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二维圆管导热反问题内壁瞬态温度的快速识别
引用本文:张经豪,卢涛,熊平,郝睿智,周照春,田源,陈柏宇,张琪琪. 二维圆管导热反问题内壁瞬态温度的快速识别[J]. 北京化工大学学报(自然科学版), 2021, 48(6): 64-72. DOI: 10.13543/j.bhxbzr.2021.06.009
作者姓名:张经豪  卢涛  熊平  郝睿智  周照春  田源  陈柏宇  张琪琪
作者单位:北京化工大学 机电工程学院, 北京 100029
摘    要:以二维圆管为研究对象,基于控制容积积分法的导热正问题以及基于共轭梯度法的优化算法来构建二维瞬态导热反问题数学模型,分别采用Gauss-Seidel点迭代法与托马斯算法(tridiagonal matrix algorithm,TDMA)线迭代法对导热正问题离散方程进行求解。为了探究Gauss-Seidel点迭代法与TDMA线迭代法两种模型的精确性与时效性,设定了3种内壁面温度变化规律,以正问题所得到的外壁面温度值作为导热反问题的输入条件,并引入标准正态随机测量误差,探讨测量误差对反演结果精度的影响。数值试验证明了两种方法反演的精确性和抗噪性,且对比结果表明TDMA线迭代法的求解速度要优于Gauss-Seidel点迭代法,能够较快地反演得到内壁面温度波动值。

关 键 词:导热反问题  共轭梯度法  控制容积积分法  Gauss-Seidel点迭代法  托马斯算法(TDMA)线迭代法  
收稿时间:2021-04-02

Rapid estimation of the transient temperature of the inner wall in a two-dimensional pipe for the inverse heat conduction problem
ZHANG JingHao,LU Tao,XIONG Ping,HAO RuiZhi,ZHOU ZhaoChun,TIAN Yuan,CHEN BaiYu,ZHANG QiQi. Rapid estimation of the transient temperature of the inner wall in a two-dimensional pipe for the inverse heat conduction problem[J]. Journal of Beijing University of Chemical Technology, 2021, 48(6): 64-72. DOI: 10.13543/j.bhxbzr.2021.06.009
Authors:ZHANG JingHao  LU Tao  XIONG Ping  HAO RuiZhi  ZHOU ZhaoChun  TIAN Yuan  CHEN BaiYu  ZHANG QiQi
Affiliation:College of Mechanical and Electrical Engineering, Beijing University of Chemical Technology, Beijing 100029, China
Abstract:Taking a two-dimensional circular tube as the research object, a mathematical model of the two-dimensional transient heat conduction inverse problem has been constructed based on the forward heat conduction problem of the control volume integral method and the optimization algorithm based on the conjugate gradient method. The Gauss-Seidel point iteration method and the tridiagonal matrix algorithm (TDMA) line iteration method were used to solve the discrete equation of the heat conduction problem. In order to study the accuracy and speed of the two models (the Gauss-Seidel point iteration method and the TDMA line iteration method) three kinds of internal wall temperature change laws were set. The external wall temperature value obtained from the positive problem was used as the input of the inverse heat conduction problem. Standard normal random measurement errors were introduced in order to discuss the impact of measurement errors on the accuracy of the inversion results. Numerical results confirm the accuracy and noise resistance of the two methods. The inner wall temperature fluctuation value can be rapidly inverted by means of the TDMA line iteration method which has a faster solution speed than the Gauss-Seidel point iteration method.
Keywords:inverse heat conduction problem  conjugate gradient method  control volume integral method  Gauss-Seidel point iteration method  tridiagonal matrix algorithm (TDMA) line iteration method  
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