Low-speed, low induction multi-blade rotor for energy efficient small wind turbines

“…Recent studies have focused on enhancing small wind turbines (SWTs) for diverse applications. Notably, multi-blade SWTs have shown peak power efficiency around a design Tip Speed Ratio (TSR) of 4, with low-speed, low-induction multi-blade rotors offering high efficiency and shorter start times in off-design conditions [109]. Additionally, bioinspired small-scale wind turbine (SSWT) designs have been explored, with certain models like the golden eagle design achieving a power coefficient of 13% at low wind speeds and improved performance under inflow turbulence [110].…”

Green Energy Technologies: A Key Driver in Carbon Emission Reduction

“…Recent studies have focused on enhancing small wind turbines (SWTs) for diverse applications. Notably, multi-blade SWTs have shown peak power efficiency around a design Tip Speed Ratio (TSR) of 4, with low-speed, low-induction multi-blade rotors offering high efficiency and shorter start times in off-design conditions [109]. Additionally, bioinspired small-scale wind turbine (SSWT) designs have been explored, with certain models like the golden eagle design achieving a power coefficient of 13% at low wind speeds and improved performance under inflow turbulence [110].…”

Green Energy Technologies: A Key Driver in Carbon Emission Reduction

Extensive design and aerodynamic performance investigation of diffuser augmented wind turbine (DAWT) guided by generalized actuator disc theory