Sound vibrations turbo charge green hydrogen production
Engineers in Melbourne have used sound waves to boost production of green hydrogen by 14 times, through electrolysis to split water.
Dec 12, 2022
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Engineers in Melbourne have used sound waves to boost production of green hydrogen by 14 times, through electrolysis to split water.
Dec 12, 2022
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A team of researchers affiliated with multiple institutions in China has developed a type of electrolysis that works with native seawater and does not have side-reactions or corrosion problems. In their study, published in ...
Seawater could be the perfect stockfeed for sustainable fuel: it is renewable, abundant, economic and contains exactly the right ingredients to produce high-quality hydrogen. The drawback is that it contains less-desirable ...
Sep 21, 2022
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Researchers at the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences (CAS) have proposed a pulsed current strategy to monitor the intermittency of renewable energy, proving ...
Aug 17, 2022
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As one of the world's leading economies, Indonesia has announced an ambitious plan to build a green industrial park in North Kalimantan.
Jan 17, 2022
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In a recent Nature Communications paper, a group of researchers led by Dr. Ning Yan of the Van 't Hoff Institute for Molecular Sciences at the University of Amsterdam showcases a practical membrane-free approach to water ...
Jul 15, 2021
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For decades, researchers have been working toward mitigating excess atmospheric carbon dioxide (CO2) emissions. One promising approach captures atmospheric CO2 and then, through CO2 electrolysis, converts it into value-added ...
Jun 30, 2021
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Researchers at the University Of Liverpool, in collaboration with NUI Galway and TU Berlin, have identified the key technological and scientific challenges of producing hydrogen through seawater electrolysis.
Feb 19, 2020
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In chemistry and manufacturing, electrolysis (pronounced /iˌlɛkˈtrɒlɨsɪs/, from the Greek ἤλεκτρον [ɛ̌ːlektron] "amber" and λύσις [lýsis] "dissolution") is a method of using a direct electric current (DC) to drive an otherwise non-spontaneous chemical reaction. Electrolysis is commercially highly important as a stage in the separation of elements from naturally occurring sources such as ores using an electrolytic cell.
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