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Cited 3 time in webofscience Cited 6 time in scopus
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Development of Efficient and Accurate Parallel Computation Algorithm Using Moving Overset Grids on Background Multi-Domains for Complex Two-Phase Flows

Authors
Ha, MinhoCheong, CheolungSeol, HanshinPaik, Bu-GeunKim, Min-JaeJung, Young-Rae
Issue Date
10월-2018
Publisher
MDPI
Keywords
cavitation flow; moving overset grid; grid-overlapping interface; parallel computing
Citation
APPLIED SCIENCES-BASEL, v.8, no.10
Journal Title
APPLIED SCIENCES-BASEL
Volume
8
Number
10
URI
https://www.kriso.re.kr/sciwatch/handle/2021.sw.kriso/447
DOI
10.3390/app8101937
ISSN
2076-3417
2076-3417
Abstract
The goal of this study involves developing an efficient and accurate parallel computation method for two-phase flow problems including complex moving foreign bodies. The proposed parallel computing techniques are based on the moving body-fitted grids' overset on background multidomains with grid-overlapping at their interface. First, the cavitation flow over the hemispherical head form is investigated using the two-phase flow solver, which is validated by comparing the numerical and experimental results. Subsequently, the parallel computing technique based on the multidomain method that divides the computational domain into several smaller subdomains is proposed to facilitate more efficient numerical simulations. At the interface of the subdomains, the grid-overlapping method is proposed for more accurate simulations. The illustrative computations indicate that the accuracy of the parallel computation combined with the grid-overlapping method on multidomains is identical to that of the serial computation based on a single block, albeit with a significant reduction in the computation time. Finally, the moving overset grid technique is combined with the background multidomain method and applied to simulate the gust flow that is generated by the pitching motions of the twin hydrofoils. The overset grid technique includes the following three sequential steps: hole-cutting, finding donor cells, and bilinear interpolation. The prediction results for the inflow gust generated by oscillating hydrofoils closely follow the measured results.
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Paik, Bu Geun
지능형선박연구본부 (함정공학연구센터)
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