M. Mosallem, Haitham M. Hadidi, Mohammed Y. Tharwan, Zeinab A. Ahmed
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引用次数: 0
摘要
采用计算流体力学(CFD)方法对复合气缸的流动进行了数值模拟。在雷诺数ReD = 333的条件下,以中间圆柱的直径d为基础,研究了三个不同直径的接触圆柱相对于迎面流串联布置的情况,所提出的构型模拟了卫星运载火箭发射期间的气流。计算径径比d / d分别为0.8和0.6。数值结果揭示了旋涡的形成和旋涡脱落机理。当d / d = 0.6时,近尾迹比d / d = 0.8时宽。d / d = 0.6时的基压系数值低于d / d = 0.8时的基压系数值。这些结果表明,当d / d = 0.6时,作用在气缸上的阻力大于d / d = 0.8时。由此得出,基压系数与直径比d / d有关,而计算得到的涡脱斯特罗哈尔数值为0.25,与直径比d / d无关。[j]。判例57(4),215-220,2022
Numerical study of unsteady flow past compound cylinders
The flow over compound cylinders is simulated using computational fluid dynamic (CFD). Three contacting cylinders of different diameters, arranged in tandem with respect to the oncoming flow were examined at Reynolds number ReD = 333 based on the diameter of the middle cylinder, D. The proposed configuration simulates the wind flow over the satellite launch vehicles during the period of launch. Computations were performed for diameter-to-diameter ratio, d / D, of 0.8 and 0.6. The numerical results revealed the vortex formation and vortex shedding mechanism in the wake downstream of the cylinders. For d / D = 0.6, the near wake is wider than that of d / D = 0.8. It is also found that the base pressure coefficient values for d / D = 0.6 are lower than those for d / D = 0.8. These findings imply that the acting drag force on the cylinders for d / D = 0.6 is larger than that for d / D = 0.8. Concluding that, the base pressure coefficient depends on the diameter ratio d / D whereas, the computed vortex-shedding Strouhal number value was found to be 0.25 and is independent on the d / D ratio.
Bangladesh J. Sci. Ind. Res. 57(4), 215-220, 2022
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