Research on MPPT of photovoltaic system based on PSO with time-varying compression factor

Jianhua Deng, Yanping Wang
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引用次数: 2

Abstract

When the photovoltaic system is put into use, some natural objects will cause partial shadows on the photovoltaic modules. And in this case, the output characteristics of the photovoltaic array will change from the original "single peak" to "multi-peak", and the power of the photovoltaic array will have multiple extreme values, which will increase the difficulty of tracking the maximum power of the photovoltaic array. The traditional maximum power point tracking (MPPT) algorithm is no longer applicable. Most of them fall into the local maximum power and cannot find the global maximum power. Although the particle swarm optimization algorithm (PSO) has a certain ability to solve the global optimization problem, the standard particle swarm optimization algorithm can’t be regarded as a complete global optimization algorithm. Since the power output curve of the photovoltaic array is severely non-linear in the shaded situation, the standard particle swarm optimization algorithm may also fall into a local optimum and fail to find the global optimum. Compared with the standard particle swarm optimization algorithm, the particle swarm optimization algorithm with time-varying compression factor proposed in this paper can better balance the relationship between global search and local search, and can effectively avoid falling into the local optimal value and not finding it. To the correct maximum power point, while also increasing the speed of convergence. Comparing the method proposed in this paper with the standard particle swarm algorithm through experiments, the results show that the method proposed in this paper is of great significance for improving the efficiency of photovoltaic systems under partial shadow conditions.
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基于时变压缩因子粒子群的光伏系统最大功率跟踪研究
光伏系统投入使用时,一些自然物体会在光伏组件上产生部分阴影。而在这种情况下,光伏阵列的输出特性将由原来的“单峰”变为“多峰”,光伏阵列的功率将出现多个极值,这将增加光伏阵列最大功率跟踪的难度。传统的最大功率点跟踪(MPPT)算法已不再适用。它们大多陷入局部最大功率,无法找到全局最大功率。虽然粒子群优化算法(PSO)具有一定的解决全局优化问题的能力,但标准粒子群优化算法并不能被视为完整的全局优化算法。由于光伏阵列在阴影情况下的功率输出曲线是严重非线性的,标准粒子群优化算法也可能陷入局部最优而无法找到全局最优。与标准粒子群优化算法相比,本文提出的具有时变压缩因子的粒子群优化算法能够更好地平衡全局搜索与局部搜索的关系,有效避免陷入局部最优值而找不到它。达到正确的最大功率点,同时也提高了收敛速度。通过实验将本文提出的方法与标准粒子群算法进行比较,结果表明本文提出的方法对于提高部分阴影条件下光伏系统的效率具有重要意义。
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