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Technologies: Difference between revisions
+ === Plastics-to-fuel === + Researchers from Purdue University have developed a technology entitled 'Use of Supercritical Water for the Liquefaction of Polypropylene into Oil' that works on polyolefin waste, the sort of plastic used for grocery bags, toys, and shrink wrap...
(+ === Hydrogen panels === + Researchers from w:KU Leuven, Belgium have created hydrogen panels, that convert water vapor to hydrogen and oxygen using sunlight. + link to KU Leuven News) |
(+ === Plastics-to-fuel === + Researchers from Purdue University have developed a technology entitled 'Use of Supercritical Water for the Liquefaction of Polypropylene into Oil' that works on polyolefin waste, the sort of plastic used for grocery bags, toys, and shrink wrap...) |
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== Hydrogen purified steel == | === Hydrogen purified steel === | ||
'''HYBRIT''' is an abbreviation of '''HY'''drogen '''BR'''eakthrough '''I'''ronmaking '''T'''echnology, where iron for steel making is not purified by a process called coking, but instead using massive amounts of hydrogen to purify it. | '''HYBRIT''' is an abbreviation of '''HY'''drogen '''BR'''eakthrough '''I'''ronmaking '''T'''echnology, where iron for steel making is not purified by a process called coking, but instead using massive amounts of hydrogen to purify it. | ||
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== Food from air and electricity == | == Food from air and electricity == | ||
In Finland Solar Foods Ltd. has demonstrated making protein called Solein with renewable electricity and CO2 as raw material and are building their first real plant soon. | In Finland Solar Foods Ltd. has demonstrated making protein called Solein with renewable electricity and CO2 as raw material and are building their first real plant soon. | ||
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== CO2 capture == | == CO2 capture == | ||
CO2 capture can refer to capturing CO2 from an industrial process or just grabbing it from air. | CO2 capture can refer to capturing CO2 from an industrial process or just grabbing it from air. | ||
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== Power-to-gas == | == Power-to-gas == | ||
Power-to-gas technologies are advancing. Power-to-gas involves energy losses in the conversion, but the power of gaseous energy that it is much cheaper to store than electricity, plus the distribution networks largely exist already. | Power-to-gas technologies are advancing. Power-to-gas involves energy losses in the conversion, but the power of gaseous energy that it is much cheaper to store than electricity, plus the distribution networks largely exist already. | ||
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* [https://www.scientificamerican.com/article/europe-stores-electricity-in-gas-pipes/ Scientific American article 'Europe Stores Electricity in Gas Pipes'] | * [https://www.scientificamerican.com/article/europe-stores-electricity-in-gas-pipes/ Scientific American article 'Europe Stores Electricity in Gas Pipes'] | ||
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== Recycling tech == | |||
=== Plastics-to-fuel === | |||
Researchers from [[w:Purdue University|Purdue University]] have developed [https://pubs.acs.org/doi/10.1021/acssuschemeng.8b03841 a technology entitled 'Use of Supercritical Water for the Liquefaction of Polypropylene into Oil'] that works on [[w:polyolefin|polyolefin]] waste, the sort of plastic used for [[w:grocery bag|grocery bag]]s, [[w:toy|toy]]s, and [[w:shrink wrap|shrink wrap]]. This sort of plastic accounts for about 23% of [[w:plastic waste|plastic waste]], according to researchers who describe the process in a paper published in Sustainable Chemistry and Engineering, a publication of the [[w:American Chemical Society|American Chemical Society]]. The new technique uses a process called [[w:hydrothermal liquefaction|hydrothermal liquefaction]], in which very high temperatures melt pellets of polyolefin and then dissolve them in [[w:water|water]]. The by-products of this process are [[w:oil|oil]], [[w:gas|gas]], or [[w:solvent|solvent]]s.<ref>https://www.technologyreview.com/f/612935/a-new-chemical-process-could-turn-a-quarter-of-our-plastic-waste-into-clean-fuel/</ref> | |||
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== Hemp tech == | == Hemp tech == | ||