Details
Membrane Reactors for Hydrogen Production Processes
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CHF 118.00 |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 25.03.2011 |
| ISBN/EAN: | 9780857291516 |
| Sprache: | englisch |
| Anzahl Seiten: | 235 |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<p><i>Membrane Reactors for Hydrogen Production Processes</i> deals with technological and economic aspects of hydrogen selective membranes application in hydrogen production chemical processes.</p><p><i>Membrane Reactors for Hydrogen Production Processes</i> starts with an overview of membrane integration in the chemical reaction environment, formulating the thermodynamics and kinetics of membrane reactors and assessing the performance of different process architectures. </p><p>Then, the state of the art of hydrogen selective membranes, membrane manufacturing processes and the mathematical modeling of membrane reactors are discussed. A review of the most useful applications from an industrial point of view is given. These applications include:</p><ul><li>natural gas steam reforming,</li><li>autothermal reforming,</li><li>water gas shift reaction,</li><li>decomposition of hydrogen sulphide, and</li><li>alkanes dehydrogenation.</li></ul><p>The final part is dedicated to the description of a pilot plant where the novel configuration was implemented at a semi-industrial scale. </p><p>Plant engineers, researchers and postgraduate students will find <i>Membrane Reactors for Hydrogen Production Processes</i> a comprehensive guide to the state of the art of membrane reactor technology.</p>
1. Integration of Selective Membranes in Chemical Processes: Benefits and Examples.- 2. Pd-based Selective Membrane State-of-the art.- 3. Hydrogen Palladium Selective Membranes: An Economic Perspective.- 4. Membrane Reactors Modeling.- 5. Membrane Integration in Natural Gas Steam Reforming.- 6. Autothermal Reforming Case Study.- 7. Technical and Economical Evaluation of WGS Reaction.- 8. Membrane Assisted Catalytic Decomposition of Hydrogen Sulphide.- 9. Alkanes Dehydrogenation.- 10. Steam Reforming of Natural Gas in a Reformer and Membrane Modules Test Plant. Plant Design Criteria and Operating Experience.- 11. Future Perspectives.
<p><b>Marcello De Falco</b> is an academic researcher and an expert in reactor modelling. He has about 25 publications on reactor simulations and membrane technology assessment.</p><p><b>Luigi Marrelli</b> is Full Professor of Chemical Reactors and Dean of the Faculty of Engineering at University Campus Bio-Medico of Rome. He has 40 years academic research experience and about 100 publications on chemical thermodynamics, kinetics and reactor modelling.</p><p><b>Gaetano Iaquaniello</b> is Vice President of Technology & Business Development at Tecnimont-KT S.p.A., a major process engineering contractor. He has 35 years of experience in process development and plant design, and in industrial research activities. He graduated with honors in Chemical Engineering in 1975 from the University of Rome, Italy, with a PhD from U.E.R. des Sciences at University of Limoges, France, in 1984 and he has a Masters in Management from the London Business School, UK, which he received in 1997.</p><p>
<p><i>Membrane Reactors for Hydrogen Production Processes</i> deals with technological and economic aspects of hydrogen selective membranes application in hydrogen production chemical processes.</p><p><i>Membrane Reactors for Hydrogen Production Processes</i> starts with an overview of membrane integration in the chemical reaction environment, formulating the thermodynamics and kinetics of membrane reactors and assessing the performance of different process architectures. </p><p>Then, the state of the art of hydrogen selective membranes, membrane manufacturing processes and the mathematical modeling of membrane reactors are discussed. A review of the most useful applications from an industrial point of view is given. These applications include:</p><ul><li>natural gas steam reforming,</li><li>autothermal reforming,</li><li>water gas shift reaction,</li><li>decomposition of hydrogen sulphide, and</li><li>alkanes dehydrogenation.</li></ul><p>The final part is dedicated to the description of a pilot plant where the novel configuration was implemented at a semi-industrial scale. </p><p>Plant engineers, researchers and postgraduate students will find <i>Membrane Reactors for Hydrogen Production Processes</i> a comprehensive guide to the state of the art of membrane reactor technology.</p>
Presents real applications of membrane reactor technology Provides comprehensive coverage of a promising new technology Assesses in detail three different hydrogen production plans Includes supplementary material: sn.pub/extras
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