Direct numerical simulation of pattern formation in a rotating suspension of non-Brownian settling particles in a fully filled cylinder

Tsorng-Whay Pan; Roland Glowinski; Suchung Hou

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Direct numerical simulation of pattern formation in a rotating suspension of non-Brownian settling particles in a fully filled cylinder

机译：在完全填充的圆柱体中非布朗沉降颗粒旋转悬浮液中图案形成的直接数值模拟

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In this article we have investigated the pattern formation of a rotating suspension of non-Brownian settling particles in incompressible Newtonian viscous fluids by direct numerical simulation. These phenomena are modeled by the Navier-Stokes equations coupled to the Euler-Newton equations describing rigid-solid motions. The numerical methodology relies on the combination of a finite element approximation with operator-splitting and Lagrange multiplier based fictitious domain methods allowing the flow calculations to take place in a fixed rectangular parallelepiped. We found the particles attract and expel each other all the time when rotating in a horizontal cylinder and the formation of clusters depends on the rotating speed.

机译：在本文中，我们通过直接数值模拟研究了非布朗沉降颗粒在不可压缩牛顿粘性流体中旋转悬浮液的模式形成。这些现象是通过将Navier-Stokes方程与描述刚性固体运动的Euler-Newton方程耦合来建模的。数值方法依赖于有限元逼近与算子分裂和基于拉格朗日乘子的虚拟域方法的组合，从而允许在固定的长方体中进行流量计算。我们发现，在水平圆柱体中旋转时，颗粒始终相互吸引和排出，而团簇的形成取决于旋转速度。

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来源
《Computers & Structures》 |2007年第14期|p.955-969|共15页
作者
Tsorng-Whay Pan; Roland Glowinski; Suchung Hou;
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作者单位

Department of Mathematics, University of Houston, Houston, TX 77204, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
关键词
particulate flow; rotating suspension; fictitious domain methods; finite element; operator-splitting; distributed lagrange multiplier;

机译：颗粒流旋转悬浮虚域法有限元算符分裂分布拉格朗日乘子;

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专利

1. Pattern formation in a rotating suspension of non-Brownian settling particles - art. no. 050301 [J] . Matson WR., Ackerson BJ., Tong P. Physical review, E. Statistical physics, plasmas, fluids, and related interdisciplinary topics . 2003,第5aPta1期

机译：非布朗沉降颗粒旋转悬浮液中的图案形成-艺术。没有。 050301
2. Radial patterns and velocity field of non-Brownian suspensions in a fully filled horizontal rotating cylinder [J] . Nasaba John C., Singh Anugrah Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan . 2020,第1期

机译：完全填充水平旋转缸中非布朗悬架的径向模式和速度场
3. Direct numerical simulations of inertial settling of non-Brownian particles [J] . Ali Abbas Zaidi, Takuya Tsuji, Toshitsugu Tanaka The Korean journal of chemical engineering . 2015,第4期

机译：非布朗粒子惯性沉降的直接数值模拟
4. Hindered Settling Velocity Structure formation during particle settling by Direct Numerical Simulation [C] . Ali Abbas Zaidi, Takuya Tsuji, Toshitsugu Tanaka World Congress on Particle Technology . 2015

机译：直接数值模拟粒子沉降期间阻碍沉降速度和结构形成
5. Pattern formation in a rotating suspension of non-Brownian settling particles. [D] . Matson, William Robert. 2005

机译：在非布朗沉降颗粒的旋转悬浮液中形成图案。
6. Effect of particle volume fraction on the settling velocity of volcanic ash particles: insights from joint experimental and numerical simulations [O] . Elisabetta Del Bello, Jacopo Taddeucci, Mattia de’ Michieli Vitturi, -1

机译：颗粒体积分数对火山灰颗粒沉降速度的影响：联合实验和数值模拟的启示
7. PATTERN FORMATION IN A ROTATING SUSPENSION OF NON-BROWNIAN SETTLING PARTICLES [O] . William Robert Matson, Dr. Penger Tong 2004

机译：非布朗沉降粒子旋转悬浮的模式形成

Direct numerical simulation of pattern formation in a rotating suspension of non-Brownian settling particles in a fully filled cylinder

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