Hi Robin, This is great!
Have you thought about posting it to the Hydrino list? Jack Smith --------------- Robin wrote: 1) Start with a single well shrunken hydrino (p<25, e.g. p=24). 2) Add one electron to form Hydrinohydride. 3) Add one proton to form a Hydrino molecule. 4) With a fast particle, break the Hydrino molecule apart into two well shrunken Hydrinos. 5) Return to step one with two Hydrinos iso one, thus doubling your inventory. This process rapidly converts ordinary Hydrogen atoms directly into well shrunken Hydrinos, skipping all the intermediary shrinkage steps otherwise present in the Mills process. If one starts with a level 24 Hydrino, then the total net energy release per new Hydrino formed is 7832 eV. All the Hydrinos formed are the *same* shrinkage level. They are essentially "clones" of the original. IOW this method also provides a means of consistently producing an homogenous population, of any level hydrino between 2 and 24, e.g. a population of Hydrinos where p=16. This could be extremely useful for chemical applications, e.g. battery technology. This method is the basis for a Hydrino "factory". Furthermore Hydrino molecules extracted from the "factory" can be used for fusion, producing on average 10 MeV per Hydrino molecule. Because the Hydrino molecules all have a consistent size, the fusion process should be easy to regulate, resulting in a smooth power output. This is the final piece of the puzzle, that should result in clean fusion with ordinary Hydrogen as the primary feedstock, and any of many other natural neutron heavy isotopes as the secondary feedstock. (See point 6 in:- http://users.bigpond.net.au/rvanspaa/Molecular%20Hydrino%20Fusion.htm). It has the added advantage that it makes us independent of Solar derived Hydrinos with their attendant uncertainties. Regards, Robin van Spaandonk <[EMAIL PROTECTED]>
