斯里兰卡高岭土干燥特性的数值模拟

J. Jayaweera, M. Narayana, S. Adikary
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引用次数: 0

摘要

绿色陶瓷体的干燥过程由于传热传质同时发生和耦合而变得复杂。如果干燥条件控制不当,在干燥过程中陶瓷体内发生的尺寸变化和机械应力可能会在最终产品中产生缺陷。本文对斯里兰卡高岭土的干燥特性进行了研究。首先,利用湿化学分析和x射线衍射来研究高岭土的结构和组成。采用湿法球磨法制备了两批不同粒径分布的高岭土,平均粒径(D50)分别为$4.07\ \mu\ mathm {m}$和$3.57\ \mu\ mathm {m}$。采用挤压法制备了绿色陶瓷样品。样品在60°C的烘箱中干燥,并测量绿色产品的水分随时间的变化。斯里兰卡高岭土的临界含水率为1.50%。建立了确定斯里兰卡高岭土干燥性能的数学关系。在计算流体力学(CFD)框架下建立了非定常三维(3D)模型并进行了仿真。将模型模拟结果与斯里兰卡高岭土试验数据进行了比较。模型结果经过验证,符合实验结果,R2值为0.9。
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Numerical Modeling of Drying Behavior of Sri Lankan Kaolin
Drying process of green ceramic bodies are complicated due to simultaneous and coupled heat and mass transfers. Dimensional variations and mechanical stresses occur within the ceramic body during drying may create defects in the final product if drying conditions are not carefully controlled. In this study, the drying behavior of Sri Lankan Kaolin was investigated. Initially, Kaolin was characterized using wet chemical analysis and X-ray diffraction to investigate structure and composition. Two batches of Kaolin with different particle size distributions were prepared using wet ball mill grinding with average particles size (D50) of $4.07\ \mu\mathrm{m}$ and $3.57\ \mu\mathrm{m}$ respectively. Green ceramic samples were obtained using extrusion process. Samples were dried in oven at 60°C and moisture variation of the green product was measured with time. Critical moisture content of the Sri Lankan Kaolin was 1.50%. Mathematical relationship was formulated to determine drying behavior of Sri Lankan Kaolin. An unsteady three-dimensional (3D) model was developed and simulated in Computational Fluid Dynamics (CFD) framework. Simulation results developed by the model were compared with data obtained by experiments conducted using Sri Lankan Kaolin. The model results were validated and comply with experiments results and R2 value was 0.9.
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