基于沥青路面性能的运营期碳排放计算方法

IF 4.3 Q2 TRANSPORTATION
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引用次数: 0

摘要

目前的汽车碳排放模型往往忽略了路面粗糙度对驾驶速度选择的影响,这可能会损害碳排放评估的准确性。本研究首先基于便携式排放测量系统(PEMS)的测量结果,建立了用户车辆碳排放、行驶速度和路面粗糙度的明确模型。其次,研究了路面粗糙度对驾驶员行为选择的影响,并建立了粗糙度与驾驶速度选择之间的相互关系模型。最后,基于路面性能模型,提出了更符合实际的运营期碳排放计算模型,并与传统的车辆运营成本(VOC)模型进行了对比,验证了其准确性。研究发现,在自由流条件下存在一个碳排放最小点,其对应的行驶速度为用户车辆的最佳速度点,即 63 km/h。此外,崎岖度与行驶速度选择之间存在很大的线性相关性,在最终计算模型中应考虑到这一点。本研究建立的车辆碳排放模型为评估沥青路面的生命周期排放、指导路面养护策略的选择以降低碳排放提供了可靠的参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Carbon-emission calculation method during operation period based on asphalt pavement performance

Current vehicle carbon emission models tend to ignore the influence of road roughness on driving speed selection, which may damage the carbon emission evaluation accuracy. In this study, first, based on the results obtained with a portable emissions measurement system (PEMS), an explicit model for user vehicle carbon emissions, driving speed, and pavement roughness is established. Second, the influence of road roughness on driver behavior choice is investigated, and an interrelationship model between roughness and driving speed choice is developed. Finally, a more realistic carbon emission calculation model during the operation period is proposed based on the pavement performance model, and the accuracy is verified in comparison with the traditional vehicle operating cost (VOC) model. It is found that there exists a carbon emission minimization point under free-flow conditions, and the corresponding driving speed is the optimal speed point of user vehicles, i.e. 63 km/h. In addition, a great linear correlation exists between the roughness and driving speed selection, which should be considered in the final calculation model. The vehicle carbon emission model developed in this research provides solid references for evaluating the life-cycle emission of asphalt pavement and guiding the selection of maintenance strategies for the pavement to lower carbon emissions.

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来源期刊
International Journal of Transportation Science and Technology
International Journal of Transportation Science and Technology Engineering-Civil and Structural Engineering
CiteScore
7.20
自引率
0.00%
发文量
105
审稿时长
88 days
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