Current Trends and Future Developments on (Bio-) Membranes
Silica Membranes: Preparation, Modelling, Application, and Commercialization
Published on 12. August 2017
Book
Paperback/Softback
378 pages
978-0-444-63866-3 (ISBN)
Description
Current Trends and Future Developments on (Bio-) Membranes: Silica Membranes: Preparation, Modelling, Application, and Commercialization discusses one of the most promising inorganic membranes, namely silica membranes, and their different applications.
In the field of membrane separation technology, silica membranes play a key role in the future of the chemical industry as one of the most promising alternatives for separations at high temperatures and aggressive media.
This book details the latest research findings, along with the potential industrial applications of an area that has seen growing research activity on various type of membranes due to the necessity of gas separation and water treatment processes. Many industrial companies and academic centers will find immense interest in learning about the best strategies for carrying out these processes.
In the field of membrane separation technology, silica membranes play a key role in the future of the chemical industry as one of the most promising alternatives for separations at high temperatures and aggressive media.
This book details the latest research findings, along with the potential industrial applications of an area that has seen growing research activity on various type of membranes due to the necessity of gas separation and water treatment processes. Many industrial companies and academic centers will find immense interest in learning about the best strategies for carrying out these processes.
More details
Language
English
Place of publication
Oxford
United Kingdom
Publishing group
Elsevier Science & Technology
Target group
Professional and scholarly
Membrane scientists involving in membrane preparation for various applications, chemical engineers and material scientists at undergraduate and particularly graduate students, post-doctoral researchers, and professors. Membrane fabrication companies
Product notice
Paperback (trade)
Unsewn / adhesive bound
Dimensions
Height: 234 mm
Width: 190 mm
Thickness: 20 mm
Weight
839 gr
ISBN-13
978-0-444-63866-3 (9780444638663)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Angelo Basile | Kamran Ghasemzadeh
Current Trends and Future Developments on (Bio-) Membranes
Silica Membranes: Preparation, Modelling, Application, and Commercialization
E-Book
08/2017
Elsevier
€240.00
Available for download
Persons
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, CO? 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.
Kamran Ghasemzadeh is currently working as a senior research associate at the chemical engineering department, University of Manchester, UK since August 2022. At the same time, he has served as an associate professor in the chemical engineering department at Urmia University of Technology, Iran, wherein he developed research on membranes/membrane reactors for many processes.
Kamran Ghasemzadeh's h-index = 21, with 126 document results in a total of 1135 citations in the areas: Energy, Chemical Engineering, Environmental Science, and membrane technologies, (www.scopus.com - March 30/2023). He has more than 50 papers published in national/international congresses; and is a reviewer for 70 int. journals, an editor/author of more than 10 scientific books, and 45 chapters on int. books on membrane science and technology. Today Ghasemzadeh is collaborating with the Dept. of chem. Eng. at the University of Manchester (UK) on the valorisation of biomass by-products. He participated in various national and international projects on membrane reactors and membrane science. In the last years, he was the supervisor/co-supervisor of more than 38 Thesis for Master and Ph.D. students. Ghasemzadeh served as Director of the UUT research center during the period Sep. 2018 - April 2022.
Kamran Ghasemzadeh is currently working as a senior research associate at the chemical engineering department, University of Manchester, UK since August 2022. At the same time, he has served as an associate professor in the chemical engineering department at Urmia University of Technology, Iran, wherein he developed research on membranes/membrane reactors for many processes.
Kamran Ghasemzadeh's h-index = 21, with 126 document results in a total of 1135 citations in the areas: Energy, Chemical Engineering, Environmental Science, and membrane technologies, (www.scopus.com - March 30/2023). He has more than 50 papers published in national/international congresses; and is a reviewer for 70 int. journals, an editor/author of more than 10 scientific books, and 45 chapters on int. books on membrane science and technology. Today Ghasemzadeh is collaborating with the Dept. of chem. Eng. at the University of Manchester (UK) on the valorisation of biomass by-products. He participated in various national and international projects on membrane reactors and membrane science. In the last years, he was the supervisor/co-supervisor of more than 38 Thesis for Master and Ph.D. students. Ghasemzadeh served as Director of the UUT research center during the period Sep. 2018 - April 2022.
Content
Introduction: Inorganic membranes roles in the industrial applications
Part A: Silica membrane preparation
1. Preparation of silica membranes by sol gel method
2. Preparation of silica membranes by CVD method
3. Preparation of silica membranes by CVI method
Part B: Theory analysis of silica membranes
4. Separation theory of silica membranes
5. Molecular dynamic (MD) simulation of silica membranes
6. Modeling of silica membranes
Part C: Application of silica membranes
7. Silica membranes application for water treatment
8. Silica membrane application for desalination process
9. Silica membrane application for pervaporation process
10. Silica membranes application for hydrogen separation
11. Silica membranes application for carbon dioxide separation
12. Silica membrane reactor
Part D: Challenges on commercializing the silica membranes
13. Hydrothermal improvement of silica membranes
14. Polarization in silica membranes
15. Silica membranes sealing in high temperatures
Part A: Silica membrane preparation
1. Preparation of silica membranes by sol gel method
2. Preparation of silica membranes by CVD method
3. Preparation of silica membranes by CVI method
Part B: Theory analysis of silica membranes
4. Separation theory of silica membranes
5. Molecular dynamic (MD) simulation of silica membranes
6. Modeling of silica membranes
Part C: Application of silica membranes
7. Silica membranes application for water treatment
8. Silica membrane application for desalination process
9. Silica membrane application for pervaporation process
10. Silica membranes application for hydrogen separation
11. Silica membranes application for carbon dioxide separation
12. Silica membrane reactor
Part D: Challenges on commercializing the silica membranes
13. Hydrothermal improvement of silica membranes
14. Polarization in silica membranes
15. Silica membranes sealing in high temperatures