Add to ORKGIn this paper, we will present a comprehensive study on the S(lV) oxidation by H2O2 and radicals, as well as cloud acidification in different combinations of NOx and HCs in a time-dependent box cloud model. The dominant S(lV) oixidation by radicals in this paper has a significant atmospheric implication in cloud modeling. If cloud occurs in the morning or the evolution of cloud lasts very long, radicals should be incorporated into the aqueous chemical mechanism to oxidize S(lV), because H2O2g is depleted very soon in the atmosphere of high SO2g concentration.EI
Secondary sulfate plays a crucial role in forming marine aerosol, which in turn is an important sour...
A sulfur cycle model is coupled to a global chemistry-climate model. The simulated surface sulfate c...
A comprehensive DMS oxidation reaction mechanism was added to a chemical box model (Model of Chemist...
Clouds play a major role in the production of acids in the atmosphere. One of the most studied in-c...
A one-dimensional photochemical model for cloud-topped boundary layers is developed which includes d...
Sulfur dioxide (SO2) is a major atmospheric pollutant and precursor of sulfate aerosols, which influ...
Clouds present substantial concentrations of liquid-phase water, which can potentially serve as a me...
Recently, realistic simulation of nitrous acid (HONO) based on the HONO/NOx ratio of 0.02 was found ...
The chemistry of OH in a remote nonprecipitating tropical cloud is studied with a coupled gas-phase ...
The rates and mechanisms of both gas and liquid phase reactions for the oxidation of sulfur dioxide ...
A parameterization that describes in-cloud oxidation of S(IV) by hydrogen peroxide and ozone, has be...
Oceans emit large quantities of dimethyl sulfide (DMS) to the marine atmosphere. The oxidation of DM...
Dimethyl sulfide (DMS) is the dominant biogenic sulfur compound in the ambient marine atmosphere. Lo...
Secondary organic aerosols (SOA) affect visibility, health and global climate. Current chemical tran...
Atmospheric sulfate has impacts ranging from health concerns to climate change. Traditional photolyt...
Secondary sulfate plays a crucial role in forming marine aerosol, which in turn is an important sour...
A sulfur cycle model is coupled to a global chemistry-climate model. The simulated surface sulfate c...
A comprehensive DMS oxidation reaction mechanism was added to a chemical box model (Model of Chemist...
Clouds play a major role in the production of acids in the atmosphere. One of the most studied in-c...
A one-dimensional photochemical model for cloud-topped boundary layers is developed which includes d...
Sulfur dioxide (SO2) is a major atmospheric pollutant and precursor of sulfate aerosols, which influ...
Clouds present substantial concentrations of liquid-phase water, which can potentially serve as a me...
Recently, realistic simulation of nitrous acid (HONO) based on the HONO/NOx ratio of 0.02 was found ...
The chemistry of OH in a remote nonprecipitating tropical cloud is studied with a coupled gas-phase ...
The rates and mechanisms of both gas and liquid phase reactions for the oxidation of sulfur dioxide ...
A parameterization that describes in-cloud oxidation of S(IV) by hydrogen peroxide and ozone, has be...
Oceans emit large quantities of dimethyl sulfide (DMS) to the marine atmosphere. The oxidation of DM...
Dimethyl sulfide (DMS) is the dominant biogenic sulfur compound in the ambient marine atmosphere. Lo...
Secondary organic aerosols (SOA) affect visibility, health and global climate. Current chemical tran...
Atmospheric sulfate has impacts ranging from health concerns to climate change. Traditional photolyt...
Secondary sulfate plays a crucial role in forming marine aerosol, which in turn is an important sour...
A sulfur cycle model is coupled to a global chemistry-climate model. The simulated surface sulfate c...
A comprehensive DMS oxidation reaction mechanism was added to a chemical box model (Model of Chemist...