CFD Flocculation Tank 3D Simulation Goals
Spring 2009 Members
Spring 2009 Goals
- Validation of CFD models in terms of energy dissipation map: compare different turbulence models and with experimental data, and generate a reliable energy dissipation map
- Further work with 3D k-epsilon realizable turbulence model
- Solve the puzzle of different predictions from 2D and periodic 3D models
- Run simulation on SGI servers
- Check grid convergence of 3D models with different meshes and the sensitivity of the solutions to other parameters
- Run simulations with Reynolds Stress Model
- Start from 2D simulation, with default parameter settings
- Check grid convergence and the sensitivity of the solutions to other parameters
- Compare model performance(time,convergence, etc.) with other models
- Case and literature research
- Literature research on turbulence models
- Literature research on similar simulation cases
- Literature research on experimental data of similar flows
- Compare with and analyze similar simulation cases and experimental data of similar flows
- Further work with 3D k-epsilon realizable turbulence model
- Data analysis, interpretation, geometry variation and design recommendation
- Dimensional analysis and statistical analysis of the performance parameters with UDFs
- Automate mesh generation procedure for vary the geometry
- Investigate various dimensions and detailed designs to give recommendations
Gantt chart
Task |
Completion Date |
---|---|
Solve the puzzle of different predictions from 2D and periodic 3D models |
2/13 |
Finer mesh |
2/13 |
Run simulation on SGI servers |
2/13 |
Run simulations with Reynolds Stress Model - preliminaries |
2/13 |
Check grid convergence of 3D models and the sensitivity of the solutions to other parameters |
2/20 |
Run simulations with Reynolds Stress Model - Check grid convergence and the sensitivity of the solutions to other parameters |
2/20 |
Start to write UDFs in 3D models for parameter analysis |
2/20 |
Literature research on similar simulation cases |
2/20 |
Run simulations with Reynolds Stress Model - Compare model performance(time,convergence, etc.) with other models |
2/27 |
Literature research on experimental data of similar flows |
2/27 |
Compare different turbulence model with experimental data |
2/27 |
Literature research on turbulence models |
3/5 |
Finalize the choice of turbulence model |
3/5 |
Write up Mid-term results |
3/8 |
Model flocculator in a larger scale (more turnings) |
4/3 |
Explore the different geometric space |
4/10 |
Read up literature on flocculator geometry |
4/17 |
Create a model for optimal geometry |
4/24 |
Complete Rough draft for Final Report |
5/2 |
Final Report Due |
5/6 |