Details
Membranes for Energy Applications
1. Aufl.
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142,99 € |
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| Verlag: | Wiley-VCH |
| Format: | EPUB |
| Veröffentl.: | 25.03.2024 |
| ISBN/EAN: | 9783527347667 |
| Sprache: | englisch |
| Anzahl Seiten: | 368 |
DRM-geschütztes eBook, Sie benötigen z.B. Adobe Digital Editions und eine Adobe ID zum Lesen.
Beschreibungen
<b>Membranes for Energy Applications</b> <p> <b>Complete learning resource to understand membrane technology for gas, ion, and water transportation and/or separation</b> <p>This book provides important information on membranes for energy production as well as the recent key advances that have been made in the field. It benefits the reader not only by providing insight into the application of membranes in the energy industry, but also by explaining the principles or theories behind this important application, including the transport of small molecules such as gas, ion, and water. <p>Contributed by a world-renowned and long-standing expert in the field of membrane materials and processes, the book covers many important areas of interest, such as: <ul><li>The history of membrane science and technology</li><li>Fundamentals of membrane technology, including principles of membrane formation and principle behind</li><li>Gas separation using membrane technology</li><li>Membranes for ion transport or separation realized in energy generation and storage</li><li>The future direction and outlook of membrane technology in energy application and industry</li></ul> <p>This book is a must-have resource for professionals in the field who wish to gain mastery over the topic of membranes and how they relate to energy application. Many different types of scientists and engineers will be able to derive immense value from its comprehensive yet concise approach.
1. INTRODUCTION<br> 1.1 History of membrane technology<br> 1.2 Membrane separation technology and other separation methods<br> 1.3 Current state-of-the-art membrane technology<br> 2. FUNDAMENTALS of MEMBRANE TECHNOLOGY<br> 2.1 Transport aspects in membrane technology<br> 2.2 Thermodynamics of phase separation<br> 2.3 Fabrication of membranes using phase separation<br> 2.4 Non-solvent induced phase separation<br> 2.5 Thermally-induced phase separation<br> 2.6 Membrane materials (Polymeric)<br> 2.7 Membrane materials (Inorganic)<br> 2.8 Membrane module fabrication<br> 2.9 Membrane processes<br> 3. MEMBRANES in ENERGY GENERATION<br> 3.1 Membranes for air separation for oxycombustion<br> 3.2 Membranes for natural gas and bio-gas upgrading<br> 3.3 Membranes to capture greenhouse gasses<br> 3.4 Membranes for pervaporation for biofuel or alcohol purification<br> 4. MEMBRANES in ENERGY CONVERSION<br> 4.1 Brief introduction of electrochemsitry <br> 4.2 Membranes for PEM fuel cells<br> 4.3 Membranes for high temperature fuel cells<br> 4.4 Membranes for direct methanol fuel cells<br> 4.5 Membranes for anion exchange membrane fuel cells<br> 4.6 Binders for fuel cells<br> 4.7 Membranes for solid oxide fuel cells<br> 5. MEMBRANES in ENERGY STORAGE<br> 5.1 Membranes for Li-ion batteries<br> 5.2 Membranes for Li-S or Li-Air batteries<br> 5.3 Membranes for future batteries<br> 5.4 Membranes for polymer electrolytes<br> 6. MEMBRANES in HYDROGEN PRODUCTION and PURIFICATION<br> 6.1 Membranes for methane reforming reactors<br> 6.2 Membranes for methanol reforming reactors<br> 6.3 Membranes for hydrogen separations and purification<br> 6.4 Membranes for hydrogen production by water electrolysis<br> 7. MEMBRANES for POWER GENERATION<br> 7.1 Water Energy Nexus and Membranes<br> 7.2 The osmotic power concept<br> 7.3 Membranes for pressure retarded osmosis<br> 7.4 Hybrid systems with membrane distillation and others<br> 7.5 New membrane concepts for power generation<br> 8. FUTURE PERSPECTIVES and CHALLENGES<br>
<p><i><b>Young Moo Lee </b>is currently Distinguished Professor of Energy Engineering at Hanyang University, Seoul, South Korea. He served as the 14th President of Hanyang University from 2015 to 2019. He is engaged in novel membrane materials and processes for gas and vapor separation including thermally rearranged polymer membranes, organic–inorganic hybrid membranes, surface modified membranes, and the design of novel polymers for fuel cells. Professor Lee has received numerous awards such as Top 100 Research Award by Korea Research Foundation (2017), Kyung Am Award (2012), and Top 50 Research Award by Korea Science and Engineering Foundation (2008).</i>
<p> <b>Complete learning resource to understand membrane technology for gas, ion, and water transportation and/or separation</b> <p>This book provides important information on membranes for energy production as well as the recent key advances that have been made in the field. It benefits the reader not only by providing insight into the application of membranes in the energy industry, but also by explaining the principles or theories behind this important application, including the transport of small molecules such as gas, ion, and water. <p>Contributed by a world-renowned and long-standing expert in the field of membrane materials and processes, the book covers many important areas of interest, such as: <ul><li>The history of membrane science and technology</li><li>Fundamentals of membrane technology, including principles of membrane formation and principle behind</li><li>Gas separation using membrane technology</li><li>Membranes for ion transport or separation realized in energy generation and storage</li><li>The future direction and outlook of membrane technology in energy application and industry</li></ul> <p>This book is a must-have resource for professionals in the field who wish to gain mastery over the topic of membranes and how they relate to energy application. Many different types of scientists and engineers will be able to derive immense value from its comprehensive yet concise approach.
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