Yaw system for a wind turbine

The invention claimed is: 1. A yaw system for rotating a nacelle with respect to a tower around a rotational axis in a wind turbine, comprising: a gliding yaw bearing comprising a first bearing component configured to be coupled to a tower, a second bearing component configured to be coupled to a nacelle, and a gliding assembly arranged between the first and the second bearing components, wherein the first bearing component is rotatable relative to the second bearing component; an annular gear; a plurality of yaw drives, each yaw drive comprising a motor and a pinion that meshes with the annular gear to rotate the first bearing component relative to the second bearing component; a braking disk separate from the first bearing component and the second bearing component; and one or more braking units configured to exert a braking force on the braking disk for braking the rotation of the first bearing component relative to the second bearing component. 2. The yaw system according to claim 1 , wherein each of the first and the second bearing components comprise a top axial gliding surface, a bottom axial gliding surface, and a radial gliding surface. 3. The yaw system according to claim 2 , wherein the gliding assembly comprises: one or more top axial gliding pads arranged between the top axial gliding surfaces of the first and the second bearing components; one or more bottom axial gliding pads arranged between the bottom axial gliding surfaces of the first and the second bearing components; and one or more radial gliding pads arranged between the axial gliding surfaces of the first and the second bearing components. 4. The yaw system according to claim 1 , wherein one of the first or second bearing components is a gliding plate and the other of the first or second bearing components is a guiding pad assembly partially enclosing the gliding plate. 5. The yaw system according to claim 4 , wherein the guiding pad assembly is at a radially inner side and the gliding plate is at a radially outer side of the gliding yaw bearing. 6. The yaw system according to claim 5 , wherein the guiding pad assembly comprises a portion of a support frame for the nacelle. 7. The yaw system according to claim 5 , wherein the gliding plate comprises a portion of a tower adapter, the tower adapter extending along a vertical axis and configured to be fixedly coupled to a top portion of a wind turbine tower. 8. The yaw system according to claim 4 , wherein the gliding plate is at a radially inner side and the guiding pad assembly is at a radially outer side of the gliding yaw bearing. 9. The yaw system according to claim 1 , wherein the braking disk is coupled to the first bearing component. 10. The yaw system according to claim 1 , wherein each of the braking units comprises a pair of braking pads movable towards each other for clamping the braking disk. 11. The yaw system according to claim 1 , wherein at least one of the braking units is passive. 12. A wind turbine comprising yaw system according to claim 1 . 13. A tower adapter configured to extend along a vertical axis for coupling to a top portion of a wind turbine tower and to be rotatably coupled to a wind turbine nacelle, the tower adapter comprising: a gliding yaw bearing comprising a first bearing component and a second bearing component, the first bearing component rotatable relative to the second bearing component; and a braking disk separate from the first bearing component and the second bearing component and disposed to receive a braking force from one or more braking units to brake the rotation of the first bearing component relative to the second bearing component. 14. The tower adapter according to claim 13 , wherein the first bearing component and the braking disk are integrally formed with the tower adapter. 15. The tower adapter according to claim 13 , further comprising a mounting flange to mount the tower adapter to a top portion of the wind turbine tower, the braking disc configured with the flange.