参考文献

参考文献

［1］陈守煜.模糊优选神经网络多目标决策理论［J］.大连理工大学学报，1997（6）：79-84.

［2］陈珽，王柏林.一种对话式多目标决策方法［J］.华中科技大学学报，1983（5）：1-7.

［3］董前进，王先甲，吉海，等.三峡水库洪水资源化多目标决策评价模型［J］.长江流域资源与环境，2007（2）：260-264.

［4］董增川.多目标决策的一种交互式方法及应用［J］.水利学报，1992，（03）：33-38.

［5］董子敖.水库群调度与规划的优化理论和应用［M］.山东科学技术出版社，1989.

［6］范忠贤.柘汪污水处理厂选址方案研究与实证分析［D］.南京理工大学，2008.

［7］国务院.关于印发水污染防治行动计划的通知水污染防治行动计划：国发［2015］17号［S］.国务院，2015.

［8］郭元裕，邹时民，骆辛磊，丁梦春，符玉书.大系统多目标优化理论在洞庭湖区圩垸排涝规划中的应用［J］.水利学报，1986（2）：13-27.

［9］韩冬梅，任晓鸿.美国水环境管理经验及对中国的启示［J］.河北大学学报（哲学社会科学版），2014，39（5）：118-123.

［10］纪楠.城市污水处理厂综合评价指标体系和评价方法的研究［D］.哈尔滨工业大学，2011.

［11］蒋茹.基于不确定性理论与方法的城市污水处理厂优化决策研究［D］.湖南大学，2007.

［12］金琼，吴秋明.TOPSIS法在连续方案多目标决策中的应用［J］.河海大学学报，1989（2）：79-85.

［12］靖中秋，于鲁冀，梁亦欣等.北方地区流域水环境综合治理模式研究与实践［J］.环境工程，2018，36（5）：45-48.

［13］柯崇宜，石淑倩，潘宁，孙峻.现有污水处理厂存在的若干问题探讨［J］.环境保护，2000（2）：21-22.

［14］李慧，张彦，李艳英等.太湖流域工业园区企业废水处理的问题及对策［J］.给水排水，2017，53（11）：58-61.

［15］李强强.基于多目标动态投入产出优化模型的能源系统研究［D］.华中科技大学，2009.

［16］林晓明.论城市污水处理厂建设规模与处理标准的确定［J］.给水排水，1997（9）：20-23，2.

［17］卢庆华.能源经济可持续发展研究［D］.山东大学，2005.

［18］卢莎莎，王晓林.企业生产规划多目标决策方法的应用研究［J］.制造业自动化，2011，33（1）：148-149，152.

［19］卢延娜，雷晶，马占云，周羽化.地方水污染物排放标准发展现状及制订研究［J］.环境保护，2016，44（07）：57-59.

［20］吕燕.典型城市二级污水处理厂费用模型与优化设计［D］.昆明理工大学，2009.

［21］马庆刚.污水处理厂建设投资简捷估算模型［J］.化学工业，2010，28（8）：31-34.

［22］梅运先.多目标决策方法在物流设施系统规划中的应用研究［D］.中南大学，2004.

［23］庞子山.活性污泥法工艺系统优化设计模型及应用研究［D］.重庆大学，2004.

［24］裴洪平，汪勇.我国环境规划发展趋势探析［J］.重庆环境科学，2003（2）：1-3，59.

［25］裴晓菲，贾蕾，侯东林等.关于国家污染物排放标准若干问题的思考［J］.环境保护，2018，46（20）：7-9.

［26］上海市政工程设计研究院.给水排水设计手册（第10册）：技术经济（第3版）［M］.北京：中国建筑工业出版社，2000，475-485.

［27］石咏，黎金玲，李冰毅，郭海湘，诸克军.基于离散与连续选址相结合的平面选址问题研究——以华北石油局大牛地气田污水处理厂选址为例［J］.数学的实践与认识，2014，44（24）：95-103.

［28］申海，解建仓，罗军刚.水库洪水调度多目标决策方法及应用［J］.沈阳农业大学学报，2011，42（03）：340-344.

［29］四川水资源公报2015，2016，2017，2018，2019，2020，2021

［30］周羽化.我国水污染物排放标准现状与发展［C］//.2019年中国水污染治理技术与装备研讨会会议资料.2019：74-80.

［31］王浩程，王琳，卫宝立等.基于GIS技术的污水处理厂选址规划研究［J］.中国给水排水，2020，36（11）：63-68.

［32］吴红波，杨肖肖，王国田.基于多目标优化模型的城镇污水处理厂选址分析［J］.地理空间信息，2019，17（12）：42-46，9.

［33］王利，王文静，刘亚.基于GIS技术的污水处理厂布局优化研究——以大连市金普新区为例［J］.辽宁师范大学学报（自然科学版），2016，39（4）：539-547.

［34］周羽化，武雪芳.中国水污染物排放标准40余年发展与思考［J］.环境污染与防治，2016，38（9）：99-104，110.

［35］张文静，王强，吴悦颖，叶维丽，文宇立，刘雅玲.中国水污染物总量控制特色研究［J］.环境污染与防治，2016，38（7）：104-109.

［36］赵海霞，蒋晓威，董雅文，崔建鑫.城市污水处理设施空间格局优化研究——以江苏省淮安市为例［J］.地球科学进展，2014，29（3）：404-411.

［37］王宁，赵振华，何流，王芳.某市工业园区污水处理厂建设工程中试研究［J］.能源与环境，2011，（01）：16-18，41.

［38］杨硕，徐冰峰，赖应良.污水处理厂建设项目绩效评价指标及权重研究［J］.水科学与工程技术，2010（3）：37-40.

［39］徐晓妮.城市污水处理厂工程项目后评价体系研究［D］.西安建筑科技大学，2010.

［40］杨志群.多目标决策方法在个人信用评估中的应用［J］.长沙民政职业技术学院学报，2009，16（1）：63-64.

［41］张雅文.基于AHP和多目标决策理论的盟友选择方法研究［J］.陕西教育学院学报，2008（2）：110-113.

［42］周建忠，马林伟，孙政，罗本福.城市污水处理厂厂址选择新思维［J］.中国给水排水，2007（2）：36-38.

［43］汪积泽，孙鹏亮.中小城市污水处理厂设计的几个问题［J］.黑龙江环境通报，2006（3）：53-54.

［44］仝海路，郜清兰，侯志寿.中小城镇污水处理厂建设和管理急需解决的问题［J］.节能与环保，2006（7）：43-45.

［45］苏少林，呼世斌.杨凌生活垃圾最佳堆肥方案筛选［J］.西北农林科技大学学报（自然科学版），2006（5）：119-122.

［46］徐克龙.基于格的多目标决策理论研究［D］.西南交通大学，2004.

［47］张士强.山东省能源结构优化调整与可持续发展研究［D］.山东师范大学，2004.

［48］于义彬，王本德，柳澎，李卫.具有不确定信息的风险型多目标决策理论及应用［J］.中国管理科学，2003（6）：10-14.

［49］孙振世，陆芳.我国城市污水处理厂运行状况及加强监管对策［J］.中国环境管理，2003（5）：1-2.

［50］许劲.关于城市污水处理厂设计的若干问题讨论［J］.给水排水，2001（7）：15-18.

［51］赵媛，梁中，袁林旺，管卫华.能源与社会经济环境协调发展的多目标决策——以江苏省为例［J］.地理科学，2001（2）：164-169.

［52］周雹，谭振江.中、小型城市污水处理厂的优选工艺［J］.中国给水排水，2000，（10）：21-24.

［53］邵林广.南方城市污水处理工艺的选择［J］.给水排水，2000（6）：32-34，1.

［54］沈光范.关于城市污水处理厂设计的若干问题［J］.中国给水排水，2000（3）：20-23.

［55］羊寿生，张辰.城市污水处理厂设计中热点问题剖析［J］.给水排水，1999（9）：1-3，2.

［56］邵林广.南方城市污水处理厂实际运行水质远小于设计值的原因及其对策［J］.给水排水，1999（2）：15-17，2.

［57］翁文斌，蔡喜明，史慧斌，王浩.宏观经济水资源规划多目标决策分析方法研究及应用［J］.水利学报，1995（2）：1-11.

［58］尹军，李晓君，宫正.城市污水二级处理系统费用函数研究［J］.水处理技术，1988（4）：32-37.

［59］张玉新，冯尚友.多维决策的多目标动态规划及其应用［J］.水利学报，1986（7）：1-10.

［60］张义生，王华东.国外环境规划研究现状和趋势［J］.环境科学丛刊，1986（2）：10-17.

［61］Xiaojing Shen，Xu Wu，Xinmin Xie，Chuanjiang Wei，Liqin Li，Jingjing Zhang.Synergetic Theory-Based Water Resource Allocation Model［J］.Water Resources Management，2021，(prepublish).

［62］Chandra Saurabh，Sarkhel Manish，Vatsa Amit Kumar.Capacitated facility location-allocation problem for wastewater treatment in an industrial cluster［J］.Computers&amp，Operations Research，2021，(prepublish).

［63］Zambrano-Asanza S.，Quiros-Tortos J.，Franco John F..Optimal site selection for photovoltaic power plants using a GIS-based multi-criteria decision making and spatial overlay with electric load［J］.Renewable and Sustainable Energy Reviews，2021：143.

［64］Mallick Javed.Municipal Solid Waste Landfill Site Selection Based on Fuzzy-AHP and Geoinformation Techniques in Asir Region Saudi Arabia［J］.Sustainability，2021，13(3).

［65］Feng Jianghong.Optimal allocation of regional water resources based on multi-objective dynamic equilibrium strategy［J］.Applied Mathematical Modelling，2021：90.

［66］Fatemeh Dadmand，Zahra Naji-Azimi，Nasser Motahari Farimani，Kamran Davary.Sustainable allocation of water resources in water-scarcity conditions using robust fuzzy stochastic programming［J］.Journal of Cleaner Production，2020：276.

［67］Sadhasivam Nitheshnirmal，Sheik Mohideen Abdul Rahaman，Alankar Balasundareshwaran.Optimisation of landfill sites for solid waste disposal in Thiruverumbur taluk of Tiruchirappalli district，India［J］.Environmental Earth Sciences，2020，79(23).

［68］Meng Shao，Zhixin Han，Jinwei Sun，Chengsi Xiao，Shulei Zhang，Yuanxu Zhao.A review ofmulti-criteria decision making applications for renewable energy site selection［J］.Renewable Energy，2020：157(prepublish).

［69］Ehsan Pourmand，Najmeh Mahjouri，Maryam Hosseini，Farzaneh Nik-Hemmat.A Multi-Criteria Group Decision Making Methodology Using Interval Type-2 Fuzzy Sets：Application to Water Resources Management［J］.Water Resources Management，2020：34(prepublish).

［70］Liming Yao，Linhuan He，Xudong Chen.Trade-off between equity and efficiency for allocating wastewater emission permits in watersheds considering transaction［J］.Journal of Environmental Management，2020：270.

［71］Bijay Halder，Jatisankar Bandyopadhyay，Papiya Banik.Assessment of hospital sites’suitability by spatial information technologies using AHP and GISbased multi-criteria approach of Rajpur-Sonarpur Municipality［J］.Modeling Earth Systems and Environment，2020：6(prepublish).

［72］Farhana Parvin，Sk Ajim Ali，S.Najmul Islam Hashmi，Aaisha Khatoon.Accessibility and site suitability for healthcare services using GIS-based hybrid decision-making approach：a study in Murshidabad，India［J］.Spatial Information Research，2020，(prepublish).

［73］Shenlin Li，Xiaohong Chen，V.P.Singh，Xinjian Qi，Lan Zhang.Tradeoff for water resources allocation based on updated probabilistic assessment of matching degree between water demand and water availability［J］.Science of the Total Environment，2020，716(prepublish).

［74］Amare GebreMedhin Nigusse，Ukeubay Geiday Adhaneom，Gebrerufael Hailu Kahsay，Abadi Mehari Abrha，Desta Nigusse Gebre，Amanuel Gedey Weldearegay.GIS application for urban domestic wastewater treatment site selection in the Northern Ethiopia，Tigray Regional State：a case study in Mekelle City［J］.Arabian Journal of Geosciences，2020，13(2).

［75］Saleheh Rahimi，Ashkan Hafezalkotob，Seyed Masoud Monavari，Arian Hafezalkotob，Razieh Rahimi.Sustainable landfill site selection formunicipal solid waste based on a hybrid decision-making approach：Fuzzy group BWMMULTIMOORA-GIS［J］.Journal of Cleaner Production，2020，248(C).

［76］Jianli Zhou，Yunna Wu，Chenghao Wu，Feiyang He，Buyuan Zhang，Fangtong Liu.A geographical information system based multi-criteria decisionmaking approach for location analysis and evaluation of urban photovoltaic charging station：A case study in Beijing［J］.Energy Conversion and Management，2020，205(C).

［77］Kroll Christian，Warchold Anne，Pradhan Prajal.Sustainable Development Goals(SDGs)：Are we successful in turning trade-offs into synergies［J］.Palgrave Communications，2019，5(1).

［78］Xiaodi Hao，Ji Li，Mark C.M.van Loosdrecht，Han Jiang，Ranbin Liu.Energy recovery from wastewater：Heat over organics［J］.Water Research，2019，161.

［79］Manoochehr Mortazavi Chamchali，Amin Mohebbi Tafreshi，Ghazaleh Mohebbi Tafreshi.Utilizing GIS linked to AHP for landfill site selection in Rudbar County of Iran［J］.GeoJournal，2019，86(prepublish).

［80］Sara Heimersson，Magdalena Svanström，Tomas Ekvall.Opportunities of consequential and attributional modelling in life cycle assessment of wastewater and sludgemanagement［J］.Journal of Cleaner Production，2019，222.

［81］Justin D.Delorit，Paul J.Block.Using Seasonal Forecasts to Inform Water Market-Scale Option Contracts［J］.Journal of Water Resources Planning and Management，2019，145(5).

［82］Nabi Ghulam，Ali Murad，Khan Suliman，Kumar Sunjeet.The crisis of water shortage and pollution in Pakistan：risk to public health，biodiversity，and ecosystem.［J］.Environmental science and pollution research international，2019，26(11).

［83］Yanlai Zhou，Li-Chiu Chang，Tin-Shuan Uen，Shenglian Guo，Chong-Yu Xu，Fi-John Chang.Prospect for small-hydropower installation settled upon optimalwater allocation：An action to stimulate synergies ofwater-food-energy nexus［J］.Applied Energy，2019，238.

［84］Stochastic Optimization，Studies from North China Electric Power University Have Provided New Data on Stochastic Optimization(Stochastic optimization model for water allocation on a watershed scale considering wetland's ecologicalwater requirement)［J］.Journal of Engineering，2019.

［85］Y.L.Xie，D.H.Xia，G.H.Huang，L.Ji.Inexact stochastic optimization model for industrial water resources allocation under considering pollution charges and revenue-risk control［J］.Journal of Cleaner Production，2018，203.

［86］Kate Smith，Shuming Liu，Hong-Ying Hu，Xin Dong，Xianghua Wen.Water and energy recovery：The future of wastewater in China［J］.Science of the Total Environment，2018，637-638.

［87］Jingwen Hou，Aizhong Ye，Jinjun You，Feng Ma，Qingyun Duan.An estimate of human and natural contributions to changes in water resources in the upper reaches of the Minjiang River［J］.Science of the Total Environment，2018，635.

［88］Hossein Yousefi，Hamed Hafeznia，Amin Yousefi-Sahzabi.Spatial Site Selection for Solar Power Plants Using a GIS-Based Boolean-Fuzzy Logic Model：A Case Study of Markazi Province，Iran［J］.Energies，2018，11(7).

［89］C.Dai，X.S.Qin，Y.Chen，H.C.Guo.Dealing with equality and benefit for water allocation in a lake watershed：A Gini-coefficient based stochastic optimization approach［J］.Journal of Hydrology，2018，561.

［90］Paz Arroyo，María Molinos-Senante.Selecting appropriate wastewater treatment technologies using a choosing-by-advantages approach［J］.Science of the Total Environment，2018，625.

［91］Christian G.Daughton.Monitoring wastewater for assessing community health：Sewage Chemical-Information Mining(SCIM)［J］.Science of the Total Environment，2018，619-620.

［92］Dedi Liu，Shenglian Guo，Quanxi Shao，Pan Liu，Lihua Xiong，Le Wang，Xingjun Hong，Yao Xu，ZhaoliWang.Assessing the effects of adaptation measures on optimal water resources allocation under varied water availability conditions［J］.Journal of Hydrology，2018，556.

［93］Nasiri-Gheidari Omid，Marofi Safar，Adabi Farzaneh.A robustmultiobjective bargaining methodology for inter-basin water resource allocation：a case study.［J］.Environmental science and pollution research international，2018，25(3).

［94］Jeffrey A.Soller，Sorina E.Eftim，Sharon P.Nappier.Direct potable reusemicrobial risk assessmentmethodology：Sensitivity analysis and application to State log credit allocations［J］.Water Research，2018，128.

［95］Ana Serrano，Javier Valbuena.Production and consumption-based water dynamics：A longitudinal analysis for the EU27［J］.Science of the Total Environment，2017，599-600.

［96］Meritxell Gros，Kristin M.Blum，Henrik Jernstedt，Gunno Renman，Sara Rodríguez-Mozaz，Peter Haglund，Patrik L.Andersson，Karin Wiberg，Lutz Ahrens.Screening and prioritization of micropollutants in wastewaters from on-site sewage treatment facilities［J］.Journal of Hazardous Materials，2017，328.

［97］Elbakidze Levan，Vinson Hannah，Cobourn Kelly，Taylor R.Garth.Efficient groundwater allocation and binding hydrologic externalities［J］.Resource and Energy Economics，2017，53.

［98］Belhaj Dalel，Athmouni Khaled，Jerbi Bouthaina，Kallel Monem，Ayadi Habib，Zhou John L.Estrogenic compounds in Tunisian urban sewage treatment plant：occurrence，removal and ecotoxicological impact of sewage discharge and sludge disposal.［J］.Ecotoxicology(London，England)，2016，25(10).

［99］Zhineng Hu，Changting Wei，Liming Yao，Ling Li，Chaozhi Li.A multi-objective optimization model with conditional value-at-risk constraints for water allocation equality［J］.Journal of Hydrology，2016，542.

［100］R.Quentin Grafton.Ronald C.Griffin，Water Resource Economics：The Analysis of Scarcity，Policies and Projects，second ed.，The MIT Press，Cambridge，MA，USA，2016，p.496［J］.Water Resources and Economics，2016，15.

［101］Yan Sun，Zhuo Chen，Guangxue Wu，Qianyuan Wu，Feng Zhang，Zhangbin Niu，Hong-Ying Hu.Characteristics of water quality of municipal wastewater treatment plants in China：implications for resources utilization and management［J］.Journal of Cleaner Production，2016，131.

［102］Chang-Gui Pan，You-Sheng Liu，Guang-Guo Ying.Perfluoroalkyl substances(PFASs)in wastewater treatment plants and drinking water treatment plants：Removal efficiency and exposure risk［J］.Water Research，2016，106.

［103］Zhineng Hu，Yazhen Chen，Liming Yao，Changting Wei，Chaozhi Li.Optimal allocation of regional water resources：From a perspective of equityefficiency tradeoff［J］.Resources，Conservation &amp，Recycling，2016，109.

［104］Jan Friesen，Leonor Rodriguez Sinobas，Laura Foglia，Ralf Ludwig.Environmental and socio-economic methodologies and solutions towards integrated water resourcesmanagement［J］.Science of the Total Environment，2016，581-582.

［105］Wan-zhen Song，Yuan Yuan，Yun-zhong Jiang，Xiao-hui Lei，Dong-cai Shu.Rule-based water resource allocation in the Central Guizhou Province，China［J］.Ecological Engineering，2016，87.

［106］M.Habibi Davijani，M.E.Banihabib，A.Nadjafzadeh Anvar，S.R.Hashemi.Multi-Objective Optimization Model for the Allocation of Water Resources in Arid Regions Based on the Maximization of Socioeconomic Efficiency［J］.Water Resources Management，2016，30(3).

［107］María Pedro-Monzonís，Abel Solera，Javier Ferrer，Teodoro Estrela，Javier Paredes-Arquiola.A review of water scarcity and drought indexes in water resources planning and management［J］.Journal of Hydrology，2015，527.

［108］Jian Xu，Yan Xu，HongmeiWang，Changsheng Guo，Huiyun Qiu，Yan He，Yuan Zhang，Xiaochen Li，Wei Meng.Occurrence of antibiotics and antibiotic resistance genes in a sewage treatment plantand its effluent-receiving river［J］.Chemosphere，2015，119.

［109］Farid Khalil Arya，Lan Zhang.Time series analysis of water quality parameters at Stillaguamish River using order series method［J］.Stochastic Environmental Research and Risk Assessment，2015，29(1).

［110］Xu，Jiuping，Ni，Jingneng，Zhang，Mengxiang.Constructed Wetland Planning-Based Bilevel Optimization Model under Fuzzy Random Environment：Case Study of Chaohu Lake［J］.Journal of Water Resources Planning and Management，2015，141(3).

［111］X.C.Cao，P.T.Wu，Y.B.Wang，X.N.Zhao.Corrigendum to“Assessing blue and green water utilisation in wheat production of China from the perspectives ofwater footprint and totalwater use”published in Hydrol.Earth Syst.Sci.，18，3165-3178，2014［J］.Hydrology and Earth System Sciences，2014，18(8).

［112］Fu F，Dionysiou D D，Hong L.The use of zero-valent iron for groundwater remediation and wastewater treatment：A review［J］.Journal of Hazardous Materials，2014，267(feb.28)：194-205.

［113］Mo Li，Ping Guo.A multi-objective optimal allocation model for irrigation water resources under multiple uncertainties［J］.Applied Mathematical Modelling，2014，38(19-20).

［114］X.Chen，D.Naresh，L.Upmanu，Z.Hao，L.Dong，Q.Ju，J.Wang，S.Wang.China's water sustainability in the 21st century：a climateinformed water risk assessment covering multi-sector water demands［J］.Hydrology and Earth System Sciences，2014，18(5).

［115］Canter L W，Chawla M K，Swor C T.Addressing trend-related changes within cumulative effects studies in water resources planning［J］.Environmental Impact Assessment Review，2014，44(jan.)：58-66.

［116］Garnier J，Brion N，Callens J，et al.Modeling historical changes in nutrient delivery and water quality of the Zenne River(1790s-2010)：The role of land use，waterscape and urban wastewater management［J］.Journal of Marine Systems.

［117］L.Rizzo，C.Manaia，C.etal.，Urban wastewater treatment plants as hotspots for antibiotic resistant bacteria and genes spread into the environment：A review［J］.Science of the Total Environment，2013，447(2)：345-360.

［118］Ben D’Exelle.Equity-Efficiency Trade-Offs in Irrigation Water Sharing：Evidence from a Field Lab in Rural Tanzania［J］.World Development，2012，40(12).

［119］J.Yazdi，S.A.A.Salehi Neyshabouri.A Simulation-Based Optimization Model for Flood Management on a Watershed Scale［J］.Water resourcesmanagement，2012，26(15).

［120］Johan Fellman.Estimation of Gini coefficients using Lorenz curves［J］.Journal of Statistical and Econometric Methods，2012，1(2).

［121］Alexandros Kelessidis，Athanasios S.Stasinakis.Comparative study of the methods used for treatment and final disposal of sewage sludge in European countries［J］.Waste Management，2012，32(6).

［122］M.Molinos-Senante，M.Garrido-Baserba，R.Reif，F.Hernández-Sancho，M.Poch.Assessment of wastewater treatment plant design for small communities：Environmental and economic aspects［J］.Science of the Total Environment，2012，427-428：11-18.

［123］Kevin G.Robinson，Carolyn H.Robinson，Lauren A.Raup，Travis R.Markum.Public attitudes and risk perception toward land application of biosolids within the south-eastern United States［J］.Journal of Environmental Management，2012，98(5).

［124］Piao Xu，Guang Ming Zeng，Dan Lian Huang，Chong Ling Feng，Shuang Hu，Mei Hua Zhao，Cui Lai，Zhen Wei，Chao Huang，Geng Xin Xie，Zhi Feng Liu.Use of iron oxide nanomaterials in wastewater treatment：A review［J］.Science of the Total Environment，2012，424.

［125］Samantha E.Bresler.Policy recommendations for reducing reactive nitrogen from wastewater treatment in the Great Bay Estuary，NH［J］.Environmental Science and Policy，2012，19-20(5-6)：69-77.

［126］Konstantinos V.Plakas，Anastasios J.Karabelas.Removal of pesticides from water by NF and RO membranes—A review［J］.Desalination，2012，287.

［127］Dodane Pierre-Henri，MbéguéréMbaye，Sow Ousmane，Strande Linda.Capital and operating costs of full-scale fecal sludge management and wastewater treatment systems in Dakar，Senegal.［J］.Environmental science&amp，technology，2012，46(7).

［128］Wooyong Jung，Bonsang Koo，Seung Heon Han.A multi-objective linear programming framework for evaluating the financial viability of supplementary facilities in Build-Transfer-Lease projects in Korea［J］.KSCE Journal of Civil Engineering，2012，16(1).

［129］Giovanni Libralato，Annamaria Volpi Ghirardini，Francesco Avezzù.To centralise or to decentralise：An overview of themost recent trends in wastewater treatment management［J］.Journal of Environmental Management，2011，94(1).

［130］Zhao-Bo Chen，Zhi-Qiang Chen，Nan-Qi Ren，Hong-Cheng Wang，Shu-Kai Nie，Min-Hua Cui.Modeling ofmixed liquor inorganic suspended solids and membrane flux at different ratio of SRT to HRT in a submerged membrane bioreactor［J］.Applied Mathematical Modelling，2011，36(1).

［131］L.Divakar，M.S.Babel，S.R.Perret，A.Das Gupta.Optimal allocation of bulk water supplies to competing use sectors based on economic criterion-An application to the Chao Phraya River Basin，Thailand［J］.Journal of Hydrology，2011，401(1).

［132］George Simion Ostace，Vasile Mircea Cristea，Paul 0 5erban Agachi.Cost reduction of the wastewater treatment plant operation by MPC based on modified ASM1 with two-step nitrification/denitrification model［J］.Computers and Chemical Engineering，2011，35(11).

［133］Marco Ostoich，Federico Serena，Loris Tomiato.Environmental controls for wastewater treatment plants：hierarchical planning，integrated approach，and functionality assessment［J］.Journal of Integrative Environmental Sciences，2010，7(4).

［134］Gordon Baxter，Ian Sommerville.Socio-technical systems：From design methods to systems engineering［J］.Interacting with Computers，2010，23(1).

［135］Amit Bhatnagar，Mika Sillanpää.Utilization of agro-industrial and municipal waste materials as potential adsorbents for water treatment—A review［J］.Chemical Engineering Journal，2010，157(2).

［136］Stewart M.Oakley，Arthur J.Gold，Autumn J.Oczkowski.Nitrogen control through decentralized wastewater treatment：Process performance and alternativemanagement strategies［J］.Ecological Engineering，2010，36(11).

［137］P.Guo，G.H.Huang，H.Zhu，X.L.Wang.A two-stage programming approach for water resources management under randomness and fuzziness［J］.Environmental Modelling and Software，2010，25(12).

［138］María Molinos-Senante，Francesc Hernández-Sancho，Ramón Sala-Garrido.Economic feasibility study forwastewater treatment：A cost-benefit analysis［J］.Science of the Total Environment，2010，408(20).

［139］F.Hernandez-Sancho，M.Molinos-Senante，R.Sala-Garrido.Cost modelling for wastewater treatment processes［J］.Desalination，2010，268(1).

［140］Kartal B.，Kuenen J.G.，van Loosdrecht M.C.M..＜bold＞Sewage Treatmentwith Anammox＜/bold＞［J］.Science，2010，328(5979).

［141］Cornel P，Schaum C.Phosphorus recovery from wastewater：needs，technologies and costs.［J］.Water science and technology：a journal of the International Association on Water Pollution Research，2009，59(6).

［142］Francesc Hernández-Sancho，Ramón Sala-Garrido.Technical efficiency and cost analysis in wastewater treatment processes：A DEA approach［J］.Desalination，2009，249(1).

［143］Tao Sun，Hongwei Zhang，Yuan Wang，Xiangming Meng，Chenwan Wang.The application of environmental Gini coefficient(EGC)in allocating wastewater discharge permit：The case study of watershed total mass control in Tianjin，China［J］.Resources，Conservation &amp，Recycling，2009，54(9).

［144］Ashley Murray，Isha Ray.Wastewater for agriculture：A reuseoriented planning model and its application in peri-urban China［J］.Water Research，2009，44(5).

［145］Jinglan Hong，Jingmin Hong，Masahiro Otaki，Olivier Jolliet.Environmental and economic life cycle assessment for sewage sludge treatment processes in Japan［J］.Waste Management，2008，29(2).

［146］K.P.Anagnostopoulos，A.P.Vavatsikos.Using GIS and Fuzzy Logic forWastewater Treatment Processes Site Selection：The Case of Rodopi Prefecture［J］.AIP Conference Proceedings，2008，963(2).

［147］S.Renou，J.S.Thomas，E.Aoustin，M.N.Pons.Influence of impact assessment methods in wastewater treatment LCA［J］.Journal of cleaner production，2008，16(10).

［148］Shahriyar Mojahed，Fereydoun Aghazadeh.Major factors influencing productivity ofwater and wastewater treatment plant construction：Evidence from the deep south USA［J］.International journal of projectmanagement，2008，26(2).

［149］Cullis J.，van Koppen Barbara.Applying the Gini Coefficient to measure inequality ofwater use in the Olifants River watermanagement area，South Africa［M］.InternationalWater Management Institute(IWMI)，2007.

［150］Anthony Massé，Mathieu Spérandio，Corinne Cabassud.Comparison of sludge characteristics and performance of a submerged membrane bioreactor and an activated sludge process at high solids retention time［J］.Water Research，2006，40(12).

［151］Ching-Gung Wen，Chih-Sheng Lee.Development of a cost function for wastewater treatment systemswith fuzzy regression［J］.Fuzzy Sets and Systems，1999，106(2).

［152］Dimitrios A.Giannias，Joseph N.Lekakis.Policy analysis for an amicable，efficient and sustainable inter-country fresh water resource allocation［J］.Ecological Economics，1997，21(3).

［153］Sakawa Masatoshi，Yano Hitoshi.Feasibility and Pareto optimality for multiobjective nonlinear programming problems with fuzzy parameters［J］.Fuzzy Sets and Systems，1991，43(1).

［154］Ishibuchi Hisao，Tanaka Hideo.Multiobjective programming in optimization of the interval objective function［J］.European Journal of Operational Research，1990，48(2).

［155］Saaty Thomas L.Exploring the interface between hierarchies，multiple objectives and fuzzy sets［J］.Fuzzy Sets and Systems，1978，1(1).

［156］Tennant Donald Leroy.Instream Flow Regimens for Fish，Wildlife，Recreation and Related Environmental Resources［J］.Fisheries，1976，1(4).

［157］Saaty T L，Kearns K P.The Analytic Hierarchy Process［J］.analytical planning，1985.

［158］Neumann JV，Morgenstern O.Theory of Games and Economic Behavior［M］.Princeton University Press，1953.

［159］Zeleny M，Cochrane J L.Multiple criteria decision making［M］.McGraw-Hill，1982.

［160］HM.Markowitz-Cowles Foundation Monograph，1959.

［161］J.J.Buckley.Multi-objective possibilistic linear programming［J］.Fuzzy Sets and Systems，1990，35：23-28.

［162］Chanas S.Fuzzy programming in multiobjective linear programming—a parametric approach［J］.Fuzzy Sets&Systems，1989，29(3)：303-313.

［163］Orlovski S A.Multiobjective programming problems with fuzzy parameters［J］.Control&Cybernetics，1984，13(3).

［164］M.Sakawa，Interactive fuzzy decision-making formultiobjective linear programming problem and its application，in：Proceedings IFAC Symposium on Fuzzy Information，Knowledge Representation and Decision Analysis［M］.New York：Pergamum Press，1983：295-300.

［165］M.Sakawa.Interactive multiobjective decision-making by the fuzzy sequential proxy optimization technique-FSPOT//H.J.Zimmermann ed.TIMS/Studies in the Management Sciences［J］.Elsevier Science Publishers，1984，20：241-260.

［166］M.Sakawa，H.Yano.Feasibility and Pareto Optimality for Multiobjective Linear Programming Problems with Fuzzy Decision Variables and Fuzzy Parameters，in：J.Trappl ed.，Cybernetics and Systems’90［M］.London：World Scientific Publisher，1990：155-162.

［167］Tauxe GW.Multiobjective dynamic programmingwith application to a reservoir［J］.Water Resource Research，1979，15(6)：1403-1408.

［168］Chen HW，Chang N B.A comparative analysis ofmethods to represent uncertainty in estimating the cost of constructing wastewater treatment plants［J］.Journal of Environmental Management，2002，65(4)：383-409.

［169］Geoffrion A M，Feinberg J S D.An Interactive Approach for Multi-Criterion Optimization，with an Application to the Operation of an Academic Department［J］.Management Science，1972，19(4)：357-368.

［170］David，E，Monarchi，et al.Interactive multiobjective programing in water resources：A case study［J］.Water Resources Research，1973.

［171］Smith，B.R.Re-thinking wastewater landscapes：combining innovative strategies to address tomorrow's urban wastewater treatment challenges［J］.Water Science&Technology，2009，60(6)：1465-1473.

［172］Cai Q Y，Mo CH，Wu Q T，et al.Occurrence of organic contaminants in sewage sludges from eleven wastewater treatment plants，China［J］.Chemosphere，2007，68(9)：1751-1762.

［173］Gleick P，Palaniappan M，Morikawa M，et al.Theworld'swater 2008-2009：the biennial report on freshwater resources.2009.

［174］Shen W Q.Study on Ammonia Nitrogen in Municipal Sewage Adsorpted by Actived Coal-Serial Kaolin［J］.Journal of Anhui Agricultural Sciences，2010.

［175］Di，Z.Using GIS-Based Multi-Criteria Analysis for Optimal Site Selection for a Sewage Treatment Plant，University Library in Gävle：Gävle，Schweden.2015.

［176］Lv，Y.The Typical City Secondary Sewage Plant Cost Models and the Optimization Design［J］.Kunming University of Science，2009.

［177］Jara-Samaniego，J.，Perez-Murcia，M.D.，Bustamante，M.A.，Perez-Espinosa，A.，Paredes，C.，Lopez，M.，Moral，R..Composting assustainable strategy for municipalsolid waste management in the Chimborazo Region，Ecuador：Suit-ability of the obtainedcomposts for seedling production［J］.Journal of Cleaner Production，2017，141：1349-1358.

［178］Gorani M A，Ebraheem J.Location Optimization of Wastewater Treatment Plants Using GIS：A Case Study in Umm Durman/Karary［J］.Physics Letters B，2012，27(6)：343-344.

［179］Tulun，S.，Gurbuz，E.，Arsu，T.Developing a GIS-based landfill site suitabilitymap for the Aksaray province，Turkey［J］.Environ.Earth Sci.2021，80：310.

［180］Arca D，Citiroglu H K.Geographical information systems-based analysis of site selection for wind power plants in Kozlu District(Zonguldak-NW Turkey)by multi-criteria decision analysis method［J］.Energy Sources Part A Recovery Utilization and Environmental Effects，2020(2)：1-13.

［181］Ibrahim，G.R.F.，Hamid，A.A.，Darwesh，U.M.，Rasul，A.A GIS-based Boolean logic-analytical hierarchy process for solar power plant(case study：Erbil Governorate-Iraq)［J］.Environment，Development and Sustainability，2021，23：6066-6083.

［182］Dell’Ovo，M.，Capolongo，S.，Oppio，A.Combining spatial analysis with MCDA for the siting of healthcare facilities［J］.Land Use Policy，2018，76(3)：634-644.

［183］Nsaif，Q.A.，Khaleel，S.M.，Khateeb，A.H.Integration of gis and remote sensing technique for hospital site selection in baquba district［J］.Journal of Engineering Science and Technology，2020，15(3)：1492-1505.

［184］Deepa K，Krishnaveni M，Mageshwari M.A GIS Based Approach to Select Appropriate Wastewater Treatment Technology a Case Study-Shollinganallur Taluk Kanchipuram District Tamil Nadu［J］.International Journal of Scientific&Engineering Research，2015，6(3)：483-484.

［185］Koko S，Irvine K，Jindal R，et al.Spatial and Temporal Variations of Dissolved Oxygen in Cha-Am Municipality Wastewater Treatment Ponds Using GIS Kriging Interpolation［J］.Journal of Water Management Modeling，2017(5)：C247.

［186］Haklay M，Feitelson E，Doytsher Y.The Potential of a GIS-Based Scoping System-A Case Study of Wastewater Treatment Infrastructure［J］.Environmental Impact Assessment Review，1998(5)：439-459

［187］Ben Liu；Jie Tang；Yunke Qu；Yao Yang；Hang Lyu；Yindong Dai；Zhaoyang Li.A GIS-Based Method for Identification of Blindness in Former Site Selection of Sewage Treatment Plants and Exploration of Optimal Siting Areas：A Case Study in Liao River Basin［J］.Water.2022，Vol.14(No.1092)：1092.

［188］Wang，J.，Liu，Gh.，Wang，J.，et al.Current status，existent problems，and coping strategy of urban drainage pipeline network in China［J］.Environmental Science and Pollution Research，2021：1-15.

［189］Liao，ZL；Hu，TT；Roker，S.An obstacle to China's WWTPs：the COD and BOD standards for discharge into municipal sewers［J］.Environmental Science and Pollution Research.2015，Vol.22(No.21)：16434-16440.

［190］Huang，D.，Liu，X.，Jiang，S.et al.Current state and future perspectives of sewer networks in urban China.Frontiers of Environmental Science&Engineering，2018，12(3)：2.

［191］Cowell F A.Measurement of inequality［J］.Lse Research Online Documents on Economics，2000，1：87-166..

［192］Diaz G E，Brown T C.AQUARIUS，amodeling system for river basin water allocation［J］.Neuroendocrinology，1997.

［193］Hu Z，Wei C，Yao L，et al.Integrating Equality and Stability to Resolve Water Allocation Issues with a Multi-objective Bilevel Programming Model［J］.Journal of Water Resources Planning and Management，2016，142(7)：04016013.

［194］Huang Z，Liu X，Sun S，et al.Global assessment of future sectoral water scarcity under adaptive inner-basin water allocation measures［J］.Science of The Total Environment，2021：146973.

［195］Li J Y，Cui L B，Dou M，et al.Water Resources Allocation Model Based on Ecological Priority in the Arid Region［J］.Environmental Research，2021.

［196］Liu D H，Ji X X，Tang J F，Li H Y.A fuzzy cooperative game theoretic approach for multinational water resource spatiotemporal allocation［J］.European Journal of Operational Research，2020，282(3)：1025-1037.

［197］Mooselu M G，Nikoo M R，Latifi M，et al.A multi-objective optimal allocation of treated wastewater in urban areas using leader-follower game［J］.Journal of Cleaner Production，2020.

［198］Siciliano G，Urban F.Equity-based Natural Resource Allocation for Infrastructure Development：Evidence From Large Hydropower Dams in Africa and Asia［J］.Ecological Economics，2017.

［199］Xu Y，Wang Y，Li S，et al.Stochastic optimization model for water allocation on a watershed scale considering wetland's ecological water requirement［J］.Ecological Indicators，2017：S1470160X1730081X.

［200］Buckley J J.Multiobjective possibilistic linear programming［J］.Fuzzy Sets&Systems，1990，35(1)：23-28.

［201］Chanas S.Fuzzy programming in multiobjective linear programming—a parametric approach［J］.Fuzzy Sets&Systems，1989，29(3)：303-313.

［202］Orlovski S.Multiobjective programming problemswith fuzzy parameters［J］.Control&Cybernetics，1984，13(3).

［203］Sakawa M，Yano H.Personal computer-aided interactive decision making formultiobjective linear programming problemswith fuzzy coefficients and its applications.［J］.Springer Berlin Heidelberg，1989.

［204］Sakawa M，Seo F.Interactive multiobjective decision-making in environmental systems using the fuzzy sequential proxy optimization technique.［J］.Automatica，1982，18(2)：155-165.

［205］Sakawa M，Yano H.Feasibility and Pareto Optimality for Multiobjective Linear Programming Problems with Fuzzy Decision Variables and Fuzzy Parameters.

［206］Chen H W，Chang N B.A comparative analysis of methods to represent uncertainty in estimating the cost of constructing wastewater treatment plants［J］.Journal of Environmental Management，2002，65(4)：383-409.

［207］Geoffrion A M，Feinberg J S D.An Interactive Approach for Multi-Criterion Optimization，with an Application to the Operation of an Academic Department［J］.Management Science，1972，19(4)：357-368.

［208］David，E，Monarchi，et al.Interactive multiobjective programing in water resources：A case study［J］.Water Resources Research，1973.

［209］Smith，B.R.Re-thinking wastewater landscapes：combining innovative strategies to address tomorrow's urban wastewater treatment challenges［J］.Water Science&Technology，2009，60(6)：1465-1473.

［210］Cai Q Y，Mo C H，Wu Q T，et al.Occurrence of organic contaminants in sewage sludges from eleven wastewater treatment plants，China［J］.Chemosphere，2007，68(9)：1751-1762.

［211］Gleick P，Palaniappan M，Morikawa M，et al.The world's water 2008-2009：the biennial report on freshwater resources.2009.

［212］Shen W Q.Study on Ammonia Nitrogen in Municipal Sewage Adsorpted by Actived Coal-Serial Kaolin［J］.Journal of Anhui Agricultural Sciences，2010.

［213］Jara-Samaniego J，Perez-Murcia M D，Bustamante M A，et al.Composting as sustainable strategy for municipal solid waste management in the Chimborazo Region，Ecuador：Suitability of the obtained composts for seedling production［J］.Journal of Cleaner Production，2017，141(JAN.10)：1349-1358.

［214］Tulun E，Esra Gürbüz，Arsu T.Developing a GIS-based landfill site suitability map for the Aksaray province，Turkey［J］.Environmental Earth Sciences，2021，80(8).

［215］Arca D，Citiroglu H K.Geographical information systems-based analysis of site selection for wind power plants in Kozlu District(Zonguldak-NW Turkey)by multi-criteria decision analysis method［J］.Energy Sources Part A Recovery Utilization and Environmental Effects，2020(2)：1-13.

［216］Ibrahim G，Hamid A A，Darwesh U M，et al.A GIS-based Boolean logic-analytical hierarchy process for solar power plant(case study：Erbil Governorate-Iraq)［J］.Environment，Developmentand Sustainability：AMultidisciplinary Approach to the Theory and Practice of Sustainable Development，2021，23.

［217］M Dell’Ovo，Capolongo S，Oppio A.Combining spatial analysiswith MCDA for the siting of healthcare facilities［J］.Land Use Policy，2018：S0264837717310086.

［218］Nsaif Q A，Khaleel S M，Khateeb A H.INTEGRATION OFGIS AND REMOTE SENSING TECHNIQUE FOR HOSPITAL SITE SELECTION IN BAQUBA DISTRICT.2020.

［219］Koko S，Irvine K，Jindal R，et al.Spatial and temporal variations of dissolved oxygen in Cha-Am municipality wastewater treatment ponds using GIS Kriging interpolation［J］.Journal ofWater Management Modeling，2017.

［220］Haklay，Feitelson，Doytsher.The potential of a gis-based scoping system-A case study of wastewater treatment infrastructure［J］.Environmental Impact Assessment Review，1998(5)：439-459.

［221］Aguayo S，Munoz M J，Torre A，et al.Identification of organic compounds and ecotoxicological assessment of sewage treatment plants(STP)effluents［J］.Science of the Total Environment，2004，328(1/3)：69-81.

［222］Current status，existent problems，and coping strategy of urban drainage pipeline network in China［J］.Environmental Science and Pollution Research，2021：1-15.

［223］Zhenliang，Liao，Tiantian，et al.An obstacle to China'sWWTPs：the COD and BOD standards for discharge into municipal sewers［J］.Environmental Science&Pollution Research，2015.

［224］Cowell F A.Chapter 2 Measurement of inequality［J］.Handbook of Income Distribution，2000，1.

［225］Huang Z，Liu X，Sun S，et al.Global assessment of future sectoral water scarcity under adaptive inner-basin water allocation measures［J］.Science of The Total Environment，2021：146973.

［226］Li JY，Cui L B，Dou M，et al.Water Resources Allocation Model Based on Ecological Priority in the Arid Region［J］.Environmental Research，2021.

［227］Liu D，Ji X，Tang J，et al.A fuzzy cooperative game theoretic approach for multinational water resource spatiotemporal allocation［J］.European Journal of Operational Research，2020，282(3)：1025-1037.

［228］Mooselu M G，Nikoo M R，Latifi M，et al.A multi-objective optimal allocation of treated wastewater in urban areas using leader-follower game［J］.Journal of Cleaner Production，2020.

［229］Siciliano G，Urban F.Equity-based Natural Resource Allocation for Infrastructure Development：Evidence From Large Hydropower Dams in Africa and Asia［J］.Ecological Economics，2017，134(APR.)：130-139.

［230］Xu Y，Wang Y，Li S，et al.Stochastic optimization model for water allocation on a watershed scale considering wetland's ecological water requirement［J］.Ecological Indicators，2017：S1470160X1730081X.