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Home My WebLink AboutNC0038377_Powell Expert Report - Mayo_20160630Expert Report of Robert L. Powell Ph.D., P.E. Mayo Steam Electric Plant Roxboro, NC In the matter of State of North Carolina ex. rel. North Carolina Department of Environmental Quality vs. Duke Energy Progress, LLC. Prepared for: Hunton & Williams, LLP Charlotte, NC Prepared by: Ramboll Environ US Corporation Tampa, Florida Date: June 30, 2016 Project Number: 25-39485A ENVIRON Contents Page 1 Introduction and Summary of Opinions 1 2 Qualifications and Experience 3 Materials Considered 4 Explanation and Basis for Opinions 4.1 Opinion 1 4.2 Opinion 2 4.3 Opinion 3 4.4 Opinion 4 4.5 Opinion 5 3 4 5 5 5 7 8 9 5 Signature 12 Ramboll Environ 1 Introduction and Summary of Opinions I have been retained by Hunton & Williams, LLP on behalf of its client, Duke Energy Progress, LLC ("Duke Energy") to conduct an independent evaluation and provide certain expert opinions in response to a lawsuit filed by the state of North Carolina in the matter of State of North Carolina ex. rel. North Carolina Department of Environmental Quality and Roanoke River Basin Association (plaintiffs) vs. Duke Energy Progress, LLC. The opinions I have formed and offer herein are related to hydrologic/hydrogeologic conditions at Duke Energy's Mayo Steam Electric Station in Roxboro, North Carolina (the "Mayo Station" or "Site") and the appropriateness of measures to manage and a close an ash management facility on the property in compliance with the requirements of the state Coal Ash Management Act of 2014 (CAMA), and to remedy alleged violations of state laws related to discharges to ground water and surface water systems. In order to comply in part with the requirements of the CAMA, Duke Energy completed and filed a Comprehensive Site Assessment Report (CSA) with the North Carolina Department of Environment and Natural Resources (NCDENR) on September 2, 2015 (SynTerra; 2015a). This CSA reported on the findings of an assessment of environmental conditions on the Mayo Station property, focusing specifically on the impacts, if any, from the past and current onsite management of coal ash on underlying soil, ground water and surface water resources.' The scope of this CSA included extensive subsurface investigations of soil and ground water conditions and water quality testing of ground water and surface waters on and adjoining the Mayo Station property. Subsequently Duke Energy also prepared and filed a Corrective Action Plan, Part 1 with the NC Department of Environmental Quality2 dated December 1, 2015 (SynTerra; 2015b) and a Corrective Action Plan, Part 2 dated February 29, 2016 (SynTerra; 2016) in which it reported on its evaluation of potential remedial alternatives to address releases of constituents of coal ash to underlying ground water systems as found and reported in the CSA. The remedial measures evaluated in the CAP reports ranged from No- Action (essentially leaving current ash management units in place under their then -current condition) to in -place capping, and/or removal of the current ash management units, with reburial of the ash in a new lined landfill. The CSA report, and subsequent Corrective Action Plan reports and monitoring data, form the primary body of information that describes onsite environmental conditions and the performance of remedial alternatives for the Mayo Station property that I have considered. Based on my review of documents and related information in this case I have reached the following general opinions: Opinion 1: The environmental investigations performed by Duke Energy at the Mayo Station pursuant to the CAMA and the prior compliance monitoring programs conducted pursuant to its state operating permits provide a sufficient volume of scientific knowledge to define the general nature of the hydrogeologic systems that underlie the Mayo Station property, the impacts of ' Coal ash is a waste byproduct from Duke Energy's onsite combustion of coal to generate electrical power. 2 Prior to September 18, 2015, the NCDEQ was referred to as the North Carolina Department of Environment and Natural Resources (NCDENR). Ramboll Environ seepage from the onsite ash management unit on ground water and surface water quality, and to support the closure planning of the onsite ash management unit. Opinion 2: Ground water beneath the Mayo Station property originates primarily from the local, onsite infiltration of rain water into native soil and process water that infiltrates through the current ash management unit. Ground water beneath the site ultimately migrates into a surface channel (Crutchfield Branch) that originates on the property and flows to the north, or to the east as a broad area of seepage along the boundary with the Mayo Reservoir, which borders the property. Opinion 3: Seepage of water from the onsite ash management unit has caused the release of certain Constituents of Interest (COls) to the shallow ground water at concentrations that exceed the NCDEQ 2L water quality standards in localized areas beneath and immediately downgradient of the ash management unit. Certain of these COls have migrated downgradient, generally to the north towards Crutchfield Branch. Seepage from toe drains and other surface seeps at the base of the dam that forms the ash management unit also flow into Crutchfield Branch. Such discharges have not and should not cause any exceedance of applicable surface water standards in Crutchfield Branch or other downstream surface waters. Opinion 4: The presence of COls in ground water beneath the Mayo Station property poses no risk to the use of ground water pumped from residential supply wells on neighboring private properties for drinking water supply or to the quality of water in Mayo Reservoir. Opinion 5: A substantial level of control of seepage from the ash management unit can be achieved by the use of appropriate and conventional engineering controls, including the placement of multi -media caps over closed portions of the ash management unit and the collection and treatment of seepage that has been found to be discharging from the toe drains at the base of the earthen dams that form the unit, or otherwise from natural, discrete seeps that have formed in low areas along the base of the dam or bordering Crutchfield Branch. Such controls should substantially reduce the overall release of COls into ground water and ultimately into Crutchfield Branch over the long term, providing additional assurance of continued achievement of surface water quality standards. My qualifications as an expert in this case are provided in Section 2 of this report. The materials I have relied on in formulating my opinions are identified in Section 3. The bases for and detailed explanation of my opinions are presented in Section 4. I am compensated by my employer, Ramboll-Environ US Corporation (Ramboll-ENVIRON), for my services and expenses on this matter at my normal hourly compensation rate. Ramboll- ENVIRON bills Duke Energy at a rate of $300/hour for these services. 2 Ramboll Environ 2 Qualifications and Experience I am a Principal of Ramboll-Environ US Corporation ("Ramboll-Environ") in Tampa, Florida. Ramboll-Environ (formerly ENVIRON International Corporation ("ENVIRON")) is an international consulting firm that provides scientific, engineering and strategic risk management services to clients in the public and private sectors. ENVIRON was formed in 1982, and in December 2014, merged with Ramboll. The combined, Ramboll-Environ has nearly 300 offices and over 12,000 employees worldwide. I am a practicing professional engineer, 3 hydrologist and hydrogeologist. I received a Ph.D. in Civil Engineering (Groundwater Hydrology) in 1983. 1 received an M.S. in Civil Engineering (Water Resources) in 1977. 1 received a B.S. in Civil Engineering (Environmental Engineering) in 1973. All degrees were received from the University of Maryland, College Park. I have approximately 40 years of experience as a practicing consultant in the fields of environmental engineering, surface and ground water hydrology, hazardous waste management, contaminated site investigation/remediation, risk assessment, and environmental risk management. This experience includes professional consulting services at many of the largest solid waste management facilities throughout the United States that are regulated under federal and state environmental statutes. My recent work as an expert included consulting services at two large coal ash management facilities in the state of Maryland, focusing on issues of the impacts to underlying and adjoining ground water/surface water systems and the efficacy of closure alternatives that had been implemented at the sites. I have also conducted environmental investigation, and evaluated corrective action requirements at numerous industrial and commercial facilities that generate solid/hazardous wastes and other regulated materials for federal, state and private clients. These have included facilities that have undergone closure under RCRA, TSCA, CERCLA, and related state regulatory programs. I have previously been qualified as an expert and testified in United States federal and state courts in the fields of ground water hydrology, environmental investigations and remediation planning, environmental risk management, and cost allocation/National Contingency Plan (NCP) consistency under CERCLA regulations. 3 My currently active PE license is in the state of Florida (No. 64379) where I currently reside and work. Ramboll Environ 3 Materials Considered The opinions set forth in this report are based on my approximately 40 years of experience in consulting engineering as well as my formal academic training as an environmental engineer and hydrologist/hydrogeologist. In forming my opinions, I considered observations I made during my visit to the Site on June 7, 2016 and information concurrently provided by Duke personnel, along with information from certain documents that describe the conditions of the Mayo Station property, as identified below, which documents were provided to me at my request by counsel. I also reviewed and considered the reports and opinions of the opposing experts in this matter (Mr. Mark Hutson and Dr. Robert Parette). Specifically, I reviewed and considered the following Site and case related documents: Comprehensive Site Assessment Report, Mayo Electric Steam Plant; SynTerra; September 2, 2015[a]. Corrective Action Plan, Part 1, Mayo Electric Steam Plant; SynTerra; December 1, 2015[b]. Corrective Action Plan, Part 2, Mayo Electric Steam Plant; SynTerra; February 29, 2016. Expert Report of Mark Hutson, PG; Mayo Electric Steam Plant, Roxboro, NC; February 2016. Expert Report of Mark Hutson, PG; Mayo Electric Steam Plant, Roxboro, NC, Addendum No. 1; May 2016. Opinions on the Appropriateness of Monitored Natural Attenuation in Conjunction with Cap -In - Place at the Mayo Steam Station, Roxboro, NC; Robert Parette, PhD, P.E.; May 13, 2016. NPDES Permit No. NC0038377 (Exhibit 12 to the Complaint) Emergency Action Plan (EAP), Duke Energy Mayo Plant, Mayo Lake Dam, May 16, 2016 Notice of Deficiency Re: Mayo Lake Ash Dam; NCDENR; August 11, 2014. Water quality data for seeps and surface water, Mayo site. I reserve the right to amend or supplement my opinions if additional information becomes available. Ramboll Environ 4 Explanation and Basis for Opinions 4.1 Opinion 1 The environmental investigations performed by Duke Energy at the Mayo Station pursuant to the CAMA and the prior compliance monitoring programs conducted pursuant to its state operating permits provide a sufficient volume of scientific knowledge to define the general nature of the hydrogeologic systems that underlie the Mayo Station property, the impacts of seepage from the onsite ash management unit on ground water and surface water quality, and to support the closure planning of the onsite ash management unit. During the 2015 CSA investigation, extensive numbers of soil borings and monitoring wells were drilled and/or constructed on the Mayo Station property to investigate subsurface hydrogeologic conditions. Samples of soil cutting were collected for physical/chemical examination, ground water and surface water samples were collected and chemically tested, aquifer hydraulic tests were performed on multiple wells from each of the identified ground water zones (i.e. the saprolite, transition and the bedrock units), and water level and water quality measurements were performed in onsite wells. Collectively this body of field investigations has provided a comprehensive database that describes the natural geology and hydrology of the Mayo Station property and from which a Conceptual Site Model of the underlying ground water system, and its interaction with overlying surface waters, can be formed. The level of investigation in this instance is on par, in my nearly 40 years of experience, with comparable investigations I have performed at some of the most complex waste sites under federal and state environmental regulations (e.g. CERCLA or RCRA). The resulting knowledge that has been gained is sufficient to perform the initial screening and evaluation of options for future management of the ash management unit on the Mayo Station property pursuant to CAMA. To the extent that additional data needs are identified in the course of the ongoing remedial evaluations, focused data collection programs are likely to occur as these analyses progress to remedial design. This is a normal course for such evaluations and does not diminish the comprehensive nature of the work already performed under such a short time -frame. 4.2 Opinion 2 Ground water beneath the Mayo Station property originates primarily from the local, onsite infiltration of rain water into native soil and process water that infiltrates through the current ash management unit. Ground water beneath the site ultimately discharges into a natural surface channel (Crutchfield Branch) that originates on the property and flows north, or as a broad area of seepage along the boundary with the Mayo Reservoir, which borders the property to the east (see Figure ES-1 of the CSA report; SynTerra, 2015a). The extensive geologic and hydrologic data that has been derived from the onsite drilling program and documented in the CSA report demonstrates that the Mayo Station property is underlain by the typical saprolitic soils and fractured bedrock that are characteristic of the mid - Atlantic Piedmont region. Shallow soils are formed by the in -place weathering of native rocks into a relatively fine grained matrix of clayey soil with varying amounts of intermixed silts, sand and rock fragments. Beneath this soil is a transitional zone of less weathered but typically highly fractured rock at the base level of the saprolite zone, with varying amounts of infilled soils in the 5 Ramboll Environ fractures. Deeper still is native fractured bedrock, 4 where the degree of fracturing typically diminishes with greater depth. In this type of geology, and on the Mayo Station property, subsurface water principally derives from the local infiltration of rainwater at the ground surface and the subsequent percolation of this infiltration into successive deeper soil and rock layers. The amount of natural recharge in unpaved areas of the Site is in the range of 6-8 inches/year. As water percolates through the subsurface, it generally follows a downward pathway through the soil and rock fractures towards lower elevations. Ground water has also historically been added to the Site in the form of infiltration and seepage from the ash management unit, where ash has been historically deposited as a wet slurry and storm water that accumulated inside the ash management unit. The ash management unit was originally formed by construction of an earthen dam across the valley that formed Crutchfield Branch, a natural drainage channel system that originates on the Mayo Station property. The dam created an impoundment into which a wet ash slurry was pumped. This valley was and is a natural collection area for surface water runoff and shallow ground water on the Site. As the ash management unit became increasing filled, ground water continued to flow through subsurface layers beneath the ash and ultimately to the north into the natural open channel of Crutchfield Branch downstream of the dam. Based on my observations during my site visit on June 7, 2016, the water discharging from the ash management unit dam into Crutchfield Branch amounts to 3-5 gpm from each of two toe-drain/seepage areas. The vast majority of the water otherwise entering the ash management unit is released as surface water that flows through a polishing pond and then a NPDES permitted outfall into a surface channel leading to Mayo Reservoir. As ground water and infiltration flows deeper into the ground, there is a tendency to flow laterally down slope along bedding planes in the soil, or fractures in the transition zone or bedrock, towards surface drainage features. Most prominent in this regard is Crutchfield Branch, which crosses the Mayo Station property from the south to north, more or less bifurcating the property. The emergence of ground water by drainage into this natural drainage may be in the form of discrete seeps (or springs), or as a much broader and diffuse inflow as base -flow along the streambed. This flow of water is apparent in the ground water level data collected during the CSA (see Figures 6-9 and 6-10 of the CSA report; SynTerra, 2015a) and also in seeps that observed have formed along the open channel north of the dam along with the steady flow of seepage from the toe drains at its base. As ground water flows into the topographically low area to the north of the dam, higher pressures found in deeper wells in the transition and bedrock zones will force water to the surface, causing it to discharge through the creek -bed and thus become part of the surface base -flow in Crutchfield Branch. Ground water level data reported in the CSA are consistent with this generalized interpretation of the ground water flow system. Ground water beneath the eastern -most portions of the property (generally from the rail -line spur eastward) flows to the east and discharge as a broad seepage front into Mayo Reservoir. 4 Rock types reported in this bedrock zone are primarily metamorphic in origin with varying degrees of fracturing. 6 Ramboll Environ This discharge is not expected to be a source of any COls to the reservoir that would be regulated under the CAMA, as there are no ash management units in this area of the property. 4.3 Opinion 3 Seepage of water from the onsite ash management unit has caused the release of certain Constituents of Interest (COls) to the shallow ground water at concentrations that exceed the NCDEQ 2L water quality standards in localized areas beneath and immediately downgradient of the ash management unit. Certain of these COls have migrated downgradient, generally to the north towards Crutchfield Branch. Seepage from toe drains and other surface seeps at the base of the dam that forms the ash management unit also flow into Crutchfield Branch. Such discharges have not and should not cause any exceedance of applicable surface water standards in Crutchfield Branch or other downstream surface waters. The interpretation of the precise extent of COI migration from the ash management unit is complicated by their natural occurrence in ground water and the relatively limited number of tests of water samples from each well that could be performed under the tight project schedules mandated by the CAMA regulations. COls currently identified in groundwater beneath the ash management unit above NCDEQ 2L standards include antimony, arsenic, barium, boron, cobalt, iron, manganese, pH, thallium, TDS, and vanadium. Boron is the most conservative and mobile of these COIs, and best defines the subsurface extent of the migration of ash -derived constituents to the north along the Crutchfield Branch drainage. Based on repeated testing of water from investigative monitoring wells and surface water in the creek, boron migrating in ground water ultimately fully discharges into Crutchfield Branch from toe -drain and seeps at the base of the dam or otherwise as base -flow into the channel reach below the dam that extends down to the vicinity of Mayo Lake Road (the facility property boundary and ground water compliance boundary). This conclusion is supported by the absence of boron in wells further downgradient (MW-16S, D, and BR) and the presence of boron in the surface flow of Crutchfield Branch in this area (see Tables 9-3 and 10-1 of the CSA report; SynTerra 2015a). By the time this ground water to surface inflow has reached the NC -VA state boundary (approximately 1000 feet to the north), boron concentrations measured below the dam have already been substantially (more than 60%) diluted by the inflow/mixing of clean ground water further downstream along the creek bed (see Table 9-3 of the CSA report; SynTerra, 2015a). Because many of the other COls identified at the Site occur naturally in ground water and there is only limited data to define the range of background concentrations, boron currently serves as the most reliable, conservative "tracer" to interpret the presence of ash -derived COls in ground water. Boron is a soluble and mobile constituent of the ash that has not been generally detected 5 in background monitoring wells located upgradient of the ash management units on the Mayo Station property. Simply stated, if boron is not concurrently found in monitoring wells that otherwise have reported COI exceedances of NCDEQ 2L standards, it is unlikely such exceedances derive from seepage/migration from the ash management areas. 5 The typical detection limit for boron is 50 ug/L, which is sufficiently sensitive to serve as a reliable tracer for COI migration from ash management areas. Ramboll Environ One of the other COls, manganese, was also found to be mobile in ground water and is currently discharging into the Branch via seeps at the base of the dam or as diffuse seepage through the streambed. Manganese has been found in background areas of the Site and is a natural constituent of ground water in the area. Its presence in ground water, therefore, does not derive solely from migration from the ash. The discharge of manganese into Crutchfield Branch below the dam has not and should not cause any exceedance of applicable surface water standards in Crutchfield Branch or the downstream Mayo Creek. Other Cols (e.g. antimony, cobalt, iron, vanadium) have also been detected in areas upgradient of the ash management unit at concentrations in excess of NCDEQ 2L standards (see Figures 10-2, 10-3, and 10-4 of the CSA report; SynTerra, 2015a). These COls are likely naturally derived in ground water from the in -place weathering of native rocks. They are also found beneath the ash management unit and are constituents of the ash, but have not been found in downstream areas, beyond Mayo Lake Road, in the concurrent presence of boron. Because they are also naturally occurring, the limited testing of ground water thus far for these types of natural constituents presents a particular challenge when attempting to define the outer boundary of ash -related impacts. Based on the limited spreading of these types of COls in ground water downgradient of the dam, however, it is apparent that the natural geochemical reactions (adsorption, precipitation, mineral complexing) in the soil and shallow ground water zones underlying the ash management unit are significantly attenuating the migration of these constituents as compared to boron. Duke Energy is required to maintain a minimum surface release into the Mayo Creek channel below Mayo Reservoir of 2 cubic feet per second (cfs), which flow will substantially dilute (approximately 100 fold) any uncollected seepage that emerges from the toe drains or seeps below the ash management unit dam into Crutchfield Branch, once these drainage channels merge a short distance downstream. This dilution further adds to the factor of safety for protection of surface water supplies in more -distant downstream areas. It is clear from my review of the ground water and seep data that the more mobile COls have migrated and will continue to migrate from the ash management unit at levels that are causing exceedances of NCDEQ 2L standards in ground water immediately beneath and downgradient of the dam, but only within the current compliance boundary. Most of the less mobile ash -related COI show much less migration. The migration of COls from the ash is facilitated by a permanent water table within the ash deposits that is caused by the pumping of process water to the unit, the local infiltration of rainwater through the unit and to a lesser extent the lateral ground water inflow from adjoining higher areas. These COls discharge into Crutchfield Branch on the Mayo Station property and become part of its surface water base -flow. Surface water testing during the CSA investigations demonstrate that migration of COls into Crutchfield Branch is not causing any exceedances of NCDEQ 2B surface water standards. 4.4 Opinion 4 The presence of COls in ground water beneath the Mayo Station property and the migration of COls in ground water to the north into Crutchfield Branch poses no risk to the local use of water on neighboring private properties for drinking water supply. 8 Ramboll Environ Information provided in Section 4.2 of the CSA report (SynTerra; 2015a) indicate there is no onsite use of ground water for drinking water supply on the Mayo Station property. All potable water used by onsite employees is supplied by the local municipality. There are some private water supply wells located on adjoining or neighboring properties to the south which is far (more than 0.5 miles) removed and upgradient from the ash management unit. Portions of this area are also serviced by municipal water from the City of Roxboro. The onsite movement of groundwater is to the north away from these private wells. COls found beneath the ash management unit should pose no threat to these potable water systems. The property immediately north of Mayo Lake Road along Crutchfield Branch is undeveloped and used for agriculture. I understand there are no supply wells on this property. I also understand that there is no use of surface water from Crutchfield Branch or nearby downstream surface channels for drinking water supply. 4.5 Opinion 5 A substantial level of control of seepage from the ash management unit can be achieved by the use of appropriate and conventional engineering controls, including the placement of a multi- media cap over closed portions of the ash management unit and the collection and treatment of seepage that has been found to be discharging from the toe drains at the base of the earthen dams that forms the unit, or otherwise from natural, discrete seeps that have formed in low areas along the base of the dam or bordering Crutchfield Branch. Such controls should substantially reduce the overall release of COls into ground water and ultimately into Crutchfield Branch over the long term, providing additional assurance of continued achievement of surface water quality standards. Water has historically entered the ash management unit from the discharge of water as a carrying media for the slurried ash pumped into the unit for disposal; the natural accumulation of rainfall onto, and local onsite runoff into, the unit; and to a lesser extent by the lateral subsurface movement of shallow ground water from surrounding higher ground towards the topographically lower valley that was impounded/filled. The slurried ash appears to be the largest source of water currently reaching the unit,, followed by rainfall/surface runoff.' Water in the ash management unit is treated by settling solids/particulates in the large pond on its north side and then in a polishing pond before it is discharged through an NPDES permitted outfall into Mayo Reservoir. Based on my observations while visiting the Site, the majority of the current surface water base - flow during dry (non -storm) conditions in Crutchfield Branch above Mayo Lake Road is derived from seepage flowing from the toe drains and natural seeps into two discrete channels below the dam which merge to form Crutchfield Branch. The combined flow from these drains/seeps is approximately 5-10 gpm, and is caused by the current significant impoundment of water behind the dam. 8 Testing of surface water chemistry below these seeps and at the state boundary a I understand Duke Energy is planning to end this practice in the next few years and it will be replaced by a dry ash management system. ' Annual rainfall amounts to about 47 inches/year (see CSA report, Section 2.7; Synterra, 2015a). 8 This rate of flow would diminish after the impoundment is drained and the ash management unit is covered to prevent infiltration. 9 Ramboll Environ short distance downstream as reported in the Table 9-3 of the CSA report (SynTerra, 2015a), demonstrates that even with the current rate of seepage, the water quality in Crutchfield Branch meets NCDEQ 2B standards, in compliance with the condition A(8) of the current NDPES permit. Many of the COls found in ground water beneath the unit (e.g. arsenic) are attenuated before this seepage reaches the stream, but the more conservative and mobile COls such as boron are still present. Capture/control of this seepage using standard engineered drainage equipment would substantially eliminate the COls that are reaching the Crutchfield Branch drainage channel. Based on my discussions with Duke Energy personnel during my Site visit on June 7, 2015, Duke Energy is planning to install a collection box/french drain below each toe drain later this year; the accumulated water will then be pumped back up into the ash management unit. Such controls, along with the natural attenuation of COls by adsorption and co -precipitation in the underling transition and bedrock zones, will substantially reduce the release of COls into the Crutchfield Branch over the near term, thereby providing additional assurance of continued achievement of surface water quality standards while the ash management unit remains open. I understand Duke Energy intends to eventually close the ash management unit by draining the unit, lowering the height of the earthen dam approximately by half, and regrading the ash in the unit to provide for the natural flow of surface runoff towards the dam, where it will be conveyed into downstream drainage channel by sheet and channelized flow. The regraded ash will then be covered with a multi -media cap. Such a cap represents the current state of the art in moisture control and would virtually eliminate infiltration as a source of future water entering the closed ash management unit. In effect the ash basin will be converted from a wet pond into a dry grass -covered pasture. Modeling analyses in the CAP 1 and 2 reports (SynTerra 2015b and 2016) show that the net effect of a cap would be to lower the water table in the ash, but some saturated ash would likely remain in the deepest part of the unit due to the continued lateral inflow of shallow ground water. Such inflow could prove difficult to completely control upstream of the unit given its size and the surrounding topography, and additional measures to intercept/treat/recycle seepage and toe drain discharge below the reconfigured dam may prove to be necessary if such discharges are not otherwise permitted under the Site's NPDES permit.9 Such measures could be readily deployed using standard engineered drainage equipment. Working in concert with the capping system and the natural attenuation of COls in the underlying transition and bedrock zones, this type of unit closure would substantially add to the level of protection of the downstream surface water quality in Crutchfield Branch. In his expert report, Dr. Parette opines that the placement of a cap over the ash management unit would cause the underlying ground water to become anoxic, creating a reducing 9 1 understand Duke Energy has submitted a modified NPDES permit application to NCDEQ that incorporates the toe drains and identified seeps below the ash management unit dam as explicitly authorized discharges under the permit. As yet, no final decision on this permit application has been made by the NCDEQ. The current permit (NC0038377) precludes "direct" discharges from the ash pond to Crutchfield Branch (I am unaware of any such discharges at present), but seemingly anticipates that there could be, and does not preclude "any indirect discharges from the ash pond" provided they do not cause a violation of water quality standards in Crutchfield Branch [see Section A(8) of the permit]. 10 Ramboll Environ environment that would cause even greater amounts of COls to be released into ground water. This conclusion is speculative and unsupported by the Site data. Following capping, shallow ground water would continue to flow slowly beneath and through the ash beneath the cap, albeit at a slower overall recharge rate than is currently the case. This water will infiltrate into the ground in the areas along the immediate perimeter of the unit and would initially be enriched with oxygen. The subsequent movement of this water beneath the cap would continue to supply aerobic ground water to the shallowest ash layers. As the water seeps deeper through the ash and hence into deeper ground water layers, this oxygen is consumed by biotic and abiotic reactions such that a more reducing environment will then predominate in these deeper zone. My review of the current ground water monitoring data for the Site from the CSA demonstrates such reactions and conditions are already occurring and much of the deeper ground water zones beneath the ash management unit already exhibit a reducing environment. The solubility of COls in this ground water have adjusted accordingly. I am not aware of any evidence in this case, and it is mere speculation Dr. Parette's part, that the placement of caps over the ash will cause this condition to significantly deteriorate toward an even stronger reducing condition. Even if this did turn out to be the case, it could in turn trigger the conversion of sulfate already present in the water into sulfide compounds, which in turn would cause the precipitation of insoluble minerals from many of the COls found in the ground water zone today. What is indisputable, however, is that an impermeable cap will substantially reduce the volumes of water that flow through the ash under current conditions, and thereby lessen the rate of release of COls to ground water and ultimately Crutchfield Branch. The other closure alternative considered by Duke Energy in the CAP1 and 2 reports (removal of the ash management unit) was not adopted in part because the unit was inspected and found to be structurally stable,10 and capping, seepage control and MNA is believed to be effective in controlling migration of COls and at far less cost as compared to complete removal of the unit. I concur with this conclusion. The engineering controls described above should be more than adequate to protect surface water resources below the ash management unit dam, and there are no serviceable ground water resources in the area that would be threatened by the continued presence of the closed ash management unit with an effective cap and seepage control system. In my nearly 40 years of experience working on projects to close land -based solid waste management units under a range of federal and state environmental regulations (e.g. CERCLA and RCRA), I have never seen an example whereby the complete removal of a large, structurally stable solid waste unit was ordered by the supervising regulatory agency, when effective containment measures can otherwise be readily deployed to protect the environment, as is the case in this instance. The complete removal of the ash management unit at the Mayo Station is unwarranted and unnecessary. 10 Some maintenance and repair issues with the spillway piping were noted in the NCDENR's August 2014 NOD which Duke Energy is currently working with the state to correct. 11 Ramboll Environ 5 Signature The opinions in this expert report are based on my education and training, my more than 40 years of experience in environmental consulting, and the materials listed in Section. I may revise these opinions as additional information, documents, testimony, or discovery responses become available. Robert L. Powell, Ph.D., P.E. June 30, 2016 12 Ramboll Environ ENVIRON Robert L. Powell, PhD, PE Principal Tampa, Florida +1 813 628 4325 1 rpowell@environcorp.com Dr. Robert Powell has over 40 years of experience in environmental engineering and hydrogeology, with special emphasis on the investigation and management of risks related to the release of chemical contaminants into soil, surface water and groundwater systems. Specific areas of expertise include the evaluation of fate and transport of chemicals in the natural environment; investigation and remediation of chemical releases; and the development of complex models of chemical migration in natural hydrologic systems. He has provided litigation support and acted as an expert witness in state and federal courts on a range of matters related to property damage and personal injury claims from chemical releases and migration into the natural environment, cost contribution and recovery under the National Contingency Plan and environment -related bankruptcy claims and insurance recovery. "�LLIWOL 1983 PhD, Civil Engineering (Groundwater Hydrology), University of Maryland 1977 MS, Civil Engineering (Water Resources), University of Maryland 1973 BS, Civil Engineering (Environmental), University of Maryland EXPERIENCE CERCLA Remedial Investigations and Remediation Planning Dr. Powell has conducted numerous Remedial Investigations and Feasibility Studies and related remedial planning projects for private and public -sector clients under the federal Superfund and related state programs for the investigation and remediation of contaminants released into the natural environment. Representative projects include: — Completed an RI/FS of soil and groundwater conditions for a former refinery -waste disposal site in Fullerton, California, that was regulated under CERCLA by the USEPA. This work focused on the investigation and control of waste migration in shallow, perched groundwater zones and the mitigation of impacts on regional water supply aquifers. Contaminants of concern at the site included hydrocarbons, aromatics, thiophenes and metals. The RI/FS lead to the issuance of final ROD by the USEPA to close the site and restore the overlying property to beneficial use as a community golf course. Groundwater impacts were addressed by a Monitored Natural Attenuation remedy. — Served as the principal technical advisor to the PRP steering committee, composed of a number of major international oil companies, during a negotiation with the USEPA for the development of a Scope of Work to implement the final remedy for closure of the OII NPL site near Los Angeles, California. This project focused on the development of specific performance metrics and verification measures to evaluate the effectiveness of identified remedial actions in meeting specific performance goals prescribed in the final ROD for the OII site, the development of work plans for the implementation of additional investigations to facilitate remedial design, and in the negotiation of a final scope of work with the USEPA to implement closure of the site. — Directed the completion of a supplemental feasibility study for the California EPA for closure of the primary disposal area at the Stringfellow NPL site in Glen Avon, California. This project also included conducting pilot tests for the evaluation of technologies for removal of VOC and other contaminants through the use of high - vacuum extraction, and a performance review of the remedial systems in the downstream areas to control the environcorp.com Rob L. Powell, PhD, PE migration of contamination. Prior to this work, Rob served for nearly ten years as the technical advisor to the Stringfellow Advisory Community, a group representing various community and local government interests. - Prepared an analysis of the human health risks associated with emission of chemicals during the remediation of the Royal Hardage hazardous waste disposal facility in Criner, Oklahoma. The facility had served as a regional site for the disposal of hazardous liquids, sludge and solids in bulk and in drums. Waste management unit that were constructed at the facility included a hazardous waste landfill, a waste lagoon (filled with sludge and other bulk solids) and a large burial mound of liquid and solid waste in steel drums. This facility was closed under the oversight of the USEPA under the Superfund program. - Prepared an analysis of the human health risks associated with the excavation of wastes from the Hyde Park Landfill NPL Site near Niagara Falls, New York. This landfill had been used for the disposal of a wide range of hazardous liquids and sludge from the manufacturing of pesticides, solvents and other chemical intermediaries into an open pit in fractured bedrock. The site was believed to be leaking DNAPLs and other liquids into groundwater and the nearby Niagara River. The risk analysis was prepared for the USEPA and the US Department of Justice to support the negotiation with the landfill owner for the closure of the site. - Managed the completion of a major regional groundwater Remedial Investigation/Feasibility Study to address VOC contamination over a 30 square mile multi -layer aquifer system in New Brighton, Minnesota associated with releases from the Twin Cities Army Ammunition Plant. This project was completed for the Minnesota Pollution Control Agency under a cooperative agreement with the USEPA under CERCLA. - Provided regulatory support and expert reports to three major corporations in a series of negotiations with USEPA regarding CERCLA liability for groundwater contamination in the Baldwin Park Operable Unit of the San Gabriel Valley NPL site near Los Angeles. - Prepared a remedial action plan and supported negotiation with the USEPA on behalf of a PRPs group for the closure of Atlas Mine NPL site near Coalinga, California. This site was formerly an asbestos mine and ore processing facility that was a major source of asbestos -contaminated sediments discharging into the Central Valley of California. - On behalf of a PRP group, prepared pilot treatment tests and a remedial action plan to address releases of sulfuric acid and toxic metals in soil and groundwater, and supported negotiation with the SCDHEC, for the closure of the Stoller Chemical site, a former fertilizer manufacturing facility near Charleston, Sout Carolina, listed on the NPL. - Provided consulting services to Fairfax County, Virginia to oversee the investigation and cleanup of a large gasoline release from a ruptured pipeline into a new residential community. Services focused on the evaluation of applicable remedial strategies and the quantification of potential pathways for exposure from gasoline that accumulated on the underlying water table. RCRA Facility Permitting, Compliance and Corrective Action Dr. Powell maintains an active practice of permitting, compliance support, and corrective action services, including RCRA facility investigations and remedial planning projects, to companies regulated under RCRA for the treatment, storage and disposal of hazardous wastes and under the RCRA UST program. Representative projects include: - Directed the completion of a remedial investigation and remediation planning project in Culvert City, California to evaluate alternatives for the cleanup of MTBE and other gasoline constituents from the Charnock Sub -basin and to restore the use of municipal well field owned by the city of Santa Monica and the Southern California Water Company to productive use. This project involved extensive field investigations to define the nature /extent of contamination, development of regional groundwater and water quality databases, computer environcorp.com Rob L. Powell, PhD, PE modeling of groundwater flow and contaminant transport, evaluation of technologies to treat groundwater for gasoline, MTBE and tBA, and the development and evaluation of detailed remedial alternatives to restore regional groundwater quality and the use of well fields for municipal supply. The project was completed under the oversight of the USEPA under RCRA and the LARWQCB under the state water code. - Completed detailed hydrogeologic studies and analyses, designed final groundwater monitoring systems, and prepared a final groundwater monitoring program for the Laidlaw Environmental hazardous waste landfill in Pinewood, South Carolina, as part of a RCRA Part B permit application. Also completed investigation of shallow groundwater contamination and developed a control strategy to limit the migration of contamination in accordance with applicable permit requirements. During the adjudicatory hearings for the Part B permit, served as the primary expert witness for the permit applicant on hydrogeologic characterization, groundwater monitoring and landfill integrity issues. - Served as a member in an expert international (US and Canadian) panel to develop an environmental management strategy and remediation plans for Laidlaw Environmental for the control of soil and groundwater contamination at a former waste oil and solvent disposal site near Montreal, Canada. The site was used for the disposal of a range of bulk organic liquids into a former gravel -mining pit. Liquid organic wastes migrated as a DNAPL into underlying fractured bedrock zones and contaminated regional groundwater supplies. The site closure was being conducted under the supervision of the Quebec Ministry of the Environment. - Completed investigations of soil and groundwater contamination at the BKK landfill in West Covina, California, as part of a program for closure of a former hazardous waste co -disposal landfill under a RCRA Corrective Action program. The site was former used for the disposal of liquid hazardous wastes into an unlined municipal landfill area. This project was performed under the oversight of the USEPA. - Prepared hydrogeologic investigations, developed statistically based environmental sampling programs, designed and constructed groundwater monitoring systems, conducted RCRA facility investigations, developed statistically based closure plans for former hazardous waste lagoons, and provided regulatory support for negotiation of federal, state, and local permits for two major RCRA hazardous waste landfills (near Bakersfield and in the Imperial Valley) operated by Laidlaw Environmental in California. During later public and zoning hearings for the operating permits, provided testimony on the site hydrogeology and environmental monitoring programs. Also, provided turnkey groundwater compliance monitoring programs for a period of five years at both facilities. - Directed a RCRA facility investigation report and stabilization measures evaluation for soil/surface water/sediment and groundwater contamination at a precious metals manufacturing facility in Massachusetts under a consent agreement with USEPA (Region 1). This project has included extensive hydrogeologic and aquatic investigations, environmental monitoring, risk assessment and environmental fate & transport modeling to support the identification of site -related risks and developed focused stabilization measures for soil, groundwater and storm water runoff. Contaminants of concern at the site that have been the focus of this work include VOCs, metals, PCBs and radionuclides. - Prepared a RCRA facility investigation, a corrective measures study and remedial plans and specifications for the investigation of soil and groundwater contamination to support the closure of several unlined waste disposal pits at an operating hazardous waste disposal facility in central Louisiana. The facility had been used for the storage, treatment, and recovery of fuel products from waste oils and related organic liquids. Sludge from the thermal treatment (distillation) units was disposed into two unlined pits. Contamination (oil and solvents) migrated into underlying soils and groundwater. The facility was required to remove the wastes and install a groundwater remediation system as part of the implementation of a new master plan to develop a regional waste management facility. ENVIRON's services were provided to the facility owner, the largest commercial hazardous waste management facility operator in North America. environcorp.com Rob L. Powell, PhD, PE - Developed an environmental risk management program and statistical sampling design to evaluate waste classification and direct the reuse/disposal strategies for certain combustion co -product materials (gypsum and fly -ash) under federal and California state hazardous waste criteria in accordance with procedures prescribed in CCR Title 22 and 40CFR Part 261. - Completed an analysis of the performance of natural -clay liner for a wastewater storage lagoon near Barstow, California on behalf of Southern California Edison Co. to demonstrate compliance with regulations under the California Water Code. The project resulted in an agreement by the RWQCB that the pond liner systems meet the functional requirements of the liner standards under CCR Title 26. - Provided supervision and oversight of a RCRA facility assessment at a facility in Roebuck, South Carolina on behalf of the owner. Litigation/Mediation Services and Expert Testimony Dr. Powell provides litigation/mediation consulting, negotiation, and expert testimony services in cases involving the recovery of damages to property and personal injury from contaminants in the natural environment; the consistency of remedial investigations and remedial/removal actions with the requirements of the NCP, insurance cost recovery, and cost allocation. He has also testified in administrative and zoning hearings regarding environmental permitting of commercial hazardous waste facilities. Representative projects include: - Provided expert services and trial testimony in defense of Tampa Electric in a property damage/cost recovery claim related to the alleged past disposal of MGP wastes on a property in N. Miami, FL. - Provided expert services and testimony to a major oil company in defense of a NRDA claim filed by the state of NJ related to the releases of gasoline from a service station in southern NJ. - Provided expert services and testimony on behalf of a major utility in an insurance cost recovery claim related to contaminantion at numerous former MGPs on Long Island, NY. - Provided expert hydrologic services in defense of a Clean Water Act criminal investigation by the US Attorney related to the discharge of storm water and solid wastes from an operating MSW landfill in Hawaii. - Provided expert services and testimony to a major pipeline/terminal operator in defense of a claim filed by the state of NJ related to alleged releases of gasoline and MTBE at an operating terminal in Cherry Hill, NJ. - Provided expert services to a pipeline operator in defense of claims filed by a nearby landowner related to historic releases of hydrocarbons from a pump station in Danielsville, GA. - Provided expert services and testimony in a property damage case involving the release of gasoline/MTBE to groundwater in Hartford County, Maryland. - Provided expert services and testimony in an arbitration hearing related to indemnity claims for past and future costs for investigation and remediation of soil and groundwater contamination at a petroleum refinery in Louisiana. - Provided an expert report and testimony in a property damage and personal injury claim related to the release of gasoline/kerosene from a convenience store and gasoline station in northern Indiana. Subsequently provided expert reports and testimony in a mediation of claims against a past owner for contribution to site cleanup costs at five gasoline stations in northern Indiana. This work included an analysis of forensic data to quantify the relative amounts of petroleum (principally gasoline) releases that occurred prior to the sale of the properties to the current owner. - Provided an expert report and testimony on a RCRA claim and enforcement action by the USEPA related to the future closure of waste management units at a magnesium extraction facility in central Utah. environcorp.com 4 Rob L. Powell, PhD, PE - Provided expert testimony in a series of bankruptcy estimation hearings related to the value of CERCLA claims by the USEPA against the estate of a large international mining and smelting/refining company. - Provided expert testimony in an international arbitration case involving the recovery of environmental response costs for soil and groundwater contamination, environmental compliance, and worker Health & Safety pursuant to a contract indemnity. The principal environmental issues in the cases related to the release of chlorinated solvents from degreasing operation at former and operating aircraft fastener manufacturing facilities in the US and Europe. - Provided expert testimony in Louisiana state court on behalf of Clean Harbors in a citizen's lawsuit related to the closure of former waste management lagoons on a hazardous waste management facility near Baton Rogue, LA. Testimony related to the nature of current contamination in the vicinity of the closed lagoons and the potential for migration into groundwater and nearby surface waters. - Provided expert and negotiation services to Lockheed -Martin in the settlement of claims by the city of San Francisco to recovery the costs for the investigation and remediation of jet fuel releases discovered during the redevelopment of the new international terminal at the San Francisco International Airport. - Provided expert testimony services on behalf of a semiconductor client in support of settlement mediation negotiations for claims related to the release of chlorinated solvents into shallow aquifers in Santa Clara County, California. These claims were successfully mediated under the supervision of a federal District Court judge in San Jose, California. - Provided deposition and trial testimony in federal district court regarding the nature, extent and source of contamination, the allocation of future remedial costs among PRPs, and the consistency of the RI/FS and past removal actions with the National Contingency Plan at a former wood -treating plant in Charleston, South Carolina. - Prepared a cost allocation and NCP consistency analysis for a multiparty NPL site in Utica, NY involving a former manufactured gas plant, tar recovery plant, gas oil refinery, petroleum storage terminals, chemical plant, municipal harbor and dredge spoil areas. The allocation analysis formed the basis for opinions that were presented in an expert report in a cost recovery lawsuit filed in federal District Court. Subsequently provided deposition testimony in support of the allocation analysis. - Prepared an analysis of the relative contribution by various PRP sectors (industrial, commercial, municipal, small quantity generation) of hazardous substances to five municipal landfills in the New York City area as part of litigation support to various PRPs in a Superfund cost recovery action. Also analyzed the associated environmental impacts of leachate discharges from the landfills into adjoining tidal and marine estuaries. Subsequently, Dr. Powell was retained by a special master to the federal district court in New York to provide expert scientific services in support of the court's mediation of a lawsuit by private citizens against the city of New York regarding the extent of engineering controls that should be installed to control the migration of leachate into adjoining tidally controlled estuaries from a particular landfill. - Provided litigation support to a South Carolina electric and gas company in a negotiation with the city of Charleston related to the former operation of an MGP and the alleged damages to nearby properties owned by the city. This project also included an analysis of the potential increase in construction costs for a new city aquarium and marina, and a stormwater protection project, from manufactured gas plant -related contaminants in shallow soil and groundwater. - Provided litigation support and deposition testimony on allocation and NCP consistency in a CERCLA cost recovery case in Newark, California, related to the remediation of a facility undergoing redevelopment as a environcorp.com 5 Rob L. Powell, PhD, PE brownfield site, following over 100 years of operation of metals manufacturing. The case was won in summary judgment in favor of ENVIRON's client on NCP consistency issues. - Provided expert litigation support services to a major international oil company in a negotiation with the Port of San Diego related to the allocation of costs for cleanup of hydrocarbon jgasoline and diesel fuel) and coal tar releases completed by the Port as part of a Brownfields redevelopment project. - Provided expert litigation support on issues of NCP consistency for the recovery of costs related to the closure of waste lagoons at a facility manufacturing PCP -based wood treating chemicals in Newark, California. - Prepared a cost allocation analysis of former owner/operators and generators of wastes disposed of in a municipal landfill in central California. This analysis was used to provide information to the California EPA for its consideration in preparing an NBAR for this state Superfund site. - Provided litigation support to a PRP to examine cost allocation among former owner/operators of two wood - treating plants in Missouri and Louisiana. - Provided litigation support and deposition testimony on behalf of an industrial client, related to environmental insurance claims for soil and groundwater contamination at multiple facilities throughout the US. - Prepared an expert report and provided deposition testimony for an insurance claim related to environmental releases from multiple aerospace test/manufacturing facilities in California. - Prepared an expert report and provided deposition testimony on behalf of a major international oil company for an insurance claim related to environmental releases from multiple petroleum refineries and tank farm facilities throughout the US. - Prepared an expert report and provided deposition testimony for an insurance claim related to environmental releases from a former manufacturing facility in Wilmington, North Carolina. A central issue in the case was the allocation of future remediation costs among potentially divisible sources of onsite DNAPL-VOC contamination. - Prepared an expert settlement report and participated in settlement negotiations for the recovery of insurance related to environmental conditions at 45 MGP sites in the mid -western US on behalf of a major gas production and transmission company. - Prepared an expert report and provided deposition testimony in support of litigation by the Southern California Gas Company for the recovery of insurance for environmental conditions at 29 former MGP sites in southern California. - Prepared an expert report and presented deposition testimony on behalf of DOW Chemical Company in a case seeking recovery of past and future costs for environmental corrective action at DOW's chemical manufacturing plants in Freeport, Texas. - Prepared an expert report and provided deposition testimony on behalf of Union Pacific Corporation in an insurance cost recovery case related to soil and groundwater contamination from its former operation of a major locomotive and rail -car manufacturing facility in Sacramento, California. - Provided deposition and trial testimony in federal District Court regarding the extent of contamination, costs to remediate, and the potential for community exposure in a property damage case related to a gasoline release in a residential area in Columbia, South Carolina. - Provided expert consulting services in a cost recovery suit related to the rupture of a regional pipeline transporting gasoline near Davis, California. Services focused on an evaluation of the reasonableness of environcorp.com 6 Rob L. Powell, PhD, PE response costs and the forensic reconstruction of the mechanisms/actions that contributed to the initial release and subsequent spread of gasoline in nearby irrigation canals. - Provided expert and deposition services to the owner of a large former "truck stop" near Sacramento, California that was an ongoing Brownfields redevelopment project related to the recovery of costs from former owner/operators for the remediation of soil and groundwater for gasoline and diesel -range hydrocarbons. - Provided litigation consulting support and presented trial testimony in state court regarding the source and extent of groundwater contamination and future remedial costs in a trespass/property damage case in Greenville, South Carolina. - Testified before the California State Water Resources Control Board regarding proposed regulations on vadose zone monitoring at waste disposal sites. - Provided expert testimony at administrative hearings on the environmental setting, groundwater conditions, and monitoring programs for hazardous waste landfills in South Carolina and California. - Provided deposition and trial testimony in state court for a public water utility in Florida regarding the source and extent of groundwater contamination in a major county -owned well field near Tampa, Florida. Other General Engineering and Hydrology Practice Designed and supervised the installation and operation of a system to recover PCB- contaminated oil and VOCs from a shallow water table at a chemical manufacturing facility in northern NewJersey for compliance with the state ECRA statute. Provided expert consulting support to Hillsboro County, Florida, for the permitting of a major waster disposal landfill at a facility near Tampa. The waste disposal facility was proposed to be used for the disposal of acidic gypsum wastes from the manufacturing of phosphate -based fertilizers by extraction with sulfuric acid. Evaluated the hydrologic impacts of land application of wastewater effluent on water resources in Orange County, Florida, to demonstrate compliance with operating state permits. Conducted a flood protection analysis and developed a management strategy for the South Florida Water Management District to control agricultural discharges of storm water into drainage canals in St. Lucie County, Florida. Evaluated the feasibility of groundwater and surface water supply development on behalf of a municipal water utility in western Florida. Prepared a real-time flood forecasting system to optimize flood protection and water supply objectives for a major municipal reservoir in Manatee County, Florida. Evaluated the hydrologic impact of major municipal well field pumping on lake levels and wetlands near Ft. Lauderdale and Tampa, Florida. Prepared numerous due diligence Phase I reviews for acquisition of industrial and hazardous waste treatment and disposal facilities. Conducted an in-depth due diligence review of environmental issues on behalf of an investor group as part of an acquisition/reorganization of an airline, following their bankruptcy. Managed multidisciplinary projects including flood hazard analysis, flood protection, sediment and erosion control, dam and reservoir analysis and design, lake restoration, surface mining impact evaluations, combined sewer overflow conveyance and storage systems, and solid waste disposal facilities in the mid -Atlantic and southeast regions of the US. environcorp.com 7 Rob L. Powell, PhD, PE Designed remedial measures for surface drainage and leachate control; directed restoration and closure; and performed water quality data analysis for a hazardous waste landfill, Glen Burnie, Maryland. Prior to joining ENVIRON, Rob held the following positions: Manager of Water Resources Engineering Services, Gulf Coast Area; Camp Dresser & McKee, Inc., Tampa, Florida Faculty Research Associate; University of Maryland, Department of Civil Engineering, College Park, Maryland Department Head/Senior Engineer; Water Resources Division, Greenhorne & O'Mara, Inc, Riverdale, Maryland Graduate Research Assistant; Department of Civil Engineering, University of Maryland, College Park, Maryland Project Engineer; Water Resources Division, Greenhorne & O'Mara, Inc., Riverdale, Maryland Design Engineer; Dewberry, Nealon & Davis, Fairfax, Virginia CREDENTIALS Registrations and Certifications Registered Professional Engineer, State of Maryland, 1977 Registered Professional Engineer, State of Florida, 2006 Professional Activities Member, American Society of Civil Engineers SELECTED PUBLICATIONS & PRESENTATIONS Calise, SJ., and R.L. Powell. 1984. Microcomputer based management of land disposal systems. Paper presented at the ASCE Annual Meeting (Florida Section), September. Powell, R.L., and Y.M. Sternberg. 1983. Deterministic models of uncertainty for regional contaminant transport systems. Paper presented at the National Water Well Association -Eastern Regional Conference on Groundwater Management, October. Onasch, C., R.L. Powell, and R.M. Ragan. 1982. Near surface regional groundwater systems modeling and potential applications for remote sensing. AGRISTARS Report CP-G2-04361. NASA-GSFC, October. Hawley, M.E., and R.L. Powell. 1982. Risk analysis in groundwater quality testing at hazardous waste landfills. Paper presented at the 14th Mid -Atlantic Industrial Waste Conference, June. Cook, D.E., R.H. McCuen, and R.L. Powell. 1980. Water quality projections: A preimpoundment case study. Water Resource Bulletin 16(1). Dew, F.W., R.H. McCuen, and R.L. Powell. 1978. A programming approach to planning for agricultural resource allocation and irrigation system design. Journal of the Washington Academy of Science 68(4). Fisher, G.T., R.H. McCuen, R.L. Powell, and WJ. Rawls. 1977. Flooding flow frequency for ungaged watersheds: A literature evaluation. ARS-NE-86. Agriculture Research Service, USDA, November. McCuen, R.H., R.L. Powell, and R.C. Sutherland. 1976. Relative importance of factors affecting pollutant loadings in runoff from urban stream. In Utility of Urban Modeling. ASCE Technical Memorandum No. 31, July. environcorp.com TRIAL/DEPOSITION TESTIMONY SUMMARY Robert L. Powell, Ph.D. YEAR CASE NAME VENUE CASE NO. (Trial/De o) 1993 Johnson, et al. v. Hoechst Celanese and Daniel Construction State of South Carolina, Court of Common Pleas 90-CP-23-2180 (D/T) 1994 The Alpine Forrest Partners v. Crown Central Petroleum Corporation U.S. District Court of South Carolina, Columbia Division 3:90-2730-0 (T) 1994 Braswell Shipyard, Inc. v. Beazer East, Inc. U.S. District Court, District of South Carolina, Charleston Division 2:89-455-8 (D/T) 1994 City of West Covina v. BKK Corporation Superior Court of California, County of Los Angeles KC 013713 (D) BC 083729 1994 Snyder General v. Century Indemnity U.S. District Court, Northern District of Texas, 3:93-CV-0832-D (D) Dallas Division 1995 Angelo K. Tsakopoulos v. Phillips Petroleum Company, et al. Superior Court of California, County of Sacramento 526157 (D) 1995 James R. Thomason, Jr. v. Ortho Pharmaceutical Corporation U.S. District Court, District of South Carolina, Greenville Division 6:94-2851-3 (D) 1996 Union Oil Company of California v. The Aetna Casualty & Surety Superior Court of California, County of Los Angeles BC 028271 (D) Company 1996 Atlantic Richfield Company v. Aetna Casualty & Surety Company of Superior Court of California, County of Los Angeles BC 015575 (D) America, et al. 1997 Employers Insurance of Wausau v. McGraw -Edison Company, et al. Circuit Court of the 18th Judicial Circuit, Dupage County, Illinois 91 MR 0256 (D) 1997 AMOCO Chemical Company, et al. v. Certain Underwriters at Lloyd's Circuit Court of Cook County, Illinois 93L8484 (D) of London, et al. 1998 Southern Pacific, et al. v. Certain Underwriters at Lloyd's of London, Superior Court of California, County of Los Angeles BC 154722 (D) et al. 1999 Niagara Mohawk Power Corporation v. Jones Chemical et. al. U.S. District Court, Northern District of New York 95-CV-717 (D) 1999 A.O. Smith Corporation v. Rheem Manufacturing Corporation U.S. District Court, Northern District of California. C 94 03887 CW (D) 1999 Olin Corporation v. Fisons Corporation, et al. U.S. District Court for the District of Massachusetts CA93-11166-WGY (D) 2000 Raytheon Company v. Certain Underwriters at Lloyd's London, et al. Superior Court of California, County of San Francisco 950755 (D) 2002 Associated Indemnity Corporation and The American Insurance U.S. District Court, Eastern District of Michigan, Northern Division No. 99 CV 10426 (D) Company v. The Dow Chemical Company The Dow Chemical Company v. Fireman's Fund Insurance Company, No. 99 CV 10427 et al. 6/28/16 TRIAL/DEPOSITION TESTIMONY SUMMARY Robert L. Powell, Ph.D. YEAR CASE NAME VENUE CASE NO. (Trial/Depo) 2005/2010 Merco Group at Aventura landings et.al. v. Tampa Electric Company, Circuit Court for Miami -Dade County, Florida 04-22909 (D/T) et.al. 2006 Terry Giauque et.al. v. Clean Harbors Plaquimine, LLC et al. 18' Judicial District Court, Parrish of Iberville, Louisiana 60195 (D/T) 2007 Keystone Consolidated Industries, Inc. and Valhi v. Employers Mutual US District Court for the Central District of Illinois 03-1201 (D) Liability Insurance Company of Wisconsin 2007 City of Rialto, et.al. v. US Department of Defense et al. US District Court, Central District of California ED CV 04-00079 PSG (D) 2007-8 Official Committee of Unsecured Creditors v. ASARCO LLC US Bankruptcy Court, Southern District of Texas 05-21207 (D/T) 2007 Larry Bowens et al. v. 7-Eleven, Inc. et al. Elkhart (IN) Superior Court III 20D03-0209-CT-48 (D) 2007 United States vs. U. S. Magnesium Corporation US District Court for the District of Utah, Central Division 2:01CV004013 (D) 2007 Occidental Petroleum Corporation and Oxy USA, Inc. v. Private Arbitration NA (D/T) CITGO Petroleum Corporation 2007 Kurt Petersen, et al. v. D.R. Horton, Inc. Circuit Court for Montgomery County, Maryland 268778-V (D/T) 2007 ALCOA v. Fairchild Industries Private Arbitration NA (T) 2009-10 USF&G et al. v. SOCO West, Inc. US District Court for the District of Montana CV-04-29-BLG-RFC (D/T) CV-08-29-BLG-RFC 2010 State of Alabama et al v. Alabama Wood Treating Corporation, et al. US District Court for the Southern District of Alabama 1:85 CV-0642-CG-C (D) 2010-2015 BASF Catalyst v. Allstate Insurance Co. et al. Superior Court of New Jersey MID-L-2061-05 (D/T) 2010 St. Croix Renaissance Group v. St. Croix Alumina District Court of the Virgin Islands, St. Croix Division CV-04-067 (D/T) 2010 U.S. Virgin Islands, Department of Planning and Natural Resources v. District Court of the Virgin Islands, St. Croix Division CV 2007/01 14 (D) St. Croix Renaissance Group, LLLP et al. 6/28/16 TRIAL/DEPOSITION TESTIMONY SUMMARY Robert L. Powell, Ph.D. 2012 (D/T) Lee E. Buchwald vs. The Renco Group, Inc. U S Bankruptcy Court, Southern District of New York Civil Action No: 2:012- CV-0040B 2012 (D) The Bank of NY Mellon Trust Co. vs. Morgan Stanley Mortgage Capital U S District Court, Southern District of New York Case No: 11 CV 0505 (CM)(GWG) 2012 (D/T) Angelo's Aggregate Materials LTD v. state of Florida DEP FDEP hearing before FL Administrative Law Judge Case No. 09-1543 2013 (D/T) Long Island Lighting, Keyspan Corp. v. Alliance Underwriters Insurance Co. et al. Supreme Court, County of New York Index No. 604715/97 2013 (D) NJ Department of Environmental Protection vs. Atlantic Richfield et al. US District Court, Southern District of New York No. 08 CIV. 00312 2014 (D) Richard Bennett v. Colonial Pipeline Company Superior Court of Gwinnette County, Georgia No.13A03746-3 6/28/16