Wind turbine blade manufacture

The invention claimed is: 1. A method of making a wind turbine blade having a main blade section and a tip section connected together, the method comprising: providing a main blade mould assembly comprising first and second female main mould halves shaped to form first and second half shells of the main blade section respectively, each main mould half having an inboard end shaped to define a radially inboard portion of the main blade section and an outboard end shaped to define a radially outboard portion of the main blade section, the main blade mould assembly having an open position in which the main mould halves are spaced apart, and a closed position in which the main mould halves are brought together; forming a first half shell of the main blade section in the first main mould half and forming a second half shell of the main blade section in the second main mould half with the main blade mould assembly in the open position; selecting a tip section from a plurality of tip sections of different lengths according to a total length requirement for the wind turbine blade; arranging the tip section adjacent to the outboard end of the first main mould half such that an inboard end of the tip section and an outboard end of the first half shell overlap; closing the main mould assembly such that the first and second half shells are brought together and such that the inboard end of the tip section and an outboard end of the second half shell overlap; and bonding the first and second half shells together and simultaneously bonding the inboard end of the tip section to the outboard ends of the first and second half shells with the main mould assembly in the closed position. 2. The method of claim 1 , comprising arranging the tip section such that the inboard end of the tip section is supported by the outboard end of the first mould half and such that an outboard end of the tip section extends beyond the outboard end of the first mould half. 3. The method of claim 2 , further comprising supporting the outboard end of the tip section relative to the first main mould half using a support structure that is preferably separate from the first main mould half. 4. The method of claim 3 , wherein the tip section and the support structure each comprise datum features and the method further comprises aligning and/or engaging the datum features of the tip section with the datum features of the support structure to ensure a correct alignment between the tip section and the first half shell. 5. The method of claim 1 , wherein the outboard ends of the first and second main mould halves are truncated in comparison to a conventional blade mould assembly. 6. The method of claim 1 , wherein the tip section comprises an outer shell that tapers in thickness at the inboard end of the tip section, and the method further comprises: forming the first and second half shells such that their respective outboard ends taper in thickness; and arranging the tip section such that the tapered inboard end of the tip section and the tapered outboard end of the first half shell overlap. 7. The method of claim 1 , wherein the inboard end of the tip section forms a cup and cone joint with the main blade section upon closing the main mould assembly. 8. The method of claim 1 , further comprising providing adhesive on an inner surface of the outboard end of the first main half shell and arranging the inboard end of the tip section on top of the adhesive. 9. The method of claim 8 , comprising providing further adhesive on an inner surface of the outboard end of the second main half shell and/or on an outer surface of the inboard end of the tip section configured to overlap the second main half shell prior to closing the main mould assembly. 10. The method of claim 1 , further comprising bonding a shear web between respective inner surfaces of the first and second main half shells. 11. The method of claim 1 , wherein the tip section includes one or more components selected from: a shear web, lightning-protection components, anti-icing components, de-icing components, which are pre-installed in the tip section prior to arranging the tip section relative to the first main half shell. 12. The method of claim 1 , further comprising making the plurality of different tip sections in a plurality of respective tip moulds of varying length, the tip moulds being separate to the main blade mould assembly. 13. The method of claim 1 , further comprising making the selected tip section using an adjustable tip mould that is adjustable to form tip sections having a variety of lengths, and wherein the method comprises configuring the adjustable tip mould to form a tip section having a length selected in accordance with the total length requirement for the wind turbine blade. 14. The method of claim 13 , wherein the adjustable tip mould comprises a shell layup area having an inboard spanwise section of substantially constant dimensions, and the method of making the selected tip section comprises arranging a plant in the inboard spanwise section to adjust the effective length of the shell layup area.