双轴太阳能跟踪系统

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摘要

在当今世界,电能已经超过了其他所有重要的资源。然而,它仍然无法到达全球的每个角落,主要是农村地区。能源生产也受到化石燃料迅速枯竭和温室气体排放的威胁。因此,寻找其他的能源生产方法是至关重要的。太阳能是最大的未充分利用的可再生能源,有潜力完全满足我们所有的能源需求。使用太阳能光伏板可以方便地锻炼身体。然而,已经注意到,大多数太阳能电池板是定位在固定角度。太阳能跟踪装置用于使太阳能电池板全天朝向太阳,以便尽可能多地捕获入射太阳能,提高系统的性能比。双轴太阳能跟踪器将微控制器单元的软件编程与硬件设计与实现相结合,可以实现这一目标。该系统使用了ATmega328P微控制器来移动两个直流齿轮马达,使太阳能板在两个轴上旋转。微处理器根据四个光感应传感器收集的数据来估计转速,这些传感器被策略性地放置在靠近太阳能电池板的地方。因此,太阳能电池板能够提供更多的输出功率。
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Dual Axis Solar Power Tracking System
In the current world, electrical energy has surpassed all other important resources. However, it still hasn't been able to reach every corner of the globe, mainly rural places. Energy production has also come under threat from the quick depletion of fossil fuels and greenhouse gas emissions. As a result, finding other methods of energy generation is crucial. Solar energy is the greatest underutilized renewable energy source and has the potential to meet all of our energy needs entirely. Using solar photovoltaic panels allows for easy exercise. However, it has been noted that the majority of solar panels are positioned at fixed angles. The solar tracking device is used to keep the solar panel towards the sun throughout the day in order to capture as much incident solar energy as possible, increasing the system's performance ratio. The Dual Axis Solar Power Tracker, which combines software programming for the microcontroller unit with hardware design and implementation, can be used to accomplish this. To move two DC gear motors, which spin the solar panel in two axes, the system used an ATmega328P microcontroller. The microprocessor estimates rotating speed based on data collected from four light sensing sensors that are placed strategically close to a solar panel. As a result, solar panels are able to provide more output power.
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