In reply to Jed Rothwell's message of Fri, 11 Nov 2022 13:12:22 -0500: Hi,
Cavitation temperatures and pressures may break some water molecules apart into Oxygen & Hydrogen. The Oxygen combines with the Copper leaving excess Hydrogen which then may undergo LENR with Copper atoms, once it has been shrunk small enough, or possibly via the Holmlid process. [snip] >Here is an interesting approach to what I assume is cold fusion: > >Huang, B.-J., et al., *Excess Energy from Heat-Exchange Systems.* J. >Condensed Matter Nucl. Sci., 2022. *36*: p. 247-265. > >https://lenr-canr.org/acrobat/BiberianJPjcondensedzi.pdf#page=257 > >Only a few people have tried this. Long ago, Mallove and I investigated a >cavitation reactor at Thermodynamics, Inc. As far as we could tell, it >produced excess heat. Usually around 3% but sometimes up to 17% as I >recall. In the last year or so they installed an excellent industrial scale >flow calorimeter designed by the Dean of Mechanical Engineering at Georgia >Tech. The results from that seemed definitive to me, but I do not think the >Dean signed off on them. I don't know what happened after that. > > >As I recall, our investigation of Thermodynamics was one of the things that >triggered the founding of this discussion group. The cavitation reactor at >Thermodynamics resembled a vortex in some ways. Cloud storage:- Unsafe, Slow, Expensive ...pick any three.
