lumber yard. S1TE LOCATION: General Timber, Sanford, NC PHOTOGRAPHIC LOG 49305 CLIENT NAME: General Timber SITE LOCATION: General Timber, Sanford, NC PROIECT NCIJ 49305 PHOTO 140. DATE: w. . trj {"r' H•,�.jj� y° a .rr 1 DESCRIPTION VIM— pl- of pelletized o- ;-Close-up S'r�} v lye r I March13. ber. 0 ®BRIENISIDERE I:\General-Timber15082\49305.AnnuabServices\Dots\Reports\lime Documentation ocumeation Memo Fall 2012Wttachment 4_phota log.d I ' -.. a'' W a e F Patterson, Robert From: Rachel Burris [Rachel.Burris@obg.com] Sent: Wednesday, February 20, 2013 1:37 PM To: Patterson, Robert Subject: RE: NCS000122 renewal Thank you for checking on the status of the renewal documentation. We'll let the permittee know to watch for the renewal forms in the mail in the coming weeks. G O'ORIEN G GERE Raehel Burris, PE PROJECT ENGINEER O'BRIEN & GERE 2610 Wycliff Road, Suite 104 Raleigh, NC 27607 p 919-783-7777 l f 919-783-0757 direct Extension 32 rachel.burris@obg.com www.obg.com From: Patterson, Robert [mailto:robert.oatterson( ncdenr.gov] Sent: Wednesday, February 20, 2013 1:24 PM To: Rachel Burris Subject: NCS000122 renewal Rachel, I checked, and we have not yet mailed out the renewal info for that one. We usually process them in batches approximately 6 months before they expire; so this one should be in the next batch. We are currently behind on getting these mailed out though. It will be mailed directly to the permittee we have on file (Clement Williams, 625 Farmville Mine Rd., Sanford, INC 27330). The typical items that will need to be submitted for the renewal include: a signed application (form provided by DWQ), updated site map, analytical monitoring results summary, visual monitoring results summary, Best Management Practices summary, narrative describing significant changes at the permitted facility since previous renewal, signed Stormwater Pollution Prevention Plan certification (form provided by DWQ), and summary of response to monitoring results. The 2 forms listed above are personalized for each permit, so I don't have a "generic" form that I can send until we do the batch process. You can look at the renewal supplemental sheet on our website: http://Portal.ncdenr.org/c/document library/get file?uuid=4da619el-a7f3-45eb-a3el-dba9385147a3&groupld=38364 Please let me know if you have any other questions. Thanks. Robert D. Patterson, PE Environmental Engineer NCDENR I DWQ I Stormwater Permitting 1617 Mail Service Center, Raleigh, NC 27699-1617 Mail 1 512 N. Salisbury St, 9� Floor, Raleigh, NC 27604 I.ocation & Parcels (919) 807-6375 Phone 1 (919) 807-6494 Fax I Robert. Pattersoripnedenr.eov Email I http://T)ortal.ncdenr.org/web/wn/ws/su Websile sA Before printing this email, please consider your budget and the environment. E-mail correspondence to and from this address may be subject to the North Carolina Public Records Law and may be disclosed to third parties unless the content is exempt by statute or other regulation. This email, including any attachment(s) to it, is confidential and intended solely for the use of the individual or entity to which it is addressed. If you have received this email in error, please notify the sender. Note that any views or opinions presented in this email are solely those of the author and do not represent those of O'Brien & Gere. O'Brien & Gere does not accept liability for any damage caused by any virus transmitted by this email. The recipient should check this email and any attachments for the presence of viruses. ®-iVF, NC® NR North Carolina Department of Environment and Natural Resources Division of Water Quality Beverly Eaves Perdue Charles Wakild, P.E. Governor Director V II GIi WI May 10, 2012 Mr. Michael S. Hall, PG O'Brien & Gere Engineers, Inc. 2610 Wycliff Rd., Ste.104 Raleigh, NC 27607 Subject: BMP Plan Approval Permit No. NCS000122 General Timber, Inc. Chatham County Dear Mr. Hall: Dee Freeman Seth etary The Division of Water Quality is in receipt of your April 17, 2012 letter and proposed BMP plan for reducing Copper in the stormwater runoff at the subject facility. Please take this letter as Division's approval for General Timber to move forward with the proposed plan. If you have any questions or comments concerning this permit, contact me at (919) 807-6375 or at robert.patterson@ncdenr.gov. Sincerely, Robert D. Patterson, PE Stormwater Permitting Unit cc: Art Williams - General Timber Raleigh Regional Office, Water Quality Section Stormwater Permitting Unit) Central Files Wetlands and Stonwater Branch 1617 Mail Service Center, Raleigh, North Carolina 27699-1617 Location: 512 N. Salisbury St. Raleigh, North Carolina 27604 Phone: 919-807-63001 FAX 919-807-6494 Internet: www.ncwaterquality.org Olio. NorthCarolina ,lVaturallry 0 3` 0-13RIEN 6 GERE @@Ro April 17, 2012 APR ? 0 2012 Mr. Robert Patterson North Carolina Division of Water Quality WDENR .WATER nde6QUA 1617 Mail Service Center Raleigh, NC 27699-1617 an RE: Evaluation of Outfall 001 Best Management Practices, General Timber Facility, Sanford, North Carolina (NCS000122) FILE: 47584 Dear Mr. Patterson: The purpose of this letter is to provide an overview of the proposed Best Management Practice (BMP) to be applied at the General Timber Facility in Sanford, North Carolina. The BMP is required by General Timber's National Pollution Discharge Elimination System (NPDES) permit (NCS000122). Concentrations of total recoverable copper detected in the stormwater samples collected from the discharge from Outfall 001 have consistently exceeded the benchmark value assigned in Table 3 of the NPDES permit. The objective of the BMP is to bring discharges from Outfall 001 into compliance with benchmark values assigned to total recoverable copper. O'Brien & Gere performed an inspection of the existing BMPs on October 26, 2010. On August 4, 2011 O'Brien & Gere submitted an Evaluation of Outfall 001 Best Management Practices letter recommending that the concentration of dissolved copper and the concentration of suspended copper be determined at Outfall 001 in order to design an effective BMP. This characterization was performed in September of 2011, and the results have been used to develop a conceptual approach to the design and implementation of an improved BMP. The sections that follow describe the conditions observed at Outfall 001 during our inspection, and a description of a potential approach for the redesign of this BMP. STORMWATER MANAGEMENT INSPECTION SUMMARY Outfall 001 is located on the southeastern corner of the General Timber Property (Figure 1). The BMP installed in Outfall 001 consists of a v-notch plate steel weir across the primary drainage Swale preceded by a single span of hay bales supported by vertical reinforcing steel bars (Attachment 1). At the time of the inspection, half of the hay bales were missing, presumably washed out by stormwater flow. Similar conditions were also observed on August 24, 2010 during stormwater sampling. These conditions were reported to General Timber, and the BMP was subsequently repaired in September 2010. The Swale in which the BMP is installed is wide, shallow, straight and weedy, with pines on the southern bank. The total drainage area contributing to Outfall 001 covers approximately 7.6 acres. Approximately 41% of the total drainage area for Outfall 001 comes from a treated lumber storage area located to the west of Outfall 001 (Figure 1). The remainder of the drainage comes from the forested area, and farm fields to the southeast. The storage yard is used predominantly for the storage of Chromated Copper Arsenate (CCA) treated lumber, although there are a few isolated areas of creosote treated lumber. The storage yard is unpaved, and between each storage row is a 1-ft to 2-ft deep Swale which quickly channelizes runoff in the yard, leaving little opportunity for sheet flow to establish. This channelized flow is carried to clay pipes under the access road which subsequently enters two swales that converge and discharge through Outfall 001. POTENTIAL SOURCES OF TOTAL RECOVERABLE COPPER It is suspected that the total recoverable copper detected at Outfall 001 may be derived from naturally occurring copper in native soil within the drainage area, or from copper used in General timber's manufacturing process, or a combination thereof. Historical soil sampling results indicate that copper is present in background soil, free from potential influences of General Timber's manufacturing processes (Table 1). Rain events have the potential 2610 Wycliff Road, Suite 104, Raleigh, NC 27607 1 p 919-783-7777 1 f 919-783-0757 1 www,obg.com 360° Engineering and Project Delivery Solutions Mr. Robert Patterson April 17, 2012 © 2012 O'Brien & Gere. All Rights Reserved. Page 2 to transport this naturally occurring copper from the soil, to surface water at the outfall. In addition, it is well documented that CCA treated lumber often releases copper to adjacent soil. Historical soil sampling results �I indicate that copper concentrations in soil within the CCA treated lumber storage are not significantly greater F than those measured in the background soil (Table 1). This analysis indicates that if copper was transferred A from CCA treated lumber to the environment, it has not accumulated in the neighboring soil. It is possible that if copper is released from CCA lumber piles, it is continuously Flushed out of the soil during rain events, and carried away by stormwater. J COPPER MOBILIZATION II- It is suspected that acidic rain enables the transport of copper from the drainage area to Ou fall 001. The pH of rainfall in Central North Carolina is typically between 4 and 5 Standard Units (SU). The Chatham County Sow L r Survey (United States Department of Agriculture, 2006) indicates that soil in the drainage area contri uttng to Outfall 001 is void of calcium carbonate. As a consequence, the native soil has limited ability to buffer the acid N C 0 rain. This is evident in historical stormwater discharge monitoring reports for general Timber that show how 43 I the pH at Outfall 001 has remained between 4.2 and 5.6 SU. Byproducts of decomposing vegetation in the forest oand arm fields that discharge through this outfall may also contribute to the acidity of stormwater. The low pH rain has the ability to release copper ions adsorbed to the surface of soil particles and dissolve solid complexes O? of copper. Once dissolved, copper ions are free to be carried by stormwater flow to Outfall 001. J RECOMMENDED PLAN FOR STORMWATER BMP DESIGN AND INSTALLATION v In September 2011, General Timber analyzed stormwater samples from Outfall 001 for both total recoverable, and dissolved copper. Results for these analyses indicated a dissolved copper concentration of 0.0229 mg/L and i- �_ a total recoverable copper concentration of 0.0301 mg/L. The difference between the total copper and dissolved copper concentrations represents a suspended copper concentration of 0.0072 mg/L. General Timber's NPDES a permit benchmark value for total recoverable copper is 0.007 mg/L. As required in the permit, General Timber must implement BMPs to bring the total recoverable copper concentration below the benchmark range. Effective BMPs, therefore, must address both dissolved and suspended copper at Outfall 001. Based on these conditions, our recommended BMP is to apply agricultural lime to the treated lumber storage area within the drainage area to Outfall 001. This BMP is intended to increase the stormwater pH and reduce the total recoverable copper concentration at Outfall 001. An increase in the stormwater pH can enhance the adsorption of dissolved copper to the native soil, and reduce the total copper concentration reaching Outfall 001. Additionally, an increase in the stormwater pH will promote the precipitation of dissolved copper. Precipitated copper is susceptible to settling out of the stormwater Flow, potentially producing further reductions in the total copper reaching Outfall 001. O'Brien and Gere recommends the following steps for implementing agricultural lime treatment: 1) Perform a survey to identify the type and location of soil types present in the treated lumber storage area in the drainage area contributing to Outfall 001. 2) Submit soil samples to the North Carolina Department of Agriculture (NCDA) to determine the quantity and frequency of agricultural lime application required to maintain a minimum soil pH of 7.0. One soil sample should be submitted for each soil type identified during the survey 3) Apply agricultural lime as recommend by NCDA. Lime application rates will be tailored to the specific soil types. 4) Continue regular semiannual stormwater monitoring for a period of two years following the implementation of the BMP, as specified in the NPDES Permit. Evaluate the total recoverable copper results for the semiannual sampling from Outfall 001 to determine if the benchmark value specified in the NPDES Permit (0.007 mg/L) has been achieved. ,gwlt -S lv4ihl f}�MP�u✓� -ro ?L 4V rftvAl g�S/It �ivrr►si2 2610 Wycliff Road, Suite 104, Raleigh, NC 27607 1 p 919-783-7777 1 f 919-783-0757 1 www.obg.com 360' Engineering and Project Delivery Solutions Mr. Robert Patterson April 17, 2012 ® 2012 O'Brien & Gere. All Rights Reserved, Page 3 5) During this period, General Timber will maintain the existing BMP, to assist with reduction of suspended copper. Based on the evaluation of the data obtained over two years, General Timber will assess the effectiveness of the proposed BMP, and as necessary, recommend modifications. Please contact me if you have any questions or comments regarding this proposal. Sincerely, O'BRIEN & GERE ENGINEERS, INC. A" //Y Michael S. Hall, PG Managing Scientist Attachments: Attachment 1 - Existing Outfall 001 BMP Figure 1 - Outfall 001 BMP and Drainage Area Inspection and Evaluation Table 1—Summary of Historical Soil Analytical Results Cc: Art Williams, General Timber Greg Williams, General Timber 2610 Wycliff Road, Suite 104, Raleigh, NC 27607 1 P 919-783-7777 1 f 919-783-0757 1 www.obg.com 360` Engineering and Project Delivery Solutions r4 rix W-Z Z I RL r •'u U 1 • �'tl � Via. �'} 4 . R JF- D STING TREATED LUMBER STORAGE AREA +SFn et5 '�3."� I� It YlA i%.,,'�J i�t' ,��..• �' 1511NC TREATED,f• It/ IXISDNG SfORW PIPE, ER STORAGE AREA#i{5f ET �r }yf�n �.��l y'y]a�(�''��' v J a ;"I -,1+ GI""'f•# Iv r '� �� ITi OVTFALL 001 '' iQ i�•j'_ .e `� ^ "'.:.. If 41,� �40 Q' ( ORNNACpE MFA BOVNOARI f;��.�� Pry _..•�I- �'- h.�,rk �.. -. -...., IA 11 • l 1 ,. f 1 1,,� Y .i i - i I, —._....i_.isltl..��A.�i1' ,• I n N, �.�\1C..6 I `W�+ Figure 1 100 0 , GENERAL TIMBER, INC. 625 FARMVILLE COAL MINE R SANFORD, NC 27330 OUTFACE 001 BMP AND DRAINAGE AREA INSPECTION AND EVAWAnON FILE NO. 15082.I6850.200 .HN , 2011 . ® GBABWti6 - ENGINEERS INC. Table 1 Historic Soil Samples - 2005 General Timber Sanford, North Carolina Constituent EPA RSLtion Industrial Soil;Groundwater mg/kg amg/kg ple Background Soil Samples BG-1 BG-1 BG-2 BG-2 BG-3 BG-3 e Depth 2" 3.5" 2"3.5" 2" 3.5" Arsenic 1.6 /kg 3.03- '3.79t'i 6:51'-; 2.08t-' "'4.13' "7.16 Chromium 1500000 /kg 22.4 22.4 32 9.45Copper 41000 /kg 8.19 9.45 11.8 4.00 26.5 19.40 I ql QrL LA`f IO'V 70 (71--'. 7 Constituent EPA RSL Industrial Soil mg/kg NC Soil to Groundwater mg/kg Sample Location Stacking Yard (SWMU 27) Samples SA-1-1 SA-1-2 SA-1-3 SA-1-4 HS-1 Hit Sample Depth 0"-4" 4.4- 0"1" 4"-8" 0"-0" 4"-8" 0"-0" 4"-8" 0"-0" 4"-8" 8"-12" 0"-4" Arsenic 1.6 5.8 mg/kg .99.9 . ', ,5.76:,,t -5.43t 2.05!:r '726i30 n'. 1.31 "12:10°. NA "��14:00.1 1.56 3:59t'-" m 22i10'" BqL BQL Chromium 1500000 360000 mg/kg 89.5 9.26 45.10 8.96 32.00 9.82 18.30 NA 12.50 11.20 24.40 18.60 5.68 8.23 Copper 41000 700 mg/kg 53.2 6.76 6.26 2.16 I6.00 2.92 9.87 NA 12.40 3.80 9.94 13.70 3.56 3.Ifi BQL - Below quantitation limit NA- Not analyzed Constituent in excess of the NC Soil to Groundwater Value and the EPA RSL Industrial Soil Value ' Constituent is in excess of the EPA RSL Industrial Soil value but below the NC Soil to Groundwater Value I:\Genenl-nmber.15012%47584 cenerwYlmber\o«s\aeynASW 0utbll teller\TWet-Niaoriul Soil Barn en4-s2012A, TO: Mr. Robert Patterson North Carolina Divison of Water Quality 1617 Mail Service Center Raleigh, NC 27699-1617 WE ARE SENDING YOU: X herewith under separate cover drawings If material received is not as listed, please notify us at once. DATE: August 5, 2011 FILE: 47584 RE: General Timber Site - Best Management Practices descriptive literature letters 1 Letter Evaluation of Best Management Practices Y *Action letter code: R-reviewed N-reviewed and noted S-resubmit J-rejected REMARKS: Mr. Patterson Following your review of this letter, we would like to have a discussion with you regarding the BMP at the General Timber Site. Please feel free to contact me at 919-783-7777 with any questions. CC: Art Williams, General Timber Greg Williams, General Timber Chad Simmons, O'Brien & Gere, Inc. CONFIDENTIALITY / foryour information Y foryour approval Sincerely, Michael S. Hall, PG Managing Scientist This material is intended only for the use of the individual or entity to which it is addressed, and may contain confidential information belonging to the sender. Ifyou are not the intended recipient, you are hereby notified that any disclosure, copying, distribution, or the taking of any action in reliance on the contents of this information is strictly prohibited. Ifyou have received this material in error lease immediately notify us by telephone to arrange for the return of these docume ,_, f.2 nMra n 2610 Wycliff Road, Suite 104, Raleigh, NC 27607 i p 919-783-7777 i f 919-783.0757 i 6&jg' ro 360' Engineering and Project Delivery Solutions 1 © O'DRIEN 6 GERE 4/. $Q'ccr r l lrct (� ' /IlT itl6✓D TµgT Th,S wo""> 3L I Go,jj ST9,eT , TWBY l✓rr.L BQ PKac�,ra�. AS `P'W -fqi S PLAN r AA-D IVI LL Sz vD 'bwa kpj> +T-,r5 45 fA-Vv41 L o g L.oe, 171 b RS/1>5 '7rLST rat% /�� Pa�.tN� 16'O �n/L(t-aai4'S2� ,a4-r ScN/c�r�T K s i / ® O'BRICN E GCRC August 4,2011 Mr. Robert Patterson North Carolina Division of Water Quality 1617 Mail Service Center Raleigh, NC 27699-1617 RE: Evaluation of Outfall 001 Best Management Practices FILE: 46850 Dear Mr. Patterson: Testing of storm water samples taken from Outfall 001 on August 24, 2010 indicated levels of recoverable copper exceeding that required in Table 3 of General Timber's North Carolina National Pollution Discharge Elimination System NPDES permit (NCS000122). Analytical results for historical sampling from this outfall have had similar exceedances. Based on this, the NPDES permit has a specific requirement for General Timber to evaluate the best management practices (BMPs) associated with this outfall, and design and implement an improved BMP that will reduce the concentration of copper in the discharge from Outfall 001. O'Brien & Gere performed an inspection of the existing BMPs on October 26, 2010, and has developed several conceptual approaches to the design and implementation of an improved BMP. The sections that follow describe the conditions observed at Outfall 001 during our inspection, and a description of potential approaches to the redesign on this BMP. CONDITION OF EXISTING OUTFALL 001 BMP Outfall 001 is located on the Southeastern corner of the General Timber Property (Figure 1) The BMP installed in Outfall 001 consists of a v-notch plate steel weir across the primary drainage Swale preceded by a single span of hay bales supported by vertical reinforcing steel bars (Attachment 1). At the time of the inspection, half of the hay bales were missing, presumably washed out by stormwater Flow. Similar conditions were also observed on August 20, 2010 during stormwater sampling. These conditions were reported to General Timber, and the BMP was subsequently repaired in September 2010. The swale in which the BMP is installed is wide, shallow, straight and weedy, with pines on the southern bank. The total drainage area contributing to Outfall 001 covers approximately 7.6 acres. Approximately 41% of the total drainage area for Outfall 001 comes from a treated lumber storage area located to the west of Outfall 001 (Figure 1). The remainder of the drainage comes from the forested area, and farm fields to the southeast. The storage yard is used predominantly for the storage of chrome, copper, arsenate (CCA) treated lumber, although there are a few isolated areas of creosote treated lumber. The storage yard is unpaved, and between each storage row is a 1-11 to 2-ft deep swale which quickly channelizes runoff in the yard, leaving little opportunity for sheet flow to establish. This channelized Flow is carried to clay pipes under the access road which subsequently enters two swales that ultimately converge and discharge through Outfall 001. POTENTIAL SOURCES OF ELEVATED LEVELS OF TOTAL RECOVERABLE COPPER It is suspected that the elevated copper detected at Outfall 001 may be derived from the runoff from the CCA lumber storage area. If so, the copper is likely adsorbed to sediment, but may also be present in dissolved phase. In 2010, O'Brien & Gere collected sediment and surface water samples downstream of Outfall 001. This investigation was performed to support the evaluation of the Resource Conservation and Recovery Act (RCRA) Environmental Indicators for the facility, and did not identify any impact to surface water and sediment as a result of stormwater discharges from Outfall 001. No semivolatile organic constituents were detected in surface water or sediment, nor were any metals detected in surface water. Arsenic, chrome and copper were detected in the sediment, but at concentrations consistent with naturally -occurring levels. The results of this investigation are described in detail in the Stream Surface Water and Sediment Monitoring Report, General Timber, Inc., Sanford, North Carolina Facility (O'Brien & Gere, February 2011). 2610 Wycliff Road, Suite 104, Raleigh, NC 27607 1 p 919-783-7777 1 f 919-783-0757 1 www.obg.com 360° Engineering and Project Delivery Solutions Mr. Robert Patterson August 4, 2011 0 2011 O'Brien & Gere. All Rights Reserved. Page 2 RECOMMENDED PLAN FOR STORMWATER BMP DESIGN AND INSTALLATION Based on our current understanding of conditions, we anticipate that the elevated copper concentrations in the stormwater are the result of suspended sediment; however, we currently have no data to confirm this. This information is critical to the design of an effective BMP; therefore, we recommend additional characterization of the stormwater prior to design. Specifically, we recommend collection and analysis of an additional surface water sample as part of the regular semiannual monitoring at Outfall 001This sample will be filtered prior to laboratory analysis for copper, and will therefore provide an indication if the elevated copper is the result of suspended or dissolved -phase copper. If, as anticipated, the elevated copper is the result of suspended sediment, our recommended BMP is polymer enhanced fiber filtration tubes; however, this may be changed based on the results of the additional characterization of stormwater. If confirmed, O'Brien & Gere will design and install the filtration tubes, as follow: 1) Perform an elevation survey of the existing channel feeding Outfall 001. Accurate survey data is necessary to design the filtration tube BMP. 2) Design the polymer enhanced filtration tube installation, and order materials. 3) Place Polymer Enhanced Filtration Tubes at intervals in existing channel such that the bottom of the upstream tube is at the same elevation as the top of the downstream tube. This arrangement creates a pool behind each tube which allows sediment to settle out in front of each tube. It is estimated that at least two filtration tubes will be required for the existing channel. 4) Treat each tube with a polymer additive, like poly-acrylimide (PAM), to improve the ability of the filtration tubes to settle out suspended sediment. Dry polymer will need to be periodically applied to maintain sediment removal performance. 5) Remove sediment from the drainage channel behind the tubes following installation, and on a regular interval thereafter as part of regular maintenance. Sediment removed from the drainage channel will be placed in the storage yard area within the drainage area of Outfall 001, at the most remote point from the outlet of Outfall 001. Following the installation of the filtration tubes, regular semiannual monitoring will be performed, as required by the NPDES permit. Results of this monitoring will be evaluated to determine the effectiveness of the BMP. Sincerely, O'BRIEN & GERE ENGINEERS, INC. Michael S. Hall, PG Managing Scientist Attachments: Figure 1 - Outfall 001 BMP and Drainage Area Inspection and Evaluation Attachment 1 - Outfall 001 BMP Cc: Art Williams, General Timber Greg Williams, General Timber Chad Simmons, O'Brien & Gere Engineers, Inc. 2610 Wycliff Road, Suite 104, Raleigh, NC 27607 1 p 919-783-7777 1 f 919-783-0757 1 www.obg.com 360° Engineering and Project Delivery Solutions '3NI SN33NION3 3 9 13 10 i <<oz 'mvnNvr OOi•OS994'Z9091 'ON 31U NouVnwA3 aNV NOU33dSNI V3SV 3JVNM21a aNV d"S too lwAno o££LZ ON 'aaO-MdS 8 3NIYV "MOO 3-n AW2M-4 SZ9 *ONI '838YVIl -M3N30 OOt- t t 0 OOt 6 ainf i.1 t t r w: k MVaNn09 V38V 30VNN210 Wo Kil � e . ir 'rt � y s > ffilI j } IL �w H L O Cd n Zy� m 0 n m no Patterson, Robert From: Patterson, Robert Sent: Friday, April 30, 2010 1:35 PM To: 'F Cook' Cc: Pickle, Ken Subject: NCS000122 - General Timber Freeman, We received the information you submitted about using limestone to remove copper on April 26, 2010. The results of the test look like it could help with the Cu issues at the facility. I do have concerns about the TSS being increased in some of the tests. Please keep the TSS benchmark in mind when finalizing the design. This information submitted is a good start, but are really looking for a fully developed proposal for us to review and approve. It should include items such as a design narrative, engineering plans, details, and a schedule for completion. Please also refer to the information in Part II, Section A.2.d. of the permit. Do you have an estimated date that this proposal will be provided? Let me know if you have any questions. Thanks. Robert D. Patterson. PE Environmental Engineer NCDENR I DWQ I Stormwater Permitting 1617 Mail Service Center, Raleigh, NC 27699-1617 (flail) 512 N. Salisbury St, Raleigh, NC 27604 1 9th Floor (Location R Parcels) (919) 807-6375 Phone 1 (919) 807-6494 Fax Ismail: robert.patterson(a),ncderingov Websiie: http://portal.ncdenr.org/web/wq/ws/s ABefore printing this email, please consider your budget and the environment. If you must print, please print only what you need and save ink with the free Eco-Font. E-mail correspondence to and from this address may be subject to the North Carolina Public Records Law and may be disclosed to third Parties. y p Stor tirwater Discharge Vutfali (SDU—) Qualitative Monitoring Report Permit No.: or Certificate of Coverage No.: NCG030124 Facility Name: Kobe W land Copper Products, LLC County: Stokes Phone No. 336A27-6 11 Inspector: Marc Nault ( L) Date of inspection: 10 4201 By this signature, I certify that this r is accurate and complete to the best of my (Signature of Pennitee or DAignee) 1. Outfall Description Outfall No. Extra Str$pi,ch, etc.Manhole Receiving Stream: U.T. To Dan Riv Describe the industrial activities that occur within the outfall nage area: Manufacturing of Copper Tubing, Maintenance Garages and Construction. 2. Color Describe the color of the discharge using basic co rs (red, brown, blue, $dint (light, medium, dark) as descriptors: Clear 3. Odor Describe any distinct odors that the may have (i.e., smells strongly of oil, weak chlolyne odor, etc.) Musty 4. Clarity \ Choose the number whic t describes the clarity of the discharge where I is clear and 10 is very cloudy: 2 3 4 5 6 7 8 Page I SWU242-020705 60 81 330 MAI 1VViNa3 :,a 10 General Timber, Inc. r,ovrniv s-ro rzAG.to Pressure Treated Wood Products tire 625 Farmville Mine Road • Sanford, NC 27330 Phone: (919) 774-6213 Fax: (919) 776-8015 Email: sales@generaltimber.net Website: www.generaltimber.net Mr. Robert Patterson, P.E. 20 April 2010 NCDENR {� Division of Water Quality 1617 Mail Service Center V 15 Raleigh, NC 27699-1617 APR 262010 Re: Stormwater Treatability Data General Timber, Inc., Sanford, Chatham County, NC DENR - WATER QUALITY NCS 000122 wounds & stommater Branch Dear Mr. Patterson: This report presents data and information relative to a bench -scale laboratory evaluation of the effectiveness of limestone for buffering and removal of copper from stormwater at the General Timber facility located in Sanford, NC. Introduction On February 22, 2010 stormwater samples were collected from two discrete locations along a ditch that receives stormwater run-off directly from active on -site CCA storage areas. The sample locations labeled "Ditch 1" and "Ditch 2" are shown on the drawing provided in Attachment A. These two locations are approximately 1100 feet and 825 feet upstream of primary outfall SDO-001. Samples were collected approximately one hour after the onset of the storm and are considered representative of the first flush from the CCA storage areas. During this storm event no stormwater was discharged through the outfall and no outfall sampling was performed. Procedures During each static test, pieces of washed No. 2 limestone gravel were placed in either of two (2) 1000 ml beakers and stormwater was then poured into the beakers to cover the limestone. Approximately 250 mis of stormwater was added to each beaker. Prior to adding the stormwater, the field samples were thoroughly mixed to re -suspend any settled solids and the initial pH of the stormwater was recorded. Samples of the raw stormwater from each of the ditch locations were also transferred into appropriate containers for analytical determinations of total suspended solids (TSS), total copper (Cu), and dissolved copper. These parameters of interest were analyzed after each of the static tests. Static tests were conducted for durations of 1 hour and 12 hours in order to determine if longer contact time significantly affected the degree of buffering of the stormwater or the removal of total or dissolved Cu. A second series of static tests was conducted using unwashed gravel to evaluate the effect of the addition of limestone fines (dust). Page I Data and Discussion The raw and static test results are summarized in Table 1 in Attachment B to this report. The Ditch I and 2 raw stormwater samples (with tabular reference D1 and 132) had an initial pH of 6.1 and total Cu concentrations of 1.3 mg/L and 1.1 mg/L, respectively. Dissolved Cu levels were 0.22 and 0.23 mg/L in the raw D1 and D2 stormwater samples; dissolved Cu constituted 16.9% and 20.9% of the total copper present in the raw D1 and D2 samples. This data suggests that a considerable fraction of the total Cu in the run-off from the CCA storage areas may be associated with soil particles or treated wood residues that are displaced during storm events. TSS values for the D1 and D2 samples were 309 and 512 mg/L, respectively. As shown by the Table 1 data, after I hour contact time, the solution pH increased to 6.9 and 7.1 in the D1 and D2 1-hour samples. Total Cu was reduced to 0.71 and 0.84 mg/L in these samples. Some of the total Cu reduction in the D2 ]-hour sample may be attributable to the 50% decrease in TSS, however, TSS concentration in the D1 ]-hour sample actually increased due to re - suspension of settled and colloidal solids during the transfer of the sample aliquot. The turbidity of this sample was observed to increase during the liquid transfer. At 12 hours, the pH of washed limestone static test solutions were recorded at 7.8 and 7.9 for the DI and D2 samples, respectively. Total Cu was better removed at 12 hours than during the I hour static test with 0.52 and 0.60 mg/L remaining in the DI and D2 samples, respectively. However, the data indicates only a marginal improvement in the removal of dissolved Cu at the longer contact time. In the DI 12-hour sample the TSS concentration was approximately the same as determined for the raw and D1 samples, but suspended solids were significantly lower in the D2 12-hour sample (189 mg/L) as a result of the longer period of quiescent settling. Table I also presents the results of the unwashed limestone static tests. With the addition of the limestone fines a more dramatic increase in solution pH occurred during both the I -hour and the 12-hour tests. Total Cu concentrations at 1-hour (0.78 and 0.62 mg/L) were similar to those determined for the washed gravel static tests. In both of the 1-hour static tests, dissolved Cu was removed to below detection limits (<0.04 mg/L). This was true for the D1 unwashed sample as well. The Table ] TSS data demonstrates that the addition of limestone fines contributes significantly to the concentration of suspended solids present in aqueous solution at the end of the trial. The TSS concentrations at 1-hour were 4950 and 1850 mg/L, respectively, for the DI and D2 samples. The solids were observed to be very poor settling which is characteristic of time solids in general. A greater removal of total Cu and TSS was achieved in the 12-hour unwashed gravel trials. Table 2 presents the total and dissolved Cu removal percentage calculated for each of the static test samples. In general, the removal percentage of total Cu increased with a longer contact time during the washed limestone static tests. As shown on the chart provided in Attachment C, copper has a minimum solubility point above a pH of approximately 8.2 in aqueous solution The solution pH approached this value in the washed limestone 12- hour tests which resulted in a greater degree of dissolved Cu removal. Addition of limestone dust, increased the pH to 8.2 in the 1-hour test and to 9.5 in the 12-hour test; the increased pH and presence of lime solids are assumed to have provided more active adsorption sites for the removal of dissolved Cu. Page 2 Conclusions Based on the data generated from the bench -scale static tests, the addition of limestone to ditches in the CCA storage areas would provide some degree of buffering and, with adequate contact time, removal of up to 45% of total Cu and up to 60% of dissolved Cu from stormwater generated from these areas. Mechanisms for removal of total and dissolved Cu during the static tests include precipitation (e.g. as a metal hydroxide or carbonate), adsorption on the reactive surface of the limestone, and absorption into the limestone. A literature article discussing these removal mechanisms in greater detail is provided in Attachment C. An excerpt of another article on the fate of CCA in sandy soil is also found in Attachment C; Table V of this excerpt presents principal precipitation reactions of Cu in soils. Removal of total Cu associated with suspended particulates or soil particles under quiescent settling conditions within the bioretention cell or via filtration (e.g. in vegetated filter strips) would also be beneficial. Gravity settling, filtration in native vegetation, and dilution account for total Cu concentrations of 0.0545 mg/L and 0.0178 mg/L reported for the past two SDO-001 outfall monitoring events. With the placement of adequate limestone in the ditches around and immediately downstream of the CCA storage areas, the stormwater would be better buffered which could aid the propagation of tolerant vegetation in a bioretention cell. The limestone would also prevent further erosion in these ditches which is another source of suspended solids in the facility stormwater. General Timber proposes to include limestone placement in the development of the bioretention cell design. Should there be any questions or comments concerning the data and information discussed in this report, please contact me at General Timber during normal business hours at (919)774-6213 or Freeman Cook at (317)524-8231. Sincerely, tVA,pi 61. G/ irrA-- William A. Williams Vice President Freeman C. Cook, Jr. P.E. Consulting Engineer /Attachments Page 3 ATTACHMENTS A. Sample Locations Map B. Data Tables l and 2 C. Copper Solubility Chart Literature Article Excerpt on Cu Fate Literature Article on Limestone Removal LE ND ACCESS/EVACIIATION ROUTES • MONITOR WELL — BOUNDARY LINE =-DITCH LINE --FENCE LINE 0 EXISTING IRON PIPE he WATER VALVE at WATER METER 'D. UTILITY POLE P TELEPHONE PEDESTAL o B' TERRA GOTTA PIPE LEGEND FOR STORAGE TANKS- LEGEND FOR PROCESS AREAS JorPW-� I- WATER A- TIMBER RECEIVING AND SORTING 2- FUEL OIL B- TREE -LENGTH DEBARKING 3- CCA SOLUTION C- POST AND POLE SIZING/)�SL�'• .- CREOSOTE 0- CHIPPING 5- CCA CONCENTRATE E- POLE AND RAIL SEVEUNG 6- NATURAL GAS AND SPLITTING 2- PESTICIDE F- KILN DRYNG Iu�i •AV`�. �\ _ i B- WASTE WATER G- WOOD TREATING.., I$ii V,wA4 , .t •J �""-�_e. A I C) \ts NMRAII\E DE!KMPIKIN OF STMAGE PRACTICES NID PROGEW£ r)))) ' ��•• �,yJI}"! . 1. ErM Cit. Irw I"th tiro.a tlq qtl. dM IrwIM IdMv m-YI.. TrwIM ivMv 1. d .10.0 wM a tdI(O rpW. i MnG dwaaah, io d�Cl. (tMA ha'.' .ON ah,ao o..Id.0 et GdpiolM 1-1; \h P\ W\ 1 nwlp rob . at" ba WC a.11.that GF dww0 ivn iM 1. . v.c4', \i9 �:` f'_`"_i� 4 ' 1 ,•1 daMe.,« rw,RF. YagM w ti. da Pro w4 u. uwa .www han c v.,.:\ea •P. Iv% - %�\..r ..1 l TIwwwl llh k g (dool.. CG\) v..Ida F IdY. Inm d..1. attnF d(O.•Y'J,a a�\\ {}��.`�• •`�'�=�''\4 \ \� �•••.l i DLGVJ.wlwnwl MructvM \ \ \ \rm �' 'r• • �;. .• \- -r\;! '•••" .Y WY I..IVM F bi. that d. 10amN dtn vwmr! tlW M MCwCOI cMlti-ro1 .wcer.v ' /` • `y'II ��••++(( Q �•�• yn �NQ�•� 'CJ . �� r-,.,�'i'�.I. \ � �'r k. 1"^ftr= � � I ',1 `\ /offv�p� /• • � `� Clip ) t�;-rj\! �• _ tl aka \%.N� STORMWATER STUDY •�3x-".@L•� ✓�Jr '`.—/-^- \ ll�'li�`<Z`'�``•\I' SAMPLE LOCATIONS PIZ NOTES: I -VERTICAL DATUM BASED ON NCGS STATION CHA a, NOVO 29 ELEVATION 290.259' 2- BOUNDARY INFORMATION TAKEN FROM MAP ENTITLED 'GENERAL TIMBER, INC., OAKLAND TOWNSHIP' CHATHAM COUNTY, 2-20-88- BY ANDY WILLETT. RLS. 3- RECEIVING STREAM GEORGES CREEK, STREAM CLASS: C, SUB -BASIN: 03-06-I1 CAPE FEAR RIVER BASIN IS NOT ON NORTH CAROLINA's 303 (E) LIST AND IS NOT LOCATED IN A WATERSHED FOR WHICH A TMDL HAS BEEN ESTABLISHED. AS -BUILT SURVEY FOR: GENERAL TIMBER, INC. 625 FARMVILLE MINE ROAD SANFORD, N.C. 27330 OAKLAND TOWNSHIP, CHATHAM COUNTY NORTH CAROLINA JANUARY 13, 2003, MAY 28, 2008 (revised) GRAPHIC SCALE laps!) I Iwx . w n SURVEYOR: JEFFREY L. GREEN 5322 BIG OAK CHURCH ROAD EAGLE SPRINGS . N.C. TABLE 1 STORMWATER TREATABILITY DATA RAW STORMWATER CHARACTERIZATION DATA SAMPLE ID pH TOTAL Cu DISSOLVED Cu TSS mg/L mg/L mg/L DITCH 1 6.1 1.3 0.22 309 DITCH 2 6.1 1.1 0.23 512 STATIC TESTS: WASHED LIMESTONE D1@1HR 6.9 0.71 0.09 381 D 2 @ 1 HR 7.1 0.84 0.085 236 DI @ 12 HR 7.8 0.52 0.07 385 D 2 @ 12 H R 7.9 0.60 0.09 189 STATIC TESTS: UNWASHED LIMESTONE w/ FINES D 1 @ 1 HR 8.1 0.78 <0.04 4950 D 2 @ 1 HR 8.2 0.62 < 0.04 1850 D1 @12HR 9.5 0.41 <0.04 1130 D 2 @ 12 HR 9.2 0.39 0.057 386 Note: Static test concentrations are amount remaining at completion of the test. Page 1 TABLE 2 Cu REMOVAL PERCENTAGE % REMOVAL % REMOVAL STATIC TESTS: WASHED LIMESTONE TOTAL Cu DISSOLVED Cu D1@1HR 45.4 59.1 D2@1HR 35.4 63.0 D1 @12HR 60.0 68.2 D2@12HR 45.5 60.9 STATIC TESTS: UNWASHED LIMESTONE w/ FINES 01@1HR 40.0 81.8 D2@1HR 43.6 82.6 D1 @12HR 68.5 81.8 D2@12HR 64.5 75.2 Page 2 ATTACHMENT C Copper Solubility Chart Literature Article Excerpt on Cu Fate Literature Article on Limestone Removal 356 Treatment Plants Similar curves can and should be developed by the operator as a means of understanding any waste that must be neutral- ized. They are of further use in monitoring processes and calibrating automatic instrumentation. The steepness of the curves near the equivalence points is a good indication of the difficulty of pH control, especially when mixing times are short, tankage is too small, titrant concentrations are too high and feed equipment including pumps as well as instrumentation are marginally sized. QUESTIONS Write your answers in a notebook and then compare your answers with those on pages 453 and 454. 6.3A How does pH affect the rate of corrosion? 6.3B What is pH? 6.3C What is alkalinity? 6.31D To treat the same water, which would produce the most sludge, lime or caustic soda? 6.3E When diluting caustic soda, what items should be con- sidered? 6.3F What is a titration curve? 1c- u 1% 6.33 Processes Requiring PH Adjustment and Neutralization Almost every wastewater treatment process used to treat industrial wastewaters involves pH adjustment and the final effluent usually requires neutralization. The need for an opti- mum pH may be determined by a chemical reaction being used (such as cyanide destruction), the manufacturer's specifica- tions with respect to a piece of equipment (such as to protect a reverse osmosis membrane), or by a physical process (such as coagulation of wastewater and sludge). An industrial waste- water treatment facility may receive streams separated as acid and alkaline or separated by pollutant. Process dynamics and economics often dictate preliminary treatment of each stream, including pH adjustment. The streams are then combined for additional treatment including pH adjustment and neutraliza- tion. A few of the more commonly encountered processes requiring pH control will be discussed in this section. 6.330 Precipitation of Metal Salts Metal finishing such as iron pickling and copper plating involves the use of acids, caustics and chemicals. The waste- waters contain acids, alkaline cleaners, grease and oil, and heavy metals such as chromium, zinc, copper, iron, nickel, tin ` ° 4 5 6 7 8 9 10 11 12 pH UNITS Fig. 6.22 Precipitation of metal salts versus pH (From METAL FINISHING WASTES. EPA Technology Transfer, U.S. Environmental Protedlon Agency. Washington, D.C.) r- `r-trz_r,- AAa6 + ExcC-(LP 'r- MODELLING THE FATE OF CHROMATED COPPER ARSENATE IN A SANDY SOIL X. MAO", D.A. BARRY', L. LI2.3, F. STAGNITTI4, G. ALLINSON4 and N. TUROCZY4 'Contaminated Land Assessment and Remediatlon Research Centre, lastimte far Infrastructure and F.mdronntent. School of Engineering and Electronics, King's Buildings, The University of Edinburgh, Edinburgh E11931L, U.K.; 2Centrejor F.co-Environmental Modelling, 11ohai University, Nanjing 210098, People's Republic of China; asrhoot of Engineering, The University of Queensland, Brisbane 4072, Australia: 4School of Ecology and Environment, Deakin University, Warrnambool, t fctoria 3280. Australia ('author for correspondence, a -mail: s.mao@ed.ac.uk. Fax: +44 131 650 6781. Tel. +44 131 650 5806) (Received 17 November 2003; accepted 24 rebmary 2004) Abstract. A pulse of chromated copper arsenate (CCA, a timber preservative) was applied in irriga- tion water to an undisturbed field soil in a laboratory column. Concentrations of various elements in the Ieachate from the column were measured during the experiment. Also, the remnants within the soil were measured at the end of the experiment. The geochemical modelling package, PHREEQC-2, was used to simulate the experimental data. Processes included in the CCA transport modelling were ad- vection, dispersion, non-specific adsorption (cation exchange) and specific adsorption by clay minerals and organic matter, as well as other possible chemical reactions such as precipitation/dissolution. The modelling effort highlighted the possible complexities in CCA transport and reaction experiments. For example, the uneven dosing of CCA as well as incomplete knowledge of the soil properties insulted in simulations that gave only partial, although reasonable, agreement with the experimental data. Both the experimental data and simulations show that As and Cu are strongly adsorbed and therefore, will mostly remain at the top of the soil profile, with a small proportion appearing in Ieachate. On the other hand, Cr is mom mobile and thus it is present in the soil column Ieachate. Further simulations show that both the quantity of CCA added to the soil and the pH of the irrigation water will influence CCA transport. Simulations suggest that application of larger doses of CCA to the soil will result in higher Ieachate concentrations, especially for Cu and As. Irrigation water with a lower pH will dramatically increase leaching of Cu. These results indicate that acidic rainfall or significant accidental spillage of CCA will increase the risk of groundwater pollution. Keywords: adsorption, CCA, contaminant transport, exchange, PHREEQC-2 1. Introduction Chromated copper arsenate (CCA) is a timber preservative, often used for the control of wood -destroying termites, fungi and microorganisms (Allinson et al., 2000). CCA commonly consists of high concentrations of copper sulphate (CuSO4), sodium dichromate (Na2Cr2O7) and arsenic acid (H3AsO4) (Carey et al., 2002). The active ingredients of CCA, i.e. cupric (Cu2+), dichromate/chromate (HCr04 /Cr207—) and arsenate (HAs04—/H2AsOy) ions can leach from timbers ►A Water, Air, and Soil Pollution 156: 357-377, 2004. FOR' 0 2004 Khmer -Academic Publishers. Printed in the Netherlands. 368 X. MAO ET AL. TABLE IV The main transformations of valence state for As, Cr and Cu Elements Formulae Equilibrium constants (log K) As H3AsO4 +2H+ -+- 2e- = H3AS03 + H2O 18.897 Cr 5H++ CrO, = Cr'++ 2.5 H2O + 0.75 02 8.3842 Cu Cu2}+0.5 H2O=Cu++H++0.250,—18.7704 TABLE V Main precipitates occurring in CCA transport in the soil column Equilibrium constant Name Reaction formula (log K) Lammerile Cn3(AS04)2+4H+=3Cu2++2112As0a 1.55 Atacamite Cu4Cl2(OH)6+6H+=4Cu21+6H20+2C1- 14.3 Cu3(PO4)2 Cn3(PO4)2+2H+=3Cu2}+2HPO4- —12.2 Antlente Cu3(OH)4SO4+4H+=3Cu2{+4H20+SO4- 8.73 Termite CuO + 2H+ = Cu2} + H2O 7.66 Cu3(PO4)2:3H2O Cu3(PO4)2=3H20+2H+=2HPO4-+3Cu2++3H2O —105 Brochamite Cu4SO4(OH)6+6H+=4Cu2}+61120+SO4- 15.4 TABLE VI Formulas for adsorption reactions of As, Cr and Cu Intrinsic equilibrium Elements Formulae constants (log K) As Hfo_wOH + AsO,'-+ 3H+ = Hfo_wH2AsO4+ H2O 29.31 Hfo_wOH + As04' + 211+ = f fo_wHAs0 + H2O 23.51 Hfo_wOH + As04' + H+ = Hfo_wAs04-+ H2O 10.58 Hfo_w0H + H}ASOa = Hfo_wH,ASO,i- H2O 5.41 Cr Hfo_w0H + Cr04-+ H+ = Hfo_wCr04 + H2O 10.85 Hfos0H +Cr'++ H2O = Hfos0Cr0H++ 2H+ 2.06 Cu Hfos0H + Cu2+ = HfosOCu++ H+ 2.89 Hfo_wOH + Cu2} = Hfo_w0Cu++ H+ 0.60 4.1.3. Main Reactions of Cu in the Soil In the CCA solution, Cu is present with a valence state of 11. Cu is retained in soil through non-specific adsorption (Appelo et al., 2000) and specific adsorption by mineral surfaces (Table VI) and organic matter (Benedetti ei al., 1995). It may also react with other chemicals and precipitate (Table V). Because of its tendency to react/sorb, most of Cu will be retained in the soil. ENVIRONMENT ?. INTERNATIONAL ELSEVIER Environment International 26(2001) 395-399 www.etsesiecrnmllaertr/rnvint Removal of copper from water using limestone filtration technique Determination of mechanism of removal H.A. Aziz*, N. Othman, M.S. Yusuff, D.R.H. Basri, F.A.H. Ashaari, M.N. Adlan, F. Othman, M. Johari, M. Perwira School of Civil F-ngineering. Universiti Sams Malaysia. 31750 Tronoh. Perak Darul Ridzuan. Malaysia Abstract This paper discusses heavy metal removal from wastewater by batch study and filtration technique through low-cost coarse media. Batch study has indicated that more than 90% copper (Cu) with concentration up to 50 mg/I could be removed from the solution with limestone quantity above 20 ml (equivalent to 56 g), which indicates the importance of limestone media in the removal protests. This indicates that the removal of Cu is influenced by the media and not solely by the pH. Batch experiments using limestone and activated carbon indicate that both limestone and activated carbon had similar metal -removal efficiency (about 95%). Results of the laboratory -scale filtration technique using limestone particles indicated that above 90% removal of Cu was achieved at retention time of 2.31 h, surface -loading rate of 4.07 m3/ in per day and Cu loading of 0.02 kg/m3 per day. Analyses of the limestone media after filtration indicated that adsorption and absorption processes were among the mechanisms involved in the removal processes. This study indicated that limestone can be used as an alternative to replace activated carbon. ® 2001 Elsevier Science Ltd. All rights reserved. Keywords: Activated carbon; Copper, Filtration; Heavy metals'; Limestone I. Introduction Methods available for removing heavy metals from water and wastewater include precipitation of metal hydroxide, ion exchange, reverse osmosis, electrodialysis, oxidation and reduction, carbon adsorption and removal by limestone. However, current heavy metal removal generally requires the use of chemical reagents for precipitation of these metals from the solution. Aziz (1992) and Aziz and Smith (1992, 1996) studied the use of limestone in removing manganese (Mn) from water. In their study, a Mn solution of 1 mg/I was shaken with limestone (containing 53.9% CaCO3 and 5.2% MgCO3), gravel, crushed brick or with no solid media at various pH values. At a final pH value of 8.5, Lime- stone achieved 95% removal of Mn, crushed brick 82%, gravel 60% and the removal for aeration and settlement with no solid media was less than 15%. Their results indicated that rough solid media and the presence of - Corresponding author. Tel.: +60-5-3676-901; fax: +60-5-3677440. E-mail address: cehamidi@kcp.utm.my (HA. Aziz). carbonate are beneficial in the precipitation of Mn- in water. A subsequent laboratory -scale filtration technique was used to prove that limestone particle could be used as a medium for removing Mn from water. The filtration results indicated that at an input pH of 7 with Mn concentration of I mg/I, 1.35 h retention time, 500-man media depth and 20 mUmin, a good removal (above 90°/a) was observed in the limestone as compared to the gravel media. This validates the batch results obtained by Aziz and Smith (1992). Table 1 General properties of activated carbon used in the study Specification Value Grade K15060 Particle size + 12 Distribution 12 x 40 Iodine 1000 mg/g minimum pH 9-10 Ash content 5% maximum Moisture 5% maximum Hardness 90 minimum 01604120/01/$- see front matier©2001 Elsevier Scicne,cLtd.All rights rccmed- PII:SO] 60-4120(01)00018-6 396 HA. Aziz el al. /Fnvironmenl International 26 (2001) 395-399 Table 2 Experimental conditions for the filtration experiment parameter Value Media Limestone Density (kgtm3) 2740 Panicle size (ram) 2-4 Filter depth (ram) 800 Diameter (mat) 150 Volume of filter column (m3) 0.014 Volume of void (m3) 6.94 x 10-3 Percentage of void 1%) 49.07 Mewl Cu Input pit 7 Input metal (mgA) 5 Flow rates (ml/min) so Bperiment's duration (days) 30 Retention time (hours) 2.31 Surface loading late (m3/m' per day) 4.07 Copper loading (kg Cu/M' per day) 0.02 This paper discusses the results of the studies to develop a simple treatment method for removing heavy metals from water using Filtration technique through a low-cost coarse medium instead of chemicals. The effi- ciency of limestone in removing Cu was examined in the batch experiments and the results were compared with experiments using activated carbon, which is the common medium applied in the field. Filtration experiment was also undertaken to examine suitability of limestone in removing heavy metals. Studies were also conducted to examine the potential removal mechanisms. The limestone used in the experiment was considered fairly low cost as the price ranges from RM 10 to RM40 per metric ton. 2. Materials and methods Prior to the experiment, the composition of limestone used in the experiment was determined via digestion with concentrated acids followed by metal determination by an atomic spectrophotometer (model Shimadzu AA 660) as detailed in the Standard Method for the Exami- nation of Water and Wastewater (APHA, AWWA, WPCF, 1992). The density of limestone was determined conventionally, i.e., weight/volume of media. Limestone Table 3 Composition of the limestone used in the present study Compositions Percentage Coco, 95.0 MgCO3 3.5 Others 1.5 Tow] 100 FIn21 pit Against weight of Limestone 1p n = i s f 2 x It •=m1'IL s to t LL 6l xi0 �L 5 i •wmglL � -60 myl. o -20 44) 60 0 1M IM 140 I60 10 Weight of timestooe yamn20 mL •f copper salvrioa Fig. 1. Effect of volume of limestone on the final pit at different copper concentrations (initial pl l =7). was sieved to give a size between 2.36 and 4.75 mm, i.e., the size suggested by various authors (Aziz and Smith, 1992, 1996). Activated carbon used in the studies were commercially available and having specification as given in Table 1. The batch study was conducted to establish the removal pattern of heavy metals using limestone, acti- vated carbon and the mixture of both. In the first experi- ment, different volumes of limestone (calculated based on the weight) was used in a specific volume of heavy Cu solution (120 ml of synthetic Cu solution). The pH was adjusted to about neutral using 0.1 M HCI and 0.1 M NaOH. Copper solution was prepared from AnalaR grade standard solution and the experiment was conducted at different Cu concentrations (ranging between 2 and 60 mg/1), which were shaken by an orbital shaker at 300 rpm for 60 min. Afterwards, the pH of samples were measured and recorded as final pH. The solution was then left to settle for 90 min (Aziz and Smith, 1992) before testing Cu concentration by an atomic absorption spectrophotom- eter. The experiments were repeated three to four times to obtain a consistent average. In the second experiment, a different mixture of limestone and activated carbon (in %Copper Removal Against weight of Limestone I W p• e e B C � o - - 14 •i• � • 2 ml/L = SO YJ4II • ssmtJl.. y � • Iom>:n. . N rasa. 40 �• x omen e 40 mx9. • 20 - a 50 mg9. lT. 6om 2 0 20 40 '60 so lop In 140 160 ISO R'eirbt et0mnt•ve Ctam'120 mLrolAQ+olvtinv Fig. 2. Effect of volume of limestone on the copper removal at different copper concentrations (initial plI=7). H.A. Aziz et a1. / Envimomeni lnterwfional 26 (2001) 395-399 Final pit A6aimt RaHu of Aledia (Initial pll 7) % Removal "Capper Apimt imal pH With, No Media 12 6 n 10 • ♦Smga. Cu e • i;= a 0 20 40 60 80 100 120 Italia of Limmmoe:AVinted Carbon by Valumr (0 meam 0% Ui Icne and IN% Aeirned Carbon) Fig. 3. Influence of media on final pH at different mtim of limestone and activated carbon. terms of volume) was used. The pH was set neutral and metal concentration was set at 5 mg/l. In order to establish whether the removal was due to pH, a set of batch experiments was repeated as above at pH value above 8 without any media addition. In the filtration experiment, the upflow filtration model was set up in the laboratory according to Aziz and Smith (1996) and the experimental conditions are listed in Table 2. Calculation of the Cu concentration entering each column was based on a mass balance equation as: Qflad Cfitut = Yeutter Culler + Qtap Ctap + QCuCCu where, Q=flow rate in millimeters per minute, C=liquid concentration in milligrams per liter, and CRnal was set to 5 mg/I The filter was left running for a month with effluent discharged into a tank for recycling and eventually was channeled to the discharge point within the laboratory. Effluents were sampled every day. Three sets of 40-ml samples were taken each time and they were acidified prior to Cu determinations on the atomic absorption spectrophotometer and the Hach's DR2000 and D112010 spectrophotometers. After the experiment, the media were air-dried and a particle of the media was cut into half then fixed onto a fixing plate, smoothed and snapped by E C 0 20 40 W W 100 Ratio of Iamutone:Anivated Carbon by Vdome IN W W E s` 40 20 0� . i 7 8 9 10 II 12 Fmd pH 397 • 5 mg/L Cu Fig. 5. Percentage of copper removal against final pH without presence of any media_ the scanning electron microscope (SEM; Model Leica Cambridge 5360). This was to determine whether the metals were adsorbed or absorbed by the media. Some media were also crushed, homogenised and sieved to 75- µm size and then analysed using energy dispersive X-ray instrument (EDX) (model Camscan Editor) and X-ray fluorescence instrument (model Rigaku RIX3000). 3. Results and discussion Table 3 indicates that the limestone used in the present study contained 95% CaCO3 and 3.5% MgCO3. Fig. 1 shows the influence of the quantity of media on the final pH. The results indicated that limestone was able to increase the pH from the input value of pH 7. pH value was increased above 8 at limestone volume of 5 ml (equivalent to 14 g) and further increased to above 9 at limestone volume of 10 ml (equivalent to 28 g). Final pH values were almost constant at between 8 and 9 when the amount of limestone was increased further. This shows that the solution has reached its saturation value. Increases in pH were due to the carbonate content in limestone that gave buffer capacity (alkaline condition) to Find pH Apinst Duration of Eapeeimral for Copper Removal 7,6 75 7.4 5mp/L Cu _� 7.3 ♦ 72 7.1 7 6.9 0 5 10 Is 20 25 30 Durationof Ea marni(da,1 t lminl pll -o-ranlpn Fig. 4. Percentage of Cu removal against different ratios of limestone and Fig. 6. Plot of final pH against duration of experiment in filtration column activated carbon. for copper removal. Initial copper concentration is 5 mg/l. Initial pH =7. 398 H.A. Am et al. / Emimoment International 26 (2001) 395-399 % of Copper Rento.al Apiost Duration of Experimeol IN 90 60 �waei AbuMim E �DiIM10 e m o—oamao 20 0a 0 5 10 Is 20 25 30 Dnratlop of Faperi.t (&a 0 Fig. 7. Plot of copper removal against duration of experiment in filtration column for copper removal. Initial copper concentration is 5 mgfi. Initial pll=7. the sample and this was higher for higher quantity of limestone. Fig. 2 shows the removal of Cu against media weight at different metal concentrations. More than 90% of Cu with concentration up to 50 mg/I could be removed from the solution with limestone quantity above 20 ml (equivalent to 56 g). Even at final pll of 7.5, the removal was still above 90%. The removal without any media was fairly low (0% to 50%). This indicates that the removal of Cu was influenced by the media and not solely by the pH. Fig. 3 illustrates the influence of media on final pi at different Cu concentrations, and Fig. 4 shows Cu-removal efficiency against different ratios of limestone and acti- vated carbon. The results indicate that the removal of Cu using activated carbon (without limestone) and limestone (without activated carbon) was about the same with over Fig. 8. Scanning election image of media after filtration. Table 4 Analysis of media before and after the experiment XRF EDX Before After Before After Compounds experiment experiment experiment experiment Cu0 (%) 0 0.032 0 — Cu (% 0 — 0 1.83 XRF, X-ray fluorescence. EDX, energy dispersive X-ray 95% removal. The mixture of the two also gave a similar removal rate. Removal of Cu without any media was about 20% (Fig. 5). This shows that limestone can be used as an alternative medium to replace activated carbon. Results of filtration experiments shown in Figs. 6 and 7 indicate that the removal of Cu was above 90% during the first 10 days of the experiment, i.e., at retention time of 2.31 h, surface loading rate of 4.07 m3/m2 per day and Cu loading of 0.02 kg/m3 per day. The results further confirmed that limestone is suitable for removing heavy metals. The image of limestone particle cross section analyzed by SEM after the experiment is illustrated in Fig. 8. It can be observed that some Cu was adsorbed onto the surface of media and some penetrated through the media due to absorption. This is further proven by the analysis of the powder from crushed limestone after filtration, which indicated that Cu concentration increased as com- pared to the blank media (before experiment). The details are given in Table 4. 4. Conclusion The present study demonstrated that more than 90% copper with concentration up to 50 mg/I could be removed from the solution with limestone quantity above 20 ml (equivalent to 56 g), according to the batch study. Copper may also be removed from the solution using limestone and activated carbon. This was further proven in the filtration experiment whereby above 90% removal of Cu was achieved at retention time of 2.31 h, surface -loading rate of 4.07 m3/mi per day and Cu loading of 0.02 kg/m3 per day. Analyses of the limestone media after filtration indicated that adsorption and absorption processes were among the mechanisms involved during the removal proc- ess. Limestone can be used as a cost-effective medium to replace activated carbon for metal removal. Acknowledgments The authors acknowledge the research grant provided by the Ministry of Science, Technology and Environment, Malaysia and Universiti Sains Malaysia. ILA. Aztz el at. / Environment International 26 (2001) 395-399 References APHA, AWWA, WPCF. Standard methods for the ecamimation of water and wastcwastcr. 18th ed. American Public Health Association, USA 1992. Aziz HA. A study on the removal of manganese from water in the presence 399 of coarse mods. PhD thesis, Department of Civil Engineering, Univer- sity of Strathclyde, Glasgow, UK 1992 (unpublished). Aziz HA, Smith PG. The influence of pH and course media on manganese precipitation from water, Water Res 1992;26:853-5. Aziz HA, Smith PG. Removal of manganese from water using crushed dolomite filtration technique. Water Res 19962:489-92. F) Patterson, Robert From: F Cook [fcookjr@earthlink.net] Sent: Thursday, February 25, 2010 7:57 AM To: Patterson, Robert Subject: RE: General Timber Robert, On Friday, Feb 19, 1 met with Art Williams at General Timber to discuss our recent conference call. During this visit, selected a possible location with proper grade for a biocell and discussed the design and construction aspects of this BMP. On Monday I happened to be onsite again during a storm and was able to view the sw routing through this area of the site. I will be preparing a letter to address some of your and Ken's questions about the use of dolomitic limestone in the some of the upstream drainage channels for erosion control and buffering. I think some additional static bench -top and column testing might be helpful to this evaluation. I will also be sizing the cell and and have General Timber's authorization to begin the design. A little more surveying will be needed in this area to support the design work. This will be conducted as soon as the site conditions allow (very muddy currently). As Art and I toured the site, it is obvious that the main drainageway to the primary outfall (SDO-001) is a natural vegetative barrier and bioretention area now. There is an abundance of water -tolerant plants, shrubs, and trees lining this channel and the time of travel through this channel provides adequate retention time for some degree of passive removal of solids and other constituents. It will be interesting to see if the addition of a biocell upstream of the outfall, closer to the active CCA storage areas has a benefit. Thanks, Freeman Cook -----Original Message ----- From: "Patterson, Robert" Sent: Feb 4, 2010 2:11 PM To: F Cook Cc: "Pickle, Ken" Subject: RE: General Timber Freeman, Are you available to talk tomorrow (2/5) morning around 9am? Thanks. Robert From: F Cook [mailto:fcookjr@earthlink.net] Sent: Thursday, February 04, 2010 12:17 AM To: Patterson, Robert Subject: RE: General Timber Robert, Would you have time to this a little further? My cell number is 317-524-8231. Thanks, Freeman Cook Patterson, Robert From: F Cook [fcookjr@earthlink.net] Sent: Tuesday, February 09, 2010 7:44 AM To: Robert Patterson Subject: General Timber pics Robert, Here are the pics I attempted to send last time. If you open on Windows Photo Gallery perhaps the tags will be there I want to clarify one item regarding the limestone addition and its possible effectiveness. It would prevent erosion in the main ditch from the CCA storage area and provide buffering to the slightly depressed stormwater pH (typically at of just below 7). One of the pics shows a typical ditch in the CCA area where limestone would be added. The amount of Cu that would possibly precipitate or plate out on the active surfaces of the limestone (probably as a hydroxide or other salt) would depend, as Ken alluded to, would depend on the form of copper present. If it is ionic copper (Cu +2) that might provide some removal, but if the copper is complexed or chelated, then the removal in any alkaline agent would be less effective. The pics depict the often saturated condition in the midsection of the site which I believe GT intends to correct at some point. As you can see, the wide channel immediately upstream of the weir on SDO-001 is well -vegetated and also often saturated. I would think that there may be some natural bio-attenuation of soluble constituents in the stormwater by these indigenous plants. Plus it provides a much needed filtration function prior to discharge. One picture shows the possible area where a bioretention cell could be located. This is well upstream of the outfall but just downstream of the CCA storage area. I will enhance a drawing and forward this so you can get an idea of the area we were discussing. I have briefed GT about our telecon and will be meeting with them in a week or so to discuss the details of the approach Will need to do a little more surveying there to get some dimensions and elevations for the design. Any questions wsw.pem6Uamrn Pace Analytical Services, Inc. 2225 Riverside Dr. Asheville. NC 28804 (828)254-7176 QUALITY CONTROL DATA Pace Analytical Services, Inc. 98001Gncey Ave. Suite 100 Huntersville, NC 28078 (704)875-9092 Project: M AND M MOTOR CO: RANDLEMAN j Pace Project No.: 9260333 �\ / QC Batch: GCSVI6928 Analysis Method: EPA 1664A QC Batch Method: EPA 1664A � Analysis Description: 1664 HEM, Oiand /se Associated Lab Samples: 9260333001, 9260333002, 926033300 / METHOD BLANK: 385067 Matrix: Water Associated Lab Samples: 9260333001, 9260333002, 9260333003 Blank epo 61 Parameter Units Result 'foil Analyzed Qualifiers Oil and Grease mg/L ND 5.0 12/30/09 08:57 LABORATORY CONTROL SAMPLE: 385068 Spike LCS LC'S % Rao Parameter Units Conc. Result %Re Limits Qualifiers Oil and Grease mg/L 40 36.2 78-114 MATRIX SPIKE SAMPLE: 385069 9260137001 Spike MS MS % Rec Parameter Units Result Conc. Result 4 Rec Limits Qualifiers Oil and Grease mg/L NO 40 34.4 \ 86 78-114 Date: 01/07/2010 03:13 PM REPORT OF LABORATORY ANALYSIS This report shall not be reproduced, except in full, without the written consent of Pace Analytical Services, Inc.. /?C Page 5 of 11 Robert, Would you have time to this a little further? My cell number i (317-524-8231. Thanks, Freeman Cook -----Original Message ----- From: "Patterson, Robert" Sent: Feb 3, 2010 10:29 AM To: F Cook Cc: "Pickle, Ken" Subject: RE: General Timber Freeman, 1) Yes, we do need a formal written proposal of an engineered structural Cu-removal BMP for us to review and approve/disapprove. Note that the permit requires General Timber to submit the BMP designs to DWQ for approval within 6 months of the first analytical monitoring performed. 2) If you want to do a trial, that is fine, but it does not meet the Cu-removal BMP requirement of the permit. General Timber can do trials to remove pollutants any time they wish in order to meet permit requirements. We need to see a proposed design, and get it in the ground to monitor. It seer -is that since your email back in September 2009 about the limestone proposal, General Timber could have been doing a small trial as you suggested. 3) I'm still hesitant about the limestone in the ditches providing Cu removal benefit. We have not seen any details about the remove.l process or engineering calculations to show that it will rernove Cu when simply placed as a lining in ditches. We also know of no other programs or facilities that have used such a BtiiP. Even in your email below, you state that for it to even have a chance of working, you would need enough contact time. Would the use of check dams provide that needed contact time? I would suggest using a structural BMP that has been shown to provide some Cu removal. An example of this is bioretention. Literature reports indicate that bioretention can remove Cu and other metals from runoff. General Timber could even propose something that combines the use of limestone and bioretention, or some other BMP. It would seern to me that having to truck the limestone a long distance would be more costly than using a more traditional BMP. Please let me know if you have any other questions. Thanks. Robert D. Patterson, PE Environmental Engineer NCDENR I DWQ I Stormwater Permitting 1617 Mail Service Center, Raleigh, NC 27699-1617 (mail) 512 N. Salisbury St, Raleigh, NC 27604 (Location & Parcels) (919) 807-6375 Phone 1 (919) 807-6494 Fax Email: robert.patterson@ncdenr.gov ncdenr.gov Website: http://portal.ncdenr.org/web/wq/ws/su Aw Before printing this email, please consider your budget and the environment. If you must print, please print only what you need and save ink with the free Eco-Font. E-mail correspondence to and from this address may be subject to the North Carolina Public Records Law and may be disclosed to third parties. Patterson, Robert From: F Cook [fcookjr@earthlink.net] Sent: Friday, February 05, 2010 7:44 AM To: Patterson, Robert Subject: RE: General Timber Robert, Attached are two pics of the General Timber site depicting site conditions several days after a typical storm event. The midsection of the site becomes water-logged and has actually tuned into something like a marsh with cattails and other water -tolerant vegetation. The is area is in close proximity to the primary outfall (one storage lane over) and the soil upstream of the outfall also remains water-logged for some !i!ne and does not drain well due to (1) the prevailing clay soil type which retains water and (2) the flat grade in the main drainage channel. You may recall that if takes a signinificant (several inches or prolonged wet period) for any stormwater to discharge thru this outfall's v'notch weir. These conditions pose limitations to the biorentention cell approach which would rely on some amount of infiltration. There may be another location in the storage yard that might be used but there is heavy equipment traffic in the storage areas which might cause a problem. If necessary I'm sure General Timber would consider changing the storage in this area and altering normal traffic patterns. The CCA storage area in relatively far away from this primary outfall and there are ditches that could be lined with limestone to buffer that water as it meanders toward the main drainage channel. The time of travel would be adequate at the onset of a storm to afford some valuable contact time which would beneficial for buffering the stormwater (the pH trends toward acidic naturally anyway). I have other pictures on an SO disk that I can send after our discussion. I just thought that this information might be helpful to have prior to our telephone conversation at 9 this morning. Perhaps a dual -pronged approach would be considered incorporating more than one approach. Can discuss details prior to the formal proposal. Thanks. Freeman Cook -----Original Message ----- From: "Patterson, Robert" Sent: Feb 4, 2010 2:11 PM To: F Cook Cc: "Pickle, Ken" Subject: RE: General Timber Freeman, Are you available to talk tomorrow (2/5) morning around 9am? Thanks. Robert From: F Cook [mailto:fcookjr@earthlink.net] Sent: Thursday, February 04, 2010 12:17 AM To: Patterson, Robert Subject: RE: General Timber Gf}'LL W/ G T F y/1�44) KEN t�1GKL� ill( [- �jr� fGt2ClNG 1nG/g/G j�� 2&Pos 4— _j01e NOT fe-owclf- 04 Ol t( )ECD ""V I - , Ile h/tj- L✓� SoM��C! „'r/�S . Too �✓✓� � � �. �. ��-L . i . �. .� s � 7 ,� r �) l _ � fi ?( '� J, j .� / � !J • I � i l/ 4• t• , r � �•r �`I ✓5 �� t � ^d u- i+ ;� r . r Z ] ',? f,' ��. 'r i� _ �; . i .�t �. .�,� „^. %C' . I � -� i i' x i �i >� d� :+ •�Gt � � • r' f. ' � � i � t J% -� 1 "7 Patterson, Robert From: Patterson, Robert Sent: Wednesday, February 03, 2010 10:30 AM To: 'F Cook' Cc: Pickle, Ken Subject: RE: General Timber Freeman, 1) Yes, we do need a formal written proposal of an engineered structural Cu-removal BMP for ti; to review and approve/disapprove. Note that the permit requires General Timber to submit the BMP designs to DWQ for approval within 6 months of the first analytical monitoring performed. 2) If you want to do a trial, that is fine, but it does not meet the Cu-removal BMP requirement of the permit. General Timber can do trials to remove pollutants any time they wish in order to meet permit requirements. We need to see a proposed design, and get it in the ground to monitor.- It seems that since your email back in September 2009 about the limestone proposal, General Timber could have been doing a small trial as you suggested. 3) I'm still hesitant about the limestone in the ditches providing Cu removal benefit. We have not seen any details about the removal process or engineering calculations to show that it will remove Cu when simply placed as a lining in ditches. We also know of no other programs or facilities that have used such a BMP. Even in your email below, you state that for it to even have a chance of working, you would need enough contact time. Would the use of check dams provide that needed contact time? I would suggest using a structural BMP that has been shown to provide some Cu removal. An example of this is bioretention. Literature reports indicate that bioretention can remove Cu and other metals from runoff. General Timber could even propose something that combines the use of limestone and bioretention, or some other BMP. It would seem to me that having to truck the limestone a long distance would be more costly than using a more traditional BMP. Please let me know if you have any other questions. Thanks. Robert D. Patterson, PE Environmental Engineer - NCDENR I DWQ I Stormwater Permitting 1617 Mail Service Center, Raleigh, NC 27699-1617 (Mail) 512 N. Salisbury St, Raleigh, NC 27604 (Location & Parcels) (919) 807-6375 Phone 1 (919) 807-6494 Fax Email: robert.pattersongncdenr gov website: http://portal.ncdenr.orglweblwq/ws/su ABefore printing this email, please consider your budget and the environment. If you must print, please print only what you need and save ink with the free Eco-Font. E-mail correspondence to and from this address may be subject to the North Carolina Public Records Law and may be disclosed to third parties. From: F Cook [mailto:fcookjr@earthlink.net] Sent: Tuesday, February 02, 2010 7:08 AM To: Patterson, Robert Subject: General Timber Robert, Sampling conducted last November at General Timber demonstrated 0.055 mg/L of copper in the discharge through the primary outfall. This was after the they removed a large amount of debris and old treated wood from 2 of the storage lanes that contribute run-off the the outfall. So this is still well above the 7 ppb level established in the permit. Placing limestone in the ditches and creating some shallow rock dams upstream of the outfall might be a viable approach to buffer the pH and remove some of the soluble copper, but the availability of reactive (dolomitic) limestone is very limited in North Carolina. We have located 2 sources... one in Asheville and another up in Virginia, but local firms are not interested in hauling it due to possible damage to the truck beds. General Timber would probably have to send there truck to pick it up one load at a time. They are considering this. In terms of a column or bench top test, I did see some buffering (elevation of pH) in �;me samples I prepared in the past, but the issue for this would be retention time. Would need enough contact time beN,,.,en the stormwater and the active surface of the limestone to get any possible benefit. It might be best to propose trial and divert a samll portion of stormwater through a limestone bed in a ditch on one of the lanes and then sample for copper in the effluent from the bed (sample upstream would also be collected). Would this be acceptable as a first step in the Cu-BMP process for GT? Do you need a formal proposal for GT to proceed with such an approach or can we just proceed with the trial and then advise you of the results? If there are questions, email or you can call me at 317-524-8231 to discuss. Thanks, Freeman Cook NCS006122 - General Timber, Individual SW Permit Renewal -Draft 2 Subject: NCS000122 - General Timber, Individual SW Permit Renewal -Draft 2 From: Robert Patterson <Robert. Patterson@ncmail. net> Date: Tue, 29 Jul 2008 13:55:50 -0400 To: F Cook <fcookjr@earthlink.net> CC: Stephanie Brixey <Stephanie.Brixey@ncmai1.net>, Ken Pickle <Ken.Pickle@ncmai1.net> Freeman, As we discussed during our site visit on July 8, 2008, I have modified the draft permit as attached. Since all historical analytical monitoring for copper has shown values in excess of the current benchmark (0.007 mg/1), Cu has been removed from the Tiered monitoring approach. Instead, bmp(s) will be installed up front to remove/reduce Cu in stormwater runoff as per the revised permit. I have highlighted the changes to the permit in yellow. Since these changes are to the monitoring, it will not have to be public noticed again. Please provide any final comments regarding this revised draft permit by August 26, 2008. 1 have also attached a link to a study showing results of Cu removal by bioretention cells ranging from 56% to. 998: http://www.bae.ncsu.edu/stormwater/PublicationFiles/Bioretention2006 Monitoring for creosote has also been added. I was not aware of it's use on the site during my original review. Please let me know if you have any questions. Note our phone numbers have changed. Thanks. Robert Robert D. Patterson, PE Environmental Engineer NCDENR I DWQ I Stormwater Permitting Unit 1617 Mail Service Center, Raleigh, NC 27699-1617 512 N. Salisbury St, Raleigh, NC 27604 Phone: (919) 807-6375 Fax: (919) 807-6494 Email: robert.patterson@ncmail.net Website: http://h2o.enr.state.nc.us/su/stormwater.htmi *Please consider the environment before deciding to print this email* j NCS000122_Draft Permit Content -Type: application/msword Content -Encoding: base64 GG: AV T W(LL 14&k_5 - NA-R_0 CC)F' of 1 7/29/2008 2:02 PM NCSOOO122 STATE OF NORTH CAROLINA DEPARTMENT OF ENVIRONMENT AND NATURAL RESOURCES DIVISION OF WATER QUALITY PERMIT TO DISCHARGE STORMWATER UNDER THE NATIONAL POLLUTANT DISCHARGE ELIMINATION SYSTEM In compliance with the provisions of North Carolina\Gener la St\atute'1/n43-215.1, other lawful standards and regulations promulgated and adopted by the.North Carolina Environmental Management Commission, and the Federal Water Pollution Control Act, as amended, Inc. is hereby authorized to.\scharge stormwater from a facility located at eneral Timber, Inc. FFarmville Mine Road Sanford, NC Chatham County to receiving waters designated as Georges Creek, a class C stream in the Cape Fear River Basin, in accordance with the discharge limitations, monitoring requirements, and other conditions set forth in Parts I, II, III, IV, V and VI hereof. Note: Draft Permit Dates are Approximate This permit shall become effective August 1, 2008. This permit and the authorization to discharge shall expire at midnight on July 31, 2013. Signed this 281h day of July, 2008. for Coleen H. Sullins Director Division of Water Quality By the Authority of the Environmental Management Commission Permit No. NCS000122 PART Section A: Section B: Section C: PART H Section A: Section B: Section C: Section D: PART III TABLE OF CONTENTS INTRODUCTION Individual Permit Coverage Permitted Activities Locatiot MONITOR] DISCHARC Stormwo Analytic Qualitati On -Site PERMITTED STANDARD CONDITIONS FOR NPDES STORMWATER INDIVIDUAL PERMITS Section A: Compliance and Liability 1. Compliance Schedule 2. Duty to Comply 3. Duty to Mitigate 4. Civil and Criminal Liability 5. Oil and Hazardous Substance Liability 6. Property Rights 7. Severability 8. Duty to Provide Information 9. Penalties for Tampering 10. Penalties for Falsification of Reports Section B: General Conditions 1. Individual Permit Expiration 2. Transfers 1 Permit No. NCS000122 3. Signatory Requirements 4. Individual Permit Modification, Revocation and Reissuance, or Termination 5. Permit Actions Section C: Operation and Maintenance of Pollution Controls 1. Proper Operation and Maintenance 2. Need to Halt or Reduce Not a Defense 3. Bypassing of Stormwater Control Faciliti Section D: Monitoring and Records 1. Representative Sampling 2. Recording Results 3. Flow Measurements 4. Test Procedures 5. Representative Outfal(l D 6. Records Retention 7. Inspection and�E>ntry Section E: Reporting Re � ts" 1. Discharge,Monitoring Reports 2. Submitting Reports 3. Availability of Reports 4. Non-Stormwater Discharges 5. Planned Changes 6. Anticipated Noncompliance 7. Bypass 8. Twenty-four Hour Reporting 9. Other Noncompliance 10. Other Information PART IV LIMITATIONS REOPENER PART V ADMINISTERING AND COMPLIANCE MONITORING FEE REQUIREMENTS PART VI DEFINITIONS 11 Permit No. NCS000122 PART I INTRODUCTION SECTION A: INDIVIDUAL PERMIT COVERAGE During the period beginning on the effective date of the permit and lasting until expiration, the permittee is authorized to discharge stormwater associated with industrial activity. Such discharges shall be controlled, limited and monitored as specified in this permit. If industrial materials and activities are not exposed to precipitation or runoff as described in 40 CFR § 122.26(g), the facility may qualify for a No Exposure Exclusion from NPDES stormwater discharge permit requirements. Any owner or operator wishing to obtain a No Exposure Certification must submit a No Exposure Certification NOPform to 1he Division; must receive approval by the Division; must maintain no exposure conditionsunless-authorized to discharge under a valid NPDES stormwater permit; and must reapply for the No -Exposure Exclusion once every five (5) years. SECTION B: PERMITTED ACTIVITIES Until this permit expires or is modified•or stormwater to the surface waters of Norte adequately treated and managed in accord, permit. All stormwater discharges shall be is authorized to discharge )r separate storm sewer system that has been the terms and conditions of this individual lance with the conditions of this permit. Any other point source discharge to,surface waters of the state is prohibited unless it is an allowable non-stormwater discharge.or'is covered by another permit, authorization, or approval. The stormwater discharges allowed by this individual permit shall not cause or contribute to violations of Water Quality Standards. This permit does not relieve the permittee from responsibility for compliance with any other applicable federal, state, or local law, rule, standard, ordinance, order, judgment, or decree. Part I Page l of 2 SECTION C: LOCATION MAP Permit No. NCS000122 NCG000122 N Wr: S General Timber, Inc. J, General Timber, Inc. General Timber, Inc. Latitude: 350 33' 49" N Longitude: 790 12' 41" W Receiving Stream: Georges Creek Stream Class: C Sub -basin: 03-06-11(Cape Fear River Basin) r�- Facility Location Part I Page 2 of 2 Permit No. NCS000122 PART II MONITORING, CONTROLS, AND LIMITATIONS FOR PERMITTED DISCHARGES SECTION A: STORMWATER POLLUTION PREVENTION PLAN The permittee shall develop a Stormwater Pollution Prevention Plan, herein after referred to as the Plan. This Plan shall be considered public information in accordance with Part III, Standard Conditions, Section E, Paragraph 3 of this individual permit. The Plan shall include, at a minimum, the following items: Site Plan. The site plan shall provide a description of the physical facility and the potential pollutant sources that may be expected to contribute.to contamination of stormwater discharges. The site plan shall contain the; following: i- a. A general location map (USGS quadrangle map'or appropriately drafted equivalent map), showing the facility's location,in relation to transportation routes and surface waters, the name of the receiving-water(s) to which the stormwater outfall(s) discharges, or if the discharge is to a municipal separate storm sewer system, the name c waters; and accurate latitude an should identify whether each re List of impaired waters) or is to been established, and;whatthe North Carolina's 303(d) List tia http://h2o.enr.state.nc.us/tmd North Carolina TMDI�documer http://h2o.enr.state nc;us/tmd municipality and the ultimate receiving igitude of the point(s) of discharge. The map ngwater is impaired (on the state's 303(d) I'in a watershed for which a TMDL has meter(s) of concern are. found here: can be found here: _TMDLs b. A narrative description of storage practices, loading and unloading activities, outdoor process areas, dust or particulate generating or control processes, and waste disposal practices. A narrative description of the potential pollutants which could be expected to be present in the stormwater discharge from each outfall. C. A site map drawn to scale with the following items: (1) Distance legend and north arrow (2) Site property boundary and topography (3) Location of industrial activities (including storage of materials, disposal areas, process areas, and loading and unloading areas) (4) Drainage features and structures (5) Stormwater discharge points (outfalls) (6) Delineated drainage areas for each outfall (7) Drainage area for each outfall in acres and percentage or each drainage area that is impervious (8) All on -site and adjacent surface waters and wetlands (9) Building locations Part II Page 1 of 10 Permit No. NCS000122 (10) Existing BMPs and impervious surfaces d. A list of significant spills or leaks of pollutants that have occurred at the facility during the three (3) previous years and any corrective actions taken to mitigate spill impacts. e. Certification that the stormwater outfalls have been evaluated for the presence of non- stormwater discharges. The certification statement will be signed in accordance with the requirements found in Part III, Standard Conditions, Section B, Paragraph 3. 2. Stormwater Management Plan. The stormwater management plan shall contain a narrative description of the materials management practices employed which control or minimize the exposure of significant materials to stormwater, including structural and nonstructural measures. The stormwater management plan, at a minimum, shall incorporate the following: 1/( //\\ \-"� a. Feasibility Study. A review of the technical.and economic feasibility of changing the methods of operations and/or storage practices,to eliminate or reduce exposure of materials and processes to stormwate%'Wherever practical, the permittee shall prevent exposure of all storage areas;,material handling operations, and manufacturing or fueling operation/k In areas4here elimination of exposure is not practical, the stormwater management.plan shall document the feasibility of diverting the stormwater runoff away ,from areas of potential contamination. b. Secondary Containment'Requirements and Records. Secondary containment is required for: bulk storage of liquid materials; storage in any amount of Section 313 of Title III of the Superfund Amendments and Reauthorization Act (SARA) water priority chemicals;.and storage in any amount of hazardous substances to prevent leaks and spills from contaminating stormwater runoff. A table or summary of all such tanks and stored materials and their associated secondary containment areas shall be maintained. If the secondary containment devices are connected directly to stormwater conveyance systems, the connection shall be controlled by. manually activated valves or other similar devices which shall be secured closed with a locking mechanism, and any stormwater that accumulates in the containment area shall be at a minimum visually observed for color, foam, outfall staining, visible sheens and dry weather flow, prior to release of the accumulated stormwater. Accumulated stormwater shall be released if found to be uncontaminated by the material stored within the containment area. Records documenting the individual making the observation, the description of the accumulated stormwater and the date and time of the release shall be kept for a period of five (5) years. C. BMP Summary. A narrative description shall be provided of Best Management Practices (BMPs) to be considered such as, but not limited to, oil and grease separation, debris control, vegetative filter strips, infiltration and stormwater detention or retention, where necessary. The need for structural BMPs shall be based on the assessment of the potential of pollutant sources to contribute Part 11 Page 2 of 10 Permit No. NCS000122 significant quantities of pollutants to stormwater discharges and data collected through monitoring of stormwater discharges. d. Copper removal BMPs. The permitee shall design, install, and monitor a structural storarwater BDAP, at OutfaIl 001, that has been shown to remove or reduce copper in stormwater discharges (such as a bioretention cell). The schedule shall be as follows from permit issuance: submit the BMP designs to DWQ for approval within 6 months; install the BMP within 6 months of approval; monitor for copper in the stormwater discharge from the BMP on a quarterly basis for a period of 2 years. Samples shall be taken during a representative rain event. Quarterly discharge monitoring reports shall be submitted to DWQ. At the end of the 2-year monitoring period, the permittee shall evaluate the effectiveness of the iBMP in conjunction with DWQ. At that time, the permit may be modified based on this evaluation; /2na�nd 3. Spill Prevention and Response Plan. The Spill PreventiResponse Plan (SPRP) shall incorporate an assessment of potential pollutant?sources based on a materials inventory of the facility. Facility personnel (or team)'responsible for implementing the SPRP shall be identified. A responsible person shall be•on site at all times during facility operations that have the potential to contaminate stormwater runoff through spills or exposure of materials associated with the facility`operations. The SPRP must be site stormwater specific. Therefore; anOil`PCC plan -may be a component of the SPRP, but may not be sufficient to completely address the stormwater aspects of the SPRP. The common elements of the SPCC wiih the,SPRP may be incorporated by reference into the SPRP. // 1 �> 4. Preventative Maintenance and,Good-Housekeeping Program. A preventative maintenance program shall be.developed. The program shall document schedules of inspections and maintenance activities of stormwater control systems, plant equipment and systems. Inspection of material handling areas and regular cleaning schedules of these areas shall be incorporated into the program. 5. Employee Training. Training schedules shall be developed and training provided at a minimum on an annual basis on proper spill response and cleanup procedures and preventative maintenance activities for all personnel involved in any of the facility's operations that have the potential to contaminate stormwater runoff. Facility personnel (or team) responsible for implementing the training shall be identified. Responsible Party. The Stormwater Pollution Prevention Plan shall identify a specific position(s) responsible for the overall coordination, development, implementation, and revision to the Plan. Responsibilities for all components of the Plan shall be documented and position assignments provided. Plan Amendment. The permittee shall amend the Plan whenever there is a change in design, construction, operation, or maintenance that has a significant effect on the potential for the discharge of pollutants to surface waters. The Stormwater Pollution Prevention Plan shall be reviewed and updated on an annual basis. The annual update Part Il Page 3 of 10 Permit No. NCS000122 shall include an updated list of significant spills or leaks of pollutants for the previous three years, or the notation that no spills have occurred. The annual update shall include re -certification that the stormwater outfalls have been evaluated for the presence of non- stormwater discharges. The Director may notify the permittee when the Plan does not meet one or more of the minimum requirements of the permit. Within 30 days of such notice, the permittee shall submit a time schedule to the Director for modifying the Plan to meet minimum requirements. The permittee shall provide certification in writing (in accordance with Part III, Standard Conditions, Section B, Paragraph 3) to the Director that the changes have been made. 8. Facility Inspection Program. Inspections of the facility and occur at a minimum on a semi-annual schedule, once durin (January through June) and once during the second half (Ju least 60-days separating inspection dates (unless performed inspection and any subsequent maintenance activities perfo recording date and time of inspection, individual(s)-making description of the facility's stormwater Records of these inspections shall be ii Prevention Plan. These facility inspec stormwater discharge characteristic me Hater systems shall half of the year 11 .',December), with at iuentiv). The ied shall be documented, ie inspection and a narrative equipment and systems. ie Stormwater Pollution from, and in addition to, the in Part II of this permit. 9. Implementation. The permittee shall implement the Plan. The permittee shall document all monitoring, measurements,,i spections'land maintenance activities and training provided to employees, including the log of the sampling data and of actions taken to implement BMPs associated with the/industrial activities, including vehicle maintenance activities. Such documentation.shall be kept on -site for a period of five years and made available to the Director or the Director's authorized representative immediately upon request. PartH Page 4 of ]0 Permit No. NCS000122 SECTION B: ANALYTICAL MONITORING REQUIREMENTS Analytical monitoring of stormwater discharges shall be performed as specified in Table 1. All analytical monitoring shall be performed during a representative storm event. The required monitoring will result in a minimum of ten analytical samplings being conducted over the term of the permit at each stormwater discharge outfall (SDO). A representative storm event is a storm event that measures greater than 0.1 inches of rainfall and that is preceded by at least 72 hours in which no storm event measuring greater than 0.1 inches has occurred. A single storm event may contain up to 10 consecutive hours of no precipitation. For example, if it rains for 2 hours without producing any collectable discharge, and then stops, a sample may be collected if a rain producing a discharge again within the next 10 hours. Table 1. Analytical Monitoring Requirements Discharge Characteristics Units Measurement Frequencyl Sample Type2 Sample Location3 Copper, total recoverable m semi-annuaV Grab SDO Creosote m semi-annual /,._ , . _ Grab SDO Total Suspended Solids mg/L/ < v semi-arinual Grab SDO BOD5 (Biological Oxygen Demand, 5-day) m� i �� semi-annual Grab SDO COD (Chemical Oxygen Demand) \ semi-annual j Grab SDO pH standard semi-annual Grab SDO Total Rainfall4 inches semi-annual ain Gauge Footnotes: I Measurement Frequency: Twice per year during a representative storm event, for each year until either another permit is issued for this facility or until this permit is revoked or rescinded. If at the end of this permitting cycle the permittee has submitted the appropriate paperwork for a renewal permit before the submittal deadline, the permittee will be considered for a renewal application. The applicant must continue semi-annual monitoring until the renewed permit is issued. See Table 2 for schedule of monitoring periods through the end of this permitting cycle. 2 If the stormwater runoff is controlled by a stormwater detention pond, a grab sample of the discharge from the pond shall be collected within the first 30 minutes of discharge. 3 Sample Location: Samples shall be collected at each stormwater discharge outfall (SDO) unless representative outfall status has been granted. 4 For each sampled representative storm event the total precipitation must be recorded. An on -site rain gauge or local rain gauge reading must be recorded. Part II Page 5 of 10 Permit No. NCS000122 The permittee shall complete the minimum ten analytical samplings in accordance with the schedule specified below in Table 2. A minimum of 60 days must separate Period 1 and Period 2 sample dates unless monthly monitoring has been instituted under a Tier Two response. Table 2. Monitoring Schedule Monitoring periodt'Z Sample Number Start End Year 1 — Period 1 1 August 1, 2008/\ January 31, 2009 Year 1 — Period 2 2 February 1;,2b09^ \ ,July 31, 2009 Year 2 — Period 1 3 August f,'2Q09 �_ jJanuary 31, 2010 Year 2 — Period 2 4 Feb ruary,l 2010 July 31, 2010 Year 3 — Period 1 5 Augusrl- 2010 January 31, 2011 Year 3 — Period 2 6 Febtuary,l, 201 T July 31, 2011 Year 4 — Period 1 7 1August 1,12011 January 31, 2012 Year 4 —Period 2 8 JlFebruaryil, 2012 July 31, 2012 Year 5 — Period 1 9 \August 1, 2012 January 31, 2013 Year 5 —Period 2 10 \Feb'ruary 1, 2013 July 31, 2013. Footnotes: 1 Maintain semi-annual monitoring during permit renewal process. The applicant must continue semi-annual monitoring until the renewed permit is issued. // 2 If no discharge occurs during the sampling. period, the permittee must submit a monitoring report indicating "No Flow" within 30 days of the end of the six-month sampling period. Monitoring results shall be compared to the benchmark values in Table 3. The benchmark values in Table 3 are not permit limits but should be used as guidelines for the permittee's Stormwater Pollution Prevention Plan (SPPP). Exceedences of benchmark values require the permittee to increase monitoring, increase management actions, increase record keeping, and/or install stormwater Best Management Practices (BMPs) in a tiered program. See below the descriptions of Tier One and Tier Two. Total Recoverable Copper (Cu) is not subject to the increased monitoring requirements of Tier Two! All previous years of data for this site showed values of Cu above the benchmark. The facility and will continue, to investigate the source of Cu in stormwater discharges form the facility. In addition, the site will continue to make improvements through site modifications and stormwater controls in order to reduce the Cu in stormwater discharges as per Part II, Section A.2d. These site modifications and Cu sampling will be re-evaluated no later than the next permit term. Updates of this process will be provided in writing to DWQ on an annual basis at a minimum: PartIl Page 6 of 10 Permit No. NCS000122 Table 3. Benchmark Values for Analytical Monitoring Discharge Characteristics units Benchmark Copper, total recoverable mg/L 0.007 Creosote mg/L. 0.3 Total Suspended Solids mg/L 100 BOD5 (Biological Oxygen Demand, 5-day) mg/L 30 COD (Chemical Oxygen n �U Demand) mgf �120�\� pH standard Tier One n e sampling results are above a�benchmark value, or outside of the benchmark range, for any ameter at any outfall; Then: The permittee shall: I . Conduct.a stormwater management inspection of the facility within two weeks of receiving sampling results. 2. Identify and evaluate possible causes of the benchmark value exceedence. 3. Identify potential, and select the specific: source controls, operational controls, or physical improvements to reduce concentrations of the parameters of concern, or to bring concentrations to within the benchmark range. 4. Implement the selected actions within two months of the inspection. 5. Record each instance of a Tier One response in the Stormwater Pollution Prevention Plan. Include the date and value of the benchmark exceedence, the inspection date, the personnel conducting the inspection, the selected actions, and the date the selected actions were implemented. Part 11 Page 7 of 10 Permit No. NCS000122 Tier Two If: During the term of this permit, the sampling results are above the benchmark values, or outside of the benchmark range, for any specific parameter at a specific discharge outfall two times in a row tconsecunve); Then: The permittee shall: 1. Repeat all the required actions outlined above in Tier One. 2. Immediately institute monthly monitoring for all parameters at every outfall where a sampling result exceeded the benchmark value for two consecutive samples. Monthly (analytical and qualitative) monitoring shall continue until three consecutive sample results are below the benchmark values, or within the benchmark range, for all parameters at that outfall. X >_ 3. If no discharge occurs during the sampling period, the.permittee is required to submit a monthly monitoring report indicating "No Flow," - 4. Maintain a record of the Tier Two response, in the;Sormwater Pollution Prevention Plan. During the term of this permit, if the valid sampling results required for the permit monitoring periods exceed the benchmark value, or re outside the benchmark range, for any specific parameter at any specific outfall on more than four occasions, the permittee shall notify the DWQ Regional Office Supervisor in writing within 30 days of receipt of the fourth analytical results. DWQ may, but is not limited to: • require that the permittee increase or decrease the monitoring frequency for the remainder of the permit; • require the permittee to install structural stormwater controls; • require the permittee to implement other stormwater control measures; or • require that the permittee implement site modifications to qualify for the No Exposure Exclusion. Part 11 Page 8 of 10 Permit No. NCS000122 SECTION C: QUALITATIVE MONITORING REQUIREMENTS Qualitative monitoring requires a visual inspection of each stormwater outfall regardless of representative outfall status and shall be performed as specified in Table 4, and during the analytical monitoring event. Qualitative monitoring is for the purpose of evaluating the effectiveness of the Stormwater Pollution Prevention Plan (SPPP) and assessing new sources of stormwater pollution. In the event an atypical condition is noted at a stormwater discharge outfall, the permittee shall document the suspected cause of the condition and any actions taken in response to the discovery. This documentation will be maintained with the SPPP. Table 4. Oualitative Monitoring Reouirementc Discharge Characteristics Frequencyl Monitoring Location2 Color semi-annual SDO Odor semi-annual iSDO ',, ' Clarity semi-annual / SDO"; Floating Solids semi-annual /; SDO Suspended Solids semi_annual' `' _� DO � �S Foam semi annual, SDO Oil Sheen semi- na nual y SDO Erosion or deposition at the iw semi-annual SDO outfall i Other obvious indicators semi-annual SDO of stormwater pollution Footnotes: I Measurement Frequency: Twice per year during a representative storm event, for each year until either another permit is issued for this facility or until this permit is revoked or rescinded. If at the end of this permitting cycle the permittee has submitted the appropriate paperwork for a renewal permit before the submittal deadline, the permittee will be considered for a renewal application. The applicant must continue semi-annual monitoring until the renewed permit is issued. See Table 2 for schedule of monitoring periods through the end of this permitting cycle. 2 Monitoring Location: Qualitative monitoring shall be performed at each stormwater discharge outfall (SDO) regardless of representative outfall status. SECTION D: ON -SITE VEHICLE MAINTENANCE MONITORING REQUIREMENTS Facilities which have any vehicle maintenance activity occurring on -site which uses more than 55 gallons of new motor oil per month when averaged over the calendar year shall perform analytical monitoring as specified below in Table 5. This monitoring shall be performed at all stormwater discharge outfalls which discharge stormwater runoff from vehicle maintenance PartII Page 9 of 10 Permit No. NCS000122 areas, and in accordance with the schedule presented in Table 2 (Section B). All analytical monitoring shall be performed during a representative storm event. Table 5. Analvtical Monitoring Requirements for On -Site Vehicle Maintenance Discharge Characteristics Units Measurement Fre uenc l Sample Type2 Sample Location3 H standard semi-annual Grab SDO Oil and Grease mg/l semi-annual Grab SDO Total Suspended Solids mg/l semi-annual Grab SDO Total Rainfall4 inches semi-annual Rain gauge New Motor Oil Usage gallons/month semi-annual n Estimate Footnotes: I Measurement Frequency: Twice per year during a representative sto permit is issued for this facility or until this permit is revoked or rest the permittee has submitted the appropriate paperwork for a renewal permittee will be considered for a renewal application. The applicar the renewed permit is issued. See Table 2 for schedule of monitoring cycle. If the stormwater runoff is controlled by a stormwater pond shall be collected within the first 30 mutes of i Sample Location: Samples shall be collected each stormwater runoff from area(s) where vehicle mainten For each sampled representative storm e�L the total gauge reading must be recorded. i nt'fa each year until either another If at the end of this permitting cycle before the submittal deadline, the continue semi-annual monitoring until is through the end of this permitting grab sample of the discharge from the pond. discharge outfall (SDO) that discharges ies occur. precipitation must be recorded. An on -site or local rain Monitoring results shall be compared to the, benchmark values in Table 6. The benchmark values in Table 6 are not permit limits but should be used as guidelines for the permittee's Stormwater Pollution Prevention Plan (SPPP). Exceedences of benchmark values require the permittee to increase monitoring, increase management actions, increase record keeping, and/or install stormwater Best Management Practices (BMPs), as provided in Part II Section B. Table 6. Benchmark Values for Vehicle Maintenance Analytical Monitoring Discharge Characteristics Units Benchmark pH standard 6-9 Oil and Grease mg/L 30 Total Suspended Solids mg/L 100 Part 11 Page 10 of 10 Permit No. NCS000122 PART III STANDARD CONDITIONS FOR NPDES STORMWATER INDIVIDUAL PERMITS SECTION A: COMPLIANCE AND LIABILITY Compliance Schedule The permittee shall comply with Limitations and Controls specified for stormwater discharges in accordance with the following schedule: Existing Facilities already operating but applying for permit coverage for the first time: The Stormwater Pollution Prevention Plan shall be developed and implemented within 12 months of the effective date of the initial permit and updated thereafter on an annual basis. Secondary containment, as specified in Part 11, Section A, Paragraph 2(b) of this permit, shall be accomplished within 12 months of the effective date of the initial permit issuance. New Facilities applying for coverage for the first time and existing facilities previously permitted and applying for renewal under this permit: The Stormwater Pollution- Prevention -Plan shall be developed and implemented prior to the beginning of discharges from the operation of the industrial activity and be updated thereafter on an annual basis. Secondary containment; as specified in Part II, Section A, Paragraph 2(b) of this permit shall be accomplished prior to the beginning of discharges from the operation of the industrial activity. 2. Duty to Comply The permittee must comply with all conditions of thi's4ndividual permit. Any permit noncompliance constitutes a violation of the Clean Water,Act and is, grounds for enforcement action; for permit termination, revocation and reissuance r modification; or denial of a permit upon renewal application. a. The permittee shall comply with standards or prohibitions established under section 307(a) of the Clean Water Act for toxic pollutants within the time provided in the regulations that establish these standards or prohibitions; even if the permit has not yet been modified to incorporate the requirement. b. The Clean Water Act provides that any person who violates a permit condition is subject to a civil penalty not to exceed $27,500 per day for each violation. Any person who negligently violates any permit condition is subject to criminal penalties of $2,500 to $25,000 per day of violation, or imprisonment for not more than 1 year, or both. Any person who knowingly violates permit conditions is subject to criminal penalties of $5,000 to $50,000 per day of violation, or imprisonment for not more than 3 years, or both. Also, any person who violates a permit condition may be assessed an administrative penalty not to exceed $11,000 per violation with the maximum amount not to exceed $137,500. [Ref: Section 309 of the Federal Act 33 USC 1319 and 40 CFR 122.41(a).] C. Under state law, a daily civil penalty of not more than twenty-five thousand dollars ($25,000) per violation may be assessed against any person who violates or fails to act in accordance with the terms, conditions, or requirements of a permit. [Ref: North Carolina General Statutes 143- 215.6A] d. Any person may be assessed an administrative penalty by the Director for violating section 301, 302, 306, 307, 308, 318, or 405 of the Act, or any permit condition or limitation implementing any of such sections in a permit issued under section 402 of the Act. Administrative penalties for Class I violations are not to exceed $11,000 per violation, with the maximum amount of any Class I penalty assessed not to exceed $27,500. Penalties for Class II violations are not to exceed $11,000 Part III Page 1 of 8 Permit No. NCS000122 per day for each day during which the violation continues, with the maximum amount of any Class 11 penalty not to exceed S 137,500. 3. Duty to Mitigate The permittee shall take all reasonable steps to minimize or prevent any discharge in violation of this individual permit which has a reasonable likelihood of adversely affecting human health or the environment. 4. Civil and Criminal Liabilitv Except as provided in Part III, Section C of this permit regarding bypassing of stormwater control facilities, nothing in this individual permit shall be construed to relieve the permittee from any responsibilities, liabilities, or penalties for noncompliance pursuant to NCGS 143-215.3, 143-215.6A, 143-215.613, 143- 215.6C or Section 309 of the Federal Act, 33 USC 1319. Furthermore, the permittee is responsible for consequential damages, such as fish kills, even though the responsibility for -effective compliance may be temporarily suspended. n i' 5. Oil and Hazardous Substance Liability Nothing in this individual permit shall be construed to the permittee from any responsibilities, liabilities, or p under NCGS 143-215.75 et seq. or Section 311 of the I 6. Property Rights The issuance of this individual permi property, or any exclusive privileges, personal rights, nor any infringement 7. Severability on of any legal action or relieve permittee is or may be subject to 1321. ,any property rights in either real or personal rile any injury to private property or any invasion of or local laws or regulations. The provisions of this individual permifaie severable, and if any provision of this individual permit, or the application of any provision of this individual permit to any circumstances, is held invalid, the application of such provision to other circumstances, and the remainder of this individual permit, shall not be affected thereby. 8. Duty to Provide Information The permittee shall furnish to the Director, within a reasonable time, any information which the Director may request to determine whether cause exists for modifying, revoking and reissuing, or terminating the permit issued pursuant to this individual permit or to determine compliance with this individual permit. The permittee shall also furnish to the Director upon request, copies of records required to be kept by this individual permit. 9. Penalties for Tampering The Clean Water Act provides that any person who falsifies, tampers with, or knowingly renders inaccurate, any monitoring device or method required to be maintained under this individual permit shall, upon conviction, be punished by a fine of not more than $10,000 per violation, or by imprisonment for not more than two years per violation, or by both. If a conviction of a person is for a violation committed after a first conviction of such person under this paragraph, punishment is a fine of not more that $20,000 per day of violation, or by imprisonment of not more than 4 years, or both. Part III Page 2 of 8 Permit No. NCS000122 10. Penalties for Falsification of Reports The Clean Water Act provides that any person who knowingly makes any false statement, representation, or certification in any record or other document submitted or required to be maintained under this individual permit, including monitoring reports or reports of compliance or noncompliance shall, upon conviction, be punished by a fine of not more than $10,000 per violation, or by imprisonment for not more than two years per violation, or by both. SECTION B: GENERAL CONDITIONS Individual Permit Expiration The permittee is not authorized to discharge after the expiration date. In ordento receive automatic authorization to discharge beyond the expiration date, the permiltee shalhsubmit forms and fees as are required by the agency authorized to issue permits no later than 180 days prior to the�expiration date. Any penmittee that has not requested renewal at least 180 days priorlto expiration, onanypermittee that does not have a permit after the expiration and has not requested renewal at -least 180 days prior to expiration, will be subjected to enforcement procedures as provided in NCGS § 143j2153.6 and 33 USC 1251 et. seq. 2. Transfers This permit is not transferable to any person Director may require modification or revoca incorporate such other requirements as ihay required to notify the Division in writing it�l 3. Signatory Requirements All applications, reports, or in] a. All applications to be notice to and approval by the Director. The suanceof the permit to change the name and under the Clean Water Act. The Permittee is permitted facility is sold or closed to the Director shall be signed and certified. this individual permit shall be signed as follows: (1) For a corporation: by a responsible corporate officer. For the purpose of this Section, a responsible corporate officer means: (a) a president, secretary, treasurer or vice president of the corporation in charge of a principal business function, or any other person who performs similar policy or decision making functions for the corporation, or (b) the manager of one or more manufacturing production or operating facilities employing more than 250 persons or having gross annual sales or expenditures exceeding 25 million (in second quarter 1980 dollars), if authority to sign documents has been assigned or delegated to the manager in accordance with corporate procedures. (2) For a partnership or sole proprietorship: by a general partner or the proprietor, respectively; or (3) For a municipality, State, Federal, or other public agency: by either a principal executive officer or ranking elected official. b. All reports required by the individual permit and other information requested by the Director shall be signed by a person described above or by a duly authorized representative of that person. A person is a duly authorized representative only if: (1) The authorization is made in writing by a person described above; Part III Page 3 of 8 Permit No. NCS000122 4. 5. (2) The authorization specified either an individual or a position having responsibility for the overall operation of the regulated facility or activity, such as the position of plant manager, operator of a well or well field, superintendent, a position of equivalent responsibility, or an individual or position having overall responsibility for environmental matters for the company. (A duly authorized representative may thus be either a named individual or any individual occupying a named position.); and (3) The written authorization is submitted to the Director. C. Any person signing a document under paragraphs a. or b. of this section shall make the following certification: "I certify, under penalty of law, that this document and all attachments were prepared under my direction or supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based'on my inquiry of the person or i persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledgeand belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for nowing\violations." The issuance of this individual permit does not prohibit the'Directoi from reopening and modifying the individual permit, revoking and reissuing the individual permitor terminating the individual permit as allowed by the laws, rules, and regulations contam�ed in Title•40, Code of Federal Regulations, Parts 122 and 123; Title 15A of the North Carolina Administrative Code, Subchapter 2H .0100; and North Carolina General Statute 143-215.1 et. al. '_1) \ \ % Permit Actions The permit may be modified, revoked .and reissued, or terminated for cause. The notification of planned changes or anticipated noncompliance.does not stay any individual permit condition. SECTION C: OPERATION AND MAINTENANCE OF POLLUTION CONTROLS Proper Operation and Maintenance The permittee shall at all times properly operate and maintain all facilities and systems of treatment and control (and related appurtenances) which are installed or used by the permittee to achieve compliance with the conditions of this individual permit. Proper operation and maintenance also includes adequate laboratory controls and appropriate quality assurance procedures. This provision requires the operation of back-up or auxiliary facilities or similar systems which are installed by a permittee only when the operation is necessary to achieve compliance with the conditions of this individual permit. 2. Need to Halt or Reduce Not a Defense It shall not be a defense for a permittee in an enforcement action that it would have been necessary to halt or reduce the permitted activity in order to maintain compliance with the condition of this individual permit. 3. Bypassing of Stormwater Control Facilities Bypass is prohibited and the Director may take enforcement action against a permittee for bypass unless: Part III Page 4 of 8 Permit No. NCS000122 a. Bypass was unavoidable to prevent loss of life, personal injury or severe property damage; and b. There were no feasible alternatives to the bypass, such as the use of auxiliary control facilities, retention of stormwater or maintenance during normal periods of equipment downtime or dry weather. This condition is not satisfied if adequate backup controls should have been installed in the exercise of reasonable engineering judgment to prevent a bypass which occurred during normal periods of equipment downtime or preventive maintenance; and C. The permittee submitted notices as required under, Part III, Section E of this permit. If the Director determines that it will meet the three conditions listed above, the Director may approve an anticipated bypass after considering its adverse effects. SECTION D: MONITORING AND RECORDS \ _ 1. Representative Sampling i 2. 91 Samples collected and measurements taken, as required herein, shall be characteristic of the volume and nature of the permitted discharge. Analytical sampling shall be performed during a representative storm event. Samples shall be taken on a day and time that is characteristic of,the discharge. All samples shall be taken before the discharge joins or is diluted by any other waste stream, body of water, or substance. Monitoring points as specified in this permit shall not be changed -without notification to and approval of the Director. b ,' Recording Results \, \ For each measurement, sample, inspection o� maintenance activity performed or collected pursuant to the requirements of this individual permit, the permittee shall record the following information: a. The date, exact place, measurements, inspection or maintenance activity; b. The individual(s) who performed the sampling, measurements, inspection or maintenance activity; C. The date(s) analyses were performed; d. The individual(s) who performed the analyses; e. The analytical techniques or methods used; and f. The results of such analyses. Flow Measurements Where required, appropriate flow measurement devices and methods consistent with accepted scientific practices shall be selected and used to ensure the accuracy and reliability of measurements of the volume of monitored discharges. 4. Test Procedures Test procedures for the analysis of pollutants shall conform to the EMC regulations published pursuant to NCGS 143-215.63 et. seq, the Water and Air Quality Reporting Acts, and to regulations published pursuant to Section 304(g), 33 USC 1314, of the Federal Water Pollution Control Act; as Amended, and Regulation 40 CFR 136. Part III Page 5 of 8 Permit No. NCS000122 To meet the intent of the monitoring required by this individual permit, all test procedures must produce minimum detection and reporting levels and all data generated must be reported down to the minimum detection or lower reporting level of the procedure. Representative Outfall If a facility has multiple discharge locations with substantially identical stormwater discharges that are required to be sampled, the permittee may petition the Director for representative outfall status. If it is established that the stormwater discharges are substantially identical and the permittee is granted representative outfall status, then sampling requirements may be performed at a reduced number of outfalls. 6. Records Retention Visual monitoring shall be documented and records maintained at the facility along with the Stormwater Pollution Prevention Plan. Copies of analytical monitoring results shall,alsobe maintained on -site. The permittee shall retain records of all monitoring information, including all calibration and maintenance i r 4.. records and all original strip chart recordings for continuous monitoring instrumentation, and copies of all reports required by this individual permit for a period of at least 5 years from•the date of the sample, measurement, report or application. This period may be extended by request of the Director at any time. Inspection and Entry The permittee shall allow the Director, or an authorized representative (including an authorized contractor acting as a representative of the Director), or in the case of a facility which discharges through a municipal separate storm sewer system, an authorized representative_of municipal operator or the separate storm sewer system receiving the discharge; upon the presentation of credentials and other documents as may be required by law, to; \\�\�/� a. Enter upon the permittee's prises where a regulated facility or activity is located or conducted, or where records must be kept conditions of this individual permit; b. Have access to and copy, at reasonable times, any records that must be kept under the conditions of this individual permit; C. Inspect at reasonable times any facilities, equipment (including monitoring and control equipment), practices, or operations regulated or required under this individual permit; and d. Sample or monitor at reasonable times, for the purposes of assuring individual permit compliance or as otherwise authorized by the Clean Water Act, any substances or parameters at any location. SECTION E: REPORTING REQUIREMENTS Discharge Monitoring Reports Samples analyzed in accordance with the terms of this permit shall be submitted to the Division on Discharge Monitoring Report forms provided by the Director. Submittals shall be received by the Division no later than 30 days from the date the facility receives the sampling results from the laboratory. When no discharge has occurred from the facility during the report period, the permittee is required to submit a discharge monitoring report within 30 days of the end of the six-month sampling period, giving all required information and indicating "NO FLOW" as per NCAC T15A 02B .0506. Part III Page 6 of 8 Permit No. NCS000122 Submitting Reports Duplicate signed copies of all reports required herein, shall be submitted to the following address: Division of Water Quality Surface Water Protection Section ATTENTION: Central Files 1617 Mail Service Center Raleigh, North Carolina 27699-1617 Availability of Reports Except for data determined to be confidential under NCGS 143-215.3(a)(2) or Section 308 of the Federal Act, 33 USC 1318, all reports prepared in accordance with the terns shall be available for public inspection at the offices of the Division of Water Quality. As required by the Act, analytical data shall not be considered confidential. Knowingly making any false statement on any such report may result in the imposition of criminal penalties as provided for in NCGS 143-215N.6B or in Section 309 of the Federal Act. 4. Non-Stormwater Discharges If the storm event monitored in accordance with this individual permit coincides with a non-stormwater discharge, the permittee shall separately monitor all parameters as.required under the non-stormwater discharge permit and provide this information with the stormwater discharge monitoring report. 5. Planned Changes The permittee shall give notice to the ector as soon as possible of any planned changes at the permitted facility which could significantly alter the,nature or quantity of pollutants discharged. This notification i -. requirement includes pollutants which'are not specifically listed in the individual permit or subject to 11 notification requirements under 40.GFR Part 122.42 (a). 6. Anticipated Noncomnliance The permittee shall give notice to the Director as soon as possible of any planned changes at the permitted facility which may result in noncompliance with the individual permit requirements. Bypass a. Anticipated bypass. If the permittee knows in advance of the need for a bypass, it shall submit prior notice, if possible at least ten days before the date of the bypass; including an evaluation of the anticipated quality and affect of the bypass. b. Unanticipated bypass. The permittee shall submit notice within 24 hours of becoming aware of an unanticipated bypass. 8. Twenty-four Hour Reporting The permittee shall report to the central office or the appropriate regional office any noncompliance which may endanger health or the environment. Any information shall be provided orally within 24 hours from the time the permittee became aware of the circumstances. A written submission shall also be provided within 5 days of the time the permittee becomes aware of the circumstances. The written submission shall contain a description of the noncompliance, and its causes; the period of noncompliance, including exact dates and times, and if the noncompliance has not been corrected, the Part III Page 7 of 8 Permit No. NCS000122 anticipated time compliance is expected to continue; and steps taken or planned to reduce, eliminate, and prevent reoccurrence of the noncompliance. The Director may waive the written report on a case -by -case basis if the oral report has been received within 24 hours. 9. Other Noncompliance The permittee shall report all instances of noncompliance not reported under 24 hour reporting at the time monitoring reports are submitted. 10. Other Information Where the permittee becomes aware that it failed to submit any relevant facts in an application for an individual permit or in any report to the Director, it shall promptly submit such facts or information. Part III Page 8 of 8 NCSOOO122 PART IV LIMITATIONS REOPENER This individual permit shall be modified or alternatively, revoked and reissued, to comply with any applicable effluent guideline or water quality standard issued or approved under Sections 302(b) (2) (c), and (d), 304(b) 0I and 307(a) of the Clear, Water Act, if the effluent guideline or water quality standard so issued or approved: a. Contains different conditions or is otherwise more stringent than any effluent limitation in the individual permit; or b. Controls any pollutant not limited in the individual permit. The individual permit as modified or reissued under this paragraphshall al�ntainany other requirements in the Act then applicable. /f �/\ \� // PART V ADMINISTERING AND The permittee must pay the administering and the Division. Failure to pay the fee in,tiinely i Division to initiate action to revoke tlie,lndivi 1. Act See Clean Water Act. 2. 4. in MONITORING FEE ig fee within 30 (thirty) days after being billed by with 15A NCAC 2H .0105(b)(4) may cause this DEFINITIONS Arithmetic Mean The arithmetic mean of any set of values is the summation of the individual values divided by the number of individual values. Allowable Non-Stormwater Discharges This permit regulates stormwater discharges. Non-stormwater discharges which shall be allowed in the stormwater conveyance system are: (a) All other discharges that are authorized by a non-stormwater NPDES permit. (b) Uncontaminated groundwater, foundation drains, air -conditioner condensate without added chemicals, springs, discharges of uncontaminated potable water, waterline and fire hydrant flushings, water from footing drains, flows from riparian habitats and wetlands. (c) Discharges resulting from fire -fighting or fire -fighting training. Best Management Practices (BMPs) Measures or practices used to reduce the amount of pollution entering surface waters. BMPs may take the form of a process, activity, or physical structure. Parts IV, V and VI Page 1 of 5 Permit No. NCS000122 5. Bypass A bypass is the known diversion of stormwater from any portion of a stormwater control facility including the collection system, which is not a designed or established operating mode for the facility. 6. Bulk Storage of Liquid Products Liquid raw materials, manufactured products, waste materials or by-products with a single above ground storage container having a capacity of greater than 660 gallons or with multiple above ground storage containers located in close proximity to each other having a total combined storage capacity of greater than 1,320 gallons. 7. Clean Water Act The Federal Water Pollution Control Act, also known as the Clean+Water Act (CWA), as amended, 33 USC 1251, et. seq. 8. Division or DWO The Division of Water Quality, Department of 9. Director The Director of the Division of Water,Quality; the permit issuing authority. 10. EMC The North Carolina 11. Grab Sample An individual sample collected instantaneously. Grab samples that will be directly analyzed or qualitatively monitored must be taken within the first 30 minutes of discharge. 12. Hazardous Substance Any substance designated under 40 CFR Part 116 pursuant to Section 311 of the Clean Water Act. 13. Landfill A disposal facility or part of a disposal facility where waste is placed in or on land and which is not a land treatment facility, a surface impoundment, an injection well, a hazardous waste long-term storage facility or a surface storage facility. 14. Municipal Separate Storm Sewer System A stormwater collection system within an incorporated area of local self-government such as a city or town. 15. No Exposure A condition of no exposure means that all industrial materials and activities are protected by a storm resistant shelter or acceptable storage containers to prevent exposure to rain, snow, snowmelt, or runoff. Industrial materials or activities include, but are not limited to, material handling equipment or activities, Part VI Page 2 of 5 Pages Permit No. NCSOOO122 industrial machinery, raw materials, intermediate products, by-products, final products, or waste products. DWQ may grant a No Exposure Exclusion from NPDES Stormwater Permitting requirements only if a facility complies with the terms and conditions described in 40 CFR §122.26(g). 16. Overburden Any material of any nature, consolidated or unconsolidated, that overlies a mineral deposit, excluding topsoil or similar naturally -occurring surface materials that are not disturbed by mining operations. 17. Permittee The owner or operator issued a permit pursuant to this individual permit. 18. Point Source Discharge of Stormwater Any discernible, confined and discrete conveyance including, but not specifically limited to, any pipe, ditch, channel, tunnel, conduit, well, or discrete fissure from which stormwatei is or may be discharged to waters of the state. /l , 19. Representative Storm Event A storm event that measures greater than 0.1 inches of rainfall and that is preceded by at least 72 hours in which no storm event measuring greater than 0.1 inches has occurre& A single storm event may contain up to 10 consecutive 11 hours of no precipitation. For example, if it rains for 2 hours without producing any collectable discharge, and then stops, a sample may be collected if a raih,produccing a discharge begins again within the next 10 hours. 20. Representative Outfall Status When it is established that the discharge of stormwater runoff from a single outfall is representative of the discharges at multiple outfalls, the DWQ may/grant representative outfall status. Representative outfall status allows the permittee to perform analytical monitoring at a reduced number of outfalls. 21. Rinse Water Discharge i 22. 23 The discharge of rinse water from equipment cleaning areas associated with industrial activity. Rinse waters from vehicle and equipment cleaning areas are process wastewaters and do not include washwaters utilizing any type of detergent or cleaning agent. Secondary Containment Spill containment for the contents of the single largest tank within the containment structure plus sufficient freeboard to allow for the 25-year, 24-hour storm event. Section 313 Water Priority Chemical A chemical or chemical category which: a. Is listed in 40 CFR 372.65 pursuant to Section 313 of Title III of the Superfund Amendments and Reauthorization Act (SARA) of 1986, also titled the Emergency Planning and Community Right - to -Know Act of 1986; b. Is present at or above threshold levels at a facility subject to SARA Title I11, Section 313 reporting requirements; and C. That meet at least one of the following criteria: Part VI Page 3 of 5 Pages Permit No. NCS000122 (1) Is listed in Appendix D of 40 CFR part 122 on either Table II (organic priority pollutants), Table III (certain metals, cyanides, and phenols) or Table IV (certain toxic pollutants and hazardous substances); (2) Is listed as a hazardous substance pursuant to section 311(b)(2)(A) of the CWA at 40 CFR 116.4; or (3). Is a pollutant for which EPA has published acute or chronic water quality criteria. 24. Severe Property Damage Means substantial physical damage to property, damage to the control facilities which causes them to become inoperable, or substantial and permanent loss of natural resources which can reasonably be expected to occur in the absence of a bypass. Severe property damage does -not mean economic loss caused by delays in production. 25. Significant Materials Includes, but is not limited to: raw materials; fuels; materials such as.solvents, detergents, and plastic pellets; finished materials such as metallic products; raw m to erials used,in food processing or production; hazardous substances designated under section 101(14) of CERCLA; any chemical the facility is required to report pursuant to section 313 of Title III of SARA;;fertilizers; pesticides; and waste products such as ashes, slag and sludge that have the potential to be released with(stormwater discharges. <� 26. Significant Spills � \� Includes, but is not limited to: releases" foil'\ ardous substances in excess of reportable quantities under section 311 of the Clean Water Act (Ref: 40 CFR 110.10 and CFR 117.21) or section 102 of CERCLA (Ref: 40 CFR 302.4). / � 27. Stormwater Runoff The flow of water which results from precipitation and which occurs immediately following rainfall or as a result of snowmelt. 28. Stormwater Associated with Industrial Activity The discharge from any point source which is used for collecting and conveying stormwater and which is directly related to manufacturing, processing or raw material storage areas at an industrial site. Facilities considered to be engaged in "industrial activities" include those activities defined in 40 CFR 122.26(b)(14). The term does not include discharges from facilities or activities excluded from the NPDES program. 29. Stormwater Pollution Prevention Plan A comprehensive site -specific plan which details measures and practices to reduce stormwater pollution and is based on an evaluation of the pollution potential of the site. 30. Ten Year Design Storm The maximum 24 hour precipitation event expected to be equaled or exceeded on the average once in ten years. Design storm information can be found in the State of North Carolina Erosion and Sediment Control Planning and Design Manual. Part VI Page 4 of 5 Pages Permit No. NCS000122 31. Total Flow The flow corresponding to the time period over which the entire storm event occurs. Total flow shall be either; (a) measured continuously, (b) calculated based on the amount of area draining to the nutfatl, the amount of built -upon (impervious) area, and the total amount of rainfall, or (c) estimated by the measurement of flow at 20 minute intervals during the rainfall event. 32. Total Maximum Daily Load (TMDL) A TMDL is a calculation of the maximum amount of a pollutant that a waterbody can receive and still meet water quality standards, and an allocation of that amount to the pollutant's sources. A TMDL is a detailed water quality assessment that provides the scientific foundation for an implementation plan. The implementation plan outlines the steps necessary to reduce pollutant loads in a certain body of water to restore and maintain water quality standards in all seasons. The Clean Water Act, section 303, establishes the water quality standards and TMDL programs. 33. Toxic Pollutant Any pollutant listed as toxic under Section 307(a)(1) of the Clean Wit 34. Upset \\, Means an exceptional incident in which there is unintentional and temporary noncompliance with technology based permit effluent limitations because of factors beyond the reasonable control of the permittee. An upset does not includcnoncomplianceto the extent caused by operational error, improperly designed treatment or control facilities, imidequate treatment or control facilities, lack of preventive maintenance, or careless or improper,operation. 35. Vehicle Maintenance Activity Vehicle rehabilitation, mechanical repairpainting, fueling, lubrication, vehicle cleaning operations, or airport deicing operations. 36. Visible Sedimentation Solid particulate matter, both mineral and organic, that has been or is being transported by water, air, gravity, or ice from its site of origin which can be seen with the unaided eye. 37. 25-year, 24 hour storm event The maximum 24-hour precipitation event expected to be equaled or exceeded, on the average, once in 25 years. Part VI Page 5 of 5 Pages GENERAL TIMBER, INC. CHATHAM COUNTY ,,. NCS 000122 SAMPLING EVENT DATE: /0 PERMIT PART I, SECTION 2, b, 6(2): VISUAL MONITORING STORMWATER DISCHARGE CHARACTERISTICS SDO-001 SDO-003 Color L� !r f t3 Ora e- a ay Odor Clarity Floating SolidsPres- Suspended Solids�,e re�sP.¢�bc�lrrtsa,/ �reoE�cf- Foam Oil Sheen Other Various Indications of Stormwater Pollution SAMPLING EVENT DATE:101544 j I — PERMIT PART I, SECTION 2, c, g(1): ANALYTICAL MONITORING STORMWATER DISCHARGE CHARACTERISTICS SDO-001 SDO-003 Arsenic(mg/L) �.0�/� 0,0/4a Total Chromium (mg/L) p , 0 3 l° 0. 03Sj Total Copper (mg/L) Total Suspended Solids (mg/L) Total Rainfall (inches) Event Duration (minutes) 76- ]5� Total Flow (gal.) JUL 0 S 2008 Stormwater Sampling Event General Timber, Inc. ' I Samples were collected and analyzed for TI EPA Methods 160.2 and 200.7, respectively. i summarized in Table 1. Cut-off concentra included in the original NPDES Permit. Thei obtained from Mr. Tony Evans from the Dep Resources - Division of Environmental Mane The stormwater sampling results indicate Suspended Solids (TSS) for one outfall for or for both the August 9 and September 3 saml 9 sampling event of Outfall No. 001 was 338 limit of 100 mg/L. October 8, 1996 S&ME Job No. 1054-93-108 Suspended Solids (TSS) and metals by e laboratory results from these events are Is for the sampling parameters were not -off concentrations listed in Table 1 were lent of Environment, Health, and Natural 'nent, Stormwater Section. hat all sample parameters except Total sampling event were within the cut-off limits ig events. The TSS results for the August g/L, thus exceeding the established cut-off Table .1: Laboratory Analytical Results I . Bi-Annual Sampling Event General Timber, S&ME'Job No. 1054-93-108 Compound Outfall No. 001 :. Outfall No : 003. NPDES 8/9/96 ; 913/96 819/96 9/3/96 Cut-Offs' Total Suspended Solids 3387m—g/L I17 mg/L 83 mg/L 38 mg/L 100 mg/L Arsenic 15.5 Ng/L F BQL 36.8 pg/L 38.6 ug/L 360 pg/L Chromium 24.9 pg/L 6.991Ng/L 37.4 leg/L 34.5 pg/L 984 pg/L Copper 28 2-17g/L 0219�149X `..5;:;7� _ , _ `21=1=pg t N/A Total Rainfall 0.6 in 10.6 in 0.8 in 0.8 in Event Duration 65 mins 65'mins 169 mins 169 mins Total Flow* —90 gals 710jigals —205 gals —330 gals NW - Not Applicable GENERAL TIMBER, INC. CHATHAM COUNTY NCS 000122 SAMPLING EVENT DATE: PERMIT PART 1, SECTION 2, b, g(2): VISUAL MONITORING STORMWATER DISCHARGE CHARACTERISTICS SDO-001 SDO-003 Color Odor Clarity Floating Solids S orne_ y Y("SQ Suspended Solids J / f Foam o h e ohe Oil Sheen Other Various Indications of Stormwater Pollution I h ov\e- SAMPLING EVENT DATE: PERMIT PART 1, SECTION 2,1,c, g(1): ANALYTICAL MONITORING STORMWATER DISCHARGE CHARACTERISTICS SDO-001 SDO-003 Arsenic (mg/L) Total Chromium (mg/L) L Q C C, 0 Total Copper (mg/L)O�e�O Total Suspended Solids (mg/L) I Q , i ;� • C Total Rainfall (inches) Event Duration (minutes) Q i-n'l n Total Flow (gal.) Mr. Art Williams General Timber, Inc December 1, 1999 Page 3 Water samples were collected and analyzed for Total Suspended Solids (TSS) using EPA Method 160.2 (Outfalls 001 and 003), Total Metals using SW846 6010B (Outfalls 001 and 003), and Oil and Grease using SW846 9070,(Outfall 002). According to Mr. Greg Williams with General Timber, the analytical requested for oil and grease was actually for samples collected from Below Shop Area. The Chain -of -Custody dated 9/28/99 was labeled incorrectly. The sample ID location marked SDO-002 for oil and grease should have been labeled Below Shop Area. Table 1 is a summary of the laboratory analytical results. The NPDES permit does not list cut-off concentrations for the referenced compounds. Table It > k 19" Stormwater Sampling Eyent "boratory.Analyfical Results - .. - ... .. := General Jlmbeir; Sanford, NC.; NP13U ;NCS600122 o- Compound Outfall,SDO-001 a",0utfal1:S00-003 BelowSho Area' 9/28/99."- a ` r a.9%15/99. - I 1`' '..9/28/99 9/28/99 < "` TSS 75 t;107- Z:4,73r7 25 NA Arsenic 0.0273 0201 0.0,165 BQL NA Chromium BQL 0.0771 BQL BQL NA Copper 046 Oi06.8£ - Oi03 3 BQL NA Lead 0.0104 BQL BQL BQL NA Oil & Grease NA NA NA NA 1.3 TSS - Total Suspended Solids I NA - Not Analyzed All units in milligram/liter (mg/1) BQL - Below Quantitation Limits - *Note: These are incorrectly labeled as SDO-003 on the chain -of -custody Closure UTTS/E appreciates the opportunity to work with you in this capacity. Please call us if you have any questions at (252) 758-0001. Sincerely, UTTS ENVIRONMENTAL . ''tCt j 2u lG¢ Susan L. Dou h1iez Ka rina L. Lueck Project Manager Project Professional cc UTTS/Files Mr. Art Williams December 12, 2000 Page 2 TABLE�1 2000 Stormwater Sampling Eventiaboratory Analytical Results General Timber, Sanford; Chatham Co., NC NPDES NCS000122 Compound Outfall SDO-001• : i 1 . Outfall SD04)03 3/20/00 7/25/00 3/20/00 7125/00 TSS 52 mg/I i420 mg-V 45 mg /1 19.3 mg/I Arsenic 0.0395 m l 27 1 0.0100 m 1 51 1 Chromium BQL 24 I O.Olo rn 1 tANAd Co er to'0203_ I er30:µ 00209Tii Lead BQL NA O.OIO0 m I BQL - Below Quantitation Limits NA - Not Analyzed The annual arithmetic mean for TSS at Outfall SDO-001 (48.5 mg/1) and Outfall SDO- 003 (69.65 mg/1) is below the permit TSS cut-off concentration of 100 mg/l. According to the stormwater permit, "if the arithmetic mean is less than the specified cut-off concentration for a given parameter, then the facility is not required to continue annual analytical monitoring for that parameter (at that outfall) during the remaining term of the permit unless a significant change in facility operations or configuration occurs. If a cut- off concentration results in discontinued analytical monitoring at an individual discharge outfall, the permittee is required to maintain facility operations that ensure the continuation of stormwater runoff quality." Tile permit also states "the permittee must perform analytical sampling during the first and last year of the permit coverage regardless of cut-off concentration conditions." Closure UTTS, a division ofNESCO, Inc. appreciates the opportunity to work with you in this capacity. Please call us if you have any questions at (252) 758-0001. Sincerely, UTTS, a division of NESCO, Inc. C� Q y c c,yy{t t Susan Lau�ltin house Dougtttie" Project Manager cc UTTS Files LEPEND ACCESS/EVACUATION ROUTES ■ MONITOR WELL BOUNDARY LINE — —DITCH LINE °— FENCE LINE 0 EXISTING IRON PIPE WATER VALVE ■ WATER METER `QT UTILITY POLE o TELEPHONE PEDESTAL 0 8" TERRA COTTA PIPE LEGEND FOR STORAGE TANKS: 1— WATER 2— FUEL OIL 3— CCA SOLUTION 4— CREOSOTE 5— CCA CONCENTRATE 6— NATURAL GAS 7— PESTICIDE 8— WASTE WATER �Q/ C4S LEGEND FOR PROCESS AREAS: A— TIMBER RECEIVING AND SORTING B— TREE —LENGTH DEBARKING C— POST AND POLE SIZING D— CHIPPING E— POLE AND RAIL BEVELING AND SPLITTING F— KILN DRYING G— WOOD TREATING NARRATIVE DESCRIPTION OF STORAGE PRACTICES AND PROCESSES: w a' 1. Fresh cut, tree length timbers, clear wood, and treated lumber are stored in exterior storage areas on —site. Treated lumber is also stored under a canopy roof. 2. Wood processing by—products (bark, sawdust wood chips) are stored at designated locations on —site prior to recycling or re —use. OUTFALL 3. Treated wood is staged on a covered drip pad after being removed from the two treatment cyclinders. SDO-00-- The processed wood remains staged on the drip pad until the liquid residues have completely drained 226` "� ".� ?\�- from the bundles. ✓ j \`� \ \� 4. Treatment chemicals (creosote, CCA) are stored in tanks that are located within properly —sized secondary containment structures. 5. Diesel fuel is stored in tanks that are located with properly —sized secondary containment structures. j j wl \\w '� w 234 !I l � i I I DR�NAGE-AREA �w ��a vw w m w w `$ .Y I OU ALL SDb-*3 1 1 V W6- ZW' I \ \J / •� W w w v' w) J' I ! li/ �N INS / ND yr •� W,�b a-++ io 0 \ i�� _ �'v -i J� y W w W W •Y� 'v� 17 rn °��° w w w Ni18 V%��_BMW-t w- [I11 w0 W w W w. I, w 24 •�� •MN , FORMER � M ,6 ,-t \ �� Nw-13 IMPOUNDMENT W \ _ o 21 - ... �` \� \ \• 23 / , � -.Y / •y 21.} .y w .�N V.y O ` � w l\ //j/ + •Y / .Y / .� d y w W LL' i w !-_ ��.: a 2ffia-.___ ��_v—`��\\ v7_4 t •i,_�� STORA� �` ° 3e - �. - �w/' jr, �F10P , J/ CHIPS AND ' I �� \\o tt I � r � t u- �rj°j I 1 A _ 11 ggg TANK"'. - ax SHED 3, ! .B �� •Y WHITE WODO STORAW), \ - PIXE BARN BENCHMARK \ '\ TOP COLUMN fOOTN \ - ELEv 252.,8 tiY 14, 9. TREATED \ Q�T; SHED (v O ) wO TE { / ) ! NEL ( \ STORAGE, _ '� COVERED } v A 1 DRIP PADS --� )•`/ t A W 1 1, 1 w \ \ DIP TANK/��1�1,.� � SHED' T ,r IEARAWIIA FEE1. Y Y I zn a \ PPE ¢[v KILN � w a TREE feARKo each NINE ENTRlJiCE ° — I� _ , O � TIMBER u i SB 8 0 TREATED WOOD STORAGE A S r;. SBOAACE O d//1 /, I !I i l j ISCAN� TROOF 1 J "f 7�/;, ;' I MON. HELL G ! I (Z1506 ALS) CS ELEV-25e T6 ! � '- � `21' vss� � 1S' of ,y� I •y IFfi WHITE WOOD 0 > LL m + EAIEa WOm STORAGE v e. �. w w 1EATED S1DR E b y m m Y DRAINAGE AREA LL' T ; v w \ / / I EIEV-241{.58 W J' w .,' •L 'Y l ,+Y �,a. '1>'Y W OI TREATED WOOD STORAGEQt,, INV- 80 W y �• �� _ BARKY STOftAGEi w � _ xx ., lE9 TED 1W]OD AGE W TREAIF.D WOOD STORAGE WHITE WOOD f 0-! 3 TREATED WOOD STORAGE ` 4 ,W J. ncER r _ w 0 o f \ O TREATED Wood STORAGE OUTFALL o �" ' j .Y v- I �+v- .y . — y w _.-_�1 W W �W _ •„ SDO-001 W w w y 4'C `w '1' v+ -„�_ V�_"`�� •v ° O �i '--` N 2 0, 169.59' S79 w 418.32' DRAINAGE AREA OUTFALL S99-001 MON. WELL N ELEV-260.12 mod. WELL I GS ELEV-257.AS 8-6-257.61 GY ELEV-25SI4 NOTES: 1—VERTICAL DATUM BASED ON NCGS STATION CHA 4. NGVD 29 ELEVATION 290.259' 2— BOUNDARY INFORMATION TAKEN FROM MAP ENTITLED "GENERA_ TIMBER, INC., OAKLAND TOWNSHIP' CHATHAM COUNTY, 2-20-88" BY ANDY WILLETT, RES. 3— RECEIVING STREAM GEORGES CREEK, STREAM CLASS: C, SUB —BASIN: 03-06-11 CAPE FEAR RIVER BASIN IS NOT ON NORTH CAROLINA'S 303 (d) LIST AND IS NOT LOCATED IN A WATERSHED FOR WHICH A TMDL HAS BEEN ESTABLISHED. AS -BUILT SURVEY FOR: NEP\\\-xkL THMEBIGR9 HNCO 625 FARMVILLE MINE ROAD SANFORD, N.C. 27330 OAKLAND TOWNSHIP, CHATHAM COUNTY NORTH CAROLINA JANUARY 13, 2003, MAY 28, 2008 (revised) SURVEYOR: JEFFREY L. GREEN 5322 BIG OAK CHURCH ROAD EAGLE SPRINGS , N.C. LEGEND ACCESS/EVACUATION ROUTES ® MONITOR WELL — BOUNDARY LINE —...—DITCH LINE FENCE LINE 0 EXISTING IRON PIPE �a WATER VALVE ■ WATER METER 9D� UTILITY POLE o TELEPHONE PEDESTAL 0 8" TERRA COTTA PIPE LEGEND FOR STORAGE TANKS: 1— WATER 2— FUEL OIL 3— CCA SOLUTION 4— CREOSOTE 5— CCA CONCENTRATE 6— NATURAL GAS 7— PESTICIDE 8— WASTE WATER LEGEND FOR PROCESS AREAS: A— TIMBER RECEIVING AND SORTING B— TREE —LENGTH DEBARKING C— POST AND POLE SIZING D— CHIPPING E— POLE AND RAIL BEVELING AND SPLITTING F— KILN DRYING G— WOOD TREATING i NARRATIVE DESCRIPTION OF STORAGE PRACTICES AND PROCESSES: 1. Fresh cut, tree length timbers, clear wood, and treated lumber are stored in exterior storage areas w w w w w w SSv on —site. Treated lumber is also stored under a canopy roof. 2. Wood processing by—products (bark, sawdust wood chips) are stored at designated locations on —site prior to recycling or re —use. OUTFALL w w y 3. Treated wood is staged on a covered drip pad after being removed from the two treatment cyclinders. SDO-003 The processed wood remains staged on the drip pad until the liquid residues have completely drained from the bundles. 4. Treatment chemicals (creosote, CCA) are stored in tanks that are located within properly —sized", secondary containment structures. 5. Diesel fuel is stored in tanks that are located with properly —sized secondary containment structures. w A Z o f A N � O� v ✓� w w' w w w 'L W w' f , T C3 \Y MW-21 'v W' w w w w w w v ✓ ' w 'i w ,v v, W •v wMW-A w W v w O DRAINAGE AREA OUTFALL SDO-003 w v w •-0 o W w w w W V• a '�y W-22 !MW-12 % O Y OD v w V+ w W w w W W •Y v - VA .', w J�a .' V, w •l' w w w w 6gMW-18 W-q W�MW-'D w w d• w w w •Y� ' MW-11 0 MW-16D •MW-24 O w w w •Y w w' .1 _ FORMER MW-18 y yMW-13 v IMPOUNDMENT n, (CLOSED) o � To4,'� BMW-15w SUMP CAMU w - o w w, w w w w w w w w w V MWC Y• 32 �MW-QfH O _` �n3^o,`lic w r . � '- v _ MW-14.;, w w o w ,v w w w a -: 3 •v MW-F •- •MW-E ,r w "Y ✓ Jw w w w W w w W w W w r '> w v- .y .202,00' � BARKY STORAGE m w w w w wh, w O w w v w �. w w ✓ w JI� C SHOP/ CHIPS AND t� SAWDUST O� -+L � v w w w b "v v ww ! � ♦ v w L W W •L W t .. ✓ w w w im�i 14- OJ Eh' P[v-¢n Ia TANK'' 'tea L PLANT 4 FARM 0 p w w t w p 1 RlP f Tts �_— l Q ' 2.1 SHED 6@) e0�'P v w v w w 1 Rti t WHITE WOOD STORAGE JJJ 1 F ' POLE BARN BENCHMARKTOP :• w ELEV 25218 FWEN SHED -'17 / CHIPS AND Y `1 `✓ `✓ `•' 9%. O TREATED p FUEL TANK SAWDUST STORAGE COVERED DRIP PADS .: AR w w vi v u W% DIP TANK w w SHED, ! 12' TERRACOTTA WE y w w w �. , �4 iCP Cf PPE 2H.3T 1 KILN 4N w Jr 1 s,1 \ ,e.��pq]_� TREE -LENGTH BARNO BOOM afi r, MINE ENTRPNCE r �Y EMBER ®� L1 W$8$J2S'DStE 0— ';'si eT 104 MON. WELL G ELEV-261.13 GS EtEV-25876 -;k w - "'S.` r w w p TREATED WOW STORAGE R ,v^(=' 1� STORAGE k �► BAFKY �, w w �'. Tm Y nAsnc H STORAGE V i DIESEL FUEL TANK w w CANOPY ROOF (]500 GALS) TQ r EIE-245.i wsrc f8 v-2Zi5 i � / \ �SHER �1REATED WOOD STORAGE 1 - w ,✓ v �w v //1 w v 41t [� WHITE HOOD v w w w 4 .✓ `L w TREATED STOR wa TREATED WOW STORAGE ry � DRAINAGE i 4 AREA \ WHITE woW .y CCBB 22 gLEY 24d.56 �'` " ,• L- v v .v v r + w / w w w 'a, w W iw1. •y. w / '� TREATED WOOD STORAGE v w . v �J' w v' V' w go BARKY STORAGE w � 'i b& V' w\✓ ,L \ "9 ,�,„` v •r y✓'•-E: 3» 4 ,� w w w ,,. W \ TR TEDTORA\ D w Y � w� v^ .- S W •v w V � w W v w w EATED WOW W \ v \ v J \ \w v\y TREATED WOOD STORAGE WHITE W000 Oy \ ti Vh ,,� �� .y'� � v _� w W w W �l .y w •L W v W w w [ w TREATED WOW STORAGE neER CAT 0 w w y w w w v w v � o ., •Y- M v 6' u W\ w w w m w w (_i Y ,y W w w TREATED WOW STORAGE OUTFALL v w w ,� w w w w-..� �,` ,y SDO-001 2' 172.1 w w w m. 0 MOH. WELL H EIFV-260.12 MONWELL I S GS EREV-257.45 R N-257.61 GS ELEV-255.14 N78.eve w w . 7�- DRAINAGE AREA "• Y w w - w w w OUTFALL SDO-001 a19.53' Q��c=od[� JUL 0 8 2008 DENR - IN R WALI Wetlands & 9tarnEvater grand, NOTES: 1—VERTICAL DATUM BASED ON NCGS STATION CHA 4. NGVD 29 ELEVATION 290,259' 2— BOUNDARY INFORMATION TAKEN FROM MAP ENTITLED "GENERAL TIMBER, INC., OAKLAND TOWNSHIP' CHATHAM COUNTY, 2-20-8811 BY ANDY WILLETT, RLS. 3— RECEIVING STREAM GEORGES CREEK, STREAM CLASS: C, SUB —BASIN: 03-06-11 CAPE FEAR RIVER BASIN IS NOT ON NORTH CAROLINA'S 303 (d) LIST AND IS NOT LOCATED IN A WATERSHED FOR WHICH A TMDL HAS BEEN ESTABLISHED. T S-BUILT SURVEY FOR: ENERAL THMTJDD)J� 9 HNC. 625 FARMVILLE MINE ROAD SANFORD, N.C. 27330 OAKLAND TOWNSHIP, CHATHAM COUNTY NORTH CAROLINA JANUARY 13, 2003, MAY 28, 2008 (revised) i f uy, 'r: m. 1 elt - 80 f", 32G. SURVEYOR: JEFFREY L. GREEN 5322 BIG OAK CHURCH ROAD EAGLE SPRINGS , N.C. General Timber, Inc. Pressure Treated Wood Products 625 Farmville Mine Road Sanford, NC 27330 Phone: (919) 774-6213 Fax: (919) 776-8015 Email: sales@generaltimber.net • Website: www.genera ltimber.ne A T m W 7 February 2008 Mr. Robert D. Patterson, P.E. North Carolina Division of Water Quality o 1617 Mail Service Center n Raleigh, NC 27699-1617 Ref: Draft NPDES Stormwater Permit No. NCS000122 General Timber, Inc., Sanford, Chatham County, NC Dear Mr. Patterson: General Timber, Inc. has reviewed the draft NPDES stormwater permit dated January 9, 2008 and wishes to submit the following questions and comments for your consideration: 1. What is the technical rationale for the addition of COD, BOD, and pH to the analytical monitoring requirements in the draft permit? 2. Table 3 of the draft permit includes a Benchmark Value for total recoverable copper of 0.007 mg/L (7 ug/L). This value is well below the historical copper data that was reported under the ori;inal permit. For example, in reporting years 1999 and 2000, copper levels of 0.0464 and 0.0201 me/L, respectively, were . reported for samples collected at outfall SDO-001. Assuming that these historical copper values are representative of current conditions, the facility may exceed the Benchmark Value and be subject to the Tier I guidelines after the initial monitoring event and Tier 2 guidelines after the second monitoring event. What is the technical justification for the 0.007 mg/L copper benchmark in the draft permit? To what extent were the historical data considered in deriving the copper Benchmark. Value? 3. The average usage of new motor oil is approximately 40 gallons per month based on purchasing records and inventory reconciliation. 4. The Stormwater Pollution Prevention Plan for the facility needs to be updated. Some elements of the updated plan (e.g., feasibility study, BMP selection) will be influenced by the final permit conditions and the initial smrmvrutcr monitor ng data. How fitter rece;lpt of the f nai permit shouici the updated plan be implemented? Your response to these questions and comments would be appreciated. Sincerely, William A: Williams Vice President m. �R ..W* 1:-& m Fes ' c,11VK — �9/o 3 1 GENERAL TIMBER STORMWATER PERMIT Discussion Points • Proposed Cu Benchmark value in draft permit is significantly lower than historical CU sampling data for the facility. • Volume of stormwater discharged through primary outfall SDO-001 is usually minimal and for the majority of storms there is "No Flow." • Vegetative barriers in primary drainage channel restrict flow and provide filtration of storm flows. • Volume of stormwater discharged through secondary outfall SDO-003 is less than SDO-0001. Since closure of surface impoundments in this area of the facility, there is little likelihood of industrially -derived pollutants at this location. • During a recent storm (May 28) that produced 0.8 inches of rainfall, no stormwater through outfall SDO-001 until approximately 6 hours after the onset of the storm. The total discharge for this storm was estimated to be on the order of 250 gallons with a maximum flow of 5 gpm. Possible BMPs • Add limestone to interior drainage channels (in storage lanes) to provide pH buffering and possible metals removal. • Construct limestone "flow-thru" barriers in multiple locations along primary discharge channel (using Class B rip rap). • Design/build additional covered storage for treated wood products. • Design/implement drainage improvements during future site remediation activities. 0 Stormwater collection and treatment prior to discharge. Re: Meeting Subject: Re: Meeting From: Robert Patterson <Robert.Patterson@ncmail.nev Date: Wed, 04 Jun 2008 10:02:15 -0400 To: fcookjr@earthlink.net Freeman, We are on for 6/9 at loam in the 9th floor conference room here in the Archdale Building. I can't find a copy of my response to the owner's comments in a letter dated 2/7/08 and received by DWQ on 2/11/08. Here are my responses: 1. As per our latest policy, monitoring for pH is being added to all individual permit renewals. It is a good indicator of water quality problems. BOD and COD are being added to wood treatment facility permits because we have found high levels of these pollutants in surface water along the property of timber facilities. 2. The benchmark value for copper is based on thel/2 FAV from EPA's National Recommended Water Quality Criteria, 2006. We recognize these acute values are low and the toxicity of copper is highly variable; dependant on the amount dissolved, and the hardness of the water. NC currently uses 50 mg/L hardness when calculating toxicity values for these metals. 3. Noted. The vehicle maintenance section is standard language that we put in all permits. 4. The SPPP must be reviewed and updated on an annual basis; or when there is a significant change at the facility. See you on next Monday. Robert Freeman Cook Jr. wrote: ' Robert, Confirming meeting on Monday June 9 at 10 a.m. in your offices. Could you forward me an elec copy of your response to the draft permit questions submitted by General TImber (Feb 7 or 8) ? Thanks, Freeman Cook Robert D. Patterson, PE Environmental Engineer NCDENR I DWQ I Stormwater Permitting Unit 1617 Mail Service Center, Raleigh, NC 27699-1617 512 N. Salisbury St, Raleigh, NC 27604 Phone: (919) 733-5083 ext. 360 Fax: (919) 733-9612 Email: robert.patterson@ncmail.net Website: htt2://h2o.enr.state.nc.us/su/stormwater.html I of 1 6/4/2008 10:02 AM /§5_1'�§$+L°»Za &►MS PCLXLFont 0040Z+QB°'J-e°�o u►MS PCLXLFont 0010Z+qB°' General Timber, Inc. Pressure Treated Wood Products 625 Farmville Mine Road Sanford, NC 27330 Phone: (919) 774-6213 Fax: (919) 776-8015 Email: sales@generaltimber.net Website: www.generaItimber.net December 12, 2007 Mr. Robert Patterson, P.E. Stormwater Permitting Unit NCDENR, Division of Water Quality 1617 Mail Service Center Raleigh, NC 27699-1617 Ref: Stormwater Monitoring Data General Timber, Inc., Sanford, NC NCS000122 Dear Mr. Patterson: Pursuant to your recent request, enclosed please find one (1) copy of the 2004 rainfall data and stormwater monitoring reports for the General Timber, Inc. facility located at 625 Farmville Mine Road in Sanford, NC 27330. Should there be any questions concerning this information, please contact me at 919-774-6213. Sincerely,, %/ & bj j C.G..w> William A. Williams Vice President /Enclosure General Timber, Inc. Pressure Treated Wood Products 625 Farmville Mine Road Sanford, NC 27330 Phone: (919) 774-6213 Fax: (919) 776-8015 Email: sales@generaltimber.net Website: www.generaItimber.net 2004 RAINFALL LOG JANUARY FEBRUARY MARCH APRIL MAY 1/25/2004 2" 2/6/2004 1" 0 4/13/2004 1.5" 5/2/2004 3" 2/12/2004 1" 4/26/2004 .5" 5/12/2004 .2" 2/15/2004 1.5" 5/23/2007 .5" 2/17/2004 25"1 5i29/2007 2" 2/27/2004 .5" JUNE JULY AUGUST SEPTEMBER OCTOBER 6/4/20/04 1.8" 7/10/2004 .91, 8/2/2004 .3" 9/8/2004 1.6" 10/3/2004 .11" 6/15/2004 A" 7/13/2004 .6" 8/12/2004 1.5" 9/13/2004 A" 10/13/2004 .51, 6/24/2004 .75" 7/17/2004 .T 8/15/2004 1.7" 9/18/2004 .3" 10/24/2004 .1" 6/25/2004 .5" 7/27/2004 1.4" 8/29/2004 3" 9/28/2004 .8" 6/28/2004 1" 7/30/2004 1.2" NOVEMBER DECEMBER 11/20/2004 1"1 12/1/2004 .2" 12/2/2004 .7" Select Element Occurrence Page 1 of 1 Select Element Occurrence(s) Found 2 Element Occurrence(s) Scientific "ED Common Date Last EO EO State Federal State Global Select -Details EO ID Name Nb 'Name Observed Rank Accuracy Protection Protection Rank Rank Status Status r View Lanius 17487 15 Loggerhead 1990- E Very Sc 53 B,53N G4 ludovicianus Shrike PRE Low View Notropis" 24063 30 Cape Fear 2004-10- - E Medium E E - S3 GI mekistocholas Shiner- 27 ❑ Select All Zoom to Record http://nhpweb.enr.state.nc.us/nhis/partner/forms/eo/eo—Py eo_select.phtml?showOnMap=... 12/3/2007 ,. \OaOF W ATE9QG J � , 2007 Mr. Art Williams General Timber Inc. 625 Farmville Mine Road Sanford, NC 27330 Subject: Notice of Violation General Timber Inc: NOV-2007-PC-0501 Stormwater Evaluation Inspection NPDES Permit No. NCS000122 Chatham County Dear Mr. Williams: Michael F. Easley, Governor William G. Ross, Jr., Secretary North Carolina Department of Environment and Natural Resources Coleen H. Sullins, Director Division of Water Quality -i Ii�EiY On July 24, 2007, Ms. Stephanie Brixey of the Raleigh Regional Office conducted a stormwater evaluation inspection of General Timber with your assistance. All help was appreciated as it eased the inspection process. The following observations were made: I. The facility does have a Stormwater Pollution Prevention Plan (SPPP) on -site. The plan was written by S&ME in 1995. The plan has not been updated since that time and has not been fully implemented. The permit requires that the plan be reviewed and updated annually. This is found in Part 11, Section A.8 in the permit. 2. The qualitative monitoring has not been conducted as required by the permit. No monitoring has been performed in 2007, which is a violation of the permit. It was completed in November and December of 2006. Qualitative monitoring is to be done once during April to May and once during September to November. This requirement is found in Section C of the permit. If during these timeframes there is no discharge due to lack of rainfall, please document this and keep on file. 3. There are two outfalls, which was observed during the inspection. 4. The facility is covered under an expired permit and is responsible to perform all requirements as stated in that permit. The renewal application was submitted on time. 5. Mr. Williams stated that the facility has not had any spills during the past three years. The plan requires you to keep a list. If no spills have occurred then document that on the list and keep on file. The overall condition of General Timber's stormwater program is not compliant with Division standards. If you have questions regarding the attached report or any of the findings, please contact Stephanie Brixey at 919-791-4200 (or email: steplianie.brixey@ncmai].net ). Sincerof annon Lang ey Acting Surface WaXionSupervisor Raleigh Regional Office Cc: Stephanie Brixey- RRO North Carolina Natimally Central Files North Carolina Division of Water Quality Raleigh Regional Office Surface Water Protection Phone (919) 791-4200 Customer Service Internet: h2o.enrstate.nc.us 1628 Mail Service Center Raleigh, NC 27699-1628 FAX (919) 571-4718 1-877-623-6748 An Equal Opportunity/Affirmative Action Employer — 50% Recycled/l0% Post Consumer Paper Permit: NCS000122 SOC: County: Chatham Region: Raleigh ®• S® Compliance Inspection Report Effective: 11/12/99 Expiration: 11/30/04 Owner: General Timber Inc Effective: Expiration: Facility: General Timber Incorporated-SrN2148 625 F3rmville Mine Rd Sanford NC 27330 Contact Person: Clement, Williams Title: Phone: 919-774-6213 Directions to Facility:. am.Y <-+-• System Classifications: Primary ORC: Certification: Phone: Secondary ORC(s): On -Site Representative(s) On -site representative Art Williams Phone: Related Permits: Inspection Date: 07124/2007 Entry Time: 01:00 PM Exit Time: 02:30 PM Primary Inspector: Stephanie Brixey �tt.11�>( Phone: Secondary Inspector(s): Reason for Inspection: Routine Permit Inspection Type: Stonmwater Discharge, Individual Facility Status: ❑ Compliant ■ Not Compliant Question Areas: M Storm Water (See attachment summary) Inspection Type: Stormwater Page: 1 Permit: NCS000122 Owner • Facility: General Timber Inc Inspection Date: 07/24/2007 Inspection Type: Stormwater Reason for Visit: Routine Inspection Summary: The facilty has 2 stormwater outfalls on -site. The stormwater permit expired 11/30/2004. The facility submitted a renewal application and are waiting for a new permit. Qualitative monitoring has been performed semi-annually but not during the timeframes specified in the permit. The permit requirements is once in the spring (April -June) and once in the fall (September -November). The SPPP is not reviewed and updated annually. Page: 2 Permit: NCS000122 Owner - Facility: General Timber Inc Inspection Date: 07/24/2007 Inspection Type: Stormwater Reason for Visit: Routine Stormwater Pollution Prevention Plan Yes No NA NE Does the site have a Stormwater Pollution Prevention Plan? ■ ❑ ❑ ❑ # Does the Plan include a General Location (l1SGS) map? ■ ❑ ❑ ❑ # Does the Plan include a "Narrative Description of Practices"? ■ ❑ ❑ ❑ # Does the Plan include a detailed site map including outfall locations and drainage areas? ■ ❑ ❑ ❑ # Does the Plan include a list of significant spills occurring during the past 3 years? ❑ ■ ❑ ❑ # Has the facility evaluated feasible alternatives to current practices? ■ ❑ ❑ ❑ # Does the facility provide all necessary secondary containment? ■ ❑ ❑ ❑ # Does the Plan include a BMP summary? ■ ❑ ❑ ❑ # Does the Plan include a Spill Prevention and Response Plan (SPRP)? ■ ❑ ❑ ❑ # Does the Plan include a Preventative Maintenance and Good Housekeeping Plan? ■ ❑ ❑ ❑ # Does the facility provide and document Employee Training? ■ ❑ ❑ ❑ # Does the Plan include a list of Responsible Party(s)? ■ ❑ ❑ ❑ # Is the Plan reviewed and updated annually? ❑ ■ ❑ ❑ # Does the Plan include a Stormwater Facility Inspection Program? ■ ❑ ❑ ❑ Has the Stormwater Pollution Prevention Plan been implemented? ❑ ■ ❑ ❑ Comment: There have not been any spills in the last three years but there is no documentation. The SPPP was written by SWE Inc. in August, 1995. The plan is not reviewed and updated annually. Qualitative Monitoring Yes No NA NE Has the facility conducted its Qualitative Monitoring semi-annually? ❑ ■ ❑ ❑ Comment: Qualitative monitoring was not performed in the spring of 2007. In 2005 and 2006 it was done twice per year but both were in the last half of the year, Anal ical Monitoring Yes No NA NE Has the facility conducted its Analytical monitoring? ■ ❑ ❑ ❑ # Has the facility conducted its Analytical monitoring from Vehicle Maintenance areas? ❑ ❑ ■ ❑ Comment: The facility performed analytical monitoring in 2005. Permit and Outfalls Yes No NA NE # Is a copy of the Permit and the Certificate of Coverage available at the site? ■ Cl ❑ ❑ # Were all outfalls observed during the inspection? ■ ❑ ❑ ❑ # If the facility has representative outfall status, is it properly documented by the Division? ❑ ❑ ■ ❑ # Has the facility evaluated all illicit (non stormwater) discharges? ■ Cl ❑ ❑ Page: 3 Permit: NCS000122 Owner - Facility: General Timber Inc Inspection Date: 07/24/2007 Inspection Type: Stormwater Reason for Visit: Routine Comment: Page: 4 State of North Carolina Department of Environment and Natural Resources Division of Water Quality James B. Hunt, Jr., Governor Wayne McDevitt, Secretary Kerr T. Stevens, Director April 20, 1999 CLEMENT WILLIAMS GENERAL TIMBER. INC. 625 FARMVILLE MINE ROAD SANFORD, NC 27330 T aiz® NCDENR NORTH CAROLINA DEPARTMENT OF ENVIRONMENT AND NATURAL RESOURCES Subject: NPDES Stormwater Permit Renewal General Timber, Inc. Permit Number NCS000122 Chatham County Dear Permittee: Your facility is currently covered for Stormwater discharge under NPDES Permit NCS000122. This permit expires on October 31. 1999. In order to assure your continued coverage under your permit, you must apply to the Division of Water Quality (DWQ) for renewal of your permit. To make this renewal process easier, we are informing you in advance that your permit will be expiring. Enclosed you will find an individual permit renewal application form, supplemental information request. and Stormwater Pollution Prevention Plan certification. Filing the application form along with the requested supplimental information will constitute your application for renewal of your permit. The application form must be completed and returned along with all requested information by May 24. 1999 in order to constitute a timely renewal filing. Recent legislation modified the fee structure for DWQ permits. Renewal fees have been eliminated and annual fees have been changed. The new annual fee for your permit is now $715.00 (you will be invoiced later this year for your annual fee.) A copy of the new fee schedule is enclosed in this package. Failure to request renewal by May 24. 1999 may result in a civil assessment of at least $250.00. Larger penalties may be assessed depending on the delinquency of the request. Discharge of Stormwater from your facility without coverage under a valid Stormwater NPDES permit would constitute a violation of NCGS 143-215.1 and could result in assessments of civil penalties of up to S10.000 per day. If you have any questions regarding the permit renewal procedures please contact Tony Evans of the Stormwater and General Permits Unit at (919) 733-5083, ext. 584. Sincerely, Bradley Bennett, Supervisor Stormwater and General Permits Unit cc: Central Files Stormwater and General Permits Unit Files Raleigh Regional Office P.O. Box 29535, Raleigh, North Carolina 27626-0535 Telephone 919-733-5083 FAX 919-733-9919 An Equal Opportunity Affirmative Action Employer 50% recycled/ 10 % post -consumer paper