Your search keyword '"Faried, Sherif O."' showing total 3 results

1. Rotor Angle Stability Prediction of Power Systems With High Wind Power Penetration Using a Stability Index Vector.

Author

Chen, Yuchuan, Mazhari, Seyed Mahdi, Chung, C. Y., Faried, Sherif O., and Pal, Bikash C.

Subjects

WIND power, FORECASTING, ROTORS, ALGORITHMS, WIND power plants, POWER (Social sciences), SUPPORT vector machines

Abstract

This paper proposes a methodology for predicting online rotor angle stability in power system operation under significant contribution from wind generation. First, a novel algorithm is developed to extract a stability index (SI) that quantifies the margin of rotor angle stability of power systems reflecting the dynamics of wind power. An approach is proposed that takes advantage of the machine learning technique and the newly defined SI. In case of a contingency, the developed algorithm is employed in parallel to find SIs for all possible instability modes. The SIs are formed as a vector and then applied to a classifier algorithm for rotor angle stability prediction. Compared to other features used in state-of-the-art methods, SI vectors are highly recognizable and thus can lead to a more accurate and reliable prediction. The proposed approach is validated on two IEEE test systems with various wind power penetration levels and compared to existing methods, followed by a discussion of results. [ABSTRACT FROM AUTHOR]

Published

2020

2. Adaptive Control Using Constrained RLS and Dynamic Pole-Shift Technique for TCSCs.

Author

Rai, Dipendra, Gokaraju, Ramakrishna, and Faried, Sherif O.

Subjects

ELECTRIC power system stability, THYRISTORS, FLEXIBLE AC transmission systems, ELECTRIC power transmission, POWER capacitors

Abstract

In this paper, an adaptive pole-shift control technique for a FACTS device, namely Thyristor Controlled Series Capacitor (TCSC), is presented. Adaptive pole-shift techniques have been successfully implemented for power system stabilizer applications in the past, but one of the difficulties in extending such a technique for transmission line control devices has been its inability to handle large disturbance conditions such as three-phase faults. In recent literature, random walk technique has been suggested during the system identification process, to overcome this problem. This paper presents a simple parameter constrained RLS identification procedure to track the large disturbance conditions. The effectiveness of the proposed methodology is demonstrated using (i) a three-area six-machine power system with a TCSC, and (ii) a IEEE 12 bus power system configuration with a TCSC. [ABSTRACT FROM PUBLISHER]

Published

2014

3. Damping Inter-Area Oscillations Using Phase Imbalanced Series Compensation Schemes.

Author

Rai, Dipendra, Faried, Sherif O., Ramakrishna, G., and Edris, Abdel-Aty

Subjects

*THYRISTORS, *ELECTRIC power system stability, *ELECTRIC oscillators, *ELECTRIC wave damping, *HYBRID systems, *ELECTRIC generators, *CAPACITORS

Abstract

The recently proposed phase imbalanced series capacitive compensation concept has been shown to be effective in enhancing power system dynamics as it has the potential of damping power swing as well as subsynchronous resonance oscillations. In this paper, a comparative effectiveness of two “hybrid” series capacitive compensation schemes in damping inter-area oscillations is evaluated. A hybrid scheme is a series capacitive compensation scheme, where two phases are compensated by fixed series capacitor (C) and the third phase is compensated by either a TCSC or SSSC in series with a fixed capacitor (Cc). [ABSTRACT FROM PUBLISHER]

Published

2011