通过物理信息神经网络建立预测模型,分析部分湿润波状鳍片的热分布情况

Kalachar Karthik, Ganeshappa Sowmya, Naman Sharma, Chandan Kumar, Varun Kumar Ravikumar Shashikala, Siddesh Alur Shivaprakash, Taseer Muhammad, Harjot Singh Gill
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引用次数: 0

摘要

本研究对部分润湿的波浪形异形翅片中的热传输分析和热分布进行了研究。传热分析中考虑了对流效应、辐射效应和随温度变化的热导率。利用适当的无量纲项,对部分湿润波浪形扩展表面的温度控制方程进行了无量纲化。然后,利用物理信息神经网络(PINN)求解波浪形鳍片的非尺寸热方程。通过数值程序 Runge Kutta Fehlberg 的四阶-五阶 (RKF-45) 方案得到的温度方程值与 PINN 的结果进行了比较。借助表格对结果进行了描述,并通过图形展示了部分湿式波浪翅片上几个无量纲约束条件的重要性。热传导参数值的增加增强了波浪形翅片的热曲线。随着对流-传导参数、温度比参数和辐射-传导参数的升高,波状翅片的温度降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Predictive modeling through physics‐informed neural networks for analyzing the thermal distribution in the partially wetted wavy fin
The heat transport analysis and thermal distribution in partially wetted wavy profiled fin are investigated in the current study. Convective, radiative effects and temperature‐dependent thermal conductivity are all considered in this heat transfer analysis. The dimensional governing temperature equations of the partially wetted wavy extended surface are nondimensionalized utilizing the appropriate dimensionless terms. Further, the resulting nondimensional thermal equations of the wavy fin are solved by employing Physics‐Informed Neural Network (PINN). The values of the temperature equations obtained by the numerical procedure Runge Kutta Fehlberg's fourth‐fifth (RKF‐45) order scheme are compared with PINN outcomes. The results are portrayed with the aid of tables, and the significance of several dimensionless constraints on the partially wet wavy fin is exhibited using graphical illustrations. A rise in the thermal conductivity parameter values enhances the wavy fin's thermal profile. The temperature of the wavy fin diminishes as the convective‐conductive parameter, temperature ratio parameter, and radiation‐conduction parameter upsurges.
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