Modeling of Discrete Networked Control Systems in State Space for Electrical Power System with Time Delays: نمذجة نظم التحكم الشبكية المتقطعة في فضاء الحالة لنظام قدرة كهربائية مع وجود التأخيرات الزمنية

Journal of engineering sciences and information technology Pub Date : 2021-12-30 DOI:10.26389/ajsrp.f090621

Mohamad Morhaf Bachar Alnifawi, Bassem Omran, Jomana Mahmo Mohamad Morhaf Bachar Alnifawi, Bassem Omran, Joma

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Abstract

Electrical power systems distributed over wide geographical areas are exposed to a set of factors that affect their stability. The most important factors are the time delays between their subsystems. In this paper, a flexible modeling method was concluded consisting of a set of generalized rules and conditions that apply to any network controlled system to ensure its stability with time delays between the elements of the controlled network. In addition, a linear quadratic regulator (LQR) controller was implemented. The aim of the LQR controller is to reduce the negative impact of the time delay on the stability of the electrical power system. The study was applied to a networked electrical power system consisting of three-generation stations distributed in three separate geographical areas. Computer simulations using MATLAB showed a remarkable improvement in the stability of the discrete networked system through the speed of damping the vibrations in the system, and the system ability to be stable at certain limits of the time delay.

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模拟电力系统中的间隙网络控制系统和时间延迟

分布在广阔地理区域的电力系统面临着一系列影响其稳定性的因素。最重要的因素是子系统之间的时间延迟。本文提出了一种柔性建模方法，该方法由一组广义规则和条件组成，适用于任何网络被控系统，以保证被控网络各要素之间存在时滞时的稳定性。此外，还实现了线性二次型调节器(LQR)控制器。LQR控制器的目的是减少时间延迟对电力系统稳定性的负面影响。这项研究应用于一个由分布在三个不同地理区域的三代电站组成的联网电力系统。利用MATLAB进行的计算机仿真表明，通过阻尼系统振动的速度，离散网络系统的稳定性得到了显著提高，系统在一定时滞范围内保持稳定的能力得到了提高。

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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Journal of engineering sciences and information technology

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