Y
Yasser G. Hegazy
Researcher at German University in Cairo
Publications - 77
Citations - 2563
Yasser G. Hegazy is an academic researcher from German University in Cairo. The author has contributed to research in topics: Distributed generation & Monte Carlo method. The author has an hindex of 19, co-authored 76 publications receiving 2319 citations. Previous affiliations of Yasser G. Hegazy include Ain Shams University & University of Waterloo.
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Optimal investment planning for distributed generation in a competitive electricity market
TL;DR: In this article, a new heuristic approach for distributed generation (DG) capacity investment planning from the perspective of a distribution company (disco) is obtained through a cost-benefit analysis approach based on a new optimization model.
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An integrated distributed generation optimization model for distribution system planning
TL;DR: In this article, the authors proposed a new integrated model for solving the distribution system planning (DSP) problem by implementing distributed generation (DG) as an attractive option in distribution utilities territories.
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Adequacy assessment of distributed generation systems using Monte Carlo Simulation
TL;DR: In this article, a Monte Carlo-based method for the adequacy assessment of distributed generation systems is presented and implemented in a typical case study where several distributed generation units are running in parallel within a sample distribution system and the system margins and the average amount of unsupplied loads are estimated using Monte Carlo simulation.
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Investigating distributed generation systems performance using Monte Carlo simulation
TL;DR: A novel algorithm to evaluate the performance of electric distribution systems, including distributed generation (DG) is proposed, which addresses the deterministic and the stochastic natures of these electrical systems.
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A Classification Technique for Recloser-Fuse Coordination in Distribution Systems With Distributed Generation
TL;DR: A novel approach based on an assessment process using a classification technique to classify the recloser-fuse coordination status at fault conditions to either coordination holds or coordination lost to decrease the number of cases where coordination is lost is presented.