2016 Aarhus
19
NOSA 2016 Aarhus NOSA symposium Aarhus, 4-6 April 2016 Program
Transcript of 2016 Aarhus
NOSA
2016 Aarhus
NOSA symposium
Aarhus, 4-6 April 2016
Program
Scientific Program
Monday, 04.04.16
12:00 – 12:30 Registration, Dept. of Chemistry, Aarhus University, Langelandsgade 140
12:30 – 13:30 Aerosol Characterization Tutorial by Jason D. Surratt
13:30 – 14:00 Coffee and Exhibition
14:00 – 15:00 Aerosols and Health Tutorial by Michael Brauer
15:00 – 16:45 Lab Tours
17:00 – 18:30 Ice Breaker, Aarhus Botanical Gardens, Peter Holms Vej
Tuesday, 05.04.16
8:00 – 9:00 Registration, Dept. of Chemistry, Aarhus University, Langelandsgade 140
9:00 – 9:05 Welcome, Birgit Schiøtt, Head of Dept. of Chemistry, Aarhus University
Oral Session 1: Chemical Composition and Properties of Aerosols (Chair: Marianne Glasius)
9:05 – 9:45 Plenary Lecture by Jason D. Surratt: Multiphase Chemistry Promotes Isoprene-
derived Secondary Organic Aerosol Formation: Implications for Air Quality,
Climate and Public Health
9:45 – 10:00 Jonas Elm: Implication of autoxidation products in atmospheric new particle
formation
10:00 – 10:15 Pontus Roldin: Contribution of ELVOCs to new particle formation and growth in the
atmosphere
10:15 – 10:45 Coffee and Exhibition
Oral Session 1 continues (Chair: Mikael Ehn & Pontus Roldin)
10:45 – 11:00 Kasper Kristensen: Studies in the New Cold-Room Smog Chamber at Aarhus
University: Effect of Sub-zero Temperatures on the Formation of Extremely Low
Volatility Organics from alpha-pinene Oxidation
11:00 – 11:15 Cameron Faxon: Toluene SOA production in low and high NOx conditions: Nitrate
formation and characterization in a PAM reactor
11:15 – 11:30 Rafal Szmigielski: Characterization of aqueous-phase isoprene secondary organic
aerosol using triple quadrupole mass spectrometry and high resolution
measurements
11:30 – 11:45 Thomas Kristensen: Phase state of and deposition ice nucleation on secondary
organic aerosol particles
11:45 – 12:45 Lunch, Department of Chemistry Canteen
Oral Session 2: Aerosols and Health (Chair: Torben Sigsgaard)
12:45 – 13:25 Plenary Lecture by Michael Brauer: A global perspective on particulate matter air
pollution and health
13:25 – 13:40 Taj Tahir: Short-term associations between NO2 levels and Asthma visits to primary
health care. Does background air pollution levels alter the associations?
13:40 – 13:55 Mats Bohgard: Human exposure studies of airborne particles from various realistic
aerosol sources
13:55 – 14:25 Coffee and Exhibition
Oral Session 2 continues (Chair: Joakim Pagels)
14:25 – 14:40 Jenny Rissler: Not every lung looks the same - aerosol particle deposition versus
lung morphology
14:40 – 14:55 Yuduo Zheng: Cytokines and ROS generation in human whole blood induced by
combustion particles
14:55 – 15:10 Jakob Löndahl: A method to calculate alveolar dimensions from recovery of inhaled
nanoparticles
15:10 – 15:25 Kirsten Kling: Deposition of Au ultra-fine particles in the airways of mice
15:30 – 17:00 Poster Session, Interdisciplinary Nanoscience Center
18:30 – 22:00 Conference Dinner, Centralværkstedet, Værkmestergade 9
Wednesday, 06.04.16
Oral Session 3: Aerosol Formation and Growth (Chair: Merete Bilde)
9:00 – 9:40 Plenary Lecture by Markku Kulmala: Atmospheric new particle formation and
growth: from molecular clustering to global/regional impact
9:40 – 9:55 Daniela Wimmer: Observations of molecular clusters and nucleation mode particles
in the Amazon
9:55 – 10:10 Kurt Mikkelsen: Rayleigh light scattering properties of atmospheric molecular
clusters consisting of sulfuric acid and bases
10:10 – 10:40 Coffee and Exhibition
Oral Session 4: Atmospheric Aerosol Studies (Chair: Jonathan Merrison)
10:40 – 11:20 Plenary Lecture by Bernadett Weinzierl: Long-range transport of aerosols: new
insights from airborne measurements and model simulations
11:20 – 11:35 Miikka Dal Maso: Observations of primary and secondary road traffic emissions
across European highways using a mobile measurement unit and a laminar flow
chamber
11:35 – 11:50 Joakim Pagels: Mixing-State of Black Carbon in Fresh and Processed Emissions
from Biomass Combustion – Implications for Effects on Health and Short-lived
Climate Forcing
11:50 – 12:40 Lunch, Department of Chemistry Canteen
12:40 – 13:40 NOSA annual meeting
Oral Session 4 continues (Chair: Andreas Massling)
13:40 – 13:55 Bernadette Rosati: Hygroscopic properties of atmospheric aerosol particles during
CAEsAR 2014
13:55 – 14:10 Juan C. Acosta Navarro: Arctic climate response to regional aerosol emission
changes between 1980 and 2005
14:10 – 14:25 Nina Sarnela: Arctic aerosol composition in Northern Greenland
14:25 – 14:40 Meilee Ling: Heterogeneous Ice Nucleation of Bacteria Ice Nucleation Active
Protein
14:40 – 14:55 H.-C. Hansson: IGBP, IGAC, ILEAPS, Future Earth? What is that and what is it
good for?
14:55 – 15:15 Awards, Closing remarks, Farewell
Map of Aarhus University
Conference Venue
Department of Chemistry
Langelandsgade 140
Ice Breaker
Map of Aarhus City center
Conference Venue
Department of Chemistry
Ice Breaker
Train Station
Conference Dinner,
Værkmestergade 9
Invited speakers
Michael Brauer
Professor
Faculty of Medicine
School of Population and Public Health
The University of British Columbia, Canada
Markku Kulmala
Academy Professor
Department of Physics
Division of Atmospheric Sciences
University of Helsinki, Finland
Jason D. Surratt
Associate Professor
Department of Environmental Sciences and Engineering
University of North Carolina (UNC) at Chapel Hill, USA
Bernadett Weinzierl
Professor
Faculty of Physics
Aerosol Physics & Environmental Physics
University of Vienna, Austria
Exhibitions
AIRMODUS
Airmodus offers Particle Size Magnifier systems that allow you to detect particles as small as 1 nm
in diameter; easy to use Condensation Particle Counters with a cut-off size fit for your measurement
needs; and special mass spectrometer inlets for the detection of challenging gaseous compounds.
Airmodus products enable the detection and monitoring of ultrafine particles and the early stages of
aerosol particle formation. Airmodus expertise serves the purposes of atmospheric sciences and
aerosol research, as well as any industrial applications where nano sized particles are generated on
purpose or as an unwanted by-product. Airmodus technologies fill the gap between traditional aerosol
particle size distribution measurements and gas phase monitoring. Researchers can now observe
clusters of molecules and the nucleated particles when they are as small as 1 nm. And, further learn
about the growth of the particles using the activation spectra of 1-4 nm particles, both charged and
neutral.
DEKATI Ltd.
Dekati Ltd. has provided high quality instrumentation for fine particle measurements successfully for
over 20 years. Our measurement solutions include complete fine particle measurement setups
including both sample conditioning and particle detection for <10µm particles.
The highlights of our product line include the ELPI®+ product family that enables real-time
measurement of particle size distribution 6 nm-10 µm and post-measurement chemical analysis of the
size classified, collected samples. The High Temperature version of the ELPI®+ additionally allows
direct measurement of up to 180 °C aerosol sample without the need to cool the sample. The latest
addition to the ELPI®+ product family is the High Resolution ELPI®+ that gives particle size
distribution in up to 500 size classes making it a superior tool for detailed particle size distribution
analysis.
GRIMM AEROSOL TECHNIK GmbH & Co.
Address: Dorfstraße 9, D-83404 Ainring, Germany
Phone: +49-8654-578-0
Fax: +49-8654-578-35
E-mail: [email protected]
Web: www.grimm-aerosol.com
GRIMM Aerosol Technik GmbH & Co. KG was founded over 30 years ago by Dr.-Ing. Hans-Jürgen
Grimm in Bavaria/Germany. Today the company is one of the worldwide leading companies in the
field of high-tech aerosol measurement instrumentation. Since October 2015, GRIMM is a member
of DURAG GROUP.
GRIMM offers a wide range of complete solutions for measurement of fine and ultrafine aerosols.
Instruments such as Environmental Dust Monitors, Aerosol Spectrometers, Particle Counters and
Sizers, Filter Testers, and Aerosol Generators consistently meet the requirements of customers in
research and industry.
GRIMM will support you choosing the right instruments for particular applications, e.g. for ambient
air, emission, occupational health, filter efficiency and/or exhaust gas measurements, for quality
control and for pharmaceutical, atmospheric or epidemiological studies.
Worldwide first-class customer service is offered through our subsidiaries and a close network of
international representatives.
HUGO TILLQUIST
Hugo Tillquist AB offer high quality measuring instruments for gas and particle measurement with
continuous monitoring. We have developed our business idea to include not only the sale of
individual instruments and complete measuring stations for measuring air quality, we also offer
complete measurement services based on our own stations and delivers pre-validated and controlled
air quality data to the end customer.
For the measurement of particles we offer high quality products for continuous PM measurements in
outdoor air as well as personal exposure measurements and scientific research applications. Our
portfolio includes condensing particulate counters and mass spectrometers for nanoparticle
measurements, nephelometers for aerosol studies, aethalometers for BC measurements, Realtime
XRF analysis of PM and much more. Please visit us in the booth during NOSA 2016 and find out
more of the opportunities that we can offer.
TSI, Inc.
Website: www.tsi.com
As an international leader in particle measurement technology for over 50 years, TSI Incorporated
designs and manufactures precision instruments which are recognized worldwide. During NOSA
symposium 2016, the TSI team and Danalytic, the longtime partner and distributor of TSI in Denmark,
will present:
Newest components like the Nano Enhancer 3777 and the 1 nm DMA 3086 of the Scanning
Mobility Particle Sizer SMPS® which pushes the limits of detection down to 1 nm.
The new Condensation Particle Counter 3772-CEN designed for the monitoring of ultrafine
particles in atmospheric aerosol and fully compliancy to CEN/TS 16976.
Well-established portable and stationary systems for wide-range particle sizing, like
NanoScan SMPS 3910, OPS 3330 and SMPS 3938.
Stop by at our booth and learn more about our products!
ZENZORS
ZenZors A/S is a supplier of gas alarm, gas detection, particle measurement and gas analysis solutions
for business and government organizations, both portable as well as stationary. With years of
experience in measurement and sample collection equipment for environmental, health and safety and
process industry we provide solutions that are tested and safe. ZenZors international network of
contacts and knowledge of local conditions, ensure that the selected solutions presented to our
customers, meet user requirements, regulatory requirements and the need for evolution.
We represent leading and innovative manufacturers in the industry. Cooperation with them; our
customers' advantage.
Contact us early in the project, maybe we have a different solution than the one you had in mind.
Poster Presentations
P01: Alois, S., and Merrison, J.: Laboratory study of solid aerosol electrification
P02: Alsved, M., Civilis, A., Ekolind, P., Tammelin, A., Erichsen Andersson, A., Jakobsson, J.,
Svensson, T., Ramstorp, M., Santl Temkiv, T., Larsson, P.A., Bohgard, M., Löndahl, J.: Airborne
bacteria during surgery in hospital operating rooms with different ventilation systems
P03: Andersen, C., Eriksson, A. C., Krais, A.M., Nordin, E. Z., Wierzbicka, A., Gudmundsson, A.,
Pagels, J.H.: Quantification of Organic Aerosols by Aerosol MS – Examples of phthalate esters in
indoor air environments
P04: Ausmeel1, S., Kristensson, A., Psichoudaki, M., Faxon, C., Kuuluvainen, H., Thomson, E.,
Eriksson, A., Mellqvist, J., Pettersson, J., Hallquist, Å., Svenningsson, B., Hallquist, M.: Black
carbon emission factors from shipping
P05: Bering, M.S., Hansen, A.M.K., Yee, L. D., de Sá, S.S., Alexander, M. L., Martin, S.T.,
Goldstein, A.H., Glasius, M.: Anthropogenic effects on formation of organosulfates from biogenic
precursors near a megacity in the Amazon
P06: Bønløkke, J.H., Andersen, M.S., Brandt, J., Christensen, J.H., Geels, C., Hansen, K.M., Hertel,
O., Im, U., Jensen, S.S., Ketzel, M., Nielsen, O-K., Plejdrup, M.S., Sigsgaard, T.: An update on
mortality in Denmark caused by fine particulate matter air pollution
P07: Chen, X., Kerminen V-M., Paasonen, P., Manninen, H.E., Kulmala, M.: The ionising capacity
in the lower atmosphere and its connection to air ion observation
P08: Dada, L., Mazon, S.B., Paasonen, P., Kontkanen, J., Petäjä, T., Kerminen V.-M., Bäck, J.,
Kulmala, M.: Long-term analysis of non-cloudy new particle formation events over Hyytiälä
P09: Dahlkötter F., Krinke, T., Tritscher, T., Bischof, O., Spielvogel, J.: Extending particle size
distribution measurements down to 1 nm
P10: Duplissy, J., Nguyen, Q., Thomson, E.S., Ahonen, L., Kulmala, M., Petäjä, T., Sipila, M.,
Bide, M., Swietlicki, E.: Ice Nucleation Chambers for CRAICC
P11: Duporté, G., Parshintsev, J., Barreira L.M.F., Hartonen, K., Kulmala, M., Riekkola M.-L.: Reactions between carbonyl compounds and amines: a mass spectrometric study
P12: Eichler, P., Müller, M., Anna, B.D., Wisthaler, A.; On-line chemical analysis of submicron
particulate organic matter by CHARON-PTR-ToF-MS
P13: Emanuelsson E.U., Gøbel, F., Tschiskale, M., Bilde, M.: Saturation vapour pressures of meso-
Erythritol and Squalene using the ARAGORN flow tube setup
P14: Eriksson, E., Malmborg, V.B., Török, S., Boman, C., Swietlicki, E., Bengtsson, P.-E., Pagels,
J.H.: Refractory constituents of soot particles probed with in-situ mass spectrometry
P15: Glantz, P., Tesche, M., Johansson, C.: Using both Aqua and Terra to increase MODIS AOT
observations: A case study for northern Europe with respect to the years 2003 - 2015
P16: Hammes, J., Faxon, C., Lutz, A., Pathak, R.K., Mentel, T., Hallquist, M.: Characterization of
limonene ozonolysis products and their role in SOA formation
P17: Harra, J., Kujanpää, S., Haapanen, J., Juuti, P., Mäkelä, M.: Can mass size distribution
measurements give new information on the particle production with the Liquid Flame Spray?
P18: Hemmilä, M., Hellén, H., Makkonen, U., Praplan, A.P., Hakola, H.: Amine Measurements in
Boreal Forest Air
P19: Holm, S., Ling, M., Alsved M., Löndahl, J., Finster, K., Šantl-Temkiv, T.: Atmospheric life
cycle of Pseudomonas Syringae and its ice nucleation activity
P20: Haapanen, J., Andersen, I.H., Gunell, M., Kummala, R., Brobbey, K., Erola, E., Saarinen, J.J.,
Toivakka, M., Huovinen, P., Nielsen, L.P., Mäkelä, J.M.: Antibacterial and photocatalytic
nanocoatings generated by Liquid Flame Spray
P21: Iyer, S., Lopez-Hilfiker, F., Lee, B.H., Thornton, J.A., Kurten, T: Modeling the Sensitivities
and Intra-Instrument Kinetics of an Iodide-based Chemical Ionization Mass Spectrometer for a set
of Organic and Inorganic Compounds
P22: Isaxon, C., Hänninen, O.: Linking aerosol exposures to the health effect estimates of ambient
particulate matter
P23: Jakobsson, J.K.F., Aaltonen, H.L., Nicklasson, H., Wollmer, P., Löndahl, J.: Diagnosis of
Emphysema by Measurement of Exhaled Nanoparticles Compared to Computed Tomography
P24: Jensen, T.N., Pedersen, P.B: Particle emission from various candle types
P25: Jensen, L.N., Kristensen, K., Bilde, M.: Size distribution and yield of a-pinene derived
secondary organic aerosol at different temperatures
P26: Johansen, M.K., Bilde, M., Feilberg, A., Bossi, R., Glasius, M.: Characterisation of vapours
emitted from electronic cigarettes
P27: Junninen, H., Bianchi, F., Duplissy, J., Sipilä, M., Jokinen, T., Sarnela, N., Adamov, A.,
Praplan, A., Manninen, H.E., Kangasluoma, J., Schobesberger, S., Kontkanen, J., Petäjä, T.,
Baltensperger, U., Sellegri, K., Bonasoni, P., Worsnop, D.R., Kulmala, M.: Sulphuric acid in free
troposphere: measurements, calibration and concentrations
P28: Koivisto, A.J., Jensen, A.C.Ø., Kling, K.I., Nørgaard, A., Brinch, A., Christensen, F., Jensen,
K.A.: Quantitative material releases from articles containing manufactured nanomaterials
P29: Kontkanen, J., Paasonen, P., Bäck, J., Petäjä, T., Kulmala, M.: Proxy for the concentrations of
monoterpenes and their oxidation products at a boreal forest site
P30: Kristensen, T.B., Huang, S., Merkel, M., Henning, S., Dieckmann, K., Hartmann, S., Schäfer,
M., Wu, Z., Poulain, L., Wiedensohler, A., Stratmann, F.: CCN properties in the marine boundary
layer of the Atlantic
P31: Køcks, M., Pedersen, T.D., Pedersen, P.B., Jensen, T.N., Trajkovski, M.: Real-time
characterization of particle emission from construction machinery during operation: Effect of
emission-reducing technology on particle number and particle size
P32: Lovén, K., Isaxon, C., Nielsen, J., Wieslander, G., Wierzbicka, A., Gudmundsson, A.:
Aerosols from cleaning sprays: Characterization and Human chamber exposure study
P33: Ludvigsson, L., Ghasemi, M., Messing, M.E., Thelander, K.D., Johansson, J., Gorji
Ghalamestani, S., Depper, K.: Tuning of Indium Antimony nanoparticles generated with spark
discharge
P34: Malmborg, V.B., Eriksson, A.C., Nilsson, P., Shen, M., Waldheim, B., Gallo, Y., Martinsson,
J., Johansson, B., Andersson, Ö, Pagels, J.H.: Evolution of soot properties during combustion in a
modern diesel engine
P35: Malmqvist, E., Källén, K., Rignell-Hydbom, A., Rittner, R., Rylander, L., Ritz, B.: Air
pollution and fetal growth - a study on ultrasound measures of Swedish children
P36: Martinsson, J., Andersson, A., Sporre, M.K., Friberg, J., Kristensson, A., Swietlicki, E.,
Olsson, P.-A., Stenström, K.E.: Carbonaceous aerosol source apportionment using δ13C-A study in
southern Sweden
P37: Merrison, J., Iversen, J.J., Alois, S., Jakobsen, A.: Studying Dust Aerosols in an Environmental
Simulation Facility
P38: Myllys, N., Elm, J., Halonen, R., Kurtén, T., Vehkamäki, H.: Computational Approach for
Studying Large Atmospheric Acid-Base Clusters
P39: Mårtensson, E.M., Glantz, P., Nilsson, E.D.: Fraction of sea salt and non-volatile matter in the
primary marine aerosol
P40: Nyström, R., Lindgren, R., Avagyan, R., Westerholm, R., Lundstedt, S., Boman, C.: Influence
of wood type and combustion conditions on PAH and particle emission characteristics and their
oxidative properties in a common Nordic wood stove
P41: Pei, X., Poulsen, M.B., Eriksson A.C., Ahlberg, E., Nordin, W., Pagels, J.H., Svenningsson,
B., Swietlicki, E., Hallquist, M., Pathak, R.: Effects of suphuric acid and limonene ozonolysis
products coatings on soot morphology and hygroscopicity
P42: Preger, C., Ludvigsson, L., Meuller, B.O., Messing, M.E: Generation of stainless steel
nanoparticles with carefully tuned composition
P43: Quéléver, L., Garmash, O., Rissanen, M.P., Ehn, M.: Analysis of the thermal stability of
Extremely Low-Volatility Organic Compounds (ELVOCs) by mass spectrometry
P44: Salter, M.E., Zieger, P., Acosta Navarro, J.C., Grythe, H., Krikevåg, A., Rosati, B., Riipinen,
I., Nilsson, E.D.: An empirically derived inorganic sea spray source function incorporating sea
surface temperature
P45: Salter, M.E., Hamacher-Barth, E., Leck, C., Wemer, J., Johnson, M., Riipinen, I., Nilsson,
E.D., Zieger, P.: Calcium enrichment in sea spray aerosol particles
P46: Šantl-Temkiv, T., Gosewinkel Karlson, U., Thyrhaug, R., Finster, K., Bratbak, G., Löndahl, J.:
A high-volume impinger for bioaerosol studies
P47: Svendsen, S.B., Lange, R., Skov, H., Christensen, J.H., Højgaard, J.K., Nguyen, Q.T., Glasius,
M., Hansen, A.-M., Iversen, S.L., Jensen, B., Massling, A.: Sub-micrometre aerosol chemical
composition in the high Arctic: Comparison of experimental and modelled results
P48: Iversen, L.S., Zhang, H., Hansen, A.M.K., Svendsen, S.B., Kristensen, K., Skov, H., Massling,
A., Goldstein, A.H., Bilde, M., Glasius, M.: High-resolution mass spectrometric characterization of
aerosols collected at Villum Research Station, Greenland during spring 2015
P49: Teinilä, K., Niemi, J.V., Aurela, M., Kousa, A., Timonen, H., Hillamo, R.: Chemical and
source characterization of submicron particles in Helsinki city centre
P50: Tiitta, P., Leskinen, A., Hao, L., Yli-Pirilä, P., Kortelainen, M., Grigonyte, J., Tissari, J.,
Lamberg, H., Hartikainen, A., Kuuspalo, K., Kortelainen, A., Virtanen, A., Lehtinen, K.E.J.,
Komppula, M., Onasch, T.B., Worsnop, D.R., Prévôt, A.S.H., Czech, H., Zimmermann, R.,
Jokiniemi, J., Sippula, O.: Transformation of logwood combustion aerosols in a smog chamber: an
aerosol mass spectrometer study
P51: Török, S., Malmborg, V., Eriksson, A., Martinsson, J., Simonsson, J., Pagels, J., Bengtsson, P-
E.: Study of the Ångström coefficient for soot of different maturity
P52: Wittbom, C., Sjogren, S., Eriksson, A.C., Roldin, P., Nordin, E.Z., Nilsson, P.T., Swietlicki,
E., Pagels, J.H., Svenningsson, B.: Combining CCN activation and hygroscopic growth of
anthropogenic SOA particles
Participants
Juan C. Acosta Navarro, Stockholm University, Sweden
Peter Ahlvik, ExIS AB, Sweden
Risto Ahorinta, Dekati Ltd., Finland
Stefano Alois, Aarhus University , Denmark
Malin Alsved, Lund University, Sweden
Christina Andersen, Lund University, Sweden
Hans Ole Andersen, ZenZors A/S, Denmark
Stina Ausmeel, Lund University, Sweden
Per-Erik Bengtsson, Lund University, Sweden
Mads Bering, Aarhus University, Denmark
Merete Bilde, Aarhus University, Denmark
Mats Bohgard, Lund University, Sweden
Rossana Bossi, Aarhus University, Denmark
Michael Brauer, University of British Columbia, Canada
Jakob Bønløkke, Aarhus University, Denmark
Sigurd Christiansen, Aarhus University, Denmark
Florian Dahlkötter, TSI GmbH, Germany
Mikael Ehn, University of Helsinki, Finland
Annica Ekman, Stockholm University, Sweden
Jonas Elm, University of Helsinki, Finland
Eva Emanuelsson, Aarhus University, Denmark
Martin Enghoff, DTU Space, Denmark
Axel Eriksson, Lund University, Sweden
Cameron Faxon, University of Gothenburg, Sweden
Kai Finster, Aarhus University, Denmark
Paul Glantz, Stockholm University, Sweden
Marianne Glasius, Aarhus University, Denmark
Freya Gøbel, Aarhus University, Denmark
Julia Hammes, Göteborgs universitet, Sweden
Bent L. Hansen, Danalytic ApS, Denmark
H-C Hansson, Stockholm University, Sweden
Juha Harra, Tampere University of Technology, Finland
Marja Hemmilä, Finnish Meteorological Institute, Finland
Stine Holm, Aarhus University, Denmark
Gitte Juel Holst, Aarhus University, Denmark
Janne Haapanen, Tampere University of Technology, Finland
Siddharth Iyer, University of Helsinki, Finland
Jonas Jakobsson, Lund University, Sweden
Merete Bachmann Jørgensen, Aarhus University, Denmark
Louise Normann Jensen, Aarhus University , Denmark
Thomas Jensen, Danish Technological Institute, Denmark
Mette Johansen, Aarhus University, Denmark
Jens V. Kildgaard, University of Copenhagen, Denmark
Kirsten Kling, National Research Centre for the Working Environment,
Denmark
Joonas Koivisto, National Research Centre for the Working Environment,
Denmark
Jenni Kontkanen, University of Helsinki, Finland
Kasper Kristensen, Aarhus University, Denmark
Thomas Bjerring Kristensen, Leibniz Inst. for Tropospheric Research,
Germany
Markku Kulmala, University of Helsinki, Finland
Morten Køcks, Danish Technological Institute, Denmark
Robert Lange, Aarhus University, Denmark
Antti Lauri, University of Helsinki, Finland
Meilee Ling, Aarhus University, Denmark
Karin Lovén, Lund University, Sweden
Linus Ludvigsson, Lund University, Sweden
Jakob Löndahl, Lund University, Sweden
Vilhelm Berg Malmborg, Lund University, Sweden
Johan Martinsson, Lund University, Sweden
Andreas Massling, Aarhus University, Denmark
Jonathan Merrison, Aarhus University, Denmark
Carl Meusinger, Copenhagen University, Denmark
Elina Miettinen, Airmodus Ltd., Finland
Kurt V. Mikkelsen, University of Copenhagen, Denmark
Nanna Myllys, University of Helsinki, Finland
Monica Mårtensson, Uppsala University, Sweden
Ingeborg Elbæk Nielsen, Aarhus University, Denmark
Torsten Nielsen, Aarhus University, Denmark
Robin Nyström, Umeå University, Sweden
Joakim Pagels, Lund University, Sweden
Carsten Bøcker Pedersen, Aarhus University, Denmark
Henrik Pedersen, Aarhus University, Denmark
Xiangyu Pei, University of Gothenburg, Sweden
Calle Preger, Lund University, Sweden
Lauriane Quéléver, University of Helsinki, Finland
Mikael Ramström, Hugo Tillquist AB, Sweden
Berit Rasmussen, Aarhus University, Denmark
Ilona Riipinen, Stockholm University, Sweden
Jenny Rissler, Lund University, Sweden
Pontus Roldin, Lund University, Sweden
Bernadette Rosati, University of Vienna, Austria Ida Rosendahl, Aarhus University, Denmark
Tina Santl-Temkiv, Aarhus University, Denmark
Nina Sarnela, University of Helsinki, Finland
Torben Sigsgaard, Aarhus University, Denmark
Jason D. Surratt, University of North Carolina, USA
Annette Svendsen, Aarhus University, Denmark
Tahir Taj, Lund University, Sweden
Miki Tavast, Teknocalor Ltd, Finland
Ricky Teiwes, Aarhus University, Denmark
Torsten Tritscher, TSI GmbH, Germany
Sandra Török, Lund University, Sweden
Minna Väkevä, Airmodus Ltd., Finland
Bernadett Weinzierl, University of Vienna, Austria
Daniela Wimmer, University of Helsinki, Finland
Cerina Wittbom, Lund University, Sweden
Yuduo Zheng, Aarhus University, Denmark
NOSA Board
Marianne Glasius
Joakim Pagels
Michael Boy
Annika Ekman
Andreas Massling
Ilona Riipinen
Kerstin Stebel
NOSA2016 Scientific Advisory Board
Merete Bilde
Marianne Glasius
Andreas Massling
Torben Sigsgaard
Henrik B. Pedersen
Jonathan P. Merrison
Kai Finster
NOSA2016 Organizing Committee
Marianne Glasius
Merete Bilde
Kasper Kristensen
Jeanette Dandanell
Marianne Sommer
NOSA
2016 Aarhus
