The role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areas

The role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areas

Open-ocean and surf-zone sea-salt aerosol (SSA) emission parameterizations are incorporated in the CAMx aerosol model and applied over an area with an extended Archipelago (Greece), with a fine grid nested over the highly populated Attica peninsula. The maximum indirect impact of SSA on PM<su...

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Main Authors: E. Athanasopoulou, M. Tombrou, S. N. Pandis, A. G. Russell
Format: Article
Language:English
Published: Copernicus Publications 2008-10-01
Series:Atmospheric Chemistry and Physics
Online Access:http://www.atmos-chem-phys.net/8/5755/2008/acp-8-5755-2008.pdf
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spelling doaj-a8cdb7b92f36488eb64a8484f0b0a0432020-11-24T22:52:52ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242008-10-0181957555769The role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areasE. AthanasopoulouM. TombrouS. N. PandisA. G. RussellOpen-ocean and surf-zone sea-salt aerosol (SSA) emission parameterizations are incorporated in the CAMx aerosol model and applied over an area with an extended Archipelago (Greece), with a fine grid nested over the highly populated Attica peninsula. The maximum indirect impact of SSA on PM<sub>10</sub> mass (35%) is located over a marine area with moderate SSA production and elevated shipping emissions (central Aegean Sea) where SSA interacts with anthropogenic nitric acid forming sodium nitrate. SSA increases PM<sub>10</sub> levels in the Athens city center up to 25% during stable onshore winds. Under such conditions both open-ocean and surf-zone mechanisms contribute to aerosol production over Attica. A hybrid scheme for gas-to-particle mass transfer is necessary for accurately simulating semi-volatile aerosol components when coarse SSA is included. Dynamically simulating mass transfer to the coarse particles leads to a quadrupling of predicted PM<sub>10</sub> nitrate in the Athens city center and up to two orders of magnitude in its coarse mass in comparison to using a bulk equilibrium approach. http://www.atmos-chem-phys.net/8/5755/2008/acp-8-5755-2008.pdf
collection DOAJ
language English
format Article
sources DOAJ
author E. Athanasopoulou
M. Tombrou
S. N. Pandis
A. G. Russell
spellingShingle E. Athanasopoulou
M. Tombrou
S. N. Pandis
A. G. Russell
The role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areas
Atmospheric Chemistry and Physics
author_facet E. Athanasopoulou
M. Tombrou
S. N. Pandis
A. G. Russell
author_sort E. Athanasopoulou
title The role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areas
title_short The role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areas
title_full The role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areas
title_fullStr The role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areas
title_full_unstemmed The role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areas
title_sort role of sea-salt emissions and heterogeneous chemistry in the air quality of polluted coastal areas
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2008-10-01
description Open-ocean and surf-zone sea-salt aerosol (SSA) emission parameterizations are incorporated in the CAMx aerosol model and applied over an area with an extended Archipelago (Greece), with a fine grid nested over the highly populated Attica peninsula. The maximum indirect impact of SSA on PM<sub>10</sub> mass (35%) is located over a marine area with moderate SSA production and elevated shipping emissions (central Aegean Sea) where SSA interacts with anthropogenic nitric acid forming sodium nitrate. SSA increases PM<sub>10</sub> levels in the Athens city center up to 25% during stable onshore winds. Under such conditions both open-ocean and surf-zone mechanisms contribute to aerosol production over Attica. A hybrid scheme for gas-to-particle mass transfer is necessary for accurately simulating semi-volatile aerosol components when coarse SSA is included. Dynamically simulating mass transfer to the coarse particles leads to a quadrupling of predicted PM<sub>10</sub> nitrate in the Athens city center and up to two orders of magnitude in its coarse mass in comparison to using a bulk equilibrium approach.
url http://www.atmos-chem-phys.net/8/5755/2008/acp-8-5755-2008.pdf
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