In the last decade, the attention paid to the environmental protection has generated a considerable interest towards the development of new energy carriers and green energy production methods. Hydrogen as an energy carrier becomes a potential important source of energy due to its neutral environmental impact. However, its production, transformation and purification, presents a challenge in the so called hydrogen economy. Current Trends and Future Developments on (Bio-) Membranes gives a comprehensive review on the present state of the art of the hydrogen production and purification using new and alternative technologies stressing green processes and environment protection. The book covers green processes, renewable feedstocks utilization and membrane reactor technology for hydrogen production in line with new process intensification strategy.
The book is divided in four sections, ie fundamentals of hydrogen generation, its impact on environmental issue, new applications involving hydrogen and its storage and distribution. The main scope of this book is to offer a new horizon on hydrogen generation and utilization. It stresses the role of new technologies for hydrogen generation, including the “micro-reactors technology for portable applications, their combination with high temperature fuel cells, the role of gas-separation for both hydrogen purification and CO2 sequestration, the exploitation of renewable sources (biogas, bioethanol and other renewables feedstocks) in reforming processes useful to generate hydrogen, membrane and membrane reactor technology as well as membrane bio-reactors etc.
In the last decade, the attention paid to the environmental protection has generated a considerable interest towards the development of new energy carriers and green energy production methods. Hydrogen as an energy carrier becomes a potential important source of energy due to its neutral environmental impact. However, its production, transformation and purification, presents a challenge in the so called hydrogen economy. Current Trends and Future Developments on (Bio-) Membranes gives a comprehensive review on the present state of the art of the hydrogen production and purification using new and alternative technologies stressing green processes and environment protection. The book covers green processes, renewable feedstocks utilization and membrane reactor technology for hydrogen production in line with new process intensification strategy.
The book is divided in four sections, ie fundamentals of hydrogen generation, its impact on environmental issue, new applications involving hydrogen and its storage and distribution. The main scope of this book is to offer a new horizon on hydrogen generation and utilization. It stresses the role of new technologies for hydrogen generation, including the “micro-reactors technology for portable applications, their combination with high temperature fuel cells, the role of gas-separation for both hydrogen purification and CO2 sequestration, the exploitation of renewable sources (biogas, bioethanol and other renewables feedstocks) in reforming processes useful to generate hydrogen, membrane and membrane reactor technology as well as membrane bio-reactors etc.
Renewable feedstocks and green processes for hydrogen
generation
1. Hydrogen Economy: is it the new frontier for green processes and
environmental protection?
2. Bio-hydrogen from fermentative conversion using bacteria
3. Hydrogen production from wastewater and wood
4. Hydrogen from sun
5. Bioelectrochemical generation of hydrogen in micriobal
electrolysis
Alternative technologies for H2 production
6. Membrane Reactor Technology for hydrogen generation from
bio-compounds
7. New catalysts for intensified hydrogen production processes
8. Integration of HT-PEMFCs and membrane reactors
9. Hydrogen production in microreactors and micro-membrane
reactors
10. Hydrogen generation in membrane bioreactors
11. Co-production of hydrogen and power from NG in Internally
reforming fuel cell (IR FC)
H2 purification and CO2 sequestration
12. May hydrogen substitute the petroleum economy in green
processes and under environmental protection?
13. Hybrid systems for hydrogen upgrading with low environmental
impact
14. Methodologies for combined hydrogen purification and CO2
sequestration
15. Conventional processes for hydrogen separation
16. Hydrogen separation and purification by membrane technology
Hydrogen utilization
17. Hydrogen, green chemistry and process intensification
18. Miniaturized membrane systems with PEMFC for energy
production in transportation and portable devices
19. H2 in chemical and petrochemical industry
20. New perspectives for hydrogen utilization
Adolfo Iulianelli, Degree in Chemical Engineering in 2002 at University of Calabria (Italy), obtained his PhD Degree in Chemical and Materials Engineering in 2006 at University of Calabria (Italy). Nowadays, he is working at the Institute on Membrane Technology of the National Research Council of Italy (CNR-ITM). He is author or co-author of more than 50 international articles (ISI), 1 patent, more than 50 contributes as oral and poster presentations in national and international conferences, more than 20 book chapters. Furthermore, he is Reviewer of more than 20 international ICI journals, Invited Speaker in more than 5 international conferences, training school, etc. Subject Editor of the Scientific World Journal, Guest Editor for the International Journal of Hydrogen Energy (ICI) and Journal of Membrane Science and Technology and Associate Editor of International Journal of Membrane Science and Technology. His research interests are membrane reactors, fuel cells, gas separation, hydrogen production from reforming reactions of renewable sources through inorganic membrane reactors and membrane operations. His h-index is 22 (source: www.scoupus.com). Angelo Basile, a Chemical Engineer, is a senior Researcher at the ITM-CNR where is responsible of the research related to both the ultra-pure hydrogen production and CO2 capture using Pd-based Membrane Reactors. Basile is also Editor associate of the Int. J. Hydrogen Energy and Editor-in-chief of the Int. J. Membrane Science & Technol. and Editor-in-chief of Membrane Processes (Applications), a section of the international journal Membranes: Basile also prepared 42 special issues on membrane science and technology for many international journals (IJHE, Chem Eng. J., Cat. Today, etc.). He participated to and was/is responsible of many national and international projects on membrane reactors and membrane science. Basile served as Director of the ITM-CNR during the period Dec. 2008 – May 2009. In the last years, he was tutor of 30 Thesis for master and Ph.D. students at the Chemical Engineering Department of the University of Calabria (Italy). From 2014, Basile is Full Professor of Chemical Engineering Processes.
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