An improvement to the simulation of phase-change heat-transfer during soil freezing and thawing 被引量：6

An improvement to the simulation of phase-change heat-transfer during soil freezing and thawing

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摘要 A new variable time step method,which is called the backwards calculating time step method,is presented in this paper.It allows numerical simulation of soil freezing and thawing while avoiding "phase change missing and overflowing".A sensitive heat capacity model is introduced through which the calculation errors are analyzed.Then the equation using the self-adjusted time step is presented and solved using finite differences.Through this equation,the time needed for a space cell to reach the phase change point temperature is calculated.Using this time allows the time step to be adjusted so that errors caused by "phase change missing and overflowing" are successfully eliminated.Above all,the obvious features of this method are an accelerated rate for adjusting the time step and simplifing the computations.An actual example proves that this method can accurately calculate the temperature fields during soil freezing and thawing.It is an improvement over traditional methods and can be widely used on complicated multi-dimensional phase change problems. A new variable time step method, which is called the backwards calculating time step method, is presented in this paper. It allows numerical simulation of soil freezing and thawing while avoiding ＂phase change missing and overflowing＂. A sensitive heat Capacity model is introduced through which the calculation errors are analyzed. Then the equation using the self-adjusted time step is presented and solved using finite differences. Through this equation, the time needed for a space cell to reach the phase change point temperature is calculated. Using this time allows the time step to be adjusted so that errors caused by ＂phase change missing and overflowing＂ are successfully eliminated. Above all, the obvious features of this method are an accelerated rate for adjusting the time step and simplifing the computations. An actual example proves that this method can accurately calculate the temperature fields during soil freezing and thawing. It is an improvement over traditional methods and can be widely used on complicated multi-dimensional phase change problems.

作者 YANG Tao ZHENG Mao-yu

机构地区 School of Municipal and Environment

出处《Mining Science and Technology》 EI CAS 2009年第2期262-268,共7页 矿业科学技术（英文版）

基金 Project 2006G1662-00 supported by the Key Science and Technology Project of Heilongjiang Province

关键词 backwards calculating time step method phase change missing phase change overflowing 相变传热土壤冻融数值模拟时间步长计算错误传统方法温度场热容量

分类号 TK124 [动力工程及工程热物理—工程热物理] S152.8 [农业科学—土壤学]

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