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Home My WebLink AboutNC0004979_GW Monitoring Program Sampling, Analysis, and Rpt Plan_20141015 1 1 1 1 1-)/ 1 Allen Steam Station Ash Basin Groundwater Monitoring Program Sampling, Analysis, 1 and Reporting Plan NPDES Permit NC0004979 October 10, 2014 1 1 1 4/1DUKE 1 ENERGY® 1 1 RECEIVED/DENR/DWR 1 OCT 1 5 2014 Water hluauty Permitting Section Duke Energy Carolinas,LLC Groundwater Monitoring Program Sampling.Analen Stlyeamsis and ReportingStationAshBasin Plan Al 1 REPORT VERIFICATION Report Verification 1 PROJECT: GROUNDWATER MONITORING PROGRAM 1 ALLEN STEAM STATION ASH BASIN NPDES PERMIT NC0004979 1 TITLE: GROUNDWATER MONITORING SAMPLING, ANALYSIS, AND REPORTING PLAN This document has been reviewed for accuracy quality and ual' commensurate with the intended application. Prepared by: Date: /0 / 44°1 y Checked by: Date: ID//b/4,2a,/ / Approved by: -61,0191,to C�" _`"'�— Date: PCl//0 12014 1 Project Manager Brooke Ahrens, PE 9 Professional Geologist Seal: 1 o �44, ' • SEAL 2243 1A. •Scliv •..,isfs010 HDR Engineering, Inc. of the Carolinas 440 South Church St., Suite 1000 1 Charlotte, NC 28202 North Carolina Geology License Number C-503 1 RECEIVED/DENR/DWR OCT 1 5 ?014 Water Uuallty Permitting Section 1 1 I Duke Energy Carolinas,LLC i Groundwater Monitoring Program Sampling,Analysis,and Reporting Plan FN I Allen Steam Station Ash Basin TABLE OF CONTENTS I Table of Contents Page IReport Verification i Table of Contents ii I List of Figures iv List of Tables v Section 1 - Introduction 1 ISection 2 -Site Description 2 2.1 Plant Description 2 1 2.2 Ash Basin Description 2 Section 3-Site Geology and Hydrogeology 3 I 3.1 Geologic/Soil Framework 3 3.2 Hydrogeologic Framework 3 Section 4- Monitoring Program 5 1 4.1 Regulatory Requirements for Groundwater Monitoring 5 4.2 Description of Groundwater Monitoring System 6 I4.3 Monitoring Frequency 7 4.4 Sample Parameters and Methods 7 I 4.5 Data Quality Objectives 7 Section 5-Sampling Procedures 8 I 5.1 Sampling Equipment 8 5.1.1 Equipment Cleaning Procedures 8 5.2 Groundwater Sampling 8 1 5.2.1 Development of Monitoring Wells 8 5.2.2 Groundwater Level and Total Depth Measurements 8 I5.2.3 Well Purging and Sampling 9 5.3 Sample Collection 10 I 5.4 Sample Containers, Volume, Preservation, and Holding Time 11 5.5 Sample Tracking 11 5.6 Sample Labeling 11 1 5.7 Field Documentation 11 5.8 Chain-of-Custody Record 12 I5.9 Sample Custody, Shipment, and Laboratory Receipt 13 Section 6-Analytical Methods 14 I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling.Analysis, and Reporting Plan EN I Allen Steam Station Ash Basin TABLE OF CONTENTS Section 7- Internal Quality Control Checks 15 ISection 8-Validation of Field Data Package 16 Section 9-Validation of Laboratory Data 17 ISection 10- Report Submittal 18 Section 11 - References 19 Appendices A—Boring Logs and Monitoring Well Construction Records B— Permit Condition A(11)Attachment XX, Version 1.1, dated June 15, 2011 IC-Monitoring Well Locations I I I I I I I I I RECEIVEDIDENRIDWR OCT 1 5 2014 IValet kauatity Permitting Section I iii I I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan En IA/len Steam Station Ash Basin J LIST OF FIGURES List of Figures IFigure 1 —Site Location Map Figure 2—Compliance Monitoring Wells IFigure 3—Typical Monitoring Well Construction Details Figure 4—Example Groundwater Monitoring Data Sheet IFigure 5— Example Field Sampling Calibration Form Figure 6—Chain-of-Custody Record and Analysis Request Form I Figure 7— North Carolina Groundwater Sampling Site Checklist I I I I I I I I I I I Duke Energy Carolinas,LLC 1 Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan EN I Allen Steam Station Ash Basin J LIST OF TABLES i List of Tables ITable 1 - Monitoring Well Information Table 2-Sample Parameters and Analytical Methods ITable 3-Sample Containers, Preservatives, and Holding Times I I I I I I I I I I I I Iv I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan En IA/len Steam Station Ash Basin J SECTION 1-INTRODUCTION I Section 1 - Introduction This Groundwater Monitoring Program Sampling, Analysis, and Reporting Plan (Plan) is developed to support the Duke Energy Carolinas, LLC (Duke Energy) requirement for Igroundwater monitoring around the Allen Steam Station (Allen) ash basin operated under National Pollutant Discharge Elimination System(NPDES) Permit NC0004979. I This Plan describes the groundwater monitoring network, methodologies of field sampling, record-keeping protocols, laboratory analytical methods, data quality objectives, data validation, and reporting that will be used for the Allen ash basin groundwater monitoring program. I I I I I I I I I I I I 1 I I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan En I Allen Steam Station Ash Basin SECTION 2-SITE DESCRIPTION 1 Section 2 - Site Description 2.1 Plant Description I Allen is a five-unit, coal-fired electric generating plant with a capacity of 1,140 megawatts located in Gaston County, North Carolina, near the town of Belmont. Allen is located on the west bank of the Catawba River on Lake Wylie, as shown on Figure 1. Commercial operations 1 at Allen began in 1957. Lake Wylie is owned by Duke Energy and operated as part of the Catawba-Wateree Project I Federal Energy Regulatory Commission(FERC) Project No. 2232. The reservoir is used for hydroelectric generation, municipal water supply, and recreation. Lake Wylie has a surface area of approximately 13,443 acres. 1 2.2 Ash Basin Description The coal ash residue from the coal combustion process has historically been disposed of in the I Allen ash basin. The ash basin currently receives waste streams from the ash sluice lines (mostly bottom ash), water treatment system wastewater, stormwater, Flue Gas Desulfurization (FGD)system blowdown, landfill leachate, and miscellaneous cleaning and maintenance wash I waters. The discharge from the ash basin is permitted by the North Carolina Department of Environment and Natural Resources(NCDENR) Department of Water Resources(DWR) under NPDES Permit NC0004979. IAllen has an active ash basin and an inactive ash basin. The active ash basin was commissioned in 1973 (Duke Energy 2009)and is currently in operation. The inactive ash basin I is located to the north of the active ash basin and is not in operation. A large portion of the inactive ash basin is permitted as an industrial landfill by the NCDENR Division of Waste Management(DWM)(Permit No. 3612). See Figure 2. IThe active ash basin is located approximately 2,500 feet to the south of the power plant on the western side of Lake Wylie. There are two earthen dikes impounding the active ash basin; the I East Dike, located along the west bank of Lake Wylie and the North Dike, separating the active and inactive ash basins. The surface area of the active ash basin is approximately 169 acres (Duke Energy 2009)with an approximate operating pond elevation of 633.5 feet. The full pond I elevation of Lake Wylie is approximately 568.7 feet. Due to the nature of Allen operations and weather, inflows to the ash basin are highly variable. I The inflows from the ash removal system and other plant discharges are discharged through sluice lines into the ash basin. Prior to 2009, all of the fly ash produced was sluiced to the ash basin. Since 2009, fly ash has been dry-handled and is infrequently sluiced to the ash basin. I All of the bottom ash produced by the station is sluiced to the ash basin. The water level (pond elevation)of the ash basin is maintained at approximately 633.5 feet by the use of concrete stop logs. A 42-inch-diameter reinforced concrete pipe serves as the outlet conduit for the discharge I tower into Lake Wylie. 1 2 I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling.Analysis. and Reporting Plan �� Allen Steam Station Ash Basin SECTION 3-SITE GEOLOGY AND HYDROGEOLOGY ' Section 3 - Site Geology and Hydrogeology 3.1 Geologic/Soil Framework Allen and its associated ash basin system are located in the Charlotte Terrane of the Carolina Zone (Pippin et al. 2008), or as described in the older belt terminology, the Charlotte Belt of the Piedmont physiographic province (Piedmont)(North Carolina Geological Survey 1985). The ' Charlotte terrane is characterized by mostly felsic to mafic plutonic rocks which intrude a suite of mainly metaigneous rocks and minor metasedimentary rocks(Pippin et al. 2008). ' The soils that overlie the bedrock in the area have generally formed from the in-place weathering of the parent bedrock. The fractured bedrock is overlain by a mantle of unconsolidated material known as regolith. The regolith, where present, includes the soil zone, 1 a zone of weathered, decomposed bedrock known as saprolite, and alluvium. Saprolite, the product of chemical and mechanical weathering of the underlying bedrock, is typically composed of silt and coarser granular material up to boulder size and may reflect the texture of the rock from which it was formed. The weathering products of felsic rocks may be sandy- textured and rich in quartz content while mafic rocks form a more clayey saprolite(LeGrand 2004). Based on a review of the monitoring well installation logs provided by Duke Energy, the soils comprising the saprolite layer on site were characterized as ranging from clayey silt to partially ' weathered rock containing quartz and potassium feldspar. Bedrock encountered on site consists of granite and quartz diorite. See Appendix A for Boring Logs and Monitoring Well Construction Logs. ' 3.2 Hydrogeologic Framework The groundwater system in the Piedmont Province in most cases is comprised of two ' interconnected layers or mediums: 1) residuum/saprolite and weathered rock(regolith) overlying, and 2)fractured crystalline bedrock(Heath 1980; Hamed and Daniel 1992). Within the regolith layer, a thoroughly weathered and structureless material (termed residuum)occurs near the ground surface with the degree of weathering decreasing with depth. The residuum grades into a coarser-grained material that retains the structure of the parent bedrock and is termed saprolite. Beneath the saprolite, partially weathered bedrock occurs with depth until ' sound bedrock is encountered. This mantle of residual soil, saprolite, and weathered rock is a hydrogeological unit that covers and crosses various types of rock(LeGrand 1988). It provides an intergranular medium through which the recharge and discharge of water from the underlying fractured rock occurs. The bedrock layer consists of fractured, nonporous crystalline bedrock. The fractures control both the hydraulic conductivity and storage capacity of the rock mass. 1 A transition zone at the base of the regolith has been interpreted to be present in many areas of the Piedmont. The zone consists of partially weathered/fractured bedrock and lesser amounts of saprolite that grades into bedrock and has been described as"being the most permeable part ' of the system, even slightly more permeable than the soil zone"(Harned and Daniel 1992). The zone thins and thickens within short distances and its boundaries may be difficult to distinguish. 3 I I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan En SECTION 3-SITE GEOL IA/len Steam Station Ash Basin J OGY AND HYDROGEOLOGY It has been suggested that the zone may serve as a conduit of rapid flow and transmission of Icontaminated water(Harned and Daniel 1992). Piedmont topography is characterized by gently rounded sloped hills and valleys. Recharge I typically occurs on upland areas and slopes while groundwater discharge is concentrated in surface water bodies and lowland areas. LeGrand's(1988, 2004)conceptual model of the groundwater setting in the Piedmont incorporates the above two medium systems into an entity I that is useful for the description of groundwater conditions. That entity is the surface drainage basin that contains a perennial stream or river(LeGrand 1988). Each basin is similar to adjacent basins and the conditions are generally repetitive from basin to basin. Within a basin, I movement of groundwater is generally restricted to the area extending from the drainage divides to a perennial stream or river(Slope-Aquifer System; LeGrand 1988, 2004). Rarely does groundwater move beneath a perennial stream or river to another more distant stream(LeGrand 1 2004). Therefore, in most cases in the Piedmont, the groundwater system is a two-medium system I (LeGrand 1988) restricted to the local drainage basin. The groundwater occurs in a system composed of two interconnected layers: residuum/saprolite and weathered rock overlying fractured crystalline rock separated by the transition zone. Typically, the residuum/saprolite is I partly saturated and the water table fluctuates within it. Water movement is generally through the fractured bedrock. The near-surface fractured crystalline rocks can form extensive aquifers. The character of such aquifers results from the combined effects of the rock type, fracture I system, topography, and weathering. Topography exerts an influence on both weathering and the opening of fractures while the weathering of the crystalline rock modifies both transmissive and storage characteristics. IThe aquifer system in the Piedmont typically exists in an unconfined or semi-confined condition in the bedrock zone. Under natural conditions, the general direction of groundwater flow can be I approximated from the surface topography. Groundwater moves both vertically down through the regolith and parallel to the bedrock surface to areas where groundwater discharges as seepage into streams, lakes, or other surface water bodies. IThe Allen ash basin is generally bounded to the north by the inactive ash basin (Figure 2). Lake Wylie is located to the east of the ash basin and lies along the toe of the East Dike. To the I south, the ash basin is generally bounded by a surface water divide located north of Reese Wilson Road. This divide drops in elevation to the east toward Lake Wylie. The ash basin is generally bounded to the west by a surface water divide that runs approximately along the I alignment of South Point Road (NC 273)and upland areas east of South Point Road. The geologicalgroundwater conditions at the site are expected to be generally consistent with the characteristics of the conceptual groundwater model developed by LeGrand for the Piedmont I region. The surface water divide along South Point Road likely functions as a groundwater divide. The predominant direction of groundwater flow from the ash basin is likely in an easterly direction, generally from South Point Road towards Lake Wylie. I 1 4 I 1 1 Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis. and Reporting Plan ♦�Allen Steam Station Ash Basin r SECTION 4-MONITORING PROGRAM ' Section 4 - Monitoring Program 4.1 Regulatory Requirements for Groundwater Monitoring ' The NPDES program regulates wastewater discharges to surface waters to ensure that surface water quality standards are maintained. Allen operates under NPDES Permit NC0004979, which authorizes discharge of cooling water(Outfall 001), operate a septic tank and ash pond with pH adjustment and discharge domestic wastewater, stormwater runoff, ash sluice,water treatment system wastewaters, FGD system blowdown, landfill leachate, and miscellaneous cleaning and maintenance wash waters (Outfall 002), coal yard sump overflow(Outfall 002A) ' and power house sump overflow(Outfall 002B), miscellaneous equipment for non-contact cooling and sealing water(Outfall 003), and miscellaneous non-contact cooling water, vehicle washwater, and intake screen backwash (Outfall 004)to the Catawba River in accordance with effluent limitations, monitoring requirements, and other conditions set forth in the permit. Finally, continued operation of the FGD wet scrubber wastewater treatment system discharging to the ash basin through internal Outfall 005. The NPDES permitting program requires that permits be renewed every five years. The Allen NPDES permit requires groundwater monitoring. Permit condition A(11), Attachment XX, Version 1.1, dated June 15, 2011, lists the groundwater monitoring wells to be sampled, the parameters and constituents to be measured and analyzed, and the requirements for sampling frequency and results reporting. Attachment XX also provides requirements for well location and well construction. A copy of Attachment XX is included as Appendix B. The compliance boundary for groundwater quality for the Allen ash basin is defined in accordance with NCAC Title 15A Chapter 02L .0107(a)as being established at either 500 feet from the waste boundary or at the property boundary, whichever is closer to the source. Sampling at the compliance groundwater wells commenced March 2011. Analytical results have been submitted to the Department of Water Resources(DWR) before the last day of the month following the date of sampling for all monitoring wells except AB-9S, AB-9D, AB-10S, and ' AB-10D. In the future, analytical results will be submitted to the DWR within 60 days of the date of sampling for all monitoring wells except AB-9S, AB-9D, AB-10S, and AB-10D. Monitoring wells AB-9S, AB-9D, AB-10S, and AB-10D are located inside of the compliance boundary. Compliance with 2L Standards(at the compliance boundary)for AB-9S, AB-9D, AB- IOS, and AB-10D is determined by using predictive calculations or a groundwater model. For ' these four monitoring wells, Duke Energy uses a groundwater model to predict the concentrations at the compliance boundary. The predicted results from the groundwater model and the analytical results for samples collected during the sampling events are to be submitted to the DWR annually. 1 1 5 1 1 Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan En ' Allen Steam Station Ash Basin SECTION 4-MONITORING PROGRAM 4.2 Description of Groundwater Monitoring System ' The groundwater monitoring system for the Allen ash basin system consists of the following monitoring wells: AB-1R, AB-4S', AB-4D, AB-9S, AB-9D, AB-10S, AB-10D, AB-11D, AB-12S, AB-12D, AB-13S, AB-13D, and AB-14D. The compliance monitoring wells were installed in 2010 (MACTEC 2011). Well construction data is provided in Table 1 and Figure 3 provides an example of typical construction details. The locations for the compliance boundary monitoring wells were selected in consultation with the DWR Aquifer Protection Section. The location of the monitoring wells, the waste boundary ' and the compliance boundary are shown on Figure 2. A summary of the monitoring well location data is included in Appendix C. Monitoring wells AB-4S, AB-9S, AB-10S, AB-12S, and AB-13S were installed by rotary drilling methods using hollow stem augers, with the well screen installed above auger refusal to monitor the shallow aquifer within the saprolite layer. These wells were installed with 15-foot screens. The screen intervals for these wells range from 3 feet to 18 feet below ground surface (bgs)at AB-10S to 8 feet to 23 feet bgs at AB-12S. Monitoring wells AB-4D, AB-9D, AB-10D, AB-11D, AB-12D, AB-13D, and AB-14D were installed by rotary drilling methods using hollow stem augers and by rock coring techniques(HQ- diameter barrel)with the well screen installed in the uppermost region of the fractured rock transition zone. These wells were installed with screens lengths of either 5 feet or 10 feet. The ' screen intervals for these wells range from 15 feet to 20 feet bgs at AB-11D to 110 feet to 115 feet bgs at AB-9D. ' Monitoring well AB-1 R is located to the northwest of the inactive ash basin and is considered by Duke Energy to represent background water quality at the site. AB-1 R was installed by rotary drilling methods using hollow stem augers, with the well screen installed above auger refusal to monitor the shallow aquifer within the saprolite layer. AB-1 R was installed with a 20-foot-long screen from 51 feet to 71 feet bgs. ' Monitoring wells AB-9S, AB-9D, AB-10S, and AB-10D are located down gradient from the inactive and active ash basins. Monitoring wells AB-9S and AB-9D are located southeast of the Retired Ash Basin Ash Landfill. Monitoring wells AB-10S and AB-10D are located to the east of the active ash basin. AB-11D is located to the south of the active ash basin. Monitoring wells AB-12S, AB-12D, AB-4S, AB-4D, and AB-13S, AB-13D are generally located to the west of the active ash basin. Monitoring well AB-14D is located to the south of a portion of the inactive ash ' basin and near the western extent of the property. With the exception of monitoring wells AB-9S, AB-9D, AB-10S, and AB-10D, the ash basin monitoring wells were installed at or near the compliance boundary. Monitoring wells AB-9S, ' AB-9D, AB-10S, and AB-10D are located where it was not possible to access the compliance 1 ' Prior to 2011, monitoring well AB-4S was identified as AB-4. The NPDES permit condition A(11), Attachment XX,Version 1.1,dated June 15, 2011,and the well construction records and boring logs ' presented identify monitoring well AB-4S as AB-4. 6 1 I Duke Energy Carolinas,LLC l Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan EN Allen Steam Station Ash Basin J Il SECTION 4-MONITORING PROGRAM boundary. Therefore, these monitoring wells were installed inside of the 500-foot compliance Iboundary. Groundwater monitoring wells AB-1, AB-2, AB-2D, AB-5, AB-6A, AB-6R, and AB-8 were installed by Duke Energy in 2004 and 2005 as part of a voluntary monitoring system.2 No samples are currently collected from these wells under the compliance monitoring program. I 4.3 Monitoring Frequency The monitoring wells will be sampled three times per year in March, July, and November. I4.4 Sample Parameters and Methods The monitoring program consists of sampling and analysis for parameters and constituents identified in Attachment XX of the NPDES permit(Appendix B). IThe parameters and constituents and the analytical methods are presented in Table 2. The analytical results will be compared to the 2L Standards. I 4.5 Data Quality Objectives The overall Quality Assurance(QA)objective is to ensure that reliable data of known and I acceptable quality are provided. All measurements will be documented to yield results that are representative of the groundwater quality. Data will be calculated and reported in units as required by the NCDENR. IThe analytical QA objectives for precision, accuracy, and completeness have been established by the laboratory(s) in accordance with the Environmental Protection Agency(EPA)or other accepted agencies for each measurement variable where possible. The objectives are outlined in the Duke Energy Analytical Laboratory Procedures Manual and are available upon request. I Appropriate methods have been selected to meet applicable standards for groundwater quality. Instances may occur, however, in which the condition of the sample will not allow detection of the desired limits for various parameters either because of matrix interference or high analyte I concentrations requiring sample dilution. The laboratory(s)will provide sufficient documentation with each data package to notify reviewers about any analytical problems with the data, if needed. I I I I 2 AB-1 and AB-8 were abandoned in 2010. I 7 I I Duke Energy Carolinas,LLC 1 Groundwater Monitoring Program Sampling,Analysis,and Reporting Plan En IA/len Steam Station Ash Basin J SECTION 5-SAMPLING PROCEDURES 1 Section 5 - Sampling Procedures 5.1 Sampling Equipment IDevelopment, purging, and sampling equipment shall be selected to ensure that materials are compatible with the sample parameters and comply with state and federal regulatory Irequirements for sampling. Positive-gas-displacement fluorocarbon resin bladder pumps are installed in each monitoring well as dedicated purging and sampling systems. 5.1.1 Equipment Cleaning Procedures I Dedicated sampling equipment has been installed in each monitoring well. In the event non-dedicated equipment is used between monitoring wells, equipment will be cleaned before use and between wells in accordance with standard EPA-approved cleaning procedures for field Iequipment. This standard is outlined in the Standard Operating Procedures and Quality Assurance Manual, Engineering Support Branch, EPA Region IV, February 1, 1991. I5.2 Groundwater Sampling 5.2.1 Development of Monitoring Wells I All 13 monitoring wells addressed in this sampling plan have been previously developed. If new monitoring wells are installed, they will be developed prior to initial sampling. I Development removes silt that has settled into the bottom of the well following installation and removes fine silt and clay particles from the well screen and sand pack surrounding the screen. Well development is necessary to eliminate potential clogging and enhance well performance. I Development involves removing an estimated ten or more well volumes from the well using a positive-gas-displacement fluorocarbon resin bladder pump with up-and-down agitation to loosen particles from the well screen. After development of a well, a true well depth is recorded Ireferencing the top of well casing (TOC). 5.2.2 Groundwater Level and Total Depth Measurements IWater level measurements shall be collected and recorded to determine the groundwater elevations and groundwater flow direction and to calculate the volume of standing water in the well. All monitoring wells have been surveyed to determine the elevation of the TOC. All depth I and water level measurements shall be referencing the TOC and recorded to the nearest one- hundredth of a foot. Water level measurements shall be made with an electronic measuring device consisting of a Ispool of dual-conductor wire and sensor. When the sensor comes in contact with water, the circuit is closed and a meter light and/or buzzer are attached to the spool to signal the contact. The sensor is lowered further until it rests on the bottom of the well to determine the total depth Iof the well referencing the TOC. The depth and water level measurements shall be used to verify that the well has not filled with silt and to calculate the volume of water in the well. IThe volume of well water(in gallons) is calculated using the following equation: V= h*Tr* rz*(7.48052 gal/ft3) I 8 U I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis,and Reporting Plan En Allen Steam Station Ash Basin J I SECTION 5-SAMPLING PROCEDURES Where: I V= volume of water in the well screen and casing (gallons) Ih = height of standing water(feet) =total well depth -water level r= radius of well casing (feet) IFor example, a 2-inch-diameter casing will have a volume of 0.1631 gallons per foot. In dedicated sampling systems, an accurate well depth is determined as indicated above after I development of the well and prior to installation of the dedicated bladder pump. The well depth will be re-measured anytime the dedicated sampling system is removed for repair or replacement. The well depth, water level measurement, and calculated well volume are Irecorded on the Groundwater Monitoring Data Sheet(Figure 4). 5.2.3 Well Purging and Sampling I The selection of purging technique is dependent on the hydrogeologic properties of the aquifer and hydraulic characteristics of each well. Hydraulic conductivity, water column, well volume, screen length, and other information are evaluated to select the purging technique to acquire I groundwater representative of the aquifer conditions. The Groundwater Monitoring Data Sheet (Figure 4) is used to record purging methods and measurements. A multi-parameter water quality monitoring instrument is used to measure field stabilization or indicator parameters for determining representative groundwater during purging. These instruments measure pH, specific conductance, temperature, dissolved oxygen (DO), and Ioxidation-reduction potential (ORP). Instrument calibration must be performed and documented before and after each sampling event. The pH subsystem will be calibrated with two pH standards(pH 7.0 and 4.0) bracketing the expected groundwater pH. The specific conductance Isubsystem will be calibrated using two standards bracketing the expected groundwater conductivity. Calibration results will be recorded on a Field Sampling Calibration Form (Figure 5). IVarious well purging techniques are described below. The purging method utilized at any particular well will be selected after considering the characteristics of the well and the purging method(s) used during previous sampling events. IConventional Purging This technique entails removing one equivalent well volume and measuring the indicator I parameters(temperature, pH, and specific conductance). When the parameters have stabilized to within ±0.2 pH units and ±10 percent for temperature and conductivity over three to five well volumes, representative groundwater has been achieved for sampling. It is acceptable to begin I sampling after five complete well volumes have been removed, even when indicator parameters have not stabilized. Groundwater is pumped into a graduated container to measure the volume of water purged. Under normal rates of recovery, samples should be collected immediately Iafter purging in accordance with EPA guidelines. I 9 I I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis,and Reporting Plan EN IAllen Steam Station Ash Basin SECTION 5-SAMPLING PROCEDURES For low-yield wells incapable of yielding three to five well volumes in a reasonable amount of I time(e.g., 2 hours or less), groundwater is purged to the elevation of the pump intake while measuring indicator parameters. Typically, low-yield wells are evacuated to dryness one time and sampled when sufficient water level recovery occurs. Turbidity is not a required I stabilization parameter, but turbidity levels of 10 nephelometric turbidity units(NTU)or less should be targeted. I Low-Flow Purging Low-flow purging and sampling are appropriate when the recharge rate of the well approximates or equals the discharge rate of the pump with minimal drawdown of the water column (51 foot). IDuring low-flow purging and sampling, groundwater is pumped into a flow-through chamber at flow rates that minimize or stabilize water level drawdown within the well. Indicator parameters I are measured over time (usually at 5-minute intervals). When parameters have stabilized within ±0.2 pH units and ±10 percent for temperature, conductivity, and DO; and ±10 millivolts (mV)for ORP over three consecutive readings; representative groundwater has been achieved for I sampling. Turbidity is not a required stabilization parameter, but turbidity levels of 10 NTU or less should be targeted. Modified Low-Flow Purging This technique is considered a viable option particularly in the Piedmont region due to the likely presence of fine-grained soils where water level drawdown cannot be stabilized while pumping. When the well recharge rate is less than the pump discharge rate, excessive drawdown I (>1 foot)of the water column occurs and mixes with stagnant water located above the screened interval. One equivalent well volume is removed initially before measuring indicator parameters. Frequently, removal of the initial well volume reduces the hydraulic head and allows for I matching of the recharge rate with the pumping rate providing stabilization of drawdown. Indicator parameters should be measured at 5-minute intervals using a flow-through chamber attached to a multi-parameter water quality instrument. When parameters have stabilized to Iwithin ±0.2 pH units and ±10 percent for temperature, conductivity, and DO; and ±10 mV for ORP over three consecutive readings; representative groundwater has been achieved for sampling. Turbidity is not a required stabilization parameter, but turbidity levels of 10 NTU or Iless should be targeted. Very Low-Yield Well Purging I This technique provides the best option for monitoring wells that historically purge to dryness and do not sufficiently recharge to provide adequate volume for sample collection. Wells that yield less than 100 milliliters per minute (mUmin)frequently incur significant drawdown during I well purging. Therefore, if the well yield is less than 100 mUmin, the volume of the pumping system (i.e., the pump bladder,tubing, and flow-through chamber)shall be calculated and two pumping system volumes shall be removed. Indicator parameters will be measured and Irecorded initially, and then sample collection will begin. 5.3 Sample Collection I Groundwater samples are collected after representative groundwater has been determined by purging and stabilizing the indicator parameters. 1 10 I I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling.Analysis, and Reporting Plan F�1 IA/len Steam Station Ash Basin J SECTION 5-SAMPLING PROCEDURES Sampling personnel wear clean, disposable, non-powdered nitrile gloves at each location. ISamples are collected in the order of the volatilization sensitivity of the parameters: • Metals, metalloids, and selenium I • Sulfate, nitrate, and chloride • Total dissolved solids I After collection, samples will be preserved and stored according to parameter-specific methods and delivered to the laboratory under proper Chain-of-Custody(COC) procedures. All pertinent notations, water-level measurements, removed well volumes, and indicator parameters shall be Idocumented on the Groundwater Monitoring Data Sheet(Figure 4). 5.4 Sample Containers, Volume, Preservation, and Holding Time I All sample containers supplied by the laboratory for the collection of groundwater samples shall be new and pre-cleaned as approved by EPA procedures appropriate for the parameters of interest. Table 3 summarizes the sample containers, sample volume, preservation procedures, I and holding times required for each type of sample and parameter. Sample containers will be kept closed until used. All sample containers will be provided by Duke Energy or vendor laboratories. 1 5.5 Sample Tracking The COC procedures allow for tracing the possession and handling of individual samples from Ithe time of field collection through laboratory analysis and report preparation. Samples shall be pre-logged prior to sample collection. This process assigns a unique tracking number for each sample and generates corresponding labels. An example of the COC Record is provided as IFigure 6. 5.6 Sample Labeling ISample containers shall be pre-labeled and organized prior to field activities as part of the pre-sampling staging process. As samples are collected,the sampling personnel shall write the Ifollowing information directly on the label: sampling date and time, and initials of sample collector. This information is also recorded on the Groundwater Monitoring Data Sheet (Figure 4) and the COC Record (Figure 6). 1 5.7 Field Documentation Field documentation from each sampling event is recorded on the Groundwater Monitoring Data I Sheets(Figure 4), the Field Sampling Calibration Form (Figure 5), and the COC Record (Figure 6). Additionally, a Groundwater Sampling Site Checklist(Figure 7) is completed indicating information about the monitoring well such as proper identification (ID)tag and condition of I protective casing and pad. Field notations shall be made during the course of the field work to document the following information as applicable: • Identification of well I • Well depth • Static water level depth and measurement technique 1 11 I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan EN I Allen Steam Station Ash Basin J SECTION 5-SAMPLING PROCEDURES • Presence of immiscible layers and detection method I • Well yield—high or low • Purge volume or pumping rate I • Sample identification numbers • Well evacuation procedure/equipment I • Sample withdrawal procedure/equipment • Date and time of collection I • Types of sample containers used • Identification of replicates or blind samples I • Preservative(s) used • Parameters requested for analysis • Field analysis data and methods • Sample distribution and transporter • Field observations during sampling event I • Name of sample collector(s) • Climatic conditions including estimate of air temperature IThe Groundwater Monitoring Data Sheets(Figure 4), the Field Sampling Calibration Form (Figure 5), and the COC Record and Analysis Request Form (Figure 6)will be filed by project I and date. Recorded entries will be made on electronic forms or on paper forms with indelible ink. Errors on paper documents will be corrected by drawing a line through the error, initialing and dating the correction, and starting a new entry on the next line (if necessary). 1 5.8 Chain-of-Custody Record The COC Record (Figure 6)accompanies the sample(s), traces sample possession from time of 1 collection to delivery to the laboratory(s), and clearly identifies which sample containers have been designated for each requested analysis. The record includes the following types of information: I • Sample identification number • Signature of collector I • Date and time of collection • Sample type (e.g., groundwater, immiscible layer) • Identification of well I • Number of containers • Parameters requested for analysis I . Preservative(s) used I • Signature of persons involved in the chain of possession • Inclusive dates of possession 1 12 I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis,and Reporting Plan EN I Allen Steam Station Ash Basin SECTION 5-SAMPLING PROCEDURES 5.9 Sample Custody, Shipment, and Laboratory Receipt IFor the purpose of these procedures, a sample is considered in custody if it is: • In actual possession of the responsible person I • In view, after being in physical possession • Locked or sealed in a manner so that no one can tamper with it after having been in Iphysical custody or in a secured area restricted to authorized personnel All samples shall be maintained in the custody of the sampling crew during the sampling event. At the end of each sampling day and prior to the transfer of the samples off site, entries shall be Icompleted on the COC form for all samples. Upon transfer of custody, the COC form is signed by a sampling crew member including the date and time. If outside vendor laboratories are utilized, samples shall be delivered to these facilities by Duke Energy personnel or courier. IAll COC forms received by the laboratory(s) shall be signed and dated by the respective supervising scientist(s) or their designee (at the Duke Energy lab)or the laboratory sample Icustodian (at vendor labs) immediately following receipt by the laboratory. The analysts at the laboratory(s) maintain a sample tracking record that will follow each sample I through all stages of laboratory processing. The sample tracking records show the date of sample extraction or preparation and analysis. These records are used to determine compliance with holding time limits during lab audits and data validation. ICustody procedures followed by Duke Energy laboratory personnel are described in detail in the Duke Energy Laboratory Services Procedures Manual. I I I I I 1 I 1 13 I I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan En IA/len Steam Station Ash Basin J SECTION 6-ANALYTICAL METHODS I Section 6 - Analytical Methods The main analytical laboratory used in this program is the Duke Energy Laboratory Services Laboratory: N.C. Drinking Water(NC37804)and Wastewater(#248) Certifications. The Iorganizational structure and staff qualifications of the laboratory are discussed in its generic Quality Assurance Program (QAP). The QAP and the Analytical Laboratory Procedures Manual are available for review upon request. 1 Vendor laboratories that meet EPA and North Carolina certification requirements may be used for analyses with approval by Duke Energy. IThe analytical methods used for the samples analyzed for this Groundwater Monitoring Program are listed in Table 2. Specific conductance,field pH, and temperature are measured in the field I according to the Duke Energy Groundwater Monitoring and Sample Collection Procedure or the instrument manufacturer instructions. I I I I I I I I I I 1 14 I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis, and Reporting Plan En IA/len Steam Station Ash Basin J SECTION 7-INTERNAL QUALITY CONTROL CHECKS I Section 7 - Internal Quality Control Checks Internal laboratory quality control (QC) checks used by the laboratories are described in each laboratory's generic QAP and procedures manual. Using the internal laboratory QC checks, the Ilaboratories demonstrate the ability to produce acceptable results using the methods specified. Internal quality control checks for sampling procedures and laboratory analyses will be I conducted with each sampling event. These checks will consist of the preparation and submittal of field blanks, trip (travel) blanks, equipment blanks and/or field replicates for analysis of all parameters at frequencies described in the laboratory(s) procedures manuals. IThe field QC blanks and replicates that may be included as internal QC checks are described below. The specific type and number of blanks used may vary depending on the sampling Ievent and will be determined by the Duke Energy field sampling personnel: • Field Blanks: A field blank consists of a sample container filled in the field with organic- free, deionized, or distilled water prepared and preserved in the same manner as the Isamples. The field blank is transported to the laboratory with the samples and analyzed along with the field samples for the constituents of interest to check for contamination imparted to the samples by the sample container, preservative, or other exogenous Isources. Field blanks are typically utilized for each sampling event. The field blanks are typically analyzed for major anions, cations, and metals. I • Trip Blanks: A trip (travel) blank is a sample container filled with organic-free water in the laboratory that travels unopened with the sample bottles. Trip blanks are typically utilized when sampling for volatile organic compounds. The trip blank is returned to the I laboratory with the field samples and analyzed along with the field samples for parameters of interest. • Equipment Blanks: If non-dedicated equipment is used between wells, it is I recommended that equipment blanks be collected. The field equipment is cleaned following documented cleaning protocols. An aliquot of the final control rinse water is passed over the cleaned equipment directly into a sample container and submitted for I analyses. • Field Replicates: A field replicate is a duplicate sample prepared at the sampling locations from equal portions of all sample aliquots combined to make the sample. Both I the field replicate and the sample are collected at the same time, in the same container type, preserved in the same way, and analyzed by the same laboratory as a measure of sampling and analytical precision. I I I 1 15 I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling.Analysis,and Reporting Plan EN I Allen Steam Station Ash Basin SECTION 8-VALIDATION OF FIELD DATA PACKAGE I Section 8 - Validation of Field Data Package The field data package includes all of the field records and measurements developed by the sampling team personnel. The field data package validation will be performed by Duke Energy Ipersonnel. The procedure for validation consists of the following: • A review of field data contained on the Groundwater Monitoring Data Sheets for I completeness. • Verification that field replicates, equipment blanks, field blanks, and trip blanks were properly prepared, identified, and analyzed. I • A check of the Field Sampling Calibration Form for equipment calibration and instrument conditions. • A review of the COC Record for proper completion, signatures of field personnel and the Ilaboratory sample custodian, dates and times, and for verification that the correct analyses were specified. I I I I I I I I 1 I 1 16 I I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis,and Reporting Plan F11 I Allen Steam Station Ash Basin J` SECTION 9-VALIDATION OF LABORATORY DATA I Section 9 - Validation of Laboratory Data The laboratory will perform a validation review of the submitted samples and analytical results to ensure that the laboratory QA/QC requirements are acceptable. 1 1 I I I I I I I 1 I I 1 I 1 17 I Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling,Analysis,and Reporting Plan EN I Allen Steam Station Ash Basin SECTION 10-REPORT SUBMITTAL I Section 10 - Report Submittal A report of the monitoring results for all monitoring wells except AB-9S, AB-9D, AB-10S, and AB-10D will be submitted to the NCDENR DWR within 60 days of the date of sampling. The Imonitoring results will be submitted on NCDENR Form GW-59CCR. The DWQ will be notified in the event that vendor lab analyses have not been completed within I this time frame. All Groundwater Monitoring Data Sheets, Field Calibration Forms, COC Records, Laboratory QA data, and Data Validation Checklists shall be kept on file by Duke Energy and are available upon request. A report of monitoring results and the predictive calculations at the compliance boundary for monitoring wells AB-9S, AB-9D, AB-10S and AB-10D will be submitted to the DWR within 120 I days following the date of the October sampling event. I I I 1 I I I I I I 1 18 Duke Energy Carolinas,LLC I Groundwater Monitoring Program Sampling.Analysis. and Reporting Plan En ' Allen Steam Station Ash Basin J SECTION 11-REFERENCES Section 11 - References Harned, D.A. and Daniel, C.C., III. 1992. The Transition Zone Between Bedrock and Regolith: Conduit for Contamination? p. 336-348, in Daniel, C. C., Ill, White, R. K., and Stone, P. A., eds., Groundwater in the Piedmont: Proceedings of a Conference on Ground Water in the Piedmont of the Eastern United States, October 16-18, 1989, Clemson University, 693p. Heath, R.C. 1980. Basic elements of ground-water hydrology with references to conditions in North Carolina: U. S. Geological Survey Water-Resources Open-File Report 80-44, 86p. LeGrand, H.E. 1988. Region 21, Piedmont and Blue Ridge, p.201-208, in Black, W., Rosenhein, J.S., and Seaber, P.R., eds., Hydrogeology: Geological Society of America, ' The Geology of North America, v. 0-2, Boulder, Colorado, 524p. LeGrand, Harry, Sr. 2004. A Master Conceptual Model for Hydrogeological Site Characterization in the Piedmont and Mountain Region of North Carolina, North Carolina Department of Environment and Natural Resources. MACTEC, 2011. MACTEC. Allen Steam Station—Ash Basin Monitoring Well Installation Report. January 7, 2011. North Carolina Geological Survey. 1985. Geologic map of North Carolina: Raleigh, North Carolina Geological Survey, scale 1:500,000. Pippin, Charles G., Chapman, Melinda J., Huffman, Brad A., Heller, Matthew J., and Schelgel, Melissa E. 2008. Hydrogeologic Setting, Ground-Water Flow, and Ground-Water Quality at the Langtree Peninsula Research Station, Iredell County, North Carolina, 2000-2005, United States Geological Survey, Prepared in cooperation with the North Carolina Department of Environment and Natural Resources, Division of Water Quality. S&ME, Inc., 2007. S&ME, Inc. Site Suitability Study-Retired Ash Basin (RAB)—Landfill. Duke Energy—Allen Steam Station. August 31, 2007. 1 1 19 1 Ii.. 4,' ,, .1 1 i . .. (A . . ,4v,.0.-it 1 �� a: •LLEN STEAM STATION v�1 , I c -- , \\.: i s„ '} = Y ir i MEM -.:- CJ . i _ � 6: ACTIVE ASH BASIN ILAKE WYLIE ...-s% ' e5° 69\- 1 • kawArmstrong Bride ' ,_j_____, . v N °° NOTES: I. SOURCES: USGS TOPOGRAPHIC MAP BELMONT QUADRANGLE - CREATED 1993, UPDATED 2011 0 I SCALE (FEET) lY'� (` 1,000 0 1.000 2,000 a;, ' ^' 1 SITE LOCATION MAP DATE DUKE ENERGY CAROLINAS, LLC OCT. 10,2014 ALLEN STEAM STATION ASH BASIN I NPDES PERMIT #NC0004979 FIGURE GASTON COUNTY, NORTH CAROLINA i I I >.. q -r I - a • !, • I ! f 4 • 1 i is 1( _, •.Oil '� N LAKE WYLIE '.V'r mak='`k" '...4 '16: :;` e- /�rj ii, , ' T • } 1 , ,1 { • of(• 1. I LEGEND: f fir , DUKE ENERGY PROPERTY BOUNDARY ASH BASIN COMPLIANCE BOUNDARY _ ,-. -�,. r. _ ASH BASIN COMPLIANCE BOUNDARY COINCIDE ' - I WITH DUKE ENERGY PROPERTY BOUNDARY - Y itt ASH BASIN WASTE BOUNDARY ., ASH STORAGE AREA BOUNDARY a 4 a * I TOPOGRAPHIC CONTOUR(4 FOOT) `] - _,.•y ►, a I ASH BASIN COMPLIANCE GROUNDWATER . e� - - MONITORING WELL nom. .• , STREAM ## I NOTES: 1.PARCEL DATA FOR THE SITE WAS OBTAINED FROM DUKE ENERGY F DATE 2.ASH BASIN WASTE BOUNDARY AND ASH STORAGE AREA BOUNDAI RECEIVEDIDENIR/DW OCT. 10, 2014 3.AS-BUILT MONITORING WELL LOCATIONS PROVIDED BY DUKE ENEF 4.SHALLOW MONITORING WELLS(5)-WELL SCREEN INSTALLED ACRI I S.DEEP MONITORING WELLS(D)-WELL SCREEN INSTALLED IN THE TR FIGURE 6.TOPOGRAPHY DATA FOR THE SITE WAS OBTAINED FROM NC DOT C U C T 1 5 2014 A 7.ORTHOPHOTOGRAPHY WAS OBTAINED FROM NC ONEMAP GIS WE `J S.THE ASH BASIN COMPLIANCE BOUNDARY IS ESTABLISHED ACCORL)LINA vvater Quality I Permitting Section I I I ABOVEGROUND WELL PROTECTOR I (4 INCH X 4 INCH X 5 FOOT STEEL CASING WITH HINGED LOCKABLE LID) I • DRILL/1" DIAMETER VENT HOLE BELOW IE1 PLUG 2'-6" TO 3'-0" (NOMINAL) SII 2" . ISTICK-UP I WELDIAL CASING GROUND SURFACE IT L CONCRETE PAD I6 MIN. 2 FT X 2 FT SQUARE NEAT CEMENT OR NEAT CEMENT BENTONITE j I MIX FROM BENTONITE SEAL TO GROUND SURFACE • 1 7N77 BORING %� (8" NOMINAL DIAMETER) I r b 6 . BENTONITE SEAL I ;? 2' -0' (MINIMUM) 2'-0` (MINIMUM) I WELL SCREEN .: ' (0.010" MANUFACTURED SLOTS, TYPICAL) ��_ I WELL PACKING (TYP. #1 OR #2 SAND) SCREEN LENGTH VARIES (5' TO 15' TYP.) I MALE PVC PLUG '-- f 6±" OF WELL SAND tTypical Well Construction Details (no scale) IINFORMATION PROVIDED BY DUKE ENERGY CAROLINAS, LLC I 1-1)/ TYPICAL OCT. 10, 2014 MONITORING WELL DATE CONSTRUCTION FIGURE I DETAILS 3 .....I,".""".,. I I It' DUKE DUKE ENERGY PROCEDURE NO 3175.1 �' ENERGY® GROUNDWATER MONITORING DATA SHEET 0 FOR CONVENTIONAL SAMPLING SITE NAME Allen Steam Station PERMIT# NC0004979 SITE ID N/A IPROJECT NAME Ash Basin Groundwater Monitoring FIELD CREW D D CD SAMPLING DATE(s) WELL/LOCATION NAME IMONITORING WELL INFORMATION ETER(in) TOC ELEV(ft msl) MIDDLE OF WETTED SCREEN(ft toc) WELL DEPTH(ft TOC) GS ELEV(ft msl) PUMP INTAKE DEPTH(ft TOC) I SCREEN LENGTH(ft) ELEV REF SCREEN INTERVAL(ft TOC) TO EQUIPMENT INFORMATION LEVEL METER SERIAL# SAMPLING EQUIPMENT PURGE METHOD I TUBING DIAMETER(in) PUMP CONTROLLER SETTINGS PRESSURE (psi) RECHARGE (sec) DISCHARGE (sec) ISAMPLING INFORMATION INITIAL DEPTH TO WATER(ft TOC) WATER COLUMN(ft) Well Volume=water column X conversion factor WATER ELEVATION(ft msl) WELL VOLUME (gal) (Conversion factor dependent on well diameter Q DETECTED ODOR None CONVERSION FACTOR 0.1631 and selected well volume units) APPEARANCE Normal E E 2 0 ❑ ❑ ❑ (gal) PURGE WATER LEVEL COMPLETE TEMP SPECIFIC COND. pH TURBIDITY ORP DISSOLVED WELL VOL VOLUME AFTER PURGE` EVACUATION OXYGEN (recalculates on current water lg (ft) (YES/NO) (deg C) (umho/cm) (SU) (NTU) (mV-NEH) (mg/L) level) I TOTAL PURGE *Optional measurement to recalculate well CHLORINE Ima/q VOLUME volume when purging results in substantial SAMPLE COLLECTED BY DATE TIME 0.00 drawdown of water column @ NA U QC By: WELL CONDITION ADDITIONAL WELL CONDITION NOTES II PROTECTIVE CASING WELL PAD WELL CASING WELL TAG ISAMPLING NOTES II II AFIGURE 4: EXAMPLE GROUNDWATER MONITORING DATA SHEET I I FIELD SAMPLING CALIBRATION FORM I STUDY: DATE(s): Allen Steam Station Ash Basin Groundwater Monitoring SURFACE UNIT READER: COLLECTORS: SURFACE UNIT SERIAL#: I ANALYZER MODEL#: OTHER EQUIPMENT: ANALYZER SERIAL#: WEATHER CONDITIONS: PROCEDURE#: HYDROLAB 3210.3 VALIDATED BY: Calibration Date/Time DATE: I I TIME: I DATE: I I TIME: BP(mmH )I BP(mmH ) Calibation Instrument Standard Instrument Standard Parameter Calibration Results Standard Value Value Value Value Calibration Results SS 0.0 —r—► 0.0 Instrument Zeroed 0.0 -,—► 0.0 Zero Pass SPEC.COND. (uS/cm) SS —s. 350 --/—o. 350 I SS —/—o. 150 —t—o. 150 B(7.00) --ii. 7.00 —/—► pH B(4.00) —► 4.00 —a—► (units) 1 �..D. �. B(10.0)) .�..—. —/—o. 10.00 .�..�..�..�..—..—. �..�.. —/—► _ Buffer Temp. 25.00 Buffer Temp. Mid-Day Ck B(7.00) — 25.00 • --_- —�-_ Time: Butter Temp. I p ORP SS(7.00) —s- 285 —► 285 OW) SS(4.00) N/A —► 462 N/A —/—► 462 ORP Temp. 25.00 ORP Temp. 25.00 I ❑ W DO (mg/L) W AW —► —/—► I ❑ TURK (ntu) SS —/—► —i—. Temp Cert Device# TEMP NIST N/A —/—► N/A Adjustment Not Available N/A -,—► N/A Adjustment Not Available I (deg C) AMMONIUM SS N/A —/—► N/A N/A —/—► N/A (m9/L) SS N/A —/—► N/A N/A —t—► N/A IINSTRUMENT MAINTENANCE I DATE/TIME Conductance Subsystem pH Subsystem ❑ Cleaned Electrodes 0 Cleaned Electrodes I ❑ Tested-OK See Notes CI Replaced ref Electrode KCL ❑ CIReplaced Ref.Electrode Tip CI Replaced -OK 0 See Notes Dissolved Oxygen Subsystem Ammonium Subsystem ID Replaced Teflon Membrane ❑ Cleaned Electrode Tip ❑ Replaced DO electrolyte Instaled New Electrode ❑ Cleaned Electrode ❑ Removed Electrode/Installed Plug ❑ See Notes ❑ Tested-OK ❑ See Notes I Oxidation Reduction Subsystem Turbidity Subsystem ❑ Cleaned Electrode ❑ Cleaned Electrode 8 Wiper ❑ Tested-OK ❑ See Notes ❑ Tested-OK ❑ See Notes Temperature Subsystem Depth Subsystem ID Cleaned Electrode ElReset/Calibrated ❑ Tested-OK ❑ See Notes 0 Tested-OK ❑ See Notes KEY: B=Buffer W=Winkler —a-=Adjusted To N/A=Not Applicable SS=Standard solution AW=Average Winkler —/—►=Not Adjusted To INOTES: IFIGURE 5: EXAMPLE FIELD SAMPLING CALIBRATION FORM I N MN 1 NM NM r MN EN r i■■- MB 1 MN MN — NM MI MI 111111 CHAIN OF CUSTODY RECORD AND ANALYSIS REQUEST FORM Duke - - - ---. - , r - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - -: Duke EnergAnalyticalLab Services--- -i i Analytical Laboratory Use Only 1 E Mall Code MGO3A2 (Building 7405) ! !UMS/ q� NC J ! '9P� 1 of 1 ne�. 1333$Hagers Ferry Rd � i From htg S— ' DISTRIBUTION f�•r '� HuntersvNb, N.C. 2x078 ORIGINAL to LAB. ' 'Logged By Date&Time SAMPLE PROGRAM I: COPY to CLIENT For Data led Instructions,see: (704)175-5245 httpJ/dewww/essenv/coc Fax:l7040 .---•_•_•_75-503! i i NGro PDESter i 1)Projsct e - _•- - - - 2)PhNo: Vendor Namone Drinking Water_ ! m UST 1 a i Cooler Temp(C) Rt^.r&wi.k 1 U3)Client 4)Fax No: ;PO if IaPreserv.:1-HCL n i 2.H2SO4 3-HNO3 4.11ce 5-None E E 5)Busln.ss Unit: 20038 6)Process: 7)Resp.To: :MR I0 m m 1 c E c a)Prn sct it): 9)Activky ID: 10)MaII Code: V ( to complete all aopro5Tratt�f < ISc NON-SHADED areas, ! o: # 0 i LAB USE ONLY i 14Collection Information I . El– i i '=Chem Desktop L' "Lab ID No. "Sample Description or ID Dab Time Signature v t i i i 1 a i iT o 1. is J . i1 15. Ia. N I, i . it io I . iE o :u 6 Customer to sign&date below 21)Relinquished By Date/Time Accepted By DatelTlms uRequeshd Turnaround Relinquished By Date/Time Accepted By Date/Time c.1 •2 14 Days J 12 Relinquished By Date/Time Accepted By Date/Tlme E $3 0 *7 Days 23)Seal/Locked By Date/Time Sealed/Lock Opened By Date/TimeE 9? •qg Hr 3 5 24)Comm.nt` FIGURE 6 - CHAIN OF CUSTODY RECORD AND ANALYSIS REQUEST FORM " e 'Other •Add.Cost Will Apply 11111 1 N 1111 111111 1 111111 N 111111 1 111111 1 111111 NORTH CAROLINA GROUNDWATER SAMPLING SITE CHECKLIST LOCATION/SITE Allen Steam Station/Ash Basin Groundwater Monitoring PERMIT# NC0004979 SAMPLE DATE SITE CONTACT FIELD CREW WEATHER PAGE 1 OF 1 AB-IR AB-4S AB-4D AB-9S AB-9D AB-10S AB-10D AB-11D AB-12S AB-12D AB-13S AB-13D AB-14D ACCESS TO WELLS Access cleared into well Access cleared around well Tall grass or weeds-needs mowing Road washing out/muddy/needs grading Fallen tree blocking access WELL SECURTIY Well found locked Well found unlocked WELL LOCK CONDITION Lock in good condition Lock rusted,difficult to open/needs replacing Replaced damaged lock WELL CASINGS Casing In good condition Damaged casing/still functional Damaged casing/repair required CONCRETE PADS Pad in good condition Minor cracks Major cracks/broken/repair required Undermined/washing out Fire ants around concrete pad WELL PROTECTIVE CASINGS Casing in good condition Damaged casing/still functional Damaged casing/repair required Broken hinge on protective lid Wasp nest inside protective casing Ants inside protective casing WELL CAPS Well cap in good conditon Damaged/needs replacement Replaced damaged well cap FLUSH MOUNT WELLS • Vault in good condition Water inside vault Vault bolt holes broken or stripped Bolts stripped Vault lid cracked or broken WELL ID TAGS Well tag in good condition Well tag missing Well tag damaged/illegible Lacks required information-Driller Reg N Lacks required Information-Completion date Lacks required information-Total well depth Lacks required information-Depth to screen Lacks required information-Non potable tag NOTE: FIGURE 7: GROUNDWATER SAMPLING SITE CHECKLIST r I 1 - - M - M M a M - - I M 1 M E E Table 1 Monitoring Well Information Allen Steam Station Ash Basin AB-1R AB-4S A8-4D AB-9S AB-9D AB-10S AB-10D AB-11D AB-12S AB-12D AB-13S AB-13D AB-14D North(ft) 529,135.87 525,731.58 525,728.26 527,138.02 527,134.58 524,935.45 524,935.07 523,285.10 524,228.86 524,231.41 526,178.49 526,169.12 527,206.47 East(ft) 1,396,853.87 1,396,723.77 1.396,717.97 1,400,630.95 1,400,631.50 1,400,636.10 1,400,639.77 1,399,059.61 1,396,538.86 1,396,539.93 1,397,490.13 1,397,488.65 1,396,716.58 Toy of PVC Casing 675.86 650.46 649.17 582.73 582.72 575.05 574.97 618.07 651.69 651.75 648.72 648.54 641.8 Elevation(ft) Well Diameter 2" 2' 2" 2" 2' 2" 2' 2' 2' 2• 2" 2" 2• Well SUGo-w(ft) 2.29 2.52 2.19 2.19 2.35 2.44 2.56 2.68 2.05 2.04 2.74 2.65 2.44 TYPe of Casing PVC PVC PVC PVC PVC PVC PVC PVC PVC PVC PVC PVC PVC focal Depth 73.18 24.90 52.18 23.20 117.58 20.85 65.00 23.21 25.63 98.57 24.71 74.85 31.89 below TOC(ft) Screen Length(t) 10 15 5 15 5 15 5 5 15 5 15 5 10 Screen Interval 63.18-73.18 9.9-24.9 47.18-52.18 8.20-23.20 112.58-117.58 5.85-20.85 60.00-65.00 18.21-23.21 10.63-25.63 93.57-98.57 9.71-24.71 69.85-74.85 21.89-31.89 (ft below TOC) Notes: 1.ft indicates feet. 2.TOC indicates top of casing. 3.As-built well coordinates(NAD 83)and top of PVC casing elevations(NAVD 88)provided by Duke Energy. 4.Well diameter,type of casing,and screen lengths were obtained from Well Construction Records provided by Duke Energy. 5.Well total depth below TOC and well stick-up measurements provided by Duke Energy. Page 1 of 1 I Table 2 ISample Parameters and Analytical Methods Allen Steam Station Ash Basin I PARAMETER UNITS ANALYTICAL METHOD I /n S/tu Parameters Field pH pH Units Hydrolab Conductivity pmhos/cm Hydrolab I Temperature °C Hydrolab Water Level ft Water Level Meter Laboratory IAntimony pg/L TRM/EPA 200.8 Arsenic pg/L TRM/EPA 200.8 I Barium mg/L TRM/EPA 200.7 Boron mg/L TRM/ EPA 200.7 Cadmium pg/L TRM/EPA 200.8 I Chloride mg/L EPA 300.0 Chromium mg/L TRM/ EPA 200.7 Copper mg/L TRM/EPA 200.7 I Iron mg/L TRM/EPA 200.7 Lead pg/L TRM/ EPA 200.8 Manganese mg/L TRM/EPA 200.7 IMercury pg/L EPA 245.1 Nickel mg/L TRM/ EPA 200.7 Nitrate(as Nitrogen) mg/L EPA 300.0 ISelenium pg/L TRM/EPA 200.8 Sulfate mg/L EPA 300.0 Thallium pg/L TRM/EPA 200.8 ITotal Dissolved Solids pg/L SM 2450C Zinc mg/L TRM/EPA 200.7 I Notes: 1.pmhos/cm indicates micro-mhos per centimeter. 2.ft indicates feet. I 3.pg/L indicates micrograms per liter. 4.TRM indicates total recoverable metals. 5.EPA indicates Environmental Protection Agency. 6.SM indicates Standard Method. I I Page 1 of 1 I I I Table 3 Sample Containers, Preservatives, and Holding Times I Allen Steam Station Ash Basin PARAMETER - - CONTAINERS PRESERVATIVES ` - HOLDING TIMES In Situ Parameters IField pH In Situ None Analyze Immediately Conductivity In Situ None Analyze Immediately Temperature In Situ None Analyze Immediately ILeboratroryAnabees Antimony 500 ml HDPE pH<2 HNO3 6 months I Arsenic Barium 500 ml HDPE pH<2 HNO3 pH<2 HNO3 6 months 500 ml HDPE 6 months Boron 500 ml HDPE pH<2 HNO3 6 months I Cadmium 500 ml HDPE pH<2 HNO3 6 months Chloride 500 ml HDPE Cool 4°C 28 days Chromium 500 ml HDPE pH<2 HNO3 6 months I Copper 500 ml HDPE pH<2 HNO3 6 months Iron 500 ml HDPE pH<2 HNO3 6 months Lead 500 ml HDPE pH<2 HNO3 6 months I Manganese 500 ml HDPE pH<2 HNO3 6 months Mercury 500 ml HDPE pH<2 HNO3 6 months I Nickel 500 ml HDPE pH<2 HNO3 6 months Nitrate(as Nitrogen) 500 ml HDPE Cool 4°C 48 hours Selenium 500 ml HDPE pH<2 HNO3 6 months I Sulfate 500 ml HDPE Cool 4°C 28 days Thallium 500 ml HDPE pH<2 HNO3 6 months Total Dissolved Solids 500 ml HDPE Cool 4°C 7 days I Zinc 500 ml HDPE pH<2 HNO3 6 months Notes: I1.ml indicates milliliter. 2.HNO3 indicates nitric acid. I 3.HDPE indicates high density polyethylene. I I I Page 1 of 1 Appendix A — Boring Logs and Monitoring Well Construction Records I I I I I I I I Allen Steam Station IBoring Logs and Well Construction Records I I I I I I I I I I I PROJECT: Allen Steam Station Ash Basin Wells Belmont,North Carolina BORING LOG AB-4 I 1264-04-528 NOTES: DATE DRILLED: 10/1104 ELEVATION: 647.9 DRILLING METHOD: 4'/i"H.S.A. BORING DEPTH: 22.0 LOGGED BY: Julie Petersen WATER LEVEL: 6.5 ft bls at 24 hrs DRILLER: Travis Costello DRILL RIG: Diedrich D-50 I x = w O w a} STANDARD PENETRATION TEST DATA w a_ a o MATERIAL DESCRIPTION > (blows/rt) 0 H w -- a O > 0 z I w - 10 20 30 60 80 ,. \Topsoil/Rootmat ,!///// UPPER HORIZON: Red Fine Sandt Silty CLAY _ I _ I 642.9— 1 AV 13 5 I ,/!/ SAPROLITE: Reddish Yellow Micaceous Fine Sandy Clayey SILT I 2 X 15 107)/4637.9— i !-4 Tan,Brown and White Micaceous Slightly Clayey Silty Q Coarse to Fine SAND - 3 X 5 15—'' 632.9— I CH 4 1 6 111 `1120=;.627.9— N a Io Boring Terminated at 22 ft bls.Water Level was 12.5 ft bls 5 at TOB. 0 _, 0 2 1co 1.BORING AND SAMPLING IS IN ACCORDANCE WITH ASTM D-1586. 2.PENETRATION(N-VALUE)IS THE NUMBER OF BLOWS OF 140 LB.HAMMER IFALLING 30 IN.REQUIRED TO DRIVE 1.4 IN.I.D.SAMPLER 1 FT. ,.. ..- 9751 Southern Pine Blvd. Page 1 of 1 1 ' Charlotte, NC 28273 ENGINEERING • TESTING ENVIRONMENTAL SERVICES I IPROJECT: Allen Steam Station Ash Basin Wells Belmont,North Carolina BORING LOG AB-4D I 1264-04-528 NOTES: DATE DRILLED: 1015104 ELEVATION: 646.9 DRILLING METHOD: Casing Advancer BORING DEPTH: 50.0 1 LOGGED BY: Julie Petersen WATER LEVEL: DRILLER: Travis Costello DRILL RIG: Diedrich D-50 Ii _ = w p uj au STANDARD PENETRATION TEST DATA u. w o a o MATERIAL DESCRIPTION Cr ' ` 2 (blows/ft) a t:, Q ,w V < Z > I / 10 20 30 60 80 // UPPERTopsoil/Rootmat N:HORIZO roOri Red Fine Sandy Silty CLAY _ I S 001 641.9_ 1 13 00' SAPROLITE: 000 Reddish Yellow Micaceous Fine Sandy Clayey SILT v 10 fi36.9_ 2 L� 11111 111111115 Tan,Brown and White Micaceous Slightly Clayey Silty • Coarse to Fine SAND I 15 631.9_ 3 5 I 20 626.9— 4 6 I 25 .• 621.9— 5 Z 11111 10 Tannish Brown Slightly Clayey Silty Medium to Fine SAND I 30 616.9— 6 15 t Tan,Brown and White Micaceous Slightly Clayey Silty Coarse to Fine SAND I 35 611.9_ 7 �1 1111111`, 12 40 on PARTIALLY WEATHERED ROCK: ill II _ Illillid l. When Sampled Becomes Grayish White Silty Coarse to 8 50! fi06.9— � k Medium SAND with Rock Fragments I 4 o I UGER REFUSAL AT 40 FT BLS 11111111 I i Core R Diorite •-•- r)) 45 � � Core Run Information Provided on Attached Core Details 601 9- 9 Eli i I ° - 0 0 50 Boring Terminated at 50 ft 61s. 596.9 z I2 1.BORING AND SAMPLING IS IN ACCORDANCE WITH ASTM 0-1586. 2.PENETRATION(N-VALUE)IS THE NUMBER OF BLOWS OF 140 LB.HAMMER IFALLING 301N.REQUIRED TO DRIVE 1.4 IN.I.D.SAMPLER 1 FT ....m., lit 9751 Southern Pine Blvd. Page 1 of 1 ' " Charlotte, NC 28273 ENGINEERING • TESTING ENVIRONMENTAL SERVICES I I COMPLETION REPORT OF WELL No. AB-4 Sheet 1 of 1 I PROJECT: Allen Steam Station Ash Basin Wells PROJECT NO: 1264-04-528 WATER LEVEL: 6.5 ft bis at 24 hrs PROJECT LOCATION: Belmont, North Carolina I LATITUDE: DRILLING CONTRACTOR: S&ME, Inc. LONGITUDE: DRILLING METHOD: 41/4' H.S.A. TOP OF CASING ELEVATION: 651.02 I DATE DRILLED: 10/1/04 DATUM: MSL LOGGED BY: Julie Petersen STRATA WELL = o 0 I m I_^ DETAILS W Z 17 WELL CONSTRUCTION DETAILS DESCRIPTION w O J cn O w I PROTECTIVE CASING 0.00 GS 647.90 Diameter: 4-inch j psoil/Roolmat Red Fine Sandt Silty ° Type: Lockable Steel Stickup UPPER HORIZON: '/ Interval: CLAY I 3.00 CG 644.90 RISER CASING Diameter: 2-inch Type: Sch.40 PVC 5 5.00 BS 642.90 Interval: 0 to 7 ft bis GROUT Type: Neat Cement SAPROLITE: Interval: 0 to 3 ft bls I Reddish Yellow ` Micaceous Fine Sandy Clayey SILT SEAL Type: Bentonite 10 IInterval: 3 to 5 ft bls FILTERPACK Tan,Brown and White :`_}Z Type: #1 Filter Sand I Micaceous Slightly Clayey Silty Coarse to Fine SAND Interval: 5 to 22 ft bls 15 SCREEN Diameter. 2-inch Type: 0.010 Slot Sch.40 PVC Interval: 7 to 22 ft bls I 20 LEGEND I2 _ FILTER PACK TOC TOP OF CASING :' r��• 22.00 FP 625.90 BENTONITE GS GROUND SURFACE ❑ ■ BS BENTONITE SEAL I w i CEMENT GROUT FP FILTER PACK `- TSC TOP OF SCREEN w `� CUTTINGS/BACKFILL BSC BOTTOM OF SCREEN 1 STATIC WATER LEVEL TD TOTAL DEPTH ui CG CEMENT GROUT I o J ,_____......._.,. .___- Cs,: ETION DEPORT- - - _. --�_.--;--_—'_._ -4"M _E:ION t a-t Lit:r0E-- ry;T;, 9751 Southern Pine Blvd. WELL No. AB-4 I Charlotte, NC 28273 Z ENGINEERING.TESTING ENVIRONMENTAL SERVICES Sheet 1 of 1 I COMPLETION REPORT OF WELL No. AB-4D Sheet 1 of 1 I PROJECT: Allen Steam Station Ash Basin Wells PROJECT NO: 1264-04-528 WATER LEVEL: PROJECT LOCATION: Belmont, North Carolina I LATITUDE: DRILLING CONTRACTOR: S8�ME, Inc. LONGITUDE: DRILLING METHOD: Casing Advancer TOP OF CASING ELEVATION: 649.69 I DATE DRILLED: 10/5/04 DATUM: MSL LOGGED BY: Julie Petersen STRATA WELL o z IDESCRIPTION 51 a DETAILS o- w w WELL CONSTRUCTION DETAILS } W`-- J J rn 0 W I PROTECTIVE CASING 0.00 GS 646.90 Diameter. 4-inch 1TopsoillRootmat 0 '.43 i Type: Lockable Steel Stickup UPPER HORIZON: Interval: Red Fine Sandy Silty 000 4/ CLAY �� RISER CASING I SAPROLITE• +�� Diameter. 2-inch Reddish Yellow 000I �� Type: Sch.40 PVC Micaceous Fine 10 . Interval: 0 to 45 ft bis Sandy Clayey SILT I Tan, Brown and White Micaceous Slightly GROUT Clayey Silty Coarse to 15 Type: Neat Cement Fine SAND Interval: 0 to 41 ft bls ' SEAL Type: Bentonite . Interval: 41 to 43 ft bls FILTERPACK Tannish Brown # / Type: #1 Filter Sand I Slightly Clayey Silty Interval: 43 to 50 ft bis SANDMedrm to Fine 30 /� �/ Tan,Brown and White SCREEN I MICaCeOU5 Slightly Clayey Silty Coarse to35 Diameter. 2-inch Fine SAND �/ Type: 0.010 Slot Sch.40 PVC Interval: 45 to 50 ft bls PARTIALLYI `' WEATHERED ROCK: 40 When Sampled _ 41.00 CG 605.90 Becomes Grayish 43.00 BS 603.90 White Silty Coarse to ) LEGEND Medium SAND with I ,, Rock Fragments i4 — m FILTER PACK TOC TOP OF CASING a •UGER REFUSAL GS GROUND SURFACE BENTONITE o T 40 FT BLS - ■ BS BENTONITE SEAL c3 — i fi 50 , 50.00 FP 596.90 '# CEMENT GROUT w Quartz Diorite `k FP FILTER PACK m Core Run Information _ TSC TOP OF SCREEN w provided on Attached rL CUTTINGS I BACKFILL BSC BOTTOM OF SCREEN ore Details Loo. I STATIC WATER LEVEL TD TOTAL DEPTH o CG CEMENT GROUT o J iAhh. i Ali.iln , __ COMPLETION RErPORT-OF-= - ...._._._....__...� .�__...... ...: .::s:c_:: S-T �=-s:.�a:— _..,...._.__ t L J L7 FE _s,=._.. 9751 Southern Pine Blvd. WELL No. AB-4D C -'' Charlotte, NC 28273 I f E�l�OENMEMALSERVai Sheet 1 of 1 1 1 ' MACTEC engineering and constructing a better tomorrow January 7,2011 Mr.Kelley B. Allison,Project Manager Duke Energy Corporation 573 Duke Power Road Mooresboro.North Carolina 28114 1 Subject: Ash Basin Monitoring Well Installation Report Allen Steam Station 253 Plant Allen Road 1 Belmont,Gaston County,North Carolina MACTEC Project No.: 6288-10-5284 ' Dear Mr. Allison: MACTEC is pleased to provide this report on behalf of our client, AE Drilling, LLC. The purpose ' of this report is to present the results of monitoring well installation and evaluation activities conducted in November and December 2010 at the above-referenced site (Figure 1). The well 1 installation and testing was conducted in general accordance with the requirements outlined in the Ash Basin Groundwater Monitoring Well Installation Project Work Summary (Work Summary) 1 provided by Duke Energy (Duke) and dated October 18, 2010. The following Figure, Tables and Appendices have been included: 1 Figure 1: Monitoring Well Locations Table 1: Summary of Well Construction Details Table 2: Summary of Slug Test Results Appendix A: Rock Core Photographs 1 Appendix B: Soil and Rock Boring Logs Appendix C: NCDENR Monitoring Well Construction Records Appendix D: Monitoring Well Development Records 1 Appendix E: Photographs of Completed Well Pairs Appendix F: Slug Test Data 1 Four Type II groundwater monitoring well pairs and two Type II single groundwater monitoring wells(a total of 10 wells)were installed between November 15, 2010 and December 2, 2010 at the locations shown on Figure 1. The well locations were pre-determined by Duke and marked in the field with wooden stakes and survey flagging. Each well pair consisted of one shallow well(using the identifier "S") set into overburden soils and one deep well (using the identifier "D) set into ' MACTEC Engineering and Consulting, Inc. 2801 Yorkmont Road, Suite 100 •Charlotte, NC 28208 • Phone: 704 357.8600 • Fox: 704.357.8638 www.mactec.com 1 PnMnI wth Gtiw.w�wtdh-Rc.po..,T 4. Pkn.r R Ir' I Ash Basin Monitoring Well Installation Report January 7,2011 I Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 I bedrock. Please note that shallow wells were not installed at two locations (MW-11 and MW-14) I because bedrock was encountered prior to groundwater, indicating a local absence of a surficial aquifer in these locations. In addition, MACTEC replaced one well (AB-1R), at the request of I Duke, that had historically produced inadequate water for sampling. Standard Penetration Testing (SPT) and split-spoon sampling was performed at five-foot intervals from the surface to bedrock during installation of the deep well at each well pair. Soils observed in the split-spoon samples Iwere logged in the field in accordance with the Unified Soil Classification System (ASTM D2487/D2488). Upon auger refusal, each deep boring was extended a minimum of 10 feet into Icompetent bedrock using HQ-sized rock core techniques. I Rock core samples were logged in the field in accordance with the Field Guide for Rock Core Logging and Fracture Analysis established by Midwest Geosciences. As specified in the Work Summary, split-spoon sampling and rock coring were not performed during installation of the I shallow wells. Photographs of rock cores obtained during installation of the five deep wells are included as Appendix A. I Shallow wells were installed using 4.25-inch ID hollow stem augers; deep wells were installed Iusing 4.25-inch ID hollow stem augers to refusal, then HQ-sized rock core approximately 10 feet into competent bedrock. Total depths for shallow wells ranged from 18 feet below ground surface I (bgs) in MW-10S to 23 feet bgs in MW-12S. Total depths for bedrock wells ranged from 20 feet bgs in MW-11D to 115 feet bgs in MW-9D. Shallow wells were constructed with 15 feet of 0.010- slot 2-inch diameter PVC well screen and riser with well screens set so that at least 10 feet of Iscreen is below the static water table at the time of installation. Deep wells were constructed with 5-foot well screens(except well MW-14D, in which a 10-foot screen was installed) set across low- IRQD bedrock core intervals to facilitate maximum water flow through each well. Filter sand was placed in the annular space between the augers and the casing from the total depth of the boring to I at least one foot above the screen. A bentonite seal was placed on top of the filter pack and the well was grouted to the surface. Please note that shallow well depths were typically adjusted after I installation, but prior to placement of bentonite, to account for rise in hydraulic head observed at each location. In these instances, additional filter sand was placed between the bottom of the borehole and the bottom of the well. Each well was completed with a stand-up well cover that Iextends approximately 30 inches above-grade and set into a 2-foot by 2-foot concrete pad. I 2 I I Ash Basin Monitoring Well Installation Report January 7,2011 I Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 I Monitoring well ID tags were secured to the outside of the stand-up covers and well numbers were Ietched into the wet concrete pad. Soil boring logs and well construction records for the ten monitoring wells installed in during this work have been included as Appendix B and C, respectively. I Subsequent to installation, each well was developed using a submersible or bladder pump to remove fine-grained material. In general, each well was purged until the development water I appeared visually clear,at which time,water quality parameters(temperature,pH,conductivity and I turbidity) were recorded in 5-gallon increments until turbidity readings were less than or equal to 50 NTUs. Purge water generated during well development ranged from 10 gallons to more than 1 150 gallons and was discharged to the ground surface adjacent to each well. Please note that water quality parameters were not recorded for well MW-11D. However, 10 gallons of water were purged from the well during well development. Monitoring well development records are included as Appendix D. Photographs of ppthe completed monitoring well pairs are included as Appendix E. PP I Rising head slug tests were performed on each well on December 2 and 3, 2010. Prior to the tests an In-situ Level Troll pressure transducer and 4-foot long stainless steel slug were placed into the I well. The water level in the well was recorded as a"Background"test until the well recharged to within 90% of the original measurement. Subsequent to normalization, the rising head test was ' started, the slug was removed and the change in head versus time was measured using a Rugged- reader data logger. Slug test data was analyzed using Aqtesolv software to estimate hydraulic conductivity in each well. A summary of slug test data is presented in Table 2. Copies of raw data Igenerated during completion of the rising head slug tests are included in Appendix F. Electronic slug test data is included on the attached compact disc. I I I I I 3 I ' Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont, Gaston County,North Carolina MACTEC Project 6228-10-5284 Please contact the undersigned at (704) 357-8600, if you have questions or comments concerning ' this project. Sincerely, INC.MACTEC ENGINEERING AND CONSULTING, zo CAR01 \CENS 'i s Mark P.Filardi,P.G. Rob, ,- Senior Senior Geologist Princ • lbGl 9 Enclosures Miller,PE,PLS,William M. S&ME Mark Lassiter,PG,AE Drilling,LLC 1 1 1 4 1 ' Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 IFIGURE 1 I1 1 I 1 I AB-14D %. _ AB-9S ..,Ji -1 . i - --•:4 k '‘t- ....1Loc-. e AB-9D �,.., ,., r - II v-' .tea.^ I 4 \ fitio ; V �.r - AB-13D } AB-13S r V - 1 r a ' L r NiA" :l�E t *ksAs4l 4.-0.. i`t I w +A Y' �: i r`a'w y6-- -i:.-!•".,: AB-10D - . :Q ' I? '..' i , IAB-10S T l.. is AB-12D �'�4 - w,oma' - .. 4 , AB-11D ;_t p . ' Source: USDA-FSA-APFO NAIP MrSID Mosaic for Gaston County,North Carolina,dated 2009. N 1 • Monitoring Well Location I0 300 600 1,200 1,800 2,400 111 Feet I 4fMACTEC DUKE ENERGY ALLEN STEAM STATION IGASTON COUNTY, NORTH CAROLINA PREPARED DATE NECKED DATE JOB NUMBER 6228-10-5284 FIGURE BY BY2 I I Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 I I I I I I 1 TABLES I I I 1 I I I 1 I S i = = M OM - OM I MI E = - - N - = OM MI Table 1 Summary of Well Construction Details Allen Steam Station,Belmont,North Carolina Coordinates Construction Details Measured Details Well Number Drilling Method Latitude Longitude Well Diameter Borehole Depth Well Depth Screen Interval Depth to Water (I.D.in.) (ft bgs) (ft bgs) (ft bgs) (ft below TOC) AB-9S -81.00605605 35.18176931 Hollow-stem Auger 2 29.0 20.5 5.5-20.5 12.75 AB-9D -81.00604749 35.18175083 HSA/Rock Core 2 121.0 115.0 110-115 14.52 AB-10S -81.00594763 35.17570216 Hollow-stem Auger 2 25.0 18.0 3-18 9.11 AB-IOD -81.00590817 35.17572754 HSA/Rock Core 2 65.0 62.5 57.5-62.5 8.99 AB-11D -81.01108074 35.17110334 HSA/RockCore 2 25.5 20.4 15-20 10.26 + AB-12S -81.01957827 35.17367812 Hollow-stem Auger 2 29.0 23.0 8-23 15.63 AB-12D -81.01955410 35.17352860 HSA/RockCore 2 104.0 96.0 91-96 14.01 AB-13S -81.01649472 35.17896038 Hollow-stem Auger 2 28.0 21.0 6-21 13.91 AB-13D -81.01651614 35.17894216 HSA/Rock Core 2 86.0 72.0 67-72 13.54 ' AB-14D -81.01915799 35.18173666 HSA/RockCore 2 33.5 29.6 19.3-29.3 17.01 It bgs=feet below ground surface Prepared by/Date: Checked by/Date: 124/14-/-5-# MB ■N - 1 ■N 1 = ME NE EN — MN M. r — Mil 1111 11111 NM Table 2 Summary of Slug Test Data Allen Steam Station,Belmont,North Carolina Well Rising Head Test Borehole Well Screen Well Diameter Number Test Date Solution K-value Depth(ft) Depth (ft) Interval P Method (cm/sec) (ft bgs) (LD.in.) AB-9S 12/2/2010 Bouwer-Rice 3.16E-06 29.0 20.5 5.5-20.5 2 AB-9D , 12/2/2010 Bouwer-Rice 1.30E-03 121.0 115.0 110-115 2 AB-10S 12/2/2010 Bouwer-Rice 8.39E-04 25.0 18.0 3-18 2 AB-10D 12/2/2010 Bouwer-Rice 7.52E-04 65.0 62.5 57.5-62.5 2 AB-11D 12/3/2010 Bouwer-Rice 1.53E-05 25.5 20.4 15-20 2 AB-12S 12/3/2010 Bouwer-Rice 7.58E-04 29.0 23.0 8-23 2 AB-12D 12/3/2010 Bouwer-Rice 8.61E-04 104.0 96.0 91-96 2 AB-13S 12/3/2010 Bouwer-Rice 1.91E-04 28.0 21.0 6-21 2 AB-13D 12/3/2010 Bouwer-Rice 7.20E-04 86.0 72.0 67-72 2 AB-14D 12/3/2010 Bouwer-Rice 7.26E-04 33.5 29.6 19.3-29.3 2 Prepared by/Date: ft bgs= feet below ground surface Checked by/Date: 72404 1—S-k ft/d= feet per day ' Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 ' APPENDICES I I 1 Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 1 1 APPENDIX A ROCK CORE PHOTOGRAPHS 1 I 1 I I I Ash Basin Monitoring Well Installation Report January 7,2011 I Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 I , . , ---.. . . Aiditil ii). , i ,iiii ' . Liiiir-1, .. ; 61:74111"&flatki I I I . iiillititbak: :_ . . 11 " 4t. AP . . : • f - ' IPhotograph 1: Well AB-9D(Runs 1-3). ,; OW 4 ate. II • *1 Dt. 1 'er .i �',t r- � r ay. I'` .4"..1.T.4•.'!',..... \ ` .� ; ` '- ` ' l'. 11 1 it 1a,.„ fl; co I"- 1q • 4,"s .6 .• '. .. i11/17,!•• It f' •I Photograph 2: Well AB-9D(Runs 1 and 3 (top)). I I I I Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 L.,y? c. 1; .a 1 miimizi: I I F a;l. i4 1.70#4.1864}. 0 _.... • .r .,..._... , I IPhotograph 3: Well AB-9D(Run 3 (top)). I8 7fl 9 rylemim. +w IA I N..*1' i Ho-tit; A 41 4i 4 ,,,,,• 1 - _ - _ 1 ` ^ Y 1 - IPhotograph 4: Well AB-9 D(Runs 2 and 3 (bottom)). I I Ash Basin Monitoring Well Installation Report January -,2011 I Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 --. c. ii• 0. J f I — I A 1_1C i-7 0:1, :F;' . k, 1 ----,--,,, -fir 11- IPhotograph 5: Well AB-10D (Runs 2,3,and 4). ' ? 3 ei ' 6 9 , ,;,-4t.'4,. itiim„..,, ct 7,..*:s r. , . .. . . . E „.. 1 . . . . . 4, j' ---y!App.... I s �. y:. Ipprtit a' ...- ••••••• 4k A , it, o . aaT• tq 4 .. I Photograph 6: Well AB-10D(Runs 3 and 4). I I 1 I Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 I I ..-;,;..:.....,,.,...... .„4,„„;, ,._„,... .,.„,,,,,,,, 1 .:iii a_ wo aialil711L7 Nr,4.. ".; : .... . . _ . _ , lia,-,, !ia � IPhotograph 7: Well AB-11D(Runs 1 and 2). I 46'..s /1: •11. 4 litif. �a:; '" +mss'a11L:- 40L `=R d . -�......� S. I _ ___ _ _ ._ .. I 1 1 Photograph 8: Well AB-11D(Run 1 (top)). I I Ash Basin Monitoring {fell Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 1 X81 maul-iniav misarcolt .' 4 ..17T.W In::1 • iS ,►1,51• ptil• • s 1 1 Photograph 9:Well AB-11D(Run 1 (bottom)). tS•sr.S ,,1Ar :., ' 1 7 ittill7;' :11.1 4 401111111111101611i: r.P Photograph 10: Well AB-11D (Run 2). I I I Ash Basin Monitoring Well Installation Report January 2011Allen Stearn Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 I — -. --- - "P""s"--g7:- — ... - I [- it 46-: ,_ moi', :NI: r -1, IPhotograph 11: Well AB-11D(Run 2 cont'd). I Ie....03 z'1, . 1. 1• y . - err • ,. apt,1 1'1 I Photograph 12: Well AB-11D(Run 3 (top)). I I I Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 I I maim aAi. =t. : .. ... .uo.SM.uu.wor.n 1 s ` I , * i Lligiii IPhotograph 13:Well AB-11D(Run 3 (bottom)). 1 .1 ' ,. , l/ J , 2 3 V g 5 , 9 9 ' xr. 1 I e.‘ Z,',,., td;‘':...%.,'..e.gt..4.CO„ii t. trIN .1.. . 4. I (1101110.MI ,.. , IlLif I -10i '* • 741*-..4101'. ,II Z. ...., .n. I A 044 . 440Y 1 Photograph 14: Well AB-12D(Runs 1 thru 3). I I I I I Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 M1r w t I 'r. 1116-tot' ".i','.` . - ' 1/kt N.-• II 1144110. t '..' "II°.'erPr' Y . i 1 Y I { ft.as I AR-n.D 1.1- 1tp y.. A1tp IPhotograph 15: Well AB-12(Runs 1 thru 3(top)). .......„......jt.. :1 1q \ v. 1 4 r i isomp- )14 1 o J I '44. INN 7 N s IPhotograph 16: Well AB-12D(Runs 1 thru 3 (bottom)). I Ash Basin Monitoring Well Installation Report I January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 miS I - 1 I IPhotograph 17: Well AB-12D(Run 3). I 7 I : ifillit.• • 11 . . -rii! I _ i. . Y� ro IPhotograph 18: Well AB-13D(Runs 1 thru 5). I I Ash Basle Monitoring Well Installation Report January 7,2011 I Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 coilli 1 yi 16111glip, r� wllh!�,IIII4IIlillli�tl114111 Ili illldJl Ilili0 Illin f +1 ' 1,4,1,�, B ildi�dd�ili a I Iseti ��r o' ; 1 tk I., -~ IPhotograph 19: Well AB-13D(Runs 1 and 2 (top)). I ft 1►z i 4040 % Ili I _ . r a. i J Photograph 20: Well AB-13D(Run 2(top)and Run 5(bottom)). No recovery on Runs 3 and 4(see i logs). I I I I Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 I - ..J Ir i I ' 45 411-110 40 - CW. siltho I Mrs - -- . -. I IPhotograph 21: Well AB-13D(Runs 3,4 and 5). i `. I 4 .. 4 _________-___ "ZINO I w" I 1INF-St2Pdt 40 — -cy IPhotograph 22: Well AB-14D(Runs 1 thru 4). I I I 1 Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont, Gaston County,North Carolina MACTEC Project 6228-10-5284 I ' APPENDIX B SOIL AND ROCK BORING LOGS 1 M r N M = M IIMII M MN Min OM iiii ME iiii iMi iiii M OM iiii GROUP MAJOR DIVISIONS SYMBOLS TYPICAL NAMES Undisturbed Sample Auger Cuttings Well graded ravels,gravel-sand CLEAN 1 G W mixtures,little or no ines_ X Split Spoon Sample Bulk Sample GRAVELS GRAVELS (Little or no fines)r' GP • Poorly graded gravels or gravel-sand (More than 50%of 4 mixtures,little or no fines. Rock Core Crandall Sampler coarse fraction is u LARGER than the GRAVELS COARSE No.4 sieve size) y GM Silty gravels,gravel-sand-silt mixtures. Dilatotneter Pressure Meter WITH FINES GRAINED (Appreciable Clayey gravels,gravel-sand-clay ^^ SOILS amount of fines) GC mixtures. Packer 0 No Recovery (More than 50%of material is SW Well graded sands,well graded sands with Water Table at time of drillingl Water Table after 24 hours LARGER than No. CLEAN gravel. 200 sieve size) SANDS SANDS (More than 50%of (Little or no fines) ." sp Poorly graded sands,poorly graded sands coarse fraction is with gravel. k. Caved Depth WOH= Weight of Hammer SMALLER than the No.4 Sieve SANDS SM Silty sands. Monitoring Well Explanation Size) WITH FINES (Appreciable amount of fines) X SC Clayey sands. T.; Cement H Bentonite _ Sand Filter III Screen 1\4'-' Inorganic silts,sandy or clayey silts with Correlation of Penetration Resistance low plasticity. with Relative Density and Consistency SILTS AND CLAYS SAND&GRAVEL FINE (Liquid limit LESS than 50) CL Inorganic clays of low plasticity. SILT&CLAY No. of Blows Relative Density No. of Blows Consistency GRAINED iiiOL Organic silts and organic silty clays of low 0-4 Very Loose 0- 1 Very Soft SOILS t t plasticity. 510 Loose 2-4 (More than 50%of Soft material is MH Inorganic sills,elastic silts. I 1 -20 Firm 5- 8 _Firm SMALLER than l 21 - 30 Very Firm 9 - 15 Stiff No.200 sieve size) SILTS AND CLAYS CH Inorganic clays of high plasticity,fat clays 31 -50 Dense 16 30 Very Stiff (Liquid limit GREATER than 50) f Over 50 Very Dense Over 31 Hard OH Organic clays of high plasticity,organic / silts. V CORED ROCK0-,..._...- RK Rock MAC T E C BOUNDARY CLASSIFICATIONS:Soils possessing characteristics of two groups are designated by combinations of group symbols. , SILT OR CLAY SAND GRAVEL KEY TO SYMBOLS AND Cobbles Boulders DESCRIPTIONS Fine Medium Coarse Fine Coarse No.200 No.40 No.10 No.4 3/4" 3" 12" U.S. STANDARD SIEVE SIZE Reference: "Classification of Soils for Engineering Purposes" (Unified Soil Classification System) MACTEC ASTM D ASTM D 2487, and/or"Description and Identification of Soils" (Visual-Manual Procedure), Engineering and Consulting, Inc. I I) L E SAMPLES 1 SOIL CLASSIFICATION E L n T N-COUNT II 1I V E Y SEE KEY SYMBOL SHEET FOR EXPLANATION OF N P `o `O c (Il) SYMBOLS AND ABBREVIATIONS BELOW. IJ (fl) T E ^ N REMARKS u Organic Surface Layer , 7. 4.' = Dark red(2.5 YR 3/6)stiff micaceous sandy silt(ML) I - - I , 5 r SS-1 X 8-9-10 _ ot: i< - ,.); k _ ,„ _. Dusky red(10R 3/4)stifTmicaceous sandy silt(ML) _ _ SS-2 X 7-7-8 - t.),,,:, _ _ _ 4, . . . I _ Brownish yellow(10 YR 6/6)fine slty mcaceous fne sand '' ':::l _ ,_ 15 — (SM)with small roots .'.L — SS-3 X 5-5-6 1 - - - i'%' - Pale yellow(2.5 Y 7/4)firm silty micaceous fine sand(SM) :'. :':-.:r _ _ t' 4., k I .f = ..,,,,, _ _ .......•,... _ _ _:.:.,....,„ SS-5 II-9-9 - - ` - I- - s4 . . , _ Yellow(10 YR 7/6)Finn very fine sandy silt(ML),micaceous _ _ - I _— — k SS-6 I 3-3-4 .); .. II I .. I I _ Light yellowish brown(2.5 Y 6/3)very firm sandy silt(ML), - - - _ slightly micaceous SS-7 X 5-6-7 i,-- �y I : : - <_ _ Pale yellow(2.5 V 8/2)firm silty fine sand(SM) •.. _ — 40 — — — SS-8 R 3_5-6 - Le v~i- - - - ' -1- - Light yellowish brown(2.5 Y 6/3)stiff sandy silt(ML) o— 45 — _ - SS-9 x 4-4-5 I DRILLER: Tommy Burncttc/AE Drilling SOLI,TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)HSA HOLE DIA: 8" PROJECT: Allen Steam Station REMARKS: ' WELL ID: AB-IR November 23,2010 THIS RECORD ISA REASONABLE INTERPRETATION PROJ. NO.: 6228105284.03 PAGE 1 OF 2 I OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER /MACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. �[ INTERFACES BEWEEN STRATA ARE APPROXIMATE. TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I I) I- E SAMPLES P SOIL CLASSIFICATION G E T N-COUNT I V Y 11 SEE KEY SYMBOL SI IEET FOR EXPLANATION OF N E P Co o - l�1) SYMBOLS AND ABBREVIATIONS BELOW. D (11) N E = 2 REMARICS 1 Light yellowish brown(2.5 Y 6/3)stiff sandy silt(ML) - 5 VCT stiff _11_) Sp _ _ _ SS-10 g 5-&16 - 1 Pale yellow(2.5 Y 8/2)very stiff silty line sand(SM), i _ - —.' micaceous • SS-I I 7-'0 3•': - 55 - — 1 _ Olive(5Y 5/3)very dense silly fine sand(SM),dry •,•--_fifi - — 60 — — SS-12 g 50/5 = - - - s _ I - Pale yellow(5 Y 8/3)very dense silty fine sand(SM) :•} — _ _ — 65 — SS-13 g 13-50/6 I - - o .' - - - - Pale olive(5Y 6/3)very dense silly line sand(SM),wet •'r - - spoon very wet = — 70 — '..- — SS-14 g 30-50/5 = • I- _ _ (2.5 Y 7/6) _ - - - SS-15 g 25-35-50/5 I 75 Boring Terminated at 75 feet below ground surface -- r - - - F - -• __ - 1 DRILLER: Tommy Burnette/AE Drilling SOIL TEST BORING RECORD EQUIPMENT:CME 750 METHOD: 4.25"(ID)HSA I IOLE DIA.: 8" PROJECT: Allen Steam Station REMARKS: WELL ID: AB-IR November 23,2010 THIS RECORD IS A REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 2 OF 2 I OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. AND SUBSURFACE CONDITIONS ONS ATFFER. OMACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I D L E SAMPLES E SOIL CLASSIFICATION E I T N-COUNT T E V, D Y H SEF KEY SYMBOL SHEET FOR EXPLANATION OF N P ;o `o to (fl) SYMBOLS AND ABBREVIATIONS BELOW. D (II) N E ^ F. E REMARKS — 0 Strong brown(7.5 YR 5/6)silt(ML),dry with gravel(0 3) C! 1 -- - - _ i i 1 — s — lU 1 - _ Yellow(I 0 YR 7/6)clayey silt(ML),moist - r �: I I - I — 30 Boring Terminated at 29 feet below ground surface — — _ _ n— 35 — — _ r3I .- z o- 1 N - — 40 I- < z- w - J I -1 a 0 "'— 45 - I DRILLER: Tommy Burnette/AE Drilling SOIL TEST'BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)HSA HOLE DIA.: 8" PROJECT: Allen Steam Station REMARKS: I WELL ID: AB-9S November 17,2010 I THIS RECORD IS A REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 1 OF 1 OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHERMACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. AI INTERFACES BEWEEN STRATA ARE APPROXIMATE. TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I DL E SAMPLES N SOIL CLASSIFICATION E I. I N-COUNT 1 G E T t E V ID �, II SEE KEY SYMBOL SHEET FOR EXPLANATION OF N E P `o (ft) SYMBOLS AND ABBREVIATIONS BELOW. D (II) T E = c v REMARKS ARKS - 0 Road bed gravel- - ap I - - I. I1 - Nosp litspoon sam les from land surface b .`' - to 8.5 feet due to presence of utility lines - as II, •- 5 — Reddish yellow(7.5 YR 6/6)sill(MI-1 - F — - - Ij 1- - - ` ,14 Reddish yellow(7.5 YR 6/6)soft sill(MI-),dry SS-2 g 10-2-110-2-1— 10 — — — \ 1 - _ Q I No Recovery in samples SS-3 and SS-4 15 — — — SS3X 4-I-I v L5 - - - I - - . Lght gray(10 YR 7/2)soft clay(CLI.wet % = - 25 SS-5 X I-I-3 g I 1 _ 0 — 30 — fSS-6Z2.2.1 < - - Red(2.5 YR 4/8)very stitT clay(CI-) - _ SS-7 X 5-1(1-11 / — 35 — / - - / - i a_ Pale yellow(2.5 Y'7/4)loose fine sand(SW),wet _ _ f— 40 — r — 5S-8 3-34 Q - -- V _ \ 2 _ _ Variagated red 12.5 YR 4/8)and pale yellow(2.5 Y 7/4)loose . * ' . _ tool 1 C fine sand(SW) SS-9 4-4-5 r— 45 — ' DRILLER: Tommy Burnette/AE Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.2?(ID)HSA,HQ Rock Core )TOLE DIA.: 8"HSA;HQ Rock Core PROJECT:• Allen Steam Station REMARKS: Auger refusal encountered at 109 feet below land surface WELL ID' AB 9D 1 , November 15,2010 THIS RECORD IS A REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 1 OF 3i I OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER M1 EC LOCATIONS AND ATTOTHERR • MACTEC TIMES MAY DIFFER. (v- INTERFACES BEWEEN STRATA ARE APPROXIMATE. TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. ID IE SAMPLES P SOIL CLASSIFICATION E L I N-COLNT T G E D T H E V E 1 SEE KEY SYMBOL SHEET FOR EXPLANATION OF N P o ° tc 0 SYMBOIS AND ABBREVIATIONS BELOW. D (II) E - A „ REMARKS — (4� Variagated red(2.5 YR 4/8)and pale yellow(2.5 Y 7/4)loose :.::::::: \ �( fiI - ne sand(SW) Nt I White(2.5 Y 8/1)to olive brown(2.5 Y 413)limn to dense �' -1 _ weathered rock(sampled as sand);contains quartz and �T/TJSS-10 h 6-13 — 50 potassium feldspar ✓ = n 0flowing sand I _ Vok 4. 1 SS-II g 6-5-19 _ - 55 il'ol - i _ - I - - il k 4 _ SS-12 /\ 6-18-27 r —V i _ _ I — 65 ^ — SS-13 Z 5-10-33 - 1;1 k v...• 1 . 6 -,,, _ . . . White(2.5 Y 811)to olive brown(2.5 Y 4/3)very dense _ _ Partially weathered rock(PWR)(sampled as sand);contains SS-14 X 8-43-50/5 t 70 quartz and potassium feldspar — IF- 75 0 — SS-IS g 943-5013 - I d i - _- - 104 di 1 8 =80 SS-16 g 35-5(t/4 I I C7 ` e- 7a - i- 85 _ SS-17 X 40-50/3 w F '50- , I DRILLER: Tommy Burnette/AE Drilling SOIL TEST BORING RECORD EQUIPMENT` [ME 750 METHOD: 4.25"(ID)HSA,HQ Rock Core HOLE DR.: 8"HSA;HQ Rock Core PROJECT: Allen Steam Station REMARKS: Auger refusal encountered at 109 feel below land surface WELL ID AB-9D INovember 15,2010 THIS RECORD IS A REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 2 OF 3 I OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. ANDSUBSURFACEOT CONDITIONS AT OTHER IMACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. ITRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I D L E SAMPLES E SOIL CLASSIFICATION E LI N-COUNT T G V D T H F V Y SEE KEY SYMBOL SHEET FOR EXPLANATION OF N P y a o „a SYMBOLS AND ABBREVIATIONS BELOW. D (IJ) I- EIN REMARKS I - White(yw Y 8/1)to olive brown s2.5 Y 4ias vend dense r - - �`� ('aerially weathered rock(PWR)(sampled as sand);contains 'y\' gtrsnz and potassium feldspar I — 95rj- — SS-19 g 1450/5 et._Iry _ - 1 _ _ g r100 ,•-• .--1.rfU/ SS-'_o 5014 ` I kI. - Reddish yellow(5 1 R 7/6)Partially weathered rock(MR) _ (sampled as sand) SS-21 I 43-50/4 P' - 105 — 17 t1.2 IQuartzite rock(Bedrock),Yellow(10 YR 8/8) ++ ++Quartz diorite(Bedrock);moderate white(Gley I SM)and SS-22504RC 1(Rec=35%,RQD=17.5%) - greenish gray(Gley I 5/l I OGY)non-foliated;massive; +++ RC-I - _ moderately decomposed;slightly disinligrated;unfractured 4. _ — - Greenish black(Gley 1 2.5/15G)non-foliated;massive;highlyRC 2(Rec=20%,RQD=0%) decomposed;intensely disintegrated;very intensely fractured4 - RC-2 - +++▪-- - +++- +++ _ - — 115 +++�_ — +++- - Quartz diorite(Bedrock),White(Gley 18M)and greenish +++- RC 3(Ree=82%,RQD=68%) gray(Gley 1 511 10 GY);non-foliated;massive;fresh; +++— RC-3 — competent;slightly fractured +++ +++- - 1 +++-r 120 +++L - bedding plane joint and around 60 degrees, +++- — _ narrow,not healed;surface staining; rough;wet with continuous seepage E,— 125 — — N 1 _ - 0- H t-- t I 5— 130 - - v - - - - z- 1111 - "4— 135 ' DRILLER: Tommy Burnette/AE Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)I-ISA,HQ Rock Core HOLE DIA.: 8"HSA;HQ Rock Core PROJECT: Allen Steam Station REMARKS: Auger refusal encountered at 109 feet below land surface WELL ID: AB 9D I November 15,2010 THIS RECORD ISA REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 3 OF 3 I OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER MACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I I, E SAMPLES I P SOIL CLASSIFICATION D T N-COUNT I{ E V F Y SEE KEY SYMBOL SHEET FOR EXPLANATION OF N P `e `° (0) SYMBOLS AND ABBREVIATIONS BELOW. D (It) T E = N 7 REMARKS — 0 Reddish brown(5 YR 4/6)silt(ML),dry - I - - - - i i I - _ Yellowish red(5 YR 518)silty clay(CL),moist %// _ ` i — 15 — 1 20 — — Brown(7.5 YR 5/4)clayey line sand(SP),wet Boring Terminated at 25 feet below ground surface I — 30 — — - - - - - - 1- - 111 - - =- 35 — — — - c_ — 40 -- t1/1 Z- m J I J - a 0 "— 45 — I DRILLER: Tommy BurnettelAE Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)HSA HOLE DIA.: 8 PROJECT: Allen Steam Station REMARKS: IWELL ID: AB-10S November 18,2010 I THIS RECORD IS A REASONABLE INTERPRETATION PROJ. NO.: 6228105284.03 PAGE 1 OF I OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. ANDSUBSURFACE T OT CONDITIONS AT DIFFER. OMACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. 1 D L E SAMPLES P SOIL CLASSIFICATION E L ) N-COUNT 1 T G E D T II E V F Y SEE KEY SYMBOL SHEET FOR EXPLANATION OF N P o (n) SYMBOLS AND ABBREVIATIONS BELOW. D MIT E 2 N M REMARKS 0 Organic Surface Layer +{r•'SIr- - ;4i Red(2.5 YR 5 8)very stiff silty clay(CL),dry j 1 .... 5 - — SS-1 X 20-15-15 Ir Red(2.5 YR 5/8)firm silty clay(CL),dry _ Qf — SS-2 X 10-4-4 10 —I I I Yellowish brown(10 YR 5/6)very loose clayey fine sand f _ (SC),wet SS-3 g 3-3-1 I - Z 35.7 E 1 — 20 — Wite(Gley 1 8/I N)to dark greenish gray(Gley 14/1 LOGY .?"- SS-0 very loose to firm weathered rock(sampled as sand) i - - )5_,..?-1- - 25 — — SS-5 X 5-3-5 I 1CJr J - ,01 k I 1 — 30 — J J/ — SS-6 g 3 1 - � X E SS-7 6-5-17 U v z V F_ _ Mottled while(7.5 YR 8/1)to dark brown(7.5 YR 3/2)very - _ _ .— 40 — firm coarse sand(SW),wet — SS-8 I 7-13-13 1 _ - i < _ _ Light brownish gray(2.5 Y 6/2)hard clay(CL)with quartz %/J �— 45 — clasts %%/ SS-9 X 16-504 1 DRILLER: Tommy Bumette/AE Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)!ISA,HQ Rock Core HOLE DIA.: 8"HSA;IIQ Rock Core PROJECT: Allen Steam Station I REMARKS: Auger refusal encountered at 45 feet below land surface WELL ID AB-10D November 18,2010 1 THIS RECORD ISA REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 1 OF 2 OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER MACTEC LOCATIONS AND ATTOTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. 1 TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I D L E SAMPLES P SOIL CLASSIFICATION E L I I N-COUN-1• I H F V D V - SF-E ILEI'SYMBOL SHEET FOR EXPLANATION OF G N E P `, •c (tl _ SYMBOLS AND ABBREVIATIONS BELOW. D (ft) N E = r9`v M REMARKS — 4- - 1 -- - - RCI(Ree ock RQD=0%)mud in core R('-I - barrel,noe rock sample i I I - 50Granite(Bedrock);strop white Cil 1 8/I N fine- rained; +++ — — ,°- og ( ey' ) g RC_(ReC-12 io,RQD=0%)- massive;slightly decomposed and disintigratcd;very intensely +++ti RC_2 - fractured +++ +++• - - +++` - - +++,- +++- — 55 — +++ — - RC 3(Rec=24%,RQD=0%) I +++. +++- - RC-3 +++- • +++ _ - - +++t - _ • 60 Granite(Bedrock);moderate strength;light bluish gray(Gley +++• — — _ RC 4(Rec=74%,RQD=34%) _• _ 8/1 I OB)fine-grained;massive;slightly decomposed and +++N. - RC-4 disintigratcd;moderately fractured +++- •— ++ +-,- - - — +++- +++f -- — - - 65 — +++- I — 70 — _ _ 1 - 5- 80 — _ — n -• v _ 7 - H- - - - I f- 85 -1.1 - - - N Z_ L•1 J _1- 1 < J. _ c"— 90 ' LER: Tommy Bumene/AE Drilling EQUIPMENT: CME 750 METHOD: 4.25"(ID)[ISA,HQ Rock Core SOIL TEST BORING RECORD HOLE DIA.: 8"LISA;HQ Rock Core PROJECT: Allen Steam Station REMARKS: Auger refusal encountered at 45 feet below land suratee WELL ID: AB-1 OD I November o ember 18,2010 THIS RECORD IS A REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 2 OF 2 I OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. ANDSUBSURFACEOT CONDITIONS AT DIFFER. MACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I DL E SAMPLES T SOIL CLASSIFICATION G E U T N-COUNT I Il E V Y SEE KEY SYMBOL SHEET FOR EXPLANATION OF N L P to `o ro (R) SYMBOLS AND ABBREVIATIONS BELOW. D (R) T E . N E REMARKS 1 = 0 -.sOrganic Surface Layers'k.. 11 Dark red(2.5 YR 4/8)very stiff silt(ML) - 5 — — — SS-I X 6-9-11 - 1§6 kc.4 _ Reddish yellow(7.5 YR 6/6)loose clayey sand(SC) _ _ SS-_ 3-4-5 10 Granite(Bedrock);strong;white(10 YR 8/I)to very pale +++• RC 1(Rec=90%,RQD=70%) b. \ I - - brown(10 YR 8/2)phaneritic;massive;moderately +++ti - RC-I decomposed,disinitegrated and fractured +++- - - - +++1 - +++• - - +++t. - - I +++• — = — t5 Ganite(Bedrock);moderate to strong;while(7.5 YR 8!I) +++• RC 2(Ree=60%,RQD=30%) phaneritic;massive;moderately decomposed,disintigrated and +++ Itt ▪ heavy iron staining throughout fractured / +++• 15.2-16.1 vertical joint = Granite(Bedrock);strong;white(7.5 YR 8/1); +++— _ - massive;fresh;competent;unfractured +++f - - ' - +++., - — 20 +++— — - _ Granite(Bedrock);strong;white(Gley 18/1 N)phanerilic; +++ - RC 3(Ree=92%,RQD=90%) I massive;fresh;competent;slightly fractured +++- Rt'-3 20.6-21 Bedding plane joint at 45 degrees ` +++— - extremely narrow,totally healed, +++• _ mineralization infilling,smooth,restricted _ +++` - _ +++- - 25 — +++— ' - Boring Terminated at 25 feet below ground surface _ I — 3i1 — — - 1 - I - 35 — - - 1 0_ U- F' - I co 7- 40 — coh 7- m I ...i.' _ 0 - - — a5 — I DRILLER: Tommy Bumettc/AE Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)HSA,HQ Rock Core HOLE DIA.: 8"1-ISA;HQ Rock Core PROJECT: Allen Steam Station REMARKS: Auger refusal encountered at 10 feet below land surface WELL ID•. AB-11D November 19,2010 I THIS RECORD IS A REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 1 OF 1 OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. ANDSUBSURFACE CTIMESIONS AT DIFFER. OMACTEC LOCATIONS AND AT OTHER MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. IIITRANSITIONS BETWEEN STRATA MAY BE GRADUAL. 1 L E SAMPLES SOIL CLASSIFICATION E1 T N-COUNT T V D Y H SEE KEY SYMBOL SHEET FOR EXPLANATION OF N N P `o c to (0) SYMBOLS AND ABBREVIATIONS BELOW. D (11) T E y N REMARKS 0 r Red(10 R 4/8)silt(ML) I _ - - I I — _ % � Strong brown(7.5 YR 5/6)silt(ML),micaceous I - - - - 10 - - - I _ I - L — — _ _ 1 _ I : : I - _ _ - 30 — Boring terminated at 29 feet below ground surface 1 - _ — 35 _ C 1 a P- z 0 z- Li] i ....1 4 O '- 45 — ' DRILLER: Tommy Burnette/AE Drilling SOIL TEST BORING RECORD 1 EQUIPMENT: CME(750 ID) METHOD: 4.25"(ID)HSA HOLE DIA: 8" PROJECT: Allen Steam Station REMARKS: IWELL ID: AB-12S November 30,2010 I THIS RECORD IS A REASONABLE INTERPRETATION PROJ. NO.: 6228105284.03 PAGE 1 OF l OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. ANDSUBSURFACE CONDITIONS TMEAT DIFFER. OMACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. 1 TRANSITIONS BETWEEN S PRATA MAY BE GRADUAL. 1 DL E SAMPLES I r SOIL CLASSIFICATION E I. 1 N-COUNT (i E T T F V - V. tl SEE KEY SYMBOL SIIEET FOR EXPLANATION OF N N P (0) SYMBOLS AND ABBREVIATIONS BELOW. D (ft) 1. 1 = ; _ REMARKS — 0 — Organic Surface Layer / ? tr•`"' _ Yellowish red(5 YR 5/8)stili'silt(MI.),micaceous,dry I - - Ss-1 Z 6-4-7 _ 1j - - - - _ Yellow(10 YR 7/6)firm to soil saprolitic sill(ML), _ ill— 10 — micaceous — — SS-2 X 4-4-3 - - SS-3 L 6-_2-3 - 1 — 15 — _ moist at 14 feet = F - - - - - lb SS-4 I 2-2-2 r. I : : - �� _ - SS-5 X 1-1-3 - - [lowing water - — 30 — — _ SS-6 X 3-3-4 - it 0'.1 kc< - - — 35 — — — SS-7 /\ 3-3-3 - i I O- — — — — ` SS-8 g WOH-3-5 L— ao — — — _ Fil. 45 SS-9 3 4 5 — 1 DRILLER: Tommy Burnette/AE Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)HSA,111)Rock Core HOLE DIA.: 8"HSA;HQ Rock Core PROJECT: Allen Steam Station I REMARKS: Auger refusal encountered at 94 feet below land surface WELL ID: AB-12D November 29,2010 111 THIS RECORD ISA REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 1 OF 3 OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER MACTEC LOCATIONS AND AT OTHERRTIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. I TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. 1 _ D I, E SAMPLES u SOIL CLASSIFICATION E L 1 N-COUNT II, T FV D Y E V Y H SEE KEY SYMBOL SHEET FOR EXPLANATION OF N LP ;c `° to (4115) SYMBOLS AND ABBREVIATIONS BELOW. D (Il) T E ., .2IN '2 REMARKS I4 — Yellow(10 YR 7/6)stiff to ser_stilrsaprolitic sill(ML), U -_ micaceous - - _ _ 1 50 — — SS-10 WOII-6-6 1 _ __ _ r — 55 — — SS-I1 6-9-13 - I 4 - - While(10 YR 8/1)to dark yellowish brown(l0 YR 4/6)hard ✓ - - I weathered rock(sampled as silt) SS-12 9-1420 E60T �- _ _ 65 - _ SS-13 g 19-19-27 - ti '-- 70 — — SS-I4 X 13-14-15 I r ti I _ _ 1 - 75 — lllf/ — SS-15 X 19-28-50/6 J SS-16 X 13-23-29 I __ klk F , k _ Olive(5Y 413)hard silt(ML) r 5— 85 — — SS-17 31-50/5 LIJ un Z J J- - � YV ‘C7'- 90 — SS-18 x 18-31-50/4 I DRILLER: Tommy Bumcitc/AE Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)HSA,HQ Rock Core MULE DIA.: 8"IISA;1IQ Rock Core PROJECT: Allen Steam Station I REMARKS: Auger refusal encountered at 94 feet below land surface WELL ID: AB-12D November 29,2010 I THIS RECORD ISA REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 2 OF 3 OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER MACTEC LOCATIONS AND ATTMAYOTHER TIMES DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. ITRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I I) L E SAMPLES SOIL CLASSIFICATION F L1 N-COUNT I G E T II E V D Y SEE KEY SYMBOL SHEET FOR EXPLANATION OF N 1' ;c `O o t Ill SYMBOLS AND ABBREVIATIONS BELOW. D (0) N E . A .,$ REMARKS - 40 Olive(5Y 4/3)hard silt(ML) ' Quartz Diorite(Bedrock),strong white(Gley 1 8M)to +++- SS-I9 50/2 RC I(Rcc=100%,RQD=80%) — 95 — greenish black(Gley 1 2.5/1 5 GY),non-foliated,massive +++L — RCI -- - - +++ - — - RC 2(Rec-100%,RQD=85%) - - Gabbro(Bedrock),strong,bluish black(Gley 2 2.5/1 5 PB) +++ ' - RC-2 - 96.75-97.25 Foliation joint maned lled with - - +++ - fine grained matrix +++L +++- —100— +++L _ - ' - -- +++r +++t — - RC 3 Wee—100%,RQD 100%) - RC-3 r +++ti +++• I n 105= — — - 110- - - - 1 - . - _ 115- - - - - - I - 120— H I - - -- 125— — — - - C 1 0 - - O- - I I- - - WI ' a-130—iu - h m o� H— 135— I DRILLER: Tommy Bumctte/AE Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)HSA,HQ Rock Core HOLE DIA.: 8"HSA;HQ Rock Core PROJECT: Allen Steam Station REMARKS: Auger refusal encountered at 94 feet below land surface WELL ID: AB-120 November 29,2010 THIS RECORD IS A REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 3 OF 3 I OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER MACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I D L E SAMPLES E I SOIL CLASSIFICATION E I N-COUNT T G V- I T li E V F Y SEE KEY SYMBOL SHEET FOR EXPLANATION OF N I' o `D Zo (0) SYMBOLS AND ABBREVIATIONS BELOW. ll (Il) N E = ry REMARKS - I 0 Red(2.5 YR 5/8)to yellowish red(5 YR 5/6)clayey silt(ML) i 1 , i i - 10 — I I ^ 's - I - moist - '0 — — - — 1. 25 I - - Boring terminated at 28 feet below ground surface — 30 — r - -— 35 iic o _ 7; _ z o- F.- - 40 N z- u J 1 Q, J- 0 '— 45 DRILLER: Tommy Burnette/AE Drilling _ EQUIPMENT: CME 750 SOIL TEST BORING RECORD METHOD: 4.25"(ID)HSA HOLE DIA.: 8" PROJECT: Allen Steam Station REMARKS: I WELL ID: AB-13S December 1,2010 I THIS RECORD IS A REASONABLE INTERPRETATION PROD. NO.: 6228105284.03 PAGE 1 OF 1 OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER 'MACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. I TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I DL E SAMPLES SOIL CLASSIFICATION E LI N-COUNT Up T G E D T H E \ 1= VSEE KEN'SYMBOL SHEET FOR EXPLANATION OF N P o `e c (II) SYMBOLS AND ABBREVIATIONS BELOW. 0 (Ii) T L = c rn REMARKS ll Organic Surface layer - Red(2.5YR518)stiff clayey silt(ML) _ - - 7,,,,, I - 5 SS-I 7-5-5 - _ Z I — — r_ lk I — 10 SS-2 Z 9-9-I" _ _ Reddish yellow(7.5 YR 6/8)and very dark gray(7.5 YR 3/I) - - 4,00 k _ I _ 15 firm saprolitic clayey silt(ML) _ _ SS-; _-I-4 - 20 _ _ SS-4 g 2-3-3 - 1110k1i 1 - Reddish yellow(7.5 YR 6(8)finn weathered rock with fragments(sampled as silt) r SS-5 X 3 -3 wet ,e-- White(7.5 YR 8/1)to strong brown(7.5 YR 5;4)stiff to firm / — — saprolitic silt(ML),micaceous SS-6 X WOH-3-6 `�� C< — 30 1 - _ / _— 35 — — SS-7 X 3-4-5 _ �t 1 - - �c U- L O- - - HSS-8 g 3-3-5 - 11 - - _ .> z_ _2 U '5— 45 _ - X SS-9 3-4-6 ; .i DRILLER: Tommy BurnetteiAE Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4'5"(ID)I ISA,HQ Rock Ccrc HOLE DIA.: 8"LISA;11Q Rock Core PROJECT: Allen Steam Station I REMARKS: Auger refusal encountered at 65 feet below land surface WELL ID' AB-13D December 1,2010 I THIS RECORD ISA REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 1 OF 2 OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. ANDT SUBSURFACE CTIME IONS AT OTDIFFER. OMACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. tTRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I DL E SAMPLES li SOIL CLASSIFICATION E L ) N-COUNT I T G E D T H E• E E Y SEE KEY SYMBOL SHEET FOR EXPLANATION OF N P ° c (0 SYMBOLS AND ABBREVIATIONS BELOW. D (ti) NT E = 2 REMARKS — 4� White(7.5 YR 8/I)to strong protan(7.5 YR 5/4)stiff to very 1 - - stiff saprolitic silt(ML),micaceous - _ _ i 1 - - - - - -k I _ - SS-I0 4-7-10 — 50 — — — - SS-I 1 X 7-9-12 ` — 55 — _ —_ l lo1 1 60 = — — SS-12 8-15-19 I Greenish gray(Gley 5/I 10 GY)hard silt(ML) � 1 SS-13 A I7-50/5 spoon bouncing at 64 feet I— 65 — Gabbro(Bedrock),very dark greenish gray(Gley 13/I 5GY), +++ — _ RC 1(Ree=87%,RQD=87%) i i very strong,phaneritic,massive,fresh,competent,unfractured +++' RC-1 - - +++ RC 2(Rec=17%,RQD=17%) 1 = _ No Recovery - RC-2 - nater loss at 67 feet(fracture) I - 70 — - — RC 3(No Recovery) RC-3 - • I X75 _ - - _ RC 4(No Recovery) - - - - RC-4 - 1 =- 80 — — — C_ I Gabbro(Bedrock),very dark greenish gray(Gley 13/l 10 Y), +++- — - RC 5(Roc=30%,RQD=14%) o- weak,aphanitic,massive,moderately decomposed, +++ RC-5 - o moderately disintegrated,moderately fractured ++ +- F_ - +++t - _ I N +++. — S— 85 — +++L L11 +++- v~ • Z- - - - -I - 0 n_ 901 DRILLER: Tommy Burnette'Ah Drilling SOIL TEST BORING RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)I ISA,HQ Rock Core HOLE DIA.: 8"}ISA;1IQ Rock Core PROJECT: Allen Steam Station 1 REMARKS: Auger refusal encountered at 65 feet below land surface WELL ID: AB-I 3D December 1,2010 1 THIS RECORD IS A REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 2 OF 2 OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER OMACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. INTERFACES BEWEEN STRATA ARE APPROXIMATE. 1 TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I D F L E SAMPLES T SOIL CLASSIFICATION E e T N-COUNT I II E V Y' SEE KEY SYMBOL SHEET FOR EXPLANATION OF N E I' o c SYMBOLS AND ABBREVIATIONS BELOW. D (ft) N E I CI 13- (11)_ 11 _ — REMARKS Organic Surface Layer , ,"+:..3I 111 - Red(2.5 YR 4/6)very stiff'sandy silt(ML).micaceous. - - - residuum ~I SS-I 6-7-9 5 — — — - I Strong brown(7.5 YR 5/8)loose silty fine sand(SM), - _ 1 micaceous SS-2 3-4-4 Ng I White quartzite boulder,intensely fractured,very strong, F RCI(Rec=40%,RQD=0%) - - non-foliated,massive,slightly decomposed and disintegrated - •ii, - RC-I ,- 1 i - — '� RC 2(Ree=20%,RQD=0%) Light brown(7.5 YR 6/3)silty micaceous fine sand with RC_2 back into soil - - quartz fragments - - - - RC 3(Roe=20%,ROD=15%) RC-3 — 25 — — —_ ' - - - machine break - B..:: - White quartzite,intensely fractured,very strong,non-foliated, black(Gley 12.5/N), — massive,slightly decomposed and slightly disinitegrated +++- �;r I I- 30 Granite(Bedrock),Gray(Gley 17/N),white(Gley 1 8/N), +++L - — very strong,massive,phaneritic,fresh, +++—_ _ RC 4(Ree= 100%,RQD=100%) competent,unfractured +++- RC-4 change core bits,run interrupted +++• - +++ti - - Boring Terminated at 33.5 feet below ground surface T- 35 — — — - _ I - - E.'- - - - z *f- - _ _ :n y() z_ - I "— 45 — DRILLER: Tommy Bumettc/AE Drilling I SOIL TEST BORLNG RECORD EQUIPMENT: CME 750 METHOD: 4.25"(ID)HSA,HQ Rock Core HOLE DIA.: 8"HSA;HQ Rock Core PROJECT: Allen Steam Station REMARKS: Auger refusal encountered at 13.5 feet below land surface WELL ID: AB-141) INovember 22,2010 THIS RECORD IS A REASONABLE INTERPRETATION PROJ.NO.: 6228105284.03 PAGE 1 OF 1 I OF SUBSURFACE CONDITIONS AT THE EXPLORATION LOCATION. SUBSURFACE CONDITIONS AT OTHER MACTEC LOCATIONS AND AT OTHER TIMES MAY DIFFER. O INTERFACES BEWEEN STRATA ARE APPROXIMATE. TRANSITIONS BETWEEN STRATA MAY BE GRADUAL. I I Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 I I I II II II IIAPPENDIX C NCDENR MONITORING WELL CONSTRUCTION RECORDS II II II II II ll II 17,;4%. 1 r ONRESIDENTIAL WELL CONSTRUCTION RECORD ' C North Carolina Department of Environment and Natural Resources-Division of Water Quality ~ ' �. WELL CONTRACTOR CERTIFICATION# 2277 11 1.WELL CONTRACTOR: d. TOP OF CASING IS 2 3 FT.Above Land Surface' Thomas Burnette `Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. I I A.E. Drilling Services, Inc. e. YIELD(gpm): NIM METHOD OF TEST Well Contractor Company Name Two United Way f. DISINFECTION:Type N/A Amount Street Address g. WATER ZONES(depth): I I Greenville SC 29607 Top Bottom Top Bottom City or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom Top Bottom Area code Phone number Thickness/ 'I 2.WELL INFORMATION: 7. CASING: Depth Diameter WELL CONSTRUCTION PERMIT# Top 0 Bottom 51 Ft. 2 SCh40Weight PVC OTHER ASSOCIATED PERMIT#(if applicable) Top Bottom Ft. IISITE WELL ID#(if applicable)AB-1R Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring G1 Municipal/Public❑ 8. GROUT: Depth Material Method Industrial/Commercial❑ Agricultural I'Recovery❑ Injection❑ Top 0 Bottom 48 Ft. Cement/ Tremie I' Irrigation❑ Other❑ (list use) Top 48 Bottom 50 Ft. Bentonite DATE DRILLED 11-23-10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material II253 Plant Allen Road, Belmont, NC 28012 Top 51 Bottom 71 Ft. 2 .010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. I I TOPOGRAPHIC/LAND SETTING: (check appropriate box) ['Slope EValley 0 Flat 0 Ridge 0 Other 10.SAND/GRAVEL PACK: - --— -35 $ MO° — -"ORI&18704718- Depth Size Material - Top 50 Bottom 75 Ft. #1 Sand II - -- -— 81 b -e-eo°o — -"OR- 1701883391- Top Bottom Ft. Latitude/longitude source: iPS :Topographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11. DRILLING LOG II5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam al 0 / 75 Sandy Silt&Silty Sand Facility Name Facility ID#(if applicable) / I I 253 Plant Allen Road / Street Address / RECEIVED/DENR/DWR Belmont NC 28012 / City or Town State Zip Code / I I Ed Sullivan / OCT 1 5 2011 Contact Name / P . Box 37929 / dvater Quality Mailing Address / Pcrmi4ting Station I I Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980n 373-3719 I Area code Phone number 6.WELL DETAIL$: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C.WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS / L� � WNER. a. TOTAL DEPTH: 71 .7:RECORD HAS BEET44 11 b. DOES WELL REPLACE EXISTING WELL? YES Dit NO❑ 1/7/11 SIGNATURE OF CERTIFIED WELL CONTRACT- DATE c. WATER LEVEL Below Top of Casing: 65.1 FT. Thomas Burnette (Use"+"if Above Top of Casing) PRINTED NAME OF PERSON CONSTRUCTING THE WELL ilForm GW-1b Submit within 30 days of completion to: Division of Water Quality- Information Processing, Rev.2/09 1617 Mail Service Center, Raleigh,NC 27699-161, Phone : (919)807-6300 I do NONRESIDENTIAL WELL CONSTRUCTION RECORD 'I fl) North Carolina Department of Environment and Natural Resources-Division of Water Quality •m,, 'm' WELL CONTRACTOR CERTIFICATION# 2277 I 1.WELL CONTRACTOR: Thomas Burnette d. TOP OF CASING IS 24 FT.Above Land Surface' 'Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. I � A.E. Drilling Services, Inc. e. YIELD(gpm): NIM METHOD OF TEST Well Contractor Company Name Two United Way f. DISINFECTION:Type N/A Amount Street Address g. WATER ZONES(depth): I I Greenville SC 29607 Top Bottom Top Bottom City or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom Top Bottom Area code Phone number Thickness/ 'I 2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 110 Ft. 2" sch40 PVC OTHER ASSOCIATED PERMIT#(if applicable) Top Bottom Ft. IISITE WELL ID#(if applicable)AB-9D Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring d Municipal/Public❑ 8. GROUT: Depth Material Method Industrial/Commercial❑ Agricultural❑ Recovery❑ Injection❑ Top 0 Bottom 108 Ft. Cement/ Tremie 11 Irrigation❑ Other E (list use) Top 108 Bottom 109 Ft. Bentonite DATE DRILLED 11-17-10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material II253 Plant Allen Road, Belmont, NC 28012 Top 110 Bottom 115 Ft 2 in 010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. I I TOPOGRAPHIC/LAND SETTING: (check appropriate box) ❑Slope ❑Valley ❑Flat ❑Ridge ❑Other 10.SAND/GRAVEL PACK: - --— -35 t .1"°°° — --OR-X1817508 - Depth Size Material - Top 109 Bottom 121 Ft. #1 Sand I I _ -— 81 b -b'e000 — --OR:11T0060474i- Top Bottom Ft. Latitude/longitude source: QPS ['Topographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11. DRILLING LOG 11 5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam Si 0 / 4 Gravel Fill Facility Name Facility ID#(if applicable) 4 / 13.5 Silt 1 253 Plant Allen Road 13.5 / 20 No recovery Street Address 20 / 33 Clay Belmont NC 28012 33 / 48 Sand City or Town State Zip Code 48 / 108 Weathered Rock I Ed Sullivan 108 / 121 Quartz Diorite Contact Name / P.O. Box 37929 / Mailing Address / Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980fi 373-3719 I Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C,WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS RECORD HAS BEEF L am` WNER. W. a. TOTAL DEPTH: 115 Ktwuwco- I b. DOES WELL REPLACE EXISTING WELL? YES❑ NOait 1/7/11 SIGNATURE OF CERTIFIED WELL CONTRAC OR DATE c. WATER LEVEL Below Top of Casing: 14 52 FT. (Use"+°if Above Top of Casing) Thomas Burnette PRINTED NAME OF PERSON CONSTRUCTING THE WELL Form GW-lb Submit within 30 days of completion to: Division of Water Quality- Information Processing, Rev.2/09 1617 Mail Service Center, Raleigh, NC 27699-161, Phone: (919)807-6300 111 MSWFo NON RESIDENTIAL WELL CONSTRUCTION RECORD IIt'll) North Carolina Department of Environment and Natural Resources-Division of Water Quality 'tea`;m•.. WELL CONTRACTOR CERTIFICATION# 2277 1.WELL CONTRACTOR: d. TOP OF CASING IS 2.2 FT.Above Land Surface` Thomas Burnette *Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. IWellA.E. Drilling Services, Inc. e. YIELD(gpm): NIM METHOD OF TEST Contractor Company Name Two United Way f. DISINFECTION:Type N/A Amount Street Address g. WATER ZONES(depth): IGreenville SC 29607 Top Bottom Top Bottom City or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom Top Bottom Area code Phone number Thickness/ I 2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 5.5 Ft. 2" sch40 PVC OTHER ASSOCIATED PERMIT/kr applicable) Top Bottom Ft. SITE WELL ID#(if applicable)AB-9S Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring NI Municipal/Public❑ 8. GROUT: Depth Material Method Industrial/Commercial❑ Agricultural❑ Recovery❑ Injection❑ Top 0 Bottom 4 Ft. Cement/ Tremie Irrigation❑ Other 0 (list use) Top 4 Bottom 5 Ft. Bentonite DATE DRILLED 11/18/10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material I253 Plant Allen Road, Belmont, NC 28012 Top 5.5 Bottom 20.5 Ft. 2 .010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. I TOPOGRAPHIC/LAND SETTING: (check appropriate box) ❑Slope ❑Valley ❑Flat 0 Ridge ❑Other 10.SAND/GRAVEL PACK: - --— -35 a ee000 — - DR-35718176931 - Depth Size Material - Top 5 Bottom 21 Ft. #1 Sand I - -- -- 81 -e -et odd — —0R=-817006056 14- Top Bottom Ft. Latitude/longitude source: P5 Oropographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11. DRILLING LOG I 5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam S! To / 29 Clayey Silt&Silt Facility Name Facility ID#(if applicable) / 253 Plant Allen Road / Street Address / Belmont NIC 28012 I City or Town State Zip Code / I Ed Sullivan / Contact Name / P.O. Box 37929 / Mailing Address / I Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980,E 373-3719 i Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C,WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS a. TOTAL DEPTH: 20 5 ' L�RECORD HAS BEET � WNER. b. DOES WELL REPLACE EXISTING WELL? YES❑ NO q/ CERTIFIED - 1/7111 SIGNATURE OF CERTIFIED WELL CONTRACTOR DATE c. WATER LEVEL Below Top of Casing: 12/5 FT. (Use"+"if Above Top of Casing) Thomas Burnette PRINTED NAME OF PERSON CONSTRUCTING THE WELL Submit within 30 days of completion to: Divisionof Form GW-1b y p Water Quality- Information Processing, Rev.2/09 1617 Mail Service Center, Raleigh, NC 27699-161, Phone:(919)807-6300 I *'STA7p o III) 1 r ON RESIDENTIAL WELL CONSTRUCTION RECORD North Carolina Department of Environment and Natural Resources-Di\ision of Water Quality ,,,„:-...”;0.,.... WELL CONTRACTOR CERTIFICATION# 2277 1 I 1.WELL CONTRACTOR: d. TOP OF CASING IS 2 6 FT.Above Land Surface' Thomas Burnette 'Top of casing terminated aUor below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. A.E. Drilling Services, Inc. e. YIELD(gpm): NIM METHOD OF TEST Well Contractor Company Name f. DISINFECTION:Type N/A Amount Two United Way Street Address g. WATER ZONES(depth): IIGreenville SC 29607 Top BottomTop BottomCity or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom_ Top Bottom Area code Phone number Thickness/ I2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 57.5 Ft. 2" sch40 PVC OTHER ASSOCIATED PERMIT#(if applicable) Top Bottom Ft. SITE WELL ID#(if applicable)AB-10D Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring LI Municipal/Public LI8. GROUT: Depth Material Method IndustriaUCommercial❑ Agricultural❑ Recovery❑ Injection❑ Top 0 Bottom 52 Ft. Cement/ Tremie I Irrigation❑ Other❑ (list use) Top 52 Bottom 56 Ft. Bentonite DATE DRILLED 11/18/10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material II 253 Plant Allen Road, Belmont, NC 28012 Top 57.5 Bottom 62.5 Ft. 2 in. .010 in. PVC Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. I TOPOGRAPHIC/LAND SETTING: (check appropriate box) ❑Slope :Walley ❑Flat ❑Ridge ❑Other 10.SAND/GRAVEL PACK: - ---- -35 t -1"5°D° — --ORI 17572754- Depth Size Material - Top 56 Bottom 65 Ft. #1 Sand I _ 81 -b e000 — -"ow-78170059081d 70059081d Top Bottom Ft. Latitude/longitude source: SPS OTopographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11. DRILLING LOG 1 5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam at0 / 13 Clay Facility Name Facility ID#(if applicable) 13 / 43 Sand I 253 Plant Allen Road 43 / 50 Clay Street Address 50 / 65 Granite Belmont NC 28012 / City or Town State Zip Code / I Ed Sullivan / Contact Name / P_O_ Box 37929 / Mailing Address / Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980.15 373-3719 I Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C,WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS RECORD HAS BEEF`e `ids` WNER. a. TOTAL DEPTH: 62 5 Kum- aw b. DOES WELL REPLACE EXISTING WELL? YES❑ NO q/ c. WATER LEVEL Below Top of Casing: 8.99 FT. 1/7111 SIGNATURE OF CERTIFIED WELL CONTRAC OR DATE (Use"+"if Above Top of Casing) Thomas Burnette PRINTED NAME OF PERSON CONSTRUCTING THE WELL Form GW-lb Submit within 30 days of completion to: Division of Water Quality- Information Processing, Rev.2/09 1617 Mail Service Center, Raleigh, NC 27699-161, Phone : (919)807-6300 1 `:'_Y`4 Ur RESIDENTIAL WELL CONSTRUCTION RECORD ' 4 NON North Carolina Department of Environment and Natural Resources-Division of Water Quality WELL CONTRACTOR CERTIFICATION# 2277 1 1.WELL CONTRACTOR: Thomas Burnette d. TOP OF CASING IS 2 4 FT.Above Land Surface' *Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. A.E. Drilling Services, Inc. e. YIELD(gpm): N/M METHOD OF TEST Well Contractor Company Name f. DISINFECTION:Type N/A Amount Two United Way Street Address g. WATER ZONES(depth): IGreenville Sc 29607 Top Bottom Top Bottom City or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom Top Bottom Area code Phone number Thickness/ 1 2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 3 Ft. 2 SCh40 PVC OTHER ASSOCIATED PERMIT#(if applicable) Top Bottom Ft. 1 SITE WELL ID#(if applicable)AB-1 OS Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring Gi Municipal/Public❑ 8. GROUT: Depth Material Method Industrial/Commercial❑ Agricultural❑ Recovery❑ Injection❑ Top 0 Bottom 1 Ft. Cement/ Tremie 1 Irrigation❑ Other❑ (list use) Top_1 Bottom 2 Ft. Bentonite DATE DRILLED 11/19/10 Top Bottom Ft. ' 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material 253 Plant Allen Road, Belmont, NC 28012 Top 3 Bottom 18 Ft. 2 in. .010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. 1 TOPOGRAPHIC/LAND SETTING: (check appropriate box) El Slope ❑Valley ❑Flat ❑Ridge ❑Other 10.SAND/GRAVEL PACK: - ---- -35 $ -"")°° 355. oD — ""OR- 17570216- Depth Size Material - Top 2 Bottom 18 Ft. #1 Sand 1 - -- -— 81 -0 -0oo00 — ""OR=437TO05947egi- Top Bottom Ft. Latitude/longitude source: SPS Oropographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11. DRILLING LOG 1 5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam 5l 0 / 8 Silt Facility Name Facility ID#(if applicable) 8 / 23 Clay 253 Plant Allen Road 23 / 25 Sand Street Address / Belmont NC 28012 / City or Town State Zip Code / 1 Ed Sullivan / Contact Name / P.O. Box 37929 / Mailing Address / Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980,6 373-3719 - _ I Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C.WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS RECORD HAS BEET v/ L�,� WNER. a. TOTAL DEPTH: 18 7ilaerce- 1 b. DOES WELL REPLACE EXISTING WELL? YES❑ NO IV c. WATER LEVEL Below Top of Casing: 9 11 FT. 1/7/11 SIGNATURE OF CERTIFIED WELL CONTRACTOR DATE (Use"+"if Above Top of Casing) Thomas Burnette PRINTED NAME OF PERSON CONSTRUCTING THE WELL Form GW-1b Submit within 30 days of completion to: Division of Water Quality- Information Processing, Rev.2/09 1617 Mail Service Center, Raleigh,NC 27699-161, Phone :(919)807-6300 I I „,,,,'"...5`."4°N 1"r0 4Y tly, t_' NONRESIDENTIAL WELL CONSTRUCTION RECORD It- :4) North Carolina Department of Environment and Natural Resources-Division of Water Quality '4`"`;„m`, WELL CONTRACTOR CERTIFICATION# 2277 1 1.WELL CONTRACTOR: Thomas Burnette d. TOP OF CASING IS 2.7 FT.Above Land Surface' *Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. A.E. Drilling Services, Inc. e. YIELD(gpm): NIM METHOD OF TEST Well Contractor Company Name Two United Way f. DISINFECTION:Type N/A Amount Street Address g. WATER ZONES(depth): IGreenville SC 29607 Top Bottom Top Bottom City or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom Top Bottom Area code Phone number Thickness) I 2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 15 Ft. 2" sch40 PVC OTHER ASSOCIATED PERMIT#(if applicable) TOP Bottom Ft. SITE WELL ID#(if applicable)AB-11D Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring Ge Municipal/Public❑ 8. GROUT: Depth Material Method Industrial/Commercial❑ Agricultural❑ Recovery❑ Injection❑ Top 0 Bottom 11 Ft. Cement/ Tremie I Irrigation❑ Other E (list use) Top 11 Bottom 13 Ft. Bentonite DATE DRILLED 11/19/10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material I 253 Plant Allen Road, Belmont. NC 28012 Top 15 Bottom 20 Ft. 2 .010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No..Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. I TOPOGRAPHIC/LAND SETTING: (check appropriate box) ❑Slope ❑Valley ❑Flat ❑Ridge ❑Other 10.SAND/GRAVEL PACK: - --— -35 1"°°° — --OR-3571 7110334- Depth Size Material - Top 13 Bottom 25 Ft. #1 Sand I - ---- 81 -0 -0.0000 - --01;r:8170 1-1 0 8 0 7d OR='$t0110807d- Top Bottom Ft. Latitude/longitude source: SPS ['topographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11. DRILLING LOG I5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam S! 0 / 10 Silt and Sand Facility Name Facility ID#(if applicable) 10 / 25 Granite I 253 Plant Allen Road / Street Address / Belmont NC 28012 / City or Town State Zip Code / I Ed Sullivan / Contact Name / P.O. Box 37929 / Mailing Address / I Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980.6 373-3719 - _ 1 Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C,WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS Ku RECORD HAS BEET / i.0,024,.... WNER. a. TOTAL DEPTH: 20.4 wwro� I b. DOES WELL REPLACE EXISTING WELL? YES❑ NO q/ SIGNATURE OF CERTIFIED WELL CONTRACTOR 1/7/11 DATE c. WATER LEVEL Below Top of Casing: 10.26 FT. (Use"+"if Above Top of Casing) Thomas Burnette PRINTED NAME OF PERSON CONSTRUCTING THE WELL ISubmit within 30 days of completion to: Divisionof Form GW-lb y p Water Quality- Information Processing, Rev.2/09 1617 Mail Service Center, Raleigh, NC 27699-161, Phone : (919)807-6300 I ilf 71 �ONRESIDENTIAL WELL CONSTRUCTION RECORD I 1‘ North Carolina Department of Environment and Natural Resources-Division of Water Quality 2277 '��:,..�' WELL CONTRACTOR CERTIFICATION# I 1.WELL CONTRACTOR: Thomas Burnette d. TOP OF CASING IS 2 04 FT.Above Land Surface' 'Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. A.E. Drilling Services, Inc. e. YIELD(gpm): NIM METHOD OF TEST I Well Contractor Company Name Two United Way f. DISINFECTION:Type N/A Amount Street Address g. WATER ZONES(depth): Greenville SC 29607 Top Bottom Top Bottom ITop City or TownState Zip Code TopBottomTopBottom (864 ) 288-1986 Bottom Top Bottom Area code Phone number Thickness/ I 2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 91 Ft. 2 sch40 PVC OTHER ASSOCIATED PERMIT#(if applicable) Top Bottom Ft. II SITE WELL ID#(if applicable)AB-12D Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring Gi Municipal/Public❑ 8. GROUT: Depth Material Method Industrial/Commercial❑ Agricultural❑ Recovery O Injection❑ Top 0 Bottom 89 Ft. Cement/ Tremie 1 Irrigation❑ Other❑ (list use) Top 89 Bottom 90 Ft. Bentonite DATE DRILLED 11/30/10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material I253 Plant Allen Road, Belmont, NC 28012 Top 91 Bottom 96 Ft. 2 in. 010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. I TOPOGRAPHIC/LAND SETTING: (check appropriate box) ❑Slope ❑Valley ❑Flat ❑Ridge ❑Other 10.SAND/GRAVEL PACK: - ---- -35 000 -- --OR15-17352860- Depth Size Material - -eTop 90 Bottom 104 Ft. #1 Sand I - -- -- 81 -67eo0o — -"OR-1317019554U- Top Bottom Ft. Latitude/longitude source: {SPS [Topographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11. DRILLING LOG ' 5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam 0 / 58 Silt Facility Name Facility ID#(if applicable) 58 / 83 Weathered Rock I 253 Plant Allen Road 83 / 94 Silt Street Address 94 / 104 Quartz Diorite/Gabbro Belmont NC 28012 / City or Town State Zip Code / I Ed Sullivan / Contact Name / P.O. Box 37929 / Mailing Address / I Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980B 373-3719 I Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C,WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS a. TOTAL DEPTH: 96 RECORD HAS BEE?W. ` � WNER. Ku�ca- 1/7/11 I b. DOES WELL REPLACE EXISTING WELL? YES❑ NO qf SIGNATURE OF CERTIFIED WELL CONTRACTOR DATE c. WATER LEVEL Below Top of Casing: 14.01 FT. Thomas Burnette (Use"+"if Above Top of Casing) PRINTED NAME OF PERSON CONSTRUCTING THE WELL IIISubmit within 30 days of completion to: Division of Water QualityInformation Processing, Form GW-lb Y - 9 Rev.2/09 1617 Mail Service Center, Raleigh, NC 27699-161,Phone : (919)807-6300 I M6 t ml"`-_ ON RESIDENTIAL WELL CONSTRUCTION RECORD INorth Carolina Department of Environment and Natural Resources-Division of Water Quality '4%7'°, WELL CONTRACTOR CERTIFICATION# 2277 I 1.WELL CONTRACTOR: d. TOP OF CASING IS 2 1 FT.Above Land Surface* Thomas Burnette 'Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. A.E. Drilling Services, Inc. e. YIELDI (gP m): N/M METHOD OF TEST Well Contractor Company Name Two United Way f. DISINFECTION:Type N/A Amount Street Address g. WATER ZONES(depth): Greenville SC 29607 Top Bottom Top Bottom ICity or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom Top Bottom Area code Phone number Thickness! I 2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 8 Ft. 2" sch40 PVC OTHER ASSOCIATED PERMIT#(if applicable) Top Bottom Ft. ISITE WELL ID#(if applicable)AB-12S Top Bottom Ft. _ 3.WELL USE(Check One Box)Monitoring d MunicipaUPublic❑ 8. GROUT: Depth Material Method IndustriaUCommercial❑ Agricultural❑ Recovery❑ Injection❑ Top 0 Bottom 6 Ft. Cement/ Tremie I Irrigation❑ Other❑ (list use) Top 6 Bottom 7 Ft. Bentonite DATE DRILLED 12/2/10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material I 253 Plant Allen Road, Blemont, NC 28012 Top 8 Bottom 23 Ft. 2 in. .010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. I TOPOGRAPHIC/LAND SETTING: (check appropriate box) ❑Slope ❑Valley ❑Flat ❑Ridge ❑Other 10.SAND/GRAVEL PACK: - --- -35 $ :e000 - --OR-x5717367812- Depth Size Material — Top 7 Bottom 29 Ft. #1 Sand I - -- -- 81 b -ce000 — --OR=$rb 1957825- Top Bottom Ft. Latitude/longitude source: VPS ❑Topographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11. DRILLING LOG I5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam Sd 0 / 29 Silt Facility Name Facility ID#(if applicable) / I 253 Plant Allen Road / Street Address / Belmont NC 28012 / City or Town State Zip Code / I Ed Sullivan / Contact Name / P.O. Box 37929 / Mailing Address / I Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980.6 373-3719 I Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C,WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS a. TOTAL DEPTH: 23 RECORD HAS BEET / WNER. I b. DOES WELL REPLACE EXISTING WELL? YES E NO 5/ Ztwawoe- L��` 1/7/11 SIGNATURE OF CERTIFIED WELL CONTRACTOR DATE c. WATER LEVEL Below Top of Casing: 15 63 FT. Thomas Burnette (Use"+°if Above Top of Casing) PRINTED NAME OF PERSON CONSTRUCTING THE WELL I daysof completion Form GW-lb Submit within 30 p on to: Division of Water Quality- Information Processing, Rev.2/09 1617 Mail Service Center, Raleigh, NC 27699-161,Phone : (919)807-6300 I 1 d'' 4 NON RESIDENTIAL WELL CONSTRUCTION RECORD i 4 44) North Carolina Department of Environment and Natural Resources-Division of Water Quality "" °'; •. WELL CONTRACTOR CERTIFICATION# 2277 I 1.WELL CONTRACTOR: Thomas Burnette d. TOP OF CASING IS 2 7 FT.Above Land Surface' *Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. IWellA.E. Drilling Services, Inc. e. YIELD(gpm): NIM METHOD OF TEST Contractor Company Name Two United Way f. DISINFECTION:Type N/A Amount Street Address g. WATER ZONES(depth): Greenville SC 29607 Top Bottom Top Bottom ICity or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom Top Bottom Area code Phone number Thickness! I 2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 67 Ft. 2" sch40 PVC OTHER ASSOCIATED PERMIT#(if applicable) Top Bottom Ft. I SITE WELL ID#(if applicable)AB-13D Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring V Municipal/Public❑ 8. GROUT: Depth Material Method Industrial/Commercial❑ Agricultural❑ Recovery❑ Injection E Top 0 Bottom 64 Ft. Cement/ Tremie I Irrigation❑ Other❑ (list use) Top 64 Bottom 65 Ft. Bentonite DATE DRILLED 12/1/10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material I 253 Plant Allen Road, Belmont, NC 28012 Top 67 Bottom 72 Ft. 2 in. 010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. I TOPOGRAPHIC/LAND SETTING: (check appropriate box) ❑Slope ❑Valley ❑Flat ❑Ridge ❑Other 10.SAND/GRAVEL PACK: - --— -35 $ i-e000 — '-OR-3'5717894216- Depth Size Material - Top 65 Bottom 86 Ft. #1 Sand I - -- 81 e b-e000 — OR=$1 016516 d- Top Bottom Ft. Latitude/longitude source: ( 3PS ❑Topographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11.DRILLING LOG I 5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam o / 23 Clayey Silt Facility Name Facility ID#(if applicable) 23 / 28 Weathered Rock 253 Plant Allen Road 28 / 63 SaDrolite Silt Street Address 63 /_86 Gabbro Belmont NC 28012 / City or Town State Zip Code / I Ed Sullivan / Contact Name / P.O. Box 37929 / _ Mailing Address / I Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980.15 373-3719 Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C,WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS RECORD HAS BEEFWNER. a. TOTAL DEPTH: 72 BEEF_ L Qie2,,,- I b. DOES WELL REPLACE EXISTING WELL? YES❑ NO Gil 1/7/11 T DATE c. WATER LEVEL Below Top of Casing: 13.54 FT. SIGNATURE OF CERTIFIED WELL CONTRAC (Use"+•if Above Top of Casing) Thomas Burnette PRINTED NAME OF PERSON CONSTRUCTING THE WELL IForm GW-lb within 30 days of completion to: Division of Water Quality- Information Processing, Rev. 2/09 1617 Mail Service Center, Raleigh, NC 27699-161, Phone: (919)807-6300 I I ,,.S74%:5 1 tr ON RESIDENTIAL WELL CONSTRUCTION RECORD North Carolina Department of Environment and Natural Resources-Division of Water Quality WELL CONTRACTOR CERTIFICATION# 2277 I 1.WELL CONTRACTOR: d. TOP OF CASING IS 7 FT.Above Land Surface' Thomas Burnette *Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. A.E. Drilling Services, Inc. e. YIELD(gpm): NIM METHOD OF TEST Well Contractor Company Name Two United Way f. DISINFECTION:Type N/A Amount Street Address g. WATER ZONES(depth): I Greenville SC 29607 Top Bottom Top Bottom City or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom Top Bottom Area code Phone number Thickness/ I 2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 6 Ft. 2" sch40 PVC OTHER ASSOCIATED PERMIT#(if applicable) Top Bottom Ft. I SITE WELL ID#(if applicable)AB-13S Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring d Municipal/Public❑ 8. GROUT: Depth Material Method Industrial/Commercial❑ Agricultural❑ Recovery❑ Injection❑ Top 0 Bottom 4 Ft. Cement/ Tremie I Irrigation❑ Other❑ (list use) Top 4 Bottom 5 Ft. Bentonite DATE DRILLED 12/2/10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material 253 Plant Allen Road, Belmont. NC 28012 Top 6 Bottom 21 Ft. 2 .010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. TOPOGRAPHIC/LAND SETTING: (check appropriate box) CI Slope ❑Valley ❑Flat ❑Ridge ❑Other 10.SAND/GRAVEL PACK: - --- -35 - 15:900° - --OR-3617896038- Depth Size Material I - __ 81 - — - -'OR='$TO1649476 Top Bottom Ft. Latitude/longitude source: SPS Oropographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11.DRILLING LOG I 5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enerav Allen Steam 3! 0 128 Clayey Silt Facility Name Facility ID#(if applicable) / 1 253 Plant Allen Road / Street Address / Belmont NC 28012 / City or Town State Zip Code / Ed Sullivan / Contact Name / P.O. Box 37929 / Mailing Address / I Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980n 373-3719 Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C,WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS a. TOTAL DEPTH: 21 RECORD HAS BEET v/ ir WNER. I b. DOES WELL REPLACE EXISTING WELL? YES❑ NO qI iCERTIFI L 1/7/11 SIGNATURE OF CERTIFIED WELL CONTRACTOR DATE c. WATER LEVEL Below Top of Casing: 13_91 FT. (Use"+'if Above Top of Casing) Thomas Burnette PRINTED NAME OF PERSON CONSTRUCTING THE WELL ISubmit within 30 days of completion t : Division - Form GW-lb y p o of Water QualityInformation Processing, Rev.2/09 1617 Mail Service Center, Raleigh, NC 27699-161, Phone: (919)807-6300 Ito SrA?!o NON ONRESIDENTIAL WELL CONSTRUCTION RECORD 111'1 North Carolina Department of Environment and Natural Resources-Division of Water Quality � - ) " „0••, WELL CONTRACTOR CERTIFICATION# 2277 I 1.WELL CONTRACTOR: Thomas Burnette d. TOP OF CASING IS 2.4 FT.Above Land Surface' *Top of casing terminated at/or below land surface may require Well Contractor(Individual)Name a variance in accordance with 15A NCAC 2C.0118. A.E. Drilling Services, Inc. e. YIELD(gpm): N/M METHOD OF TEST Well Contractor Company Name Two United Way f. DISINFECTION:Type N/A Amount Street Address g. WATER ZONES(depth): Greenville SC 29607 Top Bottom Top Bottom City or Town State Zip Code Top Bottom Top Bottom (864 ) 288-1986 Top Bottom Top Bottom Area code Phone number Thickness/ I 2.WELL INFORMATION: 7. CASING: Depth Diameter Weight Material WELL CONSTRUCTION PERMIT# Top 0 Bottom 19.3 Ft. 2" sch40 PVC OTHER ASSOCIATED PERMIT#(if applicable) Top Bottom Ft. I SITE WELL ID#(if applicable)AB-14D Top Bottom Ft. 3.WELL USE(Check One Box)Monitoring tM'Municipal/Public❑ 8. GROUT: Depth Material Method Industrial/Commercial n Agricultural❑ Recovery 0 Injection❑ Top 0 Bottom 16.5 Ft. Cement/ Tremie Irrigation❑ Other❑ (list use) Top 16.5 Bottom 18 Ft. Bentonite DATE DRILLED 11/22/10 Top Bottom Ft. 4.WELL LOCATION: 9. SCREEN: Depth Diameter Slot Size Material I 253 Plant Allen Road. Belmont. NC 28012 Top 19.3 Bottom 29.3 Ft. 2 010 in. PVC (Street Name,Numbers,Community,Subdivision,Lot No.,Parcel,Zip Code) Top Bottom Ft. in. in. CITY: Belmont COUNTY Gaston Top Bottom Ft. in. in. t TOPOGRAPHIC/LAND SETTING: (check appropriate box) ❑Slope ❑Valley 10 Flat ❑Ridge ❑Other 10.SAND/GRAVEL PACK: - --— -35 $ b-e000 — OR-318173666- Depth Size Material - Top 18 Bottom 33.5 Ft. #1 Sand I - -- -- 81 -fomoo — "-OR-L-817019157%- Top Bottom Ft. Latitude/longitude source: PS ['Topographic map Top Bottom Ft. (location of well must be shown on a USGS topo map andattached to this form if not using GPS) 11. DRILLING LOG I 5.FACILITY(Name of the business where the well is located.) Top Bottom Formation Description Duke Enemy Allen Steam at / 8 Sandy Silt Facility Name Facility ID#(if applicable) 8 / 13 Sand I 253 Plant Allen Road 13 / 16 Quartzite Street Address 16 / 28 Sand with Quartzite Belmont NC 28012 28 / 33.5 Granite City or Town State Zip Code / I Ed Sullivan / Contact Name / P.O. Box 37929 / Mailing Address / I Charlotte NC 28237 / City or Town State Zip Code 12.REMARKS: ( 980n 373-3719 1 Area code Phone number 6.WELL DETAILS: I DO HEREBY CERTIFY THAT THIS WELL WAS CONSTRUCTED IN ACCORDANCE WITH 15A NCAC 2C,WELL CONSTRUCTION STANDARDS,AND THAT A COPY OF THIS RECORD HAS BEEFye `��`� WNER. a. TOTAL DEPTH: 29.6 iTtwarra- i� 1/7/11 I b. DOES WELL REPLACE EXISTING WELL? YES❑ NO SIGNATURE OF CERTIFIED WELL CONTRAC OR DATE c. WATER LEVEL Below Top of Casing: 17.01 FT. Thomas Burnette (Use"+•if Above Top of Casing) PRINTED NAME OF PERSON CONSTRUCTING THE WELL II Form GW-lb Submit within 30 days of completion to: Division of Water Quality- Information Processing, Rev.2/09 1617 Mail Service Center, Raleigh,NC 27699-161,Phone: (919)807-6300 I I Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 I I I I I I IAPPENDIX D MONITORING WELL DEVELOPMENT RECORDS I I I I I I I I I 1 MACTEC MACTEC ENGINEERING AND CONSULTING, INC. 1 MONITORING WELL SAMPLING FIELD DATA WORKSHEET N MACTEC PROJECTUMBER 6 t2 $ 10- 5 Z 8 y MONITORING WELL NUMBER I4L3y�� cn5 SITE NAME by I w v 1��1cc-3 DATE \\ \Q - \0 TIME OF SAMPLE (VA FIELD PERSONNEL�aa -‘/ b.-3tc•SL l ccJ WEATHER CONDITIONS ITOTAL WELL DEPTH(TWD) FT.(measured/well tag/drillers log-circle one) SCREENED INTERVAL 5.5 {'D 20. 5 ' MEASURING POINT FOR DEPTH 1 OP o-F Ca sine_ I DEPTH TO GROUNDWATER(DGW) LENGTH OF WATER COLUMN(LWC)=TWD-DGW= CASING DIAMETER C2.. IN. IONE STANDING WELL VOLUME= gal. (NOTE''A"=0.0102G/FT: 'A"=0.023 G/FT: 1"=0.041 G/FT:2"=0.163 G/FT: 4"=0.653 G/FT: 6"= 1.46 G/FT) I THREE STANDING WELL VOLUMES= FIVE STANDING WELL VOLUMES= METHOD OF WELL EVACUATION: BAILER PUMP/OTHER: TYPE TOTAL VOLUME OF WATER REMOVED: GAL. IWELL TYPE: FLUSH MOUNT/60VE GRAD COMMENTS ae_lo,..1 tool.►�{ LOCKING CAP YES NO 1` k ` cV�,J I ry PROTECTIVE POST/ABUTMENT YES NO "-Tis"-Tis va.1c.`. - P c�ec) .Z;ob NONPOTABLE LABEL YES NO --C4 gaua.� 1 \uc.D I ID PLATE YES NO WELL INTEGRITY SATISFACTORY YES V NO WELL YIELD LOW MODERATE HIGH 1 Time Volume PH Temp Cond. Dis.02 Turbidity ORP Dotes (°C) (µS/cm) (mg/L) (NTU) (mV) 3S00 7 t C-a`{ 18.z _1.S'4 2.3c, 3n ‘g.3 . 1\ck , S 7 1 1 1 I I I MACTEC IMACTEC ENGINEERING AND CONSULTING, INC. IMONITORING WELL SAMPLING FIELD DATA WORKSHEET AS MACTEC PROJECT NUMBER 622 -1 0--529 4 MONITORING WELL NUMBER Av — ck D SITE NAME�ukc.t Q laZC kVer) DATE 11 /IS / I t- TIME OF SAMPLE I FIELD PERSONNEL GTo.rr 3(3 1 e\.33 b v N o ( WEATHER CONDITIONS iTOTAL WELL DEPTH(TWD) FT. (measured/well tag/drillers log-circle one) SCREENED INTERVAL MEASURING POINT FOR DEPTH I DEPTH TO GROUNDWATER(DGW) LENGTH OF WATER COLUMN(LWC)=TWD-DGW= CASING DIAMETER IN. iONE STANDING WELL VOLUME= gal. (NOTE'/�"=0.0102G/FT: 3/4"=0.023 GIFT: 1"=0.041 GIFT:2"=0.163 G/FT: 4"=0.653 GIFT: 6"= 1.46 G/FT) ITHREE STANDING WELL VOLUMES= FIVE STANDING WELL VOLUMES= METHOD OF WELL EVACUATION: BAILER/PUMP/OTHER: TYPE TOTAL VOLUME OF WATER REMOVED: GAL. i WELL TYPE: FLUSH MOUNT/ABOVE GRADE COMMENTS C3eNkN MIp t1 LOCKING CAP YES NO I b: g-S o.'f O. 1J& J' IPROTECTIVE POST/ABUTMENT YES NO NONPOTABLE LABEL YES NO I ID PLATE YES NO WELL INTEGRITY SATISFACTORY YES NO WELL YIELD LOW MODERATE HIGH ITemp Cond. Dis.0 Turbidity ORP Time Volume pH (°C) (µS/cm) (mg/L) (NTU) (mV) Notes 12= 3d c 7 7.25 n.`-1 .1.-r4 ..'S l2: (J . 7 g 7.7 1 20. 1 ;)33 \S-2i1 : acp qa /_Zl 2p, 1 _237- Zg I I I I I I MACTEC IMACTEC ENGINEERING AND CONSULTING, INC. MONITORING WELL SAMPLING FIELD DATA WORKSHEET IMACTEC PROJECT NUMBER 62.2'53 -1 0 -5 Z�`{ MONITORING WELL NUMBER A 7 )(::" S SITE NAME r(rkaSt N\CAI DATE S] ^'q— t O TIME OF SAMPLE FIELD PERSONNEL(o-- ("--)1 t•-L6.)cw1WEATHER CONDITIONS TOTAL WELL DEPTH(TWD) FT.(measured/well tag/drillers log—circle one) SCREENED INTERVAL MEASURING POINT FOR DEPTH I DEPTH TO GROUNDWATER(DGW) LENGTH OF WATER COLUMN(LWC)=TWD—DGW= CASING DIAMETER IN. IONE STANDING WELL VOLUME= gal. (NOTE'h"=0.0102G/FT: Y"=0.023 G/FT: 1"=0.041 GIFT:2"=0.163 G/FT: 4"=0.653 G/FT: 6"= 1.46 G/FT) I THREE STANDING WELL VOLUMES= FIVE STANDING WELL VOLUMES= METHOD OF WELL EVACUATION: BAILER/PUMP/OTHER: TYPE TOTAL VOLUME OF WATER REMOVED: GAL. I WELL TYPE: FLUSH MOUNT/ABOVE GRADE COMMENTS LOCKING CAP YES NO IPROTECTIVE POST/ABUTMENT YES NO NONPOTABLE LABEL YES NO I ID PLATE YES NO WELL INTEGRITY SATISFACTORY YES NO WELL YIELD LOW MODERATE HIGH I Time Volume pg Temp Cond. Dis.02 Turbidity ORP Notes CC) (µS/cm) (mg/L) (NTU) (mV) I1 Z° c_1 1-r..1 . )9 l `-t i / :26 'Id ,.,3016.`i - L;3 &Z/ I , 2.-2o t c,3(-1 17.r, , \ .`k gz4 ) ; 10 (off (-.3o )7_, 1 . 1ss 1 I I . I I I I J MACTEC IMACTEC ENGINEERING AND CONSULTING, INC. IMONITORING WELL SAMPLING FIELD DATA WORKSHEET MACTEC PROJECT NUMBER ‘Zz 8-10 - 528 T MONITORING WELL NUMBER RO — )O Zil I SITE NAME galtAstN DATE 1,` I ek - 10 TIME OF SAMPLE FIELD PERSONNEL WEATHER CONDITIONS ITOTAL WELL DEPTH(TWD) FT.(measured/well tag/drillers log-circle one) SCREENED INTERVAL MEASURING POINT FOR DEPTH I DEPTH TO GROUNDWATER(DGW) LENGTH OF WATER COLUMN(LWC)=TWD-DGW= CASING DIAMETER IN. IONE STANDING WELL VOLUME= gal. (NOTE'/z"=0.0102G/FT: 3/4"=0.023 GIFT: 1"=0.041 G/FT: 2"=0.163 G/FT: 4"=0.653 G/FT: 6"= 1.46 G/FT) ITHREE STANDING WELL VOLUMES= FIVE STANDING WELL VOLUMES= METHOD OF WELL EVACUATION: BAILER/PUMP/OTHER: TYPE TOTAL VOLUME OF WATER REMOVED: GAL. I WELL TYPE: FLUSH MOUNT/ABOVE GRADE COMMENTS LOCKING CAP YES NO IPROTECTIVE POST/ABUTMENT YES NO NONPOTABLE LABEL YES NO l ID PLATE YES NO WELL INTEGRITY SATISFACTORY YES NO WELL YIELD LOW MODERATE HIGH I Time Volume g Temp Cond. Dis.Oz Turbidity ORP p ("C) (µS/cm) (mg/L) (NTU) (my) Notes I900 7b Z./c) i.S_°I -S-A41 is I S rsS �y k 1 -3 X2°1 I )6 :0O ; 7, ( cf 2- 3 S t )Q: 3a _r . Lick I I 1 MACTEC IMACTEC ENGINEERING AND CONSULTING, INC. IMONITORING WELL SAMPLING FIELD DATA WORKSHEET MACTEC PROJECT NUMBER 62.2-8 -10- 52-g4 MONITORING WELL NUMBER ►48- i t D SITE NAME C-)41,c_ P �ll c_cki DATE )I - ? 3 - 10 TIME OF SAMPLE FIELD PERSONNELC. sc—� �,,J,nr 6 et V rn/ WEATHER CONDITIONS 111 TOTAL WELL DEPTH(TWD) FT.(measured/well tag/drillers log-circle one) SCREENED INTERVAL MEASURING POINT FOR DEPTH I DEPTH TO GROUNDWATER(DGW) LENGTH OF WATER COLUMN(LWC)=TWD-DGW= CASING DIAMETER IN. ONE STANDING WELL VOLUME= gal. (NOTE %2"=0.0102G/FT: 1/4"=0.023 GIFT: 1"=0.041G/FT:2"=0.163 G/FT: 4"=0.653 G/FT: 6"= 1.46 G/FT) I THREE STANDING WELL VOLUMES= FIVE STANDING WELL VOLUMES= METHOD OF WELL EVACUATION: BAILER/PUMP/OTHER: TYPE TOTAL VOLUME OF WATER REMOVED: GAL. IWELL TYPE: FLUSH MOUNT/ABOVE GRADE COMMENTS tom,.,.,,, �,,..._c„,.,c:3 LOCKING CAP YES NO S.:c rt. r,. 3 ca-R:'(-•r--. IPROTECTIVE POST/ABUTMENT YES NO (./.. -r ;cy offcr '), 3,:kIlo,.sS NONPOTABLE LABEL YES NO pig.,..k.,c�::, c) ,-.7,lr.-i't c r 2 ID PLATE YES NO rc+ Aq.o r C �.,-, t,„..t 5 IWELL INTEGRITY SATISFACTORY YES NO U WELL YIELD LOW MODERATE HIGH I Time Volume A Temp Cond. Dis.02 Turbidity ORP Notes p (°C) (µS/cm) (mg/L) (NTU) (mV) I _ I I I I I r I I A E DRILLING SERVICES, LLC IPlant Allen Well Development Records 12/2/2010 I Pumped 5 gallons out of each before taking readings Well ID Time Gal. Ph Cond Turb Temp 06- 13D 10:10 5 61.68 0.195 822 15.0° 10:15 10 6.31 0.103 312 15.3° I 10:20 15 6.71 0.113 124 118 14.9° 10:25 20 6.56 0.113 15.6° 10:30 25 6.58 0.118 0.67 14.9° 10:35 30 6.79 0.124 68 15.6° I 10:40 40 6.62 0.127 40 15.4° 10:45 50 6.55 0.134 0.41 15.6° I fib_ 13S 10:15 5 5.73 0.109 102 125 14.6° 10:24 10 6.56 0.097 14.7° 10:35 15 6.73 0.095 100 14.5° 10:45 20 6.59 0.089 90 15.5° I 10:55 25 6.51 0.109 95 15.4° 11:05 30 6.46 0.119 80 15.6° 11:15 35 6.57 0.117 70 15.3° I 11:20 40 5.77 0.076 0.55 15.8° 12:30 55 5.89 0.08 43 15.9° 12:35 60 5.79 0.091 35 15.7° I 11221/33/2010 21213/2010D 40 gallons pumped ------ Meter stopped working I Pumped wells till they were clear 12/5/2010 ' --12S 7:30 10 5.75 0.089 150 15.7° ter- 7:40 15 6.08 0.011 75 15.1° 7:50 20 6.17 0.075 61 14.9° 8:00 25 6.21 0.048 47 14.9° 1 8:10 30 I I I I ITwo United Way`Greenville, SC 29607*Ph: 864-288-1986* Fx: 864-288-2272-www.aedrilling.com I I I J MACTEC I '_MACTEC ENGINEERING AND CONSULTING, INC. MONITORING WELL SAMPLING FIELD DATA WORKSHEETI MACTEC PROJECT NUMBER 6212-8^ 1 0- 5 Z 8y MONITORING WELL NUMBER A - 14-1D SITE NAME D.,tG� 0 l 1, �.tte,.1 DATE )(-Z 3 - )0 TIME OF SAMPLE /1//#3 FIELD PERSONNEL &A.9- W i n bourn WEATHER CONDITIONS TOTAL WELL DEPTH(TWD) FT.(measured/well tag/drillers log-circle one) SCREENED INTERVAL MEASURING POINT FOR DEPTH I DEPTH TO GROUNDWATER(DGW) LENGTH OF WATER COLUMN(LWC)=TWD-DGW= CASING DIAMETER IN. IONE STANDING WELL VOLUME= gal. (NOTE'/:"=0.0102G/FT: 3/4"=0.023 GIFT: 1"=0.041G/FT:2"=0.163 GIFT: 4"=0.653 G/FT: 6"= 1.46 G/FT) I THREE STANDING WELL VOLUMES= FIVE STANDING WELL VOLUMES= METHOD OF WELL EVACUATION: BAILER/PUMP/OTHER: TYPE TOTAL VOLUME OF WATER REMOVED: GAL. WELL TYPE: FLUSH MOUNT/ABOVE GRADE COMMENTS I- 2.'1 - )o 1136 LOCKING CAP YES NO 1?c,..-_ t rn L.,..) -- _Lk,-'r I rr� IPROTECTIVE POST/ABUTMENT YES NO .:.c z aZe C) 3'- c P� NONPOTABLE LABEL YES NO \-2<{ - 1 0 C;Tho� I,, • I ID PLATE YES NO 1).,-\\� �rr,.\e ( u t.,,p gl Lc- WELL s WELL INTEGRITY SATISFACTORY YES NO G.� I .2 S g rv` u WELL YIELD LOW MODERATE HIGH Time Volume pH Temp Cond. Dis.02 Turbidity ORP Notes (C) (µS/cm) (mg/L) (NTU) (mV) I3:0s .5 G .�C., , ,`-( . Js _ : 3 c If, 6 .,2q 17. K . l c,r- Y:d _____a, s- . i41 17. 7 . VID $5 I( '24i _R: �n -M X0.01 1S_. . Via- 9 : i.cr s C9 . xg'.5; . 1 y C ) I I Ash Basin Monitoring Well Installation Report January 7,2011 Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 lin 1 ' APPENDIX E PHOTOGRAPHS OF COMPLETED WELL PAIRS 1 1 1 1 1 I Ash Basin Monitoring Well Installation Report January 7,2011 I Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 j f I } I r• I. 1 1 I I x 11 �, rs �•,.. I IPhotograph 1: Well pair MW-9S and MW9D. I I I .1 I2 4.:, -, • . S3m,�:'� I • •> IPhotograph 2: Well Pair MW-12S and MW-12D. I I Ash Basin Monitoring Well Installation Report January 7,2011 IAllen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 1 . 1 1. I 1It TT 7. I IPhotograph 3: Well pair MW-13S and MW-13D. 7 ...- t r ,� , i •t et. Is x.. w IPhotograph 4: Well MW-14D. I I I Ash Basin Monitoring Well Installation Report January 7,2011 I Allen Steam Station Belmont,Gaston County,North Carolina MACTEC Project 6228-10-5284 I I I I I I I IAPPENDIX F SLUG TEST DATA I I I I I I I I I r- I 1 10. - i , , i 1 I , I , 1 I , , I i I I I , 1 , , , , _ i - I - 1 e .. as U _ Z. p - 0.1 Il i i i i I , , , il i i i il , , , , I 0. 800. 1.6E+3 2.4E+3 3.2E+3 4.0E+3 Time (sec) I AB-9S RISING HEAD TEST I PROJECT INFORMATION Company: MACTEC Client: Duke Energy I Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-9S ITest Date: 12/2/10 AQUIFER DATA ISaturated Thickness: 16.25 ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA (AB-9S) I Initial Displacement: 1.993 ft Static Water Column Height: 8.25 ft Total Well Penetration Depth: 8.25 ft Screen Length: 8.25 ft Casing Radius: 0.083 ft Well Radius: 0.34 ft I SOLUTION IAquifer Model: Unconfined Solution Method: Bouwer-Rice K = 3.164E-6 cm/sec y0 = 1.387 ft I I I10. _ I I f I I I I I I I I I I I I I I I I 1 I I I I _ T - 1 1. w E 1 U a o 0 00 _ I 000 . 0 0 0 o a 0 0 0 0 I - 0.01 1 1 1 1 1 1 1 1 1 1 1 1 1 1 I 1 1 1 1 1 1 1 1 1 I 0. 400. 800. 1.2E+3 1.6E+3 2.0E+3 Time (sec) I AB-13S RISING HEAD TEST IPROJECT INFORMATION py Client: Duke Energy I Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-13S ITest Date: 12/3/10 AQUIFER DATA ISaturated Thickness: 7.09 ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA (AB-13S) I Initial Displacement: 2.697 ft Static Water Column Height: 7.09 ft Total Well Penetration Depth: 7.09 ft Screen Length: 7.09 ft Casing Radius: 0.0833 ft Well Radius: 0.34 ft I SOLUTION IAquifer Model: Unconfined Solution Method: Bouwer-Rice K = 0.0001908 cm/sec y0 = 1.654 ft I I10. _ III I I I I I I i I I I I I I I I I I I I I I = - ' 1. _ m 0.1 - ° (p ❑ Q d❑ ° too ° ❑ ° ° ❑ 0 0.01 = -_ - 0.001 J I I I I I I I I i i i I I I 1 I I I 0. 400. 800. 1.2E+3 1.6E+3 2.0E+3 I Time (sec) I AB-13D RISING HEAD TEST I PROJECT INFORMATION Company: MACTEC Client: Duke Energy I Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-13D ITest Date: 12/3/10 AQUIFER DATA ISaturated Thickness: 58.46 ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA (AB-13D) I Initial Displacement: 2.606 ft Static Water Column Height: 58.46 ft Total Well Penetration Depth: 56.46 ft Screen Length: 5. ft Casing Radius: 0.0833 ft Well Radius: 0.16 ft ISOLUTION I Aquifer Model: Confined Solution Method: Bouwer-Rice K = 0.0007202 cm/sec y0 = 1.689 ft I I- I I 10. I i i i I I I I I I I I I I I I I I I I I I I I = I - •I 1 I Esc a) E40 0.1 ❑ - 03 ❑� a N o❑ ❑ - b0 I ❑ . ❑ _ ❑❑❑ ❑ ❑ 0.01 ❑ 0 - I ❑I 0.001 i � �� IiIiiiil m iIiii , 0. 400. 800. 1.2E+3 1.6E+3 2.0E+3 I Time (sec) I AB-12S RISING HEAD TEST I PROJECT INFORMATION Company: MACTEC Client: Duke Energy I Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-12S ITest Date: 12/2/10 AQUIFER DATA ISaturated Thickness: 7.37 ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA (AB-12S) I Initial Displacement: 1.875 ft Static Water Column Height: 7.37 ft Total Well Penetration Depth: 7.37 ft Screen Length: 7.37 ft Casing Radius: 0.0833 ft Well Radius: 0.34 ft 1 SOLUTION I Aquifer Model: Unconfined Solution Method: Bouwer-Rice K = 0.0007576 cm/sec y0 = 1.094 ft I 10. _ I 1 : CI) I aEi 0.1 .- 0 _ c; a 0 I Do - 0.01 =- 1 -I 0.001 rir , lir irliiir miliiii I 0. 180. 360. 540. 720. 900. Time (sec) IAB-12D RISING HEAD TEST I PROJECT INFORMATION Company: MACTEC Client: Duke Energy I Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-12D ITest Date: 12/3/10 AQUIFER DATA ISaturated Thickness: 81.99 ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA (AB-12D) I Initial Displacement: 2.201 ft Static Water Column Height: 81.99 ft Total Well Penetration Depth: 79.99 ft Screen Length: 5. ft Casing Radius: 0.0833 ft Well Radius: 0.16 ft I SOLUTION I Aquifer Model: Confined Solution Method: Bouwer-Rice K = 0.0008611 cm/sec y0 = 1.584 ft I I 1 10. - i i i i i i i i i I I i I I I I I I i r i i - I , E w 1. — — II 0 Q _ _ 0 •6.0 Q ..0000❑ - I 1 0.1 1111111111 IIIIII11111111 I 0. 800. 1.6E+3 2.4E+3 3.2E+3 4.0E+3 Time (sec) I AB-11 RISING HEAD TEST I PROJECT INFORMATION Company: MACTEC Client: Duke Energy I Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-11 ITest Date: 12/2/10 AQUIFER DATA ISaturated Thickness: 15.26 ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA(AB-11) I Initial Displacement: 2.264 ft Static Water Column Height: 9.74 ft Total Well Penetration Depth: 7.74 ft Screen Length: 5. ft Casing Radius: 0.0833 ft Well Radius: 0.16 ft I SOLUTION I Aquifer Model: Confined Solution Method: Bouwer-Rice K = 1.531 E-5 cm/sec y0 = 1.549 ft 1 I 1 10. _ I I 1 I I I I I I I I I I = T I 1. 1 Z c a> E 0.1 - I 8 _ a co 0 - Il - t° DEI 0 0 ❑ 0.01 .7- m ❑❑ ° - ❑ ❑ 0 ❑ ❑ 0 - I I I 0.001 I 1 I I I 1 I I I I I I i I I I I I I 1 I 1 ID. 400. 800. 1.2E+3 1.6E+3 2.0E+3 Time (sec) 1 AB-10S RISING HEAD TEST I PROJECT INFORMATION Company: MACTEC Client: Duke Energy I Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-105 ITest Date: 12/2/10 AQUIFER DATA ISaturated Thickness: 16.11 ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA (AB-10S) I Initial Displacement: 1.88 ft Static Water Column Height: 8.89 ft Total Well Penetration Depth: 8.89 ft Screen Length: 8.89 ft Casing Radius: 0.083 ft Well Radius: 0.34 ft I SOLUTION IAquifer Model: Unconfined Solution Method: Bouwer-Rice K = 0.0008386 cm/sec y0 = 1.481 ft I 1 10. _ 1 1 1 1 1 I I I I 1 1 1 1 1 1 I I 1 I 1 I 1 1 1 I - �- 0.1 o - .•o co ° ❑ ❑ Da 0 0.01 _ - 00 ° I 0.001 - O - 1.0E-4 ' ' 1 I I I 1 1 I tit 1 I I l t 1 I 1 1 I I I 0. 400. 800. 1.2E+3 1.6E+3 2.0E+3 Time (sec) I AB-10D RISING HEAD TEST IPROJECT INFORMATION Company: MACTEC Client: Duke Energy I Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-10D ITest Date: 12/2/10 AQUIFER DATA ISaturated Thickness: 20. ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA (AB-10D) I Initial Displacement: 2.18 ft Static Water Column Height: 53.51 ft Total Well Penetration Depth: 17.5 ft Screen Length: 5. ft Casing Radius: 0.083 ft Well Radius: 0.16 ft I SOLUTION IAquifer Model: Confined Solution Method: Bouwer-Rice K = 0.0007522 cm/sec y0 = 1.32 ft 10. i i t i i t i i i i i i i I I i _ 1 1. L 1 m . • 1 _ d ❑ `1) 0.01 0 ° ° ❑ °° o ° 000 1 0.001 ❑ _ 1.0E-4 � I I I 1 0. 600. 1.2E+3 1.8E+3 2.4E+3 3.0E+3 Time (sec) AB-9D RISING HEAD TEST IPROJECT INFORMATION py: Client: Duke Energy Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-9D ITest Date: 12/2/10 AQUIFER DATA Saturated Thickness: 82. ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA (AB-9D) ' Initial Displacement: 2.358 ft Static Water Column Height: 100.5 ft Total Well Penetration Depth: 99.48 ft Screen Length: 5. ft Casing Radius: 0.083 ft Well Radius: 0.16 ft SOLUTION Aquifer Model: Confined Solution Method: Bouwer-Rice K = 0.001296 cm/sec y0 = 1.87 ft I I 1 10. _ I I I 1 I I 1 1 1 1 I 1 1 1 1 1 1 1 I 1 1 1 1 _ - - i J 1 v C g 1 co U — U b I 0.1 _ ❑° ❑ — _ ❑ 0 ❑ ❑ ❑ 00.01 ' it , I I IIIII 14 i I ID. 400. 800. 1.2E+3 1.6E+3 2.0E+3 Time (sec) ' AB-14 RISING HEAD TEST IPROJECT INFORMATION py Client: Duke Energy I Project: 6228-10-5284 Location: Allen Steam Station Test Well: AB-14 I Test Date: 12/3/10 AQUIFER DATA ISaturated Thickness: 25. ft Anisotropy Ratio (Kz/Kr): 1. WELL DATA (New Well) ' Initial Displacement: 2.204 ft Static Water Column Height: 14.99 ft Total Well Penetration Depth: 10.99 ft Screen Length: 10. ft Casing Radius: 0.0833 ft Well Radius: 0.16 ft I SOLUTION I Aquifer Model: Confined Solution Method: Bouwer-Rice K = 0.0001261 cm/sec y0 = 1.419 ft I ' Appendix B - Permit Condition A (11 ) Attachment XX, Version 1 . 1 , June 15, 1 2011 I 1 A. (6)GROUNDWATER MONITORING WELL CONSTRUCTION AND SAMPLING Ii. The permittee shall conduct groundwater monitoring as may be required to determine the compliance of this NPDES permitted facility with the current groundwater Standards found under 15A NCAC 2L.0200 2. WELL CONSTRUCTION. Within 120 days of permit issuance, monitoring wells, as 1 proposed on Attachment XX,shall be installed to monitor groundwater quality. a. Monitoring wells shall be constructed in accordance with 15A NCAC 02C .0108 (Standards of Construction for Wells Other than Water Supply) and any other I jurisdictional laws and regulations pertaining to well construction. The general locations for all monitoring wells are indicated on Attachment XX. b. Within 30 days of completion of well construction, a completed Well Construction Record (Form GW-1) must be submitted for each monitoring well to Division of Water Quality, Aquifer Protection Section, 1636 Mall Service Center, Raleigh, NC 27699-1636. c. The Mooresville Regional Office, telephone number (704) 663-1699, shall approve the location of new monitoring wells prior to installation. The regional office shall be notified at least 48 hours prior to the construction of any I monitoring well and such notification to the Aquifer Protection Section's regional supervisor shall be made from 8:00 a.m. until 5:00 p.m. on Monday through Friday,excluding State Holidays. d. Within 60 days of completion of the monitoring wells, the Permittee shall I submit two original copies of a site map with a scale no greater than 1-inch equals 500 feet. At a minimum, the map shall include the following information: i. The location and identity of each monitoring well. ii. The location of major components of the waste disposal system. iii. The location of property boundaries within 500 feet of the disposal I areas. iv. The latitude and longitude of the established horizontal control monument. v. The elevation of the top of the well casing (i.e., measuring point) relative to a common datum. vi. The depth of water below the measuring point at the time the measuring point is established. vii. The location of compliance and review boundaries. viii. The date the map is prepared and/or revised. ix. Topographic contours in no more than ten(10)foot intervals I e. The above information should be overlaid on the most recent aerial photograph taken of the site. Control monuments shall be installed in such a manner and made of such materials that the monument will not be destroyed due to I activities taking place on the property. The map and any supporting documentation shall be sent to the Division of Water Quality,Aquifer Protection Section, 1636 Mail Service Center,Raleigh,NC 27699-1636. I f. The well(s) must be constructed by a North Carolina Certified Well Contractor, the property owner, or the property lessee according to General Statutes 87- 98.4. If the construction is not performed by a certified well contractor, the I property owner or lessee, provided they are a natural person, must physically perform the actual well construction activities. I NC0004979—Allen Steam Station Groundwater Monitoring Plan Page 1 of 4 6/15/11 I 1 1 g. The monitoring wells shall be regularly maintained. Such maintenance shall include ensuring that the well caps are rust-free and locked at all times, the outer casing is upright and undamaged,and the well does not serve as a conduit for contamination. 3. GROUNDWATER SAMPLING AND COMPLIANCE. Monitoring wells shall be sampled after construction and thereafter at the frequencies and for the parameters as specified in Attachment XX. All maps, well construction forms, well abandonment forms and ' monitoring data shall refer to the permit number and the well nomenclature as • provided on Attachment XX. a. Per 15A NCAC 02H .0800, a Division certified laboratory shall conduct all laboratory analyses for the required effluent, groundwater or surface water 1 parameters. b. The measurement of water levels shall be made prior to purging the wells. The depth to water in each well shall be measured from the surveyed point on the top of the casing. The measurement of pH shall be made after purging and prior to sampling for the remaining parameters. c. The measuring points (top of well casing) of all monitoring wells shall be surveyed to provide the relative elevation of the measuring point for each monitoring well. The measuring points (top of casing) of all monitoring wells shall be surveyed relative to a common datum. d. For monitoring wells that are not located at the Compliance Boundary, the Compliance Monitoring Form (GW-59CCR) is not required. However, predictive calculations or modeling shall be submitted to the Regional Office annually(i.e. 1 12 months after permit issuance) demonstrating groundwater quality standards at the Compliance Boundary. e. Two copies of the monitoring well sampling shall be submitted on a Compliance Monitoring Form (GW-59CCR), and received no later than the last working day of the month following the sampling month. Copies of the laboratory analyses shall be kept on site, and made available upon request. The Compliance Monitoring Form (GW-59CCR) shall include this permit number and the appropriate well identification number. All information shall be submitted to the following address: 1 Division of Water Quality Information Processing Unit 1617 Mail Service Center Raleigh, North Carolina 27699-1617 f. For groundwater samples that exceed the ground water quality standards in 15A NCAC 02L.0202,the Regional Office shall be contacted within 30 days after submission of the groundwater monitoring report; an evaluation may be required to determine the Impact of the waste disposal activities. Failure to do so may subject the permittee to a Notice of Violation,fines,and/or penalties. ' NC0004979—Allen Steam Station Groundwater Monitoring Plan Page 2 of 4 6/15/11 I 4. COMPLIANCE BOUNDARY. The compliance boundary for the disposal system shall be ' specified in accordance with 15A NCAC 02L .0107(a). This disposal system was individually permitted prior to December 30, 1983;therefore, the compliance boundary is established at either 500 feet from the effluent disposal area, or at the property boundary, whichever is closest to the effluent disposal area. An exceedance of groundwater standards at or beyond the compliance boundary is subject to remediation action according to 15A NCAC 02L.0106(c)as well as enforcement actions in accordance with North Carolina General Statute 143-215.6A through 143-215.6C. 1 I 1 1 1 I I I NC0004979—Alien Steam Station Groundwater Monitoring Plan Page 3 of 4 6/15/11 I I ATTACHMENT XX— GROUNDWATER MONITORING PLAN I Permit Number: NC0004979 Version 1.1 IWELL PARAMETER DESCRIPTION FREQUENCY NOMENCLATURE IMonitoring Wells: Antimony Chromium Nickel Thallium AB-1R,AB-4,AB-4D, Arsenic Copper Nitrate Water Level *AB-9S,*AB-9D,*AB- I lOS,*AB-IOD,AB-11D, Barium Iron pH Zinc March,July, AB-12S,AB-12D,AB-13S, Boron Lead Selenium November AB-13D,AB-14D Cadmium Manganese Sulfate Chloride Mercury TDS I Note 1: For locations of monitoring wells,see attached map. I Note 2: Monitoring revisions may be considered,as applicable,if there are no significant detections prior to permit renewal. 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''. .. . ....... ... 4.•,pa, .4.• te 4444.42 I..4.4•-t 44 •- C Appendix C — Monitoring Well Locations 1 1 1 002096-378017 Allen Steam Station Monitoring Well Locations Description Northing Easting Elevation Description Elevation TOP OF PVC AB-1R 529135.87 1396853.87 675.86 MAG NAIL SET AR1-B 673.57 TOP OF PVC AB-4S 525731.58 1396723.77 650.46 MAG NAIL SET AB-4 647.94 TOP OF PVC AB-4D 525728.26 1396717.97 649.17 MAG NAIL SET AB-4D 646.98 TOP OF PVC MW-9S 527138.02 1400630.95 582.73 MAG NAIL SET MW-9S 580.54 TOP OF PVC MW-9D 527134.58 1400631.50 582.72 MAG NAIL SET MW-9D 580.37 TOP OF PVC MW-10S 524935.45 1400636.10 575.05 MAG NAIL SET MW-10S 572.61 TOP OF PVC MW-10D 524935.07 1400639.77 574.97 MAG NAIL SET MW-10D 572.41 TOP OF PVC MW-11 523285.10 1399059.61 618.07 MAG NAIL SET MW-11 615.39 TOP OF PVC MW-12S 524228.86 1396538.86 651.69 MAG NAIL SET MW-12S 649.64 TOP OF PVC MW-12D 524231.41 1396539.93 651.75 MAG NAIL SET MW-12D 649.71 ' TOP OF PVC MW-13S 526178.49 1397490.13 648.72 MAG NAIL SET MW-13S 645.98 TOP OF PVC MW-13D 526169.12 1397488.65 648.54 MAG NAIL SET MW-13D 645.89 TOP OF PVC MW-14 527206.47 1396716.58 641.80 MAG NAIL SET MW-14 639.36 Note1:Coordinates shown are based on the North Carolina State Plane Coordinate System Note2: Horizontal Datum of NC Grid NAD 1983 (NSRS 2007) Note3: Elevations shown are referenced to the NAVD 88 vertical datum Note4:Coordinates and elevations shown are in U.S.Survey Foot ' Note5: Coordinates and elevations shown only for as-built wells as requested by NCDENR Note6: Mag nails set in concrete base of each well for future elevation checks Note7:Survey information provided by Duke Energy. 1 • 1 1