Mixed convection around a circular cylinder in a buoyancy-assisting flow

IF 1.1 Q4 MECHANICS

Curved and Layered Structures Pub Date : 2022-01-01 DOI:10.1515/cls-2022-0008

H. S. Majdi, M. Mashkour, L. Habeeb, M. Ilic

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引用次数: 0

Abstract

Abstract In this paper, the effect of mixed convection on the flow behavior and heat transfer around a circular cylinder disclosed to a vertically upward laminar air stream is numerically examine. The buoyancy-aided flow is utilized to eliminate and control the vortex shedding of the cylinder. The influence of the Grashof number, 0 ≤ Gr ≤ 6000, the flow and thermal patterns, as well as the local and mean Nusselt number, is investigated at a constant Reynolds number of 100. The unsteady Navier-Stokes’s equations are solved employing a finite-volume method to simulate numerically the velocity and temperature fields in time and space. The results showed periodic instability in the flow and thermal fields for a range of Grashof number Gr ≤ 1300. Also, there is critical value of Grashof number for stopping this instability and the vortex shedding formed behind the cylinder, by the effect of heating. Thus, by increasing Grashof number between 1400 ≤ Gr ≤ 4000, the periodic flow vanishes and converts into steady flow with twin eddies attached to the cylinder from the back. Furthermore, as Grashof number increases behind Gr ≥ 5000, the flow becomes completely attached to the cylinder surface without any separation.

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浮力辅助流中圆柱体周围的混合对流

摘要本文用数值方法研究了垂直向上层流中混合对流对圆柱周围流动行为和传热的影响。浮力辅助流动用于消除和控制圆柱体的涡流脱落。在雷诺数为100的恒定条件下，研究了Grashof数（0≤Gr≤6000）、流动和热模式以及局部和平均努塞尔数的影响。采用有限体积法求解非定常Navier-Stokes方程，数值模拟了时间和空间上的速度场和温度场。结果表明，在Grashof数Gr≤1300的范围内，流场和热场存在周期性不稳定性。此外，对于阻止这种不稳定性和由于加热的影响在圆柱体后面形成的涡流脱落，Grashof数也有临界值。因此，通过将Grashof数增加到1400≤Gr≤4000之间，周期性流动消失并转化为稳定流动，双涡流从后面附着在圆柱体上。此外，当Grashof数在Gr≥5000之后增加时，流体完全附着在圆柱体表面，没有任何分离。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Curved and Layered Structures MECHANICS-

CiteScore

2.60

自引率

13.30%

发文量

审稿时长

14 weeks

期刊介绍： The aim of Curved and Layered Structures is to become a premier source of knowledge and a worldwide-recognized platform of research and knowledge exchange for scientists of different disciplinary origins and backgrounds (e.g., civil, mechanical, marine, aerospace engineers and architects). The journal publishes research papers from a broad range of topics and approaches including structural mechanics, computational mechanics, engineering structures, architectural design, wind engineering, aerospace engineering, naval engineering, structural stability, structural dynamics, structural stability/reliability, experimental modeling and smart structures. Therefore, the Journal accepts both theoretical and applied contributions in all subfields of structural mechanics as long as they contribute in a broad sense to the core theme.