Pressure Drop Simulation of Structured Corrugation Foam Packing by Computational Fluid Dynamics

Cong H.; Wang C.; Gao X.; Li X.; Li H.; Pavlenko A. N.

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Pressure Drop Simulation of Structured Corrugation Foam Packing by Computational Fluid Dynamics

机译：基于计算流体力学的结构波纹泡沫盘根压降模拟

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Pressure drop is proved to be an important parameter influencing the capacity of both structured packing towers and catalytic reactors. A computational fluid dynamic method is proposed to predict the pressure losses within the newly developed foam SiC ceramic structured packing. The present work simulates the flow pattern in a macrostructure model and the typical REU mechanisms, and further studies the effect of corrugation angle on pressure drop. A comparison between simulation results and experimental data of our previous work is given to validate the models. A large corrugation angle, such as 60 degrees, could minimize the pressure losses.

机译：事实证明，压降是影响结构化填料塔和催化反应器容量的重要参数。提出了一种计算流体动力学方法来预测新开发的泡沫SiC陶瓷结构填料内部的压力损失。本工作在宏观结构模型和典型的REU机理中模拟了流动模式，并进一步研究了波纹角对压降的影响。通过仿真结果和我们先前工作的实验数据进行比较，以验证模型。大的波纹角（例如60度）可以使压力损失最小化。

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《Journal of engineering thermophysics》 |2016年第3期|共13页
作者
Cong H.; Wang C.; Gao X.; Li X.; Li H.; Pavlenko A. N.;
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正文语种 eng
中图分类热力工程、热机;
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1. Pressure Drop Simulation of Structured Corrugation Foam Packing by Computational Fluid Dynamics [J] . Cong H., Wang C., Gao X., Journal of engineering thermophysics . 2016,第3期

机译：基于计算流体力学的结构波纹泡沫盘根压降模拟
2. Computational fluid dynamics studies of dry and wet pressure drops in structured packings [J] . Seyyed Hossein Hosseini, Saeed Shojaee, Goodarz Ahmadi Journal of industrial and engineering chemistry . 2012,第4期

机译：结构填料中干，湿压降的计算流体动力学研究
3. Effect of particle-particle interaction on the bed pressure drop and bubble flow by computational particle-fluid dynamics simulation of bubbling fluidized beds with shroud nozzle [J] . Lim Jong-Hun, Bae Keon, Shin Jea-Ho, Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems . 2016,第Null期

机译：带有罩式喷嘴的鼓泡流化床的颗粒-流体动力学模拟，颗粒间相互作用对床压降和气泡流动的影响
4. Tailoring the pressure drop of structured packings through CFD simulations [C] . Catalin Florin Petre, Faiecal Larachi, Ion Iliuta, Massachusetts Institute of Technology(MIT) Conference on Computational Fluid and Solid Mechanics 2003 v.1; 20030617-20030620; Cambridge,MA; US . 2003

机译：通过CFD模拟量身定制规整填料的压降
5. A reduced chemical kinetic mechanism for computational fluid dynamics simulations of high brake mean effective pressure, lean-burn natural gas engines. [D] . Martinez Morett, David. 2012

机译：用于高制动平均有效压力，稀薄燃烧天然气发动机的计算流体动力学模拟的简化化学动力学机制。
6. Fluid–structure interaction simulations outperform computational fluid dynamics in the description of thoracic aorta haemodynamics and in the differentiation of progressive dilation in Marfan syndrome patients [O] . R. Pons, A. Guala, J. F. Rodríguez-Palomares, 2020

机译：在描述Marfan综合征患者的胸主动脉血流动力学和进行性扩张方面流固耦合模拟优于计算流体动力学。
7. Erratum to: “Structure optimization of structured corrugation foam packing by computational fluid dynamics method” [O] . H. Cong, C. Wang, H. Li, 2016

机译：错误：“计算流体动力学方法”结构化瓦楞泡沫包装的结构优化“

Pressure Drop Simulation of Structured Corrugation Foam Packing by Computational Fluid Dynamics

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