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Ibrahim, D. K., E. E. D. A. El Zahab, and S. A. E. A. Mostafa, "New coordination approach to minimize the number of re-adjusted relays when adding DGs in interconnected power systems with a minimum value of fault current limiter", International Journal of Electrical Power & Energy Systems, vol. 85, issue February: Elsevier, pp. 32 - 41, 2017. Abstract

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Ibrahim, D. K., M. E. Rezk, and E. E. - D. A. El-Zahab, "Improving distance protection performance at zone1 using new adaptive tripping time scheme", IEEE International Energy Conference (ENERGYCON), Croatia, IEEE, pp. 528 - 535, 2014. Abstract

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Ibrahim, D. K., A. F. Zobaa, E. A. El-Zahab, and G. M. Abo-Hamad, "Improving Mho and Quadrilateral Relays Performance during Power Swings", International Review of Electrical Engineering, IREE, vol. 5, issue 6: Praise Worthy Prize, FEDERICO II University 21 Claudio Naples I 80125 Italy, pp. 2919-2928, 2010. Abstract

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Ibrahim, D. K., E. M. Aboul-Zahab, and S. M. Saleh, "High impedance faults detection in EHV transmission lines using the wavelet transforms", Proceedings of the IEEE Power Engineering Society, General Meeting, Tampa, FL , USA, IEEE, pp. 1 - 7, 2007. Abstract

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Ibrahim, I. M., D. K. Ibrahim, and E. E. D. A. El Zahab, "A proposed busbar protection scheme immune to the impact of outflow current during internal faults", 2016 International Middle-East Power Systems Conference (MEPCON),, Helwan University, Egypt, IEEE, pp. 921 - 926, 2016. Abstract

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Ibrahim, D. K., E. E. - D. A. El-Zahab, and M. Essam Mohamed, "Improving Distance Protection for Out-of-step Detection and Fault Detection during Power Swings", Proceedings of the 16th International Middle East Power Systems Conference, MEPCON, Ain Shams University, Egypt, 2014. Abstract

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Ibrahim, D. K., E. S. T. E. Din, E. M. Aboul-Zahab, and S. M. Saleh, "Real time evaluation of DWT-based high impedance fault detection in EHV transmission", Electric Power Systems Research, vol. 80, issue 8: Elsevier, pp. 907 - 914, 2010. Abstract

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Ibrahim, D. K., E. E. L. - D. A. EL-Zahab, and S. M. Saleh, "Unsynchronized fault-location scheme for nonlinear HIF in transmission lines", IEEE Transactions on Power Delivery, vol. 25, issue 2: IEEE, pp. 631 - 637, 2010. Abstract

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Ibrahim, D. K., E. E. D. A. El Zahab, and S. A. E. A. Mostafa, "New Coordination Approach to Minimize the Number of Re-adjusted Relays When Adding DGs in Interconnected Power Systems", Journal of Electrical Engineering & Technology (JEET), vol. 12, issue 2, pp. 502 - 512, 2017. Abstract

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Ibrahim, D. K., E. E. - D. A. El-Zahab, and A. Galal Ahmed, "Comprehensive Fault Location Scheme for Power Transmission lines", Proceedings of the 16th International Middle East Power Systems Conference, MEPCON , Ain Shams University, Egypt, 2014. Abstract

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Ibrahim, D. K., A. F. Zobaa, E. Abo El-Zahab, and G. M. Abo-Hamad, "A Hybird Algorithm for Blocking Power Swings", Proceedings of the 7th International Conference on Electrical Engineering, (ICEENG) Conference, Cairo, Egypt, 2010. Abstract

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Ibrahim, D. K., E. M. Aboul-Zahab, and S. M. Saleh, "High-impedance fault detection in EHV transmission lines", 12th international Middle-East Power System Conference (MEPCON‘2008), Aswan, Egypt,, IEEE, pp. 192 - 199, 2008. Abstract

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Ibrahim, D. K., G. M. Abo-Hamad, A. E. E. M. Zahab, and A. F. Zobaa, "Comprehensive Analysis of the Impact of the TCSC on Distance Relays in Interconnected Transmission Networks", IEEE Access, vol. 8, pp. 228315 – 228325, 2020. Abstract

This article extensively investigates the calculations of the compensation factor of the thyristor-controlled series compensator (TCSC), which are used to accurately evaluate the negative impacts of the TCSC on the performance of conventional distance relays. To broadly evaluate the distance protection
performance, the TCSC was adapted to the IEEE 9-bus system as one of the interconnected transmission networks that are increasingly spreading to improve service reliability, reduce reserve capacity, and enhance
system efficiency. In addition, IEEE 39-bus system, as a large interconnected system, is also examined to generalize the TCSC impact on different interconnected systems. To determine the precise impact,
the impedance of the TCSC was calculated based on its practical design parameters. The impedance of the TCSC was examined as a function of transmission line impedance and ring angle. Both Mho and Quadrilateral distance relays were tested using the MATLAB/Simulink environment for different types of faults, fault locations, fault resistances, and ring angles for capacitive, inductive, and blocking modes of TCSC operation. In addition, distance relay performance was evaluated during power swing phenomenon in the presence of the TCSC. Simulation tests indicated the negative impacts of the TCSC on distance relay operation, which are not limited to over-reach and under-reach in faulty conditions but also to maloperation in dynamic disturbances that cause power swing phenomena on the protected line.

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