GLY-5835: Introduction to Lattice Boltzmann Methods

Mike Sukop/FIU

Syllabus  (200 KB PDF)

Content, Objectives, Format, Schedule, Miscellaneous Presentation (600 KB PPT)
Atomic Theory Roots and Ludwig Boltzmann (600 KB PPT)
Basic MATLAB (500 KB PPT)

                     read_dat.m (1 KB m)

                     read_dat_gravity.m (experimental)(1 KB m)

Basic Fluid Dynamics (6,500 KB PPT)
Cellular Automata and Lattice Gas Cellular Automata (450 KB PPT)

                    Notes on Lgapack (200 KB PDF)

                    Lgapack fhp6_simp.c file (11 KB C code/text)

Kinetic Theory (1,300 KB PPT)
Boltzmann Gas and LBM (300 KB PPT)
Building an LBM Model (100 KB PPT)

                    Short, simple LBM code in MATLAB (6 KB m)

                    Short, simple LBM code in FORTRAN (7 KB f)

Pressure and Velocity Boundary Conditions (200 KB PPT)
Complex Geometries and Higher Reynolds Numbers (1,200 KB PPT)
Multiphase Lattice Boltzmann Models (7,900 KB PPT)
Cavitation with Single Component Multiphase Lattice Boltzmann Models (13,000 KB PPT)
Surface Adhesion (Wetting) with Single Component Multiphase Lattice Boltzmann Models (7,000 KB PPT)
Midterm Review (12,500 KB PPT)
Multicomponent Multiphase Lattice Boltzmann Models (6,000 KB PPT)
Miscible Multicomponent Lattice Boltzmann Models: Solute/Heat Transport (21,400 KB PPT)
Lattice Boltzmann Models of Porous Media (3,667 KB PPT)
Final Review (27,000 KB PPT)
 

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This material is based upon work supported by the National Science Foundation under Grant No. 0440253.

Any opinions, findings and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation (NSF).