>From Randell Mills yahoo group The gas CO2 is patented by Dr. Mills and BLP as a hydrino catalyst. Nickel has an affinity to bind to CO. At temperatures below 700 degrees Celsius heating nickel first releases CO and around 400 degrees Celsius a dominant reaction causes 2CO to form C and CO2 on an abradided nickel surface.
At the same time, hydrogen is split at the nickel surface, creating one hopes a population of atomic H and a population of CO2 in close proximity which can undergo hydrino transitions at the nickel surface. Interestingly, above 700 degrees C, the dominant exothermic 2CO -> C + CO2 reaction stops and is reversed such that endothermic formation of CO dominates - a nifty self regulating physical mechanism that could be used to create a self regulating reactor. The variable factors are what ratio and pressures of H2 and CO would work best to create an observable reaction? Reaction rates of resonant energy transfers appear particularly dependent on exact conditions for each type of catalyst and the manner in which H and the catalyst are brought close together to trigger transitions. antony
