Joakim Pagels - PowerPoint PPT Presentation

1 / 15
About This Presentation
Title:

Joakim Pagels

Description:

Secondary Aerosol Formation from Combustion Aerosols Joakim Pagels Div. Aerosol Technology (EAT) Objectives Ongoing Projects Secondary Aerosol Formation from ... – PowerPoint PPT presentation

Number of Views:111
Avg rating:3.0/5.0
Slides: 16
Provided by: Own2785
Category:

less

Transcript and Presenter's Notes

Title: Joakim Pagels


1
Joakim Pagels
Secondary Aerosol Formation from Combustion
Aerosols
  • Div. Aerosol Technology (EAT)

2
Objectives
?
  • Improved understanding of the contribution from
    combustion sources to secondary aerosol
    formation, importance for both health and climate
  • Primary and secondary emission factors
  • Influence of transformation on composition,
    morphology, hygroscopic
  • properties and optical properties
  • Implement in-situ techniques to determine
    composition and morphology
  • Sources studied in chamber upon UV and O3
    exposure
  • Biomass combustion/Wood smoke emissions
  • Engine emissions
  • Indoor sources, e.g. Incense, Fragrance products,
  • Building material etc
  • Field measurements in indoor and outdoor air
  • Identify SOA signatures in indoor and outdoor air
  • Transformations from outdoor to indoor air
  • Team Joakim Pagels, Mats Bohgard, Anders
    Gudmundsson, Christina Isaxon, Erik Swietlicki,
    Pontus Roldin,....... new diploma workers and
    external co-workers

3
Ongoing Projects
  • Secondary Aerosol Formation from
    Anthropogenic Combustion Sources.
  • Partners Erik Swietlicki, Copenhagen
    University (Merete Bilde), Umeå University
    (Christoffer Boman), Insbruck University (Armin
    Wisthaler)
  • Funding Period (2008-2010, 2.8 MSEK)
  • Single Particle Chemical Composition and Mixing
    Characteristics of Fine and Ultrafine Particles
    in Indoor and Outdoor Air
  • Partners Erik Swietlicki
  • Funding Period (2007-2010 22 year Research
    Assistantship, 1.4 1.4 MSEK)
  • Aerosol Mass Spectrometry for Characterisation
    of Particles in Flue gases from Wood and Crop
    Fuels - A tool for Minimising Emissions.
  • Partners Erik Swietlicki, UmeÃ¥ University
    (Christoffer Boman)
  • Funding Period (2008-2009, 0.5 MSEK)
  • Equipment for Research on Aerosols and their
    Effects on Climate and Human Health Funding to
    buy a HR-TOF-Aerosol Mass Spectrometer
  • PI Erik Swietlicki, Partners CAST
  • Funding Period (2007, 4.5 MSEK)

4
Primary Biomass Emissions
Efficient Hot Airstarved Low
Temp.
5
Secondary Aerosol Formation
 

VOCs
 
6
Ageing of diesel emissions
Robinson et al. 2007 Science
7
Ageing of soot
8
Ageing of soot
Fresh Soot
H2SO4 coated Soot
9
Ageing of soot
Fresh Soot
H2SO4 coated Soot
  • Pagels et al. 2008, Khalizov et al. 2008 to be
    submitted to AST

10
(No Transcript)
11
Aerosol Particle Mass analyzer (APM) (Ehara et
al., 1997)
Inner electrode
Aerosol entrance

r2
r1
High voltage
w
Outer electrode
Mass classified aerosol exit
Z
  • Select particles of known mass even
  • for agglomerates
  • In-situ measurment of particle morphology
  • Determine mass fractions of condensed
  • species in secondary aerosol formation

12
Planned activities
  • 2008
  • Implementation of Aerosol Mass Spectrometer
    PhD/MSc projects
  • Pilot study on ageing of indoor combustion
    aerosols (incense and ETS) using O3 as oxidant.
  • Field measurements in Vavihill
  • Implementation of Aerosol Particle Mass Analyzer
    PhD/MSc project
  • Morphology and Mass-Mobility relationship of
    welding and candle soot agglomerates.
  • Preparing aerosol chamber for UV exposure
    experiments
  • 2009-2010
  • Measurements of fresh and aged wood smoke in
    Umeå.
  • Measurements of fresh and aged engine exhaust in
    Chamber.
  • Field measurements using AMS in indoor and
    outdoor air

13
Other Projects/Long Term Goals
  • A detailed understanding of the processes
    involved in transforming combustion aerosols in
    outdoor and indoor environments.
  • To predict influence of processing on chemical
    composition, hygroscoppic properties, optical
    properties, morphology and other health and
    climate relevant properties
  • Influence of chemical composition,
    morphology/surface area/particle size on health
    effects of airborne particles
  • Lung deposition of highly agglomerated nano
    particles using modified RESPI
  • Apply the AMS to measure chemically resolved lung
    deposition
  • Cell exposures to complement human exposures and
    allow detailed studies on the influence of
    composition, size surface are etc on health
    effects
  • Building a deposition chamber for cell exposures
    which mimics deposition in the respiratory tract
  • Use secondary combustion aerosols in human
    exposure studies

14
Markers for Wood- and Cellulose-Burning
  • Any Wood, Biomass, Paper, Wood Products,
    Cellulose containing Products

Levoglucosan
15
(No Transcript)
Write a Comment
User Comments (0)
About PowerShow.com