基于仿真的车辆排放定量方法和二氧化碳收费政策

Q2 Engineering
Ziyue Zhu, Yuling Ye, Yiyang Peng
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引用次数: 0

摘要

随着汽车排放的不断恶化,碳排放收费正成为一项越来越受欢迎的减排政策。本文提出了一种对每辆车因交通流量增加而产生的额外二氧化碳排放进行收费的政策,从而将传统的基于出行时间的交通分配扩展为排放收费交通分配。考虑到网络中车辆的运动受信号配时、跟车以及不同类型车辆的变道相互作用的影响,将微观交通流仿真与CO2排放模型相结合,得出不同类型车辆的路段流量与排放的关系。因此,由于交通流量增加而产生的额外二氧化碳排放量被量化并按每辆车收费,从而导致多车辆类型和多标准的交通分配。通过一个实例网络,验证了所提出的流量-排放模型,并考察了不同的早高峰时段CO2收费价格的影响。分析结果表明,在价格区间内,价格与减少的总排放量和增加的收益之间存在单调的递增关系。此外,由于CO2定价符合定价外部性的一般概念,因此收费政策还导致交通分配达到系统最优分配,从而减少了总旅行时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation-based quantitative methods for vehicle emissions and a CO2 charging policy
With the worsening vehicle emissions, carbon emission charges are becoming an increasingly popular policy to reduce emissions. This paper proposes a policy to charge for the additional CO2 emissions due to the increasing traffic flow for each vehicle, thereby extending traditional travel time-based traffic assignment to emissions-charged traffic assignment. Considering that vehicle movements in the network are affected by signal timings and the car-following together with lanechanging interactions of different types of vehicles, microscopic traffic flow simulation is combined with a CO2 emission model to formulate the relations between link flow and emissions of different types of vehicles. Accordingly, the additional CO2 emissions due to increasing traffic flow are quantified and charged for each vehicle, leading to multi-vehicle-type and multi-criteria traffic assignment. Through an example network, the proposed flow-emissions model is verified and the impacts of different CO2 charging prices in the morning peak hour are investigated. Analysis of the results shows monotone increasing relations between price and reduced total emissions as well as increased revenue within the price range. In addition, the charging policy also leads to traffic assignment that achieves a system-optimal assignment since the CO2 pricing aligns with the general concept of pricing externality, thereby reducing the total travel time.
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来源期刊
Transactions Hong Kong Institution of Engineers
Transactions Hong Kong Institution of Engineers Engineering-Engineering (all)
CiteScore
2.70
自引率
0.00%
发文量
22
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