Analyzing Large-scale PV Plant Controllers by Technical Performance Indices using MCS Method

2021 29th Iranian Conference on Electrical Engineering (ICEE) Pub Date : 2021-05-18 DOI:10.1109/ICEE52715.2021.9544429

Hooman Nasrazadani, A. Sedighi, H. Seifi

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Abstract

The rapid increase in the installed capacity of Renewable Energy Sources (RESs), particularly Large-Scale Photovoltaic Plant (LS- PVP) will have a major positive or negative impact on the performance of the power system in a near future. The deterministic load flow approach is not an appropriate method for the analysis of modern systems penetrated by RESs. In this paper, a Probabilistic Load Flow (PLF) method based on the stochastic nature of LS- PVP and loads is applied to accurately evaluate the impact of various control methods of LS- PVP on the system. For this purpose, the Monte Carlo simulation (MCS) method is implemented. In addition, the Technical Performance Indices (TPIs) are used for a more comprehensive investigation. Finally, the control methods of LS- PVP are validated through the Nordic system. Results show that by using LS-PVPs with a proper controller, the negative effects of LS- PVPs on the system are decreased. Moreover, the costs required to expand and reinforce the transmission network, as well as the costs required to reactive power compensation devices, and communication between controllers are decreased. Generally, a system integrated with LS- PVPs in the stressed area is not operated better than the synchronous generators, when a fault occurs.

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基于MCS方法的技术性能指标分析大型光伏电站控制器

可再生能源(RESs)装机容量的快速增长，特别是大型光伏电站(LS- PVP)装机容量的快速增长，将在不久的将来对电力系统的性能产生重大的积极或消极影响。确定性潮流法并不适用于分析受RESs渗透的现代系统。本文基于LS- PVP和负荷的随机特性，提出了一种基于LS- PVP的概率负荷流(PLF)方法，以准确评估LS- PVP的各种控制方法对系统的影响。为此，实现了蒙特卡罗仿真(MCS)方法。此外，技术绩效指数(tpi)用于更全面的调查。最后，通过北欧系统对LS- PVP的控制方法进行了验证。结果表明，在适当的控制器下使用LS-PVPs，可以减小LS-PVPs对系统的负面影响。此外，扩展和加固输电网络所需的成本，以及无功补偿装置和控制器之间的通信所需的成本都降低了。一般情况下，当系统发生故障时，在应力区集成LS- pv的系统并不比同步发电机运行得好。

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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2021 29th Iranian Conference on Electrical Engineering (ICEE)

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