轴对称容器参数测量中沉梁的伯努利-欧拉模型研究

2018 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Pub Date : 2018-05-14 DOI:10.1109/I2MTC.2018.8409870

J. Sánchez-Diaz, J. Ramírez-Cortés, P. Gómez-Gil, J. Rangel-Magdaleno, H. Peregrina-Barreto, Israel Cruz-Vega

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引用次数: 1

摘要

容器中液体的液位、密度和粘度等参数测量由于与各种工业领域的相关性而被广泛研究。本文基于一般伯努利-欧拉梁模型，分析了不同液体条件下垂直浸入梁的振动模态与液体参数的关系。实验和理论结果与COMSOL中采用分布质量方法实现的有限元模型(FEM)仿真进行了比较。该分析旨在利用浸入式梁模型表征轴对称容器，其中振动模式与周围液体特性相关联。结果表明，当考虑第一和第二振动模式时，在满量程范围内的平均误差为6.5%。

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On Bernoulli-Euler modeling of an immersed beam for axisymmetric container parameters measurement

Parameter measurement of liquids in containers such as level, density and viscosity is a widely investigated field due to its relevance in a variety of industrial fields. In this work an analysis of vibration modes related to liquid parameters for a vertical immersed beam based on a general Bernoulli-Euler beam model for different liquids is presented. Experimental and theoretical results are compared to a Finite Element Model (FEM) simulation implemented in COMSOL, using a distributed mass approach. This analysis aims to characterization of axisymmetric containers using an immersed beam model where the vibration modes are linked to surrounding liquid properties. Results showed a good approximation with an error of 6.5 % in average of the full scale range when the first and second vibration mode are considered.

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2018 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

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