Bioventing entails the use of soil vapor extraction (SVE) systems for the transport of oxygen to the subsurface, where indigenous organisms are stimulated to aerobically metabolize fuel components. Bioventing systems are designed and configured to optimize oxygen transfer and oxygen utilization efficiency, and are operated at much lower flow rates and with configurations much different than those of conventional SVE systems. Bioventing system applications and design are contrasted to those of conventional SVE systems, and the two key elements of bioventing system design evaluation, i.e., in situ microbial activity and air permeability determinations, are highlighted in this paper. The application of bioventing to vadose zone bioremediation was reviewed with particular emphasis on its advantages over aqueous based bioremediation systems in terms of its superior oxygen transfer efficiency. Finally, the application of bioventing and bioventing design concepts are illustrated through a case study of JP-4 jet fuel contaminated soil remediation at Hill AFB, Utah. 22 refs., 8 figs., 5 tabs.
[1]
M. Alexander.
Introduction to Soil Microbiology
,
1978
.
[2]
C. H. Ward,et al.
Biorestoration of aquifers contaminated with organic compounds
,
1988
.
[3]
Paul C. Johnson,et al.
Quantitative analysis for the cleanup of hydrocarbon-contaminated soils by in-situ soil venting
,
1990
.
[4]
R. Hinchee,et al.
Enhancing biodegradation of petroleum hydrocarbons through soil venting
,
1991
.
[5]
Robert E. Hinchee,et al.
A Field-Scale Investigation of Petroleum Hydrocarbon Biodegradation in the Vadose Zone Enhanced by Soil Venting at Tyndall AFB, Florida
,
1991
.