| GALLERY |
Choose gallery below to jump to the specific location:
| GRIDS | Viewing grids used in the simulation |
| Single Phase Flow Patterns | Viewing result of simulation of Single Phase Flow Patterns |
| Algebraic Slip Mixture | Viewing result of simulation gas liquid using Algebraic Slip Mixture |
| Discrete Phase Modelling | Viewing particles track solved by Discrete Phase Modelling |
| COMPARISON WITH EXPERIMENTS DATA OR OTHER SIMULATION | no comment! |
| Conclusion | Well, this is the conclusion i can resume |
| BACKGROUNDS | ADVISORS | CONTACT | METHODS |
| GRIDS |
Actually, grid density has an impact of the calculation result, but in this simulation, I used grid density as is without checking grid dependencies
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| this picture shows the grids used for impeller boundary condition simulation. This is about 380.000 cells and using 12 hours computational time to solve single phase, whilst 24 hours for Algebraic Slip Mixture methods |
| the picture above shows grid around impeller blades for simulation using MULTIPLE REFERENCES FRAME. This is about 280.000 cells and need 10 hours computational time for single phase and about 20 hours of Algebraic Slip Mixture. Look out of the grid differences between interfaces!. |