The HO4H → O3 + H2O reaction catalysed by acidic, neutral and basic catalysts in the troposphere

Zhang, Tianlei; Bi, Xiujuan; Wen, Mingjie; Liu, Shuai; Chai, Guang; Zeng, Zhaopeng; Wang, Rui; Wang, Wenliang; Long, Bo

doi:10.6084/m9.figshare.9948059.v1

tmph_a_1673912_sm6217.docx (2.36 MB)

The HO₄H → O₃ + H₂O reaction catalysed by acidic, neutral and basic catalysts in the troposphere

journal contribution

posted on 2019-10-08, 06:21 authored by Tianlei Zhang, Xiujuan Bi, Mingjie Wen, Shuai Liu, Guang Chai, Zhaopeng Zeng, Rui Wang, Wenliang Wang, Bo Long

A detailed effects of catalyst X (X = H₂O, (H₂O)₂, NH₃, NH₃···H₂O, H₂O···NH₃, HCOOH and H₂SO₄) on the HO₄H → O₃ + H₂O reaction have been investigated by using quantum chemical calculations and canonical vibrational transition state theory with small curvature tunnelling. The calculated results show that (H₂O)₂-catalysed reactions much faster than H₂O-catalysed one because of the former bimolecular rate constant larger by 2.6–25.9 times than that of the latter one. In addition, the basic H₂O···NH₃ catalyst was found to be a better than the neutral catalyst of (H₂O)₂. However it is marginally less efficient than the acidic catalysts of HCOOH, and H₂SO₄. The effective rate constant (k'_t) in the presence of catalyst X have been assessed. It was found from k'_t that H₂O (at 100% RH) completely dominates over all other catalysts within the temperature range of 280–320 K at 0 km altitude. However, compared with the rate constant of HO₄H → H₂O + O₃ reaction, the k_eff values for H₂O catalysed reaction are smaller by 1–2 orders of magnitude, indicating that the catalytic effect of H₂O makes a negligible contribution to the gas phase reaction of HO₄H → O₃ + H₂O.

Highlights

A detailed effects of catalyst of H₂O, (H₂O)₂, NH₃, NH₃···H₂O, H₂O···NH₃, HCOOH and H₂SO₄ on the HO₄H → O₃ + H₂O reaction has been performed.

From energetic viewpoint, H₂SO₄ exerts the strongest catalytic role in HO₄H → O₃ + H₂O reaction as compared with the other catalysts.

At 0 km altitude H₂O (at 100% RH) completely dominates over all other catalysts within the temperature range of 280–320 K.

HO₄H → H₂O + O₃ reaction with H₂O cannot be compete with the reaction without catalyst, due to the fact that the effective rate constants in the presence of H₂O are smaller.

A detailed effects of catalyst of H₂O, (H₂O)₂, NH₃, NH₃···H₂O, H₂O···NH₃, HCOOH and H₂SO₄ on the HO₄H → O₃ + H₂O reaction has been performed.

From energetic viewpoint, H₂SO₄ exerts the strongest catalytic role in HO₄H → O₃ + H₂O reaction as compared with the other catalysts.

At 0 km altitude H₂O (at 100% RH) completely dominates over all other catalysts within the temperature range of 280–320 K.

HO₄H → H₂O + O₃ reaction with H₂O cannot be compete with the reaction without catalyst, due to the fact that the effective rate constants in the presence of H₂O are smaller.