Understanding the insight into the mechanisms and dynamics of the OH-initiated oxidation of CHF2CF2OCHF2 and the subsequent reactions in the presence of NO and O2

Abstract

The mechanism and dynamics of CHF2CF2OCHF2 initiated by OH radical evaluated through the density functional theory and variflex code. The solvation pattern of PCM was utilized to analyze the influence of water on the CHF2CF2OCHF2 + OH reaction. The most feasible reaction channel is resulting in the product CF2CF2OCHF2 with H2O by hydrogen abstraction. The computed rate coefficient is consistent with the experimental data. The results turned out that aqueous water act as a disincentive to the title reaction. In the atmosphere, the computation results testified that OH, H2O, NH3 and HCOOH could not accelerate the degradation of the CHF2CF2OCHF2 through OH-initiated in view of the Gibbs free barriers. The research of the follow-up oxidation procedure of the products CHF2CF2OCF2 and CF2CF2OCHF2 with O2/NO reactions indicated that CF2O and CHF2 were the most feasible products. The atmospheric lifetimes of CHF2CF2OCHF2 were in the scope of 71.10-4.74 years in altitude of 0–12 km and at 200–300 K. This research supplies discernment into the conversion of CHF2CF2OCHF2 in a complex environment.