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2010043695 contributor B11789013.
2010043695 created "2011.".
2010043695 date "2011".
2010043695 date "2011.".
2010043695 dateCopyrighted "2011.".
2010043695 description "Includes bibliographical references and index.".
2010043695 description "Machine generated contents note: Introduction Bhavik R. Bakshi,Timothy Gutowski, 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, Jorge L. Hau; Part II. Products & 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, Dusan Sekulic; 7. Case studies in energy use to realize ultra-high purities in semiconductor manufacturing Eric Williams, Nikhil Krishnan, 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 & metrics: 9. Using thermodynamics and statistics to improve the quality of life cycle inventory data Bhavik R. Bakshi, Hangjoon Kim, Prem K. Goel; 10. Developing sustainable technology: metrics from thermodynamics Geert Van der Vorst, Jo Dewulf, 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, 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, Brian D. Fath; 19. Thoughts on the application of thermodynamics to the development of sustainability science Timothy Gutowski, Dusan Sekulic, Bhavik R. Bakshi.".
2010043695 extent "xxii, 500 p. :".
2010043695 identifier "0521884551 (hardback)".
2010043695 identifier "9780521884556 (hardback)".
2010043695 issued "2011".
2010043695 issued "2011.".
2010043695 language "eng".
2010043695 publisher "New York : Cambridge University Press,".
2010043695 subject "620 22".
2010043695 subject "Conservation of natural resources.".
2010043695 subject "Energy consumption.".
2010043695 subject "Power resources.".
2010043695 subject "TJ163.2 .T428 2011".
2010043695 subject "Thermodynamics.".
2010043695 tableOfContents "Machine generated contents note: Introduction Bhavik R. Bakshi,Timothy Gutowski, 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, Jorge L. Hau; Part II. Products & 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, Dusan Sekulic; 7. Case studies in energy use to realize ultra-high purities in semiconductor manufacturing Eric Williams, Nikhil Krishnan, 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 & metrics: 9. Using thermodynamics and statistics to improve the quality of life cycle inventory data Bhavik R. Bakshi, Hangjoon Kim, Prem K. Goel; 10. Developing sustainable technology: metrics from thermodynamics Geert Van der Vorst, Jo Dewulf, 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, 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, Brian D. Fath; 19. Thoughts on the application of thermodynamics to the development of sustainability science Timothy Gutowski, Dusan Sekulic, Bhavik R. Bakshi.".
2010043695 title "Thermodynamics and the destruction of resources / edited by Bhavik R. Bakshi, Timothy G. Gutowski, Dušan P. Sekulić.".
2010043695 type "text".