Inclusion of unsteady heat conduction in regular bodies subject to uniform surface heat flux in a heat transfer course

IF 1.1 Q3 EDUCATION, SCIENTIFIC DISCIPLINES International Journal of Mechanical Engineering Education Pub Date : 2023-09-07 DOI:10.1177/03064190231188318
Antonio Campo
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Abstract

The present study is concerned with the analysis of unsteady heat conduction in regular bodies (large plane wall, long cylinder, and sphere) with constant initial temperature, prescribed surface heat flux and thermal properties of the solid that are invariant with temperature. Surprisingly, this important topic is absent in textbooks on heat transfer. The exact evaluation of the dimensionless surface temperatures varying with the dimensionless time in the regular bodies over the entire dimensionless time domain [Formula: see text] is carried out with a symbolic algebra code. Thereafter, regression analysis is applied to the data gathered for the dimensionless surface temperatures varying with the dimensionless time of the regular bodies inside the dimensionless “small time” time sub-domains [Formula: see text]. The dimensionless threshold time [Formula: see text] is a decisive parameter that establishes the borderline between the “small time” sub-domain [Formula: see text] and the “large time” sub-domain [Formula: see text] comprising the entire dimensionless time domain [Formula: see text]. Based on regression analysis, compact asymptotes are constructed for the dimensionless surface temperatures varying with the dimensionless time inside the dimensionless “small time” sub-domain [Formula: see text]. At the end, agreements with the dimensionless exact, analytical surface temperature distributions (the baseline solutions) valid for the dimensionless time sub-domain [Formula: see text]. are considered of excellent quality.
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在传热过程中受均匀表面热通量约束的规则体中包含非定常热传导
本研究涉及在恒定初始温度、规定表面热通量和固体热性质不变的情况下,规则体(大平面壁、长圆柱体和球体)中的非定常热传导的分析。令人惊讶的是,这一重要话题在关于传热的教科书中却没有出现。在整个无量纲时域[公式:见正文]中,用符号代数代码对规则体中随无量纲时间变化的无量纲表面温度进行精确评估。此后,将回归分析应用于无量纲“小时间”时域内规则体的无量纲表面温度随无量纲时间变化而收集的数据[公式:见正文]。无量纲阈值时间[公式:见正文]是一个决定性的参数,它确定了“小时间”子域[公式:参见正文]和“大时间”子域之间的边界线,“大时间“子域[公式,见正文]包括整个无量纲时域[公式,参见正文]。基于回归分析,在无量纲“小时间”子域内,构建了无量纲表面温度随无量纲时间变化的紧致渐近线[公式:见正文]。最后,与无量纲时间子域有效的无量纲精确分析表面温度分布(基线解)一致[公式:见正文]。被认为质量上乘。
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来源期刊
CiteScore
3.00
自引率
28.60%
发文量
13
期刊介绍: The International Journal of Mechanical Engineering Education is aimed at teachers and trainers of mechanical engineering students in higher education and focuses on the discussion of the principles and practices of training professional, technical and mechanical engineers and those in related fields. It encourages articles about new experimental methods, and laboratory techniques, and includes book reviews and highlights of recent articles in this field.
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