Axil, I admit total ignorance of the HHO theory. I have heard about people saying they can reduce gas consumption in autos. It has never taken any commercial format. I have a few questions though: 1. If HHO produce this high temperature, then it sounds to me to be logical that it saves gas in an Otto motor. The gasoline will explode in an instantaneously increased pressure due to HHO increases the temperature and therefore the pressure (compression). Is that how it works? 2. Is it not true that if we can produce any 'heat motor' with higher temperature we will increase COP? At 6,000 C temperature and 20C on the exhaust a heat motor should be competitive with an electrical motor when it comes to COP. 3. If 1 and 2 is correct then a LENR process at COP 2 would be feasible as it at least will have excess energy after feeding its own input. Is that correct? I am OK with a lesson in basics:)
Best Regards , Lennart Thornros www.StrategicLeadershipSac.com [email protected] +1 916 436 1899 6140 Horseshoe Bar Road Suite G, Loomis CA 95650 "Productivity is never an accident. It is always the result of a commitment to excellence, intelligent planning, and focused effort." PJM On Mon, Mar 17, 2014 at 8:10 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. > > > > >
