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Cogeneration and Polygeneration Systems

Langue : Anglais

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Couverture de l’ouvrage Cogeneration and Polygeneration Systems

Cogeneration and Polygeneration Systems explores the suite of state-of-the-art modeling, design, analysis and optimization procedures for creating and retooling optimally efficient combined heat and power (CHP) and polygeneration energy systems. The book adopts exergetic and thermoeconomic analysis and related modeling and simulation tools to inform performance and systems design in modern cogeneration plants. Chapters provide a methodical approach to the design, operation and troubleshooting of cogeneration systems when they are integrated with industrial processes. Cogeneration targets, environmental impacts, total site integration, and availability and reliability issues are addressed in-depth.

1. Cogeneration and Polygeneration2. Applications of Cogeneration and Polygeneration3. Major Components of Cogeneration and Polygeneration Systems4. Thermodynamic Modeling and Simulation of Cogeneration and Polygeneration Systems5. Exergy and Thermoeconomic Evaluation of Cogeneration and Polygeneration Systems6. Advanced Exergetic Evaluation of Cogeneration and Polygeneration Systems7. Total Site Integration and Cogeneration Systems8. Desalinated Water Production in Cogeneration and Polygeneration Systems9. Cogeneration and Polygeneration Targets10. R-Curve Tool11. Environmental Impacts Consideration 12. Combined Heating, Cooling, Hydrogen and Power Production13. Modern Polygeneration Systems14. Optimization of Cogeneration and Polygeneration Systems15. Reliability and Availability of Cogeneration and Polygeneration Systems16. Software Tools
Researchers focusing on feasibility studies, modeling, simulation, analysis, design and optimization of energy systems, cogeneration, tri-generation, polygeneration, thermal and renewable power plants. Mechanical engineers, chemical and process engineers, environmental engineers and energy engineers that work on the evaluation, modeling, simulation, optimal design, optimization of cogeneration system. Utility industries
Majid Amidpour is Professor of Mechanical Engineering at Toosi University of Technology, Iran, Director of the Iranian Fuel Cell Society and Visiting Professor, Energy Department, Politecnico di Milano, Milan, Italy. Amidpour is interested in developing fossil and renewable integration systems using cogeneration approaches.
Mohammad Manesh is Assistant Professor in Mechanical Engineering at the University of Qom, Iran. He is interested in integration systems and cogeneration.
  • Explores exergetic and exergoeconomic analysis for optimization purposes of CHP systems
  • Addresses availability and reliability issues within cogeneration systems
  • Reviews modern polygeneration systems based on renewable energy resources and fuel cells