Method and apparatus for wind turbine blade production flange trimming

The invention claimed is: 1. A method of trimming a spanwise extending production flange from a wind turbine blade during manufacture of the wind turbine blade, the method comprising: mounting a self-propelled production flange trimming apparatus on a spanwise extending production flange of the wind turbine blade; using a drive system of the apparatus comprising one more drive members configured to operatively engage the production flange to propel the apparatus along the spanwise length of the production flange; using a directional control system of the apparatus to control the direction of the apparatus as it is propelled along the spanwise length of the production flange, wherein the controlling of the direction comprises following a first surface portion of the production flange with a follower mechanism of the apparatus, wherein the follower mechanism comprises at least two follower wheels configured to bear against opposite sides of the first surface portion; and using a cutting tool of the apparatus to cut through the production flange to separate the production flange from the wind turbine blade as the apparatus is propelled along the spanwise length of the production flange. 2. The method as claimed in claim 1 , wherein controlling the direction of the apparatus comprises detecting a characteristic of the wind turbine blade and/or the production flange and controlling the direction of the apparatus in dependence on the detected characteristic. 3. The method as claimed in claim 2 , wherein detecting a characteristic of the production flange comprises detecting a characteristic of the production flange which is located on an outboard side of the production flange with respect to the wind turbine blade. 4. The method as claimed in claim 2 , wherein detecting a characteristic of the production flange comprises detecting a first surface portion of the production flange. 5. The method as claimed in claim 4 , wherein the first surface portion of the production flange is orientated at an angle with respect to a second surface portion of the production flange. 6. The method as claimed in claim 4 , wherein detecting the first surface portion of the production flange comprises following the first surface portion of the production flange with a follower mechanism of the apparatus. 7. The method as claimed in claim 1 , comprising detecting an end of the production flange and stopping propulsion of the apparatus upon detection of the end of the production flange. 8. The method as claimed in claim 1 , comprising: stopping or pausing propulsion of the apparatus along the spanwise length of the production flange; and cutting a portion of the production flange which has been separated from the wind turbine blade from a portion of the production flange that remains attached to the wind turbine blade. 9. The method as claimed in claim 8 , comprising re-starting propulsion of the apparatus along the spanwise direction of the production flange. 10. A self-propelled wind turbine blade production flange trimming apparatus for trimming a spanwise extending production flange from a wind turbine blade during manufacture of the wind turbine blade, the apparatus comprising: a carriage; one or more drive members operatively attached to the carriage, wherein the one more drive members are configured to operatively engage the production flange to propel the apparatus along the spanwise length of the production flange in use; a directional control system operatively attached to the carriage, wherein the directional control system is arranged to control the direction of the apparatus by following a first surface portion of the production flange with a follower mechanism comprised by the apparatus, wherein the follower mechanism comprises at least two follower wheels configured to bear against opposite sides of the first surface portion; and a cutting tool operatively attached to the carriage. 11. The apparatus as claimed in claim 10 , wherein the carriage comprises a hinge configured to allow a first side of the carriage to pivot with respect to a second side of the carriage. 12. The apparatus as claimed in claim 10 , wherein the carriage has an open configuration suitable for use during placement of the apparatus onto the production flange of a wind turbine blade and/or removal of the apparatus from the production flange of the wind turbine blade, and a closed configuration suitable for use during a production flange cutting operation. 13. A system comprising: a wind turbine blade having a spanwise extending production flange; and the wind turbine blade production flange trimming apparatus of claim 10 mounted on the spanwise extending production flange of the wind turbine blade for trimming the spanwise extending production flange from a wind turbine blade during manufacture of the wind turbine blade. 14. The system as claimed in claim 13 , wherein the directional control system comprises: a detector for detecting a characteristic of the wind turbine blade and/or the production flange; and an actuator, wherein the actuator is configured to control the direction of the apparatus in dependence on the characteristic of the wind turbine blade and/or the production flange as detected by the detector. 15. The system as claimed in claim 14 , wherein the detector is configured to detect a first surface portion of the production flange, wherein the first surface portion of the production flange is contiguous with a second surface portion of the production flange, and wherein the first and second surface portions of the production flange are orientated at an angle with respect to one another.