1 |
Performance characteristics of a Novel point Absorber-type WEC based on counter-rotating self-adaptable movement mechanism Sun CF, Shang JZ, Luo ZR, Zhu YM, Lu ZY, Wu GH, Cong DS Energy Sources Part A-recovery Utilization and Environmental Effects, 43(7), 783, 2021 |
2 |
Characterization and verification of a two-body wave energy converter with a novel power take-off Li XF, Martin D, Liang CW, Chen CA, Parker RG, Zuo L Renewable Energy, 163, 910, 2021 |
3 |
Sea trial results of a predictive algorithm at the Mutriku Wave power plant and controllers assessment based on a detailed plant model Fay FX, Robles E, Marcos M, Aldaiturriaga E, Camacho EF Renewable Energy, 146, 1725, 2020 |
4 |
Experimental investigation on the power capture of an oscillating wave surge converter in unidirectional waves Brito M, Ferreira RML, Teixeira L, Neves MG, Canelas RB Renewable Energy, 151, 975, 2020 |
5 |
Numerical analysis of a new multi-body floating wave energy converter with a linear power take-off system Chandrasekaran S, Sricharan VVS Renewable Energy, 159, 250, 2020 |
6 |
Active control for multi-degree-of-freedom wave energy converters with load limiting Hillis AJ, Whitlam C, Brask A, Chapman J, Plummer AR Renewable Energy, 159, 1177, 2020 |
7 |
Oil-hydraulic power take-off concept for an oscillating wave surge converter Calvario M, Gaspar JF, Kamarlouei M, Hallak TS, Soares CG Renewable Energy, 159, 1297, 2020 |
8 |
Predicting absorbed power of a wave energy converter in a nonlinear mixed sea Wang YG Renewable Energy, 153, 362, 2020 |
9 |
A novel nonlinear state space model for the hydraulic power take-off of a wave energy converter Yue XH, Chen QJ, Wang ZH, Geng DZ, Yan DL, Jiang W, Wang WY Energy, 180, 465, 2019 |
10 |
A high-fidelity wave-to-wire model for wave energy converters Penalba M, Ringwood JV Renewable Energy, 134, 367, 2019 |