Description

Book Synopsis

Written by two leading researchers from the world-renowned Japan Atomic Energy Agency, the Nuclear Hydrogen Production Handbook is an unrivalled overview of current and future prospects for the effective production of hydrogen via nuclear energy. Combining information from scholarly analyses, industrial data, references, and other resources, this handbook illustrates hydrogen's versatility and potential both as a sustainable energy carrier (e.g., fuel for vehicles and power generators) and as a feedstock material for industry (agriculture, oil, chemical, and steel, etc.).

Packed with details about the science, engineering, and production involved in nuclear hydrogen generation, this handbook presents case studies that delve into:

  • Research results of hydrogen development programs sponsored by Japan, Argentina, China, Korea, the US and the EU, among others
  • Operational developments at major nuclear reactors

    Trade Review

    Nuclear hydrogen will be significant for a low carbon society. This book is excellent for the first step.
    —Dr. Yoshimi Okada, Chiyoda Corporation, Japan

    Hydrogen economy as an alternative energy source to reduce CO2 emission has been discussed for decades. The fact that nuclear hydrogen production is now almost reality is not widely known. This handbook gives us the most thorough review of the state of art of nuclear hydrogen, which could be used not only for scientific and technological communities, but also for the potential users to assess its reality.
    —Dr. Toru Ogawa, Japan Atomic Energy Agency, Japan



    Table of Contents

    Section I: Hydrogen and Its Production from Nuclear EnergyThe Role of Hydrogen in the World Economy. Nuclear Hydrogen Production: An Overview.

    Section II: Hydrogen Production MethodsWater Electrolysis. Steam Electrolysis. Thermochemical Decomposition of Water. Conversion of Hydrocarbons. Biomass Method. Radiolysis of Water.

    Section III: Nuclear Hydrogen Production SystemsWater Reactor. High-Temperature Gas Reactor. Sodium Fast Reactor. Gas Fast Reactor. Fluoride Salt Advanced High-Temperature Reactor. STAR-H2: A Pb-Cooled, Long Refueling Interval Reactor. Fusion Reactor Hydrogen Production.

    Section IV: Applied Science and TechnologyHigh-Temperature Electrolysis of Steam. Thermochemical Iodine–Sulfur Process. The Hybrid Sulfur Cycle. Nuclear Coal Gasification. Nuclear Steam Reforming of Methane. Hydrogen Plant Construction and Process Materials. Nuclear Hydrogen Production Process Reactors. Nuclear Hydrogen Production Plant Safety. Nuclear Hydrogen Plant Operations and Products. Licensing Framework for Nuclear Hydrogen Production Plant.

    Section V: Worldwide Research and DevelopmentHydrogen Production and Applications Program in Argentina. Nuclear Hydrogen Production Development in China. European Union Activities on Using Nuclear Power for Hydrogen Production. HTTR-IS Nuclear Hydrogen Demonstration Program in Japan. Nuclear Hydrogen Project in Korea. NGNP and NHI Programs of the U.S. Department of Energy. International Development of Fusion Energy.

    Section VI: AppendicesChemical, Thermodynamic, and Transport Properties of Pure Compounds and Solutions. Thermodynamic and Transport Properties of Coolants for Nuclear Reactors Considered for Hydrogen Production.

Nuclear Hydrogen Production Handbook

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    £237.50

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    RRP £250.00 – you save £12.50 (5%)

    Order before 4pm today for delivery by Thu 16 Jul 2026.

    A Hardback by Xing L. Yan, Ryutaro Hino

    1 in stock

      Trusted by thousands of customers. See 2,385+ Customer Reviews

      View other formats and editions of Nuclear Hydrogen Production Handbook by Xing L. Yan

      Publisher: Taylor & Francis Inc
      Publication Date: 28/03/2011
      ISBN13: 9781439810835, 978-1439810835
      ISBN10: 1439810834

      Description

      Book Synopsis

      Written by two leading researchers from the world-renowned Japan Atomic Energy Agency, the Nuclear Hydrogen Production Handbook is an unrivalled overview of current and future prospects for the effective production of hydrogen via nuclear energy. Combining information from scholarly analyses, industrial data, references, and other resources, this handbook illustrates hydrogen's versatility and potential both as a sustainable energy carrier (e.g., fuel for vehicles and power generators) and as a feedstock material for industry (agriculture, oil, chemical, and steel, etc.).

      Packed with details about the science, engineering, and production involved in nuclear hydrogen generation, this handbook presents case studies that delve into:

      • Research results of hydrogen development programs sponsored by Japan, Argentina, China, Korea, the US and the EU, among others
      • Operational developments at major nuclear reactors

        Trade Review

        Nuclear hydrogen will be significant for a low carbon society. This book is excellent for the first step.
        —Dr. Yoshimi Okada, Chiyoda Corporation, Japan

        Hydrogen economy as an alternative energy source to reduce CO2 emission has been discussed for decades. The fact that nuclear hydrogen production is now almost reality is not widely known. This handbook gives us the most thorough review of the state of art of nuclear hydrogen, which could be used not only for scientific and technological communities, but also for the potential users to assess its reality.
        —Dr. Toru Ogawa, Japan Atomic Energy Agency, Japan



        Table of Contents

        Section I: Hydrogen and Its Production from Nuclear EnergyThe Role of Hydrogen in the World Economy. Nuclear Hydrogen Production: An Overview.

        Section II: Hydrogen Production MethodsWater Electrolysis. Steam Electrolysis. Thermochemical Decomposition of Water. Conversion of Hydrocarbons. Biomass Method. Radiolysis of Water.

        Section III: Nuclear Hydrogen Production SystemsWater Reactor. High-Temperature Gas Reactor. Sodium Fast Reactor. Gas Fast Reactor. Fluoride Salt Advanced High-Temperature Reactor. STAR-H2: A Pb-Cooled, Long Refueling Interval Reactor. Fusion Reactor Hydrogen Production.

        Section IV: Applied Science and TechnologyHigh-Temperature Electrolysis of Steam. Thermochemical Iodine–Sulfur Process. The Hybrid Sulfur Cycle. Nuclear Coal Gasification. Nuclear Steam Reforming of Methane. Hydrogen Plant Construction and Process Materials. Nuclear Hydrogen Production Process Reactors. Nuclear Hydrogen Production Plant Safety. Nuclear Hydrogen Plant Operations and Products. Licensing Framework for Nuclear Hydrogen Production Plant.

        Section V: Worldwide Research and DevelopmentHydrogen Production and Applications Program in Argentina. Nuclear Hydrogen Production Development in China. European Union Activities on Using Nuclear Power for Hydrogen Production. HTTR-IS Nuclear Hydrogen Demonstration Program in Japan. Nuclear Hydrogen Project in Korea. NGNP and NHI Programs of the U.S. Department of Energy. International Development of Fusion Energy.

        Section VI: AppendicesChemical, Thermodynamic, and Transport Properties of Pure Compounds and Solutions. Thermodynamic and Transport Properties of Coolants for Nuclear Reactors Considered for Hydrogen Production.

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