Stevens Institute of Technology

Affiliated Marine Energy Engineering Documents

Total results: 8
Title Author Date Sort ascending Type of Content Technology Collection Method Engineering
Oscillating surge wave energy converter using a novel above-water power takeoff with belt-arc speed amplification Mi, J., Huang, J., Li, X. Journal Article Wave, Oscillating Wave Surge Converter Lab Data Performance, Power Take Off
Optimization of power take-off system settings and regional site selection procedure for a wave energy converter Mehdipour, H., Amini, E., Naeeni, S. Journal Article Wave, Oscillating Wave Surge Converter Modeling Performance, Power Take Off
Power capture and power take-off load of a self-balanced dual-flap oscillating surge wave energy converter Ahmed, A., Mi, J., Huang, J. Journal Article Wave, Oscillating Wave Surge Converter Lab Data, Modeling Hydrodynamics, Power Take Off
Experimental investigation of a reverse osmosis desalination system directly powered by wave energy Mi, J., Wu, X., Capper, J. Journal Article Wave, Oscillating Wave Surge Converter Lab Data, Scale Device Performance
Dual-flap Floating Oscillating Surge Wave Energy Converter: Modelling and Experiment Evaluation Mi, J., Huang, J., Li, X. Journal Article Wave, Oscillating Wave Surge Converter Lab Data, Modeling, Scale Device Performance, Power Take Off, Structural
Layout and design optimization of ocean wave energy converters: A scoping review of state-of-the-art canonical, hybrid, cooperative, and combinatorial optimization methods Golbaz, D., Asadi, R., Amini, E. Journal Article Wave Modeling Array Effects, Power Take Off, Structural
Layout optimisation of offshore wave energy converters using a novel multi-swarm cooperative algorithm with backtracking strategy: A case study from coasts of Australia Neshat, M., Mirjalili, S., Sergiienko, N. Journal Article Wave, Point Absorber Modeling Array Effects, Performance, Power Take Off
Aperiodic tidal data resource assessment and LCOE analysis of selected areas in Nigeria Amoo, L. Journal Article Current, Tidal