It doesn't take very much power (watts) to heat a small volume to 3000 degrees. Consider a incandescent penlight powered by a single AAA battery. The bulb might be well under 1 watt, but the filament gets to around 4000-5000°F.
I'm interested in total power coming from the burning hydrogen. So far to me it just looks like a fancy electrolysis set up with the released hydrogen burning immediately.
I’m interested in total power coming from the burning hydrogen. So far to me it just looks like a fancy electrolysis set up with the released hydrogen burning immediately.
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I don’t think that’s whats happening. Rather the RF is tuned to the atomic frequency of platinum ie its creating a “synthetic” catalyst. The water is fooled into “thinking” that platinum is in the water. That destabilizes the water. The role of the Na in the process is much like any metal in a microwave. It gets hot fast. Na is a heat sink. The high heat is what cracks out the H2 from destabilized H20 molecule. The process is not greatly dissimilar to what happens in carbon steam reformation.