再生水地表入渗场地适宜性评价研究进展
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摘要
通过总结再生水地表入渗场地适宜性评价的相关文献发现,目前应用比较广泛的再生水地表入渗回灌方式中按回灌目的的不同可分为两种类型:一类以控制污染为目的,其中以农田灌溉方式为主,该类场地一般需要有较好的防污能力;另一类以补充地下水、获得优质回用水为目的,其中以土壤含水层处理系统为主,该类回灌场地不仅要求渗透层有很好的渗透能力,同时还要有一定的水质净化能力。以农田灌溉和土壤含水层处理系统为例,总结了不同回灌目的场地的适宜性评价模型的特征,并在此基础上提出了再生水地表入渗场地的适宜性评价模型中需要进一步研究的问题。
Based on the relevant literature,the infiltration of reclaimed water from ground surface could be divided into two classes according to the purposes. One of the purposes is to control pollution. Farmland irrigation is the main method. In general,site selection of this purpose needs high capacity to prevent groundwater contamination. The other one is to recharge groundwater in order to obtain good quality of reused water,such as soil aquifer treatment system. Site of this purpose needs high permeability and high natural attenuation ability of vadose zone. In this paper,farmland irrigation and soil aquifer treatment system were taken as examples to analyze and discuss the methods for site selection of different purpose. The question for further research was presented based on the above discussion.
Based on the relevant literature,the infiltration of reclaimed water from ground surface could be divided into two classes according to the purposes. One of the purposes is to control pollution. Farmland irrigation is the main method. In general,site selection of this purpose needs high capacity to prevent groundwater contamination. The other one is to recharge groundwater in order to obtain good quality of reused water,such as soil aquifer treatment system. Site of this purpose needs high permeability and high natural attenuation ability of vadose zone. In this paper,farmland irrigation and soil aquifer treatment system were taken as examples to analyze and discuss the methods for site selection of different purpose. The question for further research was presented based on the above discussion.
引文
[1]薛爽,赵庆良,张翼鹏,等.土壤含水层处理出水的回用健康风险评价[J].环境科学与技术,2009,32(11):181-185.
[2]裴亮,刘慧明,王理明.农业再生水灌溉现状及发展对策分析[J].生态经济,2012(1):147-149.
[3]Lili Yi,Wentao Jiao,Xiaoning Chen,et al.An Overview of Reclaimed Water Reuse in China[J].Journal of Environmental Sciences-China,2011,23(10):1585-1593.
[4]郭瑾,王淑莹.国内外再生水补给水源的实际应用与进展[J].中国给水排水,2007,23(6):10-14.
[5]何江涛,沈照理.再生水入渗回灌利用的发展趋势[J].自然杂志,2010,32(6):348-352.
[6]刘巍,刘翔,辛佳.再生水地下回灌过程中溶解性有机物的去除研究[J].农业环境科学学报,2009,28(11):2354-2358.
[7]Bonnie V Laws,Eric R V Dickenson,Theodore A Johnson,et al.Attenuation of Contaminants of Emerging Concern During Surface-Spreading Aquifer Recharge[J].Science of the Total Environment,2011,409(6):1087-1094.
[8]Pinney M,Westerhoff P.Dissolved Orginic Carbon Transformations During Laboratory-Scale Groundwater Recharge Using Lagoon-Treated Wastewater[J].Water Management,2000,20(01):75-83.
[9]Baker L A,Johnson J S,Fox P.Geochemical Transformations During Artificial Groundwater Recharge:Soil Water Interactions of Inorganic Constituents[J].Water Resources,1999,32(1):196-206.
[10]靳孟贵,罗泽娇,梁杏,等.再生水地表回灌补给地下水的水质安全保障体系[J].地球科学,2012,37(2):238-246.
[11]赵嵩堪,张聪璐,王恩德,等.地下回灌——污水回用的重要战略[J].环境保护科学,2003,29(2):9-12.
[12]焦志华,黄占斌,李勇,等.再生水灌溉对土壤性能和土壤微生物的影响研究[J].农业环境科学学报,2010,29(2):319-323.
[13]杨林林,杨培岭,任树梅,等.再生水灌溉对土壤理化性质影响的试验研究[J].水土保持学报,2006,20(2):82-85.
[14]吴文勇,尹世洋,刘洪禄,等.北京市平原地区再生水利用区划研究[C]∥中国农业工程学会农业水土工程专业委员会.现代节水高效农业与生态灌区建设(下),昆明:云南大学出版社,2010:352-361.
[15]吴文勇,刘洪禄,郝仲勇,等.再生水灌溉利用区划研究[J].灌溉排水学报,2009,28(2):87-89.
[16]Anane M,Bouziri L,Limam A,et al.Ranking Suitable Sites for Irrigation with Reclaimed Water in the Nabeul-Hammamet Region(Tunisia)Using GIS and AHP-multicriteria Decision Analysis[J].Resources Conservation and Recycling,2012(65):36-46.
[17]蹇兴超.土壤含水层处理技术与人工地下水回灌简介[C]∥2001中国水污染治理行业发展论坛论文集,天津:中国环境保护产业协会水污染治理委员会,2001:264-267.
[18]Kanarek A,Michail M.Groundwater Recharge with Municipal Effluent:Dan Region Reclamation Project,Israel[J].Water Science and Technology,1996,34(11):227-233.
[19]成徐洲,吴天宝,陈天柱,等.土壤渗滤处理技术研究现状与进展[J].环境科学研究,1999,12(4):33-36.
[20]Ghayoumian J,Ghermezcheshme B,Feiznia S,et al.Integrating GIS and DSS for Identification of Suitable Areas for Artificial Recharge,Case Study Meimeh Basin,Isfahan,Iran[J].Environmental Geology,2005,47(4):493-500.
[21]Malekmohammadi B,Mehrian M R,Jafari H R.Site Selection for Managed Aquifer Recharge Using Fuzzy Rules:Integrating Geographical Information System(GIS)Tools and Multi-criteria Decision Making[J].Hydrogeology Journal,2012,20(7):1393-1405.
[22]Alivia Chowdhury,Madan K Jha,Chowdary V M.Delineation of Groundwater Recharge Zones and Identification of Artificial Recharge Sites in West Medinipur District,West Bengal,Using RS,GIS and MCDM Techniques[J].Environmental Earth Sciences,2010,59(6):1209-1222.
[23]Kallali H,Anane M,Jellali S,et al.GIS-based Multi-criteria Analysis for Potential Wastewater Aquifer Recharge Sites[J].Desalination,2007,215(1-3):111-119.
[24]Rahman M A,Rusteberg B,Gogu R C,et al.A New Spatial Multi-Criteria Decision Support Tool for Site Selection for Implementation of Managed Aquifer Recharge[J].Journal of Environmental Management,2012,99:61-75.
[25]巫常林,黄冠华,刘洪禄,等.再生水短期灌溉对土壤-作物中重金属分布影响的试验研究[J].农业工程学报,2006(7):91-96.
[26]魏益华,徐应明,周其文,等.再生水灌溉对土壤盐分和重金属累积分布影响的研究[J].灌溉排水学报,2008,27(3):5-8.
[27]师彦武,简艳红,顾华,等.北京市典型再生水灌区土壤质量现状研究[J].北京水务,2011(2):24-27.
[28]Ghayoumian J,Saravi M M,Feiznia S,et al.Application of GIS Techniques to Determine Areas Most Suitable for Artificial Groundwater Recharge in a Coastal Aquifer in Southern Iran[J].Journal of Asian Earth Sciences,2007,30(2):364-374.
[29]Flint A L,Ellett K M,Christensen A H,et al.Modeling a Thick Unsaturated Zone at San Gorgonio Pass,California:Lessons Learned after Five Years of Artificial Recharge[J].Vadose Zone Journal,2012,11(4):112-118.
[30]Pedrero F,Albuquerque A,Marecos do Monte H,et al.Application of GISBased Multi-Criteria Analysis for Site Selection of Aquifer Recharge with Reclaimed water[J].Resources Conservation and Recycling,2011,56(1):105-116.
[2]裴亮,刘慧明,王理明.农业再生水灌溉现状及发展对策分析[J].生态经济,2012(1):147-149.
[3]Lili Yi,Wentao Jiao,Xiaoning Chen,et al.An Overview of Reclaimed Water Reuse in China[J].Journal of Environmental Sciences-China,2011,23(10):1585-1593.
[4]郭瑾,王淑莹.国内外再生水补给水源的实际应用与进展[J].中国给水排水,2007,23(6):10-14.
[5]何江涛,沈照理.再生水入渗回灌利用的发展趋势[J].自然杂志,2010,32(6):348-352.
[6]刘巍,刘翔,辛佳.再生水地下回灌过程中溶解性有机物的去除研究[J].农业环境科学学报,2009,28(11):2354-2358.
[7]Bonnie V Laws,Eric R V Dickenson,Theodore A Johnson,et al.Attenuation of Contaminants of Emerging Concern During Surface-Spreading Aquifer Recharge[J].Science of the Total Environment,2011,409(6):1087-1094.
[8]Pinney M,Westerhoff P.Dissolved Orginic Carbon Transformations During Laboratory-Scale Groundwater Recharge Using Lagoon-Treated Wastewater[J].Water Management,2000,20(01):75-83.
[9]Baker L A,Johnson J S,Fox P.Geochemical Transformations During Artificial Groundwater Recharge:Soil Water Interactions of Inorganic Constituents[J].Water Resources,1999,32(1):196-206.
[10]靳孟贵,罗泽娇,梁杏,等.再生水地表回灌补给地下水的水质安全保障体系[J].地球科学,2012,37(2):238-246.
[11]赵嵩堪,张聪璐,王恩德,等.地下回灌——污水回用的重要战略[J].环境保护科学,2003,29(2):9-12.
[12]焦志华,黄占斌,李勇,等.再生水灌溉对土壤性能和土壤微生物的影响研究[J].农业环境科学学报,2010,29(2):319-323.
[13]杨林林,杨培岭,任树梅,等.再生水灌溉对土壤理化性质影响的试验研究[J].水土保持学报,2006,20(2):82-85.
[14]吴文勇,尹世洋,刘洪禄,等.北京市平原地区再生水利用区划研究[C]∥中国农业工程学会农业水土工程专业委员会.现代节水高效农业与生态灌区建设(下),昆明:云南大学出版社,2010:352-361.
[15]吴文勇,刘洪禄,郝仲勇,等.再生水灌溉利用区划研究[J].灌溉排水学报,2009,28(2):87-89.
[16]Anane M,Bouziri L,Limam A,et al.Ranking Suitable Sites for Irrigation with Reclaimed Water in the Nabeul-Hammamet Region(Tunisia)Using GIS and AHP-multicriteria Decision Analysis[J].Resources Conservation and Recycling,2012(65):36-46.
[17]蹇兴超.土壤含水层处理技术与人工地下水回灌简介[C]∥2001中国水污染治理行业发展论坛论文集,天津:中国环境保护产业协会水污染治理委员会,2001:264-267.
[18]Kanarek A,Michail M.Groundwater Recharge with Municipal Effluent:Dan Region Reclamation Project,Israel[J].Water Science and Technology,1996,34(11):227-233.
[19]成徐洲,吴天宝,陈天柱,等.土壤渗滤处理技术研究现状与进展[J].环境科学研究,1999,12(4):33-36.
[20]Ghayoumian J,Ghermezcheshme B,Feiznia S,et al.Integrating GIS and DSS for Identification of Suitable Areas for Artificial Recharge,Case Study Meimeh Basin,Isfahan,Iran[J].Environmental Geology,2005,47(4):493-500.
[21]Malekmohammadi B,Mehrian M R,Jafari H R.Site Selection for Managed Aquifer Recharge Using Fuzzy Rules:Integrating Geographical Information System(GIS)Tools and Multi-criteria Decision Making[J].Hydrogeology Journal,2012,20(7):1393-1405.
[22]Alivia Chowdhury,Madan K Jha,Chowdary V M.Delineation of Groundwater Recharge Zones and Identification of Artificial Recharge Sites in West Medinipur District,West Bengal,Using RS,GIS and MCDM Techniques[J].Environmental Earth Sciences,2010,59(6):1209-1222.
[23]Kallali H,Anane M,Jellali S,et al.GIS-based Multi-criteria Analysis for Potential Wastewater Aquifer Recharge Sites[J].Desalination,2007,215(1-3):111-119.
[24]Rahman M A,Rusteberg B,Gogu R C,et al.A New Spatial Multi-Criteria Decision Support Tool for Site Selection for Implementation of Managed Aquifer Recharge[J].Journal of Environmental Management,2012,99:61-75.
[25]巫常林,黄冠华,刘洪禄,等.再生水短期灌溉对土壤-作物中重金属分布影响的试验研究[J].农业工程学报,2006(7):91-96.
[26]魏益华,徐应明,周其文,等.再生水灌溉对土壤盐分和重金属累积分布影响的研究[J].灌溉排水学报,2008,27(3):5-8.
[27]师彦武,简艳红,顾华,等.北京市典型再生水灌区土壤质量现状研究[J].北京水务,2011(2):24-27.
[28]Ghayoumian J,Saravi M M,Feiznia S,et al.Application of GIS Techniques to Determine Areas Most Suitable for Artificial Groundwater Recharge in a Coastal Aquifer in Southern Iran[J].Journal of Asian Earth Sciences,2007,30(2):364-374.
[29]Flint A L,Ellett K M,Christensen A H,et al.Modeling a Thick Unsaturated Zone at San Gorgonio Pass,California:Lessons Learned after Five Years of Artificial Recharge[J].Vadose Zone Journal,2012,11(4):112-118.
[30]Pedrero F,Albuquerque A,Marecos do Monte H,et al.Application of GISBased Multi-Criteria Analysis for Site Selection of Aquifer Recharge with Reclaimed water[J].Resources Conservation and Recycling,2011,56(1):105-116.