On Thu, Sep 9, 2010 at 7:53 PM, francis <froarty...@comcast.net> wrote: > Terry, thanks for the link and your earlier threads circa 2005 but I had to > go to PESN for the theory of operation > > http://pesn.com/2005/06/26/9600116_Naudin_MAHG/ . I learned the Naudin > device agrees with my premise of oscillating between H2 and H1 without using > up the hydrogen but he seems to concentrate on a pulsed frequency to amplify > the phenomena where I would have expected him to concentrate on increasing > the surface area of the catalyst or even heating raw tungsten powder to > circulate the hydrogen through. I believe that Mills and Chavra have a > better handle on what is happening to the orbital states of hydrogen in a > catalytic/Casimir environment. It is the hydrino/fractional hydrogen state > that is absorbing energy from a permanent natural property of the catalyst > while it is the covalent bond that is acting as the rectifier. When the > fractional H2 tries to move to a different fractional value due to relative > motion with the changing geometry of the cavity/catalyst the covalent bond > opposes this motion reducing the energy needed to disassociate the molecule > – When the opposition accumulates enough you can disassociate a molecule for > less energy then the molecule releases when it reforms! This isn’t in > violation of COE but rather an exception to the rule that you can’t rectify > the normally chaotic energy responsible for random gas motion (HUP). The > covalent bond effectively accumulates these energies because in a fractional > state caused by local geometry it opposes further change in geometry. > > I think Naudin was close but should have concentrated more on increasing > surface area of catalyst and heat sinking. I heard his name kicked around > previously and never realized how close this particular device was to my own > theory. Once more I appear to be a Johnny come lately. My concern for his > implementation is a burn out of the tungsten catalyst. Like the Rayney > Nickel of BLP I believe a runaway H2<>H1 oscillation will melt down any > Casimir geometry and the plastic metal will simply grow whiskers to satisfy > the force (shorting the paralell plates). If I had his rig I would fill it > with tungsten powder and heat sinking veins and then bring up the temp to > near disassociation while circulating a mix of hydrogen and helium that I > could control to slowly elevate the amount of hydrogen. My premise is that > at some point you could start backing off the current to the tungsten heater > while increasing the hydrogen percentage and it would remain heated. > > Regards > > Fran
JeanLouis has a fine set of plans on his site: http://jlnlabs.online.fr/mahg/diagram.htm in case you want to build one. T
