Comparison Results for Reaction-Diffusion Equations in a Banach Space
Abstract
**Please note that the full text is embargoed** ABSTRACT: Let T be the temperature and n the concentration of a combustible substance. A simple model governing the combustion of the material is given by
[see pdf for notations] (1.1)
where the constant Q is the heat of reaction; the constants Kl , K2 are thermal, material diffusion coefficients; the term exp(-E/RT)
is the Arrenhius rate factor; E is the activation energy; and R is the univeral gas constant. Equations (1.1) are considered on a bounded domain ^ with the boundary conditions
[see pdf for notations] (1.2) together with initial conditions
[see pdf for notations] (1.3) under the assumption T0(x) ^ To . Here ^ denotes an outward normal. A discussion of the derivation of the general equations of chemical kinetics may be found in the books by Gavalas [27] and Frank-Kamenetzky [25]. The particular model (1.1) to (1.3) is discussed by Gelfand [26] and Sattinger [46]. See also Hlavacek and Hofmann 128].