1. |
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Lecture 1 |
Overview |
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Lecture 2 |
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2. |
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Lecture 3 |
Numerical schemes for solving the incompressible Navier-Stokes equation |
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Lecture 4 |
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3. |
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Lecture 5 |
Spatial discretization and numerical fluxes |
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Lecture 6 |
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4. |
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Lecture 7 |
Pressure solution of incompressible flow with free surface |
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5. |
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Lecture 8 |
Free surface boundary conditions |
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Lecture 9 |
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6. |
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Lecture 10 |
Model of ocean waves |
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Lecture 11 |
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7. |
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Lecture12 |
Model for high Reynolds number turbulent flow around a ship |
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Lecture13 |
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8. |
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Lecture14 |
Treatment of ship motion and deformation of hull surface boundary |
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Lecture15 |
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9. |
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Lecture16 |
Equation of motion and hydrodynamic forces on floating body |
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Lecture17 |
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10. |
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Lecture18 |
Models of cavitation, surface tension and wind shear |
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Lecture19 |
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11. |
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Lecture20 |
Other numerical methods for ship hydrodynamics (potential, particle methods) |
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Lecture21 |
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12. |
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Lecture22 |
Visualization and validation by water tank experiments |
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Lecture23 |
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13. |
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Lecture24 |
Meshing for ship geometry, Parallel computation, Open source applications |
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Lecture25 |
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14. |
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Lecture26 |
Application examples in ocean engineering and naval architecture |
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Lecture27 |
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