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by chimere
2652 days ago
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(Charm Co-founder here) Certainly - you're effectively describing biochar (https://en.wikipedia.org/wiki/Biochar) which historically has been used as both an energy source and a soil amendment. Using it as a sequestration method has gained some attention recently, though I have reservations. For one, biochar is typically produced in small, low-efficiency reactors without proper emissions control (though this is solvable). The bigger issue is the high energy content of biochar (~30MJ/kg). Simply burying all of this energy isn't economical - it makes much more sense to store carbon in its oxidized state, and sell the energy that's released in the process (in various forms - we're starting with Hydrogen). |
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The latest research seems to show that done properly, biochar can improve crop yields substantially, so that could be a way to pay for the process, but the other aspect is that it can be produced in a very low-tech manner, which is almost certainly the situation in many or most parts of the world.
How are you planning 'geological carbon dioxide sequestration'? I'm not sure of the chemistry/process, but is burning the charcoal completely actually necessary to produce hydrogen? It seems not, to me. The cynical view of course is that you will omit the costly sequestration step, which makes this just another biofuel endeavor, with the attendant pros, and, mainly (IMHO), cons...