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Self-propagating solid-solid noncatalytic reactions in finite pellets

✍ Scribed by Arvind Varma; Giacomo Cao; Massimo Morbidelli

Publisher
American Institute of Chemical Engineers
Year
1990
Tongue
English
Weight
564 KB
Volume
36
Category
Article
ISSN
0001-1541

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✦ Synopsis

The method of self-propagating high-temperature synthesis (SHS) can be utilized to synthesize certain advanced ceramic materials, such as metal carbides, borides and silicides, directly from the elements in powder form. The method involves mixing the powders, preparing pellets from the mixture, and igniting one end of the pellet. Owing to high exothermicity of the reactions, a combustion wave can propagate through the pellet. The influence of processing conditions on propagation of the combustion wave is investigated extensively in this modeling study for pellets of finite length. It is shown that unlike infinitely long systems, the combustion wave for a finite pellet does not propagate in constant pattern. It is also shown that radiative heat losses play a major role in SHS, while convective heat losses are not relatively important.

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## Abstract Gas–solid noncatalytic (GSNC) reactions in porous particles are analyzed employing volume reaction model (VRM). Both single‐stage and two‐stage models have been used in the work. Earlier analysis for such reactions was mostly restricted to the first‐order reactions with respect to the g