In order to come op with your estimate of fusion DH reactions, you must have made a calculation as follows:
A 20 megawatt burst of fusion happens in a hollow sphere called a double layer. A double layer is 6mm thick and is one of 10 such hollow spheres in a concentric structure of such hollow spheres. This includes a 2.5 cm spherical anode. How much hydrogen fills that hollow sphere? How many hydrogen atoms comprise that volume of hydrogen at 1 bar. How many fusion reactions of 3 Mev produce that 20 megawatt burst? Are there enough deuterium atoms in the volume to produce the energy generated in the burst of fusion? On Thu, May 24, 2018 at 11:45 PM, <mix...@bigpond.com> wrote: > In reply to Axil Axil's message of Sun, 20 May 2018 16:54:55 -0400: > Hi Axil, > [snip] > >The plasmoid is one of the most ubiquitous causes of LENR, but it is not > >the underlying cause in the SAFIRE reaction. The plasmoid is a complicated > >and hard to understand cause of the LENR reaction. The plasmoid is full of > >quantum mechanical and optical complications that make it very obscure and > >intractable, but it is the mechanism that most LENR developers are using > to > >produce the LENR reaction. SAFIRE produces energy from hydrogen proton > >proton fusion without the introduction of any metal into the plasma > stream. > >It is the internal organization of the plasma itself that produces the > LENR > >reaction. > > > >The SAFIRE LENR reaction is a totally pure and uncomplicated LENR > reaction. > >It is a wonderful and informative case study of how LENR works. > > About 1 in every 6500 H atoms is a D atom. If you take the energy of the > H+D => > He3 reaction, and divide it up among all the H atoms, you get about 800 eV > / H > atom. I think this would be adequate to explain the Saffire results. IOW > there > may not be any P-P reaction happening. > Regards, > > > Robin van Spaandonk > > local asymmetry = temporary success > >
