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Mohamed Sharaf, H., H. H. Zeineldin, D. K. Ibrahim, and E. E. D. A. El Zahab, "Protection coordination of directional overcurrent relays considering fault current direction", Proceedings of the 5th IEEE conference on Innovative Smart Grid Technologies, ISGT 2014, Istanbul, Turkey, IEEE, pp. 1 - 5, 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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Shehata, T., M. A. S. moteleb, and E. M. A. El-Zahab, "STATCOM controllers based on fuzzy PI approach", Indonesian Journal of Electrical Engineering and Computer Science, vol. 18, issue 3, pp. 1138-1147, 2020. Abstract

The electricity companies enforced some legislation on the electricity consumption contracts because the electricity network cannot bear the increasing demands of consumers. Therefore, a new controlling system is required to improve the frequent variations of the power system operating point (OP). Consequently, the flexible AC transmission systems (FACTS) controllers should be able to integrate with recent OP. Coordination of FACTS controller is more sophisticated due to various OP and uncertainties parametric in cooperation with the non linearity of power system (PS). Static Synchronous Compensator (STATCOM) plays very important role like the stability support of large and small transient-disturbance in PS. Therefore, the aim of this research is presents fuzzy logic (FL) with the PI controller (a novel controller) its ability to improve the performance of the power system along with the capability of switch irregular and rough actual world data. This new controlling system may be suitable for a wide range of applications especially the models which deal with huge and complicated data analysis. This new controller system carries out the adjustments of the voltage on DC capacitor under transient and steady-state conditions.

Hamdy, M., M. Elshahed, D. Khali, and E. E. - D. A. El-Zahab, "Stochastic Unit Commitment Incorporating Demand Side Management and Optimal Storage Capacity", Iranian Journal of Science and Technology, Transactions of Electrical Engineering, vol. 43, issue 1, pp. S559–S571, 2019. Abstract

High penetration of wind energy imposes several operational challenges due to its uncertainty and intermittent nature. Flexible energy resources represent key solutions to compensate for power mismatch associated with wind power (WP) uncertainty and intermittency. This paper proposes a new stochastic unit commitment (SUC) problem formulation including high penetration of wind energy, energy storage system (ESS), and demand side management. Firstly, the Latin hypercube sampling is combined with Cholesky decomposition method to generate different WP scenarios. The simulated scenarios are then reduced using the fast forward selection algorithm. Finally, a novel SUC formulation implements these reduced scenarios to size the ESS optimally, considering its cost and benefit maximization of wind energy. To validate the proposed approach, a nine-unit test system is used to demonstrate the reduction in the operational cost and the increase in the utilized wind energy under different operational conditions.

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Younis, R. A., D. K. Ibrahim, E. M.Aboul-Zahab, and A. ’fotouh El'Gharably, "Techno-economic investigation using several metaheuristic algorithms for optimal sizing of stand-alone microgrid incorporating hybrid renewable energy sources and hybrid energy storage system", International Journal on Energy Conversion (I.R.E.CON.), vol. 8, issue 4, pp. 141- 152, 2020. Abstract

Increasing energy demand worldwide has resulted in more penetration of renewable sources for developing non-polluted electric energy despite their prices are not economically competitive to traditional generation systems due to intermittent nature of renewable resources. Energy storage systems are used to counteract the intermittent nature of renewable sources. Therefore, the optimal sizing and design of stand-alone renewable generating systems is a significant concern to get a more cost-effective system. This paper focuses on achieving the optimum design and size of a microgrid to meet the load requirements and reducing the total cost including capital, investment, operational and maintenance costs. For this aim, the sizing problem is formulated to be solved using three well-known metaheuristic algorithms, namely, Particle Swarm Optimization (PSO), Grey Wolf Optimization (GWO) and Cuckoo Search Optimization (CSO). The employed microgrid comprises hybrid renewable energy sources of PV/Wind systems integrated with a hybrid energy storage system of Battery and FC/Electrolyzer set for supplying AC loads located in Zafarana, Egypt. On the basis of real meteorological data of the studied location, the produced energies from the renewable sources are estimated using MATLAB developed algorithms. The simulation results showed that the optimized design using CSO can robustly and efficiently yield the optimal design of a microgrid.

Shazly, J. H., M. A. Mostafa, D. K. Ibrahim, and E. A. E. El Zahab, "Thermal analysis of high-voltage cables with several types of insulation for different configurations in the presence of harmonics", IET Generation, Transmission & Distribution, vol. 11, issue 14: IET Digital Library, pp. 3439 - 3448, 2017. Abstract

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Shafei, M. A. R., D. K. Ibrahim, and E. E. - D. A. El-Zahab, "Transient stability enhancement of Egyptian national grid including nuclear power plant in Dabaa area", IEEE International Conference on Power and Energy (PECon), Kota Kinabalu Sabah, Malaysia, IEEE, pp. 487 - 492, 2012. Abstract

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Mostafa, S. A. E. A., D. K. Ibrahim, and E. E. - D. A. El-Zahab, "Two Approaches for Directional Overcurrent Relays Coordination in Interconnected Power Systems with Distributed Generation", Proceedings of the 8th International Conference on Electrical Engineering, ICEENG Conference, Military Technical College, Cairo, Egypt, 2012. 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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