土壤重金属污染电动力修复技术研究进展
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摘要
电动力修复技术作为一种有效的土壤修复技术引起了广泛的关注和研究兴趣。本文详述了技术的原理、影响因素及不同重金属的去除方式;介绍了一些发展比较成熟的土壤原位电动力修复工艺,并分析了优点和不足;本文还综述了电动力修复技术改进方面的研究进展,为修复效果提高指明了方向;最后本文对电动力修复技术未来发展做了展望。
引文
[1]骆永明.中国主要土壤环境问题及对策.南京:河海大学出版社,2008
[2]张文娟,土壤污染SOS—访第十二届全国人大代表—浙江农林大学教授徐秋芳[J].中国农业科技,2013.04
[3]Probstein,R.F.;Hicks,R.E.Removal of contaminants from soils by electric field.Science 1993,260,498-503.
[4]Acar,YB;Alshawabkeh,AN.Principles of electrokinetic remediation.Environ.Sci.Technol.1993,27,2638-2647.
[5]Sogorka DB,Gabert H,Sogorka BJ.Emerging technologies for soils contaminated with metals-electrokinetic remediation.Hazard Ind Wastes1998;30:673-685.
[6]范拴熹土壤重金属污染与控制[M].北京:中国环境科学出版社,2011
[7]Zelina JP,Rusling JF.Electrochemical remediation of soils,1999:532_539.
[8]Baraud F,Tellier S,Astruc M.Ion velocity in soil solution during electrokinetic remediation.J Hazard Mater 1997;56:315-332.
[9]Baraud F,Fourcade MC,Tellier S,Astruc M.Modelling of decontamination rate in an electrokinetic soil processing.Int J Environ Anal Chem1998;68:105-121.
[10]van Cauwenberghe L.Electrokinetics:Technology Overview Report.Groundwater Remediation Technologies Analysis Centre,1997:1-17.
[11]Acar YB,Hamed JT,Gale RJ.Removal of cadmium II.From saturated kaolinite by the application of electrical current’.Geotechniques1994;44(2):239-254.
[12]Acar YB,Alshawabkeh AN.Electrokinetic remediation.I.Pilot-scale tests with lead-spiked kaolinite.J Geotech Eng 1996;March:173-185.
[13]Sims RC.Soil Remediation Techniques at Uncontrolled Hazardous Waste Sites.Utah State University,1990:704-732.
[14]Sogorka DB,Gabert H,Sogorka BJ.Emerging technologies for soils contaminated with metals-electrokinetic remediation.Hazard Ind Wastes1998;30:673-685.
[15]Benazon N.Soil remediation.Hazard Mater Manage 1999;October/November.
[16]Chilingar GV,Loo WW,Khilyuk LF,Katz SA.Electrobioremediation of soils contaminated with hydrocarbons and metals:progress report.Energy Sources 1997;19:129-146.
[17]Reddy K,Parupudi US.Effects of soil composition on the removal of chromium by electrokinetics.J Hazard Mater 1997;55:135-158.
[18]Reddy K,Donahue M,Sasaoka R.Preliminary assessment of electrokinetic remediation of soil and sludge contaminated with mixed waste.Air Waste Manage Assoc 1999;49:823-830.
[19]Reddy K,Chinthamreddy S.Electrokinetic remediation of heavy metal-contaminated soils under reducing environments.Waste Manage1999;19:269-282.
[20]Zelina JP,Rusling JF.Electrochemical remediation of soils,1999:532-539.
[21]Yeung A,Hhsu C,Menon RM.Physicochemical soil-contaminant interactions during electrokinetic extraction.J Hazard Mater1997;55:221-237.
[22]Vane LM,Zang GM.Effect of aqueous phase properties on clay particle zeta potential and electro-osmotic permeability:implications for electrokinetic soil remediation processes.J Hazard Mater 1997;55:1-22.
[23]Acar YB,Ozsu EE,Alshawabkeh AN,Rabbi MF,Gale RJ.Enhance soil bioremediation with electric fields.Chemtech 1996;26(4).:40-44.
[24]Li ZH,Yu JW,Neretnieks I.Removal of Pb II.,Cd II.And Cr III.from sand by electromigration.J Hazard Mater 1997;55:295-304.
[25]Li ZH,Neretnieks I.Electroremediation:removal of heavy metals from soils by using cation-selective membrane.Environ Sci Technol1998;32:394-397.
[26]Li RS,Li LY.Enhancement of electrokinetic extraction from lead-spiked soils.J Environ Eng 2000;126(9).:849-857.
[27]Ho SV,Athmer CJ,Sheridan PW,Shapiro AP.Scale-up aspects of the Lasagna TM process for in situ soil decontamination.J Hazard Mater1997;55:39-60.
[28]Ho SV,Athmer Ch,Sheridan PW,Hughes BM,Orth R,Mc Kenzie D,Brodsky PH,Shapiro A,Thornton R,Salvo J,Schultz D,Landis R,Griffith R,Shoemaker S.The Lasagna technology for in situ soil remediation.1.Small field test.Environ Sci Technol 1999;33:1086-1091.
[29]Mattson ED,Lindgren ER.Electrokinetic Extraction of Chromate from Unsaturated Soils.American Chemical Society,1995:11-20.
[30]朱书法,杜锦屏,索美玉,等.碱液循环可以强化电动力学修复氟污染土壤.生态环境学报,2009,18(5):1767-1771.
[31]李泰平,袁松虎,林莉.六氯苯和重金属复合污染沉积物的电动力学修复研究.环境工程,2009,27(2):105-109.
[32]Jing-Yuan Wang,Xiang-Jun Huang,Jimmy C.M.Kao,Olena Stabnikova.Removal of heavy metals from kaolin using an upward electrokinetic soil remedial(UESR)technology.Journal of Hazardous Materials B136(2006)532–541
[33]Apostolos Giannis,Eugene Tay,Jimmy Kao,Jing-Yuan Wang.Impact of vertical electrokinetic-flushing technology to remove heavy metals andpolycyclic aromatic hydrocarbons from contaminated soil.Electrochimica Acta 86(2012)72–79
[34]M.Pazos,M.A.Sanroma′n,C.Cameselle.Improvement in electrokinetic remediation of heavy metal spiked kaolin with the polarity exchange technique.Chemosphere 62(2006)817–822
[35]吴婵,袁松虎,万金忠等.原电池驱动污染高岭土中镉的电动力学迁移.环境化学,2008,27(2):168-171.
[36]Chung H I,Kamon M.Ultrasonically enhanced electrokinetic remediation for removal of Pb and phenant hrene in contaminated soils.Eng.Geol,2005,77(324):233-242.
[37]Maini G,Sharman A K,Sunderland G et al.An Integrated Method Incorporating Sulfur-Oxidizing Bacteria and Electrokinetics to Enhance removal of Copper from Contaminated Soil.Environment Science and Technology,2000,34(6):1081-1087.
[38]仓龙,周东美,吴丹亚.水平交换电场与EDDS螫合诱导植物联合修复Cu/Zn污染土壤.土壤学报,2009,46(4):729-735.
[39]Zhou D.M.,Cang L.,Alshawabkeh A.N.,et al.Pilot-scale electrokinetic treatment of a Cu contaminated red soil.Chemosphere 2006,63,964-971.
[40]Woo-Seung Kim,Geun-Yong Park,Do-Hyung Kim,Hong-Bae Jung,Sung-Hwan Ko,Kitae Baek.In situ field scale electrokinetic remediation of multimetals contaminated paddy soil:Influence of electrode configuration.Electrochimica Acta 86(2012)89–95
[41]You-Jin Lee,Jeong-Hee Choi,Hyun-Goo Lee,Tae-Hyun Ha,Jeong-Hyo Bae.Pilot-scale study on in situ electrokinetic removal of nitrate from greenhouse soil.Separation and Purification Technology 79(2011)254–263
[42]Cundy,A.B.,Hopkinson,L,Agnew,K.Developing New in-situ Land Remediation Technologies:from Laboratory to Field Scale.PROGRESS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY,VOL II(2009)1808-1813
[2]张文娟,土壤污染SOS—访第十二届全国人大代表—浙江农林大学教授徐秋芳[J].中国农业科技,2013.04
[3]Probstein,R.F.;Hicks,R.E.Removal of contaminants from soils by electric field.Science 1993,260,498-503.
[4]Acar,YB;Alshawabkeh,AN.Principles of electrokinetic remediation.Environ.Sci.Technol.1993,27,2638-2647.
[5]Sogorka DB,Gabert H,Sogorka BJ.Emerging technologies for soils contaminated with metals-electrokinetic remediation.Hazard Ind Wastes1998;30:673-685.
[6]范拴熹土壤重金属污染与控制[M].北京:中国环境科学出版社,2011
[7]Zelina JP,Rusling JF.Electrochemical remediation of soils,1999:532_539.
[8]Baraud F,Tellier S,Astruc M.Ion velocity in soil solution during electrokinetic remediation.J Hazard Mater 1997;56:315-332.
[9]Baraud F,Fourcade MC,Tellier S,Astruc M.Modelling of decontamination rate in an electrokinetic soil processing.Int J Environ Anal Chem1998;68:105-121.
[10]van Cauwenberghe L.Electrokinetics:Technology Overview Report.Groundwater Remediation Technologies Analysis Centre,1997:1-17.
[11]Acar YB,Hamed JT,Gale RJ.Removal of cadmium II.From saturated kaolinite by the application of electrical current’.Geotechniques1994;44(2):239-254.
[12]Acar YB,Alshawabkeh AN.Electrokinetic remediation.I.Pilot-scale tests with lead-spiked kaolinite.J Geotech Eng 1996;March:173-185.
[13]Sims RC.Soil Remediation Techniques at Uncontrolled Hazardous Waste Sites.Utah State University,1990:704-732.
[14]Sogorka DB,Gabert H,Sogorka BJ.Emerging technologies for soils contaminated with metals-electrokinetic remediation.Hazard Ind Wastes1998;30:673-685.
[15]Benazon N.Soil remediation.Hazard Mater Manage 1999;October/November.
[16]Chilingar GV,Loo WW,Khilyuk LF,Katz SA.Electrobioremediation of soils contaminated with hydrocarbons and metals:progress report.Energy Sources 1997;19:129-146.
[17]Reddy K,Parupudi US.Effects of soil composition on the removal of chromium by electrokinetics.J Hazard Mater 1997;55:135-158.
[18]Reddy K,Donahue M,Sasaoka R.Preliminary assessment of electrokinetic remediation of soil and sludge contaminated with mixed waste.Air Waste Manage Assoc 1999;49:823-830.
[19]Reddy K,Chinthamreddy S.Electrokinetic remediation of heavy metal-contaminated soils under reducing environments.Waste Manage1999;19:269-282.
[20]Zelina JP,Rusling JF.Electrochemical remediation of soils,1999:532-539.
[21]Yeung A,Hhsu C,Menon RM.Physicochemical soil-contaminant interactions during electrokinetic extraction.J Hazard Mater1997;55:221-237.
[22]Vane LM,Zang GM.Effect of aqueous phase properties on clay particle zeta potential and electro-osmotic permeability:implications for electrokinetic soil remediation processes.J Hazard Mater 1997;55:1-22.
[23]Acar YB,Ozsu EE,Alshawabkeh AN,Rabbi MF,Gale RJ.Enhance soil bioremediation with electric fields.Chemtech 1996;26(4).:40-44.
[24]Li ZH,Yu JW,Neretnieks I.Removal of Pb II.,Cd II.And Cr III.from sand by electromigration.J Hazard Mater 1997;55:295-304.
[25]Li ZH,Neretnieks I.Electroremediation:removal of heavy metals from soils by using cation-selective membrane.Environ Sci Technol1998;32:394-397.
[26]Li RS,Li LY.Enhancement of electrokinetic extraction from lead-spiked soils.J Environ Eng 2000;126(9).:849-857.
[27]Ho SV,Athmer CJ,Sheridan PW,Shapiro AP.Scale-up aspects of the Lasagna TM process for in situ soil decontamination.J Hazard Mater1997;55:39-60.
[28]Ho SV,Athmer Ch,Sheridan PW,Hughes BM,Orth R,Mc Kenzie D,Brodsky PH,Shapiro A,Thornton R,Salvo J,Schultz D,Landis R,Griffith R,Shoemaker S.The Lasagna technology for in situ soil remediation.1.Small field test.Environ Sci Technol 1999;33:1086-1091.
[29]Mattson ED,Lindgren ER.Electrokinetic Extraction of Chromate from Unsaturated Soils.American Chemical Society,1995:11-20.
[30]朱书法,杜锦屏,索美玉,等.碱液循环可以强化电动力学修复氟污染土壤.生态环境学报,2009,18(5):1767-1771.
[31]李泰平,袁松虎,林莉.六氯苯和重金属复合污染沉积物的电动力学修复研究.环境工程,2009,27(2):105-109.
[32]Jing-Yuan Wang,Xiang-Jun Huang,Jimmy C.M.Kao,Olena Stabnikova.Removal of heavy metals from kaolin using an upward electrokinetic soil remedial(UESR)technology.Journal of Hazardous Materials B136(2006)532–541
[33]Apostolos Giannis,Eugene Tay,Jimmy Kao,Jing-Yuan Wang.Impact of vertical electrokinetic-flushing technology to remove heavy metals andpolycyclic aromatic hydrocarbons from contaminated soil.Electrochimica Acta 86(2012)72–79
[34]M.Pazos,M.A.Sanroma′n,C.Cameselle.Improvement in electrokinetic remediation of heavy metal spiked kaolin with the polarity exchange technique.Chemosphere 62(2006)817–822
[35]吴婵,袁松虎,万金忠等.原电池驱动污染高岭土中镉的电动力学迁移.环境化学,2008,27(2):168-171.
[36]Chung H I,Kamon M.Ultrasonically enhanced electrokinetic remediation for removal of Pb and phenant hrene in contaminated soils.Eng.Geol,2005,77(324):233-242.
[37]Maini G,Sharman A K,Sunderland G et al.An Integrated Method Incorporating Sulfur-Oxidizing Bacteria and Electrokinetics to Enhance removal of Copper from Contaminated Soil.Environment Science and Technology,2000,34(6):1081-1087.
[38]仓龙,周东美,吴丹亚.水平交换电场与EDDS螫合诱导植物联合修复Cu/Zn污染土壤.土壤学报,2009,46(4):729-735.
[39]Zhou D.M.,Cang L.,Alshawabkeh A.N.,et al.Pilot-scale electrokinetic treatment of a Cu contaminated red soil.Chemosphere 2006,63,964-971.
[40]Woo-Seung Kim,Geun-Yong Park,Do-Hyung Kim,Hong-Bae Jung,Sung-Hwan Ko,Kitae Baek.In situ field scale electrokinetic remediation of multimetals contaminated paddy soil:Influence of electrode configuration.Electrochimica Acta 86(2012)89–95
[41]You-Jin Lee,Jeong-Hee Choi,Hyun-Goo Lee,Tae-Hyun Ha,Jeong-Hyo Bae.Pilot-scale study on in situ electrokinetic removal of nitrate from greenhouse soil.Separation and Purification Technology 79(2011)254–263
[42]Cundy,A.B.,Hopkinson,L,Agnew,K.Developing New in-situ Land Remediation Technologies:from Laboratory to Field Scale.PROGRESS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY,VOL II(2009)1808-1813
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