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Traffic emission is a major source of urban air pollution. Vehicle is a significant contributor of carbon monoxide (CO), nitrogen oxides (NOx), black carbon (BC) and ultrafine particle (UFP) on-road and near-roadways. People living and working near roadways are facing health risks due to the exposure of elevated pollutant concentration. In order to develop cost-efficient strategies to mitigate near-road air pollution for protecting public health and promoting sustainable growth, it is imperative to characterize on-road traffic emission and its impacts on near-road air quality. On-road chasing method was used in this study to investigate on-road vehicle emissions. This is the first application of this method in China. The method was developed and improved during a four-year field campaign and is an efficient approach to characterize emissions of a large number of on-road vehicles. Fleet average and individual emission factors (EF) are derived and reported. The large sample size significantly expands the database of real world Chinese vehicle emissions. Some of the results are reported for the first time in China: BC and UFP number EF of vehicles by type; EF of buses linked with emission standard; EF distribution based on large sample size; contribution of "heavy emitter" to entire onroad emission; spatial variance of UFP number concentration at on-road, roadside and ambient environments. My work suggests that diesel trucks are a major source of summertime BC in Beijing. Furthermore, "heavy emitter" accounts for a significant portion of BC emissions in Beijing and Chongqing. I also observed a clear downward trend of BC EF of diesel trucks in Beijing from 2008 to 2010, and of buses with more tighten emission standard. These observations indicate the effectiveness of traffic emission control measures (i.e. improvement of fuel quality in Beijing and enforcement of stringent emission standards) on BC EF reduction of diesel vehicles. However, comparison works between BC and NOx EF did not show NOx EF improvement as that of BC. The results and conclusions in this dissertation provide support for policy makers to evaluate and modify current traffic related air pollution control measures and propose future work.
The first concerns that come to mind in relation to pollution from road vehicles are direct emissions of carbon dioxide and toxic air pollutants. These are, of course, important but the impacts of road traffic are altogether more substantial. This volume of the Issues in Environmental Science and Technology Series takes a broader view of the effects on the environment and human health, excluding only injury due to road traffic accidents. By looking across the environmental media, air, water and soil, and taking account also of noise pollution, the volume addresses far more than the conventional atmospheric issues. More importantly, however, it examines present and future vehicle technologies, the implications of more extensive use of batteries in electric vehicles and the consequences of recycling vehicles at the end of use. Finally, examples of life-cycle analysis as applied to road vehicles are reviewed. This book is a comprehensive source of authoritative information for students studying pollution, and for policy-makers concerned with vehicle emissions and road traffic impacts more generally.
Long before "green" issues became a subject of widespread concern, both editors of the present book were heavily involved in research relating to pollutants in the highway environment. The result was the First International Symposium on Highway Pollution in 1983 with subsequent Second and Third Symposia held in London and Munich respectively.The proceedings of these three conferences were published respectively as Volumes 33, 59, and 93 of The Science of the Total Environment which provided individual insights into developing research projects. This book is an attempt at a more coherent overview of highway pollution in which leading international authorities were invited to contribute their works.This book covers all aspects of air, water and noise pollution in the vicinity of highways. Sources, transport and effects are reviewed and control by engineering and legal procedures are considered. The current state of knowledge is put into perspective in this unique work.
Traffic-Related Air Pollution synthesizes and maps TRAP and its impact on human health at the individual and population level. The book analyzes mitigating standards and regulations with a focus on cities. It provides the methods and tools for assessing and quantifying the associated road traffic emissions, air pollution, exposure and population-based health impacts, while also illuminating the mechanisms underlying health impacts through clinical and toxicological research. Real-world implications are set alongside policy options, emerging technologies and best practices. Finally, the book recommends ways to influence discourse and policy to better account for the health impacts of TRAP and its societal costs. - Overviews existing and emerging tools to assess TRAP's public health impacts - Examines TRAP's health effects at the population level - Explores the latest technologies and policies--alongside their potential effectiveness and adverse consequences--for mitigating TRAP - Guides on how methods and tools can leverage teaching, practice and policymaking to ameliorate TRAP and its effects
Human exposure to vehicle emissions and traffic-related air pollution is a major concern with the increasing population living near major roadways and in urban areas. Although there has been a growing interest in near-road measurements and deployment of near-road monitoring networks, isolating and quantifying vehicle emissions from these measurements have always been a challenge. Emission factors has proven to be a method that is invaluable in targeting vehicle emissions while normalizing for the effects of local dilution and dispersion. Algorithms were developed to automatically capture and calculate emission factors from exhaust plumes from vehicles. The individual plume emission factor method utilized high time resolution measurements and provided insight on inter-fleet emission dynamics and trends, providing mean emission factors for the downtown Toronto on-road fleet, co-emitted pollutants from various emitter groups, relative contributions from heavy emitters, and compared well with real-world emission factors from past studies. Additionally, discrepancies were observed between past laboratory and the measured real-world emission factors, with differences upwards of an order of magnitude for the more dynamic pollutants such as particle number concentration. Temporal variation in emission factors were also observed diurnally, weekday vs. weekend, and seasonally, where influences were found to be from changes in fleet make-up, fuel composition, and ambient conditions. A simplified daily-integrated emission factor method was subsequently applied to nearly two years of continuous measurements made at three near-road sites with varying site and fleet characteristics, as well as different meteorological conditions. Emission factors proved to be a useful metric in normalizing the site differences, and provided insight on inter- and intra- fleet emissions characteristics.
"The Global status report on road safety 2015, reflecting information from 180 countries, indicates that worldwide the total number of road traffic deaths has plateaued at 1.25 million per year, with the highest road traffic fatality rates in low-income countries. In the last three years, 17 countries have aligned at least one of their laws with best practice on seat-belts, drink-driving, speed, motorcycle helmets or child restraints. While there has been progress towards improving road safety legislation and in making vehicles safer, the report shows that the pace of change is too slow. Urgent action is needed to achieve the ambitious target for road safety reflected in the newly adopted 2030 Agenda for Sustainable Development: halving the global number of deaths and injuries from road traffic crashes by 2020. Made possible through funding from Bloomberg Philanthropies, this report is the third in the series, and provides a snapshot of the road safety situation globally, highlighting the gaps and the measures needed to best drive progress."--Publisher's description.
Non-exhaust emissions of particulate matter constitute a little-known but rising share of emissions from road traffic and have significant negative impacts on public health. This report synthesizes the current state of knowledge about the nature, causes, and consequences of non-exhaust particulate emissions. It also projects how particulate matter emissions from non-exhaust sources may evolve in future years and reflects on policy instrument mixes that can address this largely ignored environmental issue.
Carbon monoxide (CO) is a toxic air pollutant produced largely from vehicle emissions. Breathing CO at high concentrations leads to reduced oxygen transport by hemoglobin, which has health effects that include impaired reaction timing, headaches, lightheadedness, nausea, vomiting, weakness, clouding of consciousness, coma, and, at high enough concentrations and long enough exposure, death. In recognition of those health effects, the U.S. Environmental Protection Agency (EPA), as directed by the Clean Air Act, established the health-based National Ambient Air Quality Standards (NAAQS) for CO in 1971. Most areas that were previously designated as "nonattainment" areas have come into compliance with the NAAQS for CO, but some locations still have difficulty in attaining the CO standards. Those locations tend to have topographical or meteorological characteristics that exacerbate pollution. In view of the challenges posed for some areas to attain compliance with the NAAQS for CO, congress asked the National Research Council to investigate the problem of CO in areas with meteorological and topographical problems. This interim report deals specifically with Fairbanks, Alaska. Fairbanks was chosen as a case study because its meteorological and topographical characteristics make it susceptible to severe winter inversions that trap CO and other pollutants at ground level.
"The combination of scientific and institutional integrity represented by this book is unusual. It should be a model for future endeavors to help quantify environmental risk as a basis for good decisionmaking." â€"William D. Ruckelshaus, from the foreword. This volume, prepared under the auspices of the Health Effects Institute, an independent research organization created and funded jointly by the Environmental Protection Agency and the automobile industry, brings together experts on atmospheric exposure and on the biological effects of toxic substances to examine what is knownâ€"and not knownâ€"about the human health risks of automotive emissions.