Wind turbine blade having a bond line adjacent a sandwich panel of the blade

The invention claimed is: 1. A wind turbine blade formed from a pressure-side blade shell and a suction-side blade shell joined to form a blade body having an airfoil profile with a leading edge and a trailing edge, said blade comprising at least one sandwich panel construction in said pressure-side blade shell and said suction-side blade shell, wherein a core is disposed between an inner skin and an outer skin of said pressure-side blade shell and said suction-side blade shell, wherein said core of said at least one sandwich panel construction has a tapered end portion, wherein a structural bond line is arranged adjacent said at least one sandwich panel construction to join a portion of said pressure-side blade shell and a portion of said suction-side blade shell, wherein said structural bond line is spaced from the leading edge and the trailing edge of the wind turbine blade, wherein said at least one sandwich panel construction is arranged to provide parallel bonding surfaces between said pressure-side blade shell and said suction-side blade shell, wherein said structural bond line is arranged between said parallel bonding surfaces, and wherein said structural bond line is arranged adjacent said tapered end portion of said core of said at least one sandwich panel construction. 2. The wind turbine blade of claim 1 , wherein said structural bond line is arranged between a pair of sandwich panel constructions to join said pressure-side blade shell to said suction-side blade shell. 3. The wind turbine blade of claim 1 , wherein the wind turbine blade further comprises a non-structural sealant provided at an actual trailing edge of the blade, between opposed trailing edge ends of the pressure-side blade shell and the suction-side blade shell. 4. The wind turbine blade of claim 3 , wherein said non-structural sealant comprises a polyeurethane-based adhesive. 5. The wind turbine blade of claim 1 , wherein the wind turbine blade comprises a reflective element or marker provided adjacent said structural bond line, such that said reflective element or marker is arranged to measure the thickness of said structural bond line using a non-destructive testing procedure. 6. The wind turbine blade of claim 5 , wherein the non-destructive testing procedure is a magnetically-based scanning technique. 7. A wind turbine having at least one wind turbine blade as claimed in claim 1 . 8. The wind turbine blade of claim 1 , wherein the tapered end portion is arranged at a trailing edge side of said core. 9. A method of manufacturing a part of a wind turbine blade, comprising: providing a first blade component having a sandwich panel construction in said first blade component, wherein a core is disposed between an inner skin and an outer skin of said first blade component, said core having a tapered end portion, providing a second blade component, applying a structural adhesive to at least one of said first and second blade components; joining said first and second blade components such that said structural adhesive is arranged adjacent at least a portion of the sandwich panel construction of said first blade component, said structural adhesive arranged adjacent said tapered end portion of said core of said sandwich panel construction; and curing said structural adhesive to form the part of a wind turbine blade, wherein the cured structural adhesive forms a structural bond line arranged adjacent said sandwich panel construction to join said first blade component and said second blade component, wherein said structural bond line is spaced from the leading edge and the trailing edge of the wind turbine blade and wherein said sandwich panel construction is arranged to provide parallel bonding surfaces between said first blade component and said second blade component, wherein said structural bond line is arranged between said parallel bonding surfaces. 10. The method of claim 9 , wherein the method comprises the step of providing a second blade component having a sandwich panel construction in said second blade component, wherein a core is disposed between an inner skin and an outer skin of said second blade component, and wherein said structural adhesive is applied to at least one of said first and second blade components adjacent at least a portion of the sandwich panel construction. 11. The method of claim 9 , wherein said step of joining comprises joining said first and second blade components such that said structural adhesive is arranged between at least a portion of the sandwich panel constructions of said first and second blade components. 12. The method of claim 9 , wherein said first and second blade components comprise wind turbine blade shells.