>From MFMP as follows:
@Ecco Filing date Nov 27, 2012 Priority date Nov 27, 2011 Also published as US20150162104, WO2013076378A2, WO2013076378A3 Inventors Pekka Soininen >From this patent https://www.google.com/patents/EP2783369A2?cl=en [0116] In an embodiment of the present invention styrene catalyst is utilized for enhancing nuclear fusion in a solid state system. The precursor for the styrene catalyst, hematite Fe203, having corundum crystal structure is reduced with hydrogen gas into magnetite FesO i. The precursor (iron oxide) is doped with alkali metal hydroxide comprising lithium hydroxide LiOH, sodium hydroxide NaOH, potassium hydroxide KOH, rubidium hydroxide RbOH and/or cesium hydroxide CsOH or with alkali metal oxide comprising lithium oxide Li20, sodium oxide Na20, potassium oxide K20, rubidium oxide Rb20 and/or cesium oxide Cs20. The alkali metal hydroxide is preferably KOH and the alkali metal oxide is preferably K20. Textural promoters comprising alumina Al203 and/or chromia Cr203 are added to the iron oxide. The said textural promoters are stable in process conditions in hot, highly reducing environment and they prevent the loss of lattice defects that are necessary for storing Rydberg matter and inverted Rydberg matter. [0123] Industrial catalysts have been optimized for specific chemical processes. For example, formation of coke (solid carbonaceous material) on the catalyst surface is avoided if the process temperature is kept in a specified temperature range. The present invention does not utilize compounds that form coke and temperatures above the normal temperature range for catalytic processes can be used in the present thermal- energy producing reactor. [0124] The probability for obtaining nuclear fusion near a single structural defect of a material is very small. Arranging a very large number of particles with surface and lattice defects to the reaction container increases the probability for nuclear fusion events per time unit within the reaction container to a noticeable and useful level. For example, if a 50 g piece of nickel is converted into 5 nm Ni nanoparticles with about 6000 atoms, about 8.55*1019 Ni nanoparticles is obtained. Each Ni nanoparticle may be in contact with a catalyst nanoparticle that promotes the formation of Rydberg atoms and clusters. Even a very small probability for obtaining nuclear fusion near a single Ni nanoparticle becomes considerable and useful when all the 8.55*1019 probabilities are added together. On Thu, Aug 27, 2015 at 4:57 PM, Axil Axil <janap...@gmail.com> wrote: > Rossi said that the COP of the mouse is (1.1). The mouse must produce > meson, muons and other subatomic particles via induced rydberg matter that > reacts with the Cats that surround it to induce a LENR based chain reaction > inside the Cats. > > On Thu, Aug 27, 2015 at 4:46 PM, a.ashfield <a.ashfi...@verizon.net> > wrote: > >> Rossi has talked about a Mouse to go with the E-Cat but we haven't seen >> one yet. I'm guessing this is probably a very small E-Cat that supplies >> heat in a controlled way to the main E-Cat. >> >> Strange how all my comments end up at the bottom of the list. This makes >> it difficult to follow the context. >> >> >