Harvesting Renewable Energy from Foot Pedal Using Rotational Electromagnetic Induction Flywheel

2023 15th International Conference on Computer and Automation Engineering (ICCAE) Pub Date : 2023-03-03 DOI:10.1109/ICCAE56788.2023.10111281

Patricia Angelica R. Montalban, Nyxzel S. Pizarra, G. Magwili

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Abstract

Philippines is one of the highest electricity prices in the ASEAN where harnessing renewable energy using wasted human effort is necessary. The global pandemic COVID-19 is spreading and because of this, establishments have required sanitation. The study’s main objective is to Develop a Rotational Electromagnetic Induction Flywheel using Foot Pedal as Actuation to Harvest Renewable Energy. T-test was used to validate the results using the battery percentage of a power bank as the parameter, where there is a significant difference between single and multiple actuations with an attached mechanical dispenser and without. The system was able to harness an average of 0.30992 Watt-hour and 6.11476 Watt-hour in 5 daily trials for single and multiple controlled set-ups without mechanical dispenser respectively. An average of 0.2441 Watt-hour and 5.0027 Watt-hour for single and multiple controlled set-ups with mechanical dispenser correspondingly. Lastly, an average of 3.2924 Watt-hour in 5 daily trials for uncontrolled set-up.

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利用旋转电磁感应飞轮从脚踏收集可再生能源

菲律宾是东盟电价最高的国家之一，必须利用浪费的人力来利用可再生能源。全球大流行COVID-19正在蔓延，因此，企业需要卫生设施。该研究的主要目标是开发一种使用脚踏作为驱动的旋转电磁感应飞轮，以收集可再生能源。使用t检验来验证结果，使用充电宝的电池百分比作为参数，其中有附加机械分配器和无附加机械分配器的单个和多个驱动之间存在显着差异。在无机械分配器的单控制装置和多控制装置的5次每日试验中，该系统能够分别平均利用0.30992瓦时和6.11476瓦时。机械分配器的单控制和多控制装置的平均功率分别为0.2441瓦时和5.0027瓦时。最后，在无控制装置的5次每日试验中，平均为3.2924瓦时。

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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2023 15th International Conference on Computer and Automation Engineering (ICCAE)

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