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Hydrogen safety

About: Hydrogen safety is a research topic. Over the lifetime, 428 publications have been published within this topic receiving 9509 citations.


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01 Mar 2003
TL;DR: In this article, the authors present a survey of fuel cell technologies and applications, focusing on hydrogen storage, hydrogen generation, and other energy conversion related topics, as well as their applications.
Abstract: VOLUME 1: FUNDAMENTALS AND SURVEY OF SYSTEMS. Contributors to Volume 1. Foreword. Preface. Abbreviations and Acronyms. Part 1: Thermodynamics and kinetics of fuel cell reactions. Part 2: Mass transfer in fuel cells. Part 3: Heat transfer in fuel cells. Part 4: Fuel cell principles, systems and applications. Contents for Volumes 2, 3 and 4. Subject Index. VOLUME 2: ELECTROCATALYSIS. Contributors to Volume 2. Foreword. Preface. Abbreviations and Acronyms. Part 1: Introduction. Part 2: Theory of electrocatalysis. Part 3: Methods in electrocatalysis. Part 4: The hydrogen oxidation/evolution reaction. Part 5: The oxygen reduction/evolution reaction. Part 6: Oxidation of small organic molecules. Part 7: Other energy conversion related topics. Contents for Volumes 1, 3 and 4. Subject Index. VOLUME 3: FUEL CELL TECHNOLOGY AND APPLICATIONS: PART 1. Contributors to Volumes 3 and 4. Foreword. Preface. Abbreviations and Acronyms. Part 1: Sustainable energy supply. Part 2: Hydrogen storage and hydrogen generation. Development prospects for hydrogen storage. Chemical hydrogen storage devices. Reforming of methanol and fuel processor development. Fuel processing from hydrocarbons to hydrogen. Well-to-wheel efficiencies. Hydrogen safety, codes and standards. Part 3: Polymer electrolyte membrane fuel cell systems (PEMFC). Bipolar plate materials and flow field design. Membrane materials. Electro-catalysts. Membrane-electrode-assembly (MEA). State-of-the-art performance and durability. VOLUME 4: FUEL CELL TECHNOLOGY AND APPLICATIONS, PART 2. Contributors to Volume 3 and 4. Foreword. Preface. Abbreviations and Acronyms. Part 3: Polymer electrolyte membrane fuel cells and systems (PEMFC) (Continued from previous volume). System design and system-specific aspects. Air-supply components. Applications based on PEM-technology. Part 4: Alkaline fuel cells and systems (AFC). Part 5: Phosphoric acid fuel cells and systems (PAFC). Part 6: Direct methanol fuel cells and systems (DMFC). Part 7: Molten carbonate fuel cells and systems (MCFC). Part 8: Solid oxide fuel cells and systems (SOFC). Materials. Stack and system design. New concepts. Part 9: Primary and secondary metal/air cells. Part 10: Portable fuel cell systems. Part 11: Current fuel cell propulsion systems. PEM fuel cell systems for cars/buses. PEM fuel cell systems for submarines. AFC fuel cell systems. Part 12: Electric utility fuel cell systems. Part 13: Future prospects of fuel cell systems. Contents for Volumes 1 and 2. Subject Index.

2,917 citations

Journal ArticleDOI
Jinyang Zheng1, Xianxin Liu1, Ping Xu1, Pengfei Liu1, Yongzhi Zhao1, Jian Yang1 
TL;DR: In this paper, the authors reviewed the recent progress toward low-cost, large capacity and light-weight on high pressure gaseous hydrogen storage vessels and proposed some suggestions on the further research.

409 citations

Journal ArticleDOI
TL;DR: Although there are many commercial sensors, most can be classified into relatively few specific sensor types, each specific platform has characteristic analytical trends, advantages, and limitations that can guide the selection of the optimal technology for a specific application.

391 citations

Journal ArticleDOI
TL;DR: The discussion of hydrogen safety in automotive put in evidence the needs for sophisticated sensors, but a comparison with the safety of gasoline and fire risks, evidences that some common incertitudes on hydrogen usage should be overcome.

323 citations

Reference BookDOI
30 Jul 2008
TL;DR: In this article, Pant et al. present an aid for the development of Viable Onboard Hydrogen Storage Technologies (OVST) technologies, which can be used to produce hydrogen as a fuel.
Abstract: Production and Use of Hydrogen Fundamentals and Use of Hydrogen as a Fuel KK Pant and Ram B Gupta Production of Hydrogen from Hydrocarbons Nazim Z Muradov Hydrogen Production from Coal Shi-Ying Lin Hydrogen Production from Nuclear Energy Ryutaro Hino and Xing L Yan Hydrogen Production from Wind Energy Dimitrios A Bechrakis and Elli Varkaraki Sustainable Hydrogen Production from Biomass by Thermochemical Process W de Jong Use of Solar Energy to Produce Hydrogen Neelkanth G Dhere and Rajani S Bennur Hydrogen Separation and Purification Ashok Damle Transportation and Storage of Hydrogen Targets for Onboard Hydrogen Storage Systems: An Aid for the Development of Viable Onboard Hydrogen Storage Technologies Sunita Satyapal and George J Thomas Hydrogen Transmission in Pipelines and Storage in Pressurized and Cryogenic Tanks Ming Gao and Ravi Krishnamurthy Hydrogen Storage in Metal Hydrides KK Pant and Ram B Gupta Hydrogen Storage in Carbon Materials KK Pant and Ram B Gupta Hydrogen Storage in Organic Chemical Hydrides on the Basis of Superheated Liquid-Film Concept Shinya Hodoshima and Yasukazu Saito Safety and Environmental Aspects of Hydrogen Fuel Hydrogen Codes and Standards James M Ohi Hydrogen Sensing and Detection Prabhu Soundarrajan and Frank Schweighardt Hydrogen Safety Fotis Rigas and Spyros Sklavounos Carbon Sequestration Ah-Hyung Alissa Park, Klaus S Lackner, and Liang-Shih Fan Index

316 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
20221
202130
202020
201920
201822
201735