The Research of External Characteristic Model Based on Photovoltaic System

2018 China International Conference on Electricity Distribution (CICED) Pub Date : 2018-09-01 DOI:10.1109/CICED.2018.8592072

Jingpeng Wang, Xin Wang, Xiaowei Yang, Shunzhi. Yu

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引用次数: 1

Abstract

State variables change of Photovoltaic alone with its control variables is studied on the basis of photovoltaic generation system research. A model of photovoltaic external characteristic model is established as well. The model included its active power output as well as reactive power output. The power of each photovoltaic can be variable in a wide range based on the local temperature, illumination intensity and weather conditions when these DGs are connected to the grid. As a result., the power flow of distribution network may be changed and it will also lead to a higher network losses and fluctuated voltages. A novel model for analyzing active power change of photovoltaic is established., besides., the feasibility and influencing factors of reactive power of photovoltaic is demonstrated. In the end, the corresponding method of dynamic power prediction of photovoltaic is proposed to get the optimal active power output and reactive power output. The results of an example show that the efficiency of photovoltaic and the stability of power system can be largely improved by using the method.

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基于光伏系统的外部特性模型研究

在光伏发电系统研究的基础上，研究了光伏单机状态变量及其控制变量的变化。建立了光伏外部特性模型。该模型包括其有功输出和无功输出。当这些光伏发电装置连接到电网时，每个光伏发电装置的功率可以根据当地的温度、照明强度和天气条件在很大范围内变化。因此。，配电网潮流可能发生改变，也会导致电网损耗增大和电压波动。建立了一种新的光伏有功功率变化分析模型。,除了。，论证了光伏无功功率的可行性及影响因素。最后，提出了相应的光伏动态功率预测方法，以获得最优的有功输出和无功输出。算例结果表明，采用该方法可大大提高光伏发电效率和电力系统的稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 China International Conference on Electricity Distribution (CICED)

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