The low pressure pyrolysis of newsprint

The kinetics of the unimolecular decomposition of phenyl acetate into phenol and ketene, reaction (1): has been studied under very low-pressure conditions between 950 and 1120 K. In this range alternative processes such as the Fries rearrangement to o-hydroxyacetophenone or bond fission into phenox

The unimolecularity of the thermal dehydrogenation of cyclopentene has been confirmed using the technique of very low-pressure pyrolysis (VLPP). Application of RRKM theory shows that the experimental unirnolecular rate constants obtained over the temperature range of 942O-1152OK are consistent with

The pyrolysis of ethyl acetate has been studied by the very low-pressure pyrolysis (VLPP) technique. The results obtained agree well with the previously determined high-pressure Arrhenius parameters where log k, = 12.6 -48.0/8. The rate constants given by these parameters have also been shown to be

## Abstract The thermal decomposition of __t__‐butylmethyl ether has been studied using the VLPP technique. The recommended Arrhenius parameters for the molecular elimination, reaction (1), are __A__(800°K) = 10^1 3, 9^ sec^−1^ and __E__~a~ (800°K) = 59.0 ± 1.0 kcal/mole. No radical reactions occur

The very low-pressure pyrolysis (VLPP) technique has been applied to the pyrolysis of di-t-amyl peroxide (DTAP) over the temperature range 523-633°K. VLPP yields a low-pressure rate constant, kuni The conversion of k,,, to k, , which must be made to calculate the Arrhenius parameters, is accomplishe

A readily applicable empirical formula is obtained for the collisional efficiency for energy transfer between a highly vibrationally excited reactant and a seasoned (usually quartz) wall, in terms of the molecular weight, potential well depth and dipole moment of the reactant. This expression is use