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The effect of compression ratio on emissions from an alcohol-fueled engineCambridge, Shevonn Nathaniel 12 September 2009 (has links)
The motivation for this work stems from the enacting of stricter emissions requirements for the mid 1990's by the California Air Resources Board. It is foreseen that these requirements will favor the use of alcohol fuels in quantities comparable to the present usage of gasoline and diesel in order to reduce emissions of carbon monoxides (CO) and nitrogen oxides (NOx). The use of alcohol fuels at this level will substantially increase the amount of aldehyde emissions. This poses a problem in that aldehydes are odorants, components of photochemical smog, and volatile aldehydes are eye and respiratory tract irritants; therefore, it is only a matter of time before they too are strictly regulated.
This thesis focuses on a systematic analysis of aldehyde emissions from alcohol fuels with respect to compression ratio. Compression ratio has been selected as the primary variable for this study, because alcohol-fueled vehicles are usually modified to have higher compression ratios than their gasoline-fueled counterparts in order to take advantage of alcohols' higher octane rating. The investigation is being conducted using a single-cylinder variable-compression ratio Waukesha-CFR engine. The aldehyde emissions are measured for various fuel alcohol percentages at different compression ratios and MBT timing. The effects on conventional vehicle emissions (Le. NOx, CO, unburned hydrocarbons) are also being measured so that tradeoffs between conventional emissions and aldehyde emissions can be determined.
The goal of this research was to locate any trends between alcohol fuels and compression ratios which will allow for an optimization of these parameters to minimize aldehyde emissions. It was desired that this be achieved without sacrificing engine performance or increasing other regulated emissions.
The variance of compression ratio was found to affect the pollutant formation process via its effects on temperature. The increasing expansion ratio, which accompanies increasing compression ratio, resulted in lower post .. expansion burned-gas temperatures. Temperature's influence on the rate of reactions was found to be the driving force in the formation of most of the pollutants. The experiment showed a definitive reduction in CO emissions with the use of alcohol fuels. The results also indicated an inherent tradeoff between NOx and formaldehyde emissions. / Master of Science
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Simulating a block queuing system at a drive-thru restaurant to examine tradeoffs between fuel consumption and customer serviceBerglin, Jon 01 July 2003 (has links)
No description available.
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Impacts of road traffic on the environment of Hong Kong. / CUHK electronic theses & dissertations collectionJanuary 1998 (has links)
by Luk Shiu-fai. / Thesis (Ph.D.)--Chinese University of Hong Kong, 1998. / Includes bibliographical references (p. 234-240). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web.
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The effect of private car policies on air quality魏海然, Ngai, Hoi-yin. January 2002 (has links)
published_or_final_version / Environmental Management / Master / Master of Science in Environmental Management
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A study of the air pollution situation and its effects in urban Hong Kong caused by land-based transportYeung, Kit-choi, James., 楊傑材. January 1999 (has links)
published_or_final_version / Transport Policy and Planning / Master / Master of Arts
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Development of roadway link screening criteria for microscale carbon monoxide and particulate matter conformity analyses through application of classification tree modelShafi, Ghufran 01 April 2008 (has links)
The impacts of emissions sources of carbon monoxide and particulate matter pollution levels for projected level conformity assessment and National Environmental Policy Act (NEPA) analyses are usually estimated through computer-aided models. Because of the involvement and interaction of a large number of variables that affect formation of CO and PM hot spots, exhaustive impact assessment studies can be time consuming. This is especially true for complex urban projects consisting of numerous roadways whose potential CO and PM impacts on surrounding neighborhoods must be disclosed. A highway project may consist of hundreds of roadway links, therefore undertaking project level conformity analysis without screening tools can be computationally resource intensive.
CALINE4, a line source emission modeling tool, is used to predict downwind CO and PM concentrations for various receptors to generate a learning dataset for development of screening rules. This research has developed statistical screening criteria based on Classification and Regression Tree modeling that can be used to eliminate those links from the CALINE4 analysis whose contribution of pollutant concentration to a particular receptor site are insignificant. For the purpose of this study, any link that contributes a concentration of 0 ppm of CO or 0 µg/m3 of PM to a particular receptor site is termed insignificant for the corresponding pollutant. The model uses seven predictor variables, namely wind speed, wind directional variability, linear emission flux, link length and receptor polar coordinates. Response vector has two classes of pollutant concentrations namely significant and insignificant which are obtained by conversion of numerical values of pollutant concentration according to above mentioned criterion, thereby converting a regression problem into categorical or classification problem.
The developed rules based on constructed model were validated through test samples and can be applied to future dataset to classify and screen out the insignificant links in highway planning analyses. The screening tool also allows analysts to prepare gridded pollution concentration predictions for use in environmental justice analyses.
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The health and socioeconomic impact of traffic-related air pollution in ScotlandHyland, Jackie January 2017 (has links)
Traffic-related air pollution harms health, so whilst it would be advantageous to improve air quality, the socioeconomic impact of air pollution mitigation in Scotland is not fully understood. Evidence from research literature, current regulatory and policy directives and a socioeconomic analysis are required to assess the true health impact. This thesis presents the first health and socioeconomic analysis of traffic-related air pollution and health for Scotland. A critique of the literature was undertaken to determine the evidence base and the strength of evidence in terms of association and causation, between air pollution and ill health. The evidence was subsequently applied in epidemiological studies of Scottish residents, to assess the actual impact on health in Scotland. The perception of barriers and incentives for change were investigated to understand behavioural influences. Recent policy development in Scotland was reviewed, and a socioeconomic analysis of a proposed air pollution strategy in Scotland, was undertaken. The evidence from 30 cohort studies and nine literature reviews demonstrated a link between poor air quality, mortality and respiratory ill health, but the results for other health conditions were inconsistent. The links were associative rather than causal and therefore might be attributable to other factors other than air pollution. Furthermore, epidemiological studies on Scottish populations did not show health effects from traffic-related air pollution. The socioeconomic analysis suggested that an initial investment of between £27m and £44m to introduce Low Emission Zones (LEZ), and an effective active travel programme, might result in a saving of £38m in terms of Years of Life Lost (YLL) and reduction in sickness absence. It is unlikely that the Clean Air For Scotland Strategy will deliver improved air quality and health without substantial investment, better alignment of planning, and a greater public engagement to support public and active transport options.
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Sustainable development and integrated transport planning: "Is Hong Kong moving towards a more sustainable transportsystem for new development areas?"Lee, Chi-on., 李子安. January 1999 (has links)
published_or_final_version / Urban Planning / Master / Master of Science in Urban Planning
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The polycyclic aromatic hydrocarbon content and mutagenicity of the residue from cane burning and vehicle emissions.Godefroy, Susan Jessica. January 1992 (has links)
Polycyclic (or polynuclear) aromatic hydrocarbons (PAHs)
are environmental pollutants produced during the incomplete
combustion of organic matter. Since many of these compounds
have been shown to be mutagenic and/or carcinogenic, an
investigation was initiated into determining the PAH
content and mutagenicity of the ash that remains after
sugar cane crop burning, and the soot deposited on toll
booths by vehicle exhaust emissions.
Due to the large amount of sugar cane farming in the Natal
coastal region and that the favoured method of disposing
unwanted leafy trash is crop burning, concern was expressed
as to the nature of the residue that is formed. PAHs have
been identified in the residues from combusted wood and
straw and, due to their intrinsic similarity to sugar cane,
it was considered that the burning of sugar cane could
generate PAHs.
It is well documented that vehicle exhaust emissions
exhibit mutagenic properties and PAHs have been identified
as the major contributors of this observed mutagenicity.
Since a toll plaza is an area of high traffic density, it
was considered to be an ideal location for an investigation
into the build-up of particles emitted by the passing
vehicles, and to study to what extent the operators are
exposed to harmful compounds. In addition, this sample
acted as a control, since the detection of PAHs and
mutagenic activity in the soot would be an indication that
the correct experimental techniques were being employed.
Samples were collected on site. The sugar cane ash was
collected off a field immediately after burning had taken
place, and the soot was collected either by scraping the
toll booth walls and surrounding areas or by wiping the
surfaces with cotton wool swabs. The organic portion of the
samples was separated from the inorganic and carbonaceous
substances by extraction into a suitable solvent; the use
of both acetone and dichloromethane was investigated. The
extracts were divided into two portions - one was used for
the analysis of PAHs and the other for determining
mutagenic activity. Analysis for PAHs involved subjecting
the extracts to a sample clean-up routine and the use of a
number of analytical techniques to characterise the
components. The mutagenic properties of the samples were
investigated by means of two bacterial mutagenicity tests:
the Salmonella typhimurium assay (the Ames test) and a new
commercially available test kit, the SOS Chromotest.
A number of PARs were identified in the extracts by means
of reverse phase high performance liquid chromatography
(HPLC) with both ultraviolet and fluorescence detection,
the latter being the more sensitive method. Mutagenic
activity was detected for both samples in the Ames test and
for the toll booth soot in the SOS Chromotest, and this
observed mutagenicity was attributed to the presence of the
PAHs. / Thesis (M.Sc.)-University of Natal, Durban, 1992.
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An Investigation of Urban Mobile Source Aerosol Using Optical Properties Measured by CRDT/N: Diesel Particulate Matter and the Impact of BiodieselWright, Monica Elizabeth 06 December 2012 (has links)
Mobile source emissions are a major contributor to global and local air pollution. Governments and regulatory agencies have been increasing the stringency of regulations in the transportation sector for the last ten years to help curb transportation sector air pollution. The need for regulations has been emphasized by scientific research on the impacts from ambient pollution, especially research on the effect of particulate matter on human health. The particulate emissions from diesel vehicles, diesel particulate matter (DPM) is considered a known or probable carcinogen in various countries and increased exposure to DPM is linked to increased cardiovascular health problems in humans. The toxicity of vehicle emissions and diesel particulate emissions in particular, in conjunction with an increased awareness of potential petroleum fuel shortages, international conflict over petroleum fuel sources and climate change science, have all contributed to the increase of biodiesel use as an additive to or replacement for petroleum fuel. The goal of this research is to determine how this increased use of biodiesel in the particular emission testing setup impacts urban air quality. To determine if biodiesel use contributes to a health or climate benefit, both the size range and general composition were investigated using a comprehensive comparison of the particulate component of the emissions in real time. The emissions from various biodiesel and diesel mixtures from a common diesel passenger vehicle were measured with a cavity ring-down transmissometer (CRDT) coupled with a condensation particle counter, a SMPS, a nephelometer, NOx, CO, CO2, and O3 measurements. From these data, key emission factors for several biodiesel and diesel fuel mixtures were developed. This approach reduces sampling artifacts and allows for the determination of optical properties, particle number concentration, and size distributions, along with several important gas phase species' concentrations. Findings indicate that biodiesel additions to diesel fuel do not necessarily have an air quality benefit for particulate emissions in this emission testing scenario. The often cited linear decrease in particulate emissions with increasing biodiesel content was not observed. Mixtures with half diesel and half biodiesel tended to have the highest particulate emissions in all size ranges. Mixtures with more than 50% biodiesel had slightly lower calculated mass for light absorbing carbon, but this reduction in mass is most likely a result of a shift in the size of the emission particles to a smaller size range, not a reduction in the total number of particles. Evaluation of the extensive optical properties from this experimental set-up indicates that biodiesel additions to diesel fuel has an impact on emission particle extinction in both visible and near-IR wavelengths. The B99 mixture had the smallest emission factor for extinction at 532 nm and at 1064 nm. For the extinction at 532 nm, the trend was not linear and the emission factor peaked at the B50 mixture. Results from intensive properties indicate that emissions from B5 and B25 mixtures have Ångström exponents close to 1, typical for black carbon emissions. The mixtures with a larger fraction of biodiesel have Ångström exponent values closer to 2, indicating more absorbing organic matter and/or smaller particle size in the emissions. Additional experimental testing should be completed to determine the application of these results and emission factors to other diesel vehicles or types of diesel and biodiesel fuel mixtures.
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