Characterization Of Nucleation And Ultrafine Particle Growth In Rural Continental Environments

Aerosols are ubiquitous throughout Earth's atmosphere and their size, chem- ical composition, and concentration cause varying degrees of impact on climate and human health. Atmospheric aerosols can affect climate by their varied interactions with incoming solar radiation and their role in cloud...

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Main Author: Bullard, Robert Lesley
Other Authors: Stanier, Charles O.
Format: Others
Language:English
Published: University of Iowa 2015
Subjects:
Online Access:https://ir.uiowa.edu/etd/1557
https://ir.uiowa.edu/cgi/viewcontent.cgi?article=5609&context=etd
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spelling ndltd-uiowa.edu-oai-ir.uiowa.edu-etd-56092019-11-09T09:27:55Z Characterization Of Nucleation And Ultrafine Particle Growth In Rural Continental Environments Bullard, Robert Lesley Aerosols are ubiquitous throughout Earth's atmosphere and their size, chem- ical composition, and concentration cause varying degrees of impact on climate and human health. Atmospheric aerosols can affect climate by their varied interactions with incoming solar radiation and their role in cloud formation and microphysics. Nucleation of fresh particles plays a significant role in the number of boundary layer cloud condensation nuclei (CCN). Elevated sulfuric acid concentration from power production has long been shown to contribute to new particle formation, but is not present in all instances where nucleation is observed. A third component has long been hypothesized and different studies in different locations have shown evidence of either ammonia, amines, or organics acting in conjunction with sulfuric acid and water to initiate new particle formation under certain meteorological conditions. While atmospheric nucleation has been examined world-wide in many urban as well as remote forested locations, it has not been studied extensively in the non-forested Midwestern United States, where sulfuric acid from coal-fired power plants and ammonia from agricultural activity are prevalent. For this doctoral dissertation work, instruments were designed, built, and tested for the purpose of investigating the concentration, size distribution, and volatility of atmospheric aerosols in non-forested rural continental environments in the Midwestern United States. An impact assessment of the University of Iowa Power Plant on air quality in Johnson County, IA highlights the ability to field test the emission ratios of fine particulates emissions to other gaseous emissions. Analysis on 20 years of climatically relevant aerosol properties in the rural Midwestern location of Bondville, IL reveals enhancement of particle number in the Spring and Fall seasons. Bondville is also the location of a three-year aerosol vertical profiling field campaign, where ultra-fine particles were found to be enhanced in the planetary boundary layer. The long standing records are compared with current full aerosol size distribution particle measurements for a period of ∼ 10 months in Bondville, where the seasonality of high particle number concentrations are verified and attributed to nucleation. Nucleation is observed to varying degrees in all seasons at this location, but is most prevalent and intense in the Spring and Fall months under otherwise clean atmospheric conditions. This work paves the way for a more in depth examination of the volatility of fine particle matter during nucleation and the development of a Midwestern chemical nucleation model to investigate numerous nucleation conditions and mechanisms. This work will contribute important information to the atmospheric science community on the process controlling the particle number size distribution in the region. 2015-05-01T07:00:00Z dissertation application/pdf https://ir.uiowa.edu/etd/1557 https://ir.uiowa.edu/cgi/viewcontent.cgi?article=5609&context=etd Copyright © 2015 Robert Lesley Bullard Theses and Dissertations eng University of IowaStanier, Charles O. publicabstract Aerosols Nucleation Particle Growth Chemical Engineering
collection NDLTD
language English
format Others
sources NDLTD
topic publicabstract
Aerosols
Nucleation
Particle Growth
Chemical Engineering
spellingShingle publicabstract
Aerosols
Nucleation
Particle Growth
Chemical Engineering
Bullard, Robert Lesley
Characterization Of Nucleation And Ultrafine Particle Growth In Rural Continental Environments
description Aerosols are ubiquitous throughout Earth's atmosphere and their size, chem- ical composition, and concentration cause varying degrees of impact on climate and human health. Atmospheric aerosols can affect climate by their varied interactions with incoming solar radiation and their role in cloud formation and microphysics. Nucleation of fresh particles plays a significant role in the number of boundary layer cloud condensation nuclei (CCN). Elevated sulfuric acid concentration from power production has long been shown to contribute to new particle formation, but is not present in all instances where nucleation is observed. A third component has long been hypothesized and different studies in different locations have shown evidence of either ammonia, amines, or organics acting in conjunction with sulfuric acid and water to initiate new particle formation under certain meteorological conditions. While atmospheric nucleation has been examined world-wide in many urban as well as remote forested locations, it has not been studied extensively in the non-forested Midwestern United States, where sulfuric acid from coal-fired power plants and ammonia from agricultural activity are prevalent. For this doctoral dissertation work, instruments were designed, built, and tested for the purpose of investigating the concentration, size distribution, and volatility of atmospheric aerosols in non-forested rural continental environments in the Midwestern United States. An impact assessment of the University of Iowa Power Plant on air quality in Johnson County, IA highlights the ability to field test the emission ratios of fine particulates emissions to other gaseous emissions. Analysis on 20 years of climatically relevant aerosol properties in the rural Midwestern location of Bondville, IL reveals enhancement of particle number in the Spring and Fall seasons. Bondville is also the location of a three-year aerosol vertical profiling field campaign, where ultra-fine particles were found to be enhanced in the planetary boundary layer. The long standing records are compared with current full aerosol size distribution particle measurements for a period of ∼ 10 months in Bondville, where the seasonality of high particle number concentrations are verified and attributed to nucleation. Nucleation is observed to varying degrees in all seasons at this location, but is most prevalent and intense in the Spring and Fall months under otherwise clean atmospheric conditions. This work paves the way for a more in depth examination of the volatility of fine particle matter during nucleation and the development of a Midwestern chemical nucleation model to investigate numerous nucleation conditions and mechanisms. This work will contribute important information to the atmospheric science community on the process controlling the particle number size distribution in the region.
author2 Stanier, Charles O.
author_facet Stanier, Charles O.
Bullard, Robert Lesley
author Bullard, Robert Lesley
author_sort Bullard, Robert Lesley
title Characterization Of Nucleation And Ultrafine Particle Growth In Rural Continental Environments
title_short Characterization Of Nucleation And Ultrafine Particle Growth In Rural Continental Environments
title_full Characterization Of Nucleation And Ultrafine Particle Growth In Rural Continental Environments
title_fullStr Characterization Of Nucleation And Ultrafine Particle Growth In Rural Continental Environments
title_full_unstemmed Characterization Of Nucleation And Ultrafine Particle Growth In Rural Continental Environments
title_sort characterization of nucleation and ultrafine particle growth in rural continental environments
publisher University of Iowa
publishDate 2015
url https://ir.uiowa.edu/etd/1557
https://ir.uiowa.edu/cgi/viewcontent.cgi?article=5609&context=etd
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