Fuzzy Theory based Distributed Power Flow Conditioner to enhance power system dynamic stability

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Authors
Renduchintala, Uday Kishan
Pang, Chengzong
Mittapally, Sravan Kumar
Aravinthan, Visvakumar
Advisors
Issue Date
2019-03-14
Type
Conference paper
Keywords
Distributed control , Flexible AC transmission systems , Fuzzy Logic , Oscillation damping , Power system dynamics , Power system stability
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Citation
U. K. Renduchintala, C. Pang, S. P. Kumar Maddukuri and V. Aravinthan, "Fuzzy Theory Based Distributed Power Flow Conditioner to Enhance Power System Dynamic Stability," 2018 International Conference on Power Energy, Environment and Intelligent Control (PEEIC), Greater Noida, India, 2018, pp. 1-5
Abstract

This paper discusses about improving power system stability by employing a Fuzzy Theory based Distributive Power Flow Conditioner (DPFC). The goal of the work presented in this paper is to design an oscillation damping controller aiming at oscillations which has low frequency, thereby embellishing the dynamic stability of a power system. As a derivative of Unified Power Flow Conditioner (UPFC), this device consists of shunt and series controllers that can be installed in a transmission line between the two electrical areas. Single Machine Infinite Bus (SMIB) system is considered for analysis, by employing PI controlled DPFC and Fuzzy controlled DPFC. The complete case study is presented based on MATLAB/Simulink environment by using OPAL-RT 5600 Real-time digital Simulator. The significance of the results are better stability and constant power supply. Case study results showcase the validation of proposed model to improve the system stability by damping the power oscillations.

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Publisher
IEEE
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2018 International Conference on Power Energy, Environment and Intelligent Control (PEEIC);
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