Turbomachine blade cover plate having radial cooling groove

What is claimed is: 1. A turbomachine blade, comprising: an airfoil; a platform coupled to the airfoil; a shank coupled to the airfoil and extending from the platform, the shank including a cover plate having a first circumferential face and a second, opposing circumferential face; and a radial cooling groove positioned longitudinally in the first circumferential face and oriented in a substantially radial direction, the radial cooling groove configured to allow a cooling fluid to pass from a first radial position to a second, different radial position relative to the platform. 2. The turbomachine blade of claim 1 , further comprising: a radial seal pin seat positioned within the cover plate and configured to receive a radial seal pin therein to seal a circumferential gap between adjacent turbomachine blade cover plates, wherein the radial cooling groove of one turbomachine blade is positioned adjacent the radial seal pin seat of an adjacent turbomachine blade in an operative state. 3. The turbomachine blade of claim 2 , wherein the radial seal pin seat is positioned in the second circumferential face and the radial cooling groove is positioned axially offset from the radial seal pin seat in the first circumferential face. 4. The turbomachine blade of claim 3 , wherein the axial offset is such that the radial cooling groove in the first circumferential face axially overlaps the radial seal pin seat in the second circumferential face. 5. The turbomachine blade of claim 2 , wherein the radial cooling groove includes a first radial cooling groove positioned axially offset from the radial seal pin seat in the first circumferential face and a second radial cooling groove positioned axially offset from the radial seal pin seat in the second, opposing circumferential face. 6. The turbomachine blade of claim 1 , wherein the cover plate includes an axial face and the radial cooling groove includes a first radial cooling groove extending radially between the axial face and one of the first and second circumferential faces. 7. The turbomachine blade of claim 6 , wherein the radial cooling groove further includes a second radial cooling groove extending radially between the axial face and the other of the first and second circumferential faces such that the first and second radial cooling grooves of adjacent turbomachine blades are juxtaposed in an operative state. 8. The turbomachine blade of claim 1 , wherein the cover plate includes an upstream side cover plate. 9. The turbomachine blade of claim 1 , wherein the shank includes an upstream side cover plate and a downstream side cover plate, each cover plate including the radial cooling groove in at least one of the first circumferential face and the second, opposing circumferential face. 10. The turbomachine blade of claim 1 , wherein the radial cooling groove extends around at least one angel wing extending from the cover plate. 11. A turbomachine blade, comprising: an airfoil; a platform coupled to the airfoil; a shank extending from the platform, the shank including a cover plate having a first circumferential face and a second, opposing circumferential face; a radial seal pin seat positioned within the first circumferential face of the cover plate and configured to receive a radial seal pin therein to seal a circumferential gap between adjacent turbomachine blade cover plates; and a radial cooling groove positioned within the second, opposing circumferential face of the cover plate, the radial cooling groove configured to allow a cooling fluid to pass therethrough, wherein the radial seal pin seat is positioned in the first circumferential face and the radial cooling groove is positioned axially offset from the radial seal pin seat in the second, opposing circumferential face, and wherein the axial offset is such that the radial cooling groove in the first circumferential face axially overlaps the radial seal pin seat in the second circumferential face. 12. The turbomachine blade of claim 11 , wherein the radial cooling groove includes a first radial cooling groove positioned axially offset from the radial seal pin seat in the first circumferential face and a second radial cooling groove positioned axially offset from the radial seal pin seat in the second circumferential face. 13. The turbomachine blade of claim 11 , wherein the cover plate includes an axial face and the radial cooling groove includes a first radial cooling groove extending radially between the axial face and one of the first and second circumferential faces. 14. The turbomachine blade of claim 13 , wherein the radial cooling groove further includes a second radial cooling groove extending radially between the axial face and the other of the first and second circumferential faces such that the first and second radial cooling grooves are juxtaposed in an operative state of adjacent turbomachine blades. 15. The turbomachine blade of claim 11 , wherein the cover plate includes an upstream side cover plate. 16. A turbomachine blade, comprising: an airfoil; a platform coupled to the airfoil; a shank extending from the platform, wherein the shank includes an upstream side cover plate and a downstream side cover plate, each cover plate including a respective first circumferential face and a second, opposing circumferential face; a radial seal pin seat positioned within the first circumferential face of each cover plate and configured to receive a radial seal pin therein to seal a circumferential gap between adjacent turbomachine blade cover plates, and a radial cooling groove positioned adjacent the radial seal pin seat in the each cover plate, the radial cooling groove configured to allow a cooling fluid to pass therethrough. 17. The turbomachine blade of claim 11 , wherein the radial cooling groove extends around at least one angel wing extending from the cover plate.