Numerical Simulation of Single-Layer Wire-Mesh Sensor

Hengwei Zhang, Yao Xiao
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Abstract

Wire Mesh Sensor (WMS) is an advanced two-phase flow measurement device, which has been widely applied in experimental research and industrial production. Previous research has shown that the measurement uncertainty of the WMS increases with the increase of the axial distance between the two layers of the electrode wires. Moreover, the structure of dual layers of wire mesh limits the application of WMS in complex flow channels. For example, the structure of the rod bundle channel needs to be carefully designed to install WMS. Thus, a novel WMS with only a single layer of electrode mesh was proposed. The transmitter wires and the receiver wires were intertwined with each other to increase the stability. The signal response of the single-layer WMS was investigated by the potential field simulation. For the bubble with a diameter of two times the mesh size passing through the WMS, the signal response of the single-layer WMS is closer to the ideal signal compared with the two-layer WMS. For the bubble with a diameter of one time the mesh size, the single-layer WMS overestimates the void fraction. Near the intersection, the distance between the receiver and the transmitter is small, more currents would be received by the per length receiver wire. When the bubble contacts the single-layer WMS, it first wraps the highly sensitive wires, which leads to the void fraction being overestimated.
单层线网传感器的数值模拟
丝网传感器(WMS)是一种先进的两相流量测量装置,在实验研究和工业生产中得到了广泛的应用。以往的研究表明,WMS的测量不确定度随着两层电极线之间轴向距离的增加而增加。此外,双层金属丝网的结构限制了WMS在复杂流道中的应用。例如,需要仔细设计杆束通道的结构以安装WMS。在此基础上,提出了一种仅采用单层电极网的新型WMS。为了增加稳定性,发射线和接收线相互缠绕在一起。利用势场模拟研究了单层WMS的信号响应。对于直径为两倍网格尺寸的气泡通过WMS时,单层WMS的信号响应比双层WMS更接近理想信号。对于直径为网孔尺寸的1倍的气泡,单层WMS高估了孔隙率。在交点附近,接收器和发射器之间的距离较小,每长度的接收器导线接收到的电流更多。当气泡接触单层WMS时,它首先包裹高度敏感的导线,这导致空隙率被高估。
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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