If the clump theory of plasmoid hydrogen ion emissions is correct, an alternative way to form a long lived plasmoid based reaction is to construct a reactor as follows.
Fill the stainless steel reaction vessel with lithium hydride. Cover the walls of the Reaction chamber with nickel oxide. Apply a high voltage nano-second burst DC voltage to the lithium hydride via a negative electrode. Complete the circuit using a positively charged connection terminated at the stainless steel reaction vessel. EV’s will form at the boundary between the NiO and the LiH when the dielectric of these two materials breaks down. This negative hydrogen ion plasmoids will be driven into the lattice faults created by the erosion of NiO by hydrogen from the LiH. The LiH can be used in a coolant loop to extract heat (1000C) at high efficiency from the reaction vessel via a heat exchanger. Hydrogen can be replaced in the LiH via a bubbler as it is consumed. Oxygen from NiO decomposition can be easily out-gassed. There will be no filament erosion to deal with making for a long lived reactor. The reactor will be explosion resistant since no free gaseous hydrogen is used and have a negative void reaction termination behavior above 1000C. On Mon, May 9, 2011 at 2:45 PM, Axil Axil <[email protected]> wrote: > *The clump theory of plasmoid hydrogen ion emissions.* > > > > The place where hydrogen ions are first gathered together could be on the > heater filament of the Rossi reactor and not inside the nickel powder. > > > > A clump of negative hydrogen ions may form on the filament of the internal > heater inside the Rossi reactor vessel at the point of dielectric breakdown > of hydrogen. This clump will behave very mush like an Electrum Validum (EV) > plasmoid of electrons and will be compressed and packed by electrostatic and > magnetic fields to high density like a collapsing cavitation bubble in the > final stage of breakdown. > > > > This sub nanometer sized (H-) ion cluster exhibits a large negative > electric charge concentration; therefore a well organized and intense > magnetic and electrostatic field must be present inside it. A simple model > will assume the EV to be a sphere, while a more developed model will > consider it to be a toroid, perpendicular to the direction the velocity of > movement and stable for certain range of configuration values. > > > > Like ball lightning, these negatively charged plasmoids will be attracted > to the sharp points of the positively charged nickel powder and find their > way into small atomic lattice faults where they are made coherent by tight > confinement in these quantum cavities where they undergo further compression > until a fusion of these hydrogen plasmoid is catalyzed. > > > > >
