Performance Analysis of a Designed Prototype of a Motor Coupled Variable Inertia Flywheel System

Malaysian Journal on Composites Science and Manufacturing Pub Date : 2023-11-29 DOI:10.37934/mjcsm.12.1.6272

Syed Munimus Salam, Muhammad Mahbubur Rashid

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Abstract

The presence of a substantial moment of inertia in a flywheel poses challenges at the initiation of rotation in a rotating machine. During stable operation at high velocities, several energy-saving advantages can be efficiently attained, allowing for the potential of achieving adequate energy savings in specific applications. One potential solution to address this issue is the implementation of a flywheel that possesses the ability to modify its moment of inertia. While it is possible to derive the concept of variable inertia by adjusting the radii of the masses in relation to the axis of the flywheel, the techniques employed to regulate the variable inertial flywheel are rather intricate. This study presents an implementation of a variable inertia flywheel system coupling with electrical machinery to reduce power consumption. The main objective of the study is to reduce energy consumption utilizing variable inertia flywheel. Under various motion scenarios, the advanced machine’s dynamic reaction is examined. Finally, a standard testing method demonstrates almost ninety seven percent similarity between an analytical and practical analysis.

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电机耦合可变惯性飞轮系统设计原型的性能分析

飞轮具有很大的惯性矩，这给旋转机械的启动带来了挑战。在高速稳定运行期间，可以有效地实现若干节能优势，从而有可能在特定应用中实现充分的节能。解决这一问题的一个潜在方案是采用能够改变惯性矩的飞轮。虽然可以通过调整相对于飞轮轴线的质量半径来推导出可变惯性的概念，但用于调节可变惯性飞轮的技术相当复杂。本研究介绍了变惯性飞轮系统与电机耦合的实施情况，以降低功耗。研究的主要目的是利用变惯性飞轮降低能耗。在各种运动情况下，研究了先进机器的动态反应。最后，一种标准测试方法证明了分析与实际分析之间近 97% 的相似性。

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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Malaysian Journal on Composites Science and Manufacturing

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