Once Mill's or Rossi's materials are up to temp they NEED energy subtracted because the atomic hydrogen must cool to reform h2 then changes in suppression values experienced by the moving gas relative to the Ni geometry lower the disassociation threshold such that the newly formed molecule disassociates again, each time releasing more energy than contributed by the heater in an endless cycle that quickly repays the initial cost of bringing the temp up near to the discounted threshold. I am positing that runaway scenarios may be common in nature and simply destroy their own geometry immediately or slow down to the point of being undetectable because they can not cycle fast enough to keep the ambient in the narrow window where the discounted threshold is lower than the energy release of h2 formation. can I call this endless reversible reaction first described by William Lyne as negative endothermic?
Fran
