LEADER 11308nam 2200649 450 001 9910132448603321 005 20221206105321.0 010 $a1-119-03584-8 010 $a1-118-96453-5 024 7 $a10.1002/9781119035848 035 $a(CKB)3710000000359015 035 $a(EBL)1895822 035 $a(SSID)ssj0001436821 035 $a(PQKBManifestationID)11899816 035 $a(PQKBTitleCode)TC0001436821 035 $a(PQKBWorkID)11444311 035 $a(PQKB)11700639 035 $a(MiAaPQ)EBC1895822 035 $a(CaBNVSL)mat07061011 035 $a(IDAMS)0b0000648297f251 035 $a(IEEE)7061011 035 $a(PPN)25796410X 035 $a(EXLCZ)993710000000359015 100 $a20151222d2015 uy 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 10$aSustainable solid waste management $ea systems engineering approach /$fNi-Bin Chang, Ana Pires 210 1$aHoboken, New Jersey :$cJohn Wiley & Sons Inc.,$d[2015] 210 2$a[Piscataqay, New Jersey] :$cIEEE Xplore,$d[2015] 215 $a1 online resource (932 p.) 225 1 $aIEEE Press series on systems science and engineering 300 $aDescription based upon print version of record. 311 $a1-118-45691-2 320 $aIncludes bibliographical references at the end of each chapters and index. 327 $aPREFACE xix -- I FUNDAMENTAL BACKGROUND 1 -- 1 INTRODUCTION 3 -- 1.1 The Concept of Sustainable Development 3 -- 1.2 Sustainability in the Context of SWM 10 -- 1.3 The Framework for Sustainability Assessment 12 -- 1.4 The Structure of this Book 13 -- References 16 -- 2 TECHNOLOGY MATRIX FOR SOLID WASTE MANAGEMENT 19 -- 2.1 Waste Classification and Types of Waste 19 -- 2.2 Waste Management Through Waste Hierarchy: Reduce, Reuse, Recycle, Recover, and Disposal 28 -- 2.3 Waste Operational Units: Real-World Cases 34 -- 2.4 Waste Operational Units: Equipment and Facilities 42 -- 2.5 Technology Matrix for Multiple Solid Waste Streams 72 -- 2.6 Final Remarks 90 -- References 90 -- 3 SOCIAL AND ECONOMIC CONCERNS 99 -- 3.1 Financial Concerns 100 -- 3.2 Economic Incentives and Socioeconomic Concerns 114 -- 3.3 Social Concerns 123 -- 3.4 Final Remarks 133 -- References 134 -- 4 LEGAL AND INSTITUTIONAL CONCERNS 141 -- 4.1 SWM Legislation 141 -- 4.2 Sustainable Waste Management Principles and Policies 151 -- 4.3 Policy Instruments 155 -- 4.4 ISWM Plans 162 -- 4.5 Final Remarks 163 -- References 163 -- 5 RISK ASSESSMENT AND MANAGEMENT OF RISK 171 -- 5.1 Formulate the Problem: Inherent Hazards in Solid Waste Management 171 -- 5.2 Risk Assessment in Solid Waste Management 176 -- 5.3 Management of Risk 183 -- 5.4 Risk Communication 184 -- 5.5 How to Promote a Sustainable Solid Waste Management with Risk Analysis? 186 -- 5.6 Final Remarks 188 -- References 188 -- II PRINCIPLES OF SYSTEMS ENGINEERING 193 -- 6 GLOBAL CHANGE, SUSTAINABILITY, AND ADAPTIVE MANAGEMENT STRATEGIES FOR SOLID WASTE MANAGEMENT 195 -- 6.1 Global Change Impacts 195 -- 6.2 Sustainability Considerations and Criteria 208 -- 6.3 Adaptive Management Strategies for Solid Waste Management Systems 208 -- 6.4 Final Remarks 210 -- References 210 -- 7 SYSTEMS ENGINEERING PRINCIPLES FOR SOLID WASTE MANAGEMENT 215 -- 7.1 Systems Engineering Principles 215 -- 7.2 System of Systems Engineering Approaches 222 -- 7.3 Centralized Versus Decentralized Approaches 227. 327 $a7.4 Sensitivity Analysis and Uncertainty Quantification 230 -- 7.5 Final Remarks 232 -- References 233 -- 8 SYSTEMS ENGINEERING TOOLS AND METHODS FOR SOLID WASTE MANAGEMENT 235 -- 8.1 Systems Analysis, Waste Management, and Technology Hub 236 -- 8.2 Cost-Benefit-Risk Trade-Offs and Single-Objective Optimization 240 -- 8.3 Multicriteria Decision-Making 248 -- 8.4 Game Theory and Conflict Resolution 283 -- 8.5 System Dynamics Modeling 287 -- 8.6 Final Remarks 290 -- References 292 -- Appendix Web Site Resources of Software Packages of LINDO and LINGO 299 -- III INDUSTRIAL ECOLOGY AND INTEGRATED SOLID WASTE MANAGEMENT STRATEGIES 301 -- 9 INDUSTRIAL ECOLOGY AND MUNICIPAL UTILITY PARKS 303 -- 9.1 Industrial Symbiosis and Industrial Ecology 303 -- 9.2 Creation of Eco-Industrial Parks and Eco-Industrial Clusters 309 -- 9.3 Municipal Utility Parks in Urban Regions 314 -- 9.4 Final Remarks 319 -- References 321 -- 10 LIFE CYCLE ASSESSMENT AND SOLID WASTE MANAGEMENT 323 -- 10.1 Life Cycle Assessment for Solid Waste Management 323 -- 10.2 Phases of Life Cycle Assessment 325 -- 10.3 LCA Waste Management Software 355 -- 10.4 Putting LCA into Practice 361 -- 10.5 Life Cycle Management 374 -- 10.6 Final Remarks 376 -- References 376 -- 11 STREAMLINED LIFE CYCLE ASSESSMENT FOR SOLID WASTE TREATMENT OPTIONS 387 -- 11.1 Application of Life Cycle Assessment for Solid Waste Management 388 -- 11.2 LCA for Screening Technologies of Solid Waste Treatment 390 -- 11.3 LCA Assessment Methodology 391 -- 11.4 Description of the CSLCA 397 -- 11.5 Interpretation of CSLCA Results 400 -- 11.6 Final Remarks 412 -- References 412 -- 12 CARBON-FOOTPRINT-BASED SOLID WASTE MANAGEMENT 417 -- 12.1 The Global-Warming Potential Impact 417 -- 12.2 The Quantification Process 418 -- 12.3 GWP Assessment for Solid Waste Management 426 -- 12.4 Case Study 429 -- 12.5 Systems Analysis 434 -- 12.6 Final Remarks 436 -- References 436 -- IV INTEGRATED SYSTEMS PLANNING, DESIGN, AND MANAGEMENT 441 -- 13 MULTIOBJECTIVE DECISION-MAKING FOR SOLID WASTE MANAGEMENT IN A CARBON-REGULATED ENVIRONMENT 443. 327 $a13.1 Current Gaps of Cost-Benefit Analyses for Solid Waste Management 444 -- 13.2 Background of System Planning 446 -- 13.3 Formulation of Systems Engineering Models for Comparative Analysis 451 -- 13.4 Interpretation of Modeling Output for Decision Analysis 459 -- 13.5 Comparative Analysis 464 -- 13.6 Final Remarks 470 -- References 470 -- 14 PLANNING REGIONAL MATERIAL RECOVERY FACILITIES IN A FAST-GROWING URBAN REGION 475 -- 14.1 Forecasting Municipal Solid Waste Generation and Optimal Siting of MRF in a Fast-growing Urban Region 476 -- 14.2 Modeling Philosophy 478 -- 14.3 Study Region and System Analysis Framework 480 -- 14.4 Prediction of Solid Waste Generation 483 -- 14.5 Regional Planning of Material Recovery Facilities 492 -- 14.6 Final Remarks 506 -- References 508 -- 15 OPTIMAL PLANNING FOR SOLID WASTE COLLECTION, RECYCLING, AND VEHICLE ROUTING 515 -- 15.1 Systems Engineering Approaches for Solid Waste Collection 516 -- 15.2 Simulation for Planning Solid Waste Recycling Drop-Off Stations 520 -- 15.3 Multiobjective Programming for Planning Solid Waste Recycling Drop-Off Stations 533 -- 15.4 Final Remarks 543 -- References 546 -- 16 MULTIATTRIBUTE DECISION-MAKING WITH SUSTAINABILITY CONSIDERATIONS 553 -- 16.1 Deterministic Multiple Attribute Decision-Making Process 554 -- 16.2 MADM for Solid Waste Management 568 -- 16.3 Final Remarks 579 -- References 580 -- 17 DECISION ANALYSIS FOR OPTIMAL BALANCE BETWEEN SOLID WASTE INCINERATION AND RECYCLING PROGRAMS 585 -- 17.1 Systems Analysis for Integrated Material Recycling and Waste-to-Energy Programs 586 -- 17.2 Refuse-Derived Fuel Process for Solid Waste Management 587 -- 17.3 Regional Shipping Strategies 594 -- 17.4 Final Remarks 606 -- References 609 -- 18 ENVIRONMENTAL INFORMATICS FOR INTEGRATED SOLID WASTE MANAGEMENT 611 -- 18.1 How Does Environmental Informatics Help Solid Waste Management? 611 -- 18.2 Sensors and Sensor Networks for Solid Waste Management 612 -- 18.3 Database Design for Solid Waste Management 615. 327 $a18.4 Spatial Analysis with GIS and GPS for Solid Waste Management 616 -- 18.5 Expert Systems, Decision Support Systems, and Computational Intelligence Techniques 624 -- 18.6 Integrated Environmental Information Systems 641 -- 18.7 Final Remarks 644 -- References 646 -- V UNCERTAINTY ANALYSES AND FUTURE PERSPECTIVES 665 -- 19 STOCHASTIC PROGRAMMING AND GAME THEORY FOR SOLID WASTE MANAGEMENT DECISION-MAKING 667 -- 19.1 Background of Stochastic Programming 667 -- 19.2 Model Formulations of Stochastic Programming 668 -- 19.3 Stochastic Programming with Multiple Objective Functions 682 -- 19.4 Stochastic Dynamic Programming 686 -- 19.5 Game Theory 689 -- 19.6 Final Remarks 698 -- References 699 -- 20 FUZZY MULTIATTRIBUTE DECISION-MAKING FOR SOLID WASTE MANAGEMENT WITH SOCIETAL COMPLICATIONS 703 -- 20.1 Fundamentals of Fuzzy Set Theory 703 -- 20.2 Siting a Regional Landfill with Fuzzy Multiattribute Decision-Making and GIS Techniques 713 -- 20.3 Fair Fund Redistribution and Environmental Justice with GIS-based Fuzzy AHP Method 731 -- 20.4 Final Remarks 751 -- References 753 -- 21 FUZZY MULTIATTRIBUTE DECISION-MAKING FOR SOLID WASTE MANAGEMENT WITH TECHNOLOGICAL COMPLICATIONS 759 -- 21.1 Integrated Fuzzy Topsis and AHP Method for Screening Solid Waste Recycling Alternatives 759 -- 21.2 The Algorithm of FIMADM Method 765 -- 21.3 The Solid Waste Management System 771 -- 21.4 Final Remarks 788 -- References 788 -- 22 FUZZY MULTIOBJECTIVE DECISION-MAKING FOR SOLID WASTE MANAGEMENT 791 -- 22.1 Fuzzy Linear Programming 791 -- 22.2 Fuzzy Multiobjective Programming-Fuzzy Global Criterion Method 796 -- 22.3 Fuzzy Goal Programming 800 -- 22.4 Case Study 802 -- 22.5 Final Remarks 823 -- References 826 -- 23 GREY SYSTEMS THEORY FOR SOLID WASTE MANAGEMENT 829 -- 23.1 Grey Systems Theory 829 -- 23.2 Grey Linear Programming 831 -- 23.3 The Stability Issues of Grey Programming Models 840 -- 23.4 The Hybrid Approach for Various Cases of Uncertainty Quantification 843 -- 23.5 Final Remarks 844. 327 $aReferences 845 -- 24 SYSTEMS ANALYSIS FOR THE FUTURE OF SOLID WASTE MANAGEMENT: CHALLENGES AND PERSPECTIVES 849 -- 24.1 The Evolution of Systems Analysis for Solid Waste Management 850 -- 24.2 Trend Analysis 862 -- 24.3 Technical Barriers and Socioeconomic Challenges 869 -- 24.4 Future Perspectives 872 -- 24.5 Final Remarks 874 -- References 875 -- INDEX 895. 330 $a"Systems engineering techniques such as optimization tools, simulation model, integrated modeling systems, management information systems, decision support tools, material flow analysis, and life cycle assessment have been developed, yet have not been applied to the waste management industry as practical tools. This book introduces how to apply systems engineering techniques not only by theory, but also through practical case studies. The target applications include urban, industrial, hazardous and non-hazardous waste, waste streams such as waste packaging, end-of-life vehicles, waste batteries, waste of electric and electronic equipment, waste lubricant oils, end of life tires and all waste streams demanding sustainable management via appropriate systems analysis to meet both managerial and technical goals"--$cProvided by publisher. 410 0$aIEEE Press series on systems science and engineering 606 $aIntegrated solid waste management 615 0$aIntegrated solid waste management. 676 $a628.4/4 686 $aTEC010000$2bisacsh 700 $aChang$b Ni-Bin$0908039 701 $aPires$b Ana$0908040 801 0$bCaBNVSL 801 1$bCaBNVSL 801 2$bCaBNVSL 906 $aBOOK 912 $a9910132448603321 996 $aSustainable solid waste management$92030978 997 $aUNINA LEADER 00988nam 2200361 450 001 9910148561703321 005 20230808200250.0 010 $a1-61893-864-9 035 $a(CKB)3710000000921978 035 $a(MiAaPQ)EBC6037005 035 $a(EXLCZ)993710000000921978 100 $a20200327d2016 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 00$aHistory of the gun in 500 photographs 210 1$aNew York, New York :$cLiberty Street,$d[2016] 210 4$dİ2016 215 $a1 online resource (255 pages) $cillustrations 300 $aIncludes index. 311 $a1-61893-365-5 606 $aFirearms$xHistory 615 0$aFirearms$xHistory. 676 $a683.4009 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910148561703321 996 $aHistory of the gun in 500 photographs$93411710 997 $aUNINA LEADER 02432nam 2200529 450 001 9910821164303321 005 20170821192029.0 010 $a0-85745-553-2 024 7 $a10.1515/9780857455536 035 $a(CKB)2550000001239305 035 $a(EBL)1659357 035 $a(SSID)ssj0001212329 035 $a(PQKBManifestationID)11695163 035 $a(PQKBTitleCode)TC0001212329 035 $a(PQKBWorkID)11209223 035 $a(PQKB)10811421 035 $a(MiAaPQ)EBC1659357 035 $a(DE-B1597)637177 035 $a(DE-B1597)9780857455536 035 $a(EXLCZ)992550000001239305 100 $a20181004d2009 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 10$aManual of ethnography /$fMarcel Mauss ; translated by Dominique Lussier ; edited and introduced by N. J. Allen 210 1$aNew York ;$aOxford :$cDurkheim Press/Berghahn Books,$d2009. 215 $a1 online resource (224 p.) 225 0 $aPublications of the Durkheim Press 300 $aDescription based upon print version of record. 311 $a1-84545-682-3 327 $aTitle Page; Copyright Page; Table of Contents; Introduction; Chapter 1 Preliminary Remarks; Chapter 2 Methods of Observation; Chapter 3 Social Morphology; Chapter 4 Technology; Chapter 5 Aesthetics; Chapter 6 Economic Phenomena; Chapter 7 Jural Phenomena; Chapter 8 Moral Phenomena; Chapter 9 Religious Phenomena; Index 330 $a Marcel Mauss (1872-1950) was the leading social anthropologist in Paris between the world wars, and his Manuel d'ethnographie, dating from that period, is the longest of all his texts. Despite having had four editions in France, the Manuel has hitherto been unavailable in English. This contrasts with his essays, longer and shorter, many of which have long enjoyed the status of classics within anthropology. 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