| 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, Weifei
Jiang, Zhiyu.
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, Zhiyu.
Halse, Karl | 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, Weifei
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, Spencer
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, Mohammad
Alkarem, Y. R.
Huguenard, Kimberly | 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, Spencer
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, Nicole
Robertson, A.
Wright, A.
Jonkman, Jason
Wang, L.
Bergua, Roger
Ngo, Tri
Das, T.
Odeh, M.
Mohsin, Kazi
Flavia, F. F.
Child, B.
Bangga, G.
Fowler, M.
Goupee, A. J.
Kimball, Richard
Lenfest, Eben
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, Nicole
Robertson, A.
Wright, A.
Jonkman, Jason
Wang, L.
Beruga
Ngo, Tri
Das, T.
Odeh, M.
Mohsin, Kazi
Flavia, F. F.
Child, B.
Bangga, G.
Fowler, M.
Goupee, A. J.
Kimball, Richard
Lenfest, Eben
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, Weifei
Liu, Zhenyu
Chen, W.
Tan, J.
Jiang, Zhiyu.
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, Dongsheng
Li, Xin
Duan, Y.
Verma, A. S. | Offshore Wind & Coastal Resiliency | Floating Offshore Wind
Vector form imstrinsic finite element
VFIFE |
Advanced Structures & Composites Center