03793nam 2200541 450 991080802680332120230803195426.03-95489-671-0(CKB)2670000000534299(EBL)1640291(SSID)ssj0001215537(PQKBManifestationID)11647611(PQKBTitleCode)TC0001215537(PQKBWorkID)11178430(PQKB)11411185(MiAaPQ)EBC1640291(Au-PeEL)EBL1640291(CaPaEBR)ebr10856533(OCoLC)871859385(EXLCZ)99267000000053429920140419h20142014 uy 0engur|n|---|||||txtccrCfd simulations of particle laden flows particle transport and separation /David SchellanderHamburg, Germany :Anchor Academic Publishing,2014.©20141 online resource (153 p.)Description based upon print version of record.3-95489-171-9 Includes bibliographical references.CFD simulations of particle laden flows; Preface; Abstract; Contents; Abbreviations; Chapter 1: Introduction and motivation; 1.1 Numerical simulation of particle-laden flow; 1.2 Aim of this work; 1.3 Organization of this book; Chapter 2: Eulerian granular phase modelling; 2.1 Continuity equation; 2.2 Moment balance; 2.3 Granular temperature; 2.4 Radial distribution function; 2.5 Drag coefficient and interphase momentum exchange; 2.6 Solids Stresses; 2.7 Turbulence modelling; 2.8 Boundary Conditions; Chapter 3: Lagrangian discrete phase modelling; 3.1 Force balance and torque balance3.2 Forces on a particle3.3 Torque; 3.4 Turbulent fluctuations; 3.5 Particle wall collisions; Chapter 4: The hybrid model EUgran+Poly; 4.1 Motivation and overview; 4.2 Coupling and exchange forces; 4.3 Coupling forces on the Eulerian granular phase; 4.4 Coupling forces on the Lagrangian tracer particles; 4.5 Simulation sequence and implementation; Chapter: Agglomeration; 5.1 Simple models; 5.2 Particle population balance equation; 5.3 Bus stop model; 5.4 Volume population balance model; Chapter 6: Validation by lab-scale experiments; 6.1 Dilute poly-dispersed flow in a duct6.2 Mono-dispersed flow in a medium laden duct6.3 Agglomeration of poly-dispersed particulate flow in a vertical pipe; Chapter 7: Application to cyclone seperation; 7.2 Hybrid Model; 7.2 Agglomeration; Chapter 8: Conclusion and Outlook; A: Restitution coefficients are no constants; B: Computation of Lagrangian particle-wall collision; C: UDF Structure of hybrid model; D: Cyclone dimensions based on Muschelknautz theory; E: Nomenclature; List of Figures; List of Tables; BibliographyThis study presents the basic models for discrete and continuous particle laden flow simulation. An overview of the two main approaches, the Lagrangian discrete particle model and the Eulerian granular phase model is given. Moreover these two approaches are combined to a hybrid model to use the benefits of the discrete and continuous description. This safes computational time and increase the efficiency of particle laden flow simulations. Furthermore the models are extended to poly-disperse particles including a simple agglomeration model based on a population balance equation. Finally the usaFluid mechanicsCongressesFluid mechanics620.106Schellander David1701738MiAaPQMiAaPQMiAaPQBOOK9910808026803321Cfd simulations of particle laden flows4085717UNINA