Author: Publisher:
ISBN:
Category : Air
Languages : en
Pages : 132
Book Description
Mobile Source Emissions Inventory Development
Author: Mobile Source Emissions Inventory
Author: Joon H. ByunEmissions inventory guidance for implementation of ozone and particulate matter national ambient air quality standards (NAAQS) and regional haze regulations
Author: Publisher: DIANE Publishing
ISBN: 1428904492
Category :
Languages : en
Pages : 147
Book Description
Modeling Mobile-Source Emissions
Author: National Research CouncilPublisher: National Academies Press
ISBN: 0309171903
Category : Science
Languages : en
Pages : 257
Book Description
The Mobile Source Emissions Factor (MOBILE) model is a computer model developed by the U.S. Environmental Protection Agency (EPA) for estimating emissions from on-road motor vehicles. MOBILE is used in air-quality planning and regulation for estimating emissions of carbon monoxide (CO), volatile organic compounds (VOCs), and nitrogen oxides (NOx) and for predicting the effects of emissions-reduction programs. Because of its important role in air-quality management, the accuracy of MOBILE is critical. Possible consequences of inaccurately characterizing motor-vehicle emissions include the implementation of insufficient controls that endanger the environment and public health or the implementation of ineffective policies that impose excessive control costs. Billions of dollars per year in transportation funding are linked to air-quality attainment plans, which rely on estimates of mobile-source emissions. Transportation infrastructure decisions are also affected by emissions estimates from MOBILE. In response to a request from Congress, the National Research Council established the Committee to Review EPA's Mobile Source Emissions Factor (MOBILE) Model in October 1998. The committee was charged to evaluate MOBILE and to develop recommendations for improving the model.
Emissions Inventory Guidance for Implementation of Ozone and Particulate Matter National Ambient Air Quality Standards (NAAQS) and Regional Haze Regulations
Author: Publisher: DIANE Publishing
ISBN: 1428902481
Category : Air
Languages : en
Pages : 120
Book Description
A New Grid-based Mobile Source Emissions Inventory Model
Author: Yi ZhengAir Quality Management in the United States
Author: National Research CouncilPublisher: National Academies Press
ISBN: 0309167868
Category : Science
Languages : en
Pages : 426
Book Description
Managing the nation's air quality is a complex undertaking, involving tens of thousands of people in regulating thousands of pollution sources. The authors identify what has worked and what has not, and they offer wide-ranging recommendations for setting future priorities, making difficult choices, and increasing innovation. This new book explores how to better integrate scientific advances and new technologies into the air quality management system. The volume reviews the three-decade history of governmental efforts toward cleaner air, discussing how air quality standards are set and results measured, the design and implementation of control strategies, regulatory processes and procedures, special issues with mobile pollution sources, and more. The book looks at efforts to spur social and behavioral changes that affect air quality, the effectiveness of market-based instruments for air quality regulation, and many other aspects of the issue. Rich in technical detail, this book will be of interest to all those engaged in air quality management: scientists, engineers, industrial managers, law makers, regulators, health officials, clean-air advocates, and concerned citizens.
The Emission Inventory
Author: Air Emissions Inventory Guidance Document for Mobile Sources at Air Force Installations
Author: Publisher:
ISBN:
Category :
Languages : en
Pages : 0
Book Description
This report serves as a guidance document for the preparation of mobile source air emissions inventories at U.S. Air Force installations. Air emissions inventories are prepared at Air Force installations to comply with Federal, State, and local air quality regulatory requirements. Inventories are also used in the implementation of various environmental programs, including pollution prevention opportunities, emissions trading, risk assessments, and environmental auditing. Historically, most air emission inventories performed at U.S. Air Force installations have only targeted stationary sources. However, the need to conduct mobile source air emissions inventories is continually growing due to the increase in regulatory requirements associated with mobile sources. The purpose of this document is to provide a uniform and logical approach for preparing mobile source emissions inventories. The report provides recommended methodologies and emission factors for calculating actual emissions from the most common types of mobile sources found at Air Force installations, including aerospace ground equipment (AGE), aircraft flying operations, on-road vehicles, and non-road vehicles/equipment. The pollutants addressed in this report include both criteria pollutants and hazardous air pollutants.
Evaluation of Mobile Source Emissions and Trends
Author: Timothy Ryan DallmannPublisher:
ISBN:
Category :
Languages : en
Pages : 153
Book Description
Mobile sources contribute significantly to air pollution problems. Relevant pollutants include numerous gaseous and particle-phase species that can affect human health, ecosystems, and climate. Accurate inventories of emissions from these sources are needed to help understand possible adverse impacts, and to develop effective air quality management strategies. Unfortunately large uncertainties persist in the understanding of mobile source emissions, and how these emissions are changing over time. There are more than two hundred million motor vehicles operating in the United States alone, and measurements of emissions from these sources are sparse. Pollutant emission factor distributions are becoming increasingly skewed, and this continually increases the needed vehicle sample size in studies that seek to quantify fleet-average vehicle emission rates. This dissertation aims to evaluate long-term trends in mobile source emissions in the United States, and to make detailed measurements of emissions from present-day fleets of on-road vehicles operating in California. Novel features of this work include studies of the in-use effectiveness of modern control technologies used to reduce diesel engine emissions, and application of advanced instrumentation to measure emissions from large numbers of on-road gasoline and diesel vehicles at high time resolution and with a high level of chemical and physical detail. Long-term trends in mobile source emissions of nitrogen oxides (NOx) and fine particulate matter (PM2.5) in the United States were investigated through development of a fuel-based emission inventory. Annual emissions from on- and off-road gasoline and diesel engines were quantified for the years 1996-2006. Diesel engines were found to be the dominant mobile source of NOx and PM2.5, and on-road diesel vehicles were identified as the single largest anthropogenic source of NOx emissions in the United States as of 2005. The relative importance of diesel engines as a source of NOx grew over the ten-year time period considered here, while emissions from gasoline engines declined due to increased effectiveness and use of three-way catalytic converters. A comparison with national emission inventory estimates for 2005 found substantial differences in source contributions to overall mobile source emissions, with larger contributions from on-road diesel engines indicated in this study. The importance of diesel engines as a source of exhaust particulate matter emissions has led to the recent introduction of advanced emission control technologies in the United States, such as diesel particle filters (DPF), which have been required since 2007 for all new on-road heavy-duty (HD) diesel engines. In addition to national requirements for the use of such control devices on new engines, California has mandated accelerated clean-up of statewide emissions from older in-use diesel engines. This goal is to be achieved through filter retrofit and truck/engine replacement programs. This dissertation uses measurements of emissions from in-use HD diesel trucks at the Port of Oakland to evaluate the impacts of a DPF retrofit and truck replacement program. A plume capture method was developed to quantify black carbon (BC) and NOx emission factors for individual trucks and to characterize emission factor distributions. A comparison of emissions measured before and after the implementation of the truck retrofit/replacement rule shows a 54 " 11% reduction in the fleet-average BC emission factor, accompanied by a shift to a more highly skewed emission factor distribution. Although only particulate matter mass reductions were required in the first phase of the program, a 41 " 5% reduction in the fleet-average NOx emission factor was observed. These results provide an in-use/real-world assessment of the impact of DPF emission control systems, and a preview of emissions changes that may be expected from the extension of similar control programs to the entire HD truck fleet in California beginning in 2014. The plume capture method was further applied to measure emissions from a more diverse population of trucks observed at the Caldecott tunnel in summer 2010. Emissions from hundreds of individual trucks were measured, and emission factor distributions were characterized for nitric oxide (NO), nitrogen dioxide (NO2), carbon monoxide (CO), formaldehyde, BC, as well as optical properties of the emitted particles. Emission factor distributions for all species were skewed, with a small fraction of trucks contributing disproportionately to total emissions. For example, half of the total measured NO2 and BC were produced by only 10% of the total measurements. Total NOx and formaldehyde showed less skewed emission factor distributions compared to CO and BC. Emission factors for NO2 were found to be anti-correlated with all other pollutants considered here. Also, the fleet-average NO2 emission factor increased 34 " 18% relative to the corresponding value measured at the same location in 2006. These findings confirm that the use of catalyzed DPF systems is leading to increased primary NO2 emissions. Absorption and scattering cross-section emission factors were used to calculate the aerosol single scattering albedo (SSA, at 532 nm) for individual truck exhaust plumes, which averaged 0.14 " 0.03. This value of aerosol SSA is very low compared to typical values (0.90-0.99) observed in ambient air studies. It is indicative of a strongly light-absorbing aerosol, due to the high BC emissions that are a characteristic feature of diesel exhaust PM emissions. Measurements at the Caldecott tunnel also included efforts to quantify light-duty (LD) gasoline vehicle emission factors, and further investigation of the relative contributions of on-road gasoline and diesel engines to air pollutant emissions. Measurements of CO, NOx, PM2.5, BC, and organic aerosol (OA) were made in a tunnel traffic bore where LD vehicles account for>99% of total traffic. Measured pollutant concentrations were apportioned between LD gasoline vehicles and diesel trucks, and fleet-average emission factors were quantified for LD gasoline vehicles using a carbon balance method. Diesel trucks contributed 18 " 3, 22 " 5, 44 " 8% of measured NOx, OA, and BC concentrations, respectively, despite accounting for