Modeling of the Two-Dimensional Thawing of Logs in an Air Environment

Modeling and Simulation in Engineering - Selected Problems Pub Date : 2020-07-09 DOI:10.5772/intechopen.93177

N. Deliiski, L. Dzurenda, N. Tumbarkova

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引用次数: 1

Abstract

A two-dimensional mathematical model has been created, solved, and verified for the transient nonlinear heat conduction in logs during their thawing in an air environment. For the numerical solution of the model, an explicit form of the finite-difference method in the computing medium of Visual FORTRAN Professional has been used. The chapter presents solutions of the model and its validation towards own experimental studies. During the validation of the model, the inverse task of the heat transfer has been solved for the determination of the logs’ heat transfer coefficients in radial and longitudinal directions. This task has been solved also in regard to the logs’ surface temperature, which depends on the mentioned coefficients. The results from the experimental and simulative investigation of 2D nonstationary temperature distribution in the longitudinal section of poplar logs with a diameter of 0.24 m, length of 0.48 m, and an initial temperature of approximately –30°C during their many hours thawing in an air environment at room temperature are presented, visualized, and analyzed.

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空气环境下原木二维融化的建模

建立了原木在空气环境中融化过程中瞬态非线性热传导的二维数学模型，并对其进行了求解和验证。对于模型的数值解，采用了Visual FORTRAN Professional计算介质中有限差分法的显式形式。本章给出了模型的解决方案，并对自己的实验研究进行了验证。在模型验证过程中，解决了换热逆任务，确定了测井曲线径向和纵向的换热系数。这一任务也解决了关于原木的表面温度，这取决于上述系数。本文对直径为0.24 m、长度为0.48 m、初始温度约为-30℃的杨树原木在室温条件下长时间融化过程中的二维非平稳温度分布进行了实验和模拟研究，并对其进行了可视化分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Modeling and Simulation in Engineering - Selected Problems

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