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JOHN M. FARR t�j
<br /> F E B 1 0 1994
<br /> remedial investigation and feasibility studies
<br /> vadose-zone processes arp{j �jro ; gTrb�ena
<br /> environmental and Ii&WITMOR'dl ssment
<br /> groundwater hydrology and hydraulics
<br /> EDUCATION
<br /> Colorado State University, Fort Collins: Ph.D., Chemical & Agricultural
<br /> Engineering (Chemical Transport and Groundwater Hydrology), 1993
<br /> Colorado State University, Fort Collins: M.S. Earth Resources (Hydrology), 1982
<br /> Colorado State University, Fort Collins: B.S. Watershed Sciences, 1979
<br /> Additional graduate coursework at University of Arizona, University of Waterloo, and
<br /> Stanford University, 1979-1988
<br /> REGISTRATION
<br /> E.I.T.: California, No. XE063868, 1985
<br /> PROFESSIONAL HISTORY
<br /> ICF Kaiser Engineers, Inc., Chief Scientist, 1993 to date
<br /> Levine-Fricke, Inc., Senior Associate Hydrologist, 1990-1993
<br /> McLaren-Hart Environmental Engineering, Principal Hydrogeologist, 1989-1990
<br /> U.S. Geological Survey, Water Resources Division, Research Hydrologist, 1987-1989
<br /> Colorado State University, Chemical and Agricultural Engineering Department,
<br /> Researcher III, 1986-1989
<br /> McLaren Environmental Engineering, Senior Hydrologist, 1984-1986
<br /> U.S. Geological Survey, Water Resources Division, Research Hydrologist, 1982-1984
<br /> Colorado State University, Earth Resources Department, Graduate Research
<br /> Assistant and Teacher, 1979-1982
<br /> Office of Surface Mining, Hydrologist, 1979
<br /> U.S. Geological Survey, Hydrologic Field Assistant, 1978-1979
<br /> REPRESENTATIVE EXPERIENCE
<br /> Dr. Farr is a groundwater hydrologist with 14 years of diverse experience in the
<br /> environmental field. His interdisciplinary background in earth sciences and engineering,
<br /> plus his experience in the research, regulatory, and consulting sectors, make him
<br /> uniquely qualified to deal with difficult environmental problems. Dr. Farr has
<br /> exceptional knowledge of multi-phase, multi-component subsurface transport processes
<br /> as applied to remedial investigations, feasibility studies, remedial design/remedial
<br /> action, and exposure assessment for the analysis of environmental and health risks.
<br /> He has extensive experience in designing, operating, and evaluating the effectiveness
<br /> of remedial measures that rely on subsurface fluid circulation, including aquifer
<br /> dewatering, free-product recovery, and soil-vapor extraction. Dr. Farr is particularly
<br /> well known for his work determining site-specific, health-based soil cleanup levels for
<br /> numerous sites, including several Superfund sites. Dr. Farr's Ph.D. dissertation on
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