The Perfect Blend: Optimizing Gas Mixtures for Hydrogen Storage in Clathrate Hydrates
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Scientists find optimal hydrogen-natural gas blend to trap hydrogen in cage-like molecules more effectively
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GWANGJU, South Korea, May 18, 2021 /PRNewswire/ -- In our ongoing quest to transform into a more eco-friendly society, hydrogen (H2) is heralded as the clean fuel of tomorrow. Because H2 can be produced from water (H2O) without generating carbon emissions, developing H2-compatible technologies has become a top priority. However, the road ahead is bumpy, and many technical limitations must be ironed out. "Hydrogen is the smallest molecule in nature, and finding feasible ways to store it is a critical issue to realize a hydrogen economy," states Associate Professor Youngjune Park from the Gwangju Institute of Science and Technology (GIST) in Korea. Unlike hydrocarbons, pure H2 must be stored at an extremely high pressure (>100 atmospheres) or low temperature (−20 °C). Naturally, this represents a huge economic barrier for H2 storage. But what if we could trap H2 inside ice-like crystals to make storage and transportation less demanding?
These molecular cages exist in nature and are called 'clathrate hydrates.' They are solid water-based compounds with cavities that can accommodate various molecules. Dr. Park's group at GIST has been researching the use of clathrate hydrates as vessels for H2 storage. However, the enclathration of pure H2 is still a slow process that also requires extreme temperature and pressure conditions.
In a recent study published in Renewable and Sustainable Energy Reviews, Dr. Park's group explored a feasible solution to this problem. Instead of trying to form clathrate hydrates out of pure H2, previous researchers have suggested mixing it with natural gas, which was experimentally shown to promote enclathration at milder conditions. To improve upon this strategy, the team of GIST scientists set out to find the best hydrogen–natural gas blend (HNGB) for the energy-efficient formation of clathrate hydrates. To this end, they systematically investigated clathrate hydrates produced from HNGBs with different concentrations of methane, ethane, and hydrogen. They carefully analyzed the clathrate formation kinetics and structure and the distribution of trapped molecules.
The team was able to identify the precise gas concentrations at which point methane and ethane, acting as thermodynamic modulators, best enhance the H2 storage capacity of HNGB hydrates. Even at moderate pressure and temperature conditions (
Dr. Park observes, "Clathrate hydrates and HNGBs could provide a reasonable mid-term solution for storing what is known as 'blue' hydrogen, which is hydrogen produced using fossil fuel-based technology but with minimal CO2 emissions." Today, blue hydrogen is three times cheaper to produce than eco-friendly 'green' hydrogen. Therefore, the results of this study may help ease the gradual transition away from fossil fuels towards hydrogen, which is our key to a sustainable future.
Title of original paper:
Critical hydrogen concentration of hydrogen-natural gas blends in clathrate hydrates for blue hydrogen storage
Renewable and Sustainable Energy Reviews
About Gwangju Institute of Science and Technology (GIST) Website: http://www.gist.ac.kr/
About the authorYoungjune Park is an Associate Professor of the School of Earth Sciences and Environmental Engineering at GIST.
Contact:Nayeong Lee82 62 715 2114 firstname.lastname@example.org
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SOURCE Gwangju Institute of Science and Technology
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