基于固态异质结光电池的农用移动式独立太阳能发电厂的研制

S. Tokmoldin, V. V. Klimenov, D. V. Girin, N. Chuchvaga, K. Aimaganbetov, M. P. Kishkenebaev, S. N. Tarakanova, N. Tokmoldin
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引用次数: 0

摘要

对双面太阳能电池的温度分布进行了数学模拟。光电转换器配置上的差异仅仅证明了一个事实,即双面太阳能电池在背面有一个更有效的散热器。此外,双面太阳能电池具有更高的功率转换性能。计算证实了优先选用双面太阳能电池的正确性,这对我们研制的光电变换器的设计具有重要意义。分析了市场上现有的太阳能到电能转换的光伏技术,开发了一种基于双面硅异质结太阳能电池的光伏转换器。所开发的结构是移动平台,其上安装有光伏电池阵列和光通量收集器。针对太阳能电池组件平面附着的一般情况,研制了一种双轴跟踪系统。350毫米行程的驱动器提供南北方向的运动,450毫米行程的驱动器提供东西方向的运动。该任务已被概述为找到所需的臂,以提供对称定位的最大旋转角度的轴。因此,已经为南北和东西方向开发了技术解决方案。并设计了原理接线图,实现了预设的太阳跟踪系统算法。该系统还配备了GPS/GLONASS模块,用于系统精确定位和时间同步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of a mobile independent solar power plant based on solid-state heterojunction photocells for agricultural purposes
Mathematical simulation of temperature distribution on double-sided solar cells has been carried out. Differences in the configuration of photoelectric converters prove to solely amount to the fact that a double-sided solar cell has a more efficient heat sink at the rear side. Furthermore double-sided solar cells exhibit higher power conversion performance. Calculations confirm the correctness of giving preference to double-sided solar cells which is of great importance for the photoelectric converter design developed by us. Analysis of market-available photovoltaic technologies of solar energy to electric power conversion has led to the development of a photovoltaic converter on the basis of double-sided silicon heterojunction solar cells. The configuration developed is a moving platform having a photovoltaic cell array mounted on it and a light flux collector. A double-axis tracking system has been developed for the general case of planar attachment of solar cell modules. A 350 mm stroke drive provides for movement in the north-south direction and a 450 mm stroke drive, in the east-west direction. The task has been outlined to find the required arm for providing symmetrical positioning at the maximum rotation angle about the axis. As a result, technical solutions have been developed for the north-south and the east-west directions. Furthermore a schematic wiring diagram has been designed to implement the preset solar tracking system algorithm. The system is also fitted with a GPS/GLONASS module for system precision positioning and time synchronization.
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