Examinando por Autor "Alrumayh, Omar"
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Ítem A Novel Power Flow Solution Paradigm for Well and Ill-Conditioned Cases(IEEE, 2021-08) Tostado-Véliz, Marcos; Alharbi, Talal; Alrumayh, Omar; Kamel, Salah; Jurado-Melguizo, FranciscoThis paper develops a novel four-stage power flow solver for ill-conditioned systems. Although the developed solver could be considered efficient, it is not competitive with the Newton-Raphson method in well-conditioned cases. With the aim of being fully competitive in a wide range of cases and scenarios, the developed algorithm is integrated within a novel efficient solution paradigm. As a result, a robust and efficient solution framework, competitive in both well and ill-conditioned cases, is obtained. The new proposals are tested in various well and ill-conditioned cases from 30-, to 13,659-buses. Results obtained with the developed solvers are promising.Ítem On Various High-Order Newton-Like Power Flow Methods for Well and Ill-Conditioned Cases(MDPI, 2021-08) Alharbi, Talal; Tostado-Véliz, Marcos; Alrumayh, Omar; Jurado-Melguizo, FranciscoRecently, the high-order Newton-like methods have gained popularity for solving power flow problems due to their simplicity, versatility and, in some cases, efficiency. In this context, recent research studied the applicability of the 4th order Jarrat’s method as applied to power flow calculation (PFC). Despite the 4th order of convergence of this technique, it is not competitive with the conventional solvers due to its very high computational cost. This paper addresses this issue by proposing two efficient modifications of the 4th order Jarrat’s method, which present the fourth and sixth order of convergence. In addition, continuous versions of the new proposals and the 4th order Jarrat’s method extend their applicability to ill-conditioned cases. Extensive results in multiple realistic power networks serve to sow the performance of the developed solvers. Results obtained in both well and ill-conditioned cases are promising.