Wind turbine system for detection of blade icing

The invention claimed is: 1. A system for detecting a change in the dynamic behavior of a wind turbine blade, the system comprises: one or more sensors capable of detecting vibrations of the wind turbine blade; an exciter capable of exciting a vibration of the blades, where the exciter has primary and secondary functions, the primary function is for operation of the wind turbine and the secondary function is for vibration excitation, wherein the exciter is a blade actuator, wherein the blade actuator is a pitch actuator arranged for adjusting the pitch of the blade; a signal generator for generating an excitation signal to the exciter for exciting a vibration of the blade; a data acquisition unit for receiving a data signal from the one or more sensors; and a processing unit for determining changes in the dynamic behavior of the blade on the basis of the data signal, wherein the changes in the dynamic behavior of the blade includes a change to a shift of a resonance frequency of the blade from a first frequency to a second frequency. 2. The system according to claim 1 , further comprising a spectrum analyzer for determining the frequency spectrum of the acquired sensor signal. 3. The system according to claim 1 , wherein a continuous part of the excitation signal comprises at least one increasing part and at least one decreasing part. 4. The system according to claim 1 , wherein the excitation signal comprises a plurality of frequency components. 5. The system according to claim 1 , wherein the processing unit is capable of determining a new excitation signal for the signal generator, wherein the frequency content of the new excitation signal is changed in dependence of the previously acquired data signal. 6. The system according to claim 1 , wherein the data signal from the one or more sensors are acquired together with other measured parameter types comprising one or more of wind speed, temperature, humidity, pitch, azimuth and yaw. 7. The system according to claim 1 , wherein the acquisition of the data signal is synchronized in time with the generation of the excitation signal. 8. A wind turbine comprising the system according to claim 1 for detecting an undesired loading of a wind turbine. 9. A method for detecting a change in the dynamic behavior of a wind turbine blade, the method comprises: exciting a vibration of the blade using an exciter which has primary and secondary functions, the primary function is for normal operation of the wind turbine and the secondary function is for vibration excitation; acquiring a data signal from one or more blade sensors capable of detecting blade vibrations; processing the data signal for determining changes in the dynamic behavior of the blade on basis of the data signal, wherein the changes in the dynamic behavior of the blade includes a change to a shift of a resonance frequency of the blade from a first frequency to a second frequency; and wherein the exciter is a blade actuator, wherein the blade actuator is a pitch actuator arranged for adjusting the pitch of the blade. 10. The method of claim 9 , further comprising determining the frequency spectrum of the acquired data signal. 11. The method of claim 9 , wherein a continuous part of the vibration excitation comprises at least one increasing part and at least one decreasing part. 12. The method of claim 9 , wherein the vibration excitation comprises a plurality of frequency components. 13. The method of claim 9 , determining a new vibration excitation, wherein the frequency content of the vibration excitation is changed in dependence of the previously acquired data signal. 14. The method of claim 9 , wherein the data signal from the one or more blade sensors are acquired together with other measured parameter types comprising one or more of wind speed, temperature, humidity, pitch, azimuth and yaw. 15. The method of claim 9 , wherein the acquisition of the data signal is synchronized in time with the generation of the excitation signal. 16. A wind turbine, comprising: wind turbine blades; one or more sensors capable of detecting vibrations of the wind turbine blade; an exciter capable of exciting a vibration of the blades, where the exciter has primary and secondary functions, the primary function is for operation of the wind turbine and the secondary function is for vibration excitation, wherein the exciter is a blade actuator, wherein the blade actuator is a pitch actuator arranged for adjusting the pitch of the blade; a signal generator for generating an excitation signal to the exciter for exciting a vibration of the blade; a data acquisition unit for receiving a data signal from the one or more sensors; and a processing unit for determining changes in the dynamic behavior of the blade on the basis of the data signal, wherein the changes in the dynamic behavior of the blade includes a change to a shift of a resonance frequency of the blade from a first frequency to a second frequency. 17. The wind turbine according to claim 16 , further comprising a spectrum analyzer for determining the frequency spectrum of the acquired sensor signal. 18. The wind turbine according to claim 16 , wherein the processing unit is capable of determining a new excitation signal for the signal generator, wherein the frequency content of the new excitation signal is changed in dependence of the previously acquired data signal.