Developing a Simplified Network Model for Load-Flow and Harmonic Studies

2020 International Conference and Exposition on Electrical And Power Engineering (EPE) Pub Date : 2020-10-22 DOI:10.1109/EPE50722.2020.9305670

Andrea Schaefer, J. Hanson, G. Balzer

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Abstract

The basis of every load-flow and resonance analysis is a suitable network model which may be difficult to find, e.g. due to missing data or required specific network characteristics. Therefore, a methodology to set up a simplified network model based on the honeycomb approach for load-flow and resonance analysis is introduced in this report. The aim is to build a simplified network in consideration of required characteristics, such as network topology and power plant feed-ins among others. Hereto, the network model is built out of equal honeycomb networks, which leads to a symmetrical and homogeneous network. To analyze and evaluate this approach, the method is applied on an exemplary 380-kV-transmission grid segment. A sensitivity study to verify the network characteristics as well as load-flow and resonance behavior is carried out. The results show that this approach allows to build up a scalable characteristic network model for e.g. investigating the impact of changes in the grid due to the current power system transformation towards the increase of renewable energies.

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开发一种简化的电网模型用于潮流和谐波研究

每一个负荷流和谐振分析的基础都是一个合适的网络模型，而这个模型可能很难找到，例如由于缺少数据或需要特定的网络特性。因此，本文介绍了一种基于蜂窝法建立简化网络模型的方法，用于荷载流和共振分析。其目的是在考虑网络拓扑和电厂馈电等所需特性的情况下，建立一个简化的网络。在这里，网络模型是由相等的蜂窝网络组成的，从而形成一个对称的、均匀的网络。为了分析和评价该方法，将该方法应用于一个示例性的380 kv输电网段。进行了灵敏度研究，验证了网络特性以及负载流和谐振特性。结果表明，这种方法可以建立一个可扩展的特征网络模型，例如，调查由于当前电力系统向可再生能源的增加转变而导致的电网变化的影响。

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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2020 International Conference and Exposition on Electrical And Power Engineering (EPE)

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