Bravo dear Axil! I think this a fundamental idea, even if the facts and details have to be thoroughly discussed for each case. Just now it is slack season on our LENR forums, but I duly hope our endemic *Detailitis *will be active for this case. Each variant of LENR/LENR+ (static/dynamic) has its own limitations that have to be engineered out (removed as much as it is possible)
Peter On Sun, Nov 18, 2012 at 1:06 AM, Axil Axil <[email protected]> wrote: > Engineering varying LENR reaction strengths. > > The plasmoid is another engineering mechanism that can be added to the > design of a LENR system to increase the intensity of power production by > amplifying long duration electric charge separation. > > This charge separation is the underlying cause of LENR reactions, either > as a consequence of charge masking of the coulomb barrier and/or the > reduction of the permittivity of space far below the norm of 1. > > IMHO, experimentation conducted over the years associated with the LENR > reaction makes it apparent that there is a direct relationship between the > various LENR reaction engineering tools applied to produce charge > separation and the variation in the strength of the LENR reaction. > > This LENR reaction strength is directly proportional to the level of > charge separation intensity that can be achieved in the various > implantations of the LENR systems. > > For example, Deuterium/palladium systems have low LENR reaction level > because palladium supports relatively few absorbed hydrogen ions. > > In this low strength regime, the LENR reaction becomes apparent when the > loading of ions goes beyond a certain loading level (.7) > > The same is true in the nickel/hydrogen systems. > > These hydrogen ion reactions can be strengthened with the addition of > various externally applied catalytic ionic clusters. > > Still further LENR reaction strengthening can be achieved when plasmoids > are added as a product of burst high current spark discharges that include > currents of catalytic ionic clusters providing a positive nucleus > surrounded with a cloud of electron currents. > > When coupled with plasmoid production, such cluster generation catalysts > such as water, Potassium, Cesium, Krypton, Argon, and Xenon are used as > ionic cluster producing reaction enhancers. > Combining all these various types of Plasmoid enabled cluster based LENR > system tools has produce the most powerful LENR reactions so far engineered. > > > Cheers: Axil > > > > > > -- Dr. Peter Gluck Cluj, Romania http://egooutpeters.blogspot.com
