| Title | Publication
Date | Publication
Name | Author(s) | Research
Area(s) | Keywords |
|---|
| A review of impact loads on composite wind turbine blades: Impact threats and classification (1) | 2023 | Renewable and Sustainable Energy Reviews | Verma, A. S.
Yan, J.
Hu, W.
Jiang, Z.
Shi, W.
Teuwen, J. E. | Offshore Wind & Coastal Resiliency | Floating Offshore Wind
Structural Testing
Wind Turbine Blades. |
| A Code-to-Code Comparison for Dynamic Modeling and Response Analysis of Offshore Wind Turbine Blade Mating Process (2) | 2023 | | Bhaskaran, S.
Verma, A. S.
Yuan, S.
Jiang, Z.
Halse, K. H. | Offshore Wind & Coastal Resiliency | Floating Offshore Wind |
| A review of impact loads on composite wind turbine blades: Impact threats and classification (2) | 2023 | | Verma, A. S.
Hu, W.
Teuwen, J. E.
Zhiyu, J. | Offshore Wind & Coastal Resiliency | Floating Offshore Wind
Structural Testing |
| Determination of minimum-cost synthetic mooring systems for large floating wind turbines deployed in intermediate water depths (2) | 2023 | Journal of Renewable and Sustainable Energy | West, W.
Goupee, A. J.
Hallowell, S.
Viselli, A. | Offshore Wind & Coastal Resiliency | 15-MW
Floating Offshore Wind
hybrid mooring systems |
| Improved control of floating offshore wind turbine motion by using phase-resolved wave reconstructionand forecast | 2023 | Proceedings of ISOPE 2023 | Albertson, S.
Gharankhanlou, M.
Steele, S. C.
Grilli, S. T.
Dahl, J. M.
Grilli, A. R.
Hashemi, R. M.
Alkarem, Y. R.
Huguenard, K. | Offshore Wind & Coastal Resiliency | DeepCLidar
Floating Offshore Wind
ICWM
improved nonlinear dispersive properties
linear wave theory
LWT
wave reconstruction and prediction
WRP |
| Determination Of Minimum-cost Synthetic Mooring Systems for Large Floating Wind Turbines Deployed in Intermediate Water Depths (1) | 2023 | Journal of Renewable and Sustainable Energy | West, W.
Goupee, A. J.
Hallowell, S.
Viselli, A. | Offshore Wind & Coastal Resiliency | Floating Offshore Wind
mooring systems |
| Verification and Validation of Model-Scale Turbine Performance and Control Strategies for the IEA Wind 15 MW Reference Wind Turbine (1) | 2022 | Energies | Mendoza, N.
Robertson, A.
Wright, A.
Jonkman, J.
Wang, L.
Nergua, R.
Ngo, T.
Das, T.
Odeh, M.
Mohsin, K.
Flavia, F. F.
Child, B.
Bangga, G.
Fowler, M.
Goupee, A. J.
Kimball, R.
Lenfest, E.
Viselli, A. | Offshore Wind & Coastal Resiliency | control co-design
EA wind 14 MW reference wind turbine
Floating Offshore Wind
model-scale turbine control |
| Verification and Validation of Model-Scale Turbine Performance and Control Strategies for the IEA Wind 15 MW Reference Wind Turbine (2) | 2022 | energies MDPI | Mendoza, N.
Robertson, A.
Wright, A.
Jonkman, J.
Wang, L.
Beruga
Ngo, T.
Das, T.
Odeh, M.
Mohsin, K.
Flavia, F. F.
Child, B.
Bangga, G.
Fowler, M.
Goupee, A. J.
Kimball, R.
Lenfest, E.
Viselli, A. | Offshore Wind & Coastal Resiliency | Floating Offshore Wind
model-scale turbine control
offshore wind turbine control |
| Wind turbine rotor speed design optimization considering rain erosion based on deep reinforcement learning (2) | 2022 | Renewable and Sustainable Energy Reviews | Fang, J.
Hu, W.
Liu, Z.
Chen, W.
Tan, J.
Jiang, Z.
Verma, A. S. | Offshore Wind & Coastal Resiliency | deep reinforcement learning
Floating Offshore Wind |
| A novel framework for modeling floating offshore wind turbines based on the vector form intrinsic finite element (VFIFE) method (1) | 2022 | Ocean Engineering | Zhang, Y.
Shi, W.
Li, D.
Li, X.
Duan, Y.
Verma, A. S. | Offshore Wind & Coastal Resiliency | Floating Offshore Wind
Vector form imstrinsic finite element
VFIFE |
Advanced Structures & Composites Center