초록 ▼

The present invention concerns a wind power installation having a control apparatus for operational management of the wind power installation and a method of controlling a wind power installation having a control apparatus for operational management. In order to take the largest possible amount of e

The present invention concerns a wind power installation having a control apparatus for operational management of the wind power installation and a method of controlling a wind power installation having a control apparatus for operational management. In order to take the largest possible amount of energy from the wind the control apparatus takes into consideration the height of the location of erection of the wind power installation and/or the height of the wind power installation. The method according to the invention also detects air density, transmits signals which are derived from the air density and which represent the air density to the control apparatus, and the air density is taken into consideration by the control apparatus in operational management.

대표청구항 ▼

The invention claimed is: 1. A method of controlling a wind power installation positioned at an installation location during normal operation, wherein the wind power installation includes a plurality of components including at least one rotor blade and an electrical generator, the method comprising

The invention claimed is: 1. A method of controlling a wind power installation positioned at an installation location during normal operation, wherein the wind power installation includes a plurality of components including at least one rotor blade and an electrical generator, the method comprising: determining air density data at the installation location; determining an exciter power based on the air density data; and supplying the exciter power to the electrical generator. 2. The method of claim 1 further including determining temperature data and air pressure data at the installation location. 3. The method of claim 2 wherein determining air density data at the installation location includes determining the air density data using the temperature data and air pressure data. 4. The method of claim 1 further including supplying an initial exciter power to the electrical generator wherein the initial exciter power is determined based on a predetermined air density data. 5. The method of claim 4 further including statistically determining the initial exciter power using air density data which corresponds to an air density at a predetermined height, wherein the predetermined height corresponds to a height of the wind power installation when positioned at the installation location. 6. The method of claim 5 further including determining the initial exciter power using air density data which corresponds to the mean value of the air density at the predetermined height. 7. The method of claim 5 wherein the predetermined height corresponds to a height of a rotor hub of the wind power installation when positioned at the installation location. 8. The method of claim 4 wherein determining the exciter power based on the air density data further includes adjusting the initial exciter power based on the air density data at the installation location. 9. The method of claim 4 further including: monitoring the temperature at the installation location and generating temperature data based thereon; monitoring the air pressure at the installation location and generating air pressure data based thereon, and wherein: determining air density data at the installation location includes determining the air density data using the temperature data and air pressure data; and determining the exciter power using the air density data further includes adjusting the initial exciter power based on the air density data at the installation location when a change in temperature or pressure exceeds a predetermined amount. 10. The method of claim 4 further including: monitoring the temperature at the installation location and generating temperature data based thereon; monitoring the air pressure at the installation location and generating air pressure data based thereon, and wherein: determining air density data at the installation location includes determining the air density data using the temperature data and air pressure data; and determining the exciter power using the air density data further includes adjusting the initial exciter power based on the air density data at the installation location when a change in temperature or pressure exceeds a predetermined amount for a predetermined amount of time. 11. The method of claim 2 wherein determining air density data at the installation location includes determining the air density data using historical temperatures at the installation location and historical air pressures at the installation location. 12. A wind power installation comprising: at least one rotor blade; an electrical generator, coupled to the at least one rotor blade; and a control device, coupled to the electrical generator, to control the electrical generator by supplying an exciter power, wherein the control device determines an exciter power provided to the electrical generator using air density data determined at an installation location, wherein the installation location is the location where the wind power installation is positioned during normal operation. 13. The wind power installation of claim 12 wherein the air density data at the installation location is predetermined based on a statistical analysis of the air density at a predetermined height, wherein the predetermined height corresponds to a height of the wind power installation when positioned at the installation location. 14. The wind power installation of claim 12 further including a measuring device, coupled to the control device, to detect one or more environmental parameters that the control device uses to determine the air density data at the installation location. 15. The wind power installation of claim 12 wherein the measuring device includes: a temperature measuring device to measure temperature data at the installation location; and an air pressure measuring device to measure air pressure data at the installation location. 16. The wind power installation of claim 15 wherein the control device calculates the air density at the installation location using the temperature data and air pressure data measured by the temperature measuring device and air pressure measuring device, respectively. 17. The wind power installation of claim 15 wherein the control device is coupled to the temperature measuring device or the air pressure measuring device via wireless connection. 18. The wind power installation of claim 12 further including a storage element, coupled to the control device, to store the air density data. 19. The wind power installation of claim 12 wherein the control device provides an initial exciter power to the electrical generator based on a predetermined air density data. 20. The wind power installation of claim 19 wherein the initial exciter power is predetermined using a statistical analysis of the air density at a predetermined height, wherein the predetermined height corresponds to a height of the wind power installation when positioned at the installation location. 21. The wind power installation of claim 20 wherein the statistical analysis corresponds to a mean value of the air density at the predetermined height. 22. The wind power installation of claim 19 wherein the control unit adjusts the initial exciter power based on the air density data at the installation location. 23. The wind power installation of claim 19 further including: a temperature measuring device, coupled to the control unit, to measure temperature at the installation location and output temperature data which is representative of a temperature at the installation location; an air pressure measuring device, coupled to the control unit, to measure air pressure at the installation location and output air pressure data which is representative of an air pressure at the installation location; and wherein the control unit calculates the air density data using the temperature data and air pressure data and determines the exciter power for the electrical generator by adjusting the initial exciter power based on the calculated air density data when a change in temperature or pressure at the installation location exceeds a predetermined amount. 24. The wind power installation of claim 19 further including: a temperature measuring device, coupled to the control unit, to measure temperature at the installation location and output temperature data which is representative of the temperature at the installation location; an air pressure measuring device, coupled to the control unit, to measure air pressure at the installation location and output air pressure data which is representative of an air pressure at the installation location; and wherein the control unit calculates the air density data using the temperature data and air pressure data and determines the exciter power for the electrical generator by adjusting the initial exciter power based on the calculated air density data when a change in temperature or pressure at the installation location exceeds a predetermined amount for a predetermined amount of time. 25. The wind power installation of claim 12 wherein the control device is a microprocessor.