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Elcetromagnetically accelerated magnesium ultramicroparticles formed from a slurry of Mg with argon gas create an altra high reaction surface area reactant as well as catalyst combining that with methane CH4 from natural gas or methane hydrates causes the CH4 to avoid full oxidation which then causes methane methane linkages to create higher molecular mass liquid fuel alkanes The materials are all ultraaffordable as well as situ with magnesium from magnesium chloride at seawater, methane hydrates, argon from air
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What part of the phase diagram is this occurring at
If you think of a floating ultramacroparticulate of magnesium that is ultra active as an ion from the RF electromagnetic energy this could be a fluidized bed or gas.
Also the ultravelocitization described at the handyphone produced images could be a swirl or linear directed like a mass driver moving Mg particles
As a liquid petroleum fuel from methane technology this was originally a different technology, what could move more rapidly than O2 autooxidizing , thus the thought is that EM motionized ultra reactive yet superaffordable metal that would react with the oxygen first
At CH4 to liquid fuel applications the partial oxidation of methane that permits methane to link to methane, some words like methanocation , gel (as compared with aerosol), or carbocationish are conceptual approximations rather than actual quasiaqueous specifics. Varying the ratio of O2 to CH4 would certainly have effects, When using ocean water magnesium, as well as air with methane hydrates, the meaning of things like Magnesium nitrates is unknown.
