DRAG REDUCTION OF A SIMPLIFIED TRUCK MODEL USING CAB ROOF FAIRINGS

Q4 Earth and Planetary Sciences

ASEAN Engineering Journal Pub Date : 2023-10-24 DOI:10.11113/aej.v13.19277

Nurul Syamimi Zahirah Ismadi, Ahmad Fikri Mustaffa

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Abstract

Adverse effects of climate change have prompt transition towards a low-carbon transportation sector. Electrification of the transportation sector is one of the ongoing efforts to reduce the Greenhouse Gas emissions. However, electrification of long haul and heavy-duty vehicles remain a huge challenge due to cost and limitation in the current battery technology. Improving the aerodynamic design of current truck-trailer is an alternative to electrification. This initiative involves modifying the current truck-trailer body design or attaching accessories for aerodynamic drag reduction that can lead to improved fuel economy. In this paper, the effectiveness of four Cab Roof Fairing (CRF) designs on the aerodynamic drag reduction of a simplified truck model is investigated. The results of a numerical simulation performed on a two-dimensional model show that the CRF can reduce aerodynamic drag by up to 45%. The CRF is found to reduce the vertical velocity component of the flow at fore part of the truck body. This leads to a relatively smaller wake region when compared against the baseline case. Wind tunnel results is performed to verify the results of the numerical simulation. At Reynolds number , the measured coefficient of drag reduction is about 6% when compared with the baseline case.

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使用驾驶室顶部整流罩减少简化卡车模型的阻力

气候变化的不利影响促使向低碳交通部门转型。运输部门的电气化是减少温室气体排放的持续努力之一。然而，由于目前电池技术的成本和局限性，长途运输和重型车辆的电气化仍然是一个巨大的挑战。改进现有卡车拖车的空气动力学设计是电气化的一个替代方案。这一举措包括修改现有卡车拖车的车身设计或安装附件，以减少空气阻力，从而提高燃油经济性。本文研究了四种驾驶室顶部整流罩（CRF）设计对减少简化卡车模型空气阻力的效果。在二维模型上进行的数值模拟结果表明，CRF 可减少高达 45% 的空气阻力。研究发现，CRF 可以减少卡车车身前部的垂直速度分量。与基线情况相比，这导致尾流区域相对较小。为了验证数值模拟的结果，对风洞结果进行了验证。在雷诺数下，与基准情况相比，测得的阻力系数降低了约 6%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ASEAN Engineering Journal Engineering-Engineering (all)

CiteScore

0.60

自引率

0.00%

发文量