Remove Coal Remove Conversion Remove Hydrogen Remove Low Cost
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Researchers use chemical looping process to produce hydrogen from hydrogen sulfide gas

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Researchers at The Ohio State University have used a chemical looping process to produce hydrogen from hydrogen sulfide gas—commonly called “sewer gas”. Hydrogen sulfide is emitted from manure piles and sewer pipes and is a key byproduct of industrial activities including refining oil and gas, producing paper and mining.

Hydrogen 425
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Transform Materials plasma process converts abundant natural gas into high-value hydrogen and acetylene

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Transform Materials has developed a novel and sustainable microwave plasma reactor process to convert natural gas into high-value hydrogen and acetylene, thereby opening up a new pathway for green chemical manufacturing. Acetylene can be then converted into many derivative chemicals, all possessing high value.

Convert 395
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SK E&S, SK Plug Hyverse partner with Korea South-East Power for green hydrogen & green ammonia production

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SK E&S and SK Plug Hyverse—a joint venture (JV) formed in January of this year by SK E&S and Plug Power—will work with Korea Southeast Power Generation (KOEN) to cooperate with green hydrogen and green ammonia projects based on renewable energy resources in Korea and abroad.

Green 284
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Researchers use melamine to create effective, low-cost carbon capture; potential tailpipe application

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UC Berkeley chemists created the first such carbon-capture MOF in 2015, and subsequent versions have proved even more efficient at removing carbon dioxide from flue gases, such as those from a coal-fired power plant. The low cost of porous melamine means that the material could be deployed widely.

Low Cost 243
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DOE awarding about $16M to four projects for advanced gasification systems; focus on coal

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Awardees will receive approximately $16 million to advance the gasification process, which converts carbon-based materials such as coal into syngas for use as power, chemicals, hydrogen, and transportation fuels. Advanced Gasifier and Water-Gas Shift Technologies for Low-Cost Coal Conversion to High-Hydrogen Syngas.

Coal 218
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Stanford GCEP awards $6.6M to 7 projects; focus on combining energy conversion with carbon-neutral fuel production

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million to seven research teams—six from Stanford and one from Carnegie Mellon University—to advance research on technologies for renewable energy conversion to electricity or fuels and for capturing CO 2 emissions and converting CO 2 to fuels. Stanford’s Global Climate and Energy Project (GCEP) is awarding $6.6

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UK to award £54M to 15 projects developing innovative carbon removal technology

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The money will help projects further develop their greenhouse gas removal technologies, which include a machine that can pull carbon dioxide out of the air, a plant to convert household waste into hydrogen for use in the transport industry, and a system to remove carbon dioxide from seawater. by 2050. : Carbon Capture and Hydrogen”.

Carbon 305