对等温腔放电过程进行了建模和仿真,确定了等温特性

IF 1.2 4区 工程技术 Q3 THERMODYNAMICS
Hangming Shen, Lihong Yang, Guoxiang Meng
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引用次数: 2

摘要

等温腔内填充有一定密度的高导热多孔材料,在气动领域的流量测量中有着广泛的应用,其等温特性对其应用效果至关重要。为了提高放电过程等温特性的数值计算精度,本文提出了一种分形有效导热系数(ETC)等温腔放电模型,用于确定等温特性。首先,将等温腔内的填料视为多孔随机纤维束,利用分形理论建立了垂直和水平方向各向异性多孔随机纤维束的ETC预测模型;两个方向的模型与实验结果吻合较好,相对均方根误差(RRMSE)分别为3.94%和9.85%。其次,建立了分形ETCs的放电模型,通过数值模拟确定了三种不同孔隙度的等温腔的等温特性;最后,进行了等温特性实验。数值模拟结果与实验结果吻合较好,相对误差小于3%。可以得出结论,准确地确定等温腔内填料的ETC可以提高等温特性的数值计算精度。此外,与实验方法相比,数值方法节能省时。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling and simulation of the discharge process of isothermal chamber to determine the isothermal characteristic
Isothermal chamber is filled with a certain density of high thermal conductivity porous material, which has a wide range of applications in the flow measurement of pneumatic field, and its isothermal characteristic is critical to its application results. In this paper, in order to improve the numerical calculation accuracy of the isothermal characteristics during discharge process, a discharge model of isothermal chamber with fractal effective thermal conductivity (ETC) for determining the isothermal characteristic is reported. Firstly, the stuffer in isothermal chamber is considered as porous random fiber bundle, and an ETC prediction model of anisotropic porous random fiber bundle in both vertical and horizontal directions is established by fractal theory. This model with two directions is in good agreement with the experimental results, and the relative root mean square errors (RRMSE) are 3.94% and 9.85%, respectively. Secondly, the discharge model with fractal ETCs is built, and the isothermal characteristics of isothermal chambers with three different porosities are determined by numerical simulation. Finally, experiments to determine the isothermal characteristic are carried out. The numerical simulation results are in good agreement with the experimental results, and the relative errors are less than 3%. It could be concluded that accurately determining the ETC of the stuffer in isothermal chamber can improve the numerical calculation accuracy of the isothermal characteristic. Moreover, compared with the experimental method, numerical method is energy-saving and timesaving.
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来源期刊
CiteScore
2.30
自引率
8.30%
发文量
0
审稿时长
5 months
期刊介绍: JTST covers a variety of fields in thermal engineering including heat and mass transfer, thermodynamics, combustion, bio-heat transfer, micro- and macro-scale transport phenomena and practical thermal problems in industrial applications.
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