UID:
almahu_9948177994402882
Format:
468 p. ;
,
20 x 27cm.
ISBN:
9789264087156
Series Statement:
Nuclear Science,
Content:
Hydrogen has the potential to play an important role as a sustainable and environmentally acceptable energy carrier in the 21st century. This report describes the scientific and technical challenges associated with the production of hydrogen using heat and/or electricity from nuclear power plants, with special emphasis on recent developments in high-temperature electrolysis and the use of different chemical thermodynamic processes. Economics and market analysis as well as safety aspects of the nuclear production of hydrogen are also discussed.
Note:
The development of the Hydrogen Economic Evaluation Program (HEEP) -- Use of PSA for design of emergency mitigation systems in a hydrogen production plant using General Atomics SI cycle technology. Section II: Sulphuric acid decomposition -- The concept of nuclear hydrogen production based on MHR-T reactor -- Application of nuclear-produced hydrogen for energy and industrial use -- Status of the Korean nuclear hydrogen production project -- Predicting the energy efficiency of a recuperative bayonet decomposition reactor for sulphur-based thermochemical hydrogen production -- Nuclear H2 production – a utility perspective -- Heat pump cycle by hydrogen-absorbing alloys to assist high-temperature gas-cooled reactor in producing hydrogen -- Status of the INL high-temperature electrolysis research programme – experimental and modelling -- Development of HI decomposition process in Korea -- Alkaline and high-temperature electrolysis for nuclear hydrogen production -- Heat exchanger temperature response for duty-cycle transients in the NGNP/HTE -- Present status of HTGR and hydrogen production development in JAEA -- High-temperature steam electrolysis for hydrogen production -- South Africa's nuclear hydrogen production development programme -- French research strategy to use nuclear reactors for hydrogen production -- The production of hydrogen by nuclear and solar heat -- Alternate VHTR/HTE interface for mitigating tritium transport and structure creep -- Materials development for SOEC -- Integrated laboratory scale demonstration experiment of the hybrid sulphur cycle and preliminary scale-up -- Sustainable electricity supply in the world by 2050 for economic growth and automotive fuel -- Activities of Nuclear Research Institute Rez in the area of hydrogen technologies -- Nuclear hydrogen production programme in the United States -- A metallic seal for high-temperature electrolysis stacks -- A uranium thermochemical cycle for hydrogen production -- Development status of the hybrid sulphur thermochemical hydrogen production process -- NHI economic analysis of candidate nuclear hydrogen processes -- Changing the world with hydrogen and nuclear -- Executive summary -- Degradation mechanisms in solid oxide electrolysis anodes -- Recent Canadian advances in the thermochemical Cu-Cl cycle for nuclear hydrogen production -- Market viability of nuclear hydrogen technologies -- Possibility of active carbon recycle energy system -- Causes of degradation in a solid oxide electrolysis stack -- An overview of R&D activities for the Cu-Cl cycle with emphasis on the hydrolysis reaction -- Foreword -- Nuclear safety and regulatory considerations for nuclear hydrogen production -- Nuclear hydrogen using high temperature electrolysis and light water reactors for peak electricity production -- Study of the hydrolysis reaction of the copper-chloride hybrid thermochemical cycle using optical spectrometries -- Development of CuCl-HCl electrolysis for hydrogen production via Cu-Cl thermochemical cycle -- CEA assessment of the sulphur-iodine cycle for hydrogen production -- Transient modelling of sulphur-iodine cycle thermochemical hydrogen generation coupled to pebble bed modular reactor -- Proposed chemical plant initiated accident scenarios in a sulphur-iodine cycle plant coupled to a pebble bed modular reactor -- Exergy analysis of the Cu-Cl cycle -- Canadian nuclear hydrogen R&D programme -- Status of the INERI sulphur-iodine integrated-loop experiment -- Influence of HTR core inlet and outlet temperatures on hydrogen generation efficiency using the sulphur-iodine water-splitting cycle -- CaBr2 hydrolysis for HBr production using a direct sparging contactor -- Conceptual design of the HTTR-IS nuclear hydrogen production system -- Experimental study of the vapour-liquid equilibria of HI-I2-H2O ternary mixtures.
Language:
English
Subjects:
Engineering
Keywords:
Konferenzschrift
;
Konferenzschrift
URL:
https://doi.org/10.1787/9789264087156-en
