- Guidelines for using a four-step framework to consider ecosystem services in site cleanup
- Water Research Foundation releases CLASIC lifecycle cost framework for planning stormwater management
- AquaConSoil 2021: EPA keynote on synergies in climate adaptation and mitigation at cleanup sites
- EPA releases National Ecosystem Services Classification System Plus
- Finding green infrastructure tools and resources through GIWizard
- Massachusetts DER study on mobile energy storage for emergency response and grid demand reduction
- Updated DOE WINDExchange platform to help site and develop distributed wind energy systems
- EnergyPlus 9.4.0 now available to model energy and water use in buildings
- News archives...
- May 18 EPA webinar on assessing and rehabilitating mining sites in humid regions
- May 20 SERDP/ESTCP webinar on advancing microgrid solutions
- May 26 EPA webinar on lifecycle analysis of stormwater infrastructure costs
- June 22 ITRC webinar on sustainable resilient remediation
- September 21-23 EPA training on groundwater high-resolution site characterization in Chicago
- More on the calendar...
- View the Perspectives on the Implementation of Greener Cleanups webinar presentations
The environmental footprint of cleanup activities at the Aerojet-General NPL site in Rancho Cordova, California, has been reduced through a strategy involving generation of electricity from onsite renewable energy sources, reclaiming treated water for non-potable uses, and preserving ecosystem services across the 5,900-acre site. About 30 percent of the grid electricity used to operate multiple groundwater extraction and treatment systems is now offset by an operating solar farm, and about 700,000 gallons of the water treated each day are used for ongoing site activities. Land use plans for portions of the site include a municipal open space and park near the lower American River, a state- and nationally-designated recreational river with high biodiversity.
A subgrade biogeochemical reactor at Travis Air Force Base in California contains waste cooking oil serving as a carbon-rich food source for contaminant-degrading microorganisms.
Operation of wind turbines at the Continental Steel Corp. site in Kokomo, Indiana, offsets up to 60% of the grid electricity used to extract contaminated groundwater from 16 wells.
Use of a continuous one-pass trencher for remedy construction at the Altus Air Force Base in Altus, Oklahoma, reduced fuel consumption while minimizing disturbance to ground surfaces and vegetation.
Integration of a bioreactor to degrade contaminants in groundwater at the Re-Solve Inc. site in North Dartmouth, Massachusetts, resulted in an 86 percent reduction in processed chemical usage.
A groundwater treatment building for the Lawrence Aviation Industries site in Port Jefferson Station, New York, was built to meet selected LEED criteria for green building.
Onsite solar energy is used to power skimming pumps that recover hydrocarbons from groundwater at the former St. Croix Alumina Plant in Kingshill, U.S. Virgin Islands.
About 500,000 tons of byproduct from a local industrial plant was used to stabilize 85 acres of mine-impacted lands at the De Sale Restoration Area in Butler County, Pennsylvania.
Restoration of the Pemaco Superfund site in Mayfield, California, included establishing greenspace that promotes rainwater infiltration and minimizes stormwater runoff.
Best Management Practice (BMP)
Fact Sheets
- An Overview (PDF) (2 pp, 231K)
- Excavation and Surface Restoration (PDF) (5 pp, 286K) *Update*
- Site Investigation and Environmental Monitoring (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 Tanks (PDF) (4 pp, 216K) *Update*
- 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)
GR Technology Primer (PDF) (56 pp, 814K):
Incorporating Sustainable Environmental Practices into Remediation of Contaminated Sites
A Citizen's Guide to Greener Cleanups (PDF) (2 pp, 1.4MB)
- Executive Order 14008: Tackling the Climate Crisis at Home and Abroad *New*
This January 27, 2021, E.O. sets forth policy and initiatives to advance our transition to clean energy and reduction in greenhouse gas emissions. Use of greener cleanup strategies in the U.S. EPA's Superfund and other site cleanup programs helps meet the policy goals by integrating renewable energy, deploying clean fuel and emission technologies, protecting water, sequestering carbon, conserving land, protecting critical ecosystems and biodiversity, and using nature-based solutions.
Learn about footprint assessment tools and view comprehensive reports on footprint evaluations conducted at sites undergoing cleanup. EPA's universal greener cleanup metrics provide a uniform and transparent approach to quantifying the environmental footprint associated with materials, wastes, water or energy that are used or generated during a cleanup. EPA's Spreadsheets for Environmental Footprint Analysis (SEFA) tool is available to help evaluate the environmental footprint of a cleanup project at a detailed level. *Update*
Aligning with National Goals
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.
