污染水体底泥中重金属的处理技术研究进展
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摘要
针对河湖泊涌等水体底泥重金属污染问题,介绍了我国水体底泥的重金属污染现状及其来源,分析了近年来国内外污染底泥中重金属处理技术的原理及其应用现状,主要包括底泥重金属稳定化技术和底泥重金属去除方法。总结了底泥重金属处理技术的优缺点,期望能为今后底泥重金属处理技术的研究提供参考。
More and more attention was paid on the pollution of rivers and lakes sediments,particularly the heavy metal pollution. The principles and application status of heavy metal contamination of sediment was presented,and the treatment methods of heavy metal pollution from domestic and abroad in recent years was summarized,including the stabilization and removal technology of heavy metal. Lastly,their advantages and disadvantages of these technologies were compared,which was desirable to provide a theoretical basis for the processing of heavy metal in sediments.
More and more attention was paid on the pollution of rivers and lakes sediments,particularly the heavy metal pollution. The principles and application status of heavy metal contamination of sediment was presented,and the treatment methods of heavy metal pollution from domestic and abroad in recent years was summarized,including the stabilization and removal technology of heavy metal. Lastly,their advantages and disadvantages of these technologies were compared,which was desirable to provide a theoretical basis for the processing of heavy metal in sediments.
引文
[1]中华人民共和国环境保护部.2016中国环境状况公报[R].2017.
[2]王越兴,尹魁浩,彭盛华,等.深圳市河流底泥重金属的污染现状及生态风险评价[J].环境与健康杂志,2011,28(10):918-919.
[3]范玉超,王蒙,邰伦伦,等.我国底泥重金属污染现状及其固化/稳定化修复技术研究进展[J].安徽农学通报,2016,22(13):97-101.
[4]韩亚芬,李琦,黄淑玲,等.农村水塘底泥重金属来源及潜在生态风险评价[J].光谱实验室,2012,29(5):2653-2658.
[5]王华,冯启言,郝莉莉.我国底泥重金属污染防治[J].污染防治技术,2004,17(1):75-78.
[6]简敏菲,李玲玉,徐鹏飞,等.鄱阳湖-乐安河湿地水土环境中重金属污染的时空分布特征[J].环境科学,2014,35(5):1759-1765.
[7]张彦,卢学强,刘红磊,等.渤海湾天津段表层沉积物重金属分布特征及其来源解析[J].环境科学研究,2014,27(6):608-614.
[8]王漫漫.太湖流域典型河流重金属风险评估及来源解析[D].南京:南京大学,2016.
[9]孙博,黄莹,李永霞,等.基于主成分分析的河流沉积物重金属污染评价[J].环境科学与技术,2016,39(10):175-184.
[10]张兴梅,刘艳艳,郭建谱,等.三峡库区重庆城区段底泥重金属污染调查与分析[J].重庆工商大学学报(自然科学版),2010,27(2):176-180.
[11]张立,袁旭音,邓旭.南京玄武湖底泥重金属形态与环境意义[J].湖泊科学,2007,19(1):63-69.
[12]胡斌,周晴,段昌群,等.昆明市盘龙江底泥重金属污染研究初探[J].云南大学学报(自然科学版),2006,28(2):166-172.
[13]杨卓,李贵宝,王殿武,等.白洋淀底泥重金属的污染及其潜在生态危害评价[J].农业环境科学学报,2005,24(5):945-951.
[14]陈守莉,王平祖,秦明周,等.太湖流域典型湖泊沉积物中重金属污染的分布特征[J].江苏农业学报,2007,23(2):124-130.
[15]徐圣友,叶琳琳,朱燕,等.巢湖沉积物中重金属的BCR形态分析[J].环境科学与技术,2008,31(9):20-23.
[16]史军伟.我国河流底泥重金属污染现状及修复技术的研究进展[J].现代物业·新建设,2014,13(7):15-17.
[17]WEN J,YI Y J,ZENG G M.Effects of modified zeolite on the removal and stabilization of heavy metals in contaminated lake sediment using BCR sequential extraction[J].Journal of environmental management,2016,178:63-69.
[18]LI X,DAI L H,ZHANG C,et al.Enhanced biological stabilization of heavy metals in sediment using immobilized sulfate reducing bacteria beads with inner cohesive nutrient[J].Journal of hazardous materials,2017,324:340-347.
[19]赵明,刘宏,王文江,等.疏浚底泥重金属污染现状及其治理技术[J].盐业与化工,2016,45(8):1-7.
[20]CAROLIN C F,KUMAR P S,SARAVANAN A,et al.Efficient techniques for the removal of toxic heavy metals from aquatic environment:A review[J].Journal of environmental chemical engineering,2017,5(3):2782-2799.
[21]TESSIER A,CAMPBELL P G,BISSON M.Sequential extraction procedure for the speciation of particulate trace metals[J].Analytical chemistry,1979,51(7):844-851.
[22]谢华明.微生物沥浸及固化/稳定化处理重金属污染底泥的研究[D].长沙:湖南大学,2012.
[23]DERMATAS D,MENG X G.Utilization of fly ash for stabilization/solidification of heavy metal contaminated soils[J].Engineering geology,2003,70(3/4):377-394.
[24]王琦,王起,闵海华.我国危险废物固化处理技术的探讨[J].环境卫生工程,2007,15(5):57-59.
[25]武博然,柴晓利.疏浚底泥固化改性与资源化利用技术[J].环境工程学报,2016,10(1):335-342.
[26]李海波,曹梦华,吴丁山,等.硫化亚铁稳定化修复重金属污染湖泊底泥的效率及机理[J].环境工程学报,2017,11(5):3258-3263.
[27]苏良湖.底泥重金属稳定化和多环芳烃降解的研究[D].太原:太原理工大学,2010.
[28]张惠芳,孙玲,蔡申健,等.城市污泥中重金属的去除及稳定化技术研究进展[J].环境工程,2014,32(12):82-86.
[29]RAMAMURTHY A S,VO D,LI X J,et al.Surfactant-enhanced removal of Cu(II)and Zn(II)from a contaminated sandy soil[J].Water,air,and soil pollution,2008,190(1/2/3/4):197-207.
[30]封帅.河道污染底泥淋洗处理中重金属形态分布转化的研究[D].哈尔滨:哈尔滨工业大学,2014.
[31]PAPASSIOPI N,TAMBOURIS S,KONTOPOULOS A.Removal of heavy metals from calcareous contaminated soils by EDTA leaching[J].Water,air,and soil pollution,1999,109(1/2/3/4):1-15.
[32]BRINZA L,DRING M J,GAVRILESCU M.Marine micro and maro algal species as biosorbents for heavy metals[J].Environmental engineering&management journal,2007,6(3):237-251.
[33]张再利,贾晓珊.两种硫杆菌对河涌底泥重金属的生物沥滤[J].中国环境科学,2008,28(7):624-629.
[34]赵亮,方迪,单红仙,等.固体浓度对污染底泥中重金属生物沥浸去除效果的影响[J].环境科学,2009,30(8):2347-2352.
[35]谢华明,杨朝晖,徐海音,等.微生物沥浸法去除底泥中的重金属[J].环境工程学报,2012,6(4):1320-1326.
[36]WONG J W C,XIANG L,GU X Y,et al.Bioleaching of heavy metals from anaerobically digested sewage sludge using Fe S2as an energy source[J].Chemosphere,2004,55(1):101-107.
[37]张彦浩,黄理龙,杨连宽,等.河道底泥重金属污染的原位修复技术[J].净水技术,2016,35(1):26-32.
[38]谷超.红枫湖疏浚底泥中重金属的植物修复研究[D].贵阳:贵州师范大学,2015.
[39]CHEHREGANI A,NOORI M,YAZDI H L.Phytoremediation of heavymetal-polluted soils:Screening for new accumulator plants in Angouran mine(Iran)and evaluation of removal ability[J].Ecotoxicology and environmental safety,2009,72(5):1349-1353.
[40]PEDERSEN K B,OTTOSEN L M,JENSEN P E,et al.Comparison of 2-compartment,3-compartment and stack designs for electrodialytic removal of heavy metals from harbour sediments[J].Electrochimica acta,2015,181:48-57.
[41]KIM S O,MOON S H,KIM K W,et al.Pilot scale study on the ex situ electrokinetic removal of heavy metals from municipal wastewater sludges[J].Water research,2002,36(19):4765-4774.
[42]LEE K Y,KIM K R,LEE B T,et al.Evaluation on the feasibility of microbially enhanced electrokinetic removal of multiple heavy metals from tailing soil[J].Separation science and technology,2009,44(10):2322-2340.
[43]PEDERSEN K B,LEJON T,JENSEN P E,et al.Simultaneous electrodialytic removal of PAH,PCB,TBT and heavy metals from sediments[J].Journal of environmental management.2017,198:192-202.
[2]王越兴,尹魁浩,彭盛华,等.深圳市河流底泥重金属的污染现状及生态风险评价[J].环境与健康杂志,2011,28(10):918-919.
[3]范玉超,王蒙,邰伦伦,等.我国底泥重金属污染现状及其固化/稳定化修复技术研究进展[J].安徽农学通报,2016,22(13):97-101.
[4]韩亚芬,李琦,黄淑玲,等.农村水塘底泥重金属来源及潜在生态风险评价[J].光谱实验室,2012,29(5):2653-2658.
[5]王华,冯启言,郝莉莉.我国底泥重金属污染防治[J].污染防治技术,2004,17(1):75-78.
[6]简敏菲,李玲玉,徐鹏飞,等.鄱阳湖-乐安河湿地水土环境中重金属污染的时空分布特征[J].环境科学,2014,35(5):1759-1765.
[7]张彦,卢学强,刘红磊,等.渤海湾天津段表层沉积物重金属分布特征及其来源解析[J].环境科学研究,2014,27(6):608-614.
[8]王漫漫.太湖流域典型河流重金属风险评估及来源解析[D].南京:南京大学,2016.
[9]孙博,黄莹,李永霞,等.基于主成分分析的河流沉积物重金属污染评价[J].环境科学与技术,2016,39(10):175-184.
[10]张兴梅,刘艳艳,郭建谱,等.三峡库区重庆城区段底泥重金属污染调查与分析[J].重庆工商大学学报(自然科学版),2010,27(2):176-180.
[11]张立,袁旭音,邓旭.南京玄武湖底泥重金属形态与环境意义[J].湖泊科学,2007,19(1):63-69.
[12]胡斌,周晴,段昌群,等.昆明市盘龙江底泥重金属污染研究初探[J].云南大学学报(自然科学版),2006,28(2):166-172.
[13]杨卓,李贵宝,王殿武,等.白洋淀底泥重金属的污染及其潜在生态危害评价[J].农业环境科学学报,2005,24(5):945-951.
[14]陈守莉,王平祖,秦明周,等.太湖流域典型湖泊沉积物中重金属污染的分布特征[J].江苏农业学报,2007,23(2):124-130.
[15]徐圣友,叶琳琳,朱燕,等.巢湖沉积物中重金属的BCR形态分析[J].环境科学与技术,2008,31(9):20-23.
[16]史军伟.我国河流底泥重金属污染现状及修复技术的研究进展[J].现代物业·新建设,2014,13(7):15-17.
[17]WEN J,YI Y J,ZENG G M.Effects of modified zeolite on the removal and stabilization of heavy metals in contaminated lake sediment using BCR sequential extraction[J].Journal of environmental management,2016,178:63-69.
[18]LI X,DAI L H,ZHANG C,et al.Enhanced biological stabilization of heavy metals in sediment using immobilized sulfate reducing bacteria beads with inner cohesive nutrient[J].Journal of hazardous materials,2017,324:340-347.
[19]赵明,刘宏,王文江,等.疏浚底泥重金属污染现状及其治理技术[J].盐业与化工,2016,45(8):1-7.
[20]CAROLIN C F,KUMAR P S,SARAVANAN A,et al.Efficient techniques for the removal of toxic heavy metals from aquatic environment:A review[J].Journal of environmental chemical engineering,2017,5(3):2782-2799.
[21]TESSIER A,CAMPBELL P G,BISSON M.Sequential extraction procedure for the speciation of particulate trace metals[J].Analytical chemistry,1979,51(7):844-851.
[22]谢华明.微生物沥浸及固化/稳定化处理重金属污染底泥的研究[D].长沙:湖南大学,2012.
[23]DERMATAS D,MENG X G.Utilization of fly ash for stabilization/solidification of heavy metal contaminated soils[J].Engineering geology,2003,70(3/4):377-394.
[24]王琦,王起,闵海华.我国危险废物固化处理技术的探讨[J].环境卫生工程,2007,15(5):57-59.
[25]武博然,柴晓利.疏浚底泥固化改性与资源化利用技术[J].环境工程学报,2016,10(1):335-342.
[26]李海波,曹梦华,吴丁山,等.硫化亚铁稳定化修复重金属污染湖泊底泥的效率及机理[J].环境工程学报,2017,11(5):3258-3263.
[27]苏良湖.底泥重金属稳定化和多环芳烃降解的研究[D].太原:太原理工大学,2010.
[28]张惠芳,孙玲,蔡申健,等.城市污泥中重金属的去除及稳定化技术研究进展[J].环境工程,2014,32(12):82-86.
[29]RAMAMURTHY A S,VO D,LI X J,et al.Surfactant-enhanced removal of Cu(II)and Zn(II)from a contaminated sandy soil[J].Water,air,and soil pollution,2008,190(1/2/3/4):197-207.
[30]封帅.河道污染底泥淋洗处理中重金属形态分布转化的研究[D].哈尔滨:哈尔滨工业大学,2014.
[31]PAPASSIOPI N,TAMBOURIS S,KONTOPOULOS A.Removal of heavy metals from calcareous contaminated soils by EDTA leaching[J].Water,air,and soil pollution,1999,109(1/2/3/4):1-15.
[32]BRINZA L,DRING M J,GAVRILESCU M.Marine micro and maro algal species as biosorbents for heavy metals[J].Environmental engineering&management journal,2007,6(3):237-251.
[33]张再利,贾晓珊.两种硫杆菌对河涌底泥重金属的生物沥滤[J].中国环境科学,2008,28(7):624-629.
[34]赵亮,方迪,单红仙,等.固体浓度对污染底泥中重金属生物沥浸去除效果的影响[J].环境科学,2009,30(8):2347-2352.
[35]谢华明,杨朝晖,徐海音,等.微生物沥浸法去除底泥中的重金属[J].环境工程学报,2012,6(4):1320-1326.
[36]WONG J W C,XIANG L,GU X Y,et al.Bioleaching of heavy metals from anaerobically digested sewage sludge using Fe S2as an energy source[J].Chemosphere,2004,55(1):101-107.
[37]张彦浩,黄理龙,杨连宽,等.河道底泥重金属污染的原位修复技术[J].净水技术,2016,35(1):26-32.
[38]谷超.红枫湖疏浚底泥中重金属的植物修复研究[D].贵阳:贵州师范大学,2015.
[39]CHEHREGANI A,NOORI M,YAZDI H L.Phytoremediation of heavymetal-polluted soils:Screening for new accumulator plants in Angouran mine(Iran)and evaluation of removal ability[J].Ecotoxicology and environmental safety,2009,72(5):1349-1353.
[40]PEDERSEN K B,OTTOSEN L M,JENSEN P E,et al.Comparison of 2-compartment,3-compartment and stack designs for electrodialytic removal of heavy metals from harbour sediments[J].Electrochimica acta,2015,181:48-57.
[41]KIM S O,MOON S H,KIM K W,et al.Pilot scale study on the ex situ electrokinetic removal of heavy metals from municipal wastewater sludges[J].Water research,2002,36(19):4765-4774.
[42]LEE K Y,KIM K R,LEE B T,et al.Evaluation on the feasibility of microbially enhanced electrokinetic removal of multiple heavy metals from tailing soil[J].Separation science and technology,2009,44(10):2322-2340.
[43]PEDERSEN K B,LEJON T,JENSEN P E,et al.Simultaneous electrodialytic removal of PAH,PCB,TBT and heavy metals from sediments[J].Journal of environmental management.2017,198:192-202.
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