As I have posted repeatedly, the key to developing an active and very strong reaction is to provide a wide range of micro/nanoparticle sizes. This requirement comes from nanoplasmonic doctrine.
A single sized particle does not work. For example, in the open source high school reactor (cop = 4) that does work, the design calls for a tungsten particle collection of varying diameters. The 5 micron micro-particles coated with nanowire is important in feeding power into the aggregation of smaller nanoparticles. This is how Rossi's secret sauce fits in. Potassium nanoparticles provide and intermediate sized particle population to the particle ensembles. Hydrogen provides the smallest particle population. When there are particles of varying size clump together, and alight on the nickel nanowires, strong dipole motion in the micro particles drive the reactions in the spaces between the hydrogen nanoparticles. The bigger particles act like step-up windings in a high voltage transformer as power is feed to the smallest particles. If a single diameter sized nanoparticle is used, the reaction will not work. If only nanoparticles are use in the reaction, the reaction will not be strong. On Sat, Mar 1, 2014 at 4:13 PM, Edmund Storms <stor...@ix.netcom.com> wrote: > Nice thought Kevin. Chris and I collaborated to see if CNT were nuclear > active. They were not, at least when using our methods. I suspect the > conditions in the tube are not correct to form the Hydroton. > > As is typical, the situation in the chemical structure is more complex > than expected. No amount of discussion about magnetic fields, hidden > electrons, particle spin, etc is useful unless it can show exactly what > needs to be done to cause the reaction to occur in the first place. > > Ed Storms > > On Mar 1, 2014, at 1:51 PM, Kevin O'Malley wrote: > > Wouldn't that lend itself to corroborating Ed Storms's theories about > cracks & the NAE? > > > On Sat, Mar 1, 2014 at 6:37 AM, Frank roarty <fr...@roarty.biz> wrote: > >> Jones, Yes, I agree.. the paper from Cornell re catalytic action only >> occurring at openings and defects in nano tubes >> > > >
