Fuel injector including tandem vanes for injecting alternate fuels in a gas turbine

What is claimed is: 1. A fuel injector for a gas turbine, comprising: a fuel delivery tube structure disposed along a central axis of the fuel injector; a first fuel supply channel and a second fuel supply channel coaxially arranged in the fuel delivery tube structure; a first set of vanes comprising a first radial passage in each vane of the first set of vanes, the first radial passage in fluid communication with the first fuel supply channel to receive a first fuel, wherein the first radial passage is configured to branch into a first set of axial passages each having a first aperture arranged to inject the first fuel in a direction of air flow; and a second set of vanes comprising a second radial passage in each of the second set of vanes, the second radial passage in fluid communication with the second fuel supply channel to receive a second fuel, wherein the second radial passage in the second set of vanes is configured to branch into a second set of axial passages each having a second aperture arranged to inject the second fuel in the direction of air flow, wherein the first fuel and the second fuel comprise fuels having a different energy density, wherein the second set of vanes is disposed downstream relative to the first set of vanes, wherein each of the second set of vanes comprise a swirling vane having a twist angle, and wherein each of the first set of vanes comprise a non-swirling vane. 2. The fue 1 injector of claim 1 , wherein the second set of vanes is circumferentially staggered relative to the first set of vanes so that none of the second set of vanes is directly behind any of the first set of vanes. 3. The fuel injector of claim 1 , wherein the twist angle comprises up to approximately 20 degrees. 4. The fuel injector of claim 1 , wherein the fuel delivery tube structure comprises coaxially disposed an inner tube and an outer tube, wherein the inner tube comprises the second fuel supply channel, and wherein the first fuel supply channel is annularly disposed between the inner tube and the outer tube. 5. The fuel injector of claim 1 , wherein the fuel delivery tube structure is surrounded by a shroud, and wherein the first set of vanes and the second set of vanes is respectively arranged between the fuel delivery tube structure and the shroud. 6. The gas turbine comprising the fuel injector of claim 1 . 7. A fuel injector for a gas turbine, comprising: a fuel delivery tube structure disposed along a central axis of the fuel injector; a first fuel supply channel and a second fuel supply channel coaxially arranged in the fuel delivery tube structure; a first set of vanes comprising a first radial passage in each vane of the first set of vanes, the first radial passage in fluid communication with the first fuel supply channel to receive a first fuel, wherein the first radial passage is configured to branch into a first set of passages each having a first aperture arranged to inject the first fuel without a jet in cross-flow; and a second set of vanes comprising a second radial passage in each of the second set of vanes, the second radial passage in fluid communication with the second fuel supply channel to receive a second fuel, wherein the second radial passage in the second set of vanes is configured to branch into a second set of passages each having a second aperture arranged to inject the second fuel without a jet in cross-flow, wherein the first fuel and the second fuel comprise fuels having a different energy density, wherein the second set of vanes is disposed downstream relative to the first set of vanes, wherein the second set of vanes is circumferentially staggered relative to the first set of vanes so that none of the second set of vanes is directly behind any of the first set of vanes, and wherein each of the first set of vanes comprise non-swirling vane. 8. The fuel injector of claim 7 , wherein the first set of passages comprise the first set of axial passages each having the first aperture arranged to inject the first fuel in a direction of air flow. 9. The fuel injector of claim 8 , wherein the second set of passages comprise the second set of axial passages each having the second aperture arranged to inject the second fuel in the direction of air flow. 10. The fuel injector of claim 7 , wherein each of the second set of vanes comprise a swirling vane having a twist angle. 11. The fuel injector of claim 10 , wherein the twist angle comprises up to approximately 20 degrees.