Transient Heat Analysis in a Spherical Domain of Combustible Material

通讯和计算机:中英文版 Pub Date : 2016-04-28 DOI:10.17265/1548-7709/2016.04.002
R. Lebelo
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引用次数: 3

Abstract

Analysis of transient heat in a stockpile of combustible material modelled in a spherical domain is considered in this article. The sphere loses heat by convection to the atmosphere due to exothermic chemical reaction taking place in the reactive stockpile. The complicated chemical reaction taking place in this problem is tackled by assuming a one-step finite rate irreversible Arrhenius kinetics. The differential equation governing the problem is solved numerically by using the FDM (finite difference method) that is very essential for spatial derivatives discretization. The transient heat is analyzed for various thermo-physical parameters embedded in the system and the results are discussed accordingly.
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可燃材料球面瞬态热分析
本文考虑了可燃材料储存库中瞬态热的球形模型分析。由于在反应性储存中发生放热化学反应,球体通过对流向大气散失热量。在这个问题中发生的复杂化学反应是通过假设一步有限速率不可逆的阿伦尼乌斯动力学来解决的。利用有限差分法(FDM)对控制该问题的微分方程进行了数值求解,FDM是空间导数离散化的重要方法。对系统中嵌入的各种热物性参数进行了瞬态热分析,并对结果进行了讨论。
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通讯和计算机:中英文版
通讯和计算机:中英文版
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