A promising technology to reduce dependency on fossil fuels is hydrokinetic energy conversion using either turbine and non-turbine technology. Hydrokinetic turbine technology is penalized by low efficiency and lack of self-starting. This study involved experimental testing and numerical simulation of a novel hydrokinetic turbine design, called a Vertical Axis Hydrokinetic Turbine – Straight-Blade Cascaded (VAHT–SBC). Three configurations of the design were tested. Model 1 had 3 passive-pitch blades, while Model 2 and Model 3 had 6 and 9 blades respectively, where the outer blades were passive-pitch and the others fixed-blade. Both in the experimental test and in the numerical simulation Model 3 outperformed the other two models. The Cp of M...
Vertical-axis hydrokinetic turbines with fixed pitch blades typically suffer from poor starting torq...
Hydrokinetic energy technologies are emerging as a viable solution for renewable power generation. U...
Three twisted blades of a 1 kW prototype hydrokinetic turbine were designed based on the Blade Eleme...
A promising technology to reduce dependency on fossil fuels is hydrokinetic energy conversion using ...
The Vertical Axis Hydrokinetic Turbine â Straight Blade Cascaded (VAHT-SBC) is a type of energy gene...
Renewable energy sources provide a sustainable power production for the future. Hydropower is one of...
Research on hydrokinetic turbine is increasing due to the energy demand by human being is increases....
To meet increasing global demand for energy, renewable energy sources are endorsed as a solution for...
Hydrokinetic energy contains the major uncontrolled source of renewable marine energy. The highest l...
This research paper reports a dynamic simulation of a 3-Blade Vertical-Axis Hydrokinetic Turbine for...
The current work discusses the hydrodynamic performance of horizontal axis hydrokinetic turbines (HA...
Hydrokinetic turbines are one of the technological alternatives to generate and supply electricity f...
Vertical-axis hydrokinetic turbines with fixed pitch blades typically suffer from poor starting torq...
Hydrokinetic energy technologies are emerging as a viable solution for renewable power generation. U...
Three twisted blades of a 1 kW prototype hydrokinetic turbine were designed based on the Blade Eleme...
A promising technology to reduce dependency on fossil fuels is hydrokinetic energy conversion using ...
The Vertical Axis Hydrokinetic Turbine â Straight Blade Cascaded (VAHT-SBC) is a type of energy gene...
Renewable energy sources provide a sustainable power production for the future. Hydropower is one of...
Research on hydrokinetic turbine is increasing due to the energy demand by human being is increases....
To meet increasing global demand for energy, renewable energy sources are endorsed as a solution for...
Hydrokinetic energy contains the major uncontrolled source of renewable marine energy. The highest l...
This research paper reports a dynamic simulation of a 3-Blade Vertical-Axis Hydrokinetic Turbine for...
The current work discusses the hydrodynamic performance of horizontal axis hydrokinetic turbines (HA...
Hydrokinetic turbines are one of the technological alternatives to generate and supply electricity f...
Vertical-axis hydrokinetic turbines with fixed pitch blades typically suffer from poor starting torq...
Hydrokinetic energy technologies are emerging as a viable solution for renewable power generation. U...
Three twisted blades of a 1 kW prototype hydrokinetic turbine were designed based on the Blade Eleme...