Wind turbine blade manufacture

The invention claimed is: 1. A method of bonding a shear web to a wind turbine blade shell, the shear web comprising a web and a mounting flange oriented transverse to the web, and the method comprising: positioning the shear web relative to the wind turbine blade shell such that the mounting flange is in mutually opposed relation with an inner surface of the wind turbine blade shell; providing a primary seal between the mounting flange and the inner surface of the wind turbine blade shell, the primary seal defining an enclosed primary cavity between the mounting flange and the inner surface of the wind turbine blade shell; providing a secondary seal between the mounting flange and the inner surface of the wind turbine blade shell, the secondary seal at least partially surrounding the primary seal and being spaced apart from the primary seal to define a peripheral cavity between the primary and secondary seals, the peripheral cavity at least partially surrounding the primary cavity; removing air from the primary cavity to create a vacuum in the primary cavity; removing air from the peripheral cavity to create a vacuum in the peripheral cavity; admitting adhesive into the primary cavity while maintaining the vacuum in the peripheral cavity; and curing the adhesive in the primary cavity, and wherein after the shear web is bonded to the wind turbine blade shell, the peripheral cavity is void of cured adhesive. 2. The method of claim 1 , further comprising: providing at least one spacer element in the primary cavity between the mounting flange and the inner surface of the wind turbine blade shell, the at least one spacer element being configured to maintain the mounting flange and the inner surface of the wind turbine blade shell in spaced apart relation when the vacuum is created in the primary cavity. 3. The method of claim 1 , further comprising monitoring a pressure in the primary cavity and determining when the primary cavity is full of the adhesive by a sudden change in the monitored pressure. 4. The method of claim 1 , further comprising admitting the adhesive into the primary cavity via one or more adhesive ports arranged in fluid communication with the primary cavity. 5. The method of claim 4 , wherein the one or more adhesive ports are provided in the mounting flange of the shear web. 6. The method of claim 1 , further comprising removing the air from the primary cavity through one or more vacuum ports provided in fluid communication with the primary cavity. 7. The method of claim 6 , wherein the one or more vacuum ports are provided in the mounting flange of the shear web. 8. The method of claim 1 , further comprising removing the air from the peripheral cavity through one or more vacuum ports provided in fluid communication with the peripheral cavity. 9. The method of claim 8 , wherein the one or more vacuum ports are provided in the mounting flange of the shear web. 10. The method of claim 1 , comprising reducing a pressure in the peripheral cavity to a lower level than in the primary cavity so as to create a stronger vacuum in the peripheral cavity than in the primary cavity. 11. The method of claim 1 , further comprising monitoring a pressure in the peripheral cavity and detecting the presence of a leak in the primary seal from a sudden change in the monitored pressure. 12. The method of claim 1 , comprising admitting the adhesive into the primary cavity once the vacuum has been created in the primary cavity and the vacuum has been created in the peripheral cavity. 13. The method of claim 1 , further comprising causing the adhesive to flow in a longitudinal direction within the primary cavity. 14. The method of claim 1 , wherein removing air from the primary cavity creates a first vacuum in the primary cavity and wherein the removing air from the peripheral cavity creates a second vacuum. 15. The method of claim 14 , where the second vacuum is greater than the first vacuum. 16. The method of claim 1 , wherein the vacuum in the peripheral cavity is maintained while curing the adhesive. 17. A wind turbine blade comprising a blade shell and a shear web located inside the blade shell, wherein the shear web comprises a web and a first mounting flange oriented transverse to the web, the first mounting flange being bonded to an inner surface of the blade shell by cured adhesive within an adhesive-filled cavity bounded by a primary seal between the first mounting flange and the inner surface of the blade shell, the wind turbine blade having a secondary seal between the first mounting flange and the inner surface of the blade shell, the secondary seal at least partially surrounding the primary seal and being spaced apart from the primary seal to define a peripheral cavity between the primary and secondary seals, wherein the peripheral cavity is void of cured adhesive. 18. The wind turbine blade of claim 17 , further comprising one or more spacer elements within the adhesive-filled cavity between the first mounting flange and the inner surface of the blade shell. 19. The wind turbine blade of claim 18 , wherein the one or more spacer elements are made of incompressible material. 20. The wind turbine blade of claim 17 , wherein the first mounting flange of the shear web includes one or more adhesive inlet ports and/or one or more vacuum ports. 21. The wind turbine blade of claim 17 , wherein the peripheral cavity is free from adhesive. 22. The wind turbine blade of claim 17 , wherein the shear web comprises a second mounting flange, wherein the first and second mounting flanges extend respectively along opposite longitudinal edges of the shear web, and wherein one of the first or second mounting flanges is bonded to the inner surface of the blade shell on a windward side of the blade shell, and the other one of the first or second mounting flanges is bonded to the inner surface of the blade shell on a leeward side of the blade shell. 23. A wind turbine having the wind turbine blade according to claim 17 . 24. A method of making a wind turbine blade having a shear web and a wind turbine blade shell, the shear web comprising a web and a mounting flange oriented transverse to the web, and the wind turbine blade shell comprising a first half shell and a second half shell, the method comprising: forming the first half shell in a first mould half; positioning the shear web relative to the first half shell such that the mounting flange is in mutually opposed relation with an inner surface of the first half shell; providing a primary seal between the mounting flange and the inner surface of the first half shell, the primary seal defining an enclosed primary cavity between the mounting flange and the inner surface of the first half shell; providing a secondary seal between the mounting flange and the inner surface of the first half shell, the secondary seal at least partially surrounding the primary seal and being spaced apart from the primary seal to define a peripheral cavity between the primary and secondary seals, the peripheral cavity at least partially surrounding the primary cavity; removing air from the primary cavity to create a vacuum in the primary cavity; removing air from the peripheral cavity to create a vacuum in the peripheral cavity; admitting adhesive into the primary cavity while maintaining the vacuum in the peripheral cavity; and curing the adhesive in the primary cavity, and wherein after the wind turbine blade