Study and analysis of an Electromagnetic Energy Recovery Damper (EERD) for automotive applications

M. Zaouia, N. Benamrouche, A. Djerdir
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引用次数: 2

Abstract

The aim of this paper is to develop an electromagnetic-mechanical model to analyse an Electromagnetic Energy Recovery Damper (EERD) for automotive applications to quantify the electrical power for various cycle of vibrations created by road irregularities. The EERD transforms the kinetic energy due to vibrations, to electrical energy. The developed model is based on the governing magnetic field equation expressed in terms of magnetic vector potential solved using the nodal-based finite element method and then coupled to the electromagnetic and mechanical equations obtained after modelling a quarter of vehicle system. The coupling is carried out firstly through the magnetic force, and then by the modified flux distribution due to the moving part displacements simulated by the MacroElement method. The cycles of vibrations are transmitted to the device as vertical displacements. The obtained results represent principally, the induced electromotive force and the electrical power output.
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汽车电磁能量回收阻尼器(EERD)的研究与分析
本文的目的是开发一个电磁力学模型来分析汽车应用的电磁能量回收阻尼器(EERD),以量化由道路不平整造成的各种振动周期的电力。EERD将由于振动产生的动能转化为电能。该模型以基于节点的有限元法求解的以磁矢量势表示的控制磁场方程为基础,然后与四分之一车辆系统建模后得到的电磁方程和力学方程相耦合。首先通过磁力进行耦合,然后通过MacroElement方法模拟运动部件位移引起的修正磁通分布进行耦合。振动的循环以垂直位移的形式传递给装置。所得结果主要代表感应电动势和输出电功率。
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