Influence of bluff body shape on wall pressure distribution in vortex flowmeter 被引量：3

Influence of bluff body shape on wall pressure distribution in vortex flowmeter

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摘要 To investigate the influence of bluff body shape on wall pressure distribution in a vortex flowmeter,experiments were conducted on a specially designed test section in a closed water rig at Reynolds numbers of 6.2×10 4-9.3×10 4.The cross sections of the bluff bodies were semicircular,square,and triangular shaped,and there were totally 21 pressure tappings along the conduit to acquire the wall pressures.It is found that the variation trends of wall pressures are basically identical regardless of the bluff body shapes.The wall pressures begin to diverge from 0.3D(D is the inner diameter of the vortex flowmeter) in front of the bluff body due to the diversity in shape,and all reach the minimum values at 0.3D behind the bluff body.A discrepancy between the triangular or square cylinder and the semicircular cylinder in wall pressure change is observed at 0-0.1D behind the bluff body.It is also found that the wall pressures and irrecoverable pressure loss coefficients increase with flow rates,and the triangular cylinder causes the smallest irrecoverable pressure loss at a fixed flow rate. To investigate the influence of bluff body shape on wall pressure distribution in a vortex flowmeter, experiments were conducted on a specially designed test section in a closed water rig at Reynolds numbers of 6.2× 104-9.3 ×104. The cross sections of the bluff bodies were semicircular, square, and triangular shaped, and there were totally 21 pressure tappings along the conduit to acquire the wall pressures. It is found that the variation trends of wall pressures are basically identical regardless of the bluff body shapes. The wall pressures begin to diverge from 0.3D （D is the inner diameter of the vortex flowmeter） in front of the bluff body due to the diversity in shape, and all reach the minimum values at 0.3D behind the bluff body. A discrepancy between the triangular or square cylinder and the semicircular cylinder in wall pressure change is observed at 0-0.1D behind the bluff body. It is also found that the wall pressures and irrecoverable pressure loss coefficients increase with flow rates, and the triangular cylinder causes the smallest irrecoverable pressure loss at a fixed flow rate.

作者孙志强李志勇蒋赟周宏亮

机构地区 School of Energy Science and Engineering Hunan Key Laboratory of Energy Conservation in Process Industry(Central South University)

出处《Journal of Central South University》 SCIE EI CAS 2013年第3期724-729,共6页 中南大学学报（英文版）

基金 Project(51006125) supported by the National Natural Science Foundation of China

关键词涡街流量计压力分布钝体形状压力损失系数壁面三角形压力变化 vortex flowmeter bluffbody shape wall pressure irrecoverable pressure loss

分类号 TH814 [机械工程—精密仪器及机械] TK223.23 [动力工程及工程热物理—动力机械及工程]

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共引文献5

1孙志强,张宏建.Application of empirical mode decomposition based energy ratio to vortex flowmeter state diagnosis[J].Journal of Central South University,2009,16(1):154-159. 被引量：4
2孙志强,陈延平.基于Burg法AR模型谱估计的涡街流量计旋涡脱落频率提取[J].中南大学学报（自然科学版）,2013,44(4):1684-1688. 被引量：14
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4陈露阳,尹佳雯,孙志强,姚凤艳,周天.基于EEMD-Hilbert谱的气液两相流钝体绕流流型识别[J].仪器仪表学报,2017,38(10):2536-2546. 被引量：12
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3魏爱拴,刘全全,张斌,左凯,孔学云,乔健鑫,宋文平.采油井井下涡街流量计的研制与试验研究[J].石油管材与仪器,2020,6(1):19-23. 被引量：5

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