Japan
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Japan Atomic Energy Agency (JAEA) has been promoting R&D on the hydrogen production technology with a high temperature gas-cooled reactor (HTGR) with a view to contributing to the global warming issue and hydrogen energy society in the near future.
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Hydrogen is a most promising energy carrier to replace hydrocarbons as fuel sources, in particular for transport, with respect to lower greenhouse gases emissions. To provide massive hydrogen in a sustainable manner, the CEA has worked on high ...
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Work is currently underway to define a pre-conceptual design of a Hydrogen Production Plant. As a reference case, a VHTR is dedicated to Hydrogen production using the Sulphur-Iodine process. The chemical part of the plant is based on a reference ...
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As part of the Hydrogen Fuel Initiative proposed by President George W. Bush in 2003, the Nuclear Hydrogen Initiative is developing technologies to provide large amounts of hydrogen without pollution or greenhouse gases.
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World energy demand will grow substantially over the next fifty years. With that energy growth will come increasing demands on limited traditional fossil fuels and on a fragile environment already seeing the effects of man-made greenhouse gas ...
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For electricity and hydrogen production, the advanced reactor technology receiving the most international interest is a modular, passively-safe version of the high-temperature, helium-cooled reactor referred to in the United States as the modular ...
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It is universally recognised that hydrogen is one of the best energy media and its demand will increase greatly in the near future. However, since little hydrogen exists naturally, it is necessary to develop suitable technology to produce hydrogen ...
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The MICHELANGELO Network (MICANET) was started within the 5th EURATOM Framework Programme (FP5) with the objective to elaborate a general European R&D strategy for the further development of the nuclear industry both in short, medium, and long term.
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The measures toward Hydrogen Energy Society are described in the “Basic Energy Plan” (October 2003), in which nuclear hydrogen production is expected as a process which suppresses carbon dioxide emission to the utmost and is independent from fossil ...
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While Canada is one of the charter signatories of the International Partnership for the Hydrogen Economy, its national programme of R&D is still being defined. With awareness of what the national program will likely include and on the premise that ...
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The paper reviews the methods of producing or upgrading the energy carriers utilizing fossil fuels and nuclear energy, individually or synergistically, for the 21st century when the best-mixed supplies of available primary energies are crucial.
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As growing demand for energy has prompted an increasing use of fossil fuels, the resulting issue of climate change has in turn led to renewed interest in the use of hydrogen as an energy carrier. Currently, hydrogen is mainly manufactured by ...
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Japan Atomic Energy Agency has undertaken an extensive design study of gas turbine high temperature reactor, named the GTHTR300. A design philosophy of system simplicity, economical competitiveness, and originality has enabled the evolution of a ...
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Today, hydrogen is used primarily in the petroleum and petrochemical industries. The dominant technology to produce hydrogen is steam methane reforming (SMR), which uses natural gas as both feedstock and fuel. Hydrogen could become a major carrier ...
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