Mehrpooya / Asadnia / Karimi | Hybrid Poly-Generation Energy Systems | Buch | 978-0-323-98366-2 | sack.de

Buch, Englisch, 500 Seiten, Format (B × H): 152 mm x 228 mm, Gewicht: 1043 g

Mehrpooya / Asadnia / Karimi

Hybrid Poly-Generation Energy Systems

Thermal Design and Exergy Analysis
Erscheinungsjahr 2023
ISBN: 978-0-323-98366-2
Verlag: Elsevier Science

Thermal Design and Exergy Analysis

Buch, Englisch, 500 Seiten, Format (B × H): 152 mm x 228 mm, Gewicht: 1043 g

ISBN: 978-0-323-98366-2
Verlag: Elsevier Science

Hybrid Poly-generation Energy Systems: Thermal Design and Exergy Analysis provides an analysis of the latest technologies and concepts of hybrid energy systems, focusing on thermal applications. The book guides readers through an introduction to hybrid poly-generation systems and the storage options available before working through the types of hybrid systems, including solar, fuel cells, combustion, and heating and cooling. An analysis of the economic and environmental impact of each system is included, as well as methods and approaches for exergy and energy improvement analysis.

This book can be used as a tool for understanding new concepts in this emerging field and as a reference for researchers and professionals working on the integrated cogeneration of power systems.

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Zielgruppe

<p>Researchers, graduate students, and engineers working across renewable energy fields, with interest in thermal hybrid energy systems; Professionals including energy consultants, energy system designers, contractors </p>

Autoren/Hrsg.

Mehrpooya, Mehdi
Asadnia, Majid
Karimi, Amir Hossein
Allahyarzadeh-Bidgoli, Ali

Fachgebiete

Weitere Infos & Material

1. What does it mean? Hybrid poly-generation systems (PGSs)
2. How to use renewable energy sources in poly-generation systems?
3. Energy storage type and size in PGSs
4. Exergy, energy, environmental and economic analysis of hybrid poly-generation systems: methods and approaches
5. Solar based hybrid energy systems
6. Technical and economic prospects of fuel cells combination with PGSs?
7. Biomass based hybrid energy systems
8. Chemical looping combustion in PGSs
9. A framework for sustainable hydrogen production by PGSs
10. Integration of oxy-fuel power plants in PGSs
11. Basic power and cooling production systems in combination with PGSs to tri-generation of cold, heat and power
12. Integration of carbon dioxide capturing processes in hybrid energy systems
13. Advanced economic, environmental and exergy analyses of PGSs

Karimi, Amir Hossein
Amir Hossein Karimi works in the Renewable Energies and Environment Department, Faculty of New Science and Technologies, at the University of Tehran, Iran.

Asadnia, Majid
Majid Asadnia is an assistant professor who works in the Mechanical Engineering Department, Faculty of Engineering at Kar Higher Education Institute, Iran. He is also working for the Iranian Oil Pipelines and Telecommunication Company. Majid's favorite fields of research are gas liquefaction systems, exergy analysis, energy consumption management, and integrated management systems.

Allahyarzadeh-Bidgoli, Ali
Ali Allahyarzadeh-Bidgoli is a senior researcher at the Laboratory of Environmental and Thermal Engineering and the Research Centre for Greenhouse Gas Innovation at the Polytechnic School of the University of São Paulo, Brazil. He has experience in thermal engineering with knowledge in synthesis, optimization, and management of GHG emissions, renewable and hybrid energy systems, including energy integration and cryogenic process, which resulted in more than 40 technical contributions to books, journals, and international conferences.

Mehrpooya, Mehdi
Mehdi Mehrpooya is employed as Full Professor at University of Tehran, Faculty of New Sciences and Technologies. For the past decade as a faculty member, he has participated in teaching and administration duties as well as conducting countless novel research both experimentally and theoretically in several areas. Including process simulation, hydrogen production, storage, and liquefaction, fuel cells and electrochemical systems, energy storage systems and batteries, developing process engineering of several biochemicals production, CO2 separation and reduction, and investigating sustainability though utilization of renewable resources in the process especially by adopting solar energy.

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