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58 A modeling perspective of the ChArMEx intensive campaign: origin of photo-oxidant and organic aerosol formation Arineh Cholakian, Matthias Beekmann,

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Presentation on theme: "58 A modeling perspective of the ChArMEx intensive campaign: origin of photo-oxidant and organic aerosol formation Arineh Cholakian, Matthias Beekmann,"— Presentation transcript:

1 58 A modeling perspective of the ChArMEx intensive campaign: origin of photo-oxidant and organic aerosol formation Arineh Cholakian, Matthias Beekmann, Guillaume Siour, Augustin Colette, Isabelle Coll, Valerie Gros, Nicolas Marchand, Jean Sciare, Aurélie Colomb, François Gheusi, Stéphane Sauvage EGU Vienna, 17-22 April 2016

2 In the Mediterranean : Higher than normal concentrations of photo-oxydants and secondary organic aerosols Multiple emission sources High population density around the basin Sensitive to climate change Anthropogenic Biogenic Dust Ships Why the Mediterranean?

3 Better understanding of the role of atmospheric chemical processing on the photochemical oxidants budget, VOCs, and the secondary organic aerosol (SOA) formation downwind of continental plumes and in aged air masses. Better understanding of the origins and sources of the high SOA (and particulate matter) and oxidant concentrations observed in the western Mediterranean in summer Evaluate and improve existing chemistry-transport models and model algorithms of PM formation General objectives of the ChArMEx campaign (Chemistry)

4 Model setup Domains Emissions Meteorological data Initial/boundary conditions Chimere Concentration of selected species Observations Chemistry scheme SOA scheme

5 Model setup Domain Resolution 1 30km 2 10km 3 3km 4 1km

6 Are the simulations representative of the domain? Real topography 10km simulation 1km simulation Altitude of observation site: real :520m 10km : 80m 1km :320m Cape Corsica obs. site

7 Are the simulations representative of the domain? Look at neigbouring points  No cell with the right altitude  Extrapolate towards the right altitude Non-linear regression for Ozone Altitude (m) Concentration (ppb) Cell values

8 Are the simulations representative of the domain? BC concentrations : 37% uncertainty NO x concentrations : 108% uncertainty SO 4 2- concentrations : 19% uncertainty Ozone concentrations : 4% uncertainty Organic aerosol concentrations : 10% uncertainty Cape Corsica, july-august 2013 BC Observations Simulations Uncertainty Organic aerosols BCSimulationsPredictions Mean0.310.29 R0.360.33 RMSE0.170.19 Bias-0.07-0.09 OASimulationsPredictions Mean6.186.05 R0.540.53 RMSE3.243.15 Bias2.542.41

9 Model setup Domains Emissions Meteorological data Initial/boundary conditions Chimere Concentration of selected species Observations Chemistry scheme SOA scheme

10 Explications on what schemes are added Chimere standard scheme VBS standard scheme +biogenic ageing +anthropogenic ageing +fragmentation +formation of non-volatile SOA Emissions Semi-volatile on gas phase Particulates Functionalization Gas/particulate distribution Fragmentation Non-volatile SOA formation SVOC 10 3 10 2 10 1 10 0 VOC SOA g p Pun et seigneur 2006 Robinson et al 2009 Shrivastava et al 2015

11 Comparison of different schemes Chimere standard scheme VBS scheme + biogenic ageing VBS modified scheme

12 Simulation-observation comparison for modified VBS scheme VBS standard scheme +biogenic ageing +anthropogenic ageing +fragmentation +formation of non-volatile SOA Observations for Cape Corsica, july-august 2013 LVOOA 88.3% HOA 1.9% SVOOA 9.8% LVOOA 88% HOA 4% SVOOA 8% Simulations Observations

13 Simulation-observation comparison for modified VBS scheme VBS standard scheme +biogenic ageing +anthropogenic ageing +fragmentation +formation of non-volatile SOA Observations for Cape Corsica, july-august 2013 U Bern, S. Szidat Simulations21/07-22/07Observations21/07-22/07 Fossil 29.5% Non-fossil 70.5% Fossil 20.7% Non-fossil 79.3% Simulations28/07-29/07Observations28/07-29/07 Fossil 26.8% Non-fossil 73.2% Fossil 18.8% Non-fossil 81.2%

14 Structure of VBS modified scheme bSOA OA µg/m3 %

15 Conclusion The uncertainty in the 1km simulations with respect to orography is most for BC/NOx and least for ozone/organic aerosols BC/NOx are very sensitive to altitude change, Ozone/organic aerosols are much less sensitive. Fragmentation schemes and formation of non-volatile aerosols are important factors in the simulation of organic aerosols The modified VBS scheme corresponds better with mass, 14C observations and PMF results The continental biogenic secondary aerosols dominate in total organic aerosols except in the golf of Genoa where the anthropogenic part is near 50%

16 Thank you for your attention ! Thesis sponsered by: EGU Vienna, 17-22 April 2016 This work was performed using HPC resources from GENCI-[TGCC/CINES/IDRIS] (Grant 2016- t2015017232).

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