Wind turbine lighting protection system and wind turbine blade

The invention claimed is: 1. A lightning protection system, for use in a wind turbine blade, comprising: a lightning conductor located along an interior portion of the wind turbine blade and being coupled to ground; at least one receptor module extending from the interior portion to an external surface of the wind turbine blade, the receptor module being electrically connected to the lightning conductor; and a vortex generator strip arranged in a longitudinal direction on the external surface of the wind turbine blade and electrically connected to the at least one receptor module, wherein the vortex generator strip comprises an electrically conductive band arranged on the external surface of the wind turbine blade and a plurality of electrically conductive vortex generators protruding from the electrically conductive band, and wherein electrical current from a lightning strike received by the vortex generator strip is transmitted to ground through the at least one receptor module and the lightning conductor, wherein the vortex generator strip is arranged between a leading edge and a trailing edge of the wind turbine blade. 2. A lightning protection system according to claim 1 , wherein each vortex generator in the vortex generator strip comprises a narrow profile that extends perpendicularly from the external surface of the wind turbine blade. 3. A lightning protection system according to claim 1 , wherein the vortex generator strip is composed of a conductive material comprising at least one of: iron, stainless steel, aluminum, and copper. 4. A lightning protection system according to claim 1 , wherein the vortex generator strip is arranged on the external surface of the wind turbine blade using adhesive. 5. A lightning protection system according claim 1 , further comprising a conductive band on the external surface of the wind turbine blade for transmitting the electrical current from the vortex generator strip to the receptor module. 6. A lightning protection system according to claim 5 , wherein the conductive band contacts the at least one of the vortex generator strip and the receptor module. 7. A lightning protection system according to claim 5 , wherein the conductive band is arranged at a predetermined distance from the at least one of the vortex generator strip and the receptor module, thereby transmitting the electrical current through a spark gap connection. 8. A lightning protection system according to claim 1 , wherein the receptor module is exposed on the external surface of the wind turbine blade directly above a blade spar running along the length of the blade. 9. A lightning protection system according to claim 1 , further comprising at least two receptor modules, wherein the vortex generator strip is electrically connected to the at least two receptor modules. 10. The lightning protection system according to claim 1 , wherein the plurality of electrically conductive vortex generators protruding from the electrically conductive band comprise a plurality of delta-shaped protrusions. 11. The lightning protection system according to claim 10 , wherein the plurality of delta-shaped protrusions are slanted with respect to a transverse direction of the wind turbine blade. 12. The lightning protection system according to claim 11 , wherein neighboring delta-shaped protrusions are slanted in opposite directions. 13. The lightning protection system according to claim 12 , wherein a slant angle of the vortex generators is 15° from the transverse direction of the wind turbine blade. 14. The lightning protection system according to claim 11 , wherein a slant angle of the vortex generators is 15° from the transverse direction of the wind turbine blade. 15. The lightning protection system according to claim 10 , wherein a peak of each delta-shaped vortex generator is positioned to face a trailing edge of the wind turbine blade. 16. The lightning protection system according to claim 1 , wherein the plurality of vortex generators include airfoil-shaped cross-sectional profiles. 17. An apparatus, comprising: a wind turbine blade; and a lightning protection system, comprising: a lightning conductor located along an interior portion of the wind turbine blade and being coupled to ground; at least one receptor module extending from the interior portion to an external surface of the wind turbine blade, the receptor module being electrically connected to the lightning conductor; and a vortex generator strip arranged in a longitudinal direction on the external surface of the wind turbine blade and electrically connected to the at least one receptor module, wherein the vortex generator strip comprises an electrically conductive band arranged on the external surface of the wind turbine blade and a plurality of electrically conductive vortex generators protruding from the electrically conductive band, and wherein electrical current from a lightning strike received by the vortex generator strip is transmitted to ground through the at least one receptor module and the lightning conductor, wherein the vortex generator strip is arranged between a leading edge and a trailing edge of the wind turbine blade. 18. A wind turbine, comprising: a tower; a nacelle disposed on the tower and at least partially housing a rotor; a hub disposed on the rotor; a wind turbine blade connected to the hub; a lightning protection system disposed on the wind turbine blade; the lightning protection system comprising: a lightning conductor located along an interior portion of the wind turbine blade and being coupled to ground; at least one receptor module extending from the interior portion to an external surface of the wind turbine blade, the receptor module being electrically connected to the lightning conductor; and a vortex generator strip arranged in a longitudinal direction on the external surface of the wind turbine blade and electrically connected to the at least one receptor module, wherein the vortex generator strip comprises an electrically conductive band arranged on the external surface of the wind turbine blade and a plurality of electrically conductive vortex generators protruding from the electrically conductive band, and wherein electrical current from a lightning strike received by the vortex generator strip is transmitted to ground through the at least one receptor module and the lightning conductor, wherein the vortex generator strip is arranged between a leading edge and a trailing edge of the wind turbine blade.