Submerged Solar Energy Harvesters Performance for Underwater Applications

2019 International Conference on Innovative Trends in Computer Engineering (ITCE) Pub Date : 2019-02-01 DOI:10.1109/ITCE.2019.8646459

S. Kamal, Ghazal M. Al-sayyad, Rana Abdelmoteleb, M. Abdellatif, S. Abdellatif

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引用次数: 4

Abstract

underwater communications is the transmission of data in an unguided water medium through wireless carriers such as; optical waves, radio-frequency waves and acoustic waves. Such type of communication system is utilized to enable the realization of the ocean exploration system and other marine monitoring/exploration systems. Seeking for a sustainable setup, the enrolment of energy harvesting sources in these wireless nodes have been presented as a replacement of the short-life-time battery sources. In this paper, there are experimental measurements as well as theoretical studies for two different light harvesters have been conducted underwater with considering the air measurements as a reference. Moreover, Trade-off between cooling effect and light attenuation as well as scattering is tackled where optimum submerging distance is measured for various water types. I–V characteristic curves for the two harvesters are plotted using Keithley 2401 source-meter and artificial calibrated light source. The simulation model is validated using the experimental data, where perfect agreement was observed after considering the experimental parameter.

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水下应用的水下太阳能采集器性能

水下通信是指在非制导水介质中通过无线载体(如;光波、无线电波和声波。这种类型的通信系统用于实现海洋探测系统和其他海洋监测/探测系统。为了寻求一种可持续的设置，在这些无线节点中加入能量收集源已被提出作为短寿命电池源的替代品。本文以空气测量为参考，对两种不同的光采集器在水下进行了实验测量和理论研究。此外，在测量各种水类型的最佳淹没距离时，解决了冷却效果与光衰减和散射之间的权衡问题。利用Keithley 2401光源计和人工校准光源绘制了两台收割机的I-V特性曲线。利用实验数据对仿真模型进行了验证，在考虑实验参数的情况下，仿真模型与实验结果完全吻合。

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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2019 International Conference on Innovative Trends in Computer Engineering (ITCE)

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