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2011027888 contributor B12132520.
2011027888 created "c2012.".
2011027888 date "2012".
2011027888 date "c2012.".
2011027888 dateCopyrighted "c2012.".
2011027888 description "Machine generated contents note: Preface; Part I. Energy and the Environment: The Landscape: 1. A primer on climate change; 2. Global energy landscape and energy security; 3. Sustainability and energy conversions; 4. Energy cost of materials: materials for thin-film photovoltaics as an example; 5. Economics of materials; 6. Global energy flows; 7. Global materials flows; 8. Carbon dioxide capture and sequestration in deep geological formations; Part II. Non-renewable Energy Sources: 9. Petroleum and natural gas; 10. Advancing coal conversion technologies: materials challenges; 11. Oil shale and tar sand; 12. Unconventional energy sources: gas hydrates; 13. Nuclear energy: current and future schemes; 14. Nuclear nonproliferation; 15. Nuclear waste management and disposal; 16. Material requirements for controlled nuclear fusion; Part III. Renewable Energy Sources: 17. Solar energy overview; 18. Direct solar energy conversion with photovoltaic devices; 19. Materials science and technology: new approaches to high efficiency photovoltaic conversion; 20. Concentrating and multijunction photovoltaics; 21. Concentrating solar thermal power; 22. Solar thermoelectrics: direct solar thermal energy conversion; 23. Off-grid solar in the developing world; 24. Principles of photosynthesis; 25. Harnessing microbial metabolism for biofuels and biomaterials; 26. Aqueous processing of cellulosic biomass for biological and chemical conversion to ethanol and other fuels; 27. Artificial photosynthesis for solar energy conversion; 28. Engineered natural photosynthesis; 29. Geothermal and ocean energy; 30. Wind energy; Part IV. Transportation: 31. Road transportation vehicles; 32. Transportation: aviation; 33. Future of shipping; 34. Fully autonomous vehicles: a far-reaching perspective on potential materials and design implications; Part V. Energy Efficiency: 35. Lighting/appliances; 36. Increasing building energy efficiency through advances in materials; 37. Insulation science; 38. Industrial energy efficiency; 39. Green processing: catalysis; 40. Material availability and recycling: identifying risks and evaluating responses; 41. Life-cycle assessment (LCA); Part VI. Energy Storage and the Role of High Penetration Renewables and Grid Stabilization: 42. Toward stronger, smarter, and more secure electric power grids: advances and challenges in distributed sensing, modeling, simulation, and control; 43. Consequences of high penetration renewables; 44. Materials challenges facing electrochemical energy storage: batteries and capacitors; 45. Mechanical energy storage: pumped hydro, CAES, flywheels; 46. Polymer electrolyte membrane (PEM) fuel cells; 47. Solar fuels; 48. Solar thermal routes to fuel; 49. Photoelectrochemistry; 50. Summary; Appendix A: thermodynamics; Appendix B: electrochemistry.".
2011027888 extent "xvi, 753 p. :".
2011027888 identifier "1107000238 (hardback)".
2011027888 identifier "9781107000230 (hardback)".
2011027888 identifier 9781107000230.jpg.
2011027888 issued "2012".
2011027888 issued "c2012.".
2011027888 language "eng".
2011027888 publisher "Cambridge ; New York : Cambridge University Press,".
2011027888 subject "621.042 23".
2011027888 subject "Energy conservation Equipment and supplies.".
2011027888 subject "Fuel.".
2011027888 subject "Power resources.".
2011027888 subject "Renewable energy sources.".
2011027888 subject "Sustainable engineering Materials.".
2011027888 subject "TJ163.3 .F855 2012".
2011027888 tableOfContents "Machine generated contents note: Preface; Part I. Energy and the Environment: The Landscape: 1. A primer on climate change; 2. Global energy landscape and energy security; 3. Sustainability and energy conversions; 4. Energy cost of materials: materials for thin-film photovoltaics as an example; 5. Economics of materials; 6. Global energy flows; 7. Global materials flows; 8. Carbon dioxide capture and sequestration in deep geological formations; Part II. Non-renewable Energy Sources: 9. Petroleum and natural gas; 10. Advancing coal conversion technologies: materials challenges; 11. Oil shale and tar sand; 12. Unconventional energy sources: gas hydrates; 13. Nuclear energy: current and future schemes; 14. Nuclear nonproliferation; 15. Nuclear waste management and disposal; 16. Material requirements for controlled nuclear fusion; Part III. Renewable Energy Sources: 17. Solar energy overview; 18. Direct solar energy conversion with photovoltaic devices; 19. Materials science and technology: new approaches to high efficiency photovoltaic conversion; 20. Concentrating and multijunction photovoltaics; 21. Concentrating solar thermal power; 22. Solar thermoelectrics: direct solar thermal energy conversion; 23. Off-grid solar in the developing world; 24. Principles of photosynthesis; 25. Harnessing microbial metabolism for biofuels and biomaterials; 26. Aqueous processing of cellulosic biomass for biological and chemical conversion to ethanol and other fuels; 27. Artificial photosynthesis for solar energy conversion; 28. Engineered natural photosynthesis; 29. Geothermal and ocean energy; 30. Wind energy; Part IV. Transportation: 31. Road transportation vehicles; 32. Transportation: aviation; 33. Future of shipping; 34. Fully autonomous vehicles: a far-reaching perspective on potential materials and design implications; Part V. Energy Efficiency: 35. Lighting/appliances; 36. Increasing building energy efficiency through advances in materials; 37. Insulation science; 38. Industrial energy efficiency; 39. Green processing: catalysis; 40. Material availability and recycling: identifying risks and evaluating responses; 41. Life-cycle assessment (LCA); Part VI. Energy Storage and the Role of High Penetration Renewables and Grid Stabilization: 42. Toward stronger, smarter, and more secure electric power grids: advances and challenges in distributed sensing, modeling, simulation, and control; 43. Consequences of high penetration renewables; 44. Materials challenges facing electrochemical energy storage: batteries and capacitors; 45. Mechanical energy storage: pumped hydro, CAES, flywheels; 46. Polymer electrolyte membrane (PEM) fuel cells; 47. Solar fuels; 48. Solar thermal routes to fuel; 49. Photoelectrochemistry; 50. Summary; Appendix A: thermodynamics; Appendix B: electrochemistry.".
2011027888 title "Fundamentals of materials for energy and environmental sustainability / edited by David S. Ginley and David Cahen.".
2011027888 type "text".