Dynamic Simulation Model of a Hybrid Electric ATV

Journal of Transport System Engineering Pub Date : 2022-03-09 DOI:10.11113/jtse.v8.168

Ahmad Zaki Abdillah, Z. Asus, Zul Hilmi, Che Daud

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Abstract

The application of electric vehicles has its own disadvantages which can influence the critical performance of the vehicles such as the limited capacity of the battery that play a major role in the range of mileage covered. Hence, a hybrid electric All-Terrain-Vehicle (HEATV) is a best solution as the addition of gasoline-powered engine and electric generator can extend the range covered by an electric ATV. In order to determine the effectiveness of the hybrid configuration, a dynamic simulation model need to be developed by Energetic Macroscopic Representation Method (EMR) to analyze the performance of the ATV. The EMR method involve the causal ordering graph and action-reaction principle together with Inversion-based Control to develop a control structure of a HEATV. The simulation test will be run on the original and modifications of the ATV where the original one only depends on EM to drive the vehicle whereas the modified vehicle include the ICE and electric generator for charging process. The simulation results of the original ATV show the decreasing trend in terms of battery state-of-charge. However, after the modifications have been done the battery state-of-charge show the increasing trend and thus, extend the range of mileage covered by an ATV.

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混合动力全地形车动力学仿真模型

电动汽车的应用有其自身的缺点，会影响车辆的关键性能，例如电池的有限容量，这对行驶里程起着重要作用。因此，混合动力全地形车(HEATV)是一个最好的解决方案，因为增加汽油动力发动机和发电机可以扩大电动全地形车的覆盖范围。为了确定混合动力配置的有效性，需要采用能量宏观表示法(EMR)建立动态仿真模型来分析ATV的性能。EMR方法将因果顺序图和作用-反应原理与基于反转的控制相结合，建立了热电加热器的控制结构。模拟测试将在原始和改装的亚视上进行，其中原始的亚视仅依靠电磁驱动车辆，而改装后的亚视则包括用于充电过程的内燃机和发电机。原ATV的仿真结果表明，电池的电量状态呈下降趋势。然而，在修改完成后，电池的充电状态显示出增加的趋势，从而延长了亚视覆盖的里程范围。

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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Journal of Transport System Engineering

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