Modelling of 3-Phase p-q Theory-Based Dynamic Load for Real-Time Simulation

IF 3.3 Q3 ENERGY & FUELS IEEE Open Access Journal of Power and Energy Pub Date : 2023-12-07 DOI:10.1109/OAJPE.2023.3340299
Karthik Rajashekaraiah;Cosimo Iurlaro;Sergio Bruno;Giovanni De Carne
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Abstract

This article proposes a new method of modelling dynamic loads based on instantaneous p-q theory, to be employed in large powers system network simulations in a digital real-time environment. Due to the use of computationally heavy blocks such as phase-locked-loop (PLL), mean calculation,and coordinate transformation blocks (e.g., abc–dq0), real-time simulation of large networks with dynamic loads can be challenging. In order to decrease the computational burden associated to the dynamic load modelling, a p-q theory-based approach for load modelling is proposed in this paper. This approach is based on the well-known p-q instantaneous theory developed for power electronics converters, and it consists only of linear controllers and of a minimal usage of control loops, reducing the required computational power. This improves real-time performance and allows larger scale simulations. The introduced p-q theory-based load (PQL) model has been tested on standard networks implemented in a digital real time simulator, such as the SimBench semi-urban medium voltage network and the 118-bus Distribution System, showing significant improvement in terms of computational capability with respect to standard load models (e.g., MATLAB/Simulink dynamic load).
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基于三相 p-q 理论的动态负载建模与实时仿真
本文提出了一种基于瞬时 p-q 理论的动态负载建模新方法,可用于数字实时环境下的大型电力系统网络仿真。由于使用了诸如锁相环 (PLL)、平均值计算和坐标变换块(如 abc-dq0)等计算量大的块,对具有动态负载的大型网络进行实时仿真具有挑战性。为了减轻动态负载建模的计算负担,本文提出了一种基于 pq 理论的负载建模方法。这种方法以著名的 p-q 瞬时理论为基础,用于电力电子转换器,只包含线性控制器和最少的控制回路,从而降低了所需的计算能力。这不仅提高了实时性,而且可以进行更大规模的模拟。引入的基于 p-q 理论的负载 (PQL) 模型已在数字实时模拟器(如 SimBench 半城市中压电网和 118 总线配电系统)中实施的标准电网上进行了测试,结果表明,与标准负载模型(如 MATLAB/Simulink 动态负载)相比,该模型的计算能力有了显著提高。
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来源期刊
CiteScore
7.80
自引率
5.30%
发文量
45
审稿时长
10 weeks
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