natural gassimulationLarge reserves of natural gas are present in may oil producing countries. Much of it is sour, that is, containing acidic gases (H_2S). Currently, to produce synthesis gas or hydrogen using these sour resources by steam reforming, the gas has to be sulfur-free. Such ...
Currently, natural gas reforming, including steam reforming and steam methane reforming, is a cornerstone of industrial hydrogen production. This process makes use of the extensive natural gas reforming infrastructure already in place—the US produces 95% of its hydrogen this way, and it’s known ...
Most of the worldwide hydrogen production is currently from natural gas, and it is used mainly in refineries, for ammonia production and as a feedstock for synthesis of fuels such as methanol and dimethyl ether. Hydrogen is also being considered an energy carrier and if produced from renewable ...
Production of hydrogen, one of the most promising alternative clean fuels, through catalytic conversion from fossil fuel is the most technically and economically feasible technology. Catalytic conversion of natural gas into hydrogen and carbon is thermodynamically favorable under atmospheric conditions. Howeve...
Enzymic synthesis of formic acid from hydrogen and carbon dioxide and production of hydrogen from formic acid The present invention relates to a method of producing hydrogen gas and carbon dioxide in a catalytic reaction from formic acid, said reaction being conducted in an aqueous solution over a...
Hydrogen (H2), known for its versatility as a clean energy carrier and its potential to revolutionize various sectors, including transportation, electricity generation, and industrial applications. Currently, 95% of H2 production is from fossil fuels with coal and natural gas representing 6% and 2% ...
Osaka Gas Co., Ltd. (“Osaka Gas”) announced its investment in Koloma, Inc. (“Koloma”), a U.S. startup engaged in the exploration, development, and production of natural hydrogen. This strategic investment marks Osaka Gas’ collaboration with Koloma to advance the production and utiliza...
three possible sources: economically advantaged waste heat from industrial sources; combustion of hydrogen or ammonia; and combustion of natural gas. Japan’s road map for its hydrogen future envisages the development of a dehydrogenation technology using waste heat, projecting that the first such ...
A variation of this process is presented in 2009 using, plasma arc waste disposal technology for the production of hydrogen, heat and carbon from methane and natural gas in a plasma converter.[12] 【参考译文】2009年,利用等离子弧废物处理技术在等离子体转换器中从甲烷和天然气生产氢气、热量和碳的工...
Why is green hydrogen production important in Europe? Since Russia’sinvasionof Ukraine, the hydrogen sector has taken on greater importance in Europe. Russia is the world’s second-largest producer of natural gas, which powers most global hydrogen production. With sanctions in place, the European...