| Application of the Contour Line Method for Estimating Extreme Responses in the Mooring Lines of a Two-Body Floating Wave Energy Converter |
Muliawan, M., Gao, Z., Moan, T. |
|
Journal Article |
Wave |
Modeling |
Mooring |
| Extreme responses of a combined spar-type floating wind turbine and floating wave energy converter (STC) system with survival modes |
Muliawan, M., Karimirad, M., Gao, Z. |
|
Journal Article |
Wave |
Modeling |
Hybrid Devices |
| Analysis of a Two-Body Floating Wave Energy Converter With Particular Focus on the Effects of Power Take-Off and Mooring Systems on Energy Capture |
Muliawan, M., Gao, Z., Moan, T. |
|
Journal Article |
Wave |
Modeling |
Mooring, Power Take Off |
| Dynamic response and power performance of a combined Spar-type floating wind turbine and coaxial floating wave energy converter |
Muliawan, M., Karimirad, M., Moan, T. |
|
Journal Article |
Wave |
|
Hybrid Devices |
| Comparison of Mooring Loads in Survivability Mode on the Wave Dragon Wave Energy Converter Obtained by a Numerical Model and Experimental Data |
Parmeggiani, S., Muliawan, M., Gao, Z. |
|
Conference Paper |
Wave, Overtopping |
Modeling |
Hydrodynamics, Mooring |
| Numerical Benchmarking Study of a Selection of Wave Energy Converters |
Babarit, A., Hal, J., Muliawan, M. |
|
Journal Article |
Wave, Point Absorber, Oscillating Water Column, Oscillating Wave Surge Converter |
|
Power Take Off |
| The NumWEC project. Numerical estimation of energy delivery from a selection of wave energy converters – final report |
Babarit, A., Hals, J., Kurniawan, A. |
|
Report |
Wave |
Modeling |
Performance |
