http://www.free-energy-info.com/MorayKing.pdf
Some information on HHO from Moray King. I like the idea of isolating the water clusters through hydrogen evaporation. Or maybe use a molecular sleeve to trap the water clusters. That would be a good test of the nano crystal theory when used to excite a catalytic converter into combustion by using only nano particles and not hydrogen. On Mon, Mar 17, 2014 at 11:10 PM, Axil Axil <[email protected]> wrote: > Why is a HHO flame able to vaporize tungsten and yet will not burn the > skin of your hand. > > > > http://www.youtube.com/watch?v=Ax4sW3bo_dM > > > > The HHO gas stream contains solid crystals of water. These crystals act > like nano lenses that concentrate infrared light in the boundary layer > between a shiny metal surface and a dielectric gas like hydrogen or oxygen. > The science that studies this effect is called nanoplasmonics. > > > > The heat energy is confined to the metal surface and locked in(AKA dark > mode) and concentrated their like in a EMF black hole. > > > > The metal surface is said to have a negative coefficient of reflectivity. > This keeps the heat from leaving the metal surface. In this way the heat > energy builds up to huge temperatures to the point where it will vaporize > tungsten. > > > > The skin on your hand has a positive index of reflectivity; it is not > shiny. The heat from hydrogen combustion is not confined to the surface of > your skin and can escape to the surrounding air. So you will not be readily > burned by the HHO flame. > > > > This is a basic LENR effect (aka evanescent wave - > http://en.wikipedia.org/wiki/Evanescent_wave) of energy concentration and > focusing. This indicates that the upper temperature limit of the LENR > effect is beyond the temperature required to vaporize tungsten (5930 °C, > 10706 °F) > > > > On the other hand, the combustion temperature of hydrogen is only 2,660 °C > with oxygen. Do I need to spell this out any further? > > > > http://www.youtube.com/watch?v=-ceOL83PM24 > > > On the downside, spark ignition of HHO does not use the LENR effect of the > evanescent wave. > > So burning hydrogen in oxygen is only combustion and not LENR. > > > > >
