Offshore Hydromechanics D1 Delft University of Technology

OE4630 D1. Master Offshore and Dredging Engineering. Learning Objectives:
- To apply linear wave theory and to derive and apply potential flow theory to linear waves.
- To describe wave shoaling, reflection and diffraction.
- To describe basic nonlinear corrections to linear wave theory.
- To perform simple statistical analysis to irregular wave trains.
- To apply the concept of wave energy spectra and the relation between the time and the frequency domains.
- To describe wave climatology and wave prediction.

OE4630 D1. Master Offshore and Dredging Engineering. Learning objectives:
- To understand basic real flow concepts, flow regimes in real flows, vortex induced vibrations.
- Understand the concepts of lift and drag in real and in potential flows.
- To apply scaling laws to analyze hydromechanic model experiments.
- To understand the concept of ship resistance and resistance components.
- To perform basic computations on wind and current loads on floating structures.
- To understand the basic concepts of ship propulsion.

OE4630 D1. Master Offshore and Dredging Engineering. Learning objectives:
- To understand basic real flow concepts, flow regimes in real flows, vortex induced vibrations.
- To apply scaling laws to analyse hydromechanic model experiments.
- Understand the concepts of lift and drag in real and in potential flows.
- To perform basic computations on wind and current loads on floating structures.
- To understand the concept of ship resistance and resistance components.
- To understand the basic concepts of ship propulsion.

OE4630 D1. Master Offshore and Dredging Engineering. Learning objectives:
- Understand the basic principles behind potential flow.
- To schematically model flows applying basic potential flow elements and the superposition principle.
- To perform basic flow computations applying potential flow theory.

OE4630 D1. Master Offshore and Dredging Engineering. Learning objectives:
- Understand the basic principles behind potential flow.
- To schematically model flows applying basic potential flow elements and the superposition principle.
- To perform basic flow computations applying potential flow theory.

OE4630 D1. Master Offshore and Dredging Engineering. To carry out and analyse hydrostatic and floating stability computations at a superior knowledge level, including the effect of shifting loads and fluids in partially filled tanks.