Propagation of reaction fronts in exothermic heterogeneous noncatalytic systems solid-solid and solid-gas

## Abstract Compressed mixtures of iron and barium peroxide or iron and potassium dichromate are examples of systems capable of undergoing self‐propagating incandescent reaction when ignited. It has been found that in both of these systems a non‐incandescent reaction, called the pre‐ignition reacti

## Abstract Measurements have been made of the linear rate of the self‐propagating reaction and of the heat of this reaction in compressed binary solid mixtures of an oxidizing and a reducing agent. The thermochemical results have been used to draw conclusions about the chemistry of the reactions i

Diflkion coM~~Ued rates of exothennic condensed phase reactions are examined with rewt 10 prtrc d@ reaction parameters. heat and mass diffwivities. particle size, and heat of reaction. A timpk, 6ttdytkd model &&es the reaction rates to thermochemical properties of the mixtures. Computer calculations

## 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

## If reasonably uniformly sized spherical pellets are packed in a tube only slightly larger in size, so that the tube/pellet dia ratio is from 1.1 to 1.4, and the tube contains 50 or more pellets, then the flow behaviour is very similar to that of a conventional packed bed. Pressure drop results