Exergy (3rd Ed.) Energy, Environment and Sustainable Development
Auteurs : Dincer Ibrahim, A Rosen Marc
1. Thermodynamic Fundamentals 2. Exergy and Energy Analyses 3. Chemical Exergy 4. Exergy, Environment and Sustainable Development 5. Applications of Exergy in Industry 6. Exergy Analysis of Psychrometric Processes 7. Exergy Analysis of Heat Pump Systems 8. Exergy Analysis of Absorption Cooling Systems 9. Exergy Analysis of Thermal Energy Storage Systems 10. Exergy Analysis of Drying Processes and Systems 11. Exergy Analysis of Renewable Energy Systems 12. Exergy Analysis of Steam Power Plants 13. Exergy Analysis of Cogeneration and District Energy Systems 14. Exergy Analysis of Integrated Trigeneration and Multigeneration Systems 15. Exergy Analysis of Cryogenic and Liquefaction Systems 16. Exergy Analysis of Crude Oil Distillation Systems 17. Exergy Analysis of Hydrogen Production Systems 18. Exergy Analysis of Fuel Cell Systems 19. Exergy Analysis of Aircraft Flight Systems 20. Exergoeconomic Analysis of Thermal Systems 21. Exergy Analysis of Countries, Regions, and Economic Sectors 22. Exergetic Life Cycle Assessment 23. Exergy and Industrial Ecology 24. Exergy and Multiobjective Optimization 25. Exergy in Policy Development and Education 26. Closing Remarks and Future Expectations
Appendix A. Glossary of Selected Terminology B. Conversion Factors C. Thermophysical Properties
Energy engineers, thermal engineers, power system designers, policy makers, research institutes, environmental scientists and sustainability experts
Marc A. Rosen is a professor at Ontario Tech University (formally University of Ontario Institute of Technology) in Oshawa, Canada, where he served as founding Dean of the Faculty of Engineering and Applied Science. He is also the Editor-in-Chief of the International Journal of Energy and Environmental Engineering and the founding Editor-in-Chief of Sustainability. He has written numerous books and journal articles. Professor Rosen received the President's Award from the Canadian Society for Mechanical Engineering in 2012. He is an active teacher and researcher in sustainable energy, environmental impact of energy and industrial systems, and energy technology (including heat transfer and recovery, renewable energy and efficiency improvement). His work on exergy methods in applied thermodynamics has been pioneering and led to many informative and useful findings. He has carried out research on linkages between thermodynamics and environmental impact and ecology. Much of his research has been carried out for industr
- Connects exergy with three essential areas in terms of energy, environment and sustainable development
- Provides a number of illustrative examples, practical applications and case studies
- Written in an easy-to-follow style, starting from the basics to advanced systems
Date de parution : 12-2020
Ouvrage de 724 p.
21.4x27.6 cm