Pleasure discussing this with you, yes many years have gone by since this was observed in the lab. I'll bet George Gamow knows a lot more on the subject now.
GAR
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- Member since Feb 25th 2015
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Posts by GAR
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The NiO was a suspension of the green oxide in amyl acetate/acetone with nitrocellulose binder. Ball milled to micron dimensions and soaked into the fiberFrax that had been clean hydrogen and vacuum fired at ~1000 deg C.
The green color of the fiberFrax material did not change after the meltdown. I don't suspect nickel oxidation/reduction being involved in the thermal output. X-ray fluorescence analyses did not show the presence of any new elements. Not surprising with the sensitivity of my analyzer.
Also gas chromatography indicated that 99.9999% hydrogen went into the reactor with no change in purity.
Very frustrating to not have instruments with sensitivity to reveal what's going on.All I've done is confirm what others have also found, that NiO will produce energy from hydrogen when heated to 830 deg C. Probably every star out there is doing the same with protons and the mass compression effect.
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Too "bad" the US has been "fracked" by an enormous quantity of carbonaceous crude available by fracking. It'll be a long time before alternate sources of energy will be available in the world.
For home use, with an inert gas welder, stainless steel pipe, nickelous oxide superfine suspension on fiberfrax, hydrogen with recirculation pump, turbine electric generator, resistance heated reactor for initiating 830 deg C hydrogen interaction, the basement construction of a lenr would be possible. This low energy reaction with no harmful radiation to living cells must be part of higher level planning for our benefit.
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Something I was working on before retirement. Didn't have a quartz tube so I used pyrex for the reactor tube. The runaway reaction melted the pyrex before I could stop the process. Something interesting going on and would like to continue when I can afford to buy the equipment. The near atomic dispersion of nickelous oxide on the fiberfrax may allow hydrogen fusion. Thankfully to an extremely small degree.
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I'm getting back to this lenr subject after my retirement. Wonder if anything new has been reported related to a nickelous oxide superfine deposit on a fiberfrax substrate that showed a high thermal output when brought to 830 C in a hydrogen stream. Probably helium was being produced as a fusion reaction but didn't have the sensitivity needed at the time for verification. A very sensitive mass spectrometer would be needed to study the transmutations.