Please use this identifier to cite or link to this item: https://hdl.handle.net/10953/2933
Title: Mann-Iteration Process for Power Flow Calculation of Large-Scale Ill-Conditioned Systems: Theoretical Analysis and Numerical Results
Authors: Tostado-Véliz, Marcos
Hasanien, Hany M.
Turky, Rania A.
Alkuhayli, Abdulaziz
Kamel, Salah
Jurado-Melguizo, Francisco
Abstract: Power Flow solution of realistic ill-conditioned systems has recently attracted huge attention. Nevertheless, there are still some gaps in this field. For example, most of available references do not provide exhaustive theoretical analysis about convergence properties of proposed approaches. In addition, efficient solution of large-scale ill-conditioned systems is still an open topic. This paper tackles these issues by comprehensively studying the suitability of the Mann Iteration Process for the solution of ill-conditioned systems. A comprehensive theoretical analysis is provided, from which is demonstrated that the Mann Iteration Process has with asymptotic stability, may achieve a high convergence rate and constitutes a robust methodology, improving the contractive properties of the Newton-Raphson method. Moreover, some interesting links with other Power-Flow approaches are obtained as by-product. Several numerical experiments serve to confirm the theoretical findings and to compare the performance of the Mann Iteration Process with other well-known PF solvers. In all cases, the results obtained with the Mann Iteration Process are superior to that obtained using other methodologies, being able to efficiently solve various large-scale ill-conditioned systems.
Keywords: Power-flow analysis
Ill-conditioned systems
Large-scale systems
Mann iteration process
Issue Date: 2021
Publisher: IEEE
Citation: M. Tostado-Véliz, H. M. Hasanien, R. A. Turky, A. Alkuhayli, S. Kamel and F. Jurado, "Mann-Iteration Process for Power Flow Calculation of Large-Scale Ill-Conditioned Systems: Theoretical Analysis and Numerical Results," in IEEE Access, vol. 9, pp. 132255-132266, 2021, doi: 10.1109/ACCESS.2021.3114969.
Appears in Collections:DIE-Artículos

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