Comparable heat from CTI vs fuels ELECTRIFICATION OF
INDUSTRIAL HEAT
but with CTI
we have the potential to efficiently heat
above 200 C up to 2,OOO C, a
breakthrough in the decarbonization of
industrial heating.
acceleware.com
TSX-V: AXE
Unlike hydrocarbon fuels, which needs pressure and "air" and burns hottest with pure O2.
Way more fine points here:
vast majority of flames one encounters are those caused by rapid oxidation of hydrocarbons in materials such as wood, wax, fat, plastics, propane, and gasoline. The constant-pressure adiabatic flame temperature of such substances in air is in a relatively narrow range around 1,950 °C (2,220 K; 3,540 °F). This is mostly because the heat of combustion of these compounds is roughly proportional to the amount of oxygen consumed, which proportionally increases the amount of air that has to be heated, so the effect of a larger heat of combustion on the flame temperature is offset. Incomplete reaction at higher temperature further curtails the effect of a larger heat of combustion.