Using Enhanced Landfarming System to RemediateDiesel Oil-contaminated Soils
The objective of this study was to assess the potential of applying enhanced landfarming system on the treatment of diesel-oil contaminated soils.Laboratory reactors were conducted to determine the optimal operational conditions of the modified landfarming.Except of frequent soil tilling for air replacement,different additive was added in each reactor enhance the removal efficiency of total petroleum hydrocarbon (TPH).The additives used in this study included kitchen waste compost,petroleum-hydrocarbon (PH) degrading bacteria,rice husks,and activated sludge.PH-degrading bacteria were isolated from PH contaminated soils and activated sludge was collected from a wastewater treatment plant containing PH in the influent.PH-degrading bacteria and sludge were added to increase the microbial population and diversity.Rice husk was used as the bulking agent (soil to bulking agent volume ratio =3:1) to increase the soil permeability.The compost (soil to compost volume ratio =3∶1) was used as organic amendment to increase both the microbial population and soil permeability.Results indicate that the highest first-order TPH decay rate and removal ratio were approximately 0.1 dayt and 92.4%,respectively,observed in reactor containing compost.In the compost reactor,TPH dropped from 5,900 to 450 mg/kg and total viable bacterial counts increased from 9.4×l05 to 7.2x 108 cfu/g of soil within 25 days of incubation.This indicates that the kitchen waste compost contained high microbial population and organic content,which could cause the rapid bacterial growth and enhance the TPH degradation.The TPH removal ratios for sludge,PH-degrading bacteria,rice husks,and control reactors were 86.9,83.1,79.7,and 54%,respectively.This indicates that the soil tilling played an important role in the landfarming system,and significant amount of TPH removal was due to the volatilization mechanism.Adding sludge or PH-degrading bacteria could cause the increase in both the total microbial population and specific PH-degrading microbial consortia,which caused the increased TPH removal efficiency.
bioremediation diesel oil landfarming soil contamination
Yu-Chia Kuo Sih-Yu Wang Chih-Ming Kao Chiu-Wen Chen Wen-Pei Sung
Institute of Environmental Engineering, National Sun Yat-Sen University, Taiwan Dept.of Marine Environmental Engineering, National Kaohsiung Marine Kaohsiung, Taiwan Dept.of Landscape Architecture, National Chin-Yi University of Technology, Taiwan
国际会议
台湾
英文
554-558
2011-12-11(万方平台首次上网日期,不代表论文的发表时间)