混合动力汽车数据驱动的热稳定废气排放和驾驶波动性分析

IF 3.1 3区 工程技术 Q2 ENVIRONMENTAL STUDIES
Paulo Fernandes , Eloisa Macedo , Ricardo Tomás , Margarida C. Coelho
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引用次数: 0

摘要

尽管混合动力电动汽车(HEV)在燃料使用和排放方面具有优势,但很少有研究详细描述混合动力电动汽车在实际驾驶条件下不同道路类型的排放模式和驾驶波动曲线。本文研究了热稳定排放、发动机变量、内燃机状态、道路特征和车辆颠簸类型之间的关系。数据来自一辆丰田 HEV 超小型汽车在葡萄牙阿威罗地区乡村、城市和高速公路上的行驶路线。驾驶波动性由基于加速/减速和车辆颠簸组合的六种驾驶风格表示。聚类和不相交主成分分析法(CDPCA)用于提取主成分并识别变量之间的特定聚类。结果表明,路线类型和内燃机(ICE)操作行为都会对车辆颠簸类型的分布产生影响。提议的 CDPCA 受限于道路部门,不同内燃机运行状态下的颠簸类型聚类呈现出不同的形状。这篇文章可以为新一代混合动力汽车的排放监测分析提供有关波动驾驶行为描述的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hybrid electric vehicle data-driven insights on hot-stabilized exhaust emissions and driving volatility

Despite the fuel use and emission benefits of hybrid electric vehicles (HEVs), few studies have characterized in detail emission patterns and driving volatility profiles from HEVs in different road types under real-world driving conditions. This article examined the relationship between hot-stabilized emissions, engine variables, internal combustion engine status, roadway characteristics, and vehicular jerk types. Data were collected from a Toyota HEV subcompact on a driving route over rural, urban, and highway roads in the Aveiro region (Portugal). Driving volatility was represented by six driving styles based on combinations of acceleration/deceleration and vehicular jerk. Clustering and Disjoint Principal Component Analysis (CDPCA) was applied to extract principal components and identify specific clusters among variables. Both route type and internal combustion engine (ICE) operating behavior showed to have an impact on the distribution of vehicular jerk types. The proposed CDPCA constrained to the road sector exhibited different shapes in the clusters of the jerk types between ICE operation status. This article can provide insights into emissions monitoring analysis of the new generation of HEVs about the description of volatile driving behaviors.

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来源期刊
CiteScore
8.90
自引率
2.60%
发文量
56
期刊介绍: The International Journal of Sustainable Transportation provides a discussion forum for the exchange of new and innovative ideas on sustainable transportation research in the context of environmental, economical, social, and engineering aspects, as well as current and future interactions of transportation systems and other urban subsystems. The scope includes the examination of overall sustainability of any transportation system, including its infrastructure, vehicle, operation, and maintenance; the integration of social science disciplines, engineering, and information technology with transportation; the understanding of the comparative aspects of different transportation systems from a global perspective; qualitative and quantitative transportation studies; and case studies, surveys, and expository papers in an international or local context. Equal emphasis is placed on the problems of sustainable transportation that are associated with passenger and freight transportation modes in both industrialized and non-industrialized areas. All submitted manuscripts are subject to initial evaluation by the Editors and, if found suitable for further consideration, to peer review by independent, anonymous expert reviewers. All peer review is single-blind. Submissions are made online via ScholarOne Manuscripts.
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