Visa enkel post

dc.contributor.authorWatne, Ågot Kirsten
dc.date.accessioned2018-01-11T10:30:29Z
dc.date.available2018-01-11T10:30:29Z
dc.date.issued2018-01-11
dc.identifier.isbn978-91-629-0386-2
dc.identifier.isbn978-91-629-0387-9
dc.identifier.urihttp://hdl.handle.net/2077/54577
dc.description.abstractAtmospheric aerosol particles affect the quality of life by influencing climate and by being a significant component of air pollution. Once a particle is released into or formed in the atmosphere, several processes begin to transform its physical and chemical properties. A considerable fraction of the particulate matter is secondary material i.e. formed from gas-to-particle conversion in the atmosphere. This secondary particle formation is an important process in the evolution of atmospheric aerosols. The aim of this thesis is to study the formation and aging of secondary aerosols by experimentally simulating atmospheric oxidation of emissions from biogenic and traffic-related sources. In this work the focus is on particle size, mass and number concentration, as well as on the thermal properties of the particles formed. These measures give insight into properties relevant for understanding the evolution of particles in the ambient atmosphere. The thermal properties of secondary organic aerosols (SOA) formed from oxidation of monoterpenes in two oxidation flow reactors, G-FROST and PAM, and the atmospheric simulation chamber SAPHIR, was studied using a Volatility Tandem DMA (VTDMA). The detailed laboratory studies show that the formation of monoterpene SOA and its thermal properties depend on chemical structure of the precursor and oxidizing conditions. Furthermore, freshly formed monoterpene SOA comprise of compounds with a wide distribution of volatilities ranging from extremely low volatile to semi volatile compounds. Photochemical aging of SOA was studied in SAPHIR by oxidation induced by natural sun light and in PAM by exposing SOA precursors to high concentration of OH over a short time. The results reveal two opposing processes which drive the evolution of SOA volatility in the two systems. During the course of this work an oxidation flow reactor, Go:PAM, has been developed. Go:PAM enables studies of secondary particle formation from rapidly changing emission sources, and was used to derive fuel-specific secondary particle emission factors from in-use transit buses under real-world driving conditions. Both primary emissions and the secondary particle formation of 29 buses running on conventional or on more sustainable fuels were investigated. The results emphasize the importance of taking the reduction in OH exposure into consideration when interpreting the secondary particle formation from plumes. However, independent of fuel and technology of the buses, the formation of secondary particulate mass was significantly higher than the primary particle mass. Furthermore, the results indicate there are emissions of non-fuel related compounds that are important for secondary particle formation. This work provides insight in the formation and aging of secondary particles from biogenic and traffic-related sources. The results highlight the importance of including secondary particle formation when predicting the climate forcing of SOA and designing of air quality strategies.sv
dc.language.isoengsv
dc.relation.haspartI. Influence of Humidity, Temperature, and Radicals on the Formation and Thermal Properties of Secondary Organic Aerosol (SOA) from Ozonolysis of β-Pinene. Emanuelsson, E. U., Watne, Å. K., Lutz, A., Ljungström, E., & Hallquist, M. (2013). The Journal of Physical Chemistry A, 117(40), 10346-10358. ::doi::10.1021/jp4010218sv
dc.relation.haspartII. Ozone and OH-induced oxidation of monoterpenes: Changes in the thermal properties of secondary organic aerosol (SOA). Watne, Å. K., Westerlund, J., Hallquist, Å. M., Brune, W. H., & Hallquist, M. (2017). Journal of Aerosol Science, 114, 31-41. ::doi::10.1016/j.jaerosci.2017.08.011sv
dc.relation.haspartIII. High-Molecular Weight Dimer Esters Are Major Products in Aerosols from α-Pinene Ozonolysis and the Boreal Forest. Kristensen, K., Watne, Å. K., Hammes, J., Lutz, A., Petäjä, T., Hallquist, M., . . . Glasius, M. (2016). Environmental Science & Technology Letters, 3(8), 280-285. ::doi::10.1021/acs.estlett.6b00152sv
dc.relation.haspartIV. Parameterization of thermal properties of aging secondary organic aerosol produced by photo-oxidation of selected terpene mixtures. Emanuelsson, E. U., Mentel, T. F., Watne, A. K., Spindler, C., Bohn, B., Brauers, T., . . . Hallquist, M. (2014). Environ Sci Technol, 48(11), 6168-6176. ::doi::10.1021/es405412psv
dc.relation.haspartV. Fresh and Oxidised Emissions from in-Use Transit Buses running on diesel, RME and CNG (2017) Å. K Watne, M. Psichoudaki, E. Ljungström, M. Le Breton, M. Jerksjö, H. Fallgren, M. Hallquist, Å. M. Hallquist. Manuscript to be submitted to Environmental Science & Technologysv
dc.subjectvolatilitysv
dc.subjectozonolysissv
dc.subjecthydroxyl radicalsv
dc.subjectOH exposuresv
dc.subjectmonoterpenessv
dc.subjectAlfa-pinenesv
dc.subjectbeta-pinenesv
dc.subjectlimonenesv
dc.subjectengine exhaustsv
dc.subjectbus exhaustsv
dc.subjectair pollutionsv
dc.subjectclimatesv
dc.subjectoxidation flow reactorsv
dc.subjectatmospheric simulation chambersv
dc.subjectdimer estersv
dc.subjectELVOCsv
dc.subjectSVOCsv
dc.subjectVTDMAsv
dc.subjectPAMsv
dc.subjectGo:PAMsv
dc.subjectG-FROSTsv
dc.subjectSAPHIRsv
dc.subjectSOAsv
dc.subjectDieselsv
dc.subjectCNGsv
dc.subjectRMEsv
dc.subjectSecondary particle formationsv
dc.subjectEmission factorsv
dc.subjectPrimary emissionsv
dc.titleAtmospheric oxidation: Formation and aging of biogenic and traffic-related secondary aerosolssv
dc.typeTextswe
dc.type.svepDoctoral thesiseng
dc.gup.mailagot.watne@chem.gu.sesv
dc.gup.mailagotkirsten@gmail.comsv
dc.type.degreeDoctor of Philosophysv
dc.gup.originUniversity of Gothenburg. Faculty of Sciencesv
dc.gup.departmentDepartment of Chemistry and Molecular Biology ; Institutionen för kemi och molekylärbiologisv
dc.gup.defenceplaceFredagen den 2 februari 2018, kl 13, KB, Kemigården 4sv
dc.gup.defencedate2018-02-02
dc.gup.dissdb-fakultetMNF


Filer under denna titel

Thumbnail
Thumbnail
Thumbnail

Dokumentet tillhör följande samling(ar)

Visa enkel post