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(Ebook PDF) Proton Exchange Membrane Fuel Cells Electrochemical Methods and Computational Fluid Dynamics 1st Edition by Inamuddin, Omid Moradi, Mohd Imran Ahamed isbn 9781119829539 1119829534 full chapters

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Proton Exchange Membrane Fuel Cells Inamuddin Digital Instant Download

Author(s): Inamuddin, Omid Moradi, Mohd Imran Ahamed
ISBN(s): 9781119829331, 111982933X
File Details: PDF, 39.09 MB
Year: 2023
Language: English
SKU: EB-49118012 Category: Tags: , ,

(Ebook PDF) Proton Exchange Membrane Fuel Cells Electrochemical Methods and Computational Fluid Dynamics 1st Edition by Inamuddin, Omid Moradi, Mohd Imran Ahamed -Ebook PDF Instant Download/Delivery:9781119829539, 1119829534

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ISBN 10:1119829534

ISBN 13:9781119829539

Author: Inamuddin, Omid Moradi, Mohd Imran Ahamed

PROTON EXCHANGE MEMBRANE FUEL CELLS

Edited by one of the most well-respected and prolific engineers in the world and his team, this book provides a comprehensive overview of hydrogen production, conversion, and storage, offering the scientific literature a comprehensive coverage of this important fuel.

Proton exchange membrane fuel cells (PEMFCs) are among the most anticipated stationary clean energy devices in renewable and alternative energy. Despite the appreciable improvement in their cost and durability, which are the two major commercialization barriers, their availability has not matched demand. This is mainly due to the use of expensive metal-catalyst, less durable membranes, and poor insight into the ongoing phenomena inside proton exchange membrane fuel cells. Efforts are being made to optimize the use of precious metals as catalyst layers or find alternatives that can be durable for more than 5000 hours.

Computational models are also being developed and studied to get an insight into the shortcomings and provide solutions. The announcement by various companies that they will be producing proton exchange membrane fuel cells-based cars by 2025 has accelerated the current research on proton exchange membrane fuel cells. The breakthrough is urgently needed. The membranes, catalysts, polymer electrolytes, and especially the understanding of diffusion layers, need thorough revision and improvement to achieve the target. This exciting breakthrough volume explores these challenges and offers solutions for the industry. Whether for the student, veteran engineer, new hire, or other industry professionals, this is a must-have for any library.

Table of Contents:

  • 1 Stationary and Portable Applications of Proton Exchange Membrane Fuel Cells
  • 1.1 Introduction
  • 1.2 Proton Exchange Membrane Fuel Cells
  • 1.3 Conclusion and Future Perspective
  • References
  • 2 Graphene-Based Membranes for Proton Exchange Membrane Fuel Cells
  • 2.1 Introduction
  • 2.2 Membranes
  • 2.3 Graphene: A Proton Exchange Membrane
  • 2.4 Synthesis of GO Composite Membranes
  • 2.5 Graphene Oxide in Fuel Cells
  • 2.6 Characterization Techniques of GO Composite Membranes
  • 2.7 Conclusion
  • References
  • 3 Graphene Nanocomposites as Promising Membranes for Proton Exchange Membrane Fuel Cells
  • 3.1 Introduction
  • 3.2 Recent Kinds of Fuel Cells
  • 3.3 Conclusion
  • Acknowledgements
  • References
  • 4 Carbon Nanotube–Based Membranes for Proton Exchange Membrane Fuel Cells
  • 4.1 Introduction
  • 4.2 Overview of Carbon Nanotube–Based Membranes PEM Cells
  • References
  • 5 Nanocomposite Membranes for Proton Exchange Membrane Fuel Cells
  • 5.1 Introduction
  • 5.2 Nanocomposite Membranes for PEMFC
  • 5.3 Evaluation Methods of Proton Exchange Membrane Properties
  • 5.4 Nafion-Based Membrane
  • 5.5 Poly(Benzimidazole)–Based Membrane
  • 5.6 Sulfonated Poly(Ether Ether Ketone)–Based Membranes
  • 5.7 Poly(Vinyl Alcohol)–Based Membranes
  • 5.8 Sulfonated Polysulfone–Based Membranes
  • 5.9 Chitosan-Based Membranes
  • 5.10 Conclusions
  • References
  • 6 Organic-Inorganic Composite Membranes for Proton Exchange Membrane Fuel Cells
  • 6.1 Introduction
  • 6.2 Proton Exchange Membrane Fuel Cell
  • 6.3 Proton Exchange Membrane
  • 6.4 Research Progress of Organic-Inorganic Composite PEM
  • 6.5 Conclusion and Prospection
  • Acknowledgments
  • Conflict of Interest
  • References
  • 7 Thermoset-Based Composite Bipolar Plates in Proton Exchange Membrane Fuel Cell
  • 7.1 Introduction
  • 7.2 Theories of Electrical Conductivity in Polymer Composites
  • 7.3 Matrix and Fillers
  • 7.4 The Manufacturing Process of Thermoset-Based Composite BPs
  • 7.5 Effect of Processing Parameters on the Properties Thermoset-Based Composite BPs
  • 7.6 Effect of Polymer Type, Filler Type, and Composition on Properties of Thermoset Composite BPs
  • 7.7 Testing and Characterization of Polymer Composite-Based BPs
  • 7.8 Conclusions
  • Abbreviations
  • References
  • 8 Metal-Organic Framework Membranes for Proton Exchange Membrane Fuel Cells
  • 8.1 Introduction
  • 8.2 Aluminium Containing MOFs for PEMFCs
  • 8.3 Chromium Containing MOFs for PEMFCs
  • 8.4 Copper Containing MOFs for PEMFCs
  • 8.5 Cobalt Containing MOFs for PEMFCs
  • 8.6 Iron Containing MOFs for PEMFCs
  • 8.7 Nickel Containing MOFs for PEMFCs
  • 8.8 Platinum Containing MOFs for PEMFCs
  • 8.9 Zinc Containing MOFs for PEMFCs
  • 8.10 Zirconium Containing MOFs for PEMFCs
  • 8.11 Conclusions and Future Prospects
  • 9 Fluorinated Membrane Materials for Proton Exchange Membrane Fuel Cells
  • Abbreviations
  • 9.1 Introduction
  • 9.2 Fluorinated Polymeric Materials for PEMFCs
  • 9.3 Poly(Bibenzimidazole)/Silica Hybrid Membrane
  • 9.4 Poly(Bibenzimidazole) Copolymers Containing Fluorine-Siloxane Membrane
  • 9.5 Sulfonated Fluorinated Poly(Arylene Ethers)
  • 9.6 Fluorinated Sulfonated Polytriazoles
  • 9.7 Fluorinated Polybenzoxazole (6F-PBO)
  • 9.8 Poly(Bibenzimidazole) With Poly(Vinylidene Fluoride-Co-Hexafluoro Propylene)
  • 9.9 Fluorinated Poly(Arylene Ether Ketones)
  • 9.10 Fluorinated Sulfonated Poly(Arylene Ether Sulfone) (6FBPAQSH-XX)
  • 9.11 Fluorinated Poly(Aryl Ether Sulfone) Membranes Cross-Linked Sulfonated Oligomer (c-SPFAES)
  • 9.12 Sulfonated Poly(Arylene Biphenylether Sulfone)-Poly(Arylene Ether) (SPABES-PAE)
  • 9.13 Conclusion
  • Conflicts of Interest
  • Acknowledgements
  • References
  • 10 Membrane Materials in Proton Exchange Membrane Fuel Cells (PEMFCs)
  • 10.1 Introduction
  • 10.2 Fuel Cell: Definition and Classification
  • 10.3 Historical Background of Fuel Cell
  • 10.4 Fuel Cell Applications
  • 10.5 Comparison between Fuel Cells and Other Methods
  • 10.6 PEMFCs: Description and Characterization
  • 10.7 Membrane Materials for PEMFC
  • 10.8 Conclusions
  • References
  • 11 Nafion-Based Membranes for Proton Exchange Membrane Fuel Cells
  • 11.1 Introduction: Background
  • 11.2 Physical Properties
  • 11.3 Nafion Structure
  • 11.4 Water Uptake
  • 11.5 Protonic Conductivity
  • 11.6 Water Transport
  • 11.7 Gas Permeation
  • 11.8 Final Comments
  • Acknowledgements
  • References
  • 12 Solid Polymer Electrolytes for Proton Exchange Membrane Fuel Cells
  • 12.1 Introduction
  • 12.2 Type of Fuel Cells
  • 12.2.1 Alkaline Fuel Cells
  • 12.3 Basic Properties of PEMFC
  • 12.4 Classification of Solid Polymer Electrolyte Membranes for PEMFC
  • 12.5 Applications
  • 12.6 Conclusions
  • References
  • 13 Computational Fluid Dynamics Simulation of Transport Phenomena in Proton Exchange Membrane Fuel Cells
  • 13.1 Introduction
  • 13.2 PEMFC Simulation and Mathematical Modeling
  • 13.3 The Solution Procedures
  • 13.4 Conclusions

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Inamuddin,Omid Moradi,Mohd Imran Ahamed,Proton,Membrane Fuel Cells,Electrochemical Methods,Computational Fluid Dynamics

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