Gas-phase pyrolysis of coumaran and 2,3-dimethylcoumaran

The gas-phase pyrolysis of 3-chloroquadricyclane [1] was investigated over the temperature range 513-550 K at one atm in helium. The initial pyrolysis step is the isomerization of 3-chloroquadricyclane to 7-chloronorbornadiene (E ϭ 39.63 Ϯ 1.40 kcal/mole, a 7-chloronorbornadiene rearranges (623-660

## Abstract The pyrolysis of 2,2,3,3‐tetramethylbutane (TMB) has been studied using the wall‐less reactor. Under homogeneous conditions up to 670°C, the activation energy is 43.2 kcal/mol and log __A__ is 10.70. The products are 2‐methylpropene, hydrogen, propene, 2‐methyl‐2‐butene, ethane, ethene,

The gas-phase pyrolysis of 3-t-butoxyquadricyclane [ 1 ] was investigated over the temperature range 51 1-542 K at one atm in helium. The initial pyrolysis step is the isomerization of 3-fbutoxyquadricyclane to 7-f-butoxynorbornadiene (Ea = 38.49 5 0.85 kcalhole. log A = 15.44 ? 0.35). 7-t-butoxynor

Phenol pyrolysis has been studied in a turbulent flow reactor by analyzing concentration-time profiles of three major decomposition products: carbon monoxide, cyclopentadiene, and benzene. Experimental conditions were P = 1 atm, T = 1064 -1162 K, and initial phenol concentrations of 500-2016 ppm. Th

## Abstract The pyrolysis of gaseous neopentyl bromide to 2‐methyl‐2‐butene, 2‐methyl‐1‐butene, and hydrogen bromide was studied under conditions of maximal inhibition by cyclohexene over the temperature range of 389−444°C. This reaction was shown to beconsistent with a first‐order homogeneous mole