Solar energy harvesting-based built-in backpack charger

Q2 Engineering
Kyrillos K. Selim, Saeid Khalid, Dina El-nawam, Mohamed Abdel Fattah, Demyana A. Saleeb
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引用次数: 0

Abstract

Abstract Developing renewable energy sources has gained considerable attention recently. Solar energy is the fastest-growing alternative renewable energy source. A solar energy harvesting-based built-in backpack charger is introduced here. The proposed system aims to utilise the surrounding solar energy and overcome the power limitations of batteries installed in mobile phones in cases where power sockets are unavailable. A 6 cm × 6 cm solar module is employed. Additionally, current, voltage, and power were measured under the two scenarios; the first scenario is when the electrical load is 100 Ω, and the second scenario is when the load is a power bank. The maximum harvested power noticed in the first scenario of the resistive load was 140 mW by the proposed system in the southeast direction from 10:30 a.m. to 4:30 p.m. Moreover, the top-generated output voltage and current in this scenario were 3.6 V and 36 mA. On the other hand, 55 mW was the top value for the second scenario of the power bank as a load in the flat direction with the highest generated output voltage and current of 4.1 V and 13 mA, whereas 4.27 V was the highest generated voltage in this scenario in the west direction.
基于太阳能收集技术的内置背包充电器
摘要 开发可再生能源近来受到了广泛关注。太阳能是发展最快的替代性可再生能源。本文介绍了一种基于太阳能收集的内置背包充电器。该系统旨在利用周围的太阳能,在没有电源插座的情况下克服手机电池的功率限制。系统采用了一个 6 厘米 × 6 厘米的太阳能模块。此外,还测量了两种情况下的电流、电压和功率;第一种情况是电力负载为 100 Ω,第二种情况是负载为电源箱。在第一种情况下,从上午 10 时 30 分到下午 4 时 30 分,拟议系统在东南方向的电阻负载上获得的最大功率为 140 mW。另一方面,在第二种情况下,电力库作为负载在平方向的最高值为 55 mW,产生的最高输出电压和电流分别为 4.1 V 和 13 mA,而在该情况下,在西方向产生的最高电压为 4.27 V。
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 Harvesting and Systems Energy-Energy Engineering and Power Technology
CiteScore
2.00
自引率
0.00%
发文量
31
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