Abstract
An approximate method enabling rapid calculation of critical size as a function of the ambient temperature for bodies of arbitrary shape under generalized boundary conditions is given. These boundary conditions apply when there is resistance to heat transfer both within and at the surface of the reactant. The approach uses the same size and shape factors R0 and j as before and invokes two lengths, lin and lex, which are fixed by the ambient temperature, reactant composition and heat-transfer characteristics. Our results allow small-scale experiments to be used to give safe predictions for larger systems. This is important as conventional methods may err on the dangerous side.
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