Modeling and simulation of the discharge process of isothermal chamber to determine the isothermal characteristic

• Published in: Journal of Thermal Science and Technology Vol. 17; no. 1; p. 21-00353
• Main Authors: YANG, Lihong, MENG, Guoxiang, SHEN, Hangming
• Format: Journal Article
• Language: English
• Published: Tokyo The Japan Society of Mechanical Engineers and The Heat Transfer Society of Japan 2022; Japan Science and Technology Agency; The Japan Society of Mechanical Engineers
• Subjects: Accuracy; Chambers; Discharge; Discharge process; Effective thermal conductivity; Errors; Flow measurement; Fractal models; Fractal theory; Fractals; Heat conductivity; Heat transfer; Isothermal chamber; Isothermal characteristic; Numerical methods; Porous materials; Prediction models; Simulation; Thermal conductivity
• ISSN: 1880-5566; 1880-5566
• DOI: 10.1299/jtst.21-00353

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.