Aslan Mojallal scite author profile

Summary Delays in reactive power measurement and thyristor ignition limit SVC performance in flicker mitigation of electric arc furnaces (EAFs). To overcome this limitation, prediction methods can be employed to forecast the EAF reactive power for half cycle ahead, used as a reference signal of the SVC. The utilized prediction methods in this area can be divided into linear and black‐box approaches. However, the linear approaches cannot extract the nonlinear governed relations, and using a black‐box model is not efficient for linear relations. A Gray‐ANN method is proposed here to take the advantages of the two mentioned approaches. Results from indices based on actual records of Mobarakeh Steel Company confirm superiorities of the proposed method over previously utilized prediction methods in this application. Furthermore, SVC's flicker mitigation ability is evaluated using the actual data. The results confirm the significant reduction of flicker compared with the regular system.

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DFIG Wind Generators Fault Diagnosis Considering Parameter and Measurement Uncertainties

Mojallal

Lotfifard

2018

IEEE Trans. Sustain. Energy

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Improving During and Postfault Response of Fuel Cells in Symmetrical and Asymmetrical Grid Fault Cases

Mojallal

Lotfifard

2018

IEEE Trans. Sustain. Energy

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Fault resilient multi‐terminal high voltage direct current systems using distributed corrective power dispatch

Mojallal

Lotfifard

Azimi

2019

IET Generation, Transmission & Distribution

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Aslan Mojallal

Enhancement of Grid Connected PV Arrays Fault Ride Through and Post Fault Recovery Performance

Enhancement of electric arc furnace reactive power compensation using Grey–Markov prediction method

Performance Recovery of Voltage Source Converters With Application to Grid-Connected Fuel Cell DGs

Multi-Physics Graphical Model-Based Fault Detection and Isolation in Wind Turbines

Enhancement of SVC performance in electric arc furnace for flicker suppression using a Gray‐ANN based prediction method

DFIG Wind Generators Fault Diagnosis Considering Parameter and Measurement Uncertainties

Improving During and Postfault Response of Fuel Cells in Symmetrical and Asymmetrical Grid Fault Cases

Fault resilient multi‐terminal high voltage direct current systems using distributed corrective power dispatch

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