| |
Glocalized Solutions for Sustainability in Manufacturing |
4 |
|
| |
Preface |
6 |
|
| |
Table of Contents |
8 |
|
| |
Organization |
14 |
|
| |
Electricity Metering and Monitoring in Manufacturing Systems |
16 |
|
| |
Implementing Life Cycle Engineering efficiently intoAutomotive Industry Processes |
26 |
|
| |
Leveraging Manufacturing for a Sustainable Future |
32 |
|
| |
Sustainability Engineering by Product-Service Systems |
37 |
|
| |
Solvis Zero-Emission Factory – The ‘Solvis way’ – Structure and Subject |
44 |
|
| |
Manufacturing and the Science of Sustainability |
47 |
|
| |
Indian Solar Thermal Technology – Technology to Protect Environment and Ecology |
55 |
|
| |
Assessment of Energy and Resource Consumption of Processes and Process Chains within the Automotive Sector |
59 |
|
| |
Assessment of Alternative Propulsion Systems for Vehicles |
65 |
|
| |
Concept and Development of Intelligent Production Control to enable Versatile Production in the Automotive Factories of the Future |
71 |
|
| |
Resource Efficiency – what are the Objectives? |
77 |
|
| |
Comparative Life Cycle Assessment of Remanufacturing and New Manufacturing of a Manual Transmission |
81 |
|
| |
Coordination of Design-for-Recycling Activities in Decentralized Product Design Processes in the Automotive Industry |
87 |
|
| |
A Strategic Framework for the Design of Recycling Networksfor Lithium-Ion Batteries from Electric Vehicles |
93 |
|
| |
Recovery of Active Materials from Spent Lithium-Ion Electrodes and Electrode Production Rejects |
99 |
|
| |
New Technologies for Remanufacturing of Automotive Systems Communicating via CAN Bus |
104 |
|
| |
LCM applied to Auto Shredder Residue (ASR) |
110 |
|
| |
Eco-Innovation by Integrating Biomimetic with TRIZ Ideality and Evolution Rules |
114 |
|
| |
Reasoning New Eco-Products by Integrating TRIZ with CBR and Simple LCA Methods |
120 |
|
| |
Proposal of an Integrated Eco-Design Framework of Products and Processes |
126 |
|
| |
Development of CAD System for Life Cycle Scenario-Based Product Design |
131 |
|
| |
Environmental Impact Assessment Model for Wireless Sensor Networks |
137 |
|
| |
Considering the Social Dimension in Environmental Design |
143 |
|
| |
Proposal of an Ecodesign Maturity Model: supporting Companies to improve Environmental Sustainability |
149 |
|
| |
Environmental and Operational Analysis of Ecodesign Methods Based on QFD and FMEA |
155 |
|
| |
Synergico: a new “Design for Energy Efficiency” Method enhancing the Design of more environmentally friendly Electr(on)ic Equipments |
161 |
|
| |
Improving Product Design based on Energy Considerations |
167 |
|
| |
Eco-Design Tool to support the Use of Renewable Polymers within Packaging Applications |
173 |
|
| |
State-of-the-art Ecodesign on the Electronics Shop Shelves? A Quantitative Analysis of Developments in Ecodesign of TV Sets |
179 |
|
| |
Simultaneous Application of Design for Sustainable Behavior and Linked Benefit Strategies in Practice |
185 |
|
| |
Strategic Evaluation of Manufacturing Technologies |
191 |
|
| |
Consideration of the Precautionary Principle – the Responsible Development of Nano Technologies |
197 |
|
| |
Proposal of a Design Support Method for Sustainability Scenarios 1st Report: Designing Forecasting Scenarios |
201 |
|
| |
Evaluating Trade-Offs Between Sustainability, Performance, and Cost of Green Machining Technologies |
207 |
|
| |
Sustainable Production by Integrating Business Models of Manufacturing and Recycling Industries |
213 |
|
| |
Life Cycle Engineering – Integration of New Products on Existing Production Systems in Automotive Industry |
219 |
|
| |
Managing Sustainability in Product Design and Manufacturing |
225 |
|
| |
A System for Resource Efficient Process Planning for Wire EDM |
231 |
|
| |
Increased Trustability of Reliability Prognoses for Machine Tools |
237 |
|
| |
Hidden Aspects of Industrial Packaging The Driving Forces behind Packaging Selection Processes at Industrial Packaging Suppliers |
241 |
|
| |
Applying Functionally Graded Materials by Laser Cladding: a cost-effective way to improve the Lifetime of Die-Casting Dies |
247 |
|
| |
A Total Life-Cycle Approach towards Developing Product Metrics for Sustainable Manufacturing |
252 |
|
| |
Carbon Footprint Analysis for Energy Improvement in Flour Milling Production |
258 |
|
| |
Modelling Machine Tools for Self-Optimisation of Energy Consumption |
264 |
|
| |
Energy-Efficient Machine Tools through Simulation in the Design Process |
269 |
|
| |
Energy Consumption Characterization and Reduction Strategies for Milling Machine Tool Use |
274 |
|
| |
An Investigation into Fixed Energy Consumption of Machine Tools |
279 |
|
| |
Energy Efficiency Measures for the Design and Operation of Machine Tools: An Axiomatic Approach |
285 |
|
| |
Analyzing Energy Consumption of Machine Tool Spindle Units and Identification of Potential for Improvements of Efficiency |
291 |
|
| |
Energy Consumption as One Possible Exclusion Criterion for the Reuse of Old Equipment in New Production Lines |
297 |
|
| |
Optimizing Energy Costs by Intelligent Production Scheduling |
303 |
|
| |
Methodology for an Energy and Resource Efficient Process Chain Design |
309 |
|
| |
A New Shop Scheduling Approach in Support of Sustainable Manufacturing |
315 |
|
| |
Comparison of the Resource Efficiency of Alternative Process Chains for Surface Hardening |
321 |
|
| |
Synergies from Process and Energy Oriented Process Chain Simulation – A Case Study from the Aluminium Die Casting Industry |
327 |
|
| |
Context-Aware Analysis Approach to Enhance Industrial Smart Metering |
333 |
|
| |
Exergy Efficiency Definitions for Manufacturing Processes |
339 |
|
| |
State of Research and an innovative Approach for simulating Energy Flows of Manufacturing Systems |
345 |
|
| |
Modular Modeling of Energy Consumption for Monitoring and Control |
351 |
|
| |
Architecture for Multilevel Monitoring and Control of Energy Consumption |
357 |
|
| |
Green Performance Map – An Industrial Tool for Enhancing Environmental Improvements within a Production System |
363 |
|
| |
Analysis and Quantification of Improvement in Green Manufacturing Process of Silicon Nitride Products |
369 |
|
| |
Evaluation of the Environmental Impact of different Lubrorefrigeration Conditions in Milling of ?-TiAl Alloy |
375 |
|
| |
Quantitative and Qualitative Benefits of Green Manufacturing: an Empirical Study of Indian Small and Medium Enterprises |
381 |
|
| |
Preliminary Environmental Assessment of Electrical Discharge Machining |
387 |
|
| |
Development of an Interpretive Structural Model of Obstacles to Environmentally Conscious Technology adoption in Indian Industry |
393 |
|
| |
Identifying Carbon Footprint Reduction Opportunities through Energy Measurements in Sheet Metal Part Manufacturing |
399 |
|
| |
Sustainable Production Research - a Proposed Method to design the Sustainability Measures |
405 |
|
| |
Green Production of CFRP Parts by Application of Inductive Heating |
411 |
|
| |
Saving Potential of Water for Foundry Sand Using Treated Coolant Water |
417 |
|
| |
Modular Grouping Exploration to design Remanufacturable Products |
423 |
|
| |
Development of Part Agents for the Promotion of Reuse of Parts through Experiment and Simulation |
429 |
|
| |
Systematic Categorization of Reuse and Identification of Issues in Reuse Management in the Closed Loop Manufacturing |
435 |
|
| |
Approach for Integration of Sustainability Aspects into Innovation Processes |
441 |
|
| |
Remanufacturing Engineering Literature Overview and Future Research Needs |
447 |
|
| |
Effects of Lateral Transshipments in Multi-Echelon Closed-Loop Supply Chains |
453 |
|
| |
Development of an Interpretive Structural Model of Barriers to Reverse Logistics Implementation in Indian Industry |
458 |
|
| |
Recycling of LCD Screens in Europe - State of the Art and Challenges |
464 |
|
| |
End of Life Strategies in the Aviation Industry |
469 |
|
| |
Contribution of Recycling Processes to Sustainable Resource Management |
475 |
|
| |
Business Issues in Remanufacturing: Two Brazilian Cases in the Automotive Industry |
480 |
|
| |
A Systematic Investigation for Reducing Shredder Residue for Complex Automotive Seat Subassemblies |
486 |
|
| |
Eco Quality Polymers-EQP |
492 |
|
| |
Intelligent Products to Support Closed-Loop Reverse Logistics |
496 |
|
| |
The Prospects of Managing WEEE in Indonesia |
502 |
|
| |
Medical Electrical Equipment - Good Refurbishment Practice at Siemens AG Healthcare |
507 |
|
| |
Sustainable Product Lifecycle Management:A Lifecycle based Conception of Monitoring a Sustainable Product Development |
511 |
|
| |
Semantic Web Based Dynamic Energy Analysis and Forecasts in Manufacturing Engineering |
517 |
|
| |
Energy Data Acquisition and Utilization for Energy-Oriented Product Data Management |
523 |
|
| |
Integrating Energy-Saving Process Chains and Product Data Models |
529 |
|
| |
Challenges in Data Management in Product Life Cycle Engineering |
535 |
|
| |
Business Game for Total Life Cycle Management |
541 |
|
| |
Requirements Management – a Premise for adequate Life Cycle Design |
547 |
|
| |
Towards a Methodology for Analyzing Sustainability Standards using the Zachman Framework |
553 |
|
| |
Sustainability through Next Generation PLM in Telecommunications Industry |
559 |
|
| |
Challenges of an Efficient Data Management for Sustainable Product Design |
564 |
|
| |
Product and Policy Life Cycle Inventories with Market Driven Demand: An Engine Selection Case Study |
568 |
|
| |
A Case-study: Finding References to Product Development Knowledge from Analysis of Face-to-Face Meetings |
574 |
|
| |
CAD-Integrated LCA Tool: Comparison with dedicated LCA Software and Guidelines for the Improvement |
579 |
|
| |
Comparison of two LCA Methodologies in the Machine-Tools Environmental Performance Improvement Process |
585 |
|
| |
Developing Impact Assessment Methods: an Approach for addressing inherent Problems |
591 |
|
| |
Developing a Conceptual Framework for UT based LCA |
597 |
|
| |
Towards the Integration of Local and Global Environmental Assessment Methods: Application to Computer System Power Management |
603 |
|
| |
Cradle to Cradle and LCA – is there a Conflict? |
609 |
|
| |
Environmental Assessment of Printed Circuit Boards from Biobased Materials |
615 |
|
| |
Application of Life Cycle Engineering for the Comparison of Biodegradable Polymers Injection Moulding Performance |
621 |
|
| |
Using Ecological Assessment during the Conceptual Design Phase of Chemical Processes – a Case Study |
627 |
|
| |
Environmental Footprint of Single-Use Surgical Instruments in Comparison with Multi-Use Surgical Instruments |
633 |
|
| |
Comparative Carbon Footprint Assessment of Door made from Recycled Wood Waste versus Virgin Hardwood: Case Study of a Singapore Wood Waste Recycling Plant |
639 |
|
| |
A Target Costing-Based Approach for Design to Energy Efficiency |
645 |
|
| |
Life Cycle Costing Assessment with both Internal and External Costs Estimation |
651 |
|
| |
Environmental and Economic Evaluation of Solar Thermal Panels using Exergy and Dimensional Analysis |
657 |
|
| |
Implications of Material Flow Cost Accounting for Life Cycle Engineering |
662 |
|
| |
Aircraft Engine Component Deterioration and Life Cycle Cost Estimation |
667 |
|
| |
Life Cycle Cost Estimation using a Modeling Tool for the Design of Control Systems |
673 |
|
| |
Assessing the Value of Sub-System Technologies including Life Cycle Alternatives |
679 |
|
| |
Costing for Avionic Through-Life Availability |
685 |
|
| |
Eco Global Evaluation: Cross Benefits of Economic and Ecological Evaluation |
691 |
|
| |
Index of Authors |
697 |
|
