Litcius/Paper detail

Elucidating HONO formation mechanism and its essential contribution to OH during haze events

Xinran Zhang, Shengrui Tong, Chenhui Jia, Wenqian Zhang, Zhen Wang, Guiqian Tang, Bo Hu, Zirui Liu, Lili Wang, Pusheng Zhao, Yuepeng Pan, Maofa Ge

2023npj Climate and Atmospheric Science69 citationsDOIOpen Access PDF

Abstract

Abstract Atmospheric nitrous acid (HONO) chemistry is of critical importance to air quality during polluted haze events, especially in China. However, current air quality models (such as WRF-CHEM, WRF-CMAQ, Box-MCM) generally underestimate the concentration of HONO, leading to a lack of fundamental understanding of haze pollution. Here, by combining field observations during haze events in Beijing and modeling results, we developed the new parameterization scheme for heterogeneous nitrogen dioxide (NO 2 ) reaction on aerosol surfaces with the synergistic effects of relative humidity and ammonia, which has not been considered in existing air quality models. Including NO 2 heterogeneous reactions into modeling significantly improves the estimation accuracy of HONO and OH levels, with the contribution reaching up to 91% and 78% during pollution episodes. The OH derived by HONO can partly explain high concentrations of particulate matter. Together, our work provides a new approach to illustrate the formation of HONO, OH, and haze with the consideration of heterogeneous NO 2 → HONO chemistry.

Topics & Concepts

HazeNitrous acidCMAQParticulatesAir quality indexRelative humidityAtmospheric sciencesEnvironmental scienceAir pollutionPollutionBeijingEnvironmental chemistryAmmoniaChemistryAerosolMeteorologyAtmospheric chemistryOzoneInorganic chemistryOrganic chemistryChinaLawGeologyPolitical scienceBiologyEcologyPhysicsAtmospheric chemistry and aerosolsAir Quality and Health ImpactsAir Quality Monitoring and Forecasting