Hydrogen Production, Separation and Purification for Energy
Herausgeber: Basile, Angelo; Nejat Veziro&; Tong, Jianhua; Dalena, Francesco
Hydrogen Production, Separation and Purification for Energy
Herausgeber: Basile, Angelo; Nejat Veziro&; Tong, Jianhua; Dalena, Francesco
- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
This book provides an overview of worldwide research in the use of hydrogen in energy development, its most innovative methods of production and the various steps necessary for the optimization of this product.
Andere Kunden interessierten sich auch für
- Electrical Design for Ocean Wave and Tidal Energy Systems191,99 €
- Tetsuo Soga (ed.)Nanostructured Materials for Solar Energy Conversion146,99 €
- Ahmad K. Sleiti (Department of Mechanical & Industrial EngineeringDesign and Analysis of Liquid Hydrogen Technologies191,99 €
- Clean Energy Microgrids201,99 €
- Wind Energy Modeling and Simulation160,99 €
- Kenneth OkeduPerformance of DFIG and PMSG Wind Turbines110,99 €
- Catalina SpataruWhole Energy System Dynamics61,99 €
-
-
-
This book provides an overview of worldwide research in the use of hydrogen in energy development, its most innovative methods of production and the various steps necessary for the optimization of this product.
Produktdetails
- Produktdetails
- Energy Engineering
- Verlag: Institution of Engineering and Technology
- Seitenzahl: 488
- Erscheinungstermin: 24. Februar 2017
- Englisch
- Abmessung: 240mm x 161mm x 30mm
- Gewicht: 900g
- ISBN-13: 9781785611001
- ISBN-10: 1785611003
- Artikelnr.: 45063587
- Energy Engineering
- Verlag: Institution of Engineering and Technology
- Seitenzahl: 488
- Erscheinungstermin: 24. Februar 2017
- Englisch
- Abmessung: 240mm x 161mm x 30mm
- Gewicht: 900g
- ISBN-13: 9781785611001
- ISBN-10: 1785611003
- Artikelnr.: 45063587
* Chapter 1: Structured catalyst for process intensification in
hydrogen production by reforming processes
* Chapter 2: Bimetallic supported catalysts for hydrocarbons and
alcohols reforming reactions
* Chapter 3: Catalysts for hydrogen production from renewable raw
materials, by-products and waste
* Chapter 4: Ni- and Cu-based catalysts for methanol and ethanol
reforming
* Chapter 5: Transition metal catalysts for hydrogen production by
low-temperature steam reforming of methane
* Chapter 6: Supercritical water gasification of biomass to produce
hydrogen
* Chapter 7: Biofuels starting materials for hydrogen production
* Chapter 8: Fixed bed membrane reactors for ultrapure hydrogen
production: modelling approach
* Chapter 9: Hydrogen production using micro-membrane reactors
* Chapter 10: Perovskite membrane reactors
* Chapter 11: Polymeric membrane materials for hydrogen separation
* Chapter 12: Industrial membranes for hydrogen separation
* Chapter 13: Multifunctional hybrid sorption-enhanced membrane reactor
* Chapter 14: Carbon-based membranes
* Chapter 15: Separation of hydrogen isotopes by cryogenic distillation
hydrogen production by reforming processes
* Chapter 2: Bimetallic supported catalysts for hydrocarbons and
alcohols reforming reactions
* Chapter 3: Catalysts for hydrogen production from renewable raw
materials, by-products and waste
* Chapter 4: Ni- and Cu-based catalysts for methanol and ethanol
reforming
* Chapter 5: Transition metal catalysts for hydrogen production by
low-temperature steam reforming of methane
* Chapter 6: Supercritical water gasification of biomass to produce
hydrogen
* Chapter 7: Biofuels starting materials for hydrogen production
* Chapter 8: Fixed bed membrane reactors for ultrapure hydrogen
production: modelling approach
* Chapter 9: Hydrogen production using micro-membrane reactors
* Chapter 10: Perovskite membrane reactors
* Chapter 11: Polymeric membrane materials for hydrogen separation
* Chapter 12: Industrial membranes for hydrogen separation
* Chapter 13: Multifunctional hybrid sorption-enhanced membrane reactor
* Chapter 14: Carbon-based membranes
* Chapter 15: Separation of hydrogen isotopes by cryogenic distillation
* Chapter 1: Structured catalyst for process intensification in
hydrogen production by reforming processes
* Chapter 2: Bimetallic supported catalysts for hydrocarbons and
alcohols reforming reactions
* Chapter 3: Catalysts for hydrogen production from renewable raw
materials, by-products and waste
* Chapter 4: Ni- and Cu-based catalysts for methanol and ethanol
reforming
* Chapter 5: Transition metal catalysts for hydrogen production by
low-temperature steam reforming of methane
* Chapter 6: Supercritical water gasification of biomass to produce
hydrogen
* Chapter 7: Biofuels starting materials for hydrogen production
* Chapter 8: Fixed bed membrane reactors for ultrapure hydrogen
production: modelling approach
* Chapter 9: Hydrogen production using micro-membrane reactors
* Chapter 10: Perovskite membrane reactors
* Chapter 11: Polymeric membrane materials for hydrogen separation
* Chapter 12: Industrial membranes for hydrogen separation
* Chapter 13: Multifunctional hybrid sorption-enhanced membrane reactor
* Chapter 14: Carbon-based membranes
* Chapter 15: Separation of hydrogen isotopes by cryogenic distillation
hydrogen production by reforming processes
* Chapter 2: Bimetallic supported catalysts for hydrocarbons and
alcohols reforming reactions
* Chapter 3: Catalysts for hydrogen production from renewable raw
materials, by-products and waste
* Chapter 4: Ni- and Cu-based catalysts for methanol and ethanol
reforming
* Chapter 5: Transition metal catalysts for hydrogen production by
low-temperature steam reforming of methane
* Chapter 6: Supercritical water gasification of biomass to produce
hydrogen
* Chapter 7: Biofuels starting materials for hydrogen production
* Chapter 8: Fixed bed membrane reactors for ultrapure hydrogen
production: modelling approach
* Chapter 9: Hydrogen production using micro-membrane reactors
* Chapter 10: Perovskite membrane reactors
* Chapter 11: Polymeric membrane materials for hydrogen separation
* Chapter 12: Industrial membranes for hydrogen separation
* Chapter 13: Multifunctional hybrid sorption-enhanced membrane reactor
* Chapter 14: Carbon-based membranes
* Chapter 15: Separation of hydrogen isotopes by cryogenic distillation