RESUME OF JACK C. PARKER - College of Engineering
RESUME OF JACK C. PARKER - College of Engineering
RESUME OF JACK C. PARKER - College of Engineering
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CONTACT INFORMATION<br />
Civil and Environmental <strong>Engineering</strong> Dept.<br />
University <strong>of</strong> Tennessee<br />
Knoxville TN 37996-2010<br />
Tel: (865) 974-7718<br />
Email: jparker@utk.edu<br />
<strong>RESUME</strong> <strong>OF</strong> <strong>JACK</strong> C. <strong>PARKER</strong><br />
AREAS <strong>OF</strong> TECHNICAL EXPERTISE<br />
• Modeling multiphase fluid flow and transport<br />
• Gas phase transport and forced air remediation design<br />
• Design/cost optimization and decision analysis<br />
• Parameter estimation and uncertainty analysis<br />
• Groundwater and unsaturated zone hydrology<br />
EDUCATION<br />
Ph.D., Soil Physics, Virginia Polytechnic Institute and State University, 1980<br />
B.S., Soil Science, Virginia Polytechnic Institute and State University, 1975<br />
PR<strong>OF</strong>ESSIONAL POSITIONS<br />
• Research Pr<strong>of</strong>essor, Civil & Environmental Eng., U. Tennessee, May 2007 - present<br />
• Distinguished Research Scientist, Oak Ridge National Laboratory, 2001-2007<br />
• President, Environmental Systems & Technologies, Inc., 1988-2001<br />
• Assoc. Director, Center for Environmental & Hazardous Materials, Va Tech, 1990-95<br />
• Pr<strong>of</strong>essor <strong>of</strong> Contaminant Hydrology, Virginia Tech, 1989-95<br />
• Visiting Pr<strong>of</strong>essor, Swiss Federal Technical University, Zurich, 1988-89<br />
• Associate Pr<strong>of</strong>essor, Virginia Tech, 1985-89; Assistant Pr<strong>of</strong>essor, 1980-85<br />
• Research Associate, Soil <strong>Engineering</strong> Characterization, Virginia Tech, 1975-80<br />
ORGANIZATIONS, AWARDS & BOARDS<br />
• ISI Highly Cited Researcher in Environmental Studies<br />
• American Board <strong>of</strong> Forensic <strong>Engineering</strong> and Technology<br />
• American Geophysical Union<br />
• Association <strong>of</strong> Groundwater Scientists and Engineers<br />
• Gamma Sigma Delta – Member, Faculty Research Award (1989)<br />
• International Association for Hydraulic Research<br />
• Journal <strong>of</strong> Contaminant Hydrology – Associate Editor (former)<br />
• Journal <strong>of</strong> Environmental Quality – Associate Editor (former)<br />
• Society <strong>of</strong> American Military Engineers<br />
• National Ground Water Association<br />
• International Soil Science Society<br />
• Sigma Xi – Member, Research Award (1981)<br />
• Society <strong>of</strong> Petroleum Engineers<br />
• Soil Science Society <strong>of</strong> America<br />
• Universities Water Resources Council - Dissertation Award for advisee (1988)<br />
• Water Resources Research – Associate Editor (former)<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 1
UNIVERSITY COURSES TAUGHT<br />
Instructional duties have involved graduate and upper level undergraduate courses taught in<br />
the area <strong>of</strong> subsurface hydrology and contaminant transport modeling in the Civil<br />
<strong>Engineering</strong> and Crop and Soil Environmental Sciences Departments at Virginia Polytechnic<br />
Institute and State University and a numerous short courses and workshops presented in over<br />
10 countries. I have served as an advisor to graduate students in Civil <strong>Engineering</strong>,<br />
Environmental <strong>Engineering</strong>, Environmental Sciences and <strong>Engineering</strong>, and Soil Science<br />
programs. Courses taught include:<br />
• CE 4594, Soil and Groundwater Pollution, 1989-1995.<br />
• CSES 5594, Modeling Subsurface Water and Chemical Transport, 1990-1993.<br />
• CE 5980a, Hazardous Waste Management Seminar, 1987.<br />
• CE 5980b, Modeling Groundwater Chemical Transport, 1986-1988.<br />
• CSES 4050, Soil Physics, 1980-1986.<br />
• CSES 5090, Adv. Soil Physics, 1980-1985<br />
• CSES 6020, Soil Physical and Colloidal Chemistry (guest lecturer)<br />
• ChE 5980, Hazardous Waste Disposal (guest lecturer)<br />
SHORT COURSES AND WORKSHOPS TAUGHT<br />
Multiphase organic transport modeling with emphasis on pollution by hydrocarbons,<br />
International Ground Water Modeling Center, Indianapolis, October 1988, 1989.<br />
Modeling multiphase organic transport in soils and groundwater, Swiss Federal Technical<br />
University, Zurich, November 1988.<br />
Modeling transport in aquifers and in the unsaturated zone, Swiss Federal Technical<br />
University, Zurich, March 1989.<br />
Workshop on Groundwater Pollution Assessment, Virginia Dept. <strong>of</strong> Waste Management,<br />
Richmond, Virginia, January 1990.<br />
Petroleum hydrocarbons and organic chemicals in groundwater: use <strong>of</strong> models for site<br />
assessment and remediation; Los Angeles, May 1990; Jacksonville, Florida, December 1990;<br />
San Diego, May 1991, April 1993, May 1994; Denver, June 1992; Tampa, December 1991;<br />
Orlando, December 1992, 1993; Roanoke, July 1995.<br />
Multiphase organic transport modeling for site assessment and remedial design, International<br />
Ground Water Modeling Center, Delft, Holland, September 1990.<br />
Assessment, control and remediation <strong>of</strong> LNAPL contaminated sites, U.S. EPA/API, Los<br />
Angeles, San Francisco, Denver, Clearwater Beach, Atlanta, Chicago, Boston, Kansas City,<br />
Newark, Cincinnati, Tulsa, Portland Maine, Houston, Reston, Seattle, London. September -<br />
October 1994.<br />
Assessment, control and remediation <strong>of</strong> LNAPL contaminated sites, ES&T, London, January<br />
1995; Copenhagen, November 1995; Maribor Slovenia, November 1995; Vienna Austria,<br />
April 1996; Wroclaw Poland, April 1996; Sparta New Jersey USA, August 1996;<br />
Monteretondo Italy, October 1996; Rome Italy, November 1996; Melbourne Australia,<br />
March 1997; Sydney Australia, March 1997.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 2
NAPL flow and transport modeling workshop, Exxon Biomedical Research, East Millstone,<br />
New Jersey, January 1998.<br />
Principles and practice <strong>of</strong> in situ forced air remediation, National Ground Water Association,<br />
Baltimore June 1998; Phoenix December 1998; April 1999; Portland, Oregon November<br />
1999; San Diego June 2000; Denver February 2001; Phoenix December 2001.<br />
SELECTED PROJECTS<br />
Practical Cost Optimization <strong>of</strong> Characterization and Remediation Decisions at DNAPL Sites<br />
with Consideration <strong>of</strong> Prediction Uncertainty, US Dept <strong>of</strong> Defense (approved – $1,326,000<br />
Mar08-Feb11)<br />
Roadmap to Accelerate Deployment <strong>of</strong> Field-Scale Models to Simulate Microbially-<br />
Mediated Remediation <strong>of</strong> Contaminated Sites, US Dept. <strong>of</strong> Energy (approved – $25,000<br />
Oct07-May08)<br />
Development <strong>of</strong> an Integrated Methodology to Assess Long-Term Sustainability <strong>of</strong><br />
Monitored Natural Attenuation at Chlorinated Solvent Sites, US Dept <strong>of</strong> Defense (current –<br />
$80,000 May07-Sep07)<br />
Multiscale Investigations on the Rates and Mechanisms <strong>of</strong> Targeted Immobilization and<br />
Natural Attenuation <strong>of</strong> Metal, Radionuclide and Co-Contaminants in the Subsurface, US<br />
Dept. <strong>of</strong> Energy (current – $18,000 May07-Sep07)<br />
Quantification <strong>of</strong> Hydrologic, Geochemical, and Mineralogical Processes Governing the Fate<br />
and Transport <strong>of</strong> Uranium over Multiple Scales in Hanford Sediments, US Dept. <strong>of</strong> Energy<br />
(current – $137,383 May07-Sep08)<br />
Development <strong>of</strong> a computer model for in situ oil shale retorting considering heat and mass<br />
transport in rubblized rock fractures and matrix, and reactions for pyrolyis, coking, thermal<br />
mineral decomposition, and combustion. - US Dept. <strong>of</strong> Energy.<br />
Coordinate modeling efforts among university and national lab PIs involved in studies <strong>of</strong><br />
biologically mediated in situ reduction <strong>of</strong> uranium at DOE’s Field Research Center (FRC) in<br />
Oak Ridge TN and develop site-wide model for groundwater flow, transport and<br />
biogeochemical reactions governing uranium transport - US Dept. <strong>of</strong> Energy.<br />
Integrated protocol for assessment <strong>of</strong> long-term sustainability <strong>of</strong> monitored natural<br />
attenuation <strong>of</strong> chlorinated solvent plumes. Develop models and calibration protocols for<br />
field-scale DNAPL dissolution kinetics and volatilization and for uncertainty analyses and<br />
incorporate into operational protocols in cooperation with co-PIs at Virginia Tech, USGS<br />
and Parsons <strong>Engineering</strong> - US Dept. <strong>of</strong> Defense (SERDP).<br />
In situ sequestration enhancement and engineered bioavailability reduction <strong>of</strong> metals in soils.<br />
Develop neural net models to estimate health risk as a function <strong>of</strong> initial soil properties and<br />
amendments. Co-PIs with ORNL, Stanford Univ. and Auburn Univ. - US Dept. <strong>of</strong> Defense.<br />
Simulation <strong>of</strong> subsurface environmental processes. Develop practical methods for modeling<br />
the fate and transport <strong>of</strong> volatile organic contaminants, including: volatilization from soil and<br />
groundwater to the atmosphere or into buildings, and cost optimization <strong>of</strong> vacuum extraction,<br />
bioventing and air sparging systems - US Dept. <strong>of</strong> Energy.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 3
Develop model for TCE migration in vadose zone and within complex multiaquifer<br />
groundwater system in Phoenix, Arizona area over a 50 year period to determine sources,<br />
evaluate remedial system effectiveness and to project future movement - Goldberg Persky<br />
Jennings & White.<br />
Review modeling protocols for unsaturated zone transport <strong>of</strong> organic chemicals for Florida<br />
RBCA guidelines - Mobil.<br />
Develop model for fuel oil leak remediation at a mining facility in northern Australia in a<br />
tidally impacted zone - CMPS&F.<br />
Develop and test a model for vapor transport and human health risk due to soil and<br />
groundwater sources impacting indoor and/or outdoor and for computing risk-based cleanup<br />
levels considering biodecay and dispersive air transport -. Mobil and BP Oil.<br />
Evaluate historical and projected separate phase and dissolved plume migration at a diesel/jet<br />
fuel leak site and evaluate options for remedial system design - Star/Texaco.<br />
Develop an automatic calibration procedure to facilitate site assessments for leaking<br />
underground storage tank sites - Mobil.<br />
Perform numerical simulations to identify the source and timing <strong>of</strong> a hydrocarbon plume in<br />
the vicinity <strong>of</strong> a former refinery and various active and inactive pipelines - Conoco.<br />
Develop engineering guide for the design <strong>of</strong> free product recovery systems - U.S. EPA.<br />
Provide advice on field monitoring and sampling and remedial design for diesel leak site at a<br />
trucking terminal in Massachusetts.<br />
Data assessment, database development and model development to assess contaminant<br />
migration and effectiveness <strong>of</strong> recovery systems from a refinery/terminal complex in the Los<br />
Angeles basin - Carson Regional Groundwater Group (Arco, GATX, Shell, Texaco).<br />
Develop a practical approach to estimate hydrocarbon spill volume and to design free<br />
product recovery systems - U. S. EPA, Edison, New Jersey.<br />
Modeling subsurface hydrocarbon migration and recovery - Mobil Foundation.<br />
Modeling phase separated hydrocarbon movement for remediation <strong>of</strong> spill sites - American<br />
Petroleum Institute.<br />
Develop performance assessment models for effects <strong>of</strong> exploration and production waste on<br />
groundwater quality - American Petroleum Institute.<br />
Development <strong>of</strong> parameter estimation methods for calibration <strong>of</strong> field scale transport models<br />
- Electric Power Research Institute.<br />
Multiphase chemical transport in porous media, U.S. EPA, Office <strong>of</strong> Research and<br />
Development and R. S. Kerr Laboratory.<br />
Estimate volume <strong>of</strong> free phase hydrocarbon in shallow aquifer in Guadalupe California oil<br />
field - Unocal.<br />
Evaluation <strong>of</strong> feasibility studies <strong>of</strong> proposed uranium mining in Pittsylvania Co. - Virginia.<br />
Virginia Coal and Energy Comm.<br />
Physics <strong>of</strong> immiscible flow in porous media - U.S. EPA R. S. Kerr Environmental Research<br />
Laboratory.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 4
Develop model for TCE migration in vadose zone and within complex multiaquifer<br />
groundwater system in Phoenix, Arizona area over a 50 year period to determine sources and<br />
evaluate remedial system effectiveness - Goldberg Persky Jennings & White.<br />
Provide technical assistance on modeling chlorinated solvent flow and transport in soils and<br />
groundwater - Taisei Corporation, Japan.<br />
Provide assistance in modeling groundwater flow to determine well placement and pumping<br />
rates to control aqueous plume migration - Law Environmental.<br />
Provide technical assistance on modeling <strong>of</strong> chlorinated solvent spills and remediation using<br />
in situ gas venting - Institut fur Wasserbau, Stuttgart, Germany.<br />
Evaluate modeling approaches for multiphase contaminant transport - Chemical<br />
Manufacturers Association, RCRA Modeling Workgroup.<br />
Modeling free product movement and recovery at hydrocarbon spill sites - Amoco Corp.<br />
Parameter estimation for unsaturated flow and transport models - U.S.-Israel Bilateral<br />
Agricultural Research and Development Agency.<br />
Model development, site assessment and remedial design for groundwater contamination at<br />
the Manassas West Industrial Park - Virginia. Dept. <strong>of</strong> Waste Management.<br />
Subsurface and surface hydrology in an Appalachian region watershed - USDA Appalachian<br />
Soil and Water Conservation Research Laboratory.<br />
Use <strong>of</strong> models for risk assessment <strong>of</strong> Virginia's superfund sites - Virginia. Dept. <strong>of</strong> Waste<br />
Management.<br />
Modeling effects <strong>of</strong> agricultural practices on nitrate contamination <strong>of</strong> ground and surface<br />
water - Virginia. Water Resources Center.<br />
Development <strong>of</strong> analytical and numerical methods <strong>of</strong> predicting water and nitrogen<br />
movement from large drainfields - Virginia Health Dept.<br />
A strict continuum approach to water and solute transport in porous media with continuous<br />
large pores - U.S. EPA Office <strong>of</strong> Research and Development.<br />
Physical and engineering characterization <strong>of</strong> important Virginia soils - Virginia. Health Dept.<br />
Coordinate modeling efforts among university and national lab PIs involved in studies <strong>of</strong><br />
biologically mediated in situ reduction <strong>of</strong> uranium at DOE’s Field Research Center (FRC) in<br />
Oak Ridge TN and develop site-wide model for groundwater flow, transport and<br />
biogeochemical reactions governing uranium transport at the site - US Dept. <strong>of</strong> Energy.<br />
Develop models and calibration protocols for field-scale DNAPL dissolution kinetics and<br />
volatilization and for uncertainty analyses and incorporate into operational protocols - US<br />
Dept. <strong>of</strong> Defense.<br />
In situ sequestration enhancement and engineered bioavailability reduction <strong>of</strong> metals in soils.<br />
Develop neural net models to estimate health risk as a function <strong>of</strong> initial soil properties and<br />
amendments. - US Dept. <strong>of</strong> Defense.<br />
Develop practical methods for modeling the fate and transport <strong>of</strong> volatile organic<br />
contaminants, including: volatilization from soil and groundwater to the atmosphere or into<br />
buildings, and cost optimization <strong>of</strong> vacuum extraction, bioventing and air sparging systems -<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 5
US Dept. <strong>of</strong> Energy.<br />
COMPUTER PROGRAMS DEVELOPED<br />
I have developed or collaborated on a number <strong>of</strong> computer programs that have been widely<br />
used in the US and in numerous other countries. The most widely used are:<br />
• ARMOS – Vertically-integrated hydrocarbon, groundwater and air flow model<br />
• BIOVENTING – Cost optimized design <strong>of</strong> hydrocarbon vapor recovery systems<br />
• MOTRANS – Three-phase, multicomponent, 3D flow and transport model<br />
• BIOTRANS – Multispecies transport from hydrocarbon source with oxygen-limited decay<br />
• VADSAT – Monte Carlo model to assess contamination potential from E&P waste<br />
• CXTFIT – Estimation <strong>of</strong> transport and reaction coefficients from column experiments<br />
• FLOWFIT – Estimation <strong>of</strong> capillary pressure parameters from transient flow data<br />
• NITRO - Model for reactive nitrogen transport in groundwater from drainfields<br />
• SEAM3D – 3-D transport with anaerobic biodecay, volatilization and DNAPL depletion<br />
• SOILPROP – Estimation <strong>of</strong> capillary pressure parameters from grain size data<br />
• FitDNAPL – DNAPL transport model with inverse solution and uncertainty analysis<br />
PANELS AND COMMITTEES<br />
Leader <strong>of</strong> Water Issues Working Group, Workshop on Environmental Issues and Needs for<br />
Oil Shale Development, Colorado Schools <strong>of</strong> Mines, October 19, 2006.<br />
Member <strong>of</strong> organizing committee for Computational Subsurface Sciences Workshop, US<br />
DOE, Bethesda, Maryland, January 9-12, 2007.<br />
Member <strong>of</strong> “Blue Ribbon” Panel to review ASCE Monograph on “Subsurface remediation:<br />
contamination by organic pollutants,” 1999.<br />
Member <strong>of</strong> U.S. delegation to evaluate transfer <strong>of</strong> innovative groundwater remediation<br />
technologies between the U.S. and Germany sponsored by the U. S. Dept. <strong>of</strong> Energy,<br />
Karlsruhe, Germany, 1992.<br />
Member <strong>of</strong> panel to evaluate groundwater protection strategies for Amoco Yorktown<br />
Refinery, Amoco-EPA Pollution Prevention Workshop, Williamsburg Virginia, 1991.<br />
Member <strong>of</strong> U.S. delegation to discuss U.S.-Israeli cooperation on water resources research<br />
sponsored by the Israel Ministry <strong>of</strong> Science and Technology, Jerusalem, 1989.<br />
Member <strong>of</strong> panel to review approaches for modeling oily waste migration in groundwater, U.<br />
S. EPA Office <strong>of</strong> Solid Wastes, Ada Oklahoma, 1989.<br />
Member <strong>of</strong> panel to review research program on modeling <strong>of</strong> immiscible organic chemical<br />
transport in groundwater, Battelle Pacific Northwest Laboratories, Richland Washington,<br />
1987.<br />
Member <strong>of</strong> review panel to assess subsurface hydrology research program at the USDA<br />
Watershed Research Center, <strong>College</strong> Park, Pennsylvania, 1987.<br />
Member <strong>of</strong> panel to review approaches for modeling oily waste migration in groundwater, U.<br />
S. EPA Office <strong>of</strong> Solid Wastes, Washington DC, 1987.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 6
Member <strong>of</strong> dissertation examining committees: Australian School <strong>of</strong> Environmental Studies,<br />
Griffith University, Brisbane, Australia, 1985; Geosciences Department, New Mexico<br />
Institute <strong>of</strong> Mining and Technology, Socorro New Mexico, 1987.<br />
Member <strong>of</strong> panel to compare different modeling approaches to analyze caisson tracer tests<br />
for Los Alamos National Laboratories, 1986.<br />
Member <strong>of</strong> regional workgroup on “Spatial and temporal variability <strong>of</strong> soil characteristics<br />
and material fluxes in field soils,” 1982 - 1991, Chairman 1987-88.<br />
Member <strong>of</strong> extramural review panel to evaluate facilitated transport mechanisms research<br />
program <strong>of</strong> USEPA's R. S. Kerr Environmental Research Laboratory, Ada Oklahoma, 1984.<br />
Member <strong>of</strong> Uranium Task Force and Uranium Advisory Group review panel reporting to the<br />
Virginia General Assembly to assess the groundwater contamination hazard <strong>of</strong> proposed<br />
uranium tailings disposal facilities, 1984.<br />
Member <strong>of</strong> Environmental Chemistry and Physics Review Panel, U.S. EPA Office <strong>of</strong><br />
Research and Development, 1984 - 1990.<br />
CONFERENCE ORGANIZATION<br />
Roadmap to Accelerate Deployment <strong>of</strong> Field-Scale models to Simulate Microbially-<br />
Mediated Remediation <strong>of</strong> Contaminated Sites, US Dept. Energy, January 2008.<br />
Organizing committee member and working group co-chair, Computation Subsurface<br />
Sciences Workshop: Characterization and Calibration <strong>of</strong> Subsurface Models, US Dept.<br />
Energy, January 2007.<br />
Working Group Leader, Workshop on Environmental Issues and Needs for Oil Shale<br />
Development: Water Issues, Colorado School <strong>of</strong> Mines, October 2006.<br />
Co-leader <strong>of</strong> Expert Panel on Long Term Performance Prediction <strong>of</strong> Containment and Barrier<br />
Systems, Baltimore, Maryland, July 2002.<br />
Chairman <strong>of</strong> special session on Multiphase Transport in the Subsurface at the Fall American<br />
Geophysical Union meeting, San Francisco, December 1991.<br />
Chairman <strong>of</strong> session on Contaminant Monitoring and Remediation at NWWA Outdoor<br />
Action Conference, Las Vegas, May 1991.<br />
Scientific advisory committee for International Conference on Calibration and Reliability in<br />
Groundwater Modeling, The Hague, Netherlands, 1990.<br />
Meeting chairman for Gordon Research Conference on Modeling <strong>of</strong> Flow in Permeable<br />
Media, Amherst, New Hampshire, 1990.<br />
Co-chairman <strong>of</strong> workshop on Field Scale Water and Solute Fluxes in Soils, Monte Verita,<br />
Switzerland, 1989.<br />
Meeting co-chairman and organizing committee member for Gordon Research Conference<br />
on Modeling <strong>of</strong> Flow in Permeable Media, Amherst, New Hampshire, 1988.<br />
Organizer and co-chairman <strong>of</strong> special session on Determining Hydraulic Properties <strong>of</strong> Soils:<br />
Theory, Methods and Applications at the Soil Science Society <strong>of</strong> America annual meeting,<br />
Atlanta Georgia, 1987.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 7
Organizer and co-chairman <strong>of</strong> Symposium on Subsurface Chemical Transport Modeling,<br />
SSSA meeting, New Orleans Louisiana, 1986.<br />
Chairman <strong>of</strong> technical session, International Conference on Computational Methods in Water<br />
Resources, MIT, Cambridge Massachusetts, 1988.<br />
Chairman <strong>of</strong> technical sessions, SSSA annual meetings, Atlanta Georgia, 1980; Las Vegas<br />
Nevada, 1984; New Orleans Louisiana, 1986; Atlanta Georgia 1987.<br />
Chairman <strong>of</strong> technical session, American Chemical Society Colloid and Surface Science<br />
Symposium, Blacksburg Virginia, 1982.<br />
EXPERT TESTIMONY EXPERIENCE<br />
Soil and groundwater contamination with hydrocarbons was discovered at an industrial site<br />
in City <strong>of</strong> Commerce, California 10 years following sale <strong>of</strong> the property. Reviewed data and<br />
performed numerical simulations for defendant to assess timing <strong>of</strong> release events.<br />
Various suits were brought against Texaco and Star Enterprise by property owners within<br />
and beyond the current extent <strong>of</strong> contamination <strong>of</strong> a fuel release from a distribution terminal<br />
in Fairfax, Virginia. Reviewed data and performed computer simulations for defendant to<br />
evaluate impacts <strong>of</strong> the fuel release on properties in the past and in the future.<br />
Chlorinated solvents were detected in groundwater in a residential area in Greenville, South<br />
Carolina adjacent to a fiber manufacturing plant. Retained by plaintiffs to review data and<br />
perform numerical simulations <strong>of</strong> groundwater flow and dissolved solvent migration to<br />
assess timing <strong>of</strong> the release and to make prediction <strong>of</strong> the future extent <strong>of</strong> groundwater<br />
contamination.<br />
A large fuel oil spill was discovered at an ore processing facility in New Jersey following a<br />
property sale. Served as an expert for defendant binding arbitration. Reviewed data and<br />
performed analyses to assess the release volume and timing.<br />
Chlorinated solvents were detected in a water supply well used at the mobile home park in<br />
Greenville, South Carolina. Retained by plaintiff to evaluate the source <strong>of</strong> groundwater<br />
contamination.<br />
Gasoline contamination was detected in the McCoy property. Reviewed data for plaintiff to<br />
evaluate probable source <strong>of</strong> contamination.<br />
Chlorinated solvents were detected in groundwater at a private well in Columbia, South<br />
Carolina. Retained by plaintiff to determine the probable source <strong>of</strong> groundwater<br />
contamination. Reviewed data and performed simulations <strong>of</strong> groundwater flow and dissolved<br />
chemical transport.<br />
A property sale by plaintiff fell through due to contamination with chlorinated solvents on an<br />
adjacent site. Retained by plaintiff to determine if property had been contaminated.<br />
PCB contamination in soil at a die casting plant in Addison, Illinois was detected after site<br />
cleanup. Plaintiff argued contamination was caused by wastewater leakage during site<br />
cleanup. Retained by defendant to determine when and how soil contamination occurred.<br />
Insurance liability dispute concerning costs for remediation <strong>of</strong> fuel contaminated sites.<br />
Retained by defendant to determine the timing <strong>of</strong> fuel releases at a distribution terminal.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 8
Individual and class action suits were brought against various defendants for property<br />
damages, personal injury and medical monitoring due to contamination <strong>of</strong> public water<br />
supplies by chlorinated solvents in Phoenix, Arizona. Retained by plaintiff to evaluate the<br />
magnitude and extent <strong>of</strong> groundwater contamination over time.<br />
Off-site contamination with hydrocarbons was detected at a refinery in Casper, Wyoming.<br />
The refinery was currently operated by Sinclair and had previously been operated by Mobil.<br />
Retained by Sinclair to evaluate the extent <strong>of</strong> joint liability with the previous owner.<br />
Property damages were alleged at a property downgradient <strong>of</strong> a petroleum distribution<br />
terminal in Boise, Idaho due to groundwater contamination with hydrocarbons. Retained<br />
initially by two co-defendants to determine the source <strong>of</strong> groundwater contamination under<br />
plaintiff’s property and later by the plaintiff after settlement with co-defendants.<br />
Costs were incurred for site investigations and cleanup <strong>of</strong> chlorinated solvents at a<br />
manufacturing facility in South Carolina. Retained by defendant to assess the timing <strong>of</strong><br />
releases at the site.<br />
Groundwater contamination with hydrocarbons was discovered by the City <strong>of</strong> Akron during<br />
installation <strong>of</strong> a water line in the vicinity <strong>of</strong> a fuel pipeline. Retained by pipeline operator to<br />
determine the probable source <strong>of</strong> the contamination.<br />
Groundwater contamination at a service station in West Virginia was investigated by the<br />
West Virginia DEP and reimbursement claims made against the company that operated USTs<br />
at the site prior to 1987. Retained by defendant to determine the probable source <strong>of</strong><br />
contamination.<br />
Retained by defendant in Superfund cost recovery action to assess their contribution to PCB<br />
contamination at a site in Virginia due to disposal <strong>of</strong> transformers at a land disposal facility.<br />
Retained by plaintiff to assess timing <strong>of</strong> TCE contamination at an industrial site in Indiana<br />
for the purpose <strong>of</strong> evaluating insurance claims and allocating costs.<br />
Served as expert for plaintiffs in property damage cases involving free product and dissolved<br />
phase contamination from terminal complex in Alabama.<br />
Served as expert for plaintiffs in property damage cases involving gasoline leak from<br />
pipeline pumping station Alabama.<br />
INVITED PRESENTATIONS<br />
Seminar at Environmental Sciences Department at the University <strong>of</strong> Virginia, Charlottesville<br />
Virginia, entitled “Problems in the design and operation <strong>of</strong> wastewater land application<br />
systems”, October 1982.<br />
Seminar at Appalachian Soil and Water Conservation Laboratory, Beckley West Virginia,<br />
entitled “Analysis <strong>of</strong> solute dispersion in soils with continuous large pores”, March 1984.<br />
Report to Uranium Task Force and Uranium Advisory Group entitled “An evaluation <strong>of</strong><br />
feasibility studies <strong>of</strong> proposed uranium mining in Pittsylvania County, Virginia”, Richmond<br />
Virginia, September 1984.<br />
Seminar at U.S. Salinity Laboratory, Riverside California, entitled “Soil physics research at<br />
Virginia Polytechnic Institute”, December 1984.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 9
Seminar at Battelle Pacific Northwest Laboratories, Richland Washington, entitled<br />
“Modeling multiphase organic fluid transport”, August 1985.<br />
Presentation at R. S. Kerr Environmental Research Laboratory Seminar, Oklahoma City<br />
Oklahoma, entitled “Physics <strong>of</strong> immiscible flow in porous media”, April 1986, 1987, 1988,<br />
1989,1990.<br />
Paper at Am. Geophys. Union Spring Meeting, Baltimore Maryland, entitled “Sample<br />
volume effects on solute transport predictions”, May 1986.<br />
Seminar at University <strong>of</strong> Nevada Environmental Research Center, Las Vegas Nevada,<br />
entitles “Modeling multiphase fluid flow in soils and groundwater”, May 1986.<br />
Report at Workshop on Comparative Modeling <strong>of</strong> Tracer Migration in the Unsaturated Zone,<br />
Los Alamos New Mexico, entitled “Analytical and semi-analytical approaches to modeling<br />
tracer migration”, June 1986.<br />
Presentation at Gordon Research Conference on Modeling Flow in Permeable Media,<br />
Andover New Hampshire, entitled “Analysis <strong>of</strong> the inverse problem for flow in porous media<br />
with multiple fluid phases”, July 1986.<br />
Paper at Society <strong>of</strong> <strong>Engineering</strong> Science Annual Meeting, Buffalo New York, entitled<br />
“Modeling heterogeneous fluid conduction in soils”, August 1986.<br />
Presentation at workshop on Modeling Oily Wastes, Washington DC, entitled “Data<br />
requirements for modeling immiscible organic flow and transport”, January 1987.<br />
Seminar at Oak Ridge National Laboratory, Environmental Sciences Division, Oak Ridge<br />
Tennessee, entitled “Modeling multiphase flow and transport in soil and groundwater”,<br />
January 1987.<br />
Seminar at Los Alamos National Laboratory, Environmental Sciences Division, Los Alamos<br />
New Mexico, entitled “Modeling multiphase flow and transport in soil and groundwater”,<br />
March 1987.<br />
Seminar at Electric Power Research Institute, Environmental Sciences Department, Palo Alto<br />
California, entitled “Saturation-pressure relations for three phase flow in porous media”,<br />
March 1987.<br />
Seminar at Stanford University, Civil <strong>Engineering</strong> Department, Stanford California, entitled<br />
“Modeling multiphase flow and transport in soil and groundwater”, March 1987.<br />
Seminar at the University <strong>of</strong> Stuttgart, Institute for Hydraulic <strong>Engineering</strong>, Stuttgart,<br />
Germany, on “Modeling multiphase flow and transport in geologic media”, June 1987.<br />
Seminar at the Swiss Federal Institute (ETH), Zurich, Switzerland, on “Modeling multiphase<br />
flow and transport in geologic media”, June 1987.<br />
Seminar at the Technion Institute, Civil <strong>Engineering</strong> Department, Haifa, Israel, on<br />
“Modeling nonaqueous phase organic chemical transport”, June 1987.<br />
Seminar at the Free University <strong>of</strong> Brussels, Laboratory <strong>of</strong> Hydrology, Brussels, Belgium, on<br />
“Modeling multiphase contaminant transport”, October 1987.<br />
Seminar and workshop at Rutgers University, Cook <strong>College</strong>, New Brunswick New Jersey on<br />
“Modeling multiphase organic transport”, February 1988.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 10
Seminar series at the Swiss Federal Technical University, Zurich, on modeling flow and<br />
transport in saturated and unsaturated zones, May-July, 1989.<br />
Seminars at the University <strong>of</strong> Stuttgart, Institute for Hydraulic <strong>Engineering</strong>, Stuttgart, W.<br />
Germany, on “Modeling liquid hydrocarbon recovery from underground spills” and<br />
“Modeling <strong>of</strong> multiphase organic chemical transport”, June 1989.<br />
Seminar at the University <strong>of</strong> Hannover, Institute for Water Resources, Hydrology and<br />
Hydraulic <strong>Engineering</strong>, Hannover, W. Germany, on “Modeling multiphase organic chemical<br />
migration and analysis <strong>of</strong> spill site remediation”, June 1989.<br />
Seminars at the University <strong>of</strong> Karlsruhe, Institute <strong>of</strong> Hydromechanics, Karlsruhe, W.<br />
Germany, on “Estimation <strong>of</strong> unsaturated flow parameters and their uncertainty” and “Effects<br />
<strong>of</strong> parameter uncertainty on predictions <strong>of</strong> unsaturated flow”, July 1989.<br />
Presentation at workshop on U.S.-Israeli Water Resources Research sponsored by the Israel<br />
Ministry <strong>of</strong> Science and Technology, Jerusalem, on “Modeling multiphase organic chemical<br />
transport in groundwater”, November 1989.<br />
Seminar at the University <strong>of</strong> Virginia, Environmental Science Department, on “Modeling<br />
multiphase flow and transport in soils and groundwater”, March 1991.<br />
Seminar at British Petroleum Research, Cleveland, Ohio on “Applied modeling <strong>of</strong><br />
hydrocarbon spills for site assessment and remedial design,” November 1991.<br />
Seminar at the University <strong>of</strong> California Santa Barbara, Mechanical and Environmental<br />
<strong>Engineering</strong> Department on “Modeling multiphase organic chemical migration and spill site<br />
remediation”, December 1991.<br />
Seminar at Mobil Research Laboratory, Princeton, New Jersey on “Modeling free phase<br />
product migration for site assessment and remediation,” November 1991.<br />
Seminar at Texaco Environmental Services, Los Angeles, California, on “Practical use <strong>of</strong><br />
models for assessment and remediation <strong>of</strong> hydrocarbon spill sites,” December 1991, October<br />
1993.<br />
Keynote presentation at meeting on “Use <strong>of</strong> Groundwater Models in Decision Making,”<br />
Denver, June 1993.<br />
Seminar at Levine-Fricke, Irvine, California, on “Integrated approach to assessment and<br />
remedial design for hydrocarbon spill sites,” May 1994.<br />
Seminar at Dames and Moore, Santa Ana, California on “Integrated approach to assessment<br />
and remedial design for hydrocarbon spill sites,” June 1994.<br />
Workshop to API members at Shell Development, Houston, on “Assessment <strong>of</strong> exposure to<br />
groundwater from land-disposed E&P waste,” June 1994.<br />
Presentation at EPA Region III workshop, Valley Forge, Pennsylvania, on “Hydrocarbon<br />
migration and remediation in fractured media,” July 1994.<br />
Paper at IHP/IAHS Kovacs Colloquium on Subsurface Flow and Transport, Paris on “Field<br />
scale modeling <strong>of</strong> multiphase flow and transport,” January 1995.<br />
Seminar at In Situ and On Site Bioremediation Symposium, San Diego, entitled “Optimizing<br />
remedial design using concurrent pumping <strong>of</strong> groundwater, free product and air,” April 1995.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 11
Workshop at Donaldson Brown Center, Blacksburg, Virginia on “Groundwater Monitoring<br />
and Modeling,” June 1995.<br />
Paper at International Workshop on “Contamination and Reclamation <strong>of</strong> Soils and Aquifers<br />
Polluted by NAPLs,” Haifa Israel, May 1996.<br />
Seminar at GeoTrans <strong>of</strong>fices on “Design optimization <strong>of</strong> SVE, bioventing and air sparging<br />
systems,” Sterling Virginia, February 1997.<br />
Presentation on “Practical use <strong>of</strong> computer models for environmental investigations,” Exxon<br />
Research & <strong>Engineering</strong>, New Jersey, October 1997.<br />
Presentation on “Evaluation <strong>of</strong> health risk due to vapor intrusion into enclosed spaces,” Va.<br />
Dept. Environ. Quality Storage Tank Program Conference, Blacksburg, June 1999.<br />
Presentation on “Practical use <strong>of</strong> groundwater models,” Virginia Association <strong>of</strong> Pr<strong>of</strong>essional<br />
Soil Scientists, Charlottesville, Virginia, May 2000.<br />
Presentation on “Inverse modeling to identify release locations and timing,” Environmental<br />
Forensics Conference, Washington, DC, June 2000.<br />
Presentation on “Current Issues in modeling NAPL flow and transport,” Expert Workshop on<br />
Modeling and Management <strong>of</strong> Emerging Environmental Issues, DuPont Company, Malvern,<br />
Pennsylvania, July 2000.<br />
Paper on “Contaminant Transport with Time-Dependent DNAPL Source Dissolution<br />
Kinetics and Biodecay: Effects <strong>of</strong> Partial Mass Removal, Flow Reduction and Enhanced<br />
Biodecay” at American Geophyical Union Meeting, San Francisco, December 2006.<br />
Invited paper on “Effectiveness <strong>of</strong> various source zone and dissolved plume remediation<br />
measures for sites with residual DNAPL and DNAPL pool sources” at American Geophyical<br />
Union Meeting, Acapulco, Mexico, May 2007.<br />
PUBLICATIONS<br />
Peer-Reviewed Publications<br />
Parker, J. C., L. W. Zelazny and D. F. Amos, Swelling components <strong>of</strong> compacted Camontmorillonite,<br />
Clays Clay Miner, 28, 135-141, 1979.<br />
Harris, W. G., S. S. Iyengar, L. W. Zelazny, J. C. Parker, D. A. Lietzke and W. J. Edmonds,<br />
Mineralogy <strong>of</strong> a chronosequence formed in New River alluvium, Soil Sci. Soc. Amer. J., 48,<br />
862-868, 1980.<br />
Parker, J. C., D. F. Amos and S. Sture, Measurement <strong>of</strong> swelling, hydraulic conductivity,<br />
compressibility and shear strength in a multistage triaxial test, Soil Sci. Soc. Amer. J., 44,<br />
1133-1138, 1980.<br />
Parker, J. C., D. F. Amos and L. W. Zelazny, Water adsorption and swelling <strong>of</strong> clay minerals<br />
in soil systems, Soil Sci. Soc. Amer. J., 46, 450-456, 1982.<br />
Parker, J. C., The lost constants <strong>of</strong> Coulomb's law, Soil Sci. Soc. Amer. J., 46, 886-887,<br />
1982.<br />
Parker, J. C. and L. W. Zelazny, The influence <strong>of</strong> geostatic and hydrostatic forces on doublelayer<br />
interactions in soils, Soil Sci. Soc. Amer. J., 47, 191-195, 1983.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 12
Harris, W. G., J. C. Parker and L. W. Zelazny, Effects <strong>of</strong> mica on engineering properties <strong>of</strong><br />
sand, Soil Sci. Soc. Amer. J., 48, 501-505, 1984.<br />
Parker, J. C. and M. Th. van Genuchten, Flux-averaged and volume-averaged concentrations<br />
in continuum approaches to solute transport, Water Resour. Res., 20, 866-872, 1984.<br />
Harris, W. G., L. W. Zelazny, J. C. Parker, J. C. Baker, R. S. Weber and J. H. Elder,<br />
<strong>Engineering</strong> properties <strong>of</strong> soils as related to mineralogy and particle-size distribution, Soil<br />
Sci. Soc. Amer. J., 48, 501-505, 1984.<br />
Parker, J. C., Analysis <strong>of</strong> solute transport in column tracer studies, Soil Sci. Soc. Amer. J.,<br />
48, 719-724, 1984.<br />
van Genuchten, M. Th. and J. C. Parker, Boundary conditions for displacement experiments<br />
through short laboratory soil columns, Soil Sci. Soc. Amer. J., 48, 703-708, 1984.<br />
Field, J. A., J. C. Parker and N. L. Powell, Comparison <strong>of</strong> field- and laboratory-measured and<br />
predicted hydraulic properties <strong>of</strong> a soil with macropores, Soil Sci., 138, 385-396, 1984.<br />
Parker, J. C. and M. Th. van Genuchten, Reply to “Comment on flux-averaged and volumeaveraged<br />
concentrations in continuum approaches to solute transport”, Water Resour. Res.,<br />
22, 1301-1302, 1985.<br />
van Genuchten, M. Th. and J. C. Parker, Reply to “Comments on boundary conditions for<br />
displacement experiments through short laboratory columns, Soil Sci. Soc. Am. J., 49, 1325-<br />
1326, 1985.<br />
Jardine, P. M., J. C. Parker and L. W. Zelazny, Kinetics and mechanisms <strong>of</strong> aluminum<br />
adsorption on kaolinite using a two-site nonequilibrium transport model, Soil Sci. Soc. Amer.<br />
J., 49, 867-873, 1985.<br />
Jardine, P. M., L. W. Zelazny and J. C. Parker, Mechanisms <strong>of</strong> aluminum adsorption on clay<br />
minerals and peat, Soil Sci. Soc. Amer. J., 49, 862-866, 1985.<br />
Kool, J. B., J. C. Parker and M. Th. van Genuchten, Determining soil hydraulic properties<br />
from one-step outflow experiments by parameter estimation. I. Theory and numerical studies,<br />
Soil Sci. Soc. Amer. J., 49, 1348-1354, 1985.<br />
Parker, J. C., J. B. Kool and M. Th. van Genuchten, Determining soil hydraulic properties<br />
from one-step outflow experiments by parameter estimation. II. Experimental studies, Soil<br />
Sci. Soc. Amer. J., 49, 1354-1360, 1985.<br />
Albrecht, K. A., S. D. Logsdon, J. C. Parker and J. C. Baker, Spatial variability <strong>of</strong> hydraulic<br />
properties <strong>of</strong> the Emporia series, Soil Sci. Soc. Amer. J., 49, 1498-1501, 1985.<br />
Parker, J. C. and A. J. Valocchi, Constraints on the validity <strong>of</strong> equilibrium and first-order<br />
kinetic transport models in structured soils, Water Resour. Res., 22, 399-407, 1986.<br />
Parker, J. C. and P. M. Jardine, Effects <strong>of</strong> heterogeneous adsorption behavior on ion<br />
transport, Water Resour. Res., 22, 1334-1340, 1986.<br />
Kool, J. B. and J. C. Parker, Development and evaluation <strong>of</strong> closed-form expressions for<br />
hysteretic soil hydraulic properties, Water Resour. Res., 23, 105-114, 1987.<br />
Barry, D. A. and J. C. Parker, Approximations for solute transport through porous media<br />
with flow transverse to layering, Transport in Porous Media, 2, 65-82, 1987.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 13
Parker, J. C., R. J. Lenhard and T. Kuppusamy, A parametric model for constitutive<br />
properties governing multiphase flow in porous media, Water Resour. Res., 23, 618-<br />
624,1987.<br />
Kuppusamy, T., J. Sheng, J. C. Parker and R. J. Lenhard, Finite element analysis <strong>of</strong><br />
multiphase immiscible flow through soils, Water Resour. Res., 23, 625-631, 1987.<br />
Kaluarachchi, J. J. and J. C. Parker, Finite element analysis <strong>of</strong> water flow in variably<br />
saturated soil, J. Hydrol., 90, 269-291, 1987.<br />
Kool, J. B., J. C. Parker and M. Th. van Genuchten, Parameter estimation for unsaturated<br />
flow and transport models: A review, J. Hydrol., 91, 255-293, 1987.<br />
Lenhard, R. J. and J. C. Parker, Measurement and prediction <strong>of</strong> saturation-pressure<br />
relationships in three-phase porous media system, J. Contaminant Hydrol., 1, 407-424, 1987.<br />
Kaluarachchi, J. J. and J. C. Parker, Effects <strong>of</strong> hysteresis with air entrapment on water flow<br />
in the unsaturated zone, Water Resour. Res., 23, 1967-1976, 1987.<br />
Parker, J. C. and R. J. Lenhard, A model for hysteretic constitutive relations governing<br />
multiphase flow, 1. Saturation-pressure relations, Water Resour. Res., 23, 2187-2196, 1987.<br />
Lenhard, R. J. and J. C. Parker, A model for hysteretic constitutive relations governing<br />
multiphase flow, 2. Permeability-saturation relations, Water Resour. Res., 23, 2197-2206,<br />
1987.<br />
Parker, J. C. and K. A. Albrecht, Sample volume effects on solute transport predictions,<br />
Water Resour. Res.,23, 2293-2301, 1987.<br />
Lenhard, R. J. and J. C. Parker, Experimental validation <strong>of</strong> the theory <strong>of</strong> extending two phase<br />
saturation-pressure relations to three-fluid phase systems for monotonic drainage paths,<br />
Water Resour. Res., 24, 373-380, 1988.<br />
Kool, J. B. and J. C. Parker, Analysis <strong>of</strong> the inverse problem for transient unsaturated flow,<br />
Water Resour. Res., 24, 817-830, 1988.<br />
Lenhard, R. J., J. H. Dane, J. C. Parker and J. J. Kaluarachchi, Measurement and simulation<br />
<strong>of</strong> one-dimensional transient three phase flow for monotonic liquid drainage, Water Resour.<br />
Res., 24, 853-863, 1988.<br />
Kool, J. B. and J. C. Parker, Comment on “Estimating transport parameters in soils by a<br />
maximum likelihood approach”, Soil Sci. Soc. Am. J., 52, 899-900, 1988.<br />
Kaluarachchi, J. J. and J. C. Parker, Finite element model <strong>of</strong> nitrogen species transformation<br />
and transport in the unsaturated zone, J. Hydrol., 105, 249-274, 1989.<br />
Kaluarachchi, J. J. and J. C. Parker, An efficient finite element method for modeling<br />
multiphase flow in porous media, Water Resour. Res., 25, 43-54, 1989.<br />
Mishra, S. and J. C. Parker, Parameter estimation for coupled flow and transport, Water<br />
Resour. Res., 25, 385-396, 1989.<br />
Mishra, S., J. C. Parker and N. Singhal, Estimation <strong>of</strong> soil hydraulic properties and their<br />
uncertainty from particle size distribution data, J. Hydrol., 108, 1-18, 1989.<br />
Mishra, S. and J. C. Parker, Effects <strong>of</strong> parameter uncertainty on predictions <strong>of</strong> unsaturated<br />
flow, J. Hydrol., 109, 19-33, 1989.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 14
Lenhard, R. J., J. C. Parker and S. Mishra, On the correspondence between Brooks-Corey<br />
and van Genuchten models, J. Irrig. and Drainage Eng., ASCE, 115, 744-751, 1989.<br />
Lenhard, R. J., J. C. Parker and J. J. Kaluarachchi, A model for hysteretic constitutive<br />
relations governing multiphase flow, 3. Model refinements and simulations, Water Resour.<br />
Res. 25, 1727-1736, 1989.<br />
Parker, J. C., Multiphase flow and transport in porous media, Reviews <strong>of</strong> Geophysics, 27,<br />
311-328, 1989.<br />
Kool, J. B., J. C. Parker and L. W. Zelazny, On the estimation <strong>of</strong> cation exchange parameters<br />
from column displacement experiments, Soil Sci. Soc. Am. J., 53, 1347-1355.<br />
Parker, J. C. and R. J. Lenhard, Vertical integration <strong>of</strong> three phase flow equations for<br />
analysis <strong>of</strong> light hydrocarbon plume movement, Transport in Porous Media, 5, 187-206,<br />
1989.<br />
Mishra, S. and J. C. Parker, Methods <strong>of</strong> estimating hydraulic and transport parameters for the<br />
unsaturated zone, Sadhana, 14, 173-185, 1989.<br />
Mishra, S., J. C. Parker, On the relation between saturated conductivity and capillary<br />
retention characteristics, J. <strong>of</strong> Ground Water, 28, 775-777, 1990.<br />
Lenhard, R. J. and J. C. Parker, Estimation <strong>of</strong> free hydrocarbon volume from fluid levels in<br />
monitoring wells, Ground Water, 28, 57-67, 1990.<br />
Parker, J. C. and R. J. Lenhard, Determining three phase permeability-saturation-pressure<br />
relations from two phase system measurements, J. Petrol. Sci. Eng., 4, 57-65, 1990.<br />
Kaluarachchi, J. J., J. C. Parker and R. J. Lenhard, A numerical model for areal migration <strong>of</strong><br />
water and light hydrocarbon in unconfined aquifers, Adv. Water Resour., 13, 29-40,1990.<br />
Mishra, S. and J. C. Parker, Analysis <strong>of</strong> solute dispersion with a distance dependent<br />
dispersion model, Hydrol. Processes, 4, 45-57, 1990.<br />
Kaluarachchi, J. J. and J. C. Parker, Modeling multicomponent organic chemical transport in<br />
three fluid phase porous media, J. Contaminant Hydrol., 5, 349-374, 1990.<br />
Anderson, M. A. and J. C. Parker, Sensitivity <strong>of</strong> organic contaminant transport and<br />
persistence models to Henry's Law constants: case <strong>of</strong> polychlorinated biphenyls, Water, Air<br />
& Soil Pollution, 50, 1-18, 1990.<br />
Mishra, S., J. C. Parker and J. Zhu, An algorithm for generating spatially autocorrelated<br />
unsaturated flow properties, Computers and Geoscience, 16, 697-703, 1990.<br />
Russo, D., E. Bresler, U. Shani and J. C. Parker, Analyses <strong>of</strong> infiltration events in relation to<br />
determining soil hydraulic properties by inverse problem methodology, Water Resour. Res.,<br />
27, 1361-1373, 1991.<br />
Lenhard, R. J., J. C. Parker and J. J. Kaluarachchi, Comparing simulated and experimental<br />
hysteretic two-phase transient fluid flow phenomena, Water Resour. Res., 27, 2113-2124,<br />
1991.<br />
Kaluarachchi, J. J. and J. C. Parker, Multiphase flow with a simplified model for oil<br />
entrapment, Transport in Porous Media, 7, 1-14, 1992.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 15
Katyal, A. K. and J. C. Parker, An adaptive solution domain algorithm for efficient solution<br />
<strong>of</strong> multiphase flow problems, Computers & Geosciences, 18, 1-9, 1992.<br />
Parlange, J.-Y., J. L. Starr, M. Th. van Genuchten, D. A. Berry and J. C. Parker, Exit<br />
condition for miscible displacement experiments in finite columns, Soil Sci. Soc Am. J., 153,<br />
165-171, 1992.<br />
Unlu, K, M. W. Kemblowski, J. C. Parker, D. Stevens, P. K. Chong, and I. Kamil, A<br />
screening model for effects <strong>of</strong> land-disposed wastes on groundwater quality, Journal <strong>of</strong><br />
Containment Hydrology, 11, 27-49, 1992.<br />
Cooke, R., S. Mostaghimi and J. C. Parker, Estimating oil spill characteristics from oil heads<br />
in scattered monitoring wells, Env. Monitoring & Assessment, 28, 33-15, 1993.<br />
Kaluarachchi, J. J. and J. C. Parker, Effects <strong>of</strong> nonwetting fluid entrapment on multiphase<br />
flow in porous media, Transport in Porous Media, 1993.<br />
Katyal, A. K. and J. C. Parker, An adaptive solution domain algorithm for efficient solution<br />
<strong>of</strong> multiphase flow problems, Computers and Geoscience, 1993.<br />
Lenhard, R. J., T. G. Johnson and J. C. Parker, Experimental observations <strong>of</strong> nonaqueousphase<br />
liquid subsurface movement, Journal <strong>of</strong> Containment Hydrology, 12, 79-101, 1993.<br />
Parker, J. C., J. L. Zhu, T. G. Johnson, V. J. Kremesec and E. L. Hockman, Modeling free<br />
product migration and recovery at hydrocarbon spill sites, Ground Water, 32, 119-128, 1994.<br />
Parker, J. C. Evaluating the effectiveness <strong>of</strong> product recovery, bioventing and bioslurping<br />
systems, Soil Analysis, Monitoring and Remediation, 53-56, 1995.<br />
Unlu, K., J. C. Parker, and P. K. Chong, A comparison <strong>of</strong> three uncertainty analysis methods<br />
to assess groundwater impacts from land-disposed waste, Hydrogeology Journal, 3(2), 1995.<br />
Waddill, D. A. and J. C. Parker, A semi-analytical model to predict recovery <strong>of</strong> light<br />
nonaqueous phase liquids from unconfined aquifers, Ground Water, 35, 938-947, 1997.<br />
Waddill, D. A., and J. C. Parker, Simulated recovery <strong>of</strong> light nonaqueous phase liquid from<br />
unconfined heterogeneous aquifers, Ground Water, 35, 6, 938-947, 1997.<br />
Waddill, D. A. and J. C. Parker, Recovery <strong>of</strong> light nonaqueous phase liquid from porous<br />
media: laboratory experiments and model validation. J. Contam. Hydrol. 27, 127-155, 1997.<br />
Parker, J. C., Inverse modeling to estimate NAPL plume release timing, J. Contam. Hydrol.<br />
45, 303-327, 2000.<br />
Parker, J. C., Volatile chemical transport, biodecay and emission to indoor air, Ground Water<br />
Monitoring & Remediation, 23, 107-120, 2003.<br />
Parker, J. C., Physical processes affecting natural depletion <strong>of</strong> volatile chemicals in soil and<br />
groundwater, Vadose Zone Journal, 2, 222-230, 2003.<br />
Parker, J.C. and E. Park, Field-scale DNAPL dissolution kinetics in heterogeneous aquifers,<br />
Water Resources Research, vol 40, W05109, doi:10.1029/2003WR002807, 2004.<br />
Park, E. and J.C. Parker, Evaluation <strong>of</strong> an upscaled model for DNAPL dissolution kinetics in<br />
heterogeneous aquifers, Adv. in Water Resources., 28, 1280-1291, 2005.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 16
Zhang, F., G. T. Yeh, J. C. Parker, S. C. Brooks, M. N. Pace, Y.-J. Kim, P. M. Jardine, and D. B.<br />
Watson. A reaction-based paradigm to model reactive chemical transport in groundwater with<br />
general kinetic and equilibrium reactions, Journal <strong>of</strong> Contaminant Hydrology, 92, 10-32, 2007.<br />
Tang, G., E. Perfect, E. H. van den Berg, M. A. Mayes and J. C. Parker, Estimating effective<br />
hydraulic parameters <strong>of</strong> unsaturated layered sediments using a Cantor bar composite medium<br />
model, Vadose Zone. J., in press.<br />
Kim, Y.-J., S. C. Brooks, W. Kamolpornwijit, F. Zhang, J. C. Parker, J.-W. Moon and Y.<br />
Roh, Fate and transport <strong>of</strong> uranium (VI) in weathered saprolite, Geochimica Cosmochimica<br />
Acta, in review.<br />
Park, E. and J. C. Parker, Effects <strong>of</strong> mass reduction, flow reduction and enhanced biodecay<br />
<strong>of</strong> DNAPL source zones, Transport in Porous Media, in review.<br />
Parker, J.C., E. Park and G. Tang, Dissolved plume attenuation with DNAPL source<br />
remediation, aqueous decay and volatilization – Analytical solution, model calibration and<br />
prediction uncertainty, J. Contam. Hydrol. , in review.<br />
Books, Book Chapters, Monographs and Reports<br />
Kroontje, W., R. R. Weil and J. C. Parker, Soils: A Laboratory Manual for Introductory Soil<br />
Science, Burgess Publ. Co., 130 p. 1981.<br />
Parker, J. C., D. F. Amos and J. C. Baker, <strong>Engineering</strong> Properties <strong>of</strong> Selected Soils <strong>of</strong> the<br />
Virginia Piedmont, Va. Agric. Exp. Sta. Bull., 83-6, 73 p., 1983.<br />
Parker, J. C. and M. Th. van Genuchten, Determining Transport Parameters from Laboratory<br />
and Field Tracer Experiments, Va. Agric. Exp. Sta. Bull., 84-3. 92p., 1984.<br />
Quisenberry, V. L., J. H. Dane, D. K. Cassel and J. C. Parker, Physical Characteristics <strong>of</strong><br />
Soils In The Southern Region - Norfolk, Dothan, Wagram, and Goldsboro Series. Southern<br />
Cooperative Series Bull., 263, S Carolina Agric. Exp. Sta., Clemson, SC, 1985.<br />
Kool, J. B., J. C. Parker and M. Th. van Genuchten, ONESTEP: A Nonlinear Parameter<br />
Estimation Program for Evaluating Soil Hydraulic Properties from One-step Outflow<br />
Experiments, Va. Agric. Exp. Sta. Bull., 85-3, 43p., 1985.<br />
Kool, J. B., K. A. Albrecht, J. C. Parker and J. C. Baker, Physical and Chemical<br />
Characterization <strong>of</strong> the Groseclose Soil Mapping Unit, Va. Agric. Exp. Sta. Bull., 86-4, 75p.,<br />
1986.<br />
Parker, J. C. and D. A. Barry, An equivalent homogeneous continuum approach to modeling<br />
solute transport and water flow in regularly structured porous media, Final Report on USEPA<br />
Project 810819-01-0, 1986.<br />
Parker, J. C., Hydrostatics <strong>of</strong> water in porous media. In: D. L. Sparks (ed.) Soil Physical<br />
Chemistry, CRC Press, 209-296, 1986.<br />
van Genuchten, M. Th., J. C. Parker and J. B. Kool, Analysis and prediction <strong>of</strong> water and<br />
solute transport in a large lysimeter, In: E. P. Springer and H. R. Fuentes (eds.), Modeling<br />
Study <strong>of</strong> Solute Transport in the Unsaturated Zone, Los Alamos Nat. Lab., U.S. NRC,<br />
NUREG/CR-4615, 4-31, 1987.<br />
Huyakorn, P. S., B. G. Jones, J. C. Parker, T. D. Wadsworth, and H. O. White, Finite element<br />
simulation <strong>of</strong> moisture movement and solute transport in a large caisson, In: E. P. Springer<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 17
and H. R. Fuentes (eds.), Modeling Study <strong>of</strong> Solute Transport in the Unsaturated Zone, Los<br />
Alamos Nat. Lab., U.S. NRC, NUREG/CR-4615, 117-170, 1987.<br />
Kaluarachchi, J. J. and J. C. Parker, Finite element simulation <strong>of</strong> nitrogen transformation and<br />
transport during hysteretic flow with air entrapment, Numerical Methods for Transport and<br />
Hydrologic Processes. Elsevier. vol. 2, 247-254, 1988.<br />
Kaluarachchi, J. J. and J. C. Parker, Finite element simulation <strong>of</strong> nitrogen transformation and<br />
transport during hysteretic flow with air entrapment, Numerical Methods for Transport and<br />
Hydrologic Processes. Elsevier. vol. 2, 247-254, 1988.<br />
Parker, J. C., R. J. Lenhard and T. Kuppusamy, Physics <strong>of</strong> Immiscible Flow in Porous Media.<br />
U.S. EPA Report 600/S2-87/101, 1988.<br />
Kool, J. B., S. Mishra and J. C. Parker, Estimation <strong>of</strong> Soil Hydraulic Properties from<br />
Transient Flow Experiments: FL<strong>OF</strong>IT User's Guide, Electric Power Research Inst. Report,<br />
1989.<br />
Newkirk, K. M., J. C. Parker, J. C. Baker, E. W. Carson, T. B. Brumback and O. Balci,<br />
Programmer's Guide for VT-Maize, Version 1.0. Va. Water Resour. Res. Center Bull., 1989.<br />
Newkirk, K. M., J. C. Parker, J. C. Baker, E. W. Carson, T. B. Brumback and O. Balci,<br />
User's Guide for VT-Maize, Version 1.0. Va. Water Resour. Res. Center Bull., 1989.<br />
Roth, K., H. Fluhler, W. A. Jury and J. C. Parker (eds.), Field-Scale Water and Solute Flux in<br />
Soils, Birkhauser Verlag, Basel Switzerland, 304 p., 1990.<br />
Parker, J. C., L. W. Gelhar, R. Ababou, G. Butters, G. de Marsily, D. Mulla, M. Schneebeli<br />
and F. Staufer, Effective large scale unsaturated flow and transport properties, In Field Scale<br />
Water and Solute Fluxes in Soils, Birkhauser-Verlag, Basel, 1990.<br />
Parker, J. C., L. W. Gelhar, R. Ababou, G. Butters, G. de Marsily, D. Mulla, M. Schneebeli<br />
and F. Staufer, Effective large scale unsaturated flow and transport properties, Field Scale<br />
Water and Solute Flux in Soils, Birkhauser-Verlag, Basel, 1990.<br />
Katyal, A. K., J. J. Kaluarachchi and J. C. Parker, M<strong>OF</strong>AT: A Two-dimensional Finite<br />
Element Program for Multiphase Flow and Multicomponent Transport, U. S. EPA Report on<br />
Project CR-81432, 1991.<br />
Parker, J. C., Katyal, A. K., J. J. Kaluarachchi, R. J. Lenhard, T. G. Johnson, K. Jayaraman<br />
and K. Unlu, Modeling Multiphase Organic Chemical Transport in Soils and Groundwater,<br />
U. S. EPA Project Summary 600/S2-91/ 042, 1991.<br />
Parker, J. C., D. A. Waddill and J. A. Johnson, UST Corrective Action Technologies:<br />
<strong>Engineering</strong> Design or Free Product Recovery Systems, U. S. EPA Risk Reduction<br />
<strong>Engineering</strong> Laboratory Report, EPA600/R-96/031, 1994.<br />
Waddill, D. A. and J. C. Parker, Modeling <strong>of</strong> Non-Aqueous Phase Liquid Migration and<br />
Recovery in Heterogeneous Aquifers, Soil and Aquifer Pollution: Non-Aqueous Phase<br />
Liquids Contamination and Reclamation, H. Rubin et al. (eds.) Springer-Verlag, Heidelberg,<br />
220-235, 1998.<br />
Sleep, B.E., C.R. Faust, N.D. Durant, J.C. Parker, J.G. Guarnaccia, L. Sehayek and M.R.<br />
Harkness, Modeling fate and transport <strong>of</strong> chlorinated organic compounds in the subsurface,<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 18
In: C.C. Chien et al. (eds), Environmental Modeling and Management: Theory, Practice and<br />
Future Directions, DuPont, 2003.<br />
Sleep, B., C. Shackelford, J. Parker, T. Early, R. Landis,M. Malusis, M. Manassero, G.<br />
Newman, R. Puls and T. Sullivan, Performance Prediction for Permeable Reactive Barriers,<br />
In C. C. Chien et al. (eds), Barrier Systems for Environmental Contaminant Containment and<br />
Treatment, CRC Press. 2005.<br />
Proceedings and Published Abstracts<br />
Parker, J. C., D. F. Amos and D. L. Kaster, The evaluation <strong>of</strong> several indirect methods <strong>of</strong><br />
estimating soil shrink-swell potential, Soil Sci. Soc. Am. Mtg. Abst., p. 165, 1976.<br />
Parker, J. C., L. W. Zelazny and D. F. Amos, An evaluation <strong>of</strong> the tactoid model <strong>of</strong> soil<br />
swelling, Trans. Amer. Geophys. Union, 58, 1134, 1977.<br />
Parker, J. C., L. W. Zelazny, S. Sampath and W. G. Harris, Electrochemical properties <strong>of</strong><br />
soils from a topochronosequence in terraced alluviu, Soil Sci. Soc. Am. Mtg. Abst., p. 198,<br />
1978.<br />
Harris. W. G., S. Sampath, L. W. Zelazny, D. A Lietzke, J. C. Parker, and W. J. Edmonds,<br />
Mineralogy <strong>of</strong> a chronosequence formed in New River alluvium, Soil Sci. Soc. Am. Mtg.<br />
Abst., p. 27, 1979.<br />
Parker, J. C., L. W. Zelazny and D. F. Amos, Microstructure and swelling <strong>of</strong> compacted Camontmorillonite,<br />
Clay Min. Soc. Mtg., 24,1979.<br />
Parker, J. C. and L. W. Zelazny, Effect <strong>of</strong> geostatic loads on double layer interactions, Soil<br />
Sci. Soc. Am. Mtg. Abst., p. 152, 1981.<br />
Harris, W. G., L. W. Zelazny, J. C. Parker and R. S. Weber, Examination <strong>of</strong> the micaceous<br />
mineralogical class in soil taxonomy, Soil Sci. Soc. Am. Mtg. Abst., p. 242, 1981.<br />
Bell, J. C., D. F. Amos and J. C. Parker, Evaluation <strong>of</strong> slope stability and foundation<br />
suitability for four southwestern Virginia mine soils, Proc. Symp. Surface Mining,<br />
Hydrology, Sedimentology and Reclamation, Lexington Kentucky, 549-554, 1983.<br />
Kool, J. B. and J. C. Parker, Determination <strong>of</strong> moisture retention and hydraulic conductivity<br />
functions from one-step outflow/inflow experiments, Soil Sci. Soc. Am. Mtg. Abst., p. 141,<br />
1983.<br />
Albrecht, K. A., S. D. Logsdon, J. C. Parker and J. C. Baker, Spatial variability <strong>of</strong> physical<br />
properties in the Emporia series, Soil Sci. Soc. Am. Mtg. Abst., p. 183, 1983.<br />
Parker, J. C. and B. Caplin, Evaluation <strong>of</strong> solute transport parameters from laboratory tracer<br />
experiments in soils with large pores, Soil Sci. Soc. Am. Mtg. Abst., p. 142, 1983.<br />
Parker, J. C., A probability distribution model for field-scale solute transport, Soil Sci. Soc.<br />
Am. Mtg. Abst., p. 171, 1984.<br />
Parker, J. C., T. G. Naymik and M. E. Sievers, Evaluation <strong>of</strong> solute transport parameters<br />
from a natural gradient groundwater tracer experiment, Trans. Am. Geophs. Union, 65, p.<br />
207, 1984.<br />
Kool, J. B. and J. C. Parker, Evaluation <strong>of</strong> theoretical and empirical hysteresis models, Soil<br />
Sci. Soc. Am. Mtg. Abst., p. 169, 1984.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 19
Simon, J. J., R. B. Reneau and J. C. Parker, A field evaluation <strong>of</strong> models for transient solute<br />
transport, Soil Sci. Soc. Am. Mtg. Abst., p. 172, 1984.<br />
Zelazny, L. W., P. M. Jardine and J. C. Parker, Mechanisms <strong>of</strong> Al sorption on clay minerals<br />
and peat using a kinetic approach, Soil Sci. Soc. Am. Mtg. Abst., p. 181, 1984.<br />
Jardine, P. M., J. C. Parker and L. W. Zelazny, A two-site nonequilibrium transport model<br />
for Al(+3) adsorption on kaolinite, Soil Sci. Soc. Am. Mtg. Abst., p. 168, 1984.<br />
Kool, J. B., J. C. Parker, and J. C. Baker, Hydrologic characterization <strong>of</strong> an upland Virginia<br />
landscape, Annual Meeting, Amer. Soc. Agric. Eng., Knoxville Tennessee, 1984.<br />
Jardine, P. M., J. C. Parker and L. W. Zelazny, Effects <strong>of</strong> multisite ion selectivity and<br />
adsorption kinetics on K-Ca transport in soil, Trans. Am. Geophys. Union, 66, 273, 1985.<br />
Kool, J. B., J. C. Parker and M. Th. van Genuchten, Evaluation <strong>of</strong> soil hydraulic properties<br />
by nonlinear least-squares parameter analysis, Trans. Am. Geophys. Union, 66, 274, 1985.<br />
Parker, J. C. and A. J. Valocchi, Modeling <strong>of</strong> diffusional nonequilibrium in structured porous<br />
media, Trans. Am. Geophys. Union, 66, 274, 1985.<br />
Albrecht, K. A, and J. C. Parker, Sample volume effects on hydraulic and solute transport<br />
parameters, Soil Sci. Soc. Am. Mtg. Abst., p. 138, 1985.<br />
Kool, J. B. and J. C. Parker, Prediction <strong>of</strong> hysteretic flow processes, Soil Sci. Soc. Am. Mtg.<br />
Abst., p. 141, 1985.<br />
Lenhard, R. J. and J. C. Parker, Extension <strong>of</strong> two-phase capillary pressure relationships to<br />
three-phase systems, Trans. Am. Geophys. Union, 66, 893, 1985.<br />
Barry, D. A. and J. C. Parker, Analysis <strong>of</strong> solute transport through layered soils, Trans. Am.<br />
Geophys. Union, 66, 881, 1985.<br />
Parker, J. C. and D. A. Barry, Theoretical and experimental analysis <strong>of</strong> transport in fractured<br />
porous media, Trans. Am. Geophys. Union, 66, 881, 1985.<br />
Kaluarachchi, J. J. and J. C. Parker, Finite element analysis <strong>of</strong> water flow in variably<br />
saturated soil, Trans. Am. Geophys. Union, 67, 279, 1986.<br />
Kuppusamy, T, J. Sheng, J. C. Parker and R. J. Lenhard, Finite element formulation <strong>of</strong> threephase<br />
immiscible flow through soils, Trans. Am. Geophys. Union, 67, 279, 1986.<br />
Lenhard, R. J., J. C. Parker and T. Kuppusamy, Parametric model for constitutive properties<br />
governing multiphase fluid conduction in air-water-hydrocarbon porous media systems,<br />
Trans. Am. Geophys. Union, 67, 279, 1986.<br />
Lenhard, R. J., J. C. Parker and T. Kuppusamy, Prediction <strong>of</strong> multiphase flow phenomena<br />
from scaled two-phase retention data, Soil Sci. Soc. Am. Mtg. Abst., p.159, 1986.<br />
Kaluarachchi, J. J. and J. C. Parker, Numerical simulation <strong>of</strong> hysteretic flow in the<br />
unsaturated zone, Trans. Am. Geophys. Union,67, 941, 1986.<br />
Parker, J. C., T. Kuppusamy and R. J. Lenhard, Modeling organic chemical transport in three<br />
fluid phase porous media systems, Trans. Am. Geophys. Union, 67, 945, 1986.<br />
Lenhard, R. J. and J. C. Parker, Measurement <strong>of</strong> three-phase fluid pressure-saturation<br />
relations in porous media, Trans. Am. Geophys. Union, 67, 945, 1986.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 20
Kool, J. B. and J. C. Parker, Inverse problem solution for determination <strong>of</strong> in-situ soil<br />
hydraulic properties, Trans. Am. Geophys. Union, 67, 938, 1986.<br />
Kool, J. B., J. C. Parker, and M. Th. van Genuchten, The inverse problem for hysteretic<br />
unsaturated flow, Proc. 6th Int. Conf. on Finite Elements in Water Resources, Lisbon, 1986.<br />
Parker, J. C., R. J. Lenhard and T. Kuppusamy, Modeling multiphase contaminant transport<br />
in groundwater and vadose zones, Proc. Conf. on Petroleum Hydrocarbons and Organic<br />
Chemicals in Groundwater, Houston Texas, NWWA, p. 189-203, 1986.<br />
van Genuchten, M. Th., J. C. Parker and J. B. Kool, Analysis and prediction <strong>of</strong> water and<br />
solute transport in a large lysimeter, In: E. P. Springer and H. R. Fuentes (eds.), Modeling<br />
Study <strong>of</strong> Solute Transport in the Unsaturated Zone, Los Alamos Nat. Lab., U.S. NRC,<br />
NUREG/CR-4615, 4-31, 1987.<br />
Huyakorn, P. S., B. G. Jones, J. C. Parker, T. D. Wadsworth, and H. O. White, Finite element<br />
simulation <strong>of</strong> moisture movement and solute transport in a large caisson, In: E. P. Springer<br />
and H. R. Fuentes (eds.), Modeling Study <strong>of</strong> Solute Transport in the Unsaturated Zone, Los<br />
Alamos Nat. Lab., U.S. NRC, NUREG/CR-4615, 117-170, 1987.<br />
van Genuchten, M. Th., J. B. Kool and J. C. Parker, Parameter estimation for various<br />
contaminant transport models, Proc. Conf. on Reliability and Robustness <strong>of</strong> <strong>Engineering</strong><br />
S<strong>of</strong>tware, Como Italy, Computational Mechanics Institute, Wessex UK, 1987.<br />
Parker, J. C., R. J. Lenhard, and T. Kuppusamy, Measurement and estimation <strong>of</strong><br />
permeability-saturation-pressure relations in multiphase porous media systems, Proc. Conf.<br />
on Design and Optimization <strong>of</strong> Processes in Natural Porous Media, Nancy France, 139-150,<br />
1987.<br />
Parker, J. C., T. Kuppusamy, and B. H. Lien, Modeling immiscible organic chemical<br />
transport in soils and groundwater, Proc. Groundwater Contamination: Use <strong>of</strong> Models in<br />
Decision Making, Amsterdam, Martinus Nijh<strong>of</strong>f, October, 1987.<br />
Huyakorn, P. S., Z. A. Saleem, J. C. Parker and B. H. Lester, Alternative modeling<br />
approaches for subsurface transport <strong>of</strong> nonaqueous phase organic wastes, Trans. Am.<br />
Geophys. Union, 68, 326, 1987.<br />
Lenhard, R. J., J. H. Dane, J. C. Parker and T. Kuppusamy, Measurement <strong>of</strong> oil and water<br />
flow through porous media, Trans. Am. Geophys. Union, 68, 311, 1987.<br />
Kool, J. B., J. C. Parker and P. J. Wierenga, Application <strong>of</strong> inverse method for characterizing<br />
spatial variability <strong>of</strong> unsaturated soil hydraulic properties, Trans. Am Geophys. Union, 68,<br />
301, 1987.<br />
Lenhard, R. J. and J. C. Parker, Modeling two phase hysteretic permeability-saturationpressure<br />
relations including effects <strong>of</strong> nonwetting fluid entrapment, Soil Sci. Soc. Am. Mtg.<br />
Abst., p. 161, 1987.<br />
Kool, J. B. and J. C. Parker, Inverse methods for determining unsaturated hydraulic<br />
properties, Soil Sci. Soc. Am. Mtg. Abst., p.160, 1987.<br />
Kaluarachchi, J. J. and J. C. Parker, Analysis <strong>of</strong> multispecies transformation and transport <strong>of</strong><br />
nitrogen in the unsaturated zone, Trans. Am. Geophys. Union, 68, 1275, 1987.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 21
Lenhard, R. J. and J. C. Parker, A model for hysteretic permeability-saturation-pressure<br />
relations in three fluid phase porous media systems, Trans. Am. Geophys. Union, 68, 1281,<br />
1987.<br />
Parker, J. C. and R. J. Lenhard, Hysteretic flow in three phase porous media systems, Trans.<br />
Am. Geophys. Union, 68, 1275, 1987.<br />
Kool, J. B. and J. C. Parker, Effects <strong>of</strong> spatial variability on flow and transport in the<br />
unsaturated zone, Trans. Am. Geophys. Union, 69, 52, 1988.<br />
Kaluarachchi, J. J. and J. C. Parker, Modeling <strong>of</strong> multiphase flow with improved techniques<br />
for efficiency and mass conservation, Trans. Am. Geophys. Union, 69, 352, 1988.<br />
Lenhard, R. J., J. C. Parker and R. J. Lenhard, Simulating a pulse injection <strong>of</strong> nonaqueous<br />
phase liquid into the vadose zone with a fluctuating water table, Trans. Am. Geophys. Union,<br />
69, 352, 1988.<br />
Mishra, S. and J. C. Parker, Parameter estimation for coupled flow and transport, Trans. Am.<br />
Geophys. Union, 69, 355, 1988.<br />
Katyal, A. K., J. C. Parker and J. J. Kaluarachchi, Modeling three phase flow with non-zero<br />
gas phase pressure gradients, Trans. Am. Geophys. Union, 69, 1201, 1988.<br />
Kaluarachchi, J. J. and J. C. Parker, Modeling <strong>of</strong> multiphase organic transport with gas phase<br />
convection, Trans. Am. Geophys. Union, 69, 1169, 1988.<br />
Lenhard, R. J. and J. C. Parker, Estimation <strong>of</strong> oil volumes in soils from observed fluid levels<br />
in monitoring wells, Trans. Am. Geophys. Union, 69, 1212, 1988.<br />
Mishra, S. and J. C. Parker, Analysis <strong>of</strong> uncertainty in predictions <strong>of</strong> hydrocarbon recovery<br />
from spill sites, Trans. Am. Geophys. Union, 69, 1213, 1988.<br />
Parker, J. C., J. J. Kaluarachchi and R. J. Lenhard, Experimental and numerical<br />
investigations <strong>of</strong> constitutive relations governing multiphase flow, Proc. Conf. on Validation<br />
<strong>of</strong> Flow and Transport Models for the Unsaturated Zone, Ruidoso New Mexico, 1988.<br />
Parker, J. C., J. J. Kaluarachchi and A. K. Katyal, Areal simulation <strong>of</strong> free product recovery<br />
from a gasoline storage tank leak site, Proc. Petroleum Hydrocarbons and Organic Chemical<br />
in Groundwater, National Water Well Assoc. Houston, 315-332, November, 1988.<br />
Parker, J. C. and J. J. Kaluarachchi, A numerical model for design <strong>of</strong> free product recovery<br />
systems at hydrocarbon spill sites, Proc. 4th Int. Conf. on Solving Ground Water Problems<br />
with Models, Nat. Water Well Assoc., Indianapolis, 271-281, 1989.<br />
Mishra, S. and J. C. Parker, Methods <strong>of</strong> estimating hydraulic and transport parameters for the<br />
unsaturated zone, Proc. New Field Techniques for Quantifying Physical and Chemical<br />
Properties <strong>of</strong> Heterogeneous Aquifers, Houston, NWWA, 1989.<br />
Lenhard, R. J. and J. C. Parker, Modeling multiphase fluid hysteresis and comparing results<br />
to laboratory investigations, Proc. Workshop in Indirect Methods for Estimating Hydraulic<br />
Properties <strong>of</strong> Unsaturated Soils, Riverside California, 1989.<br />
Mishra, S. and J. C. Parker, Predictive models for unsaturated flow parameters, In Proc. <strong>of</strong><br />
the International Workshop on Indirect Methods for Estimating Hydraulic Properties <strong>of</strong><br />
Unsaturated Soils, Riverside California, 1989.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 22
Zhu, J., S. Mishra and J. C. Parker, Effective properties for modeling unsaturated flow in<br />
large scale heterogeneous porous media, Proc. from the Workshop on Field Scale Water &<br />
Solute Flux in Soils, Monte Verita Switzerland, 1989.<br />
Mishra, S. and J. C. Parker, Stochastic analysis <strong>of</strong> multiphase organic chemical transport in<br />
heterogeneous porous media, Trans. Am. Geophys. Union, 70, 326, 1989.<br />
Lenhard, R. J. and J. C. Parker, Modeling nonwetting fluid entrapment in two fluid phase<br />
porous media systems, Trans. Am. Geophys. Union, 70, 338, 1989.<br />
Kaluarachchi, J. J. J. C. Parker and R. J. Lenhard, Effects <strong>of</strong> fluid entrapment and hysteresis<br />
on transport <strong>of</strong> organics in multiphase media, Trans. Am. Geophys. Union, 70, 340, 1989.<br />
Katyal, A. K. and J. C. Parker, Three dimensional finite element model for three phase flow<br />
in porous media, Trans. Am. Geophys. Union, 70, 1087, 1989.<br />
Parker, J. C., A. K. Katyal, J. L. Zhu and S. Mishra, Estimation <strong>of</strong> spill volume from<br />
monitoring well networks, Proc. 4th Nat. Outdoor Action Conf., Las Vegas, 1233-1243, May<br />
1990.<br />
Mishra, S., J.L. Zhu, and J. C. Parker, How effective are effective porous medium<br />
properties?, MODELCARE 90: Proc. Int. Conf. on Calibration and Reliability in<br />
Groundwater Modeling. The Hague, IAHS 195: 521-528, Sept. 3-6 1990.<br />
Parker, J. C. and J. J. Kaluarachchi, Modeling multicomponent organic chemical transport.<br />
Proc. Conf. on Subsurface Contamination by Immiscible Fluids, Calgary Canada, 159-165,<br />
April 17- 20, 1990.<br />
Kaluarachchi, J. J., J. C. Parker and R. J. Lenhard, Modeling flow in three fluid phase porous<br />
media with nonwetting fluid entrapment, Proc. Conf. on Subsurface Contamination by<br />
Immiscible Fluids, Calgary, Canada, April 17-20 1990.<br />
Katyal, A. K., J. J. Kaluarachchi and J. C. Parker, Evaluation <strong>of</strong> methods for improving the<br />
efficiency and robustness <strong>of</strong> multiphase flow equations, Proc. Conf. on Subsurface<br />
Contamination by Immiscible Fluids, Calgary Canada, 203-209, April 17-20 1990.<br />
Parker, J. C., J. J. Kaluarachchi, V. J. Kremesec and E. L. Hockman, Modeling free product<br />
recovery at hydrocarbon spill sites, Proc. Petroleum Hydrocarbons and Organic Chemical in<br />
Groundwater, NWWA, Houston, 641-655, October 1990.<br />
Parker, J. C., A. K. Katyal, J. L. Zhu, V. J. Kremesec and E. L. Hockman, Free product<br />
recovery at spill sites with fluctuating water tables, Proc. 5th Nat. Outdoor Action Conf.,<br />
NWWA, Las Vegas, 291-305, 1991.<br />
Bruggeman, A. C., S. Mostaghimi and J. C. Parker, Simulation <strong>of</strong> preferential flow and<br />
solute transport using an efficient finite element model, Symp. on Preferential Flow,<br />
Chicago, ASAE, 1991.<br />
Zhu, J. L., J. C. Parker, A. K. Katyal, V. J. Kremesec, E. L. Hockman and M. N. Gallagher,<br />
Effects <strong>of</strong> delays in recovery system startup on product recovery at hydrocarbon spill sites,<br />
Proc. Conf. on Hydrocarbons in Groundwater, NWWA, Houston, November, 1991.<br />
Katyal, A. K., P. K. Patel and J. C. Parker, Modeling transport <strong>of</strong> organic chemicals in gas<br />
and liquid phases, In: EPA Proceedings <strong>of</strong> the Symposium on Soil Venting, EPA/600/R-<br />
92/174:75-90, 1992.<br />
<strong>RESUME</strong> <strong>OF</strong> J. C. <strong>PARKER</strong> PAGE 23
Parker, J. C., J. Zhu and H. White, Modeling phase separated hydrocarbon migration and<br />
recovery in anisotropic fractured media, Proc. Petroleum Hydrocarbons in Groundwater<br />
Conference, NGWA, Houston, 255-267, November 1992.<br />
Katyal, A. K. and J. C. Parker, Optimizing the design <strong>of</strong> soil vacuum extraction systems,<br />
Proc. <strong>of</strong> the Petroleum Hydrocarbons and Organic Chemicals in Ground Water, NGWA,<br />
Houston Texas, 99-112, November 1993.<br />
Parker, J. C., K. Unlu and M. W. Kemblowski, A monte carlo model to assess effects <strong>of</strong><br />
land-disposed E&P waste on groundwater quality, Soc. Petroleum Eng. SPE 26383, 121-130,<br />
1993.<br />
Zhu, J. L., J. C. Parker, D. A. Lundy and L. M. Zimmerman, Estimation <strong>of</strong> soil properties<br />
and free product volume from baildown tests, Proc. <strong>of</strong> the Petroleum Hydrocarbons and<br />
Organic Chemicals in Ground Water, NGWA, Houston Texas, 273-284, November 1993.<br />
Parcher, M. A., J. A. Johnson and J. C. Parker, Effects <strong>of</strong> soil type on separate phase<br />
hydrocarbon recovery under fluctuating water conditions, Proc. <strong>of</strong> the Petroleum<br />
Hydrocarbons and Organic Chemicals in Ground Water, NGWA, Houston Texas, 439-452,<br />
1995.<br />
Waddill, D. A. and J. C. Parker, Stochastic Modeling <strong>of</strong> Nonaqueous Phase Liquid Recovery<br />
from a Heterogeneous Aquifer, Proc. ModelCare96 Conference, IGWMC, Golden, Colorado,<br />
1996.<br />
Johnson, J. A., Parcher, M. A., J. C. Parker and W. J. Seaton, VOC vapor transport:<br />
implications for risk assessment, Proc. Petroleum Hydrocarbons and Organic Chemicals in<br />
Ground Water, NGWA, Houston Texas, 307-318, 1996.<br />
Parker, J. C. and M. Islam, Cost optimization <strong>of</strong> air injection/extraction system design, Proc.<br />
<strong>of</strong> the Petroleum Hydrocarbons and Organic Chemicals in Ground Water, NGWA, Houston<br />
Texas, 839-850,1996.<br />
Parker, J. C., A. Dimos and M. Islam, Cost effectiveness <strong>of</strong> selected remediation<br />
technologies and design protocols, Proc. WasteTECH Conference, AWWA, Melbourne<br />
Australia, March 1997.<br />
Johnson, J. A. and J. C. Parker, Cost minimization strategies for site characterization and<br />
remediation using design penalty cost, Proc. Petroleum Hydrocarbons and Organic<br />
Chemicals in Ground Water, NGWA, Houston Texas, 1999.<br />
Parker, J. C., Modeling volatile chemical transport, biodecay and emission to indoor air,<br />
Proc. Petroleum Hydrocarbons and Organic Chemicals in Ground Water, NGWA, Houston<br />
Texas, 1999.<br />
Fisher, L. S, D. Cole, J. Blencoe, G.R. Moline, J. Parker, T.J. Phelps. 2003. High Pressure<br />
Flow-Through Column for Assessing Subsurface Carbon Sequestration. Proceedings <strong>of</strong> the<br />
Second National conference on Carbon Sequestration. Washington, DC. April, 2003.<br />
Park, E. and J.C. Parker, Effect <strong>of</strong> partial flow reductions on DNAPL source dissolution rate,<br />
abstract submitted for poster presentation, Remediation <strong>of</strong> chlorinated and recalicitrant<br />
compounds, Battelle, Monterey, CA May 2004.<br />
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Parker, J.C. and E. Park, Field scale dissolution kinetics for DNAPL sources, abstract<br />
submitted for poster presentation, SERDP Environmental Symposium, Washington DC,<br />
December 2003.<br />
Zhang, F., J. C. Parker, M.N. Pace, Y.-J. Kim, S.C. Brooks, and P.M. Jardine, 2005, Reactive<br />
uranium(VI) transport simulation using HYDROGEOCHEM(HGC) 5.0, NABIR Annual PI<br />
Meeting, April 2005, Oak Ridge TN.<br />
Parker, J. C. and E. Park, 2004, A Field-scale model for DNAPL source depletion with time:<br />
model development, calibration and uncertainty, SERDP Environmental Symposium,<br />
Washington DC, December 2004.<br />
Zhang, F., J.C. Parker, D.B. Watson, E. Park, and S.C. Brooks, 2005, Subsurface flow and<br />
non-reactive transport modeling at the FRC: Site-wide and Area 3 models, NABIR PI<br />
Meeting, Oak Ridge TN, October.<br />
Mayes, M.A., E. Perfect, J.C. Parker, J.-P. Gwo, S. Fendorf and P.M. Jardine, 2006,<br />
Quantification <strong>of</strong> hydrological, geochemical and mineralogical processes governing the fate<br />
and transport <strong>of</strong> uranium over multiple scales in Hanford sediments, NABIR PI Meeting,<br />
Oak Ridge TN, October.<br />
Zhang, F., J. Parker, P. Jardine, M. Mayes, T. Mehlhorn, JP Gwo and S. Cesar, 2006, Scale<br />
effects on apparent reaction kinetics at the Oak Ridge FRC, NABIR PI Meeting, Oak Ridge<br />
TN, October.<br />
Parker, J.C., F. Zhang and E. Park, 2006, A model for dissolved solvent transport with<br />
DNAPL source depletion, volatilization and decay: numerical and analytical solutions and<br />
uncertainty analysis. SERDP Environmental Symposium, Washington DC, November 2006.<br />
Parker, J.C. and F. Zhang, 2006, Efficient Formulations <strong>of</strong> Heat and Mass Transfer in Oil<br />
Shale Retort Models, 26 th Oil Shale Symposium, Colorado School <strong>of</strong> Mines, Golden<br />
Colorado, October 19-21.<br />
Paper on “Contaminant Transport with Time-Dependent DNAPL Source Dissolution<br />
Kinetics and Biodecay: Effects <strong>of</strong> Partial Mass Removal, Flow Reduction and Enhanced<br />
Biodecay” at American Geophyical Union Meeting, San Francisco, December 2006.<br />
Invited paper on “Effectiveness <strong>of</strong> various source zone and dissolved plume remediation<br />
measures for sites with residual DNAPL and DNAPL pool sources” at American Geophyical<br />
Union Meeting, Acapulco, Mexico, May 2007.<br />
Parker, J. C. and Park, E., Contaminant transport with time-dependent DNAPL source<br />
dissolution kinetics and biodecay: effects <strong>of</strong> partial mass removal, flow reduction and<br />
enhanced biodecay, AGU Meeting, San Francisco, December 2006.<br />
Parker, J. C. and J. A. Christ, Effectiveness <strong>of</strong> various source zone and dissolved plume<br />
remediation measures for sites with residual DNAPL and DNAPL pool sources, AGU<br />
Meeting, Acapulco, May 2007 (invited).<br />
Tang, G., M.A. Mayes and J.C. Parker, Model Discrimination for Nonlinear Least Square<br />
Fitting <strong>of</strong> Breakthrough Curves Using Uncertainty Analysis, USGS Unsaturated Zone<br />
Interest Group Meeting, Los Alamos, New Mexico, August 27-30, 2007.<br />
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Tom Wood, T., T. Dammer, J. Patten, C. Wilson, R. Skaggs and J. Parker, An Overview <strong>of</strong><br />
the Water Management Plan for Commercialization <strong>of</strong> America’s Unconventional Fuels, 27 th<br />
Oil Shale Symposium, Colorado School <strong>of</strong> Mines, Golden Colorado, October 2007.<br />
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