气泡影响下的电磁流量测量优化技术研究
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TH814

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国家自然科学基金(51974273)项目资助


Research on optimization technology of electromagnetic flow measurement under the influence of air bubbles
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    摘要:

    电磁流量测量在工业生产过程中扮演着重要角色,但易受流体中气泡的影响导致测量结果出现波动进而影响测量精 度,因此通过技术手段实现测量精度的优化十分关键。 针对电磁流量测量精度受气泡影响的测量优化问题,本文首先从权重函 数角度入手,建立了气泡对电磁流量测量影响的理论模型;其次,通过有限元仿真研究了气泡对权重函数的影响,并根据仿真结 果提出了一种基于图像采集与处理技术的优化方法降低气泡对电磁流量测量的影响;最后,为了验证优化方法的可行性,开发 了气泡图像处理算法,并搭建气液两相流流体电磁流量测量实验平台进行实验验证。 实验结果表明,采用优化方法补偿后的电 磁流量测量系统受气泡影响的敏感程度得到有效降低,误差降低幅度均在 82. 63% 以上,最大误差降低幅度可达 91% ,优化后气 泡存在时的测量误差在±3. 03% 以内。 研究有效降低了电磁流量测量受气泡影响产生的误差,为进一步提高气泡影响下的电磁 流量测量精度和实现气液两相流电磁测量提供技术支持。

    Abstract:

    Electromagnetic flow measurement is critical in the industrial manufacturing process. But, it is susceptible to the influence of air bubbles in the fluid, which will impact the measurement accuracy and cause variations in the measurement findings. Enhancing measurement accuracy by using techniques is essential. This study presents a theoretical model of the influence of bubbles on electromagnetic flow measurement from the standpoint of weight function to address the measurement optimization problem of electromagnetic flow measurement accuracy affected by bubbles. Secondly, the influence of bubbles on the weight function is investigated by using finite element simulation. An optimization method based on image acquisition and processing technology is proposed to reduce the influence of bubbles on electromagnetic flow measurement based on the simulation results. Finally, to test the feasibility of the optimization method, a bubble image processing algorithm is created, and an experimental platform for measuring gas-liquid two-phase flow electromagnetic flow is established. Experimental results show that the optimization method effectively reduces the sensitivity of the electromagnetic flow measurement system under the influence of bubbles. The error reduction amplitude is larger than 82. 63% , with a maximum error reduction amplitude of 91% . After optimization, the measurement error in the presence of bubbles is within ±3. 03% . The study effectively reduces the error of electromagnetic flow measurement caused by bubbles and provides technical support for improving the measurement accuracy of electromagnetic flow caused by bubbles and realizing the electromagnetic measurement of gasliquid two-phase flow.

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葛 亮,袁一萍,白 洋,曾 文,阳彩霞.气泡影响下的电磁流量测量优化技术研究[J].仪器仪表学报,2023,44(1):242-252

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  • 在线发布日期: 2023-07-04
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