1
Shahed university, department of electrical engineering
2
shahed university
Abstract
Distributed flexible AC- transmission system (D-FACTS) is a recently advanced FACTS device with high flexibility and smaller size. The DPFC can control power flow in transmission lines, regulate bus voltages and it can also enhance stability margin in power grids. Adaptive-neural network-based fuzzy inference system (ANFIS) combines features of artificial neural network and fuzzy controller. The ANFIS is nonlinear controller that can improve stability of the power system under different operating conditions. This paper presents the application of the neuro- fuzzy in DPFC- auxiliary controller to improve stability of power systems using wide area measurements provided by PMUs. This controller is implemented in a two power system test case. The simulations show that DPFC based ANFIS- auxiliary controller in series or, and shunt converter can damp oscillations and increase stability in a wide range of system operating conditions rather than the classic- auxiliary controller used conventionally in the DPFC systems.
Maghouli, P., & Aali, R. (2016). Effect of Distributed Power-Flow Controller (DPFC) on Power System Stability. Journal of Electric Power & Energy Conversion Systems, 1(3), 99-106.
MLA
Pouria Maghouli; Reza Aali. "Effect of Distributed Power-Flow Controller (DPFC) on Power System Stability". Journal of Electric Power & Energy Conversion Systems, 1, 3, 2016, 99-106.
HARVARD
Maghouli, P., Aali, R. (2016). 'Effect of Distributed Power-Flow Controller (DPFC) on Power System Stability', Journal of Electric Power & Energy Conversion Systems, 1(3), pp. 99-106.
VANCOUVER
Maghouli, P., Aali, R. Effect of Distributed Power-Flow Controller (DPFC) on Power System Stability. Journal of Electric Power & Energy Conversion Systems, 2016; 1(3): 99-106.
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