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Home My WebLink AboutNC0004961_Coal Pile Assessment Work Plan_20180116TECHNICAL MEMORANDUM P:\Duke Energy Carolinas\15. Riverbend\05.EHS CAMA Compliance Support\Coal Pile Assessment\Work Plan CLT\Coal Pile Assessment Tech Memo.docx Date: January 12, 2018 File: 1026.15.05I To: Bristol Grohol (Duke Energy) Cc: Kathy Webb (SynTerra) From: Judd Mahan Subject: Soil and Groundwater Assessment – Former Coal Pile – Riverbend Steam Station Duke Energy Carolinas, LLC (Duke Energy) owns and operated the Riverbend Steam Station (RBSS or Site) in Mount Holly, NC. The Site encompasses approximately 340.7 acres. RBSS began operation as a coal-fired generating station in 1929 and was retired in April 2013. Coal used for electricity generation was transported to the Site by railroad and stored on approximately 12 acres northeast of the power generation plant. Ash generated by the coal-fired power-generating units was sluiced to ash management areas located northeast of the plant operations. Groundwater and soil assessment activities for the former coal storage area (coal pile) are described herein. Regulatory Background In 2014, The North Carolina General Assembly passed the Coal Ash Management Act (CAMA). CAMA required owners of a coal combustion residuals (CCR) surface impoundment to conduct detailed assessment of site groundwater within and around the CCR surface impoundment. Groundwater monitoring wells were installed near the eastern edge of the former coal pile during CAMA-associated fieldwork. Boron, an inorganic constituent, is commonly used as an indicator of CCR impacts to groundwater. Groundwater sampling results from the wells near the former coal pile did not indicate elevated concentrations of boron. However, the data indicated beryllium in groundwater samples at concentrations uncharacteristic of other samples from around the coal ash management areas. For these reasons, Duke Energy understands the former coal pile area soils and underlying groundwater to be a potential “secondary source” of inorganic constituents that will be assessed apart from CAMA. Soil and Groundwater Assessment – Former Coal Pile January 12, 2018 Riverbend Steam Station Page 2 of 3 P:\Duke Energy Carolinas\15. Riverbend\05.EHS CAMA Compliance Support\Coal Pile Assessment\Work Plan CLT\Coal Pile Assessment Tech Memo.docx Station Description Coal-fired power generation operations began at RBSS in 1929 and ended in April 2013 when the coal-fired units were retired. Coal was transported on-site by rail and offloaded onto the coal pile area where it was stored until burned by the coal-powered energy generating units. The former coal pile area is approximately 12 acres and is located adjacent to the RBSS power house building and the Catawba River. Coal removal from the area was completed in September 2014. Commingled coal and soil material removal was completed in December 2016. A visual inspection was performed to verify commingled coal and soil material was removed. The topography at RBSS generally slopes downward from the south to the Catawba River on the north. The site layout is shown on Figure 1. Coal Pile Area Assessment Objectives Objectives of the coal pile area assessment include the following: Characterize inorganic constituents associated with coal pile area soils Characterize inorganic constituent concentrations in shallow groundwater underlying the coal pile area and along the coal pile area perimeter Compare inorganic constituent concentrations in coal pile area groundwater and site background groundwater Soil Assessment Coal pile area soils will be sampled and analyzed for inorganic parameters to determine if they are a secondary source of coal pile constituents that can leach into underlying groundwater. Soil samples will be collected at proposed monitoring well locations (CPA-1 through CPA-7) as part of well installation activities. Two proposed sample locations (CPA-4 and CPA-5) are within the footprint of the former coal pile (Figure 1). Soil samples will be collected at approximately 2-foot intervals to the top of the groundwater table. An additional soil sample will be collected below the water table within the new well screened intervals. Soil samples will be analyzed for inorganic parameters as listed on Table 1. Groundwater Assessment Fourteen coal pile assessment (CPA) groundwater monitoring wells will be installed to characterize coal pile area groundwater. Seven shallow (“S”) and seven deep (“D”) groundwater monitoring wells (CPA-1S/D, CPA-2S/D, CPA-3S/D, CPA-4S/D, CPA- 5S/D, CPA-6S/D, and CPA-7S/D) will be installed as well pairs. Four wells (CPA-4S/D and CPA-5S/D) will be installed within the former coal pile footprint. Proposed approximate CPA well installation locations are shown on Figure 1 and proposed well Soil and Groundwater Assessment – Former Coal Pile January 12, 2018 Riverbend Steam Station Page 3 of 3 P:\Duke Energy Carolinas\15. Riverbend\05.EHS CAMA Compliance Support\Coal Pile Assessment\Work Plan CLT\Coal Pile Assessment Tech Memo.docx details are provided as Table 2. Specific well locations may be shifted depending upon access and field conditions at the time of installation. Groundwater samples will be analyzed for inorganic constituents as listed on Table 3. Coal Pile Assessment Report A coal pile assessment report will be prepared once all soil and groundwater sample analytical data is received. The report will include the following components: 1) Site History and Source Characterization 2) Site Geology and Hydrogeology 3) Sampling Results 4) Site Conceptual Model 5) Conclusions and Recommendations ATTACHMENTS: Table 1: Soil Analytical Methods Table 2: Proposed Coal Pile Assessment Soil Samples and Monitoring Wells Table 3: Groundwater Analytical Methods Figure 1: Proposed Monitoring Well Locations Soil and Groundwater Assessment – Former Coal Pile January 12, 2018 Riverbend Steam Station P:\Duke Energy Carolinas\15. Riverbend\05.EHS CAMA Compliance Support\Coal Pile Assessment\Work Plan CLT\Coal Pile Assessment Tech Memo.docx ATTACHMENTS TABLE 1 SOIL ANALYTICAL METHODS RIVERBEND STEAM STATION DUKE ENERGY CAROLINAS, LLC, MOUNT HOLLY, NC INORGANIC COMPOUNDS UNITS METHOD Aluminum mg/kg EPA 6010D Antimony mg/kg EPA 6020B Arsenic mg/kg EPA 6020A Barium mg/kg EPA 6010C Beryllium mg/kg EPA 6020B Boron mg/kg EPA 6010C Cadmium mg/kg EPA 6020A Calcium mg/kg EPA 6010C Chloride mg/kg EPA 9056A Chromium mg/kg EPA 6010C Cobalt mg/kg EPA 6020A Copper mg/kg EPA 6010C Iron mg/kg EPA 6010C Lead mg/kg EPA 6020A Magnesium mg/kg EPA 6010C Manganese mg/kg EPA 6010C Mercury mg/kg EPA Method 7471B Molybdenum mg/kg EPA 6010C Nickel mg/kg EPA 6010C Nitrate as Nitrogen mg/kg EPA 9056A pH SU EPA 9045D Potassium mg/kg EPA 6010C Selenium mg/kg EPA 6020A Sodium mg/kg EPA 6010C Strontium mg/kg EPA 6010C Sulfate mg/kg EPA 9056A Thallium (low level) (SPLP Extract only)mg/kg EPA 6020A Total Organic Carbon mg/kg EPA 9060 Vanadium mg/kg EPA 6020A Zinc mg/kg EPA 6010C Notes: 1. Soil samples to be analyzed for Total Inorganics using USEPA Methods 6010/6020 and pH using USEPA Method 9045, as noted above. meq/100g - millequivalents per 100 grams mg/kg - Milligrams per kilogram mV - Millivolts S.U. - Standard Unit Prepared by: RBI Checked by: SRW/TCP 2. Ash samples to be analyzed for Total Inorganics using USEPA Methods 6010/6020 and pH using USEPA Method 9045; select ash samples will also be analyzed for leaching potential using SPLP Extraction Method 1312 in conjunction with USEPA Methods 6010/6020. 3. Analytical methods and reporting limits as presented were applicable at time of CSA field implementation in 2015. Analytical methods and reporting limits are updated periodically and applied as appropriate. P:\Duke Energy Carolinas\15. Riverbend\05.EHS CAMA Compliance Support\Coal Pile Assessment\Work Plan CLT\ Table 1 Soil Analytical Methods Page 1 of 1 TABLE 2 PROPOSED COAL PILE ASSESSMENT SOIL SAMPLES AND MONITORING WELLS RIVERBEND STEAM STATION DUKE ENERGY CAROLINAS, LLC, MOUNT HOLLY, NC Monitoring Well ID Estimated Well Depth (feet bgs) Soil Sample ID (Estimated Depth Interval in feet bgs) Comments ----CPA-1SB (2-3) Near-surface unsaturated soil sample (water table ~25 feet bgs) ----CPA-1SB (5-6)Unsaturated soil sample ----CPA-1SB (8-9)Unsaturated soil sample ----CPA-1SB (11-12)Unsaturated soil sample ----CPA-1SB (14-15)Unsaturated soil sample ----CPA-1SB (17-18)Unsaturated soil sample ----CPA-1SB (20-21)Unsaturated soil sample ----CPA-1SB (23-24)Unsaturated soil sample CPA-1S 35 CPA-1SB (30-31)Soil sample from shallow well screened interval CPA-1D 150 CPA-1SB (145-146)Soil sample from deep well screened interval ----CPA-2SB (2-3) Near-surface unsaturated soil sample (water table ~25 feet bgs) ----CPA-2SB (5-6)Unsaturated soil sample ----CPA-2SB (8-9)Unsaturated soil sample ----CPA-2SB (11-12)Unsaturated soil sample ----CPA-2SB (14-15)Unsaturated soil sample ----CPA-2SB (17-18)Unsaturated soil sample ----CPA-2SB (20-21)Unsaturated soil sample ----CPA-2SB (23-24)Unsaturated soil sample CPA-2S 35 CPA-2SB (30-31)Soil sample from shallow well screened interval CPA-2D 150 CPA-2SB (145-146)Soil sample from deep well screened interval ----CPA-3SB (2-3) Near-surface unsaturated soil sample (water table ~25 feet bgs) ----CPA-3SB (5-6)Unsaturated soil sample ----CPA-3SB (8-9)Unsaturated soil sample ----CPA-3SB (11-12)Unsaturated soil sample ----CPA-3SB (14-15)Unsaturated soil sample ----CPA-3SB (17-18)Unsaturated soil sample ----CPA-3SB (20-21)Unsaturated soil sample ----CPA-3SB (23-24)Unsaturated soil sample CPA-3S 35 CPA-3SB (30-31)Soil sample from shallow well screened interval CPA-3D 150 CPA-3SB (145-146)Soil sample from deep well screened interval ----CPA-4SB (2-3) Near-surface unsaturated soil sample (water table ~25 feet bgs) ----CPA-4SB (5-6)Unsaturated soil sample ----CPA-4SB (8-9)Unsaturated soil sample ----CPA-4SB (11-12)Unsaturated soil sample ----CPA-4SB (14-15)Unsaturated soil sample ----CPA-4SB (17-18)Unsaturated soil sample ----CPA-4SB (20-21)Unsaturated soil sample ----CPA-4SB (23-24)Unsaturated soil sample CPA-4S 35 CPA-4SB (30-31)Soil sample from shallow well screened interval CPA-4D 150 CPA-4SB (145-146)Soil sample from deep well screened interval ----CPA-5SB (2-3) Near-surface unsaturated soil sample (water table ~25 feet bgs) ----CPA-5SB (5-6)Unsaturated soil sample ----CPA-5SB (8-9)Unsaturated soil sample ----CPA-5SB (11-12)Unsaturated soil sample ----CPA-5SB (14-15)Unsaturated soil sample ----CPA-5SB (17-18)Unsaturated soil sample ----CPA-5SB (20-21)Unsaturated soil sample ----CPA-5SB (23-24)Unsaturated soil sample CPA-5S 35 CPA-5SB (30-31)Soil sample from shallow well screened interval CPA-5D 150 CPA-5SB (145-146)Soil sample from deep well screened interval P:\Duke Energy Carolinas\15. Riverbend\05.EHS CAMA Compliance Support\Coal Pile Assessment\Work Plan CLT\Table 2 - RBSS Proposed Coal Pile Assessment Boring & Well Depths Page 1 of 2 TABLE 2 PROPOSED COAL PILE ASSESSMENT SOIL SAMPLES AND MONITORING WELLS RIVERBEND STEAM STATION DUKE ENERGY CAROLINAS, LLC, MOUNT HOLLY, NC Monitoring Well ID Estimated Well Depth (feet bgs) Soil Sample ID (Estimated Depth Interval in feet bgs) Comments ----CPA-6SB (2-3) Near-surface unsaturated soil sample (water table ~25 feet bgs) ----CPA-6SB (5-6)Unsaturated soil sample ----CPA-6SB (8-9)Unsaturated soil sample ----CPA-6SB (11-12)Unsaturated soil sample ----CPA-6SB (14-15)Unsaturated soil sample ----CPA-6SB (17-18)Unsaturated soil sample ----CPA-6SB (20-21)Unsaturated soil sample ----CPA-6SB (23-24)Unsaturated soil sample CPA-6S 35 CPA-6SB (30-31)Soil sample from shallow well screened interval CPA-6D 150 CPA-6SB (145-146)Soil sample from deep well screened interval ----CPA-7SB (2-3) Near-surface unsaturated soil sample (water table ~25 feet bgs) ----CPA-7SB (5-6)Unsaturated soil sample ----CPA-7SB (8-9)Unsaturated soil sample ----CPA-7SB (11-12)Unsaturated soil sample ----CPA-7SB (14-15)Unsaturated soil sample ----CPA-7SB (17-18)Unsaturated soil sample ----CPA-7SB (20-21)Unsaturated soil sample ----CPA-7SB (23-24)Unsaturated soil sample CPA-7S 35 CPA-7SB (30-31)Soil sample from shallow well screened interval CPA-7D 150 CPA-7SB (145-146)Soil sample from deep well screened interval Prepared by: JDM Checked by: PBT Notes: bgs = below ground surface ~ = Approximately SynTerra recommends rotosonic drilling methods for boring and well installation. Continuous cores from sonic drilling provide sufficient material for soil sampling and lithologic description. Estimated well and soil sample depths based on data from the GWA-3, GWA-11 and GWA-12 well clusters. Number of soil samples shown is approximate. A shallower water table will result in fewer samples, and a deeper water table will result in additional samples. SynTerra recommends each well screen be submerged beneath the water table and have a length of at least 10 feet. P:\Duke Energy Carolinas\15. Riverbend\05.EHS CAMA Compliance Support\Coal Pile Assessment\Work Plan CLT\Table 2 - RBSS Proposed Coal Pile Assessment Boring & Well Depths Page 2 of 2 TABLE 3 GROUNDWATER ANALYTICAL METHODS RIVERBEND STEAM STATION DUKE ENERGY CAROLINAS, LLC, MOUNT HOLLY, NC PARAMETER RL UNITS METHOD pH NA SU Field Water Quality Meter Specific Conductance NA µS/cm Field Water Quality Meter Temperature NA ºC Field Water Quality Meter Dissolved Oxygen NA mg/L Field Water Quality Meter Oxidation Reduction Potential NA mV Field Water Quality Meter Turbidity NA NTU Field Water Quality Meter Ferrous Iron NA mg/L Field Test Kit Aluminum 0.005 mg/L EPA 200.7 or 6010D Antimony 0.001 mg/L EPA 200.8 or 6020B Arsenic 0.001 mg/L EPA 200.8 or 6020A Barium 0.005 mg/L EPA 200.7 or 6010C Beryllium 0.001 mg/L EPA 200.8 or 6020A Boron 0.05 mg/L EPA 200.7 or 6010C Cadmium 0.001 mg/L EPA 200.8 or 6020A Chromium 0.001 mg/L EPA 200.8 or 6010C Cobalt 0.001 mg/L EPA 200.8 or 6020A Copper 0.001 mg/L EPA 200.8 or 6020B Iron 0.01 mg/L EPA 200.7 or 6010C Lead 0.001 mg/L EPA 200.8 or 6020A Manganese 0.005 mg/L EPA 200.7 or 6010C Mercury (low level)0.005 ng/L 1631 ONLY Molybdenum 0.001 mg/L EPA 200.8 or 6020B Nickel 0.001 mg/L EPA 200.8 or 6020B Phosphorus 0.005 mg/L EPA 365.1 Selenium 0.001 mg/L EPA 200.8 or 6020A Strontium 0.005 mg/L EPA 200.7 or 6010C Thallium (low level)0.0002 mg/L EPA 200.8 or 6020A Vanadium (low level)0.0003 mg/L EPA 200.8 or 6020A Zinc 0.005 mg/L EPA 200.7 or 6010C Alkalinity (as CaCO3)5 mg/L SM 2320B Bicarbonate 5 mg/L SM 2320 Calcium 0.01 mg/L EPA 200.7 Carbonate 5 mg/L SM 2320 Chloride 0.1 mg/L EPA 300.0 or 9056A Magnesium 0.005 mg/L EPA 200.7 Methane 0.01 mg/L RSK 175 Nitrate as Nitrogen 0.01 mg-N/L EPA 353.2 Potassium 0.1 mg/L EPA 200.7 Sodium 0.05 mg/L EPA 200.7 Sulfate 0.1 mg/L EPA 300.0 or 9056A Sulfide 0.1 mg/L SM4500S2-D Total Dissolved Solids 25 mg/L SM 2540C Total Organic Carbon 0.1 mg/L SM 5310C/EPA9060A Total Suspended Solids 2.5 mg/L SM 2450D Prepared by: RBI Checked by: SRW/TCP Notes: ºC - Degrees Celsius µS/cm = micro-Siemens per centimeter mg/L - Milligrams per liter mg - N/L - Milligrams nitrogen per liter mV - Millivolts NA - Not analyzed NTU - Nephelometric turbidity unit pCi/L - picocuries per liter RL = reporting limit S.U. - Standard Unit ug/mL - micrograms per milliliter 2.Analytical methods and reporting limits as presented were applicable at time of CSA field implementation in 2015.Analytical methods and reporting limits are updated periodically and applied as appropriate. INORGANICS FIELD PARAMETERS 1. Select constituents will be analyzed for total and dissolved concentrations. ANIONS/CATIONS P:\Duke Energy Carolinas\15. Riverbend\05.EHS CAMA Compliance Support\Coal Pile Assessment\Work Plan CLT\Table 3 - GW Analytical Methods Page 1 of 1 &< &< &< &< &< &< &< &< &< &< &<&< &<&< &<&< &<&< &<&<&< &<&<&<&<&< &<&<&< &<&< &<&< &<&< &<&< &< &< &<&< &<&< &<&< &<&< &<&< &< &<&< &<&<&<&<&<&<&<&<&< &<&<&< &<&< &<&<&< &<&< &<&< &<&<&< &<&< &<&<&< &<&< &<&< &<&< &<&< &<&< &<&< &<&< &<&<&< &<&<&< &< !( !( !( !(!( !( !( BG-4S/D/BR MW-9/BR AB-2D MW-15D/BR BG-5D/BR MW-8S/I/D GWA-21S/D/BR MW-11SR/DR MW-13 MW-10 MW-14 OB-1 OB-2 GATE 7 AB-1S/D AB-2S/D AB-3S/D/BR AB-5S/SL/D AB-6S/BRU AB-7S/I/D AB-8S/D BG-1S/D BG-2S/D/BR BG-3S/D C-1S/BRU C-2S/D GWA-10S/BRU GWA-11S/D GWA-12S/D GWA-14S GWA-1S/BRU GWA-20S/D/BR GWA-22S/D/BR-A GWA-23S/D/BR GWA-2S/BR/BRU GWA-3S-A/D GWA-4S/D/BR GWA-5S/D GWA-6S/D GWA-7S/D/BR GWA-8S/D GWA-9S/D/BR MW-1S/D MW-2S/D MW-3S/D MW-4S/D MW-5S/D MW-6S/D MW-7S/D/BRCPA-5S/D CPA-7S/D CPA-6S/D CPA-1S/D CPA-4S/D CPA-3S/D CPA-2S/D FIGURE 1PROPOSED MONITORING WELL LOCATIONSCOAL PILE ASSESSMENTRIVERBEND STEAM STATIONDUKE ENERGY CAROLINAS, LLCMOUNT HOLLY, NORTH CAROLINADRAWN BY: A . FEIGLPROJECT MANAGER: J. MAHANCHECKED BY: B. WYLIE DATE: 12/15/2017 148 RIVER STREET, SUITE 220GREENVILLE, SOUTH CAROLINA 29601PHONE 864-421-9999www.synterracorp.com P:\Duke Energy Progress.1026\00 GIS BASE DATA\Riverbend\MapDocs\Vetting\CoalPileAssess\Riverbend_CoalPileAssess_20171214.mxd 300 0 300 600150 GRAPHIC SCALE IN FEET LEGEND !(PROPOSED COAL PILE ASSESSMENTMONITORING WELL LOCATION &<EXISTING MONITORING W ELL LOCATION &<OBSERVATION WELL LOCATION WETLANDS [AMEC] CULTURAL AREA [AMEC] RAILROAD TRANSMISSION LINE APPROXIMATE WASTE BOUNDARY DUKE POWER PLANT BOUNDARY NOTES: PROPOSED WELL LOCATIONS SHOWN ARE APPROXIMATED.EXACT WELL LOCATIONS WILL BE DETERMINED BASED ONACCESS AND FIELD CONDITIONS AT THE TIME OF WELLINSTALLATION. ALL BOUNDARIES ARE APPROXIMATE. SITE AERIAL ORTHOPHOTOGRAPHY OBTAINED FROMMECKLENBURG COUNTY GIS, DATED 2017. ADDITIONAL AERIALORTHOPHOTOGRAPHY OBTAINED FROM WSP, 10/30/2015. DRAWING HAS BEEN SET WITH A PROJECTION OF NORTHCAROLINA STATE PLANE COORDINATE SYSTEM FIPS 3200 CATAWBA RIVERCATAWBA RIVER FORMERCOAL PILE ASH BASINSECONDARY CELL ASH BASINPRIMARY CELL ASH STORAGE CINDERSTORAGE