In the wind turbine generator, a front wind rotor includes a blade designed, in an area outer than an intermediate of a rotation radius of the front wind rotor, to have a blade element comprised of an aerofoil being cambered in a cross-section along a rotational direction thereof, and is radially tw
In the wind turbine generator, a front wind rotor includes a blade designed, in an area outer than an intermediate of a rotation radius of the front wind rotor, to have a blade element comprised of an aerofoil being cambered in a cross-section along a rotational direction thereof, and is radially twisted so as to ensure an angle of attack smaller by a predetermined stable margin angle than an angle of attack providing a maximum lift-drag ratio regardless of a radial position, and further designed, in an area inner than the intermediate of a rotation radius of the front wind rotor, to be radially twisted so as to ensure an angle of attack at which a drag acting on the blade element is made small, and a total force of the drag and a lift force is axially directed, regardless of a radial position.
대표청구항▼
1. A wind turbine generator comprising: a front wind rotor; anda rear wind rotor arranged coaxially with said front wind rotor, one of said front wind rotor and said rear wind rotor being connected to a rotatable armature rotor of a generator and the other of said front wind rotor and said rear wind
1. A wind turbine generator comprising: a front wind rotor; anda rear wind rotor arranged coaxially with said front wind rotor, one of said front wind rotor and said rear wind rotor being connected to a rotatable armature rotor of a generator and the other of said front wind rotor and said rear wind rotor being connected to a rotatable field rotor of the generator, a direction in which a blade of said front wind rotor is twisted being axially opposite to a direction in which a blade of said rear wind rotor is twisted;wherein a rotation radius of said rear wind rotor is smaller than a rotation radius of said front wind rotor, but said rotation radius of said rear wind rotor is longer than a half of said rotation radius of said front wind rotor;wherein said front wind rotor includes a blade having, in an area outward of an intermediate point of said rotation radius of said front wind rotor, a blade element comprised of an aerofoil being cambered in a cross-section along a rotational direction thereof so as to ensure an expected rotational torque, said blade element being radially twisted so as to ensure an angle of attack smaller by a predetermined stable margin angle than an angle of attack providing a maximum lift-drag ratio regardless of a radial position;wherein said blade of said front wind rotor is, in an area inward of said intermediate point of said rotation radius of said front wind rotor, radially twisted so as to ensure an angle of attack at which a drag acting on said blade element is small, and a total force of the drag and a lift force is axially directed, regardless of a radial position of said front wind rotor, to ensure a no-load condition;wherein said rear wind rotor includes a blade having a blade element comprised of an aerofoil cambered in a cross-section along a rotational direction thereof so as to ensure an expected rotational torque;wherein said rear wind rotor is radially twisted in an area corresponding to said area outward of said intermediate point of said rotation radius of said front wind rotor, so as to ensure an angle of attack smaller by a predetermined stable margin angle than an angle of attack providing a maximum lift-drag ratio to a swirling flow discharged from said front wind rotor; andwherein said rear wind rotor is radially twisted in an area corresponding to said area inward of said intermediate point of said rotation radius of said front wind rotor, so as to ensure an angle of attack smaller by a predetermined stable margin angle than an angle of attack providing a maximum lift-drag ratio against axial flow having no swirling components. 2. The wind turbine generator as set forth in claim 1, wherein said front wind rotor and said rear wind rotor are set close to each other, said front wind rotor having three blades, and said rear wind rotor having a quantity of blades in a range of four to six. 3. The wind turbine generator as set forth in claim 1, wherein said rear wind rotor has a rotation radius about 0.84 times smaller than a rotation radius of said front wind rotor. 4. The wind turbine generator as set forth in claim 1, wherein said stable margin angle is in a range of 2 degrees to 5 degrees, both inclusive. 5. The wind turbine generator as set forth in claim 1, wherein said intermediate point in said front wind rotor is located at 40% to 60%, both inclusive, of said rotation radius of said front wind rotor.
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이 특허에 인용된 특허 (4)
Beauchamp, Charles H.; Plunkett, Stephen J.; Huyer, Stephen A., Dynamically reconfigurable wind turbine blade assembly.
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