incorporating options to minimize the environmental footprints of a cleanup
- Using green remediation BMPs for in situ chemical oxidation design at Navy sites
- New SERDP research in passive sampling at contaminated sediment sites
- Updated overview of renewable energy development on contaminated lands, landfills and mine sites
- CEQ implementing instructions for EO 13693, Planning for Federal Sustainability in the Next Decade
- Green Cleanup Policy issued by US EPA Region 7
- Updated Industrial Waste Management Evaluation Model (IWEM) to evaluate groundwater impacts from waste management practices such as reusing industrial materials
- Revised UST regulations emphasizing proper operation and maintenance of equipment
- Call for abstracts: 10th International Conference on Remediation of Chlorinated Compounds and Recalcitrant Compounds
- News archives...
- September 1 Implementing Greener Cleanups through ASTM's Standard Guide (E2899-13) Workshop in Chicago
- September 2-4 National Brownfields Training Conference in Chicago
- October 19 Quantitative Evaluation for Greener Cleanups Using SEFA Workshop in Amherst
- October 19-22 AEHS Annual International Conference on Soils, Sediments, Water, and Energy in Amherst
- More on the calendar...
Long-term operation of a groundwater pump-and-treat (P&T) system at the Frontier Fertilizer Superfund Site in Davis, California, involves a green remediation strategy focused on energy conservation measures, onsite generation of power from renewable resources and beneficial reuse options for the treated groundwater. The resulting environmental footprint reductions include a 100% offset of the P&T system's demand for grid-supplied electricity and an associated 147,500-pound reduction in carbon dioxide equivalent emissions.
in the field
GR Best Management Practices
- An Introduction (PDF) (2 pp, 114K)
- Excavation and Surface Restoration (PDF) (4 pp, 238K)
- Site Investigation (PDF) (4 pp, 179K)
- Pump and Treat Technologies (PDF) (8 pp, 225K)
- Bioremediation (PDF) (4 pp, 176K)
- Soil Vapor Extraction & Air Sparging (PDF) (4 pp, 131K)
- Clean Fuel & Emission Technologies for Site Cleanup (PDF) (10 pp, 354K)
- Integrating Renewable Energy into Site Cleanup (PDF) (8 pp, 335K)
- Sites with Leaking Underground Storage Tank Systems (PDF) (6 pp, 448K)
- Landfill Cover Systems & Energy Production (PDF) (6 pp, 465K)
- Overview of EPA's Methodology to Address the Environmental Footprint of Site Cleanup (PDF) (2 pp, 176K)
- Mining Sites (PDF) (6 pp, 535K)
- Implementing In Situ Thermal Technologies (PDF) (6 pp, 249K)
- Materials and Waste Management (PDF) (4pp, 397K)
Upcoming Topics (PDF) (1 pg, 240K)
GR Technology Primer (PDF) (56 pp, 814K):
Incorporating Sustainable Environmental Practices into Remediation of Contaminated Sites
- EPA Strategic Plan, FY 2014-2018
- ...EPA's hazardous waste programs also are working to reduce the energy use and environmental footprint during the investigation and remediation of hazardous waste sites.
Goal 3: Cleaning Up Communities and Advancing Sustainable Development
EPA's Methodology for Understanding and Reducing a Project's Environmental Footprint uses 21 metrics and a seven-step process to quantify energy, air, water, and materials & waste comprising the environmental footprint of a remedy. The supporting Spreadsheets for Environmental Footprint Analysis (SEFA) workbooks are available to help users estimate each of the methodology's metrics on a site-specific basis. Related background studies, examples, and data gathering tools offer additional information of value to environmental footprint assessment.
Learn about executive orders, requirements, and guidance on energy and water management, green purchasing, and environmental stewardship
Questions and comments about EPA's green remediation efforts may be forwarded to:
Carlos Pachon, Office of Superfund Remediation and Technology Innovation.