Atmospheric chemistry of CF3COOH. Kinetics of the reaction with OH radicals

CF 3 CF 2 CH 2 OH is a new chlorofluorocarbon (CFC) alternative. However, there are few data about its atmospheric fate. The kinetics of its atmospheric oxidation, the OH radical reaction of CF 3 CF 2 CH 2 OH, has been investigated in a 2-liter Pyrex reactor in the temperature range of 298 ϳ 356 K u

A relative rate technique has been used to study the title reaction over the pressure range 100-700 Torr of air at 296 + 2 K. Four different reference compounds (13CO, CH4, CH2FCI, and CD 4) were used. Using k(CF30 + CH 4) = (2.2 -1-0.2) × 10-14 cm 3 molecule-1 s-1 a rate constant of k(CF30 + 03) =

## Abstract Using a relative rate technique the reactions of fluorine and chlorine atoms with CF~3~COOH have been determined to proceed with rate constants of (5.6 ± 0.7) × 10^−11^ and <1 × 10^−17^ cm^3^ molecule^−1^ s^−1^, respectively. Quoted errors for the F atom rate constant reflect statistica

## Abstract The relative rate technique has been used to determine the rate constants of the reactions of OH radicals with CF~3~CClCCl~2~ (__k__~1~), CF~3~CClCClCF~3~ (__k__~2~) and CF~3~CFCFCF~3~ (__k__~3~). Experiments were carried out at (298±2) K and atmospheric pressure using ultrapure nitr

Reactions of CFSBr with H atoms and OH radicals have been studied a t room temperature a t 1-2 torr pressures in a discharge flow reactor coupled to an EPR spectrometer. The rate constant of the reaction H + CF3Br -CF3 + HBr (1) was found to be k l = (3.27 f 0.34) X cm:'/moleesec was determined for