Water gas shift reaction : research developments and applications /

Water Gas Shift Reaction: Research Developments and Applications outlines the importance of hydrogen as a future fuel, along with the various hydrogen production methods. The book explains the development of catalysts for Water Gas Shift (WGS) reaction at different temperatures and steam/CO ratios,...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Gunugunuri, K. Reddy (Autor), Smirniotis, Panagiotis (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier, [2015]
Temas:
Water-gas.
Synthesis gas.
Gas manufacture and works.
Gaz �a l'eau.
Gaz de synth�ese.
TECHNOLOGY & ENGINEERING > Power Resources > General.
Gas manufacture and works
Synthesis gas
Water-gas
Acceso en línea:Texto completo

MARC

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100 1 |a Gunugunuri, K. Reddy,  |e author. 
245 1 0 |a Water gas shift reaction :  |b research developments and applications /  |c by Gunugunuri K. Reddy, Panagiotis G. Smirniotis. 
264 1 |a Amsterdam :  |b Elsevier,  |c [2015] 
300 |a 1 online resource :  |b illustrations (some color) 
336 |a text  |b txt  |2 rdacontent 
337 |a computer  |b c  |2 rdamedia 
338 |a online resource  |b cr  |2 rdacarrier 
588 0 |a Online resource; title from PDF title page (Ebsco, viewed June 19, 2015). 
504 |a Includes bibliographical references and index. 
520 |a Water Gas Shift Reaction: Research Developments and Applications outlines the importance of hydrogen as a future fuel, along with the various hydrogen production methods. The book explains the development of catalysts for Water Gas Shift (WGS) reaction at different temperatures and steam/CO ratios, and also discussing the effect of different dopants on the WGS activity of iron oxide and the promotion and inhibition roles of the dopants on the WGS activity of iron oxide are explained. In addition, the book describes extensive characterization of modified ferrite catalysts, especially with Mossbauer spectroscopy and its advantage in understanding properties of metal doped ferrite catalysts, the exact dopant location, and its effect on electron hopping capability and WGS activity of Fe redox couple. 
505 0 |a Front Cover; Water Gas Shift Reaction: Research Developments and Applications; Copyright; Dedication; Contents; Chapter 1: Introduction About WGS Reaction; 1.1. History and Background; 1.1.1. Water Gas; 1.1.1.1. Types of Water Gas; 1.1.1.1.1. Carburetted Water Gas; 1.1.1.1.2. Semi-Water Gas; 1.1.2. Water-Gas Shift Reaction; 1.2. Thermodynamic Considerations; 1.3. Ways to Conduct WGSR; 1.3.1. WGS Reaction in Traditional Reactor; 1.3.1.1. Homogeneous Catalytic WGS Reaction; 1.3.1.1.1. Heterogeneous Catalytic WGS Reaction; 1.3.2. WGSR in Membrane Reactors; 1.3.2.1. Membrane Reactor. 
505 8 |a 1.3.3. Photo-Catalytic WGS Reaction1.4. Types of Heterogeneous Water-Gas Shift Catalysts; 1.4.1. HT WGS Catalysts; 1.4.2. LT-WGS Catalysts; 1.4.2.1. Cu-Based Catalysts; 1.4.2.2. Nobel Metal-Based Catalysts; 1.4.3. Sulphur Tolerant Co-Mo Catalysts; References; References; References; References; References; References; References; References; References; Chapter 2: High-Temperature WGS Reaction; 2.1. Fe-Cr Catalysts; 2.1.1. Fe-Cr Activation; 2.1.2. Influence of Various Parameters; 2.1.3. Effect of Other Metals on the Activity of Iron-Chromia Catalysts; 2.2. Cr-Free Fe-Based Catalysts. 
505 8 |a 2.3. Fe-Al Catalysts2.4. Ceria-Based Catalysts; 2.5. Perovskites Type of Catalysts; 2.6. Integrated Gasification Combined Cycle; Chapter 3: Low-Temperature WGS Reaction; 3.1. Low-Temperature WGS Reaction; 3.2. Non-Noble Metal Catalysts; 3.2.1. Cu-Based Catalysts; 3.2.1.1. Cu-Zn-Al Catalysts; 3.2.1.2. Other Cu Catalysts; 3.2.1.3. Cu/CeO2; 3.2.1.4. Bimetallic Cu/CeO2 Catalysts; 3.2.2. Ni Catalysts; 3.3. Nobel Metal-Based Catalysts; 3.3.1. Pt-Based Catalysts; 3.3.1.1. Pt/ZrO2; 3.3.1.2. Pt/CeO2; 3.3.1.3. Pt/TiO2; 3.3.1.4. Pt/Other Supports; 3.3.1.5. Bimetallic Pt Catalysts. 
505 8 |a 3.3.1.6. Deactivation of Pt Catalysts3.3.2. Ru-Based Catalysts; 3.3.3. Rh-Based Catalysts; 3.3.4. Pd Catalysts; 3.3.5. Au-Based Catalysts; 3.3.5.1. Au/Fe2O3; 3.3.5.2. Au/TiO2; 3.3.5.3. Au/ZrO2; 3.3.5.4. Au/CeO2; 3.3.5.5. Bimetallic Gold Catalysts; Chapter 4: WGS Reaction over Co-Mo Sulphided Catalysts; 4.1. Introduction; 4.2. Mo Catalysts; 4.3. Co-Mo Catalysts; 4.4. Effect of Support and Other Metal Addition; 4.5. Role of K as Promoter; 4.6. Co-Mo Catalysts in Industrial Conditions; 4.7. Supported Zeolite Catalysts for the WGS Reaction; 4.8. Molybdenum Carbide Catalysts. 
505 8 |a Chapter 5: Ultra High Temperature WGS Reaction5.1. Introduction; 5.2. Influence of Promoters; 5.3. Role of Cu; 5.4. Role of Co-Promoter; 5.5. Long-Term Time on Stream Stability Test; Chapter 6: WGS Reaction in Membrane Reactors; 6.1. Introduction; 6.2. Pd-Based Membrane Reactors; 6.3. Silica Membranes; 6.4. Proton-Conducting Membranes; 6.5. CO2-Selective Membrane Reactors; 6.6. Zeolite Membrane Reactors; 6.7. Theoretical Investigation of Membrane Reactors; Chapter 7: Homogeneous WGS Reaction; 7.1. Homogeneous Catalytic WGS Reaction; 7.2. Rh-Based Complexes for Homogeneous WGS Reaction. 
650 0 |a Water-gas. 
650 0 |a Synthesis gas. 
650 0 |a Gas manufacture and works. 
650 6 |a Gaz �a l'eau.  |0 (CaQQLa)201-0008721 
650 6 |a Gaz de synth�ese.  |0 (CaQQLa)201-0158132 
650 7 |a TECHNOLOGY & ENGINEERING  |x Power Resources  |x General.  |2 bisacsh 
650 7 |a Gas manufacture and works  |2 fast  |0 (OCoLC)fst00938373 
650 7 |a Synthesis gas  |2 fast  |0 (OCoLC)fst01141188 
650 7 |a Water-gas  |2 fast  |0 (OCoLC)fst01172282 
700 1 |a Smirniotis, Panagiotis,  |e author. 
856 4 0 |u https://sciencedirect.uam.elogim.com/science/book/9780124201545  |z Texto completo 

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