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Computational Flow Dynamics of Complex Fluids: Simulation Techniques, Concepts and Analysis Amir Shakib-manesh
Computational Flow Dynamics of Complex Fluids: Simulation Techniques, Concepts and Analysis
Amir Shakib-manesh
In this work several multiphase flow problems with complex boundaries are numerically analyzed: The long-time diffusion coefficient and flow transition in the shear flow of inelastic, rough, hard granular spheres is analyzed by molecular dynamics simulations. Two-phase lattice-Boltzmann method is verified for modelling of the capillary rise Phenomenon and analyzed for related parameters such as dynamic contact angle and the capillary number. The lattice-Boltzmann code is also used to analyze the rheology of liquid-particle suspensions; the dependence of the viscosity of the suspension on the concentration of particles and shear rate in a Couette flow geometry. Finally the low Reynolds number channel flow of liquid-particle suspensions is studied, in which suspended particles that can attach on channel walls or detached. Phase transitions are observed such as first order like transition to a meandering phase. The meandering phase is followed by a necking phase and finally a transition to a fully blocked flow channel takes place. A well known phenomenon is the formation of blood cholesterol clogs in heart coronary arteries that can lead to heart attack (myocardial infarction).
| Medios de comunicación | Libros Paperback Book (Libro con tapa blanda y lomo encolado) |
| Publicado | 14 de marzo de 2011 |
| ISBN13 | 9783838368719 |
| Editores | LAP LAMBERT Academic Publishing |
| Páginas | 84 |
| Dimensiones | 226 × 5 × 150 mm · 143 g |
| Lengua | Alemán |
Ver todo de Amir Shakib-manesh ( Ej. Paperback Book )