In one important way, Rossi's catalytic approach is more powerful than that of Pekka Soininen. Rossi uses up to 100 micron nickel particles which are sintered together from 5 micron COTS powder. The EMF power application that these particles produce is proportional to the SIZE SPREAD of the particles sizes used. A particle size spread between 100 microns and 1 nanometer produces a EMF power application factor of 10^15 when heat (infrared EMF) is converted to magnetic power.
On Thu, Aug 27, 2015 at 5:08 PM, Axil Axil <janap...@gmail.com> wrote: > 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. >>> >>> >> >
