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CFD Simulation of the Bubbling and Slugging Gas-Solid Fluidized Beds

机译:气固气固流化床的鼓泡和污渍流化床的CFD模拟

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A two-dimensional transient Eulerian model integrating the kinetic theory for emulsion phase is used to simulate the bubbling and slugging gas-solid fluidized beds, including the Geldart B and D particles, respectively. CFD results show that utilizing an algebraic granular temperature equation, instead of a full granular temperature, one leads to a significant reduction in computational time without loosing accuracy. Different drag models have been examined in the current study. CFD results show that the Syamlal-O'Brien and Di Felice adjusted drag models, based on minimum fluidization velocity, are not suitable for the bed, including coarse particles (Geldart group B). The Gidaspow drag model displays better results in comparison with the others. A good agreement with the available experimental data and the researcher's findings has been reached quantitatively and qualitatively. The proposed model can reasonably be used for simulation of slugging fluidized beds. This study reduces the computational error compared with the previous works.
机译:采用二维瞬态欧拉模型,结合乳液相动力学理论,分别模拟了气固流化床的鼓泡和流固流化床,包括Geldart B和D颗粒。CFD 结果表明,使用代数粒度温度方程而不是全粒度温度方程,可以在不损失精度的情况下显着缩短计算时间。在目前的研究中已经检查了不同的阻力模型。CFD结果表明,基于最小流化速度的Syamlal-O'Brien和Di Felice调整的阻力模型不适用于床层,包括粗颗粒(Geldart B组)。与其他模型相比,Gidaspow 拖曳模型显示更好的结果。在定量和定性上与现有的实验数据和研究人员的发现达成了良好的一致性。该模型可以合理地用于泥浆流化床的模拟。与以往的工作相比,本研究减少了计算误差。

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