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Membrane Technologies for Biohydrogen Production and Purification
Current Trends and Future Developments in Bio-Membranes
- 1st Edition - June 1, 2025
- Editors: Angelo Basile, Rambabu Krishnamoorthy
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 2 4 7 8 0 - 4
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 2 4 7 8 1 - 1
Membrane Technologies for Biohydrogen Production and Purification: Current Trends and Future Developments in Bio-Membranes focuses on the introduction, analysis, and applic… Read more
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Request a sales quoteMembrane Technologies for Biohydrogen Production and Purification: Current Trends and Future Developments in Bio-Membranes focuses on the introduction, analysis, and application of membrane technologies for biohydrogen production, purification, storage, and transport. The book provides comprehensive coverage of emerging membrane-based technologies for the production and purification of biohydrogen by integrated engineering approaches with a special focus on novel membrane-based techniques for maximizing biohydrogen yields. It details recent developments in materials, design, and engineering aspects of membranes-assisted biohydrogen technology, illustrating their advantages over conventional systems, improved performance, and industry potential. The book sheds light and gives a broad, but very detailed, view from the point of view of scientists, researchers, students, and industrial engineers working in the field of biohydrogen and its technology transfer from laboratory to industry. It also includes an exclusive chapter on case studies of pilot-scale demonstrations of membrane-assisted biohydrogen production and purification, assuring the industrial potential of the book's topic. This makes it a key reference for experts and R&D managers interested in the industrial development of biohydrogen production as well as academic researchers and postgraduate students working in the wider areas of membrane technology and biohydrogen technology.
- Emphasizes significance and impacts of deploying bio-hydrogen at an industrial scale
- Discusses in detail different membrane-based technologies for bio-hydrogen production
- Resumes advanced 2D materials and integrated membrane systems for simultaneous biohydrogen production and purification
- Reviews membrane technologies for biohydrogen storage and transportation
- Highlights prospective pilot scale studies of membranes-assisted biohydrogen technology showcasing their industrial potential
Post-graduate students and academic researchers in chemical engineering, environmental engineering, biotechnology, mechanical engineering, and chemistry, chemical processes units, energy producers, separation plants
1. Introduction to membrane technology for biohydrogen
2. Biohydrogen production techniques
3. Role of membranes in biohydrogen technology
4. Membrane bioreactors for biohydrogen
5. Anaerobic membrane bioreactor (AnMBR) for biohydrogen production
6. Microbial electrolysis for biohydrogen production
7. Electrodialysis membrane for biohydrogen production
8. Polymeric membranes for biohydrogen technology
9. Non-porous polymeric membranes for biohydrogen purification
10. Ionic liquid membranes for biohydrogen purification
11. Advanced 2D materials for biohydrogen purification
12. Membrane technology for hydrogen storage and transport
13. Membrane for Microbial fuel cells
14. Pilot scale studies for membranes in biohydrogen technology
2. Biohydrogen production techniques
3. Role of membranes in biohydrogen technology
4. Membrane bioreactors for biohydrogen
5. Anaerobic membrane bioreactor (AnMBR) for biohydrogen production
6. Microbial electrolysis for biohydrogen production
7. Electrodialysis membrane for biohydrogen production
8. Polymeric membranes for biohydrogen technology
9. Non-porous polymeric membranes for biohydrogen purification
10. Ionic liquid membranes for biohydrogen purification
11. Advanced 2D materials for biohydrogen purification
12. Membrane technology for hydrogen storage and transport
13. Membrane for Microbial fuel cells
14. Pilot scale studies for membranes in biohydrogen technology
- No. of pages: 450
- Language: English
- Edition: 1
- Published: June 1, 2025
- Imprint: Elsevier
- Paperback ISBN: 9780443247804
- eBook ISBN: 9780443247811
AB
Angelo Basile
Angelo Basile, a Chemical Engineer with a Ph.D. in Technical Physics, was a senior Researcher at the ITM-CNR as a responsible for the research related to both ultra-pure hydrogen production and CO2 capture using Pd-based Membrane Reactors. He is a reviewer for 165 int. journals, an editor/author of more than 50 scientific books and 140 chapters on international books on membrane science and technology; with various patens (7 Italian, 2 European, and 1 worldwide). He is a referee of 1more than 150 international scientific journals and a Member of the Editorial Board of more than 20 of them. Basile is also an associate editor of the: Int. J. Hydrogen Energy; Asia-Pacific Journal of Chemical Eng.; journal Frontiers in Membrane Science and Technology; and co-Editor-in-chief of the Int. J. Membrane Science & Technol.
Affiliations and expertise
ITM-CNR, University of Calabria, ItalyRK
Rambabu Krishnamoorthy
Dr. Rambabu is currently working as a Research Scientist in the Department of Chemical Engineering at Khalifa University, UAE. He has completed his Ph.D. in Chemical Engineering on the topic of membrane materials. He has more than ten years of teaching and research experience. His research areas consist of membrane materials, nanoparticles, water treatment, biohydrogen, bioprocesses, algal biomass, and waste management. His research works also include modeling chemical and biochemical processes using various software. He has good expertise in industry consultancy projects and holds a good track record of journal publications. He has published more than 100 journals and conference papers in various leading scientific journals of Elsevier, Taylor & Francis, Springer, Nature, etc. He has been listed in the Top 2% of Eminent Scientists list under Energy and Environment category for the year 2021 (Scopus). He has received several funded projects in research areas related to waste valorization, water treatment, and nanotechnology. He has been recognized as an excellent researcher by various professional/research bodies and obtained a number of research awards.
Affiliations and expertise
Faculty of Chemical Engineering, Khalifa University, united Arab Emirates