Are HOV/eco-lanes a sustainable option to reducing emissions in a medium-sized European city? |
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| Institution: | 1. University of Aveiro, Centre for Mechanical Technology and Automation/Dep. Mechanical Engineering, Campus Universitário de Santiago, 3810-193 Aveiro, Portugal;2. University of Tenessee at Knoxville, Civil & Environmental Engineering Department, 322 JD Tickle Bldg., Knoxville, TN 37996, United States;1. Delft University of Technology, Department Transport & Planning, Delft, The Netherlands;2. Rijkswaterstaat Water, Traffic and Environment, Rijswijk, the Netherlands;1. Dynamic Systems and Simulation Laboratory, Technical University of Crete, Chania 73100, Greece;2. Department of Built Environment, School of Engineering, Aalto University, 02150 Espoo, Finland;1. MOE Key Laboratory for Urban Transportation Complex Systems Theory and Technology, Beijing Jiaotong University, Beijing 100044, China;2. College of Science and Technology, Texas Southern University, Houston, TX 77004, USA;3. China Railway Siyuan Survey and Design Group CO., LTD. Wuhan, Hubei 430063, China |
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| Abstract: | Innovative traffic management measures are needed to reduce transportation-related emissions. While in Europe, road lane management has focused mainly on introduction of bus lanes, the conversion to High Occupancy Vehicles (HOV) and eco-lanes (lanes dedicated to vehicles running on alternative fuels) has not been studied comprehensively. The objectives of this research are to: (1) Develop an integrated microscopic modeling platform calibrated with real world data to assess both traffic and emissions impacts of future Traffic Management Strategies (TMS) in an urban area; (2) Evaluate the introduction of HOV/eco-lanes in three different types of roads, freeway, arterial and urban routes, in an European medium-sized city and its effects in terms of emissions and traffic performance. The methodology consists of three distinct phases: (a) Traffic and road inventory data collection; (b) Traffic and emissions simulation using an integrated platform of microscopic simulation; and (c) Evaluation of scenarios. For the baseline scenario, the statistical analysis shows valid results. The results show that HOV and eco-lanes in a medium European city are feasible, and when the Average Occupancy of Vehicles (AOV) increases, on freeways, the majority of vehicles can reduce their travel time (2%) with a positive impact in terms of total emissions (−38% NOx, −39% HC, −43% CO and −37% CO2). On urban and arterial corridors, the reduction in emissions could be achieved only if the AOV increases from 1.50 to 1.70 passengers/vehicle. Total emissions of the corridor with an AOV of 1.70 passengers/vehicle can be reduced up to 35–36% for the urban route while the values can be reduced by 36–39% for the arterial road. With the introduction of Hybrid Electric Vehicles (HEV) and Electric Vehicles (EV) it is possible to reduce emissions, although the introduction of eco-lanes did not show significant reductions in emissions. When both policies are simulated together, an emissions improvement is observed for the arterial route and for two of the scenarios. |
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| Keywords: | Integrated simulation Microscopic traffic model Instantaneous emission model Emissions Eco-lanes HOV |
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