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Environmental Remediation Science DOE Office of Science BER Advisory Committee July 11, 2006 U.S. Department of Energy Office of Science Office of Biological & Environmental Research Environmental Remediation Sciences Division
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Office of Science U.S. Department of Energy Nuclear Weapons Complex
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Office of Science U.S. Department of Energy Department of Energy Federal Energy Regulatory Commission Secretary Samuel Bodman $23.5B FY 2006 Under Secretary for Nuclear Security/ Administrator for Nuclear Security $9.1B Under Secretary for Energy, Science and Environment $13B Deputy Administrator for Defense Programs Deputy Administrator for Defense Nuclear Nonproliferation Deputy Administrator for Naval Reactors Director, Office of Science $3.6B Assistant Secretary for Fossil Energy $841M Assistant Secretary for Energy Efficiency and Renewable Energy $1.1B Nuclear En, Science & Tech $535M Energy Information Administration Power Marketing Administration Assistant Secretary for Environmental Management $6.5B Office of Civilian Radioactive Waste Management $495M Departmental Staff and Support Offices General Counsel Chief Financial Officer Assistant Secretary for Environment, Safety and Health Assistant Secretary for Congressional & Intergovnm'tal Affairs Assistant Secretary for International Affairs Office of Economic Impact and Diversity Inspector General Counterintelligence Intelligence Office of Security and Emergency Operations/ Chief Information Officer Office of Independent Oversight and Performance Assurance Office of Public Affairs Office of Policy Office of Management and Administration Office of Worker and Community Transition Office of Hearings and Appeals Contract Reform and Privatization Project Office Secretary of Energy Advisory Board Defense Nuclear Facilities Safety Board Liaison Legacy Management $77M
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Office of Science U.S. Department of Energy Environmental Remediation Sciences Division (~$90M) Fundamental research for DOE environmental problems. Supports a research program and a national scientific user facility: Environmental Remediation Sciences Program $47.5M Environmental Molecular Sciences Laboratory (EMSL) $39M The William R. Wiley Environmental Molecular Sciences Laboratory (EMSL), a U.S. Department of Energy national scientific user facility located at Pacific Northwest National Laboratory (PNNL) in Richland, Washington provides integrated experimental and computational resources for discovery and technological innovation in the environmental molecular sciences to support the needs of DOE and the nation.
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Office of Science U.S. Department of Energy ERSD Mission …Advance the fundamental science leading to solutions to currently intractable environmental problems or to break-through strategies for remediation of the DOE sites and other DOE environmental and energy missions. Bioimmobilization of chromium from groundwater at the Hanford site
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Office of Science U.S. Department of Energy In the last 6 months…… Personnel Teresa Fryberger (Division Director) continues on detail to OSTP David Lesmes hired (Program Manager, geophysics) Mike Kuperberg hired (Acting Division Director, toxicology) Two research calls currently in process Follow-on Review of EMSL by BERAC Termination of high-level waste research due to FY 2007 budget reductions
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Office of Science U.S. Department of Energy Environmental Remediation Sciences Program FY 2006 Budget consolidated two former programs into a single research program Environment Remediation Sciences Program (ERSP) Maintains interest in processes that control contaminant mobility in subsurface Focus on DOE-relevant metals and radionuclides
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Office of Science U.S. Department of Energy Performance Monitoring Long-term measure “By 2015, provide sufficient scientific understanding to allow a significant fraction of DOE sites to incorporate coupled biological, chemical and physical processes into decision making for environmental remediation and long-term stewardship” Annual Target FY 2006: Develop predictive model for contaminant transport that incorporates complex biology, hydrology, and chemistry of the subsurface. Validate model through field tests Quarterly Milestones
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Office of Science U.S. Department of Energy ERSP Strategic Plan Research Goals Develop an improved understanding of the processes governing the fate and transport of contaminants to predict and control environmental remediation and facilitate stewardship of DOE sites Fundamental, molecular-level understanding of observed phenomena Coupled biological, chemical and hydrogeologic processes at field relevant spatial scales Conceptual models for realistic process and parameter upscaling in field environments Explore new options and concepts for remediation of subsurface systems Microbial metabolic processes that control contaminant mobility Key redox/complexation reactions and degradation pathways Form and stability of immobilized contaminants Genomics:GTL tools for genomics and proteomics Provide the scientific foundation for new measurement and monitoring tools to better understand and manage contaminant transport Changes in microbial community composition and metabolic potential Measuring biogeochemical and hydrologic responses Assessing chemical speciation in sediments and waters http://www.sc.doe.gov/ober/ERSD/Strategic_plan_cover_letter.html
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Office of Science U.S. Department of Energy Current Solicitations ER06-12 Environmental Remediation Sciences Program ($20M) ~180 proposals received in 5 research elements hypothesis-driven research to define biologically-mediated and/or hydrogeochemical processes influencing the form and mobility of DOE contaminants address the applicability of the proposed research to DOE relevant contaminant transport processes occurring in the field ER06-16 Integrated Field-Scale Subsurface Research Challenge ($6M) Expecting five full proposals (due July 27) establish field research site(s) where integrated science teams manage and conduct field-site research over a five year period. hypothesis-based field research on key processes influencing the subsurface transport, immobilization or remobilization of metal and radionuclide contaminants at DOE sites provide samples and short-term access to other ERSD investigators
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Office of Science U.S. Department of Energy Contact information DOE Office of Science Office of Biological and Environmental Research Environmental Remediation Sciences Division 301-903-4902 Todd Anderson - Todd.Anderson@science.doe.govTodd.Anderson@science.doe.gov Paul Bayer - Paul.Bayer@science.doe.govPaul.Bayer@science.doe.gov Roland Hirsch – Roland.Hirsch@science.doe.govRoland.Hirsch@science.doe.gov Arthur Katz – Arthur.Katz@science.doe.gov Mike Kuperberg - Michael.Kuperberg@science.doe.govMichael.Kuperberg@science.doe.gov Kim Laing – Kim.Laing@science.doe.gov David Lesmes - David.Lesmes@science.doe.govDavid.Lesmes@science.doe.gov Judy Nusbaum – Judy.Nusbaum@science.doe.gov
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Injection of Lactate Pumping Hanford 100-H Area Zone of Stimulated Cr(VI) reduction Cr(VI) ppm Injection well Downgradient well HRC injectionPumping stopped Days 0.001 1.00 NABIR/ERSP project demonstrates stimulated in situ reduction of Cr(VI) to immobile Cr(III) at Hanford 100-H Area. EM-20 project will use the field test data at 100-H to install a pilot test of stimulated in situ Cr(VI) reduction at the Hanford 100-D area. Example of technology transfer from SC to EM. PNNL and LBNL Collaborative project Funded through the NABIR program Office of Science U.S. Department of Energy Environmental Remediation Technology Development and Transfer to Hanford Cleanup Operations Courtesy of TC Hazen, LBNL
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10/9/2003ERSD Overview13 Office of Science U.S. Department of Energy Push-Pull Aquifer Tests ΔtΔtt tracers e - donors Zone of Stimulated Microbial Activity and Metal Reduction well tracers metabolites Hours 0 3 6 9 12 15 - (mg/L) 0 10 30 50 70 90 U(VI) Fe(II) Br - 110 Hours 0 3 6 9 12 15 - (mg/L) 0 20 40 60 80 100 U(VI) Acetate Fe(II) Br Environmental Remediation Technology Development and Transfer to Savannah River Cleanup Operations NABIR/ERSP project demonstrates the utility of “Push-Pull” aquifer tests to evaluate the stimulation of subsurface microorganisms to immobilize contaminant metals and radionuclides. “Push-Pull” tests deployed at Savannah River to evaluate biological processes contributing to metal and radionuclide immobilization.
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