Presentation is loading. Please wait.

Presentation is loading. Please wait.

2008 Field measurements 1 Field Measurements of organic aerosols Laboratory of Atmospheric Chemistry LAC : Head: Urs Baltensperger 15 Scientists/Postdocs.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "2008 Field measurements 1 Field Measurements of organic aerosols Laboratory of Atmospheric Chemistry LAC : Head: Urs Baltensperger 15 Scientists/Postdocs."— Presentation transcript:

1 2008 Field measurements 1 Field Measurements of organic aerosols Laboratory of Atmospheric Chemistry LAC : Head: Urs Baltensperger 15 Scientists/Postdocs 18 Phd students 3 Groups - Gasphase and Aerosol chemistry - Aerosol physics - Ecosystem fluxes

2 2008 Field measurements 2 Field Measurements of organic aerosols Emission characterisation EC, OM, inorganic aerosol, elements, acids, gases, aerosol size AMS, SR-XRF, IC-MS, aethalometer Transformation Trace gas oxidation, SOA formation, gasphase-aerosol partitioning, aerosol processing Smogchamber, PTR-MS, AMS, gasphase instruments; Master Chemical mechanism Ambient Measurements EC, OM, inorganic aerosol, elements, acids, gases, aerosol size Mobile van, AMS, 14 C, s-XRF, IC-MS, Aethalometer; statistical analyses Chemical Transport Modelling Particulate matter, ozone CAM-x, MM5, COSMO

3 2008 Field measurements 3 Field Measurements of organic aerosols Field experiments  Switzerland  Europe  Global

4 2008 Field measurements 4 Field Measurements of organic aerosols Locations with AMS Measurements Zürich (July/August and January) Reiden (February) Roveredo (March, December ) Härkingen (May) Payerne (June, January) Massongex (December) JFJ (Winter, Summer) Rhine valley (February) Riviera (June) Milano (June) Mobile measurements

5 2008 Field measurements 5 Field Measurements of organic aerosols Average compositions in winter ( Zürich (January) Payerne (January) Black Carbon Organic mass Nitrate Sulfate Ammonium Chloride Roveredo (December) Massongex (December) Reiden (February)

6 2008 Field measurements 6 Field Measurements of organic aerosols Overview over the winter 14 C analyses

7 2008 Field measurements 7 Field Measurements of organic aerosols EC biomass /EC tot : Spatial distribution on 29.01.2006 Bern 0.14 Dübendorf 0.33 Zürich 0.33 Tänikon 0.40 Payerne 0.42 Basel 0.38 Reiden 0.36 Sedel 0.33 Lausanne 0.19 Härkingen 0.34

8 2008 Field measurements 8 Field Measurements of organic aerosols Holzverbrennung in Roveredo (GR), Januar 2005 Roveredo (GR) 06:00 – 14:00 18:00 – 02:00 Szidat et al., GRL, 2007

9 2008 Field measurements 9 Field Measurements of organic aerosols Aerosol mass spectra Levoglucosan Wood burner (emissions) chestnut, very inefficient burning Night period in Roveredo in March, more than 80% of OC non-fossil Average in Roveredo over the whole December Mass spectra from a Motorway site in May Alfarra et al. ES&T (2007)

10 2008 Field measurements 10 Field Measurements of organic aerosols Dependence of light absorption as a function of wavelength measured by an aethalometer b abs   Absorption exponent  : a measure of the strength of the spectral variation in aerosol light absorption Example power law fit ( -2.0 ) Wood burning a -1.8 to -2.2 Traffic, diesel soot a,b -1.0 to -1.1 a Kirchstetter et al. 2004 b Schnaiter et al. 2003 & 2005 Sandradewi et al., Atmos. Environ., 2008

11 2008 Field measurements 11 Field Measurements of organic aerosols Aethalometer model to derive the contribution of woodburning and traffic to PM1 Carbonaceous material (CM) Sandradewi et al., ES&T, 2008

12 2008 Field measurements 12 Field Measurements of organic aerosols Validation of aethalometer model Sandradewi et al., ES&T, 2008 The variability of OM+BC can be explained at a site with negligible SOA Validation of aethalometer analysis with 14 C analysis 14 C Aethalo meter

13 2008 Field measurements 13 Field Measurements of organic aerosols Average diurnal cycle of the carbonaceous material, OC/EC and wood burning versus traffic contributions Sandradewi et al., ES&T, 2008

14 2008 Field measurements 14 Field Measurements of organic aerosols Fractions of BC, OM, NO 3, SO 4 and NH 4 and fossil and non-fossil contribution to EC and OC Nearly identical composition Urban backgroundHighway/rural

15 2008 Field measurements 15 Field Measurements of organic aerosols Chemical composition of PM1 with high time resolution in Zürich and Reiden (Kt. Luzern)

16 2008 Field measurements 16 Field Measurements of organic aerosols Organic aerosol sources in winter in Zurich Statistical analysis of q-AMS data in Zürich (Lanz et al., ES&T, 2008)

17 2008 Field measurements 17 Field Measurements of organic aerosols Verification by comparing source strengths with tracers Lanz et al., ES&T, 2008

18 2008 Field measurements 18 Field Measurements of organic aerosols Carbon apportionment using 14 C analysis Estimation of fossil and non-fossil SOA contribution Zürich (mean) Use of AMS analysis : - wood burning 38% - HOA 7% Assumptions : - only SOA, HOA and wood burning present - OM/OC=2 for wood burning and SOA and OM/OC=1.2 for HOA - RESULT : SOAnonfossil: 69% SOAfossil: 31% (biomass burning) OM EC Lanz et al., ACP, 2007

19 2008 Field measurements 19 Field Measurements of organic aerosols Average composition in Zürich in summer and winter Zürich (July) Zürich (January) Black Carbon Organic mass Nitrate Sulfate Ammonium

20 2008 Field measurements 20 Field Measurements of organic aerosols Chemical composition in Zürich summer and Positive Matrix Factorization of the organic matter Lanz et al., ACP (2007) Organic mass Zürich (July) Black Carbon Organic mass Nitrate Sulfate Ammonium OOA: Secondary organic aerosol HOA: mostly traffic

21 2008 Field measurements 21 Field Measurements of organic aerosols Identification of two different oxidized organic aerosol components (volatile and non-volatile) OOA probably corresponds mostly to SOA (secondary organic aerosol) Lanz et al., ACP (2007)

22 2008 Field measurements 22 Field Measurements of organic aerosols Overview over the summer 14 C analyses

23 2008 Field measurements 23 Field Measurements of organic aerosols Observation of SOA oligomerization by Laser Desorption Ionization mass spectrometer Kalberer et al., Science (2004) Time after lights on: 3.5 h 4.5 h 6.5 h High molecular masses are found that are not predicted by known gasphase oxidation chemistry

24 2008 Field measurements 24 Field Measurements of organic aerosols Oligomers also found in the ambient air Pattern of Zurich points to  -pinene rather than TMB (or other anthrop. precursors) Baltensperger et al. Faraday Disc. (2005)

25 2008 Field measurements 25 Field Measurements of organic aerosols Levoglucosan measurements versus 14 C and aethalometer analyses - Are different slopes caused by different emission properties or by atmospheric processing ?? Sandradewi et al., ACPD (2008)

26 2008 Field measurements 26 Field Measurements of organic aerosols EUROPEAN CARBOSOL project Gelencser et al., JGR, 2007

27 2008 Field measurements 27 Field Measurements of organic aerosols Levoglucosan yearly cycles at different sites in Europe

28 2008 Field measurements 28 Field Measurements of organic aerosols Results of source apportionment of OA (PM2.5) during the CARBOSOL project - SOA, especially non-fossil very important - EC from fossil fuel mostly more important than EC from biomass burning - OC from wood burning often more important than from traffic - OC from primary biogenic sources less than 10% Gelencser et al., JGR, 2007

29 2008 Field measurements 29 Field Measurements of organic aerosols TORCH 2003 campaign site TORCH campaign at Writtle, Essex July/August 2003 Field measurements by: Univ. York Univ. Manchester Univ. Leeds Univ. East Anglia Univ. Leicester Univ. Aberystwyth

30 2008 Field measurements 30 Field Measurements of organic aerosols Observed and optimised simulated organic aerosol (MCM) POA: estimated primary organic aerosol optimised simulated OA (MCM) Johnson et al., ACP, 2006

31 2008 Field measurements 31 Field Measurements of organic aerosols Simulated OA for 9 case studies  Optimisation required: Assumption of a background concentration of a persistent (i.e. non- volatile) organic aerosol (model initialisation): Background (hourly-mean) OA = 0.7  g m -3 Scaling of partitioning coefficients for semi-volatile products of VOC oxidation: Scaling factor = 500 (compared with ca. 10  100 for chamber simulations) Johnson et al., ACP, 2006

32 2008 Field measurements 32 Field Measurements of organic aerosols Cabada et al., AS&T, 2004

33 2008 Field measurements 33 Field Measurements of organic aerosols Zhang et al., ACP, 2005 Cabada et al., AS&T, 2004 Primary versus secondary OC in Pittsburgh from EC-OC method and AMS data

34 2008 Field measurements 34 Field Measurements of organic aerosols Measured tracers for different SOA precursors Kleindienst et al., Atmos. Environ., 2007

35 2008 Field measurements 35 Field Measurements of organic aerosols Different SOA, biomass burning and other OC Kleindienst et al., Atmos. Environ., 2007

36 2008 Field measurements 36 Field Measurements of organic aerosols Estimated primary and secondary organic carbon from tracer measurements Lewandowski et al., ES&T, 2008

37 2008 Field measurements 37 Field Measurements of organic aerosols Contribution of different precursors to SOA and SOC Lewandowski et al., ES&T, 2008

38 2008 Field measurements 38 Field Measurements of organic aerosols Weber R. et al., JGR, 2007

39 2008 Field measurements 39 Field Measurements of organic aerosols Weber R. et al., JGR, 2007

40 2008 Field measurements 40 Field Measurements of organic aerosols Weber R. et al., JGR, 2007

41 2008 Field measurements 41 Field Measurements of organic aerosols Weber R. et al., JGR, 2007

42 2008 Field measurements 42 Field Measurements of organic aerosols Weber R. et al., JGR, 2007

43 2008 Field measurements 43 Field Measurements of organic aerosols Relative composition of organics, sulfate, ammonium, nitrate

44 2008 Field measurements 44 Field Measurements of organic aerosols Relative composition of hydrocarbon-like and oxygenated organic aerosol in different parts of the world

45 2008 Field measurements 45 Field Measurements of organic aerosols Summary  Black/elemental carbon in Switzerland mostly due to fossil sources (diesel)  Organic mass is in Switzerland dominated by OOA (probably mostly SOA), in both winter and summer dominated by non-fossil contributions (SOA from biogenic precursors and OA/SOA from wood burning)  In Europe, at many places wood burning is considered to be more important than previously thought. In winter it is and will be more important than traffic because of the emission reductions due to particulate filters of diesel vehicles  Also in the United States, non-fossil OA is dominating over fossil OA. However SOA still seems to be connected to anthropogenic activity.. Explanation not clear..  At many places of the world, the most important fraction of PM1 is the organic aerosol. At most places, the oxygenated aerosol is much more important than the hydrocarbon-like aerosol  Measurements show often more OA (especially OOA or SOA) than expected by models

46 2008 Field measurements 46 Field Measurements of organic aerosols FUTURE  More combined off-line and on-line analyses at the same location  More advanced long-term monitoring  Combination of various stations and aircraft data like in Mexico City  More smogchamber/flow tube versus field comparisons for process studies  More combination of chemical and physical characterization of the aerosol  Further improvement of models with inclusion of new processes necessary

Download ppt "2008 Field measurements 1 Field Measurements of organic aerosols Laboratory of Atmospheric Chemistry LAC : Head: Urs Baltensperger 15 Scientists/Postdocs."

Similar presentations

Investigation of primary and secondary aerosols from wood combustion with a high resolution time of flight aerosol mass spectrometer Maarten Heringa Laboratory.

Investigation of primary and secondary aerosols from wood combustion with a high resolution time of flight aerosol mass spectrometer Maarten Heringa Laboratory.
1 Policies for Addressing PM2.5 Precursor Emissions Rich Damberg EPA Office of Air Quality Planning and Standards June 20, 2007.

1 Policies for Addressing PM2.5 Precursor Emissions Rich Damberg EPA Office of Air Quality Planning and Standards June 20, 2007.
Atmospheric Aerosol From the Source to the Receptor Insights from the Pittsburgh Supersite Spyros Pandis, Allen Robinson, and Cliff Davidson Department.

Atmospheric Aerosol From the Source to the Receptor Insights from the Pittsburgh Supersite Spyros Pandis, Allen Robinson, and Cliff Davidson Department.
Aerosol Composition in Los Angeles During the 2010 CalNex Campaign Studied by High Resolution Aerosol Mass Spectrometry CalNex Data Analysis Workshop,

Aerosol Composition in Los Angeles During the 2010 CalNex Campaign Studied by High Resolution Aerosol Mass Spectrometry CalNex Data Analysis Workshop,
Development of a Secondary Organic Aerosol Formation Mechanism: Comparison with Smog Chamber Experiments and Atmospheric Measurements Luis Olcese, Joyce.

Development of a Secondary Organic Aerosol Formation Mechanism: Comparison with Smog Chamber Experiments and Atmospheric Measurements Luis Olcese, Joyce.
FINE AEROSOL COMPOSITION IN NORTH AMERICA Annual mean PM 2.5 concentrations (NARSTO, 2004) Current air quality standard is 15  g m -3.

FINE AEROSOL COMPOSITION IN NORTH AMERICA Annual mean PM 2.5 concentrations (NARSTO, 2004) Current air quality standard is 15  g m -3.
Sources of PM 2.5 Carbon in the SE U.S. RPO National Work Group Meeting December 3-4, 2002.

Sources of PM 2.5 Carbon in the SE U.S. RPO National Work Group Meeting December 3-4, 2002.
Using field campaigns results to reduce uncertainties in inventories Wenche Aas, Knut Breivik and Karl Espen Yttri And material from: Eiko Nemitz (CEH,

Using field campaigns results to reduce uncertainties in inventories Wenche Aas, Knut Breivik and Karl Espen Yttri And material from: Eiko Nemitz (CEH,
1 Recent PM 2.5 Trends in Georgia André J. Butler Mercer University EVE 290L 14 April, 2008.

1 Recent PM 2.5 Trends in Georgia André J. Butler Mercer University EVE 290L 14 April, 2008.
Section highlights Organic Aerosol and Field Studies.

Section highlights Organic Aerosol and Field Studies.
Nolwenn PERRON Göteborg, 25.06. 2008 1 OC and EC separation for 14 C analyses N. Perron 1, L. Besnier 1, S. Szidat 2, A. S. H. Prévôt.

Nolwenn PERRON Göteborg, OC and EC separation for 14 C analyses N. Perron 1, L. Besnier 1, S. Szidat 2, A. S. H. Prévôt.
Source apportionment of Swiss carbonaceous aerosols using radiocarbon analyses of different fractions References: S. Szidat et al., 2007: Dominant impact.

Source apportionment of Swiss carbonaceous aerosols using radiocarbon analyses of different fractions References: S. Szidat et al., 2007: Dominant impact.
Title PM2.5: Comparison of modelling and measurements Presented by Hilde Fagerli SB, Geneva, September 7-9, 2009.

Title PM2.5: Comparison of modelling and measurements Presented by Hilde Fagerli SB, Geneva, September 7-9, 2009.
BIOGENIC AEROSOLS AND AIR QUALITY IN THE MEDITERRANEAN AREA BOND John Bartzis.

BIOGENIC AEROSOLS AND AIR QUALITY IN THE MEDITERRANEAN AREA BOND John Bartzis.
The semi-volatile nature of secondary organic aerosol (SOA) in the Mexico City Metropolitan Area November 2, 2007 EAS Graduate Student Symposium Christopher.

The semi-volatile nature of secondary organic aerosol (SOA) in the Mexico City Metropolitan Area November 2, 2007 EAS Graduate Student Symposium Christopher.
Evaluation of Secondary Organic Aerosols in Atlanta

Evaluation of Secondary Organic Aerosols in Atlanta
Christian Seigneur AER San Ramon, CA

Christian Seigneur AER San Ramon, CA
Air Quality Impacts from Prescribed Burning Karsten Baumann, PhD. Polly Gustafson.

Air Quality Impacts from Prescribed Burning Karsten Baumann, PhD. Polly Gustafson.
1 Modelling Activities at LAC (PSI) in Switzerland Ş. Andreani-Aksoyo ğ lu, J. Keller, I. Barmpadimos, D. Oderbolz, A.S.H. Prévôt Laboratory of Atmospheric.

1 Modelling Activities at LAC (PSI) in Switzerland Ş. Andreani-Aksoyo ğ lu, J. Keller, I. Barmpadimos, D. Oderbolz, A.S.H. Prévôt Laboratory of Atmospheric.
SECONDARY ORGANIC AEROSOLS WORKSHOP OVERVIEW John G. Watson Desert Research Institute, Reno, NV February 5, 2002.

SECONDARY ORGANIC AEROSOLS WORKSHOP OVERVIEW John G. Watson Desert Research Institute, Reno, NV February 5, 2002.

Similar presentations

Ads by Google