| 1 |
A study of dynamic response of a wind turbine blade based on the multi-body dynamics method
Xu J, Zhang L, Li X, Li S, Yang K
Renewable Energy, 155, 358, 2020 |
| 2 |
A curved panel energy harvester for aeroelastic vibration
Shan XB, Tian HG, Chen DP, Xie T
Applied Energy, 249, 58, 2019 |
| 3 |
Active load control of large wind turbines using state-space methods and disturbance accommodating control
Menezes EJN, Araujo AM, Rohatgi JS, del Foyo PMG
Energy, 150, 310, 2018 |
| 4 |
Elastic actuator line modelling for wake-induced fatigue analysis of horizontal axis wind turbine blade
Meng H, Lien FS, Li L
Renewable Energy, 116, 423, 2018 |
| 5 |
Uncertainty propagation through an aeroelastic wind turbine model using polynomial surrogates
Murcia JP, Rethore PE, Dimitrov N, Natarajan A, Sorensen JD, Graf P, Kim T
Renewable Energy, 119, 910, 2018 |
| 6 |
Multiple-feedback control of power output and platform pitching motion for a floating offshore wind turbine-generator system
Wakui T, Yoshimura M, Yokoyama R
Energy, 141, 563, 2017 |
| 7 |
Effects of aeroelastic tailoring on performance characteristics of wind turbine systems
Scott S, Capuzzi M, Langston D, Bossanyi E, McCann G, Weaver PM, Pirrera A
Renewable Energy, 114, 887, 2017 |
| 8 |
Effects of rotor deformation in wind-turbine performance: The Dynamic Rotor Deformation Blade Element Momentum model (DRD-BEM)
Ponta FL, Otero AD, Lago LI, Rajan A
Renewable Energy, 92, 157, 2016 |
| 9 |
Aeroelastic coupling analysis of the flexible blade of a wind turbine
Mo WW, Li DY, Wang XN, Zhong CT
Energy, 89, 1001, 2015 |
| 10 |
A novel adaptive blade concept for large-scale wind turbines. Part I: Aeroelastic behaviour
Capuzzi M, Pirrera A, Weaver PM
Energy, 73, 15, 2014 |
