A novel mechatronic absorber of vibration energy in the chimney

Q2 Engineering

Energy Harvesting and Systems Pub Date : 2023-09-14 DOI:10.1515/ehs-2023-0022

Waleed Salman, Ayad M. Kwad, Al-othmani Abdulwasea, Ahmed S. Abdulghafour

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引用次数: 0

Abstract

Abstract The importance of diversified energy production lies in addressing the fuel shortage resulting from high prices, high temperatures, and environmental pollution associated with its production and consumption. Vibrational energy plays a crucial role in generating electrical power. This paper introduces a new concept based on utilizing the vibration forces of chimneys caused by wind and earthquakes. A mechatronic energy-absorbing system was designed, analyzed, and the output power was calculated using SolidWorks and Matlab programs. The design of the Regenerative Damping Chimney (RDC) primarily focuses on converting vibrations into rotational movement of the chimney, which is generated by wind forces. This is achieved by using a metal rope and pulleys to transmit motion to a set of gears. The opposite direction rotation is facilitated by bevel gears and clutches, and a planetary gearbox is employed to increase the rotation of the DC 24 V 400 W generator. The use of a high-watt generator aims to enhance energy production and the damping factor, ensuring the stability of the chimney during storms and vortex winds. The results show the efficiency of 35 % may reach 45 % watts under test to verify that the proposed system is effective and suitable for chimneys and renewable energy applications in factories and companies.

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一种新型烟囱振动能量的机电吸收器

能源生产多样化的重要性在于解决高价格、高温以及生产和消费过程中造成的环境污染等问题。振动能在发电中起着至关重要的作用。本文介绍了利用风和地震引起的烟囱振动力的新概念。利用SolidWorks和Matlab编程对机电吸能系统进行了设计、分析和输出功率计算。再生阻尼烟囱(RDC)的设计主要侧重于将振动转化为烟囱的旋转运动，这是由风力产生的。这是通过使用金属绳和滑轮将运动传递给一组齿轮来实现的。通过锥齿轮和离合器促进反向旋转，并采用行星齿轮箱增加直流24v 400w发电机的旋转。使用高瓦发电机的目的是提高能源产量和阻尼系数，确保烟囱在暴风雨和漩涡风中的稳定性。试验结果表明，35%的效率可达到45%瓦，验证了所提出的系统是有效的，适用于工厂和公司的烟囱和可再生能源应用。

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

Energy Harvesting and Systems Energy-Energy Engineering and Power Technology

CiteScore

2.00

自引率

0.00%

发文量