Redistribution of free tropospheric chemical species over West Africa: Radicals (OH and HO2), peroxide (H2O2) and acids (HNO3 and H2SO4)

► Mesoscale study: Regional Atmospheric Modelling System (RAMS)-Chemistry. ► Interaction in gas and aqueous phases with different emissions and ecosystems. ► Key features of the chemistry in equatorial atmosphere in dry and wet seasons. ► Solubility and washing out acids, peroxides and radicals by t...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2011-09, Vol.84 (11), p.1617-1629
Main Authors: Bouo, F.-X.D.B., Kouamé, J.K., Tchétché, Y., Kré, R.N., Moussé, M.L., Assamoi, P., Cautenet, S., Cautenet, G.
Format: Article
Language:English
Subjects:
Africa, Western
Applied sciences
atmosphere
Biomass
Biomass burning
burning
chemical concentration
chemical speciation
Chemical species
Clouds
Convection
Ecosystem
emissions
Exact sciences and technology
gases
Gases - chemistry
Hydrogen Peroxide - chemistry
Hydroxyl Radical - chemistry
Impact of emissions
leaching
Modelling
Models, Chemical
monsoon season
nitrates
nitric acid
Nitric Acid - chemistry
Oxidants
Peroxides
photochemistry
Pollution
Radicals
rain
Solubility
sulfates
sulfuric acid
Sulfuric Acids - chemistry
Washing
West Africa
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Summary:► Mesoscale study: Regional Atmospheric Modelling System (RAMS)-Chemistry. ► Interaction in gas and aqueous phases with different emissions and ecosystems. ► Key features of the chemistry in equatorial atmosphere in dry and wet seasons. ► Solubility and washing out acids, peroxides and radicals by the rainfalls. The purpose of this paper is to study the redistribution of chemical species (OH, HO2, H2O2, HNO3 and H2SO4) over West Africa, where the cloud cover is ubiquitously present, and where deep convection often develops. In this area, because of these cloud systems, chemical species are redistributed by the ascending and descending flow, or leached if they are soluble. So, we carry out a mesoscale study using the Regional Atmospheric Modelling System (RAMS) coupled to a code of gas and aqueous chemistry (RAMS_Chemistry). It takes into account all processes under mesh. We examine several cases following the period (November and July), with inputs emissions (anthropogenic, biogenic and biomass burning). The radicals OH and HO2 are an indicator of possibilities for chemical activity. They characterize the oxidizing power of the atmosphere and are very strong oxidants. The acids HNO3 and H2SO4 are interesting in their transformation into nitrates and sulfates in precipitation. In November, when photochemistry is active during an event of biomass burning, concentrations of chemical species are higher than those of November in the absence of biomass burning. The concentrations of nitric acid double and sulfuric acid increases 70times. In addition, the concentrations are even lower in July if there is a deep convection. Compared to measures of the African Monsoon Multidisciplinary Analysis (AMMA), the results and observations of radicals OH and HO2 are the same order of magnitude. Emissions from biomass burning increase the concentrations of acid and peroxide, and a deep convection cloud allows the solubility and the washing out of species, reducing their concentration. Rainfalls play a major role in solubility and washing out acids, peroxides and radicals in this region.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2011.05.016