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Sliding mode controller design for frequency regulation in an interconnected power system

Anand Kumar, Md Nishat Anwar, Shekhar Kumar

2021Protection and Control of Modern Power Systems47 citationsDOIOpen Access PDF

Abstract

Abstract In this paper, a Sliding mode controller design method for frequency regulation in an interconnected power system is presented. A sliding surface having four parameters has been selected for the load frequency control (LFC) system model. In order to achieve an optimal result, the parameter of the controller is obtained by grey wolf optimization (GWO) and particle swarm optimization (PSO) techniques. The objective function for optimization has been considered as the integral of square of error of deviation in frequency and tie-line power exchange. The method has been validated through simulation of a single area as well as a multi-area power system. The performance of the Sliding mode controller has also been analyzed for parametric variation and random loading patterns. The performance of the proposed method is better than recently reported methods. The performance of the proposed Sliding mode controller via GWO has 88.91% improvement in peak value of frequency deviation over the method of Anwar and Pan in case study 1 and similar improvement has been observed over different case studies taken from the literature.

Topics & Concepts

Control theory (sociology)Particle swarm optimizationController (irrigation)Frequency deviationParametric statisticsEngineeringSliding mode controlMode (computer interface)Power (physics)Automatic frequency controlElectric power systemMathematicsComputer scienceMathematical optimizationNonlinear systemControl (management)StatisticsBiologyAgronomyArtificial intelligenceOperating systemTelecommunicationsPhysicsQuantum mechanicsFrequency Control in Power SystemsMicrogrid Control and OptimizationAdvanced DC-DC Converters