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by kilotaras
651 days ago
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27 tons of iron oxide have a volume of 5m^3 and can be stored in pretty much a hole in the ground. 2.7 tons of hydrogen have a volume of almost exactly 30000 m^3, requiring storing it under high pressure in specialized containers. Hydrogen is famous for being hard to store without losses. For long-term storage storage and losses are a problem. > But the round-trip efficiency of the tank is virtually 100%. The efficiency of the iron-based storage is only 50% Maybe I'm missing something, but why? As you mentioned it takes 29kj to restore 3 moles of H2 out of (3 moles of H20 + 1 mole of Fe2O3). Where does 50% comes from? |
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the efficiency is super low, but again, according to the paper, "most of the energy input was due to thermal losses at the reactor surface (83.9%)", which also benefits from square/cube law.
[0] https://pubs.rsc.org/en/content/articlelanding/2024/se/d3se0...