Basile / Rahimpour | Progresses in Ammonia | Buch | 978-0-323-88503-4 | www.sack.de

Buch, Englisch, 238 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 418 g

Basile / Rahimpour

Progresses in Ammonia

Science, Technology and Membranes: Decomposition
Erscheinungsjahr 2023
ISBN: 978-0-323-88503-4
Verlag: Elsevier Inc

Science, Technology and Membranes: Decomposition

Buch, Englisch, 238 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 418 g

ISBN: 978-0-323-88503-4
Verlag: Elsevier Inc

Progresses in Ammonia: Science, Technology and Membranes: Decomposition considers the membrane technology for improving ammonia decomposition. Various aspects are considered, including the catalytic extraction of hydrogen from ammonia, the recovery of hydrogen from ammonia production processes, the hydrogen production system combined with a membrane reactor from ammonia, highly purified hydrogen production from ammonia for PEM fuel cell, the carbon dioxide capture by aqueous ammonia with membrane, and the Ammonia decomposition in auto-thermal microchannel reactors). Mathematical simulation using the CFD model to investigate the effect of Ammonia decomposition is also discussed.

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Autoren/Hrsg.

Basile, Angelo
Rahimpour, Mohammad Reza

Fachgebiete

Weitere Infos & Material

1. Catalytic extraction of hydrogen from ammonia
2. The recovery of hydrogen from ammonia production processes
3. Hydrogen production system combined with a a membrane reactor from ammonia
4. Efficient ammonia decomposition in a membrane reactor for hydrogen, separation, purification, storage and utilization
5. Highly purified hydrogen production from ammonia for PEM fuel cell
6. Ammonium recovery and energy/hydrogen production from urine by a microbial fuel cell
7. Carbon dioxide capture by aqueous ammonia with membrane
8. NH3 decomposition in autothermal microchannel reactors
9. CFD model to investigate the effect of NH3 decomposition and NH3 oxidation flows

Rahimpour, Mohammad Reza
Prof. Mohammad Reza Rahimpour is a professor in Chemical Engineering at Shiraz University, Iran. He received his Ph.D. in Chemical Engineering from Shiraz University joint with University of Sydney, Australia 1988. He started his independent career as Assistant Professor in September 1998 at Shiraz University. Prof. M.R. Rahimpour, was a Research Associate at University of California, Davis from 2012 till 2017. During his stay in University of California, he developed different reaction networks and catalytic processes such as thermal and plasma reactors for upgrading of lignin bio-oil to biofuel with collaboration of UCDAVIS. He has been a Chair of Department of Chemical Engineering at Shiraz University from 2005 till 2009 and from 2015 till 2020. Prof. M.R. Rahimpour leads a research group in fuel processing technology focused on the catalytic conversion of fossil fuels such as natural gas, and renewable fuels such as bio-oils derived from lignin to valuable energy sources. He provides young distinguished scholars with perfect educational opportunities in both experimental methods and theoretical tools in developing countries to investigate in-depth research in the various field of chemical engineering including carbon capture, chemical looping, membrane separation, storage and utilization technologies, novel technologies for natural gas conversion and improving the energy efficiency in the production and use of natural gas industries.

Basile, Angelo
Angelo Basile is a Full Professor and a leading authority in membrane science and technology. Since 2014, he has served as Full Professor in Systems, Methods and Technologies of Chemical Engineering Processes at CNR-ITM in Rende, Italy. His work covers hydrogen purification and production using membrane reactors, CO2 capture, process intensification, and the treatment of industrial effluents with advanced membrane operations. Basile has edited many scientific books and authored numerous book chapters, bridging complex research with clear knowledge for engineers and scientists. Motivated by the role of AI/ML in accelerating membrane process design and automation, he supports integrating data-driven methods for smart plants and reaction–separation optimisation.

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