Integral biopile components for successful bioremediation in the Arctic

Abstract

Timely bioremediation of petroleum-contaminated soils in the Arctic is possible with innovative engineering and environmental manipulation to enhance microbial activity beyond the natural effective season. Key parameters in extending the period of beneficial microbial activity in Arctic biopiles are temperature and substrate availability. A multidisciplinary team of engineers, microbiologists and electricians has designed and installed a thermally enhanced biopile at a diesel-contaminated gravel pad in Prudhoe Bay, AK. The combination of bioventing with active warming, fertilization and power cycling is working toward timely remediation at this site. Primary components for success are the (1) thermal insulation system (TIS) design, (2) microbiological monitoring plan, and (3) power optimization. (Alternate power sources are considered for use at this and future remote bioremediation sites.) This paper discusses the TIS design and extension of the effective treatment season, fertilization and the results of a treatability study that compared simple fertilization with application of commercially available bioproducts under simulated site conditions, and adjusting power utilization to prevent permafrost thaw. Through an integrated approach to bioremediation, we are treating diesel-contaminated soils at an Arctic site.