Thermal decomposition of 2, 3-dimethyl butane: Experiments and mechanistic modelling

## Abstract The thermal decomposition of gaseous monomethylhydrazine (MMH) was studied by recording MMH absorption at 220 nm of the reacting gas behind a reflected shock wave at temperatures of 900–1370 K, pressures of 140–450 kPa, and in mixtures containing 97.5–99 mol% argon. Based on previous wo

## Abstract The unimolecular decomposition reaction of dimethyl ether (DME) was studied theoretically using RRKM/master equation calculations. The calculated decomposition rate is significantly different from that utilized in prior work (Fischer et al., __Int J Chem Kinet__ 2000, 32, 713–740; Curra

The unimolecular decomposition of 1,3,5-trioxane into three formaldehyde molecules has been studied thermally at eight temperatures between 523 and 603 K using mixtures highly diluted with Ar. Under these conditions, the only decomposition product detected by means of FTIR analysis was formaldehyde.

Mathematical models are proposed to predict the true density of coal, semi-coke and coke and the porosity of a coke oven charge during carbonization. These models are combined in a further model which predicts the hitherto unexplained 'twin-peaked' contraction curve observed for semi-coke. It is fou

La(CH 3 SO 3 ) 3 ´2 H 2 O was prepared by the reaction of La 2 O 3 with CH 3 SO 3 H. According to the X-ray single crystal determination, the compound crystallizes with triclinic symmetry (P 1, Z = 2, a = 524.99( 8), b = 1015.3(2), c = 1298.0(2) pm, a = 98.62(2)°, b = 91.12(2)°, c = 104.61(2)°, R al

Published data on the specific heat of coal and coke have been analysed and have been used to define a model which predictsthe specific heat of coal during thermal decomposition. The Einstein model is used to describethevariation of specific heat with temperature and the effect of composition isdete