Wind turbine blade

The invention claimed is: 1. A wind turbine blade comprising: a blade shell that extends in a spanwise direction from a root end to a tip end, and in a chordwise direction from a leading edge to a trailing edge, the blade shell comprising: a spar cap formed from a plurality of substantially planar strips of reinforcing material, the strips being arranged in a plurality of stacks extending longitudinally in the spanwise direction and arranged side-by-side in the chordwise direction, whereby in each stack an uppermost strip defines an upper surface of the stack, a lowermost strip defines a lower surface of the stack, and longitudinal edges of the stacked strips define side surfaces of the stack; a retaining clip comprising a series of substantially U-shaped sections each having a pair of mutually-spaced side portions defining a stack-receiving region therebetween, wherein the side portions are joined by a bridging portion, and wherein each U-shaped section is inverted with respect to its neighbouring U-shaped section; wherein at least some of the stacks are located in the stack-receiving regions of the retaining clip, such that the side portions of the U-shaped sections abut side surfaces of the stacks, and each U-shaped section of the retaining clip is inverted with respect to its neighbouring U-shaped section(s) such that the bridging portions of the respective U-shaped sections extend alternately across the upper and lower surfaces of the stacks in the chordwise direction. 2. The wind turbine blade of claim 1 , wherein at least one U-shaped section of the retaining clip, comprises a return flange extending from a side portion of the U-shaped section substantially parallel to and spaced apart from the bridging portion of that U-shaped section, wherein a stack is located between the bridging portion and the return flange such that the bridging portion extends across one of the upper or lower surfaces of a stack and the return flange extends at least partially across the other of the upper or lower surfaces of the stack. 3. The wind turbine blade of claim 1 , wherein an end of the retaining clip comprises a locating flange, and the locating flange extends in the chordwise direction beneath a blade shell component located adjacent the spar cap. 4. The wind turbine blade of claim 3 , wherein the locating flange extends from a side portion of an endmost U-shaped section. 5. The wind turbine blade of claim 4 , wherein at least one U-shaped section of the retaining clip comprises a return flange extending from a side portion of the U-shaped section substantially parallel to and spaced apart from the bridging portion of that U-shaped section, wherein a stack is located between the bridging portion and the return flange such that the bridging portion extends across one of the upper or lower surfaces of a stack and the return flange extends at least partially across the other of the upper or lower surfaces of the stack, and wherein the locating flange is substantially co-planar with the return flange and the two flanges extend chordwise in opposite directions from the side portion of an endmost U-shaped section. 6. The wind turbine blade of claim 1 , wherein the side-by-side stacks are spaced apart in the chordwise direction by the side portions of the U-shaped sections of the retaining clip. 7. The wind turbine blade of claim 1 , comprising one or more pairs of retaining clips arranged side-by-side in the spanwise direction, wherein the U-shaped sections of one of the retaining clips in each pair are inverted relative to the U-shaped sections of the other retaining clip in the pair. 8. The wind turbine blade of claim 1 , comprising a plurality of retaining clips, or a plurality of pairs of retaining clips, mutually spaced in the spanwise direction. 9. The wind turbine blade of claim 1 , wherein one or more of the stacks comprises a tapered end region and the or each retaining clip is positioned outside of the tapered end region. 10. The wind turbine blade of claim 1 , wherein a chordwise cross-sectional profile of the stack-receiving regions of the retaining clip substantially corresponds in shape to a chordwise cross-sectional profile of the stacks. 11. The wind turbine blade of claim 1 , wherein side portions of the U-shaped sections have a height that substantially corresponds to a height of the stacks and the bridging portions of the U-shaped sections have a length that substantially corresponds to a chordwise width of the stacks. 12. The wind turbine blade of claim 1 , wherein the or each retaining clip is formed of a fibre-reinforced polymer material. 13. The wind turbine blade of claim 1 , wherein the retaining clip is a pre-cured component. 14. A retaining clip for a wind turbine blade spar cap configured to retain strips of reinforcing material in a stacked formation and restrict movement of a plurality of stacks of strips relative to one another, the clip comprising: a series of substantially U-shaped sections each having a pair of mutually-spaced side portions defining a stack-receiving region therebetween, wherein the side portions are joined by a bridging portion, wherein each U-shaped section is inverted with respect to its neighbouring U-shaped section; wherein at least some of the stacks are configured to be located in the stack-receiving regions of the retaining clip such that the side portions of the U-shaped sections abut side surfaces of the stacks, and the bridging portions of the respective U-shaped sections are configured to extend alternately across the upper and lower surfaces of the stacks in a chordwise direction. 15. A method of manufacturing a wind turbine blade, the method comprising: providing a blade shell mould that extends in a spanwise direction from a root end to a tip end, and in a chordwise direction from a leading edge to a trailing edge; providing a plurality of substantially planar strips of reinforcing material; arranging the strips in the mould in a plurality of stacks to form at least part of a spar cap, the stacks extending in the spanwise direction and being arranged side-by-side in the chordwise direction, whereby in each stack an uppermost strip defines an upper surface of the stack, a lowermost strip defines a lower surface of the stack, and longitudinal edges of the stacked strips define side surfaces of the stack; providing the retaining clip of claim 14 ; and arranging at least some of the stacks in the stack-receiving regions of the retaining clip, such that the side portions of the U-shaped sections abut the side surfaces of the stacks, and the bridging portions of the respective U-shaped sections extend alternately across the upper and lower surfaces of the stacks in the chordwise direction.