SA-PSO优化边界最速跟踪微分器在光伏功率平滑中的应用
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上海电力大学自动化工程学院,上海 200090

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TP29

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上海市科委重点项目(20dz1206100);上海市军民融合发展专项项目(2019-jmrh1-kj40)


Application of Variable Boundary Tracking Differentiator Optimized by SA-PSO in Photovoltaic Power Smoothing
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College of Automation Engineering, Shanghai University of Electric Power, Shanghai 200090, China

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    摘要:

    为了进一步减小光伏阵列并网的功率波动,本文提出了一种基于可变边界最速跟踪微分器的光伏并网功率平滑方法,并采用模拟退火粒子群算法优化边界参数。首先,根据可变边界理论构造广义可变边界最速跟踪微分器。随后,针对边界参数优化问题,本文提出基于短时间尺度波动率的适应度函数进行实时优化,提高了算法的平滑跟踪能力。以华东某地区光伏阵列为例,实验验证该策略比传统策略平滑效果更优越,功率的最大波动和平均波动分别降低了64%和16%,储能充放电能量减少了5%。

    Abstract:

    In order to further reduce the power fluctuation of grid-connected photovoltaic arrays, this paper proposes a power smoothing method that used in photovoltaic array connecting to the grid based on variable-boundary tracking differentiator. Besides simulated annealing particle swarm optimization is used to optimize the boundary parameters. Firstly, a generalized form of variable-boundary tracking differentiator is constructed according to variable-boundary theory. Then, for the boundary parameter optimization problem, this paper proposes a fitness function based on short-time-scale volatility for real-time optimization, which improves the smooth ability of the algorithm. Taking a photovoltaic array in East China as an example, the experiment proves that this strategy has a better smoothing effect than the traditional strategy. The maximum fluctuation and average fluctuation of power are reduced by 64% and 16% respectively. And the charge and discharge energy of energy storage is reduced by 5%.

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赵海成,李辉. SA-PSO优化边界最速跟踪微分器在光伏功率平滑中的应用[J].电子测量技术,2022,45(14):36-42

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  • 在线发布日期: 2024-04-08
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