GEET: Difference between revisions
From LENR
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==LENR context== | ==LENR context== | ||
GEET is compared with other systems where vortex flow, gas mixtures, and material targets are believed to contribute to unusual plasma or transmutation-like effects. In this context, it is discussed alongside HHO gas interactions with tungsten and other devices where turbulence and shear forces are thought to support coherent plasma structures. | |||
The page is a seed for collecting GEET-related claims, apparatus descriptions, and later comparisons with other LENR devices. | |||
==Related topics== | ==Related topics== | ||
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* [[HHO gas]] | * [[HHO gas]] | ||
* [[Plasma vortex]] | * [[Plasma vortex]] | ||
* [[ | * [[Elements]] | ||
==Source== | ==Source== | ||
* https://www.youtube.com/watch?v=gW0JPZedjXM | * https://www.youtube.com/watch?v=gW0JPZedjXM | ||
Revision as of 02:51, 4 June 2026
GEET is a device concept discussed in LENR-related contexts involving gas flow, turbulence, HHO gas, and tungsten interactions.
LENR context
GEET is compared with other systems where vortex flow, gas mixtures, and material targets are believed to contribute to unusual plasma or transmutation-like effects. In this context, it is discussed alongside HHO gas interactions with tungsten and other devices where turbulence and shear forces are thought to support coherent plasma structures.
The page is a seed for collecting GEET-related claims, apparatus descriptions, and later comparisons with other LENR devices.
