Bioventing Feasibility Study at Eielson Air Force Base, Alaska

This program consisted of two separate, but integrated, projects. The first project consisted of U.S. Air Force-initiated bioventing activities on a JP-4 jet fuel spill at Eielson Air Force Base, Alaska in July 1991. The objective of the Air Force project was to install and operate an In Situ soil b...

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Bibliographic Details
Main Authors: Leeson, Andrea, Hinchee, Robert E, Kittel, Jeffrey A, Foote, Eric A, Headington, Gregory, Pollack, Albert
Other Authors: BATTELLE MEMORIAL INST COLUMBUS OH
Format: Text
Language:English
Published: 1995
Subjects:
Logistics
Military Facilities and Supplies
Solid Wastes Pollution and Control
*SOIL REMEDIATION
AIR FORCE FACILITIES
ALASKA
BENZENE
BIODEGRADATION
CONTAMINANTS
CONTAMINATION
GROUND WATER
JET ENGINE FUELS
MICROORGANISMS
PETROLEUM PRODUCTS
TOLUENES
VADOSE ZONE
XYLENES
AIR INJECTION
BIOREMEDIATION
BIOVENTING
COLD CLIMATE
ETHYLBENZENE
FUEL SPILLS
HEATED WATER
JP-4
PASSIVE SOIL WARMING
SOIL TEMPERATURE
TPH(TOTAL PETROLEUM HYDROCARBONS)
Eielson
Subarctic
Alaska
Online Access:http://www.dtic.mil/docs/citations/ADA585054
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA585054
Description
Summary:This program consisted of two separate, but integrated, projects. The first project consisted of U.S. Air Force-initiated bioventing activities on a JP-4 jet fuel spill at Eielson Air Force Base, Alaska in July 1991. The objective of the Air Force project was to install and operate an In Situ soil bioremediation system to investigate the feasibility of using bioventing technology to remediate JP-4 jet fuel contamination in a subarctic environment. The Air Force component of the project comprised of three test plots: (1) a passive warming test plot in which plastic sheeting was placed over the ground surface of the test plot during the spring and summer months to capture solar heat and passively warm the soil; (2) a surface warming test plot in which heat tape was installed in the test plot to heat the soil directly; and (3) a control test plot, which received air injection, but no soil warming. The second project was an outgrowth of the U.S. EPA Bioremediation Field Initiative coupled with previous discussions with the Air Force. The objective of the EPA project was to actively increase soil temperature at a JP-4 jet fuel-contaminated bioventing site to determine to what degree increased soil temperature can enhance the biodegradation rates of JP-4 jet fuel contaminants in soil. The study involved actively increasing the soil temperature by circulating groundwater through an electric heater and reapplying the heated water below the ground surface in an area of known JP-4 jet fuel contamination.

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