Please use this identifier to cite or link to this item: https://hdl.handle.net/11681/12231
Title: Soil Remediation Demonstration Project : biodegradation of heavy fuel oils
Authors: Construction Productivity Advancement Research Program (U.S.)
Weston & Sampson Engineers.
Reynolds, Charles M. (Charles Michael), 1950-
Bhunia, Prasanta Kumar
Koenen, Brent A.
Keywords: Biotreatment
Diesel
Bioventing
Land farming
Crude oil
Petroleum
Soils
Soil remediation
Publisher: Cold Regions Research and Engineering Laboratory (U.S.)
Engineer Research and Development Center (U.S.)
Series/Report no.: Special report (Cold Regions Research and Engineering Laboratory (U.S.)) ; 97-20.
Description: Special Report
Abstract: Treatment of oil-contaminated soils is necessary to protect water supplies, human health, and environmental quality; but because of limited funds, cleanup costs are often prohibitive. High costs are exacerbated in cold regions such as Alaska, where spills are often in areas inaccessible to heavy equipment and where there is limited infrastructure. Owing to the lack of infrastructure, widespread fuel distribution systems, and the need for heating in the cold climate, there are numerous small-scale oil spills. Low-cost treatments applicable to small-scale spills are needed. The object of this CPAR project was to examine using cost-effective, on-site bioremediation techniques for heavy-oil-contaminated soil in cold regions. Both heavy-oil and diesel-contaminated soils were used to compare landfarming, a low-intensity treatment, to pile bioventing, a costlier treatment. For each soil-contaminant combination, we compared nutrient additions to a control with no nutrient additions. Under the conditions of this study, landfarming with nutrient additions was as effective for treating diesel-contaminated soil as was bioventing with nutrient additions. For heavy oils, landfarming with nutrients resulted in lower soil concentrations after one year, but differences among treatments were not statistically significant. Because landfarming does not require pumps, electricity, or plumbing, all costs are less than for bioventing. The minimal requirements for infrastructure also make landfarming attractive in remote sites typical of cold regions.
Rights: Approved for public release; distribution is unlimited.
URI: http://hdl.handle.net/11681/12231
Appears in Collections:Special Report

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