太阳能电池效率最大化的双轴跟踪系统设计与实现

Sheher Bano, Umbreen Tariq, Syed Wajid Ali Shah
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摘要

如今,随着各种技术的发展,能源消耗与生产比正成为一个严峻的挑战。尽管科学家们已经在这一领域取得了很大的进步,使用可再生和不可再生资源,后者有局限性,不足以满足现有世界的需求,而且对全球变暖也有很大的贡献。因此,在过去几年中,重点已转向可再生能源。太阳能是可再生能源的主要来源。有必要通过增加太阳能的吸收量来发展更有效和更有生产力地利用太阳能的方法。为此,本研究采用了一种双轴太阳跟踪系统,并配有传感器;它能够通过自动改变太阳的方向来跟随太阳的轨迹。设计并实现了一种自动控制系统,该系统根据太阳方向精确定位光伏电池板,以最大限度地提高系统效率。太阳能跟踪电池在白天产生的能量比需要的多,所以在我们的设计中,我们调节了一个系统来储存这些额外的能量以供以后使用。这个系统在夜间,在多云或风暴条件下,太阳不能产生所需的能量,是至关重要的。我们的主要方法是开发一种具有成本效益的太阳能跟踪系统设计,该系统将有效地提高系统的性能,并具有跟踪系统需要低维护成本的额外好处。另一个重点是开发尽可能简单的设计,因为设计的复杂性可能最终导致系统寿命的缩短。最后,效率分析已经完成,以检查具有所有复杂性的太阳能跟踪系统是否值得。对跟踪系统的传感器和执行器进行了详细的分析,以帮助选择最有效的设计方案。
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Design and Implementation of Dual-Axis Solar Tracking System for Maximizing the Efficiency of Solar Cells
Nowadays, with various technological developments, the energy consumption to production ratio is becoming a severe challenge. Though scientists have already made great strides in this area, using both renewable and nonrenewable sources, the latter has a limitation, of not being enough to fulfill the requirements of existing world needs and also has a significant contribution to Global Warming. For that reason, during the past few years the focus has shifted toward renewable sources. Solar energy is primary source of renewable resources. There is a need for developing methods for utilizing solar energy more effectively and productively, by increasing the absorption amount of solar energy. For this purpose, in this research, a dual-axis solar tracking system accompanied by a sensor; that is capable to follow Sun’s trajectory by automatically changing its orientation has been designed. An Automatic control system that precisely positions the photovoltaic cell panel according to sun orientation for maximizing the efficiency of the system has been designed and implemented. Solar tracking cells produce energy during the daytime in excess amount than required, so in our design, we modulate a system for storing this additional energy for later use. This system is critically important during the night, and under cloudy conditions or storms, where the sun is not producing the required amount of energy. Our main approach is to develop a cost-effective design of a solar tracking system that will efficiently increase the performance of the system with additional benefit of a tracking system requiring low maintenance cost. Another focus is to develop a design, as simple as possible, because complexities in design may ultimately result in reduced life of the system. In the end, efficiency analysis has been done to check whether a solar tracking system with all its complexities is worth it or not. Detailed analysis of tracking system components i.e sensors and actuators is presented, which is to help the selection of the most effective design.
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