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This article is cited in 33 scientific papers (total in 33 papers)
Investigation of supercomputer capabilities for the scalable numerical simulation of computational fluid dynamics problems in industrial applications
A. S. Kozelkov, V. V. Kurulin, S. V. Lashkin, R. M. Shagaliev, A. V. Yalozo Russian Federal Nuclear Center—All-Russia Institute of Experimental Physics, Sarov, Nizhegorodskaya oblast, Russia
Abstract:
Two main issues of the efficient usage of computational fluid dynamics (CFD) in industrial applications — simulation of turbulence and speedup of computations — are analyzed. Results of the investigation of potentials of the eddy-resolving approaches to turbulence simulation in industrial applications with the use of arbitrary unstructured grids are presented. Algorithms for speeding up the scalable high-performance computations based on multigrid technologies are proposed.
Key words:
numerical simulation, supercomputers, computational fluid dynamics, turbulence, multigrid technologies, industrial applications.
Received: 07.04.2015
Citation:
A. S. Kozelkov, V. V. Kurulin, S. V. Lashkin, R. M. Shagaliev, A. V. Yalozo, “Investigation of supercomputer capabilities for the scalable numerical simulation of computational fluid dynamics problems in industrial applications”, Zh. Vychisl. Mat. Mat. Fiz., 56:8 (2016), 1524–1535; Comput. Math. Math. Phys., 56:8 (2016), 1506–1516
Linking options:
https://www.mathnet.ru/eng/zvmmf10442 https://www.mathnet.ru/eng/zvmmf/v56/i8/p1524
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Abstract page: | 339 | Full-text PDF : | 110 | References: | 46 | First page: | 26 |
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