Mathematical Modeling and Numerical Simulation of Coupled Mass Transfer and Mechanical Processes in Ceramic Ware at Industrial Drying

Universal Journal of Mechanical Engineering Pub Date : 2019-07-01 DOI:10.13189/UJME.2019.070412

N. Penkova, Petar Chervenliev, B. Mladenov, K. Krumov

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Abstract

An algorithm for numerical simulation of transient moisture content fields and mechanical processes in ceramic ware at drying in industrial aggregates is developed. It is based on mathematical models of the mass transfer and mechanical behavior in the ceramic bodies, data for the drying regime and physical properties of the material as function of water content. The models allow variations of the drying conditions in order to choice the most efficient regime at existing or design dryers. The algorithm is applied for a direct coupled finite element analysis of wet bricks behavior in continuous working drying installation. The shrinkage mode, modulus of elasticity, Poisson ratio, modulus of rupture, effective mass transfer coefficient and critical moisture content are determined by experimental tests of the material. They are used to simulate numerically three-dimensional moisture, stress and strain fields in ceramic bodies at the existing drying regime. Ways for improvement of the models and their application for estimation of the potential for energy savings in industrial dryers are discussed.

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陶瓷干燥过程中传质与力学耦合过程的数学建模与数值模拟

提出了一种工业集料干燥过程中陶瓷瞬态含水率场和力学过程的数值模拟算法。它是基于陶瓷体的传质和力学行为的数学模型，干燥制度的数据和材料的物理性质作为含水量的函数。该模型允许干燥条件的变化，以选择在现有或设计干燥机最有效的制度。将该算法应用于连续工作干燥装置中湿砖性能的直接耦合有限元分析。通过试验测试确定了材料的收缩模式、弹性模量、泊松比、断裂模量、有效传质系数和临界含水率。它们用于模拟现有干燥条件下陶瓷体的三维水分、应力和应变场。讨论了改进模型的方法及其在工业干燥机节能潜力估计中的应用。

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Universal Journal of Mechanical Engineering

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