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LEADER 00000cam a2200637Ii 4500 
003    OCoLC 
005    20190320055810.1 
006    m     o  d         
007    cr cnu|||unuuu 
008    170804s2017    sz      o     000 0 eng d 
019    SpringerEBAocn999606856 
020    9783319432281|q(electronic bk.) 
020    3319432281|q(electronic bk.) 
020    |z9783319432274|q(print) 
020    |z3319432273|q(print) 
024 7  10.1007/978-3-319-43228-1|2doi 
037    com.springer.onix.9783319432281|bSpringer Nature 
040    N$T|beng|erda|epn|cN$T|dEBLCP|dNJR|dYDX|dGW5XE|dUAB|dN$T
       |dESU|dAZU|dUPM|dOCLCF|dCOO|dIDB|dOCLCQ|dMERER|dVT2|dOCLCQ
       |dERL|dIOG|dMERUC|dSNK|dU3W|dCAUOI|dKSU|dNLE|dUKMGB|dWYU
       |dOCLCQ|dHUELT|dAUD 
049    MAIN 
050  4 TD793 
050  4 GE1-350 
082 04 628.4/4|223 
082 04 363.728 
245 00 University campus solid waste management :|bcombining life
       cycle assessment and analytical hierarchy process /
       |cPezhman Taherei Ghazvinei, Masoud Aghajani Mir, Hossein 
       Hassanpour Darvishi, Junaidah Ariffin. 
264  1 Cham, Switzerland :|bSpringer,|c2017. 
300    1 online resource. 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
347    text file|bPDF|2rda 
490 1  SpringerBriefs in environmental science 
505 0  Preface; Acknowledgments; Contents; List of Figures ; List
       of Tables; Chapter 1: Introduction; 1.1 Challenges of 
       Solid Waste Management; 1.2 Solid Waste Generation; 1.3 
       Approach of the Book; Chapter 2: Overview of Solid-Waste 
       Management; 2.1 Pilot Campus; 2.2 The Consequences of 
       Population Expansion and Solid Waste-Generation Trends; 
       2.2.1 Global Trends of Solid-Waste Generation; 2.2.2 
       Malaysian National Trends of Solid-Waste Generation; 2.3 
       Sustainable Concept at Higher Education Institutes (HEIs);
       2.4 Solid Waste Minimization and Recycling Experiences at 
       Universities Campus. 
505 8  Chapter 3: Solid Waste -- Management Models3.1 Municipal 
       Solid Waste Management Models; 3.1.1 Life Cycle 
       Assessment; 3.1.2 Using Life Cycle Assessment Models; 3.2 
       Application of Analytical Hierarchy Process in Municipal 
       Solid Waste Management; 3.3 Cluster Analysis for Solid 
       Waste Management Methods; 3.4 Requirements of Solid-Waste 
       Management; Chapter 4: Solid Waste-Management Design; 4.1 
       Overview of a Solid Waste-Management Plan; 4.2 Current 
       Solid-Waste Management; 4.3 Improving Solid-Waste 
       Management; 4.4 Data Resources of the Investigation. 
505 8  4.5 Solid-Waste Generation and Composition of the 
       Campus4.5.1 Domestic Waste; 4.5.1.1 Categorizing of Solid 
       Waste-Generation Sources; 4.5.1.2 Domestic-Waste Sampling;
       Faculty; Dormitory; Cafeteria; Administration; Services; 
       Staff Residential Area; 4.5.1.3 Location of Domestic Waste
       -Separation Activity; 4.5.1.4 Procedure of Domestic Waste-
       Composition Investigation; 4.5.2 At Source-Collected 
       Recyclable Materials; 4.5.3 Garden Waste-Generation 
       Investigation; 4.5.4 Estimation of Electronic-Waste 
       Generation; 4.5.5 Estimation of Construction-Waste 
       Generation. 
505 8  4.5.6 Estimation of Solid Waste Generated Daily4.6 Solid 
       Waste-Management Scenarios; 4.7 Environmental Assessment 
       of Scenarios According to Life-Cycle Assessment; 4.7.1 
       Scope of the Life Cycle-Assessment Investigation; 4.7.2 
       Inventory Analysis of Solid Waste-Management Options; 
       4.7.2.1 Inventory Analysis of Refuse-Derived Fuel; 4.7.2.2
       Inventory Analysis of Anaerobic Digestion; 4.7.2.3 
       Inventory Analysis of a Composting Plant; 4.7.2.4 
       Inventory Analysis of an Incineration Plant; 4.7.2.5 
       Inventory Data of Recycling; 4.7.3 Impact Assessment of 
       Solid-Waste Management. 
505 8  4.8 Economic Analysis of the Scenarios by Analytical 
       Hierarchy Process4.8.1 Analytical Hierarchy-Process 
       Structure Model of Solid-ƯWaste Management; 4.8.2 
       Pairwise Comparison Matrix of the Analytical Hierarchy 
       Process; 4.8.3 Analytical Hierarchy-Process Scores and 
       Ranking of Scenarios; 4.9 Combining LCA and AHP Using 
       Cluster-Analysis Method; 4.9.1 Standardization for LCA 
       Points of Scenarios; 4.9.2 Scoring of Extracted Economic 
       Result of AHP; 4.9.3 Standardization of AHP Scores for 
       Solid Waste-Management Scenarios; 4.9.4 Plotting the 
       Standardized Results of AHP and LCA. 
520    This volume provides a comprehensive method for optimizing
       solid waste management practices and procedures at college
       and university campuses through the use of cluster 
       analysis to combine Life Cycle Assessment and Analytical 
       Hierarchy Process. Author Pezhman Taherei uses Malaysia's 
       University of Malaya as a case study and model, and 
       through this method was able to assess which combination 
       of waste disposal, management, and recycling techniques 
       generate the least environmental impact while retaining 
       the maximum cost savings for the university. A method for 
       analysis of solid waste composition is also proposed. 
       Higher education institutes generate thousands of tons of 
       solid waste per year. Comprehensive solid waste management
       programs, which take integrated solid waste management 
       systems into consideration, are one of the greatest 
       challenges to achieving campus sustainability. This system
       can serve as a guide and blueprint for other universities 
       that are taking steps toward sustainability through 
       improved solid waste management. 
650  0 Universities and colleges|xWaste disposal. 
650  0 Industrial management|xEnvironmental aspects. 
655  0 Electronic book. 
655  4 Electronic books. 
700 1  Ghazvinei, Pezhman Taherei,|eauthor. 
700 1  Mir, Masoud Aghajani,|eauthor. 
700 1  Darvishi, Hossein Hassanpour,|eauthor. 
700 1  Ariffin, Junaidah,|eauthor. 
710 2  SpringerLink|eissuing body. 
776 08 |iPrint version:|tUniversity campus solid waste 
       management.|dCham, Switzerland : Springer, 2017
       |z3319432273|z9783319432274|w(OCoLC)952788357 
830  0 SpringerBriefs in environmental science. 
830  0 Springer Earth and Environmental Science eBooks 2017 
       English+International 
856 40 |uhttps://ezp.lib.unimelb.edu.au/login?url=http://
       link.springer.com/10.1007/978-3-319-43228-1|zConnect to 
       ebook (University of Melbourne only) 
990    Springer EBA e-book collections for 2017-2019 
990    Springer Earth and Environmental Science 2017 
990    Batch Ebook load (bud2) - do not edit, delete or attach 
       any records. 
991    |zNEW New collection springerlink.ebookees2017 2019-03-19 
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