Overview Of Emission And Traffic Models And Evaluation Of Vehicle Simulation Tools
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| Author | : |
| Publisher | : |
| Total Pages | : 75 |
| Release | : 2013 |
| Genre | : |
| ISBN | : 9789279346804 |
One of the main concerns regarding the road transport sector is the fact that it constitutes one of the main sources of air pollution, especially in urban areas, since the combustion of hydrocarbon fuels in vehicles produces several pollutants. The most common approach for the assessment of traffic-related emission factors is the exhaust gas measurement of vehicles on chassis dynamometers over various driving cycles. A rather favourable approach in order to reduce the number of experimental procedures and thereby the cost of such tests is the development and calibration of vehicle simulation tools and emission models which could be used for the accurate evaluation and quantification of vehicle emissions without the necessity of expensive experimental campaigns. Today, there are several tools for the estimation of traffic-related emissions. Such tools are essential in any European or global policy dealing with emission projections, air pollution or climate change issues.^This study presents a description of the current emission models (COPERT, EMFAC, etc.), traffic (AIMSUN, Vissim, etc.) and vehicle simulation tools (ADVISOR, AUTONOMIE, PH EM etc.). The review of existing models and methods provides evidence that there is a large variety of available tools to calculate traffic-related emissions and to develop road transport emission inventories, however, new trends and policies must also be fully incorporated in the existing tools. In addition, in order to use emission models and vehicle simulation tools in the proper way, detailed and precise measurements of vehicle operation are required, otherwise any potential benefits may be lost. This is likely to be rather difficult since such information is relatively expensive or difficult to collect. For example, certain input data may not be available, such as vehicle loading and gear-shift behaviour. The last point raises an important consideration regarding model complexity.^More complex models have the potential to provide more accurate predictions as they take into account more variables. However, they also require more detailed input data which may not be readily available to the model user.
| Author | : |
| Publisher | : |
| Total Pages | : 72 |
| Release | : 2013 |
| Genre | : |
| ISBN | : 9789279281167 |
One of the main concerns regarding the road transport sector is the fact that it constitutes one of the main sources of air pollution, especially in urban areas, since the combustion of hydrocarbon fuels in vehicles produces several pollutants. The most common approach for the assessment of traffic-related emission factors is the exhaust gas measurement of vehicles on chassis dynamometers over various driving cycles. A rather favourable approach in order to reduce the number of experimental procedures and thereby the cost of such tests is the development and calibration of vehicle simulation tools and emission models which could be used for the accurate evaluation and quantification of vehicle emissions without the necessity of expensive experimental campaigns. Today, there are several tools for the estimation of traffic-related emissions. Such tools are essential in any European or global policy dealing with emission projections, air pollution or climate change issues. This study presents a description of the current emission models (COPERT, EMFAC, etc) and vehicle simulation tools (ADVISOR, AUTONOMIE, PHEM etc). The review of existing models and methods provides evidence that there is a large variety of available tools to calculate traffic-related emissions and to develop road transport emission inventories, however, new trends and policies must also be fully incorporated in the existing tools. In addition, in order to use emission models and vehicle simulation tools in the proper way, detailed and precise measurements of vehicle operation are required, otherwise any potential benefits may be lost. This is likely to be rather difficult since such information is relatively expensive or difficult to collect. For example, certain input data may not be available, such as vehicle loading and gear-shift behaviour. The last point raises an important consideration regarding model complexity. More complex models have the potential to provide more accurate predictions as they take into account more variables. However, they also require more detailed input data which may not be readily available to the model user.
| Author | : Nikolaos Tsanakas |
| Publisher | : Linköping University Electronic Press |
| Total Pages | : 131 |
| Release | : 2019-04-24 |
| Genre | : |
| ISBN | : 9176850927 |
Traffic congestion increases travel times, but also results in higher energy usage and vehicular emissions. To evaluate the impact of traffic emissions on environment and human health, the accurate estimation of their rates and location is required. Traffic emission models can be used for estimating emissions, providing emission factors in grams per vehicle and kilometre. Emission factors are defined for specific traffic situations, and traffic data is necessary in order to determine these traffic situations along a traffic network. The required traffic data, which consists of average speed and flow, can be obtained either from traffic models or sensor measurements. In large urban areas, the collection of cross-sectional data from stationary sensors is a costefficient method of deriving traffic data for emission modelling. However, the traditional approaches of extrapolating this data in time and space may not accurately capture the variations of the traffic variables when congestion is high, affecting the emission estimation. Static transportation planning models, commonly used for the evaluation of infrastructure investments and policy changes, constitute an alternative efficient method of estimating the traffic data. Nevertheless, their static nature may result in an inaccurate estimation of dynamic traffic variables, such as the location of congestion, having a direct impact on emission estimation. Congestion is strongly correlated with increased emission rates, and since emissions have location specific effects, the location of congestion becomes a crucial aspect. Therefore, the derivation of traffic data for emission modelling usually relies on the simplified, traditional approaches. The aim of this thesis is to identify, quantify and finally reduce the potential errors that these traditional approaches introduce in an emission estimation analysis. According to our main findings, traditional approaches may be sufficient for analysing pollutants with global effects such as CO2, or for large-scale emission modelling applications such as emission inventories. However, for more temporally and spatially sensitive applications, such as dispersion and exposure modelling, a more detailed approach is needed. In case of cross-sectional measurements, we suggest and evaluate the use of a more detailed, but computationally more expensive, data extrapolation approach. Additionally, considering the inabilities of static models, we propose and evaluate the post-processing of their results, by applying quasi-dynamic network loading.
| Author | : National Research Council |
| Publisher | : National Academies Press |
| Total Pages | : 257 |
| Release | : 2000-07-14 |
| Genre | : Science |
| ISBN | : 0309171903 |
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.
| Author | : |
| Publisher | : |
| Total Pages | : 64 |
| Release | : 2000 |
| Genre | : Air |
| ISBN | : |
| Author | : Eric Daniel Jackson |
| Publisher | : |
| Total Pages | : 404 |
| Release | : 2008 |
| Genre | : |
| ISBN | : |
| Author | : Sharon Adams Boxill |
| Publisher | : |
| Total Pages | : 120 |
| Release | : 2000 |
| Genre | : Intelligent transportation systems |
| ISBN | : |
Tools to evaluate networks under information supply are a vital necessity in light of the systems being implemented as part of the Intelligent Transportation Systems (ITS) deployment plan. One such tool is the traffic simulation model. This report presents an evaluation of the existing traffic simulation models to identify the models that can be potentially applied in ITS equipped networks. The traffic simulation models are categorized according to type (macroscopic, microscopic or mesoscopic), as well as functionality (highway, signal, integrated). The entire evaluation is conducted through two steps: initial screening and in-depth evaluation. The initial step generates a shorter but more specific list of traffic simulation models based on some pre-determined criteria. The in-depth evaluation identifies which model on the shorter list is suitable for a specific area of ITS applications. It is concluded from this research that presently CORSIM and INTEGRATION appear to have the highest probability of success in real-world applications. It is also found that by adding more calibration and validation in the U.S., the AIMSUN 2 and PARAMICS models will be brought to the forefront in the near term for use with ITS applications.
| Author | : Matthew Muresan |
| Publisher | : |
| Total Pages | : 95 |
| Release | : 2015 |
| Genre | : |
| ISBN | : |
The need to understand the effect of policy decisions on environmental indicators is strong. The emergence of new technologies brought about by connected vehicle technologies, which are difficult to evaluate in field settings, means that policies must often be evaluated with software models. In these cases, however, the transportation model and the emissions model are often separate, and multiple different ways to connect these models are possible. Although the estimations provided by each model will vary, each method also differs in terms of the computational time. This research is motivated by the need to understand the consequences of choosing a particular method to link a traffic and emissions model. Within the literature, aggregated approaches that simply use average speeds and volumes are often selected for their convenience and lower data needs. A number of different scenarios were therefore constructed to compare the estimates of these aggregated approaches to other methods that use disaggregated data, such as the use of individual discrete trajectories, the use of a velocity binning scheme that characterises networks based on their velocity profile or the use of a clustering algorithm developed for this study. This research presents a clustering algorithm that can be used to reduce the computational loads of an emissions estimation process without loss of accuracy. The results of the analysis highlight the consequences of choosing each approach. Aggregated approaches produce unreliable estimates as they are backed by assumptions that may not be valid in every case. Using individual trajectories creates high computational loads and may not be feasible in all cases. The wealth of data available from a traffic microsimulation mean that using an aggregated approach neglects to utilise the full potential of the model; however, the hybrid approaches presented in this research (clustering and velocity binning) were found to make excellent use of this data while still minimizing computational demands.
| Author | : PB Americas, Inc |
| Publisher | : Transportation Research Board |
| Total Pages | : 108 |
| Release | : 2013 |
| Genre | : Science |
| ISBN | : 0309129303 |
" TRB's second Strategic Highway Research Program (SHRP 2) Report S2-C09-RR-1: Incorporating Greenhouse Gas Emissions into the Collaborative Decision-Making Framework identifies where and how greenhouse gas (GHG) emissions and energy consumption fit into a conceptual decision-making framework, including key decision points.The report presents background information on the role of GHG emissions in the transportation sector, factors influencing the future of emissions, GHG emissions reduction strategies, as well as information on cost effectiveness and feasibility of these reduction strategies. It also presents case studies to illustrate different scales and institutional contexts for GHG analyses. " -- publisher's description
| Author | : Timothy C. Coburn |
| Publisher | : DIANE Publishing |
| Total Pages | : 111 |
| Release | : 2001-04 |
| Genre | : |
| ISBN | : 075670927X |
Contains many of the papers presented in a mini-symposium on statistical analysis & modeling of automotive emissions held in Aug. 1999. The articles represent the efforts of approximately 20 authors & co-authors from across industry, gov't., & academia & cover a diverse array of topics regarding fundamental methodological issues, advanced statistical techniques, & specific case studies. Two papers included in the mini-symposium involved the assessment of sulfur in diesel fuel on the performance of emissions control devices & the forecasting of ozone standard exceedances that occur partly in response to vehicular traffic vol. & dispersion.
