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Impact of residential wood combustion on urban air qualityKrecl, Patricia January 2008 (has links)
<p>Wood combustion is mainly used in cold regions as a primary or supplemental space heating source in residential areas. In several industrialized countries, there is a renewed interest in residential wood combustion (RWC) as an alternative to fossil fuel and nuclear power consumption. The main objective of this thesis was to investigate the impact of RWC on the air quality in urban areas. To this end, a field campaign was conducted in Northern Sweden during wintertime to characterize atmospheric aerosol particles and polycyclic aromatic hydrocarbons (PAH) and to determine their source apportionment.</p><p>A large day-to-day and hour-to-hour variability in aerosol concentrations was observed during the intensive field campaign. On average, total carbon contributed a substantial fraction of PM10 mass concentrations (46%) and aerosol particles were mostly in the fine fraction (PM1 accounted for 76% of PM10). Evening aerosol concentrations were significantly higher on weekends than on weekdays which could be associated to the use of wood burning for recreational purposes or higher space heat demand when inhabitants spend longer time at home. It has been shown that continuous aerosol particle number size distribution measurements successfully provided source apportionment of atmospheric aerosol with high temporal resolution. The first compound-specific radiocarbon analysis (CSRA) of atmospheric PAH demonstrated its potential to provide quantitative information on the RWC contribution to individual PAH. RWC accounted for a large fraction of particle number concentrations in the size range 25-606 nm (44-57%), PM10 (36-82%), PM1 (31-83%), light-absorbing carbon (40-76%) and individual PAH (71-87%) mass concentrations.</p><p>These studies have demonstrated that the impact of RWC on air quality in an urban location can be very important and largely exceed the contribution of vehicle emissions during winter, particularly under very stable atmospheric conditions.</p>
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Impact of residential wood combustion on urban air qualityKrecl, Patricia January 2008 (has links)
Wood combustion is mainly used in cold regions as a primary or supplemental space heating source in residential areas. In several industrialized countries, there is a renewed interest in residential wood combustion (RWC) as an alternative to fossil fuel and nuclear power consumption. The main objective of this thesis was to investigate the impact of RWC on the air quality in urban areas. To this end, a field campaign was conducted in Northern Sweden during wintertime to characterize atmospheric aerosol particles and polycyclic aromatic hydrocarbons (PAH) and to determine their source apportionment. A large day-to-day and hour-to-hour variability in aerosol concentrations was observed during the intensive field campaign. On average, total carbon contributed a substantial fraction of PM10 mass concentrations (46%) and aerosol particles were mostly in the fine fraction (PM1 accounted for 76% of PM10). Evening aerosol concentrations were significantly higher on weekends than on weekdays which could be associated to the use of wood burning for recreational purposes or higher space heat demand when inhabitants spend longer time at home. It has been shown that continuous aerosol particle number size distribution measurements successfully provided source apportionment of atmospheric aerosol with high temporal resolution. The first compound-specific radiocarbon analysis (CSRA) of atmospheric PAH demonstrated its potential to provide quantitative information on the RWC contribution to individual PAH. RWC accounted for a large fraction of particle number concentrations in the size range 25-606 nm (44-57%), PM10 (36-82%), PM1 (31-83%), light-absorbing carbon (40-76%) and individual PAH (71-87%) mass concentrations. These studies have demonstrated that the impact of RWC on air quality in an urban location can be very important and largely exceed the contribution of vehicle emissions during winter, particularly under very stable atmospheric conditions.
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Residential wood combustion, cancer risk frequency and costs in Sweden : A review of instruments using the MCA methodology / Småskalig vedeldning, cancerriskfrekvenser och kostnader i Sverige : En undersökning av styrmedel med MCA metodikWatz, Matilda January 2017 (has links)
Air pollution cause approximately 5000 premature deaths in Sweden each year. Residential wood combustion of solid biomass (RWC) is responsible for at least 1000 based on a relative risk coefficient of 17 % per 10 μg/m3 exposure. The carcinogenic properties of RWC emissions is linked to their content of particulates and polycyclic aromatic hydrocarbons (PAH’s). The ambition of this study is to answer whether cancer risk may be used as indicator for out dated heating technology with high emissions of carcinogenic air pollutants, and which socioeconomic costs that can be linked to such a scenario. The efficacy of different instruments that are discussed in Swedish environmental policy is also discussed. A transdisciplinary approach, constituting of a literature review, statistical analysis, gap analysis and multi criteria analysis was applied as study design. A literature review resulted in a mapping of the state of the art concerning RWC particulates and their impact on cancer in Sweden together with its related socioeconomic costs. The study is focused on PM2,5 and B(a)P emissions. A statistical analysis examined the potential relationship between short-lived micro nuclei (MN) in Swedish 12-year old school children, and their exposure to the carcinogenic PAH Benzo(a)pyrene (B(a)P) from RWC in Sweden. The results suggest that higher rates of lung cancer incidence, and socioeconomic costs may be found in areas burdened with high rates of RWC emissions from outdated heating technology. The MCA suggest that a combination of instruments is most suitable to achieve the targeted specification for B(a)P in the Clean Air objective, as found in previous CBA’s, and that other instrument may lack efficacy. / Varje år orsakar luftföroreningar omkring 5000 prematura dödsfall i Sverige. Småskalig vedeldning (RWC) ansvarar för åtminstone 1000 av dessa, baserat på den relativa risk-koefficienten 17 % per 10 μg/m3 exponering. De cancerogena egenskaperna hos vedeldningsutsläpp beror bland annat på dess partiklar som bland annat innehåller polycykliska aromatiska kolväten (PAH:er). Ambitionen med denna studie är att besvara hur framtida cancerrisk kan användas som indikator för luftföroreningar från omodern uppvärmningsteknik och vilka samhällsekonomiska följder som kan länkas till en sådan. Dessutom undersöktes styrkraften hos de styrmedel som diskuteras i svensk miljöpolicy. Med hjälp av ett tvärvetenskapligt tillvägagångssätt, bestående av litteraturgenomgång, statistisk analys, gapanalys och multikriterieanalys besvarades frågorna. Litteraturgenomgången resulterade i en kartläggning av det nuvarande kunskapsläget om vedpartiklars påverkan på cancer i Sverige och dess relaterade samhällskostnader. Studien är fokuserad på PM2,5 och B(a)P emissioner. En statistisk analys undersökte korrelationen mellan en biomarkor för framtida cancerrisk, kortlivade mikrokärnor (MN), hos svenska 12-åriga skolelever, och deras vedröksexponering. Resultaten indikerar svagt att större risk för lungcancer kan spås i områden med relativt högre exponering för vedrökskomponenten B(a)P, alltså områden med omodern uppvärmningsutrustning. Multikriterieanalysen visar, liksom i tidigare kostnad-effektivitetsanalyser, att en kombination av olika styrmedel har störst potential att uppnå specifikationerna för PM2,5 och B(a)P i det svenska miljökvalitetsmålet Ren luft. Andra styrmedel kan sakna styrkraft.
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