Reference: http://www.chemicalelements.com/show/boilingpoint.html
The boiling temperature of Manganese is 1091 °C. This temperature is in the goldilocks range for the production of high temperature nanoplasmonic reactions. As the temperature of the Rossi reactor increases beyond 1000C, new elements begin to take over the LENR reaction through the production of nano-particles when the hydrogen envelop is cooled near the outer edge of the reaction chamber. Another candidate element is calcium with a boiling point of 1484.0 °C. There are other low boiling point elements that are possible, but they are improbable components of the Rossi chemical compliment. Thallium is one of these metals with a boiling point near 1457.0 °C. Selenium is another at a boiling point at 684.9 °C. These intermediate boiling point elements take over from potassium whose boiling point is 774.0 °C. The job of the mouse is to produce potassium vapor by heating it beyond its boiling point. When the heat source is removed, the potassium vapor condenses into nano-particles whose amalgamation into piles produce the nuclear active sites between the edges of the potassium nano-particles. When the Rossi reaction enters a new and higher temperature range, new types of nano-particles are produced when vapor of these intermediate boiling point elements condense in a cool zone of the reaction chamber near the outer edge of the reaction chamber. The LENR reaction is a topological based reaction that depends on the shape and size of the nano-particles that condense out of the hot hydrogen plasma. Experiments with exploding wire and foils show that transmutation of high melting point metals like titanium is possible. This indicates that very high temperatures are possible in LENR though the condensation of high melting point elements into nanoparticles. On Sun, Dec 29, 2013 at 1:13 PM, Daniel Rocha <[email protected]> wrote: > The "mouse" is nothing more than a ceramic canister within his SS tube > full of (most probably) MgH and Ni acting as a catalyst to brake the > released H2 to atomic from its solid state MgH at high temperatures. If H > or Mg are in contact with air or moister then a Lungmuir toarch reaction > (reaching 3400C) and/or a violent reaction of Mg with H20 give such > "explosing" results lasting for some seconds. Such are not desirable > results but accidents due to poor controllability. > > > > -- > Daniel Rocha - RJ > [email protected] >
