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Numerical simulation of the sedimentation of a tripole-like body in an incompressible viscous fluid

✍ Scribed by L.H. Juárez; R. Glowinski; B.M. Pettitt

Publisher
Elsevier Science
Year
2002
Tongue
English
Weight
514 KB
Volume
15
Category
Article
ISSN
0893-9659

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✦ Synopsis

this note, we discuss the application of a methodology combining distributed Lagrange multiplier based fictitious domain techniques, finite-element approximations and operator splitting, to the numerical simulation of the motion of a tripole-like rigid body falling in a Newtonian incompressible viscous fluid. The motion of the body is driven by the hydrodynamical forces and gravity. The numerical simulation shows that the distribution of mass of this rigid body and added moment of inertia compared to a simple cylinder (circular or elliptic) plays a significant role on the particle-fluid interaction.

Apparently, for the parameters examined, the action of the moving rigid body on the fluid is stronger than the hydrodynamic forces acting on the rigid body.

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Numerical simulation of the sedimentation of an elliptic body in an incompressible viscous fluid
✍ L.Héctor Juárez V. 📂 Article 📅 2001 🏛 Elsevier Science 🌐 French ⚖ 164 KB

In this note we discuss the application of a methodology combining distributed Lagrange multiplier based fictitious domain techniques, finite element approximations and operator splitting, to the numerical simulation of the motion of an elliptic body falling in a Newtonian incompressible viscous flu