IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0703837
(2010-02-11)
|
등록번호 |
US-8659178
(2014-02-25)
|
우선권정보 |
ES-200900551 (2009-02-27) |
발명자
/ 주소 |
- Arlabán Gabeiras, Teresa
- Alonso Sádaba, Oscar
- Garcia Barace, Alberto
- Royo García, Ricardo
- Tonks, Stephen
- García Sayés, José Miguel
- Nuñez Polo, Miguel
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
13 |
초록
▼
A wind turbine control method for dampening vibrations of a transmission system, even in the presence of voltage dips and in any event that is susceptible to reducing active current generation capacity, is provided. First, for example, an initial torque or power instruction may be calculated based o
A wind turbine control method for dampening vibrations of a transmission system, even in the presence of voltage dips and in any event that is susceptible to reducing active current generation capacity, is provided. First, for example, an initial torque or power instruction may be calculated based on a turbine operating state. Next, a torque or power adjustment term associated with dampening vibration modes of a turbine transmission system may be calculated. Then, a final torque or power instruction may be calculated by, for example, applying the adjustment term to the initial instruction. Finally, the final torque or power instruction may be transformed into a current instruction for controlling the wind turbine.
대표청구항
▼
1. A method for controlling a wind turbine of variable speed, the method comprising: calculating an initial instruction based on a turbine operating state, the initial instruction comprising one of: an initial torque instruction and initial power instruction;calculating an adjustment term associated
1. A method for controlling a wind turbine of variable speed, the method comprising: calculating an initial instruction based on a turbine operating state, the initial instruction comprising one of: an initial torque instruction and initial power instruction;calculating an adjustment term associated with dampening vibration modes of a turbine transmission system, the adjustment term comprising one of: a torque adjustment term and a power adjustment term;estimating a maximum evacuable active power based at least in part on a voltage of a power grid and an active current limit of the wind turbine;applying a limit value to the initial instruction, the limit value being based at least in part on the maximum evacuable active power, wherein applying the limit value to the initial instruction further includes: estimating a maximum probable value for the adjustment term;calculating the limit value of the initial instruction based on the maximum evacuable active power and the maximum probable value for the adjustment term value; andapplying said limit value to the initial instruction prior to applying the adjustment term for calculating the final instruction; and;calculating a final instruction, the final instruction comprising one of: a final torque instruction and a final power instruction, wherein calculating the final instruction comprises applying the adjustment term to the initial instruction; andemploying the final instruction in controlling the wind turbine. 2. The method of claim 1, wherein estimating the maximum probable value for the adjustment term comprises estimating the maximum probable values for the adjustment term as a maximum adjustment value applied to previous calculation cycles. 3. The method of claim 1, wherein applying the adjustment term to the initial instruction comprises adding the adjustment term to the initial instruction to calculate the final instruction. 4. The method of claim 1, wherein calculating the limit value of the initial instruction based on the maximum evacuable active power and the maximum probable value for the adjustment term value comprises taking the difference between: the initial instruction at which active power substantially equal to the maximum evacuable active power would be generated, andthe maximum probable value estimated for the adjustment term. 5. The method of claim 1, further comprising estimating the maximum evacuable active power based on a reactive power that must be evacuated to the power grid. 6. The method of claim 5, further comprising estimating the maximum evacuable active power based on a power distribution to auxiliary devices disposed in the wind turbine. 7. The method of claim 1, wherein employing the final instruction in controlling the wind turbine comprises transforming the final instruction into a current instruction for controlling the wind turbine. 8. A turbine having at least one component enabled to dampen vibrations associated with the turbine, the turbine comprising: a rotor;a power train coupled to the rotor that transmits mechanical power to an electric generator;a converter connected to the generator, the converter being employed to control one of: generator torque and generator power; anda control unit that calculates one of: torque instructions and power instructions, the control unit being operative to: calculate an initial instruction based on a turbine operating state,calculate an adjustment term to dampen the vibrations, the adjustment term comprising one of: a torque adjustment term and power adjustment term,estimate a maximum evacuable active power based at least in part on a voltage of a power grid and an active current limit of the turbine;apply a limit value to the initial instruction, the limit value being based at least in part on the maximum evacuable active power, wherein the control unit is further operative to: estimate a maximum probable value for the adjustment term;calculate the limit value of the initial instruction based on the maximum evacuable active power and the maximum probable value for the adjustment term value; andapply said limit value to the initial instruction prior to applying the adjustment term for calculating the final instruction, andcalculate a final instruction with an application of the adjustment term to the initial instruction, the final instruction comprising one of: a final torque instruction and a final power instruction. 9. The turbine of claim 8, wherein the electric generator is an induction generator, and wherein the converter is connected to a rotor of the electric generator. 10. The turbine of claim 8, wherein the electric generator is one of: permanent magnet synchronous and squirrel cage asynchronous, and wherein the converter is connected to a stator of the electric generator. 11. The turbine of claim 8, wherein the control unit being operative to estimate the maximum evacuable active power further comprises the control unit being operative to estimate the maximum evacuable active power based on a reactive power that must be evacuated to the power grid. 12. The turbine of claim 11, wherein the control unit being operative to estimate the maximum evacuable active power further comprises the control unit being operative to estimate the maximum evacuable active power based on a power distribution to auxiliary devices disposed in the turbine. 13. The turbine of claim 8, wherein the control unit is further operative to provide the final instruction for transformation into a current instruction for controlling the wind turbine. 14. A system having at least one component enabled to dampen vibrations of the system, the system comprising: a rotor;a power train coupled to the rotor that transmits mechanical power to an electric generator; anda converter connected to the generator, the converter being employed to control one of: generator torque and generator power, the control of the one of: the generator torque and the generator power being based at least in part on: a calculation of an initial instruction based on a system operating state,a calculation of an adjustment term to dampen the vibrations, the adjustment term comprising one of: a torque adjustment term and power adjustment term,an estimation of a maximum evacuable active power based at least in part on a voltage of a power grid and an active current limit for the system;an application of a limit value to the initial instruction, the limit value being based at least in part on the maximum evacuable active power, wherein the application of the limit value includes: an estimation of a maximum probable value for the adjustment term;a calculation of the limit value of the initial instruction based on the maximum evacuable active power and the maximum probable value for the adjustment term value; andan application of said limit value to the initial instruction prior to applying the adjustment term for calculating the final instruction, anda calculation of a final instruction with an application of the adjustment term to the initial instruction, the final instruction comprising one of: a final torque instruction and a final power instruction. 15. The system of claim 14, wherein the electric generator is an induction generator, and wherein the converter is connected to a rotor of the electric generator. 16. The system of claim 14, wherein the electric generator is one of: permanent magnet synchronous and squirrel cage asynchronous, and wherein the converter is connected to a stator of the electric generator. 17. The system of claim 14, wherein the estimation of the maximum evacuable active power is further based on a reactive power that must be evacuated to the power grid. 18. The system of claim 17, wherein the estimation of the maximum evacuable active power is further based on a power distribution to auxiliary devices disposed in the system. 19. The system of claim 14, wherein the estimation of the maximum probable value for the adjustment term comprises an estimation of the maximum probable values for the adjustment term based on a maximum adjustment value applied to previous calculation cycles.
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