Numerical study of flow past a solid sphere at high Reynolds number

The present study gives a detail description of separation flow and its effect under high Reynolds number. The unsteady three dimensional flow simulation around sphere using numerical simulation computational fluid dynamics for high Reynolds number between 300 000 < Re < 600 000 is discussed....

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Veröffentlicht in:	IOP conference series. Materials Science and Engineering 2017-09, Vol.243 (1), p.12042
Hauptverfasser:	Yen, C H, Hui, U J, We, Y Y, Sadikin, A, Nordin, N, Taib, I, Abdullah, K, Mohammed, A N, Sapit, A, Razali, M A
Format:	Artikel
Sprache:	eng
Schlagworte:	Computational fluid dynamics Drag coefficients Flow simulation Fluid flow High Reynolds number Reliability analysis Reynolds number Separation Three dimensional flow Vortex shedding
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creator	Yen, C H Hui, U J We, Y Y Sadikin, A Nordin, N Taib, I Abdullah, K Mohammed, A N Sapit, A Razali, M A
description	The present study gives a detail description of separation flow and its effect under high Reynolds number. The unsteady three dimensional flow simulation around sphere using numerical simulation computational fluid dynamics for high Reynolds number between 300 000 < Re < 600 000 is discussed. The separation angle and drag coefficient are also presented. The results show that the increasing Reynolds number affecting the formation of vortex shedding, separation point and drag coefficient. The agreement was good, confirming the reliability of the predicted data from computational fluid dynamic in flow analysis around sphere at high Reynolds number.
doi_str_mv	10.1088/1757-899X/243/1/012042
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subjects	Computational fluid dynamics Drag coefficients Flow simulation Fluid flow High Reynolds number Reliability analysis Reynolds number Separation Three dimensional flow Vortex shedding
title	Numerical study of flow past a solid sphere at high Reynolds number
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