Aerosol–cloud interaction in the atmospheric chemistry model GRAPES_Meso5.1/CUACE and its impacts on mesoscale numerical weather prediction under haze pollution conditions in Jing–Jin–Ji in China

Abstract: Abstract. The representation of aerosol–cloud interaction (ACI) and its impacts in the current climate or weather model remains a challenge, especially for severely polluted regions with high aerosol concentration, which is even more important and worthy of study. Here, ACI is first implemented in the atmospheric chemistry model GRAPES_Meso5.1/CUACE by allowing for real-time aerosol activation in the Thompson cloud microphysics scheme. Two experiments are conducted focusing on a haze pollution case with coexis… Show more

“…80 Furthermore, Zhang et al replaced the assumed aerosol number concentrations in this updated Thompson scheme with the real-time simulated aerosol number concentrations simulated by the CUACE module. 70 This modification allows for real-time activation of aerosols.…”

“…This model has been extensively applied in research related to dust, 66,67 haze/fog, and visibility (Vis) simulation. 57,58,[68][69][70][71] Additionally, it has been applied to evaluate various cloud microphysical schemes by simulating cloud microphysical properties and precipitation. Moreover, it has been used to investigate the effects of the cloud condensation nuclei concentrations on cloud microphysical and radiative properties.…”

“…72,73 Zhang et al replaced the assumed aerosol number concentrations in the Thompson scheme in the GRAPES_Meso5.1/CUACE model with the real-time simulated aerosol number concentrations simulated by the CUACE module. 70 They investigated real-time aerosol-cloud interactions, with a particular focus on regions experiencing high aerosol pollution levels.…”

Modeling study of the effects of entrainment-mixing on fog simulation in the chemistry–weather coupling model GRAPES_Meso5.1/CUACE CW

“…80 Furthermore, Zhang et al replaced the assumed aerosol number concentrations in this updated Thompson scheme with the real-time simulated aerosol number concentrations simulated by the CUACE module. 70 This modification allows for real-time activation of aerosols.…”

“…This model has been extensively applied in research related to dust, 66,67 haze/fog, and visibility (Vis) simulation. 57,58,[68][69][70][71] Additionally, it has been applied to evaluate various cloud microphysical schemes by simulating cloud microphysical properties and precipitation. Moreover, it has been used to investigate the effects of the cloud condensation nuclei concentrations on cloud microphysical and radiative properties.…”

“…72,73 Zhang et al replaced the assumed aerosol number concentrations in the Thompson scheme in the GRAPES_Meso5.1/CUACE model with the real-time simulated aerosol number concentrations simulated by the CUACE module. 70 They investigated real-time aerosol-cloud interactions, with a particular focus on regions experiencing high aerosol pollution levels.…”

Modeling study of the effects of entrainment-mixing on fog simulation in the chemistry–weather coupling model GRAPES_Meso5.1/CUACE CW

Combined effect of surface PM2.5 assimilation and aerosol-radiation interaction on winter severe haze prediction in central and eastern China

The impact of aerosol-cloud interaction on mesoscale numerical weather prediction when low-cloud and haze coexist in winter over major polluted regions of China