The present invention is directed to a rotor blade assembly for a wind turbine. The rotor blade assembly includes a rotor blade extending from a blade root to a blade tip. The rotor blade has a pressure side surface and a suction side surface. The pressure side surface and the suction side surface e
The present invention is directed to a rotor blade assembly for a wind turbine. The rotor blade assembly includes a rotor blade extending from a blade root to a blade tip. The rotor blade has a pressure side surface and a suction side surface. The pressure side surface and the suction side surface each extend between a leading edge and a trailing edge. The assembly also includes a blade root extension configured to attach to one of the pressure side surface or the suction side surface of the rotor blade adjacent to the blade root. The blade root extension includes at least one blade fence and at least one airflow modifying element. The blade fence extends between a proximal end and a distal end in a chord-wise direction. The proximal end is configured to attach to the rotor blade such that the distal end remains free and spaced apart from the rotor blade. The airflow modifying element is configured at the proximal end of the blade fence. As such, the blade root extension is configured to improve aerodynamic performance of the rotor blade.
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1. A rotor blade assembly for a wind turbine, the rotor blade assembly comprising: a rotor blade extending from a blade root to a blade tip, the rotor blade having a pressure side surface and a suction side surface, the pressure side surface and the suction side surface each extending between a lead
1. A rotor blade assembly for a wind turbine, the rotor blade assembly comprising: a rotor blade extending from a blade root to a blade tip, the rotor blade having a pressure side surface and a suction side surface, the pressure side surface and the suction side surface each extending between a leading edge and a trailing edge; and,a blade root extension configured to attach to one of the pressure side surface or the suction side surface of the rotor blade adjacent to the blade root, the blade root extension comprising a plurality of blade fences and a plurality of airflow modifying elements spaced apart in a span-wise direction, each of the plurality of blade fences extending between a proximal end and a distal end in a chord-wise direction, the proximal ends configured to attach to the rotor blade such that the distal ends remain free and spaced apart from the rotor blade, the airflow modifying elements configured at the proximal ends of the blade fences,wherein the blade root extension is configured to improve aerodynamic performance of the rotor blade. 2. The rotor blade assembly of claim 1, wherein the blade root extension further comprises a panel element configured to connect the plurality of blade fences on a blade-side of the plurality of blade fences. 3. The rotor blade assembly of claim 1, wherein each of the plurality of blade fences further comprise one or more flanges located on a blade-side of the plurality of fences, wherein each of the flanges are configured to connect to adjacent flanges of adjacent blades fence to form a panel element. 4. The rotor blade assembly of claim 1, wherein each of the plurality of blade fences further comprise an extension portion configured at the distal ends of each of the blade fences. 5. The rotor blade assembly of claim 1, wherein the plurality of the blade fences form a corrugated profile. 6. The rotor blade assembly of claim 1, wherein the blade root extension defines at least one of an extended suction side surface or an extended pressure side surface. 7. The rotor blade assembly of claim 1, wherein the blade root extension defines one of an extended trailing edge or an extended leading edge when attached to the rotor blade. 8. The rotor blade assembly of claim 1, wherein each of the plurality of blade fences and corresponding airflow modifying element has one of a Y-shape or an H-shape. 9. The rotor blade assembly of claim 1, wherein the proximal end of the blade fence is fixed at a location less than or equal to a 50% chord length from the leading edge of the rotor blade. 10. The rotor blade assembly of claim 1, wherein the blade fence and the airflow modifying element have a constant height in the chord-wise direction. 11. A rotor blade assembly for a wind turbine, the rotor blade assembly comprising: a rotor blade extending from a blade root to a blade tip, the rotor blade having a pressure side surface and a suction side surface, the pressure side surface and the suction side surface each extending between a leading edge and a trailing edge; and,a blade root extension comprising a plurality of blade fences and a plurality of airflow modifying elements spaced apart in a span-wise direction, each of the plurality of blade fences extending between a proximal end and a distal end in a chord-wise direction, the proximal ends of each of the plurality of blade fences fixed to the rotor blade and spaced apart in a span-wise direction such that the distal ends remain free and spaced apart the rotor blade, the distal ends of the plurality of the blade fences defining one of an extended trailing edge or an extended leading edge,wherein the blade root extension is configured to improve aerodynamic performance of the rotor blade. 12. A rotor blade assembly for a wind turbine, the rotor blade assembly comprising: a rotor blade extending from a blade root to a blade tip, the rotor blade having a pressure side surface and a suction side surface, the pressure side surface and the suction side surface each extending between a leading edge and a trailing edge; and,a blade root extension configured to attach to a hub of the wind turbine, the blade root extension comprising a plurality of blade fences and a plurality of airflow modifying elements spaced apart in a span-wise direction, each of the plurality of blade fences extending between a proximal end and a distal end in a chord-wise direction, the distal ends remaining free and spaced apart from the rotor blade, the plurality of airflow modifying elements configured at the proximal ends of the blade fences,wherein the blade root extension configured to improve aerodynamic performance of the rotor blade. 13. The rotor blade assembly of claim 12, wherein the blade root extension further comprises a panel element configured to connect the plurality of blade fences on a blade-side of the plurality of blade fences. 14. The rotor blade assembly of claim 12, wherein each of the plurality of blade fences further comprise one or more flanges located on a blade-side of the plurality of fences, wherein each of the flanges are configured to connect to adjacent flanges of adjacent blades fence to form a panel element. 15. The rotor blade assembly of claim 12, wherein each of the plurality of blade fences further comprise an extension portion configured at the distal ends of each of the blade fences. 16. The rotor blade assembly of claim 12, wherein each of the plurality of blade fences and corresponding at least one airflow modifying element has one of a Y-shape or an H-shape. 17. The rotor blade assembly of claim 12, wherein each of the plurality of blade fences and corresponding airflow modifying element has a constant height in the chord-wise direction. 18. The rotor blade assembly of claim 12, wherein the proximal ends of each of the plurality of blade fences are fixed at a location less than or equal to a 50% chord length from the leading edge of the rotor blade.
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이 특허에 인용된 특허 (10)
Carroll, Christian A.; Herr, Stefan; Yarbrough, Aaron, Blade extension for rotor blade in wind turbine.
Tobin, James Robert; Herr, Stefan; Gobeli, William Max, Attachment method and system to install components, such as tip extensions and winglets, to a wind turbine blade.
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