A weight-function approach for determining watershed initial conditions for combustion waves |
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Authors: | Watt, SD Weber, RO Sidhu, HS Mercer, GN |
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Affiliation: | School of Mathematics, University of New South Wales, Sydney 2052, NSW, Australia A1 School of Mathematics and Statistics, University College of UNSW, Australian Defence Force Academy, Canberra 2600, Australia |
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Abstract: | In many generic combustion models, one finds that a combustionwave will develop with a specific wave speed. However, thereare possible initial temperature profiles which do not evolveinto such waves, but rather die out to the ambient temperature.There can exist, in some models, a clear distinction betweenthose initial conditions that do evolve into combustion wavesand those that do not; this is sometimes referred to as thewatershed initial condition. When fuel consumption is consideredto be negligible, analytical methods can be used to obtain theexact watershed. In this paper, we consider the problem of determiningpseudo-watersheds and ascertaining the relationship betweenthese pseudo-watersheds and the exact watersheds. In the processa novel weight-function approach for infinite spatial domainsis developed. |
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