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Content, Objectives, Format, Schedule, Miscellaneous. What this course is:. Basic flow modeling Basic multiphase modeling Solute transport models Porous media Buoyancy Comparisons with analytical solutions and observations Research-level: New Powerful Incomplete
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What this course is: • Basic flow modeling • Basic multiphase modeling • Solute transport models • Porous media • Buoyancy • Comparisons with analytical solutions and observations • Research-level: • New • Powerful • Incomplete • Jump start/research collaborations
Objectives • Knowledge/Skills • Conceptual understanding of LBM • Conceptual understanding of the various ‘flavors’ of multiphase LBM • Be able to use LBM for fluids problems • Understand and apply boundary and initial conditions to flow and transport problems • Applications are key
Format • Lectures • Basic theory • Computational aspects • Hands on • Manipulate program and data • Match analytical solutions and observations
Syllabus • http://www.fiu.edu/~sukopm/GLY5835/Syllabus_GLY5835.pdf
Mailing Lists • http://www.lstm.uni-erlangen.de/lbm/lb-methods/ • subscribe lb2d_prime in the message body to majordomo@fiu.edu
Software • LB2D_Prime • ‘Universal’ code • External control via input file • Integrated input/output • MATLAB interface • http://www.fiu.edu/~thorned/LB/Code/ • http://www.cygwin.com/
Research • Previous Emphasis • Single component multiphase (liquid and its vapor) • Soil physics (unsaturated porous media) applications • Current Directions • Solute-induced density dependent flow at aquifer scale(Seawater intrusion, ASR) • Solute transport • Karst • Fracture flow • Gravity effects on unsaturated liquid configurations and flow