Impact of scaling laws of permanent magnet synchronous machines on the accuracy of energy consumption computation of electric vehicles

IF 15 1区 工程技术 Q1 ENERGY & FUELS
Ayoub Aroua , Walter Lhomme , Florian Verbelen , Mohamed N. Ibrahim , Alain Bouscayrol , Peter Sergeant , Kurt Stockman
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引用次数: 2

Abstract

This paper compares the impact of two scaling methods of electric machines on the energy consumption of electric vehicles. The first one is the linear losses-to-power scaling method of efficiency maps, which is widely used in powertrain design studies. While the second is the geometric scaling method. Linear scaling assumes that the losses of a reference machine are linearly scaled according to the new desired power rating. This assumption is questionable and yet its impact on the energy consumption of electric vehicles remains unknown. Geometric scaling enables rapid and accurate recalculation of the parameters of the scaled machines based on scaling laws validated by finite element analysis. For this comparison, a reference machine design of 80 kW is downscaled with a power scaling factor of 0.58 and upscaled considering a power scaling of 1.96. For comparative purposes, optimal combinations of geometric scaling factors are determined. The scaled machines are derived to fit the driving requirements of two electric vehicles, namely a light-duty vehicle and a medium-duty truck. The comparison is performed for 9 standardized driving cycles. The results show that the maximal relative difference between linear and geometric scaling in terms of energy consumption is 3.5% for the case of the light-duty vehicle, compared with 1.2% for the case of the truck. The findings of this work provide evidence that linear scaling can continue to be used in system-level design studies with a relatively low impact on energy consumption. This is of high interest considering the simplicity of linear scaling and its potential for time-saving in the early development phases of electric vehicles.

Abstract Image

永磁同步电机标度规律对电动汽车能耗计算精度的影响
本文比较了两种电机定标方法对电动汽车能耗的影响。第一种是效率图的线性损失功率比例法,该方法广泛应用于动力总成设计研究。第二种是几何缩放法。线性缩放假设参考机器的损耗根据新的期望功率额定值线性缩放。这一假设值得商榷,但其对电动汽车能耗的影响仍不得而知。几何缩放可以根据经有限元分析验证的缩放规律快速准确地重新计算缩放后的机器参数。为了进行比较,参考机器设计为80 kW,按功率缩放系数为0.58进行缩小,按功率缩放系数为1.96进行放大。为了便于比较,确定了几何比例因子的最佳组合。根据两种电动汽车,即轻型汽车和中型卡车的行驶要求,推导出了缩放后的机器。在9个标准化驾驶循环中进行了比较。结果表明,在能源消耗方面,轻型汽车的线性和几何尺度之间的最大相对差异为3.5%,而卡车的相对差异为1.2%。这项工作的发现提供了证据,线性缩放可以继续在系统级设计研究中使用,对能耗的影响相对较低。考虑到线性缩放的简单性及其在电动汽车早期开发阶段节省时间的潜力,这是非常有趣的。
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
Etransportation
Etransportation Engineering-Automotive Engineering
CiteScore
19.80
自引率
12.60%
发文量
57
审稿时长
39 days
期刊介绍: eTransportation is a scholarly journal that aims to advance knowledge in the field of electric transportation. It focuses on all modes of transportation that utilize electricity as their primary source of energy, including electric vehicles, trains, ships, and aircraft. The journal covers all stages of research, development, and testing of new technologies, systems, and devices related to electrical transportation. The journal welcomes the use of simulation and analysis tools at the system, transport, or device level. Its primary emphasis is on the study of the electrical and electronic aspects of transportation systems. However, it also considers research on mechanical parts or subsystems of vehicles if there is a clear interaction with electrical or electronic equipment. Please note that this journal excludes other aspects such as sociological, political, regulatory, or environmental factors from its scope.
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