Two-dimensional finite element inverse heat transfer approach with conjugate gradient method to evaluate the energy requirement of bread under various conditions

IF 2.8 Q2 THERMODYNAMICS Heat Transfer Pub Date : 2024-08-27 DOI:10.1002/htj.23159
Ravula Sudharshan Reddy, Divyasree Arepally, Ashis K. Datta
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引用次数: 0

Abstract

Direct heat transfer problems can be solved analytically or numerically to predict the temperature profile when the thermal properties, boundary conditions, and other relevant parameters are known. Though it is common practice to measure temperature experimentally, heat transfer parameters and boundary conditions are more challenging to measure and can instead be inferred through the use of inverse heat transfer (IHT) techniques, which can be solved through optimization. In this study, the IHT method with the conjugate gradient method is used to determine the energy consumption of bread during the cooking process in a developed baking oven with and without a reflector. A complex variable differentiation method is integrated to calculate the accurate sensitivity coefficient matrix. The results demonstrated that the estimated heat flux is very close to the exact heat flux and relative error is less than measurement errors.

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利用共轭梯度法的二维有限元逆传热方法评估各种条件下面包的能量需求
在已知热特性、边界条件和其他相关参数的情况下,可以通过分析或数值方法解决直接传热问题,以预测温度曲线。虽然通常的做法是通过实验测量温度,但热传导参数和边界条件的测量更具挑战性,因此可以通过使用反向传热(IHT)技术来推断,并通过优化来求解。本研究采用共轭梯度法的 IHT 方法来确定面包在有反光板和无反光板的发达烘烤炉中烹饪过程中的能耗。该方法采用复变微分法计算精确的灵敏度系数矩阵。结果表明,估算的热通量与精确热通量非常接近,相对误差小于测量误差。
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来源期刊
Heat Transfer
Heat Transfer THERMODYNAMICS-
CiteScore
6.30
自引率
19.40%
发文量
342
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