Significant progress has been made recently in reducing the negative impact of vehicles on the environment. The said progress mainly involves the reduction of exhaust emissions through the advancement of powertrains, the use of alternative fuels, preservation of natural resources and waste minimisation through recycling of end-of-life vehicles as well as reduction of noise emission. The greatest progress, however, can be achieved by the appropriate design of transport systems particularly since most of the vehicles in use are fitted with conventional drive systems.Significant change in the level of environment pollution from automotive sources can be made through the application of traffic organisation solutions such as the design of road infrastructure hubs or traffic flow management in urban areas. In contrast to many other measures, the optimisation of traffic flow organisation has a huge advantage because it does not affect exclusively the selected but all vehicles involved in the traffic flow. This paper describes steps and basic guidelines related to the creation of a sustainable transport systems model. The model may be used to design environmentally-friendly transport systems that reduce negative environmental impact from vehicles and guarantee the efficient use of the road transport network.
The paper discusses the problem of exhaust emissions from non-road vehicles. In many cities there are low emission zones for vehicles. Unfortunately non-road engines are excluded from this restriction e.g. construction machinery operates on construction sites, including those located in the said zones. Therefore, the paper presents the results of the exhaust emission tests from an excavator under actual operating conditions. For the tests the authors used a portable exhaust emissions analyzer SEMTECH DS by Sensors for the measurement of gaseous exhaust emissions and SEMTECH LAM for the measurement of the emission of Particulate Matter. The analyzers provide an on-line measurement of the concentrations of the exhaust components under actual operating conditions. The tests performed under actual traffic conditions provide invaluable information regarding the emission during actual operating conditions. In the paper the authors analyzed the relations between the engine operating parameters, vehicle parameters, road conditions (traffic congestion) and the exhaust emissions. The authors, despite differences in the methodology, also presented a comparison of the obtained results with the currently applicable exhaust emission limits in order to draw attention to this issue in urban areas.
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