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000946093 019__ $$a1206398386$$a1225562715$$a1225892951$$a1227401353
000946093 020__ $$a9783030518943$$q(electronic book)
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000946093 0247_ $$a10.1007/978-3-030-51894-3$$2doi
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000946093 1001_ $$aBLUME, STEFAN ALEXANDER.
000946093 24510 $$aRESOURCE EFFICIENCY IN MANUFACTURING VALUE CHAINS.
000946093 260__ $$a[S.l.] :$$bSPRINGER,$$c2020.
000946093 300__ $$a1 online resource
000946093 336__ $$atext$$btxt$$2rdacontent
000946093 337__ $$acomputer$$bc$$2rdamedia
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000946093 347__ $$atext file$$bPDF$$2rda
000946093 4901_ $$aSustainable Production, Life Cycle Engineering and Management Ser.
000946093 5050_ $$aIntro -- Supervisors' Foreword -- Acknowledgements -- Contents -- Acronyms -- Symbols -- 1 Introduction -- 1.1 Motivation and Problem Statement -- 1.2 Research Questions and Work Structure -- References -- 2 Resource Efficiency in Manufacturing Value Chains -- 2.1 Manufacturing Value Chains -- 2.1.1 Production as Transformation Process -- 2.1.2 Structure of Manufacturing Systems -- 2.1.3 Target Dimensions and Performance Measurement -- 2.2 Resource Efficiency -- 2.2.1 Sustainable Manufacturing -- 2.2.2 Resource Efficient Manufacturing -- 2.3 Decision Support
000946093 5058_ $$a2.3.1 Relevance of Decision Making for Manufacturing -- 2.3.2 Decision Theory -- 2.3.3 Multi-criteria Decision Analysis -- 2.3.4 Decision Support Systems -- 2.4 Modeling of Manufacturing Systems and Value Chains -- 2.4.1 Value Stream Mapping -- 2.4.2 Material and Energy Flow Analysis -- 2.4.3 Material Flow Cost Accounting -- 2.4.4 Life Cycle Costing -- 2.4.5 Life Cycle Assessment -- 2.4.6 Material and Energy Flow Simulation -- References -- 3 Existing Holistic Approaches to Increase Resource Efficiency in Manufacturing -- 3.1 Selection of Relevant Approaches -- 3.2 Evaluation Criteria
000946093 5058_ $$a3.2.1 Modeling -- 3.2.2 Decision Support -- 3.2.3 Application -- 3.3 Classification, Description and Evaluation -- 3.3.1 Classification of Approaches -- 3.3.2 Description of Approaches -- 3.3.3 Comparative Evaluation of Approaches -- 3.4 Derivation of Research Demand -- References -- 4 Concept to Increase Resource Efficiency in Manufacturing Value Chains -- 4.1 Requirements -- 4.2 Concept Overview -- 4.3 Phase I: Modeling -- 4.3.1 Step 1: Objectives and System Definition -- 4.3.2 Step 2: Data Acquisition -- 4.3.3 Step 3: System Modeling -- 4.3.4 Contributions to Resource Efficient Manufacturing
000946093 5058_ $$a4.4 Phase II: Evaluation -- 4.4.1 Step 4: Performance Analysis -- 4.4.2 Step 5: Hotspot Identification -- 4.4.3 Step 6: Potential Quantification -- 4.4.4 Contributions to Resource Efficient Manufacturing -- 4.5 Phase III: Improvement -- 4.5.1 Step 7: Measure Identification -- 4.5.2 Step 8: Measure Evaluation -- 4.5.3 Step 9: Measure Selection -- 4.5.4 Contributions to Resource Efficient Manufacturing -- 4.6 Implications for Concept Operationalization -- References -- 5 Concept Implementation -- 5.1 Requirements -- 5.2 Implementation as Software Demonstrator -- 5.2.1 Data Interpretation File
000946093 5058_ $$a5.2.2 Single Factory File -- 5.2.3 Eco Impact File -- 5.2.4 Value Chain File -- 5.2.5 Benchmarking File -- 5.2.6 KBS File -- 5.2.7 MCDA File -- 5.3 Application Procedure from User Perspective -- 5.4 Verification and Validation -- 5.5 Contributions to Resource Efficient Manufacturing -- References -- 6 Concept Application in the Metal Mechanic Industry -- 6.1 Case Study 1: Piston Rod Manufacturing -- 6.1.1 Phase I: Modeling -- 6.1.2 Phase II: Evaluation -- 6.1.3 Phase III: Improvement -- 6.2 Case Study 2: Axle Journal Manufacturing -- 6.2.1 Phase I: Modeling -- 6.2.2 Phase II: Evaluation
000946093 506__ $$aAccess limited to authorized users.
000946093 520__ $$aThis book presents a concept for fostering resource efficient manufacturing. The protection of our environment demands a more responsible use of natural resources, and a higher degree of transparency along manufacturing value chains will be required in order to make significant advances in this context. Industrial decision makers must be provided with adequate methods and tools to simultaneously and systematically pursue technical, economic and environmental targets. Building on established and complementary methods, such as material and energy flow analysis (MEFA), value stream mapping (VSM), life cycle costing (LCC) and environmental life cycle assessment (LCA), this book introduces a concept that allows a holistic modeling and multi-dimensional performance assessment of manufacturing systems on different levels - from processes up to entire value chains and product life cycles. It also demonstrates the application of the concept using two case studies from the metal mechanic industry. .
000946093 650_0 $$aIndustrial engineering.
000946093 650_0 $$aProduction engineering.
000946093 650_0 $$aEnvironmental management.
000946093 650_0 $$aEnergy policy.
000946093 77608 $$iPrint version: $$z3030518930$$z9783030518936$$w(OCoLC)1156994527
000946093 830_0 $$aSustainable Production, Life Cycle Engineering and Management Ser.
000946093 852__ $$bebk
000946093 85640 $$3SpringerLink$$uhttps://univsouthin.idm.oclc.org/login?url=http://link.springer.com/10.1007/978-3-030-51894-3$$zOnline Access$$91397441.1
000946093 909CO $$ooai:library.usi.edu:946093$$pGLOBAL_SET
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000946093 980__ $$aBIB
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