A computational fluid dynamics approach to noise immunity improvement of vortex flowmeters

机译：涡流流量计噪声抗扰度改善的计算流体动力学方法

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In order to improve the noise immunity of vortex flowmeters, we have investigated the hydrodynamic vibration around the bluff body of the flowmeter. We used numerical approaches to visualize the time-dependent vortex motion within the channel of the flowmeter, and experimental approaches to clarify the characteristic of the hydrodynamic vibration on the side faces of the prismatic bluff body. The results show that the hydrodynamic vibrations with 180°C phase shift occur on the side faces of the bluff body, i.e., the prism. The most intense vibration points are situated here. By using differential transducers, a vortex flowmeter with improved measurement accuracy has been developed.

机译：为了提高涡流流量计的抗噪性，我们研究了流量计的虚张风体周围的流体动力学振动。我们使用了数值方法来可视化流量计的通道内的时间依赖性涡流运动，以及实验方法，以阐明棱镜虚弱体的侧面的流体动力学振动的特性。结果表明，具有180°C相移的流体动力振动发生在虚张体的侧面上，即棱镜。最强烈的振动点位于此处。通过使用差分传感器，已经开发出具有改善的测量精度的涡流流量计。

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《SAE International Off-Highway and Powerplant Congress and Exposition》|2001年||共1页
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作者
Xin Fu; Bizhong Xia; Huayong Yang;
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原文格式 PDF
正文语种
中图分类 U46-53;
关键词
Computational fluid dynamics; Flowmeters; Hydraulic systems; Noise control; Vibration control; Vortex flow;

机译：计算流体动力学;流量计;液压系统;噪声控制;振动控制;涡流流动;
入库时间 2022-08-21 00:20:10

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A computational fluid dynamics approach to noise immunity improvement of vortex flowmeters

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