题名: |
Aerodynamic Flow Deflector to Increase Large Scale Wind Turbine {ower Generation by 10%. |
作者: |
Villegas, A.; Ray, A.; Prasad, J. |
关键词: |
Wind turbine control, Energy reduction efforts, Turbine aerodynamics, Cost effectinveness, Renewable energy, Efficiency levels, Power coefficient, Unsteady flow, Horizontal axis turbines, Wind energy, Flow separtation, feasibility studies |
摘要: |
The innovation proposed in this paper has the potential to address both the efficiency demands of wind farm owners as well as to provide a disruptive design innovation to turbine manufacturers. The aerodynamic deflector technology was created to improve the efficiency of any current wind turbine around the world and to be included with new blade designs. To prove the feasibility of the deflectors, two tests have been done during this project for two different wind turbines. The first test was performed at the wind tunnel facility at Rutgers University. Two identical wind turbines were 3D printed, one with deflectors on its blades and the other one without deflectors. An average power coefficient Cp improvement of 10% was observed during this test. The second test was performed for the Whisper 100 turbine at the Wind Application Center at Appalachian State University. The turbine performance was measured without deflectors for 2 weeks. Then, the turbine was retrofitted with deflectors and its power performance was measured for another 2 weeks. An average Cp improvement of 7.7% was observed during this test. The estimated AEP increase was between 8.7 to 11.4 %, depending on the site annual average wind speed. All tests show important improvements in power performance and AEP. This technology could represent the biggest wind turbine aerodynamic improvement in the last decade and a game changer to the wind energy industry since even 2% AEP improvement allows wind farm profits to raise by 8% |
总页数: |
Villegas, A.; Ray, A.; Prasad, J. |
报告类型: |
科技报告 |