Flow Simulation in a 2D Bubble Column with the Euler-lagrange and Euler-euler Method

A. Weber, H. Bart
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引用次数: 11

Abstract

Bubbly flows, as present in bubble column reactors, can be simulated using a variety of simulation techniques. In order to gain high resolution CFD methods are used to simulate a pseudo 2D bubble column using EL and EE techniques. The forces on bubble dynamics are solved within open access software OpenFOAM with bubble interactions computed via Monte Carlo methods. The estimated bubble size distribution and the predicted hold-up are compared to experimental data and other simulative work using EE approach and show reasonable consensus for both. Benchmarks with state of the art EE simulations shows that the EL approach is advantageous if the bubble number stays at a certain level, as the EL approach scales linearly with the number of bubbles simulated. Therefore, different computational meshes have been used to also account for influence of the resolution quality. The EL approach indicated faster solution for all realistic cases, only deliberate decrease of coalescence rates could push CPU time to the limits. Critical bubble number - when EE becomes advantageous over the EL approach - was estimated to be 40.000 in this particular case.
用欧拉-拉格朗日和欧拉-欧拉方法模拟二维气泡柱内流动
泡塔反应器中的气泡流动可以用多种模拟技术进行模拟。为了获得高分辨率,采用CFD方法,利用EL和EE技术模拟了一个伪二维气泡柱。在开放存取软件OpenFOAM中求解气泡动力学力,并通过蒙特卡罗方法计算气泡相互作用。将估计的气泡大小分布和预测的占空率与实验数据和使用EE方法的其他模拟工作进行了比较,并显示了两者的合理一致性。使用最先进的EE模拟的基准测试表明,如果气泡数量保持在一定水平,EL方法是有利的,因为EL方法随着模拟的气泡数量线性扩展。因此,采用不同的计算网格来考虑分辨率质量的影响。EL方法对所有实际情况都有更快的解决方案,只有故意降低合并率才能将CPU时间推到极限。在这种特殊情况下,临界气泡数——当EE比EL方法更有利时——估计为40000。
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