带线性发电机和机械运动放大的能量收集减震器

Q4 Engineering

Vibrations in Physical Systems Pub Date : 2020-01-01 DOI:10.21008/J.0860-6897.2020.1.04

N. Satpute, M. Iwaniec, Ramesh Narina, S. Satpute

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引用次数: 1

摘要

能量收集式减震器可以在正常悬挂速度下产生大约15-20瓦的电力。然而，较高的重量、故障安全特性和空间限制限制了再生式减震器的研究原型的发展。采用运动放大技术可以提高再生式减震器的功重比。本文提出了一种利用运动放大来提高能量收集效率的能量收集减振器的创新设计。除了提高电力性能外，该解决方案还具有故障安全性能，只需对悬架布局进行微小改变，即可轻松集成到现有车辆中。研究包括详细的振动传递率数值分析，以研究舒适性和安全性。此外，还制作了一个原型，并进行了实验，以计算产生的电力和舒适性。在实际尺寸模型上进行了模拟，利用所收集的电能，表明总收集效率约为19%。

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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Energy Harvesting Shock Absorber with Linear Generator and Mechanical Motion Amplification

Energy harvesting shock absorbers can generate about 15-20 W of electric power for normal suspension velocities. However, higher weight, fail safe characteristics and space limitations have restricted development of regenerative shock absorbers to research prototypes. Power to weight ratio of regenerative shock absorbers can be improved by incorporating motion amplification. In the presented work, an innovative design of energy harvesting shock absorber has been presented that uses motion amplification for improving harvesting efficiency. Apart from improving electric power, the proposed solution is fail safe and can be easily incorporated in existing vehicles with only marginal change in suspension layout. Study includes detailed numerical analysis for vibration transmissibility to investigate comfort and safety. Further, a prototype has been fabricated and experimentation has been performed to compute electric power generated and comfort. Simulations have been performed on real size model with utilization of harvested electric power which indicates about 19% of overall harvesting efficiency.

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来源期刊

Vibrations in Physical Systems Engineering-Mechanics of Materials

CiteScore

0.70

自引率

0.00%

发文量