Introduction Bhavik R. Bakshi, Timothy Gutowski and Dusan Sekulic; Part I. Foundations: 1. Thermodynamics: generalized available energy and availability or exergy Elias Gyftopoulos; 2. Energy and exergy: does one need both concepts for a study of resources use Dusan Sekulic; 3. Accounting for resource use via thermodynamics Bhavik R. Bakshi, Anil Baral and Jorge L. Hau; Part II. Products and Processes: 4. Material separation and recycling Timothy Gutowski; 5. Entropy based metric for transformational technologies development Dusan Sekulic; 6. Thermodynamic analysis of resources used in manufacturing processes Timothy Gutowski and Dusan Sekulic; 7. Case studies in energy use to realize ultra-high purities in semiconductor manufacturing Eric Williams, Nikhil Krishnan and Sarah Boyd; 8. Energy resources and use: the present (2008) situation, possible sustainable paths to the future and the thermodynamic perspective Noam Lior; Part III. Life Cycle Assessments and Metrics: 9. Using thermodynamics and statistics to improve the quality of life cycle inventory data Bhavik R. Bakshi, Hangjoon Kim and Prem K. Goel; 10. Developing sustainable technology: metrics from thermodynamics Geert Van der Vorst, Jo Dewulf and Herman Van Langenhove; 11. Entropy production and resource consumption in life cycle assessments Stefan Gößling-Reisemann; 12. Exergy and material flow in industrial and ecological systems Nandan Ukidwe and Bhavik R. Bakshi; 13. Materials flow analysis and input-output analysis: a synthesis Shinichiro Nakamura; Part IV. Economic, Social Industrial, Eco Systems: 14. Early development of input-output analysis of energy and ecologic systems Bruce Hannon; 15. Exergoeconomics and exergoenvironmental analysis George Tsatsaronis; 16. Entopy, economics and policy Matthias Ruth; 17. Integration and segregation in a population - a thermodynamicist's view Mueller Ingo; 18. Exergy use in ecosystems analysis: background and challenges Roberto Pastres and Brian D. Fath; 19. Thoughts on the application of thermodynamics to the development of sustainability science Timothy Gutowski, Dusan Sekulic and Bhavik R. Bakshi.
Introduction Bhavik R. Bakshi, Timothy Gutowski and Dusan Sekulic; Part I. Foundations: 1. Thermodynamics: generalized available energy and availability or exergy Elias Gyftopoulos; 2. Energy and exergy: does one need both concepts for a study of resources use Dusan Sekulic; 3. Accounting for resource use via thermodynamics Bhavik R. Bakshi, Anil Baral and Jorge L. Hau; Part II. Products and Processes: 4. Material separation and recycling Timothy Gutowski; 5. Entropy based metric for transformational technologies development Dusan Sekulic; 6. Thermodynamic analysis of resources used in manufacturing processes Timothy Gutowski and Dusan Sekulic; 7. Case studies in energy use to realize ultra-high purities in semiconductor manufacturing Eric Williams, Nikhil Krishnan and Sarah Boyd; 8. Energy resources and use: the present (2008) situation, possible sustainable paths to the future and the thermodynamic perspective Noam Lior; Part III. Life Cycle Assessments and Metrics: 9. Using thermodynamics and statistics to improve the quality of life cycle inventory data Bhavik R. Bakshi, Hangjoon Kim and Prem K. Goel; 10. Developing sustainable technology: metrics from thermodynamics Geert Van der Vorst, Jo Dewulf and Herman Van Langenhove; 11. Entropy production and resource consumption in life cycle assessments Stefan Gößling-Reisemann; 12. Exergy and material flow in industrial and ecological systems Nandan Ukidwe and Bhavik R. Bakshi; 13. Materials flow analysis and input-output analysis: a synthesis Shinichiro Nakamura; Part IV. Economic, Social Industrial, Eco Systems: 14. Early development of input-output analysis of energy and ecologic systems Bruce Hannon; 15. Exergoeconomics and exergoenvironmental analysis George Tsatsaronis; 16. Entopy, economics and policy Matthias Ruth; 17. Integration and segregation in a population - a thermodynamicist's view Mueller Ingo; 18. Exergy use in ecosystems analysis: background and challenges Roberto Pastres and Brian D. Fath; 19. Thoughts on the application of thermodynamics to the development of sustainability science Timothy Gutowski, Dusan Sekulic and Bhavik R. Bakshi.
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