Thank you for the response. The hydrino cycle that I am describing, aka heat pump of some unusual type, would allow energy contained within the thermal surroundings to do work. I can imagine some of that work being used to generate radiant energy that could then escape the system. This escaping energy would cause the local system to cool off. This technique sounds a lot like a violation of the laws of thermodynamics. I guess that a similar process occurs when a dust cloud cools down by radiating heat energy. Is there any way that we can verify that a process exists which will enable the hydrinos to absorb the hypothetical energy you discussed and emerge as hydrogen again?
Dave -----Original Message----- From: mixent <mix...@bigpond.com> To: vortex-l <vortex-l@eskimo.com> Sent: Wed, Nov 2, 2011 3:35 pm Subject: Re: EXTERNAL: Re: [Vo]:Mill's and Lu paper define hydrino as fractional Rydberg In reply to David Roberson's message of Wed, 2 Nov 2011 09:12:47 -0400 (EDT): i, snip] That is the question that I would like to have answered. Would the hydrino be ble to acquire the needed energy from the thermal energy available of the tmosphere? If not, why have not all of the hydrogen atoms in existence (on arth) been catalyzed during the eons of time that has been available? Because in order to be catalyzed, they need to exist as individual atoms, hereas all the Hydrogen on Earth exists bound in chemical compounds. urthermore even when present as an atom, it still needs to come across a atalyst atom too. >My main purpose for asking the question is to determine if some type of heat ump could be used where hydrogen is turned into hydrinos releasing heat and hen released. Then I was hoping that they would reacquire the energy from the hermal environment to be recycled. This sounds like a breech of the second aw, but why not give it a try. :-) Dave don't think so, though perhaps solar x-rays in the upper atmosphere might econstitute them. Regards, Robin van Spaandonk http://rvanspaa.freehostia.com/project.html