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Bioremediation of Petroleum Hydrocarbon Contaminated Sites

Technical Report ·
DOI:https://doi.org/10.2172/993081· OSTI ID:993081
 [1]
  1. University Of Wyoming Research
+ Show Author Affiliations
Bioremediation has been widely applied in the restoration of petroleum hydrocarbon-contaminated. Parameters that may affect the rate and efficiency of biodegradation include temperature, moisture, salinity, nutrient availability, microbial species, and type and concentration of contaminants. Other factors can also affect the success of the bioremediation treatment of contaminants, such as climatic conditions, soil type, soil permeability, contaminant distribution and concentration, and drainage. Western Research Institute in conjunction with TechLink Environmental, Inc. and the U.S. Department of Energy conducted laboratory studies to evaluate major parameters that contribute to the bioremediation of petroleum-contaminated drill cuttings using land farming and to develop a biotreatment cell to expedite biodegradation of hydrocarbons. Physical characteristics such as soil texture, hydraulic conductivity, and water retention were determined for the petroleum hydrocarbon contaminated soil. Soil texture was determined to be loamy sand to sand, and high hydraulic conductivity and low water retention was observed. Temperature appeared to have the greatest influence on biodegradation rates where high temperatures (>50 C) favored biodegradation. High nitrogen content in the form of ammonium enhanced biodegradation as well did the presence of water near field water holding capacity. Urea was not a good source of nitrogen and has detrimental effects for bioremediation for this site soil. Artificial sea water had little effect on biodegradation rates, but biodegradation rates decreased after increasing the concentrations of salts. Biotreatment cell (biocell) tests demonstrated hydrocarbon biodegradation can be enhanced substantially when utilizing a leachate recirculation design where a 72% reduction of hydrocarbon concentration was observed with a 72-h period at a treatment temperature of 50 C. Overall, this study demonstrates the investigation of the effects of environmental parameters on bioremediation is important in designing a bioremediation system to reduce petroleum hydrocarbon concentrations in impacted soils.
Research Organization:
University Of Wyoming Research
Sponsoring Organization:
USDOE
DOE Contract Number:
FC26-98FT40323
OSTI ID:
993081
Country of Publication:
United States
Language:
English

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Related Subjects

02 PETROLEUM
BIODEGRADATION
BIOREMEDIATION
DRAINAGE
EFFICIENCY
HYDRAULIC CONDUCTIVITY
HYDROCARBONS
LEACHATES
MOISTURE
NITROGEN
NUTRIENTS
PERMEABILITY
PETROLEUM
RETENTION
SALINITY
SAND
SEAS
SOILS
TEXTURE
UREA
WATER