초록 ▼

Described is a method for processing and/or predicting flow data of a flowing medium, in which from values of at least one flow parameter which are successively measured on a continuous basis at one or various locations in the medium, said flow parameter being characteristic for the speed of the med

Described is a method for processing and/or predicting flow data of a flowing medium, in which from values of at least one flow parameter which are successively measured on a continuous basis at one or various locations in the medium, said flow parameter being characteristic for the speed of the medium, a time series is formed and updated which is subjected to a nonlinear deterministic prediction procedure on the basis of a locally constant phase space model for generating prediction values for the respective subsequent flow parameters, wherein a predetermined control signal is generated if the prediction values are characteristic for an impending change in the flow speed. Applications of the method for controlling wind generators are also described.

대표청구항 ▼

1. A method for processing and predicting flow data of a flowing medium, in whichfrom values of at least one flow parameter, which are successively measured on a continuous basis at one or various locations in the medium, said flow parameter being characteristic for the speed of the medium, a time s

1. A method for processing and predicting flow data of a flowing medium, in whichfrom values of at least one flow parameter, which are successively measured on a continuous basis at one or various locations in the medium, said flow parameter being characteristic for the speed of the medium, a time series is formed and updated, which time series being subjected to a nonlinear deterministic prediction procedure on the basis of a locally constant phase space model for generating prediction values for the respective subsequent flow parameters, wherein a predetermined control signal is generated if the prediction values are characteristic for an impending change in the flow speed, wherein the flow data comprise wind data of an air stream close to the ground, or output data of a wind power generator, and the control signal is formed if the arrival of a wind gust or a change in the average wind speed is predicted. 2. The method according to claim 1, wherein the flow parameter comprises a flow speed, an electrical output of an energy converter arranged in the flowing medium, or a change in the flow speed.3. The method according to claim 2, wherein the prediction values comprise predicted values of the flow speed; the electrical output of the energy converter arranged in the flowing medium; or of the change in the flow speed.4. The method according to claim 3, wherein the difference between prediction values and persistence constitutes a relevant controller output for subsequent control methods.5. The method according to claim 1, wherein the wind speed or the electrical output of the wind power generator is measured as the flow parameter, and the arrival of a wind gust is predicted when the prediction deviation of the wind speed and the persistence of the electrical output exceeds a predetermined threshold value.6. The method according to claim 1, wherein the wind speed is measured with an anemometer or an output meter of a wind power generator, and wherein the control signal which is generated when a wind gust is predicted initiates deceleration of the wind generator.7. The method according to claim 6, wherein deceleration of the wind power generator comprises a reduction in the angle of incidence of the rotor blades of the wind generator and/or electrical regulation of the generator resistance.8. The method according to claim 1, wherein as the flow parameter, the wind speed is measured in several locations and is forecast with a locally constant model, and a control signal is generated if the predicted average deviation of the wind speed exceeds a threshold value.9. The method according to claim 8, wherein the control signal causes conventional energy converters to be set to a changed output.10. A method according to claim 1, in which the wind speeds or output data Sn are processed as flow data, according to the following steps:a) acquisition of a multitude of wind speed values or output data Sn at a sampling interval τ; b) formation of time-offset vectors, each of which comprising components Sn, wherein the number m of said components represents the embedding dimension, the width of the embedding window being m·τ, and for each of said time-offset vectors a neighbourhood U is formed from all time-offset vectors and the interval between said time-offset vectors and the respective time-offset vector being currently examined e, is smaller than a predetermined value ε; and c) determination of a prediction value Sn+1 as an arithmetic average value from the future values of the neighbours of the respective current time-offset vector in the neighbourhood U. 11. The method according to one of claim 5, wherein the wind speed is measured with an anemometer or an output meter of a wind power generator, and wherein the control signal which is generated when a wind gust is predicted initiates deceleration of the wind generator.12. A device for processing flow data of a flowing medium, which comprisesa measuring device for measuring values of at least one flow parameter which is characteristic for the speed of the medium, a computing device for preparing and processing time series based on a nonlinear deterministic prediction model, a comparison device for comparing prediction values with predetermined reference criteria, and an output device for prediction values and/or control signals derived therefrom, which forms part of a control unit of a wind power generator, whereby the measuring device is an anemometer or an output meter, and an actuator device is provided for decelerating the wind generator when predetermined prediction values and/or control signals are output. 13. Wind power generator comprising a device according to claim 12.14. The method according to claim 11, wherein deceleration of the wind power generator comprises a reduction in the angle of incidence of the rotor blades of the wind generator and/or electrical regulation of the generator resistance.