| Stability-constrained multi-fluid CFD models for gas-liquid flow in bubble columns | |
Xiao, Q. ; Xiao, Q.; Xiao, Q.
| |
| 2013 | |
| 会议名称 | 11th International Conference on Gas-Liquid and Gas-Liquid-Solid Reactor Engineering (GLS) Held in Conjunction with 9th World Congress on Chemical Engineering (WCCE) / Asian Pacific Conference on Chemical Engineering (APCChE) |
| 会议日期 | AUG 19-22, 2013 |
| 会议地点 | Seoul, SOUTH KOREA |
| 关键词 | CFD simulation Bubble columns Meso-scale Multi-scale Multiphase flow Hydrodynamics REGIME TRANSITIONS NUMERICAL-SIMULATION DRAG COEFFICIENT EMMS APPROACH SIZE MODEL SCALE-UP REACTORS VELOCITY COALESCENCE TURBULENCE |
| 其他题名 | Chem. Eng. Sci. |
| 页码 | 279-292 |
| 中文摘要 | We have proposed a Dual-Bubble-Size (DBS) model featuring a stability condition describing the compromise of two dominant mechanisms, and then a stability-constrained multi-fluid model (SCMFA) integrating the DBS model into CFD simulation. This work further validates the model and extends to much higher flow rate, and then tentatively proposes a new model termed SCMF-B. It solves the conservative equations for a dense phase composed of small bubbles and liquid and a dilute phase involving large bubbles. The DBS model supplies the structure parameters of the two bubble classes such as the gas volume fraction of small bubbles, the ratio of drag coefficient to bubble diameter for large bubbles and the superficial gas velocity of large bubbles to close the SCMF-B model. A thorough comparison indicates that without any fitting parameters, the SCMF models are superior to the two-fluid model (TFM) with empirical drag correlations in the prediction of overall gas holdup, radial profile of gas holdup and liquid flow field over a wide range of operating gas velocities. By comparison, each SCMF model has its strength and weakness at different flow conditions. SCMF-B can better reproduce the plateau of overall gas holdup as a function of gas flow rate, and the relative error of radial profile of gas holdup is the smallest among all the models at relatively higher flow rate. SCMF-A is better for the lower and much higher gas flow rates. We also design a special and step-by-step strategy to ascertain the evolution from SCMF-A to SCMF-B. We find that the physical properties, flow rate and drag coefficient of different bubble classes have respective functions in the model evolution and only their synergistic effects could generate reasonable prediction. This suggests that the definition of two "fluids" in the SCMF-B in terms of the differences in dense and dilute phases, rather than the thermal physical properties, is reasonable only when all the above "external" and "internal" factors are taken into account. (C) 2013 Elsevier Ltd. All rights reserved. |
| 收录类别 | CPCI |
| 会议网址 | |
| 会议录 | Chemical Engineering Science
 |
| 语种 | 英语 |
| 内容类型 | 会议论文 |
| 源URL | [http://ir.ipe.ac.cn/handle/122111/11257]  |
| 专题 | 过程工程研究所_研究所(批量导入) |
| 推荐引用方式 GB/T 7714 |
Xiao, Q.,Xiao, Q.,Xiao, Q.. Stability-constrained multi-fluid CFD models for gas-liquid flow in bubble columns[C]. 见:11th International Conference on Gas-Liquid and Gas-Liquid-Solid Reactor Engineering (GLS) Held in Conjunction with 9th World Congress on Chemical Engineering (WCCE) / Asian Pacific Conference on Chemical Engineering (APCChE). Seoul, SOUTH KOREA. AUG 19-22, 2013. |
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