多维混合交通流环境下变道行为对路段交通排放的影响。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-05-01 Epub Date: 2023-04-14 DOI:10.1080/10962247.2023.2190180
Xinghua Hu, Mintanyu Zheng, Jianpu Guo, Xinghui Chen, Gao Dai, Jiahao Zhao, Bing Long
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引用次数: 0

摘要

本研究分析了在燃油车-电池-电动汽车(FV-BEV)和人机协同自适应巡航控制(HDV-CACC)多维混合交通流环境中,变道行为对路段交通流排放和能耗的影响。在传统能耗模型的基础上,考虑BEV和CACC渗透率,建立了多维混合交通流能耗模型。采用微观交通流理论方法分析了多维混合交通流的变道行为及其对能耗的影响机制,并利用MATLAB进行了实验仿真。前导车辆的变道行为对路段交通流的能耗产生了负面影响。在95%的有效影响范围内,与变道行为相关的交通流平均能耗比后续交通流高7.8%。纯电动汽车的普及率有利于降低混合交通流的能耗。在经济速度下,均质纯电动汽车交通流的能耗仅为均质FV交通流的58.3%。CACC的渗透率可以提高交通流的韧性。当纯电动汽车渗透率恒定时,CACC渗透率越高,变道行为对排放的影响越小。当交通流完全转化为同质CACC交通流时,变道行为只会使交通流的整体能耗增加4.99%,低于平均水平。因此,推广纯电动汽车和CACC可以改善交通排放对空气污染的影响。当CACC渗透率较低时,减少不必要的变道行为以确保交通流的稳定性也是减少排放的有效方法。启示:提出了多维混合交通流能耗模型。CACC渗透率、纯电动汽车渗透率和变道行为将改变交通能耗。本文对不同的影响因素进行了逐一分析。为交通管理相关部门优化车辆排放和交通组织提供了理论依据。
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Impact of lane-changing behavior on traffic emissions of road sections in multi-dimensional mixed traffic flow environment.

This study analyzed the effect of lane-changing behavior on traffic flow emissions and energy consumption of road sections in fuel vehicle-battery electric vehicle (FV-BEV) and human-driven vehicle-cooperative adaptive cruise control (HDV-CACC) multi-dimensional mixed traffic flow environments. Based on the traditional energy consumption model, a multi-dimensional mixed traffic flow energy consumption model was established by considering the BEV and CACC penetration rates. The microscopic traffic flow theory approach was used to analyze lane-changing behavior and the influencing mechanism of lane-changing behavior on the energy consumption of multi-dimensional mixed traffic flow, and MATLAB was used for the experimental simulation. The lane-changing behavior of the leading vehicle had a negative impact on the energy consumption of road segment traffic flow. Within the 95% effective impact range, the average energy consumption of traffic flow with respect to lane-changing behavior was 7.8% higher than that of the following traffic flow. The BEV penetration rate was beneficial for reducing the energy consumption of mixed traffic flow. At an economic velocity, the energy consumption of homogeneous BEV traffic flow was only 58.3% of that of homogeneous FV traffic flow. The CACC penetration rate could increase the traffic flow toughness. When the BEV penetration rate was constant, the higher the CACC penetration rate, the smaller the impact of lane-changing behavior on emissions. When traffic flow was completely transformed to homogeneous CACC traffic flow, lane-changing behavior only increased the overall energy consumption of the traffic flow by 4.99%, which was lower than the average level. Consequently, the promotion of BEV and CACC can improve the impact of traffic emissions on air pollution. When CACC penetration is low, reducing unnecessary lane-changing behavior to ensure the stability of traffic flow is also an effective way to reduce emissions.Implications: Multi-dimensional mixed traffic flow energy consumption model is proposed.CACC penetration rate, BEV penetration rate and lane-changing behavior will change traffic energy consumption. In this paper, different influencing factors are analyzed one by one.It provides a theoretical basis for relevant departments of traffic management to optimize vehicle emissions and traffic organization.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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