Category:Ocean Wave Interaction with Ships and Offshore Structures
This is an introduction to the basic theory of ocean waves and their interaction with offshore structures. It focuses on the kinds of large scale waves which are important in Offshore Engineering.
The pages in this category are based on the MIT open courseware notes written by Paul Sclavounos. The can be read in order as a basic course on hydrodynamics.
1. Conservation Laws and Boundary Conditions
2. Linear and Second-Order Wave Theory
3. Linear Plane Progressive Regular Waves
4. Wave Energy Density and Flux
7. Translating Coordinate Systems
9. Linear Wave-Body Interaction
10. Added-Mass, Damping Coefficients And Exciting Forces
11. Long Wavelength Approximations
12. Wave Scattering By A Vertical Circular Cylinder
13. Forward-Speed Ship Wave Flows
14. Strip Theory Of Ship Motions. Heave & Pitch
15. Ship Roll-Sway-Yaw Motions
16. Derivative Seakeeping Quantities
17. Seakeeping In Random Waves
18. Solution of Wave-Body Flows, Green's Theorem
19. Rankine Intergral Equations For Ship Flows
20. Panel Methods
Pages in category "Ocean Wave Interaction with Ships and Offshore Structures"
The following 21 pages are in this category, out of 21 total.