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气相抽提法修复油污土壤的影响因素研究 被引量:5

Study on Influence Factors of Soil Vapor Extraction Restoring Oil-contaminated Soil
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摘要 为了探明多孔介质颗粒粒径对土壤气相抽提技术(SVE)修复效果的影响,选用广泛使用的汽油为污染物,采用一维土柱真空抽气模拟SVE过程,研究了不同通气流量下砂样中对汽油的去除过程。结果表明,加大通风流量可提高砂样中汽油去除速率,但存在最佳通风流量。Elovich动力学方程可描述砂样中汽油的去除过程,常数a与通风流量呈线性正相关,汽油损失速率b与通风流量之间的关系可用二项式描述。砂样中汽油去除率均在97%以上,但平均粒径为0.214 mm的砂样中汽油去除率最大,为99.9%。汽油损失速率b与砂样平均粒径呈线性负相关,而常数a随平均粒径的增大而增大的趋势可用对数方程表达。 In order to grasp the effect of porous media's particle size on the restoring effectiveness of soil vapor extraction technology(SVE),gasoline was chosen as the pollutant.The restoring process of SVE under different ventilation flow was simulated in one-dimensional soil column extracted by vacuum air pump.The results showed that increasing ventilation flow could improve the removal rates of gasoline in sand samples,but there was the best ventilation flow.Elovich dynamics equation could describe the removal process of gasoline,and the linear could describe the relationship between ventilation flow and constant a.While the binomial could express the relationship between ventilation flow and gasoline loss rate b.The removal rates of gasoline in all sand samples was above 97%,but the removal rate of SY2 is the biggest which was 99.9%.The relationships between the mean grain size with b and a could be described by linear and logarithmic equations respectively.
作者 马艳飞 郑西来 冯雪冬 刘爱菊 吴忠东
机构地区 中国海洋大学海洋环境与生态教育部重点实验室 山东理工大学资源与环境工程学院
出处 《非金属矿》 CAS CSCD 北大核心 2011年第4期53-55,58,共4页 Non-Metallic Mines
基金 国家自然科学基金(40872150)
关键词 土壤气相抽提 汽油 砂样 通风流量 平均粒径 soil vapor extraction gasoline sand samples ventilation flow mean grain size
分类号 X53 [环境科学与工程—环境工程]
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参考文献12

  • 1C M Kaoa, Jason Prosser. Evaluation of natural attenuation rote at a gaso- line spill site[J]. Journal of Hazardous Materials, 2001, 82(3): 275-289. 被引量:1
  • 2Halmemies S, Grondahl S, Arffman M, et al. Vacuum extraction based response equipment for recovery of flesh fuel spills fi'om soil [J]. Journal of Hazardous Materials, 2003, 97(1-4): 127-143. 被引量:1
  • 3李金惠,马海斌,夏新,聂永丰,白庆中.有机污染土壤通风去污技术研究进展[J].环境污染治理技术与设备,2001,2(4):39-48. 被引量:13
  • 4Zhan H, Park E. Vapor flow to horizontal wells in unsaturated zones[J]. Soil Science Society of America Journal, 2002, 66(3): 710-721. 被引量:1
  • 5Poppendieck D G, et al. Predicting Hydrocarbon Kemoval from Thermal- ly Enhanced Soil Vapor Exlraction Systems: 2. Field Study[J]. Journal of Hazardous Materials, 1999, 69: 95-105. 被引量:1
  • 6周友亚,贺晓珍,侯红,汪莉,谷庆宝,李发生.气相抽提法去除土壤中的苯和乙苯[J].化工学报,2009,60(10):2590-2595. 被引量:7
  • 7Ycung A T, Hsu H T. Semi-analytical simulation of soil vapor extraction [J]. Practice Periodical of Hazardous, Toxic, and Radioactive Waste Man- agemcnt, 2002, 6(i): 14-22. 被引量:1
  • 8何炜,陈鸿汉,刘菲,朱春芳,明小贺,冯爱云.通风速率对汽油污染土壤通风效率的影响及修复时间的预测[J].农业环境科学学报,2007,26(6):2062-2066. 被引量:7
  • 9Poulsen B T, Moldrup P, Yamaguchi T, et al. VOC vapor sorption in soil: soil type dependent model and implications for vapor extraction[J]. J EnvironEng, 1998, 124(2): 146-155. 被引量:1
  • 10Heron G, et al. Soil Heating for Enhanced Remediation of Chlorinated Solvents: A Laboratory Study on Resistive Heating and Vapor Extraction in a Silty, Low-Permeable Soil Contaminated with Trichloroethylene [J]. Environmental Science and Technology, 1998, 32(10): 1474-1481. 被引量:1

二级参考文献35

  • 1吴健,沈根祥,黄沈发.挥发性有机物污染土壤工程修复技术研究进展[J].土壤通报,2005,36(3):430-435. 被引量:66
  • 2王晨宇,连进军,谭培功,冯丽娟,李先国.吹扫捕集-气相色谱-质谱法测定海洋沉积物中挥发性有机物[J].化学分析计量,2006,15(6):40-42. 被引量:6
  • 3Pelletier E, Delille D, Delille B. Crude oil bioremediation in sub-antarctic intertidal sediments: chemistry and toxicity of oiled residues. Mar. Environ. Res., 2004, 57 (4): 311-327. 被引量:1
  • 4Wong J W C, Fang M, Zhao Z Y, Xing B S. Effect of surfactants on solubilization and degradation of phenanthrene under thermophilic conditions. J. Environ. Qual., 2004, 33:2015-2025. 被引量:1
  • 5Penet S, Marchal R, Sghir A, Monot F. Biodegradation of hydrocarbon cuts used for diesel oil formulation. Appl. Microbiol. Biotech., 2004, 66:40 -47. 被引量:1
  • 6Gallego J L R, Loredo J, Llamas J F, Vazquez F, Sanchez J. Bioremediation of diesel contaminated soils: evaluation of potential in situ techniques by study of bacterial degradation. Biodegr., 2001, 12:325-335. 被引量:1
  • 7Richard J Y, Vogel T M. Characterization of a soil bacterial consortium capable of degrading diesel fuel. Int. Biodeter. Biodegr. , 1999, 44 (2 3): 93- 100. 被引量:1
  • 8US Environmental Protection Agency. Cleaning Up Underground Storage Tank System Releases. 2001. 被引量:1
  • 9Rothenstein C. FY 2003 semi-annual end of-year activity report [R]. Office of Underground Storage Tanks, 2003. 被引量:1
  • 10Office of Solid Waste and Emergency Response. Treatment Technologies for Site Cleanup: Annual Status Report. llth ed. Washington:United States Environmental Protection Agency, 2004. 被引量:1

共引文献23

同被引文献53

引证文献5

二级引证文献9

非金属矿
2011年 第4期

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