Joining method for wind turbine blade shells

The invention claimed is: 1. A method of manufacturing at least a portion of a wind turbine blade, wherein the method comprises the steps of: providing a pressure side blade shell part having a first edge; providing a suction side blade shell part having a second edge, wherein the first and second edges extend along a spanwise direction of the wind turbine blade; and joining said pressure side blade shell part to said suction side blade shell part along at least a portion of said first edge and said second edge to form a joined leading edge of a closed blade shell, wherein said joining consists of providing an overlamination extending between said first edge and said second edge, such that said joining is performed without a structural adhesive, and wherein said overlamination is applied to external surfaces of said first edge and said second edge, said first and second edges of said pressure side and suction side blade shell parts, respectively, being joined to one another solely by the overlamination along at least a common portion thereof, the closed blade shell comprising the pressure side and suction side blade shell parts, the first edge of the pressure side blade shell part and the second edge of the suction side blade shell part abutting each other at an interface. 2. The method of claim 1 , wherein said pressure side and suction side blade shell parts are arranged wherein a recess is defined at the interface between said first edge and said second edge, and wherein said overlamination is received at least partly within said recess. 3. The method of manufacturing at least a portion of a wind turbine blade as in claim 1 , wherein the pressure side blade shell part has a first tapered section along at least a portion of an edge of said pressure side blade shell part, the suction side blade shell part has a second tapered section along at least a portion of an edge of said suction side blade shell part, said step of joining said pressure side blade shell part to said suction side blade shell part comprising: bringing together said pressure side and suction side shell parts such that said first tapered section abuts said second tapered section to form a recess channel located along a boundary between the edges of said pressure side and suction side blade shell parts; and applying the overlamination in said recess channel to join said pressure side and suction side blade shell parts. 4. The method of claim 3 , wherein said overlamination is arranged to substantially fill said recess channel. 5. The method of claim 3 , wherein said first and second tapered sections are located along the leading edges of respective said pressure side and suction side blade shell parts. 6. The method of claim 3 , wherein said first and second tapered sections are located along the respective trailing edges of said pressure side and suction side blade shell parts. 7. The method of claim 6 , wherein said first and second tapered sections are located along the respective trailing edges of said pressure side and suction side blade shell parts adjacent the root end of said pressure side and suction side blade shell parts. 8. The method of claim 3 , wherein the overlamination is formed from the same material as said pressure side and suction side blade shell parts. 9. The method of claim 3 , wherein said step of applying the overlamination laminate comprises: positioning at least one layer of fibre material along at least a portion of said first edge and said second edge of said pressure side and suction side blade shell parts; infusing said at least one layer of fibre material with a resin; and curing said resin to bond said pressure side and suction side blade shell parts. 10. The method of claim 9 , wherein the at least one layer of fibre material is positioned in the recess channel. 11. A wind turbine blade comprising: a pressure side blade shell part; and a suction side blade shell part, wherein for at least a portion of a boundary between said pressure side and suction side blade shell parts, said pressure side and suction side blade shell parts are joined by an overlamination to form a joined leading edge of a closed blade shell, without the use of a structural adhesive, wherein joining of the pressure side and suction side blade shell parts consists of the overlamination, and wherein said overlamination is applied to external surfaces of said pressure side and suction side blade shell parts, said pressure side and suction side blade shell parts being joined to one another solely by the overlamination along at least a common portion thereof, the closed blade shell comprising the pressure side and suction side blade shell parts, the pressure side blade shell part and the suction side blade shell part abutting each other at an interface. 12. The wind turbine blade of claim 11 , wherein the pressure side blade shell part has a first tapered section along at least a portion of an edge of said pressure side blade shell part, and the suction side blade shell part has a second tapered section along at least a portion of an edge of said suction side blade shell part, wherein said pressure side and suction side blade shell parts are arranged such that said first tapered section abuts said second tapered section to form a recess channel located along a boundary between the edges of said pressure side and suction side blade shell parts, wherein the respective edges of the pressure side and suction side blade shell parts extend along a spanwise direction of the wind turbine blade, and wherein the overlamination is located in said recess channel, said overlamination joining said pressure side and suction side blade shell parts. 13. The wind turbine blade of claim 11 , wherein said overlamination is formed from the same material as said pressure side and suction side blade shell parts. 14. The wind turbine blade of claim 11 , wherein the wind turbine blade comprises a recess channel extending along at least a portion of the leading edge of said wind turbine blade, wherein the overlamination a laminate is located in the leading edge recess channel and joins said pressure side and suction side blade shell parts along said at least a portion of the leading edge of said wind turbine blade. 15. The wind turbine blade of claim 14 , wherein the recess channel extends along an entirety of the leading edge of said wind turbine blade. 16. The wind turbine blade of claim 11 , wherein the wind turbine blade comprises a recess channel extending along at least a portion of the trailing edge of the wind turbine blade, wherein the overlamination located in the trailing edge recess channel joins said pressure side and suction side blade shell parts along said at least a portion of the trailing edge of said wind turbine blade. 17. The wind turbine blade of claim 16 , wherein the overlamination laminate joins said pressure side and suction side blade shell parts in the root region of the wind turbine blade. 18. A wind turbine comprising at least one wind turbine blade as claimed in claim 11 . 19. A method of manufacturing at least a portion of a wind turbine blade, wherein the method comprises the steps of: providing a pressure side blade shell part having a first edge; providing a suction side blade shell part having a second edge, wherein the first and second edges extend along a spanwise direction of the wind turbine blade; and joining said pressure side blade shell part to said suction side blade shell part along at least a portion of said first edge and said second edge to