Modelling and analysis of a coal-fired thermal power plant to identify physically observable dominant low-frequency oscillatory modes

IF 1.6 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Electrical Engineering Pub Date : 2024-09-10 DOI:10.1007/s00202-024-02705-0
L. U. N. de Silva, D. P. Wadduwage
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Abstract

This paper presents a systematic approach to study the dominant electromechanical oscillatory modes in a large-scale coal-fired thermal power plant. The proposed methodology first involves analysing the fault recorder data. Next a detailed linearized model is developed, and the oscillatory modes are identified via the eigenvalue analysis. Computations of the participation factors and mode shapes are useful in identifying the contributing sources on the oscillatory modes and their types. The importance of verifying the accuracy of the dynamic data used in the simulation environment for practical power systems and validation of the linear model with nonlinear simulation are highlighted in the paper. The proposed methodology is applied to a 900 MW coal-fired real power plant in Sri Lanka power system. A dominant oscillatory mode of frequency 1.2 Hz where the coal power plant oscillates against the network is identified using the proposed methodology. This systematic approach can be applied to any real power system including renewable energy sources using correct dynamic models.

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对燃煤火力发电厂进行建模和分析,以确定物理上可观测的主要低频振荡模式
本文介绍了一种研究大型燃煤火力发电厂主要机电振荡模式的系统方法。所提出的方法首先包括分析故障记录仪数据。然后建立详细的线性化模型,并通过特征值分析确定振荡模式。参与因子和模式形状的计算有助于确定振荡模式的贡献源及其类型。文中强调了在实际电力系统仿真环境中验证动态数据准确性的重要性,以及用非线性仿真验证线性模型的重要性。本文提出的方法适用于斯里兰卡电力系统中的一个 900 兆瓦燃煤发电厂。利用所提出的方法,确定了一个频率为 1.2 Hz 的主要振荡模式,在该模式下,燃煤电厂与电网发生振荡。使用正确的动态模型,这种系统方法可应用于包括可再生能源在内的任何实际电力系统。
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来源期刊
Electrical Engineering
Electrical Engineering 工程技术-工程:电子与电气
CiteScore
3.60
自引率
16.70%
发文量
0
审稿时长
>12 weeks
期刊介绍: The journal “Electrical Engineering” following the long tradition of Archiv für Elektrotechnik publishes original papers of archival value in electrical engineering with a strong focus on electric power systems, smart grid approaches to power transmission and distribution, power system planning, operation and control, electricity markets, renewable power generation, microgrids, power electronics, electrical machines and drives, electric vehicles, railway electrification systems and electric transportation infrastructures, energy storage in electric power systems and vehicles, high voltage engineering, electromagnetic transients in power networks, lightning protection, electrical safety, electrical insulation systems, apparatus, devices, and components. Manuscripts describing theoretical, computer application and experimental research results are welcomed. Electrical Engineering - Archiv für Elektrotechnik is published in agreement with Verband der Elektrotechnik Elektronik Informationstechnik eV (VDE).
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