Stochastic dynamics of an electromagnetic energy harvesting suspension with time-delayed feedback and fractional damping

IF 2.8 3区 工程技术 Q2 MECHANICS
Yong-Ge Yang , Ming-Hui Cen
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引用次数: 0

Abstract

Electromagnetic energy harvesting suspension (EMEHS) systems can convert mechanical energy into electrical energy, which has attracted much attention in the field of automotive energy harvesting. This paper aims to examine the stochastic dynamics of the EMEHS system with time-delayed feedback and fractional derivative damping under random road excitation. The equivalent system can be obtained by variable transformation, followed by the derivation of the steady-state probability density function using stochastic averaging method. The consistency between numerical simulation and analytical results verifies the effectiveness of the proposed method. Results indicate the existence of stochastic bifurcation phenomenon. The influences of fractional order, delayed time, fractional coefficient, and nonlinear damping coefficient on the stochastic P-bifurcation of the system are discussed individually in detail. Then the output performance of the EMEHS system is illustrated by presenting the mean square current and mean output power. The conclusions demonstrate that adjusting parameters such as fractional order, delayed time, and noise intensity can enhance the energy harvested from road vibrations. This article provides a theoretical reference for the future design of high-performance EMEHS.

具有延时反馈和分数阻尼的电磁能量收集悬架的随机动力学
电磁能量收集悬架(EMEHS)系统可将机械能转化为电能,在汽车能量收集领域备受关注。本文旨在研究具有延时反馈和分数导数阻尼的 EMEHS 系统在随机路面激励下的随机动力学特性。通过变量变换可得到等效系统,然后利用随机平均法推导出稳态概率密度函数。数值模拟和分析结果的一致性验证了所提方法的有效性。结果表明存在随机分岔现象。详细讨论了分数阶数、延迟时间、分数系数和非线性阻尼系数对系统随机 P 分岔的影响。然后,通过均方电流和平均输出功率说明了 EMEHS 系统的输出性能。结论表明,调整分数阶、延迟时间和噪声强度等参数可以增强从道路振动中获取的能量。本文为未来高性能 EMEHS 的设计提供了理论参考。
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
CiteScore
5.50
自引率
9.40%
发文量
192
审稿时长
67 days
期刊介绍: The International Journal of Non-Linear Mechanics provides a specific medium for dissemination of high-quality research results in the various areas of theoretical, applied, and experimental mechanics of solids, fluids, structures, and systems where the phenomena are inherently non-linear. The journal brings together original results in non-linear problems in elasticity, plasticity, dynamics, vibrations, wave-propagation, rheology, fluid-structure interaction systems, stability, biomechanics, micro- and nano-structures, materials, metamaterials, and in other diverse areas. Papers may be analytical, computational or experimental in nature. Treatments of non-linear differential equations wherein solutions and properties of solutions are emphasized but physical aspects are not adequately relevant, will not be considered for possible publication. Both deterministic and stochastic approaches are fostered. Contributions pertaining to both established and emerging fields are encouraged.
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