The key parameters in this exercise are the volume of the hydrogen envelope and the maximum pressure of hydrogen in that envelope. If we were to assume that the hydride replenished the envelope as the pressure decreased due to transmutation to keep the pressure constant, then that would be a different story.
That assumption would be the same as connecting the envelope to a hydrogen tank with a pressure regulator attached. On Sun, Jul 13, 2014 at 5:28 PM, <[email protected]> wrote: > In reply to Axil Axil's message of Sun, 13 Jul 2014 00:19:58 -0400: > Hi, > [snip] > >We don't know what the hydride is. The amount does not matter or the > >hydrogen density. The important characteristic of the hydride is the > >desorption/absorption behavior vis-à-*vis* the required > >temperature/pressure profile. > > If you are trying to calculate how much energy is released per Hydrogen > atom in > order to determine whether or not Hydrinos can do it, then you do need to > know > how much Hydrogen was available to the experiment. This is most easily > determined by subtracting what is left at the end from what was available > at the > start, however an upper bound is placed on the amount of Hydrogen used by > the > total amount available in the Hydride at the start. > If this was small enough it could immediately rule out Hydrino shrinkage > as the > sole source of energy. > > Regards, > > Robin van Spaandonk > > http://rvanspaa.freehostia.com/project.html > >
