Is hydrogen energy production using renewable energy feasible? An explanation from a new perspective on technology, economics, and environmental impact.
Chapter 1: Economic and Environmental Impact Assessment of Hydrogen Production and Utilization from Renewable Energy Section 1: Possibilities and Challenges of Hydrogen Production and Power to Gas Using Domestic Renewable Energy Section 2: Environmental Impacts of Hydrogen Energy Based on Renewable Energy Chapter 2: Hydrogen Production through Thermochemical Methods and Direct Thermal Decomposition Section 1: Research and Development Trends and Future Prospects of Hydrogen Production Technologies Utilizing High-Temperature Solar Concentration Section 2: Hydrogen Production through Effective Utilization of Solar Energy and Superheated Steam Section 3: Direct Production of Hydrogen from Organic Waste Including Biomass Section 4: Hydrogen Production through Gasification of Biomass Section 5: Hydrogen Production from Food Residues Using Biogas Reforming Processes Section 6: Biological Hydrogen Production from Food-Related Organic Waste Chapter 3: Hydrogen Production through Water Electrolysis and Steam Electrolysis Section 1: Hydrogen Production Technology through Steam Electrolysis Section 2: Hydrogen Production through Steam Electrolysis Using Proton-Conducting Oxides Section 3: From Space Exploration to a Hydrogen Utilization Society: Pathways of Contribution Section 4: High-Efficiency Hydrogen Production through Concentrated Solar Cells and Water Electrolysis Section 5: Solar Cell Technology Using Photocatalysts on Both Electrodes with Water as the Medium
Inquire About This Product
basic information
Chapter 4: Hydrogen Production through Artificial Photosynthesis and Photoelectrochemistry Section 1: Hydrogen and Useful Chemical Production via Artificial Photosynthesis Using Semiconductor Photocatalysts and Photoelectrodes Section 2: Light Hydrogen Production Technology that Does Not Require Oxygen Removal Using Porous Glass Devices Section 3: Hydrogen Production from Water Using Nano Carbon Materials Section 4: High-Efficiency Hydrogen Production from Cyanobacteria Section 5: Hydrogen Production by Photosynthetic Bacteria in a Smart Grid System Chapter 5: Hydrogen Separation and Production from Hydrogen Carriers Section 1: Hydrogen Production from Renewable Resources Section 2: High-Pressure Hydrogen Production through Dehydrogenation of Formic Acid Section 3: Hydrogen Production through Electrolysis from Liquid Ammonia
Price information
60,000 Separate consumption tax
Price range
P2
Delivery Time
P2
Applications/Examples of results
**Authors** Yoshiro Shibata / Japan Energy Economics Research Institute Akimitsu Ishihara / Yokohama National University Kenichiro Ota / Yokohama National University Tatsuya Kodama / Niigata University Motoaki Kimura / Nihon University Junya Kano / Tohoku University Kiyoshi Dowaki / Tokyo University of Science Yoshihiro Hirata / Kagoshima University Soichiro Samejima / Kagoshima University Taro Shimonosono / Kagoshima University Toyoshi Nakajimata / Hiroshima University Tatsuki Ishihara / Kyushu University Hiroshige Matsumoto / Kyushu University Ritsushi Sone / Japan Aerospace Exploration Agency Masakazu Sugiyama / The University of Tokyo Yasuo Izumi / Chiba University Kazuhiro Sayama / National Institute of Advanced Industrial Science and Technology Tomoyasu Noji / Osaka City University Masaharu Kondo / Nagoya Institute of Technology Tetsuro Shin / National Institute of Advanced Industrial Science and Technology Yuto Tango / Okayama University Noritake Murakami / Okayama University Kango Ishimoto / Okayama University Tomoyuki Tajima / Okayama University Yutaka Takaguchi / Okayama University Seiji Kitajima / Kanagawa University Hidehiro Sakurai / Kanagawa University Kazuhito Inoue / Kanagawa University Kazuki Masukawa / Osaka City University Jun Miyake / Osaka University Takuma Higo / Waseda University Shuhei Ogawa / Waseda University Yasushi Sekine / Waseda University Masayuki Iguchi / National Institute of Advanced Industrial Science and Technology Yuichiro Himeda / National Institute of Advanced Industrial Science and Technology Hajime Kawanami / National Institute of Advanced Industrial Science and Technology Nobuko Hanada / University of Tsukuba
catalog(2)
Download All Catalogs
![[Web Seminar] Latest Trends and Business Opportunities Surrounding Fuel Cells, Ammonia, and Hydrogen](https://image.mono.ipros.com/public/catalog/image/01/9ef/600712/IPROS34581250675781550425.jpeg?w=120&h=170)
Company information
S&T Publishing publishes technical books aimed at researchers and engineers.