CFD Modeling of Solid Suspension in a Stirred Tank: Effect of Drag Models and Turbulent Dispersion on Cloud Height

Shitanshu Gohel; Shitalkumar Joshi; Mohammed Azhar

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CFD Modeling of Solid Suspension in a Stirred Tank: Effect of Drag Models and Turbulent Dispersion on Cloud Height

机译：搅拌罐中固体悬浮液的CFD建模：阻力模型和湍流扩散对云层高度的影响

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Many chemical engineering processes involve the suspension of solid particles in a liquid. In dense systems, agitation leads to the formation of a clear liquid layer above a solid cloud. Cloud height, defined as the location of the clear liquid interface, is a critical measure of process performance. In this study, solid-liquid mixing experiments were conducted and cloud height was measured as a function operating conditions and stirred tank configuration. Computational fluid dynamics simulations were then performed using an Eulerian-Granular multiphase model. The effects of hindered and unhindered drag models and turbulent dispersion force on cloud height were investigated. A comparison of the experimental and computational data showed excellent agreement over the full range of conditions tested.

机译：许多化学工程过程涉及将固体颗粒悬浮在液体中。在稠密的系统中，搅拌会导致在固态云层上方形成透明的液体层。云的高度定义为透明液体界面的位置，是衡量过程性能的关键指标。在这项研究中，进行了固液混合实验，并根据操作条件和搅拌釜配置对云的高度进行了测量。然后使用欧拉-颗粒多相模型进行计算流体动力学模拟。研究了受阻和无阻阻力模型以及湍流分散力对云层高度的影响。实验数据和计算数据的比较表明，在所测试的所有条件下均具有极好的一致性。

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《International journal of chemical engineering》 |2012年第null期|共10页
作者
Shitanshu Gohel; Shitalkumar Joshi; Mohammed Azhar;
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1. CFD Modeling of Solid Suspension in a Stirred Tank: Effect of Drag Models and Turbulent Dispersion on Cloud Height [J] . Shitanshu Gohel, Shitalkumar Joshi, Mohammed Azhar International journal of chemical engineering . 2012,第Null期

机译：搅拌罐中固体悬浮液的CFD建模：阻力模型和湍流扩散对云层高度的影响
2. Hysteresis in Cloud Heights During Solid Suspension in Stirred Tank Reactor:Experiments and CFD Simulations [J] . Madhavi V. Sardeshpande, Vinay A. Juvekar, Vivek V. Ranade AIChE Journal . 2010,第11期

机译：搅拌釜反应器中固体悬浮过程中云层高度的滞后：实验和CFD模拟
3. Hysteresis in cloud heights during solid suspension in stirred tank reactor: Experiments and CFD simulations [J] . Madhavi V. Sardeshpande, Vinay A. Juvekar, Vivek V. Ranade AIChE Journal . 2010,第11期

机译：搅拌釜反应器中固体悬浮过程中云层高度的滞后：实验和CFD模拟
4. Solid Suspension in Stirred Tank Reactor: Hysteresis in Cloud Height and Solid Velocity Profiles by UVP and CFD Simulation [C] . Madhavi V. Sardeshpande, Vivek V. Ranade American Institute of Chemical Engineers Annual Meeting . 2007

机译：搅拌釜反应器中的固体悬浮液：UVP和CFD仿真云高度和固体速度谱中的滞后
5. Suspension of Mixtures of Solids in Stirred Tanks: Problem Definition and Model Identification. [D] . Ayranci, Inci. 2012

机译：搅拌罐中固体混合物的悬浮液：问题定义和模型识别。
6. The influence of agitation on oil substrate dispersion and oxygen transfer in Pseudomonas aeruginosa USM-AR2 fermentation producing rhamnolipid in a stirred tank bioreactor [O] . M. N. Nur Asshifa, Nor Syafirah Zambry, M. S. Salwa, 2017

机译：搅拌对铜绿假单胞菌USM-AR2发酵罐生物反应器中鼠李糖脂发酵过程中油底物分散和氧转移的影响
7. Influence of drag and turbulence modelling on CFD predictions of solid liquid suspensions in stirred vessels [O] . Tamburini A, Cipollina A, Micale G, 2014

机译：阻力和湍流模型对搅拌容器中固体悬浮液CFD预测的影响
8. Coalescence/Dispersion Modeling of Turbulent Combustion in a Jet Stirred Reactor [R] . Butler, G. W., Pratt, D. T., Malte, P. C. 1984

机译：喷射搅拌反应器中湍流燃烧的聚结/分散模型

CFD Modeling of Solid Suspension in a Stirred Tank: Effect of Drag Models and Turbulent Dispersion on Cloud Height

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