基于驱动周期的电动两轮车能耗估算

Energy Storage Pub Date : 2024-09-02 DOI:10.1002/est2.70030
Bhaskar Pandey, Devendra Vashist
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引用次数: 0

摘要

运输部门是任何国家经济增长的支柱。然而,该部门对石油燃料的严重依赖是可持续发展的一个令人担忧的问题。为了解决这个问题,各国都在努力发展以绿色能源为基础的交通方式,而在所有可行的解决方案中,电动汽车(EV)正在崭露头角。续航焦虑是电动汽车应用中最突出的问题之一。车辆的续航里程取决于能源消耗,因此精确估算能源消耗至关重要。目前有许多标准驾驶循环,如新欧洲驾驶循环(NEDC)和全球统一轻型车辆测试循环(WLTC),用于估算能耗。然而,这些标准循环无法捕捉真实交通的驾驶行为。因此,与实际能耗相比,这些标准循环低估了能耗。为了更真实地估算能源需求,研究人员正致力于开发特定地理位置的真实世界驾驶循环。本文为印度勒克瑙市开发了一种真实世界的电动两轮车驱动循环,并与 WLTC 的驾驶特性和能耗估算进行了比较。勒克瑙驱动循环和 WLTC 的每公里能耗分别为 14.89 Wh/km 和 11.95 Wh/km,这表明 LDC 的每公里能耗估计值比 WLTC 高 24.60%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Drive Cycle-Based Estimation of Energy Consumption for Electric Two-Wheeler

The transportation sector is the backbone of the economic growth of any country. However, the heavy dependence of this sector on petroleum fuel is a matter of concern for sustainable development. To address this issue countries are working toward green energy-based transportation, and among all viable solutions electric vehicles (EVs) are emerging as front runners. Range anxiety is one of the most prominent concerns in EV adoption. The range of a vehicle depends on the energy consumption so it becomes crucial to estimate it very precisely. There are many standard drive cycles such as the New European Driving Cycle (NEDC) and Worldwide harmonized Light-duty Vehicle Test Cycles (WLTC) which are used for the estimation of energy consumption. However, these standard cycles fail to capture the driving behavior of real traffic. Due to this reason, these standard cycles underestimate the energy consumption compared with actual consumption. For more realistic energy requirement estimations, researchers are focusing on the development of real-world drive cycles specific to a particular geography. In this paper, a real-world drive cycle of electric two-wheeler has been developed for the city of Lucknow, India, and compared with the driving characteristics and energy consumption estimates of WLTC. The energy requirement per km for the Lucknow drive cycle and WLTC are found as 14.89 Wh/km and 11.95 Wh/km, respectively, which indicates per km energy required estimation for LDC is 24.60% higher than WLTC.

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