초록 ▼

Method for operating a wind turbine comprising a drive train driving one or more electrical generators that supply power to an electric grid, by which, in events that can create a load inversion in the gearbox, a drive train dump load is activated for ensuring that the drive train torque has a const

Method for operating a wind turbine comprising a drive train driving one or more electrical generators that supply power to an electric grid, by which, in events that can create a load inversion in the gearbox, a drive train dump load is activated for ensuring that the drive train torque has a constant direction, avoiding the impact of backlashes in the gearbox, the dump load including of power absorbed by one or several systems specifically dedicated to the absorption of the dump load and present at the wind turbine for other purposes.

대표청구항 ▼

The invention claimed is: 1. Method for operating a wind turbine comprising a drive train driving one or more electrical generators (23, 31) that supply power to an electric grid (11), the drive train including a rotor hub (13), to which one or more blades are attached, a main shaft (15), a gearbox

The invention claimed is: 1. Method for operating a wind turbine comprising a drive train driving one or more electrical generators (23, 31) that supply power to an electric grid (11), the drive train including a rotor hub (13), to which one or more blades are attached, a main shaft (15), a gearbox (17) and connecting shafts (19) to said one or more electrical generators (23, 31), characterized in that, in events that can create a load inversion in the gearbox (17), a drive train dump load (5) is activated for ensuring that the drive train torque has a constant direction, avoiding the impact of backlashes in the gearbox (17), said dump load (5) consisting of power absorbed by one or several means chosen among means specifically dedicated to the absorption of said dump load (5) and means present at the wind turbine for other purposes. 2. Method for operating a wind turbine according to claim 1, characterized in that one of said events is the wind turbine start up and in that said dump load (5) is activated at the beginning of the start up and it is deactivated when the drive train torque is above a predetermined value L2. 3. Method for operating a wind turbine according to claim 1, characterized in that one of said events is a low wind situation and in that said dump load (5) is activated when the drive train torque is below a predetermined value L1 and it is deactivated when the drive train torque is above a predetermined value L2. 4. Method for operating a wind turbine according to claim 1, characterized in that one of said events is a change of the generator coupling state and in that said dump load (5) is activated when the drive train torque is below a predetermined value L1 and deactivated when the drive train torque is above a predetermined value L2. 5. Method for operating a wind turbine according to claim 4, characterized in that, in addition or in substitution to the use of said dump load (5), an acceleration of the rotor (13) is carried out just before the drive train torque value is zero. 6. Method for operating a wind turbine according to claim 1, characterized in that one of said events is any event in which the operational state of the wind turbine is a transient state due to a grid fault or a wind turbine fault and in that said dump load (5) is activated when the drive train torque is below a predetermined value L1 and deactivated when the drive train torque is above a predetermined value L2. 7. Method for operating a wind turbine according to claim 1, characterized in that one of said events is the generator (23, 31) disconnection from the grid (11) and in that said dump load (5) is activated when the drive train torque is below a predetermined value L1. 8. Method for operating a wind turbine according to claim 7, characterized in that in the event of a disconnection from the grid (11) at a high wind speed in addition to the activation of the dump load (5), the rotor (13) speed is kept above a predetermined value R1. 9. Wind turbine for implementing a method according to claim 1, comprising a drive train driving one or more electrical generators (23, 31) characterized in that it also comprises power absorption means for generating a drive train dump load (5) which is used for ensuring that the drive train torque has a constant direction, avoiding the impact of backlashes in the gearbox, said power absorption means being chosen among means specifically dedicated to the absorption of said dump load (5) and means present at the wind turbine for other purposes. 10. Wind turbine according to claim 9, characterized in that said power absorption means include one or more of the following: the wind turbine brake, wind turbine pumps and wind turbine fans; a resistor connected to the generator. 11. Wind turbine according to any of claims 9-10 claim 1, characterized in that said one or more electric generators are wound-rotor induction generators (23) which are connected to the grid through a IGBT-based and PWM electronic control converter (29) and in that said power absorption means also include one or more of the following: the generator (23) configuration producing additional power when the generator (23) connected to the grid (11); a resistor connected to the converter (29) or to the generator (23); a parallel circuit connected to the generator (23), when the generator (23) is not connected to the grid (11). 12. Wind turbine according to claim 9-10, characterized in that said one or more electric generators are synchronous generators (31) connected to the grid through a full converter unit (37) and in that said power absorption means also include one or more of the following: a converter (37) configuration producing additional power or additional generator (31) losses when the generator (31) is connected to the grid (11). a resistor connected to the generator (31), when the generator (31) is not connected to the grid.