Wing vaned flame shaper

The invention claimed is: 1. A gas furnace burner system, comprising: an ignition source, configured to ignite a fuel-air mixture to produce a flame; a flame shaper, located downstream of the ignition source with respect to the direction of flow of the flame, wherein the flame shaper comprises: an opening; a plurality of turning vanes extending from a perimeter of the opening, wherein the plurality of turning vanes are configured to induce a swirl in the flame, wherein each of the plurality of turning vanes are substantially perpendicular to the direction of flow of the flame at the perimeter of the opening and substantially parallel to the direction of flow of the flame at a tip of the turning vane. 2. The gas furnace burner system of claim 1 , further comprising a heat exchanger tube located downstream of the flame shaper with respect to the direction of flow, wherein the heat exchanger tube receives the flame after the flame passes through the flame shaper. 3. The gas furnace burner system of claim 2 , wherein the opening has a diameter that is between at or about 50% and at or about 90% of a diameter of the heat exchanger tube. 4. The gas furnace burner system of claim 1 , wherein the flame shaper has a central portion wherein the flame is unobstructed in the central portion of the flame shaper. 5. The gas furnace burner system of claim 4 , further comprising a flame holder and wherein a diameter of the central portion is equal to a diameter of the flame holder. 6. The gas furnace burner system of claim 1 , wherein each of the plurality of turning vanes have an axial twist and a radial twist over a length of the turning vane. 7. The gas furnace burner system of claim 1 , wherein the fuel-air mixture is partially premixed fuel and air. 8. A method of operating a gas furnace, comprising: providing a fuel-air mixture; igniting the fuel-air mixture using an ignition source to produce a flame; directing an airflow and the flame through a flame shaper, the flame shaper inducing a swirl in the airflow and the flame to form a swirl mixed flame; and directing the swirl mixed flame into a heat exchanger of the gas furnace, wherein the flame shaper comprises a plurality of turning vanes, and each of the plurality of turning vanes are substantially perpendicular to the direction of flow of the flame at the perimeter of the opening and substantially parallel to the direction of flow of the flame at a tip of the turning vane. 9. The method of claim 8 , wherein the airflow is provided between the ignition source and the flame shaper with respect to the direction of travel of the flame. 10. The method of claim 8 , wherein the fuel-air mixture is a partial premix of air and the fuel. 11. The method of claim 8 , wherein the flame shaper further comprises a center of an opening, wherein the center of the opening is unobstructed. 12. The method of claim 11 , wherein the opening of the flame shaper has a diameter that is between at or about 50% and at or about 90% of a diameter of a tube of the heat exchanger. 13. The gas furnace burner system of claim 6 , wherein the axial twist and the radial twist are continuous over the length of the turning vane. 14. The method of claim 8 , wherein each of the plurality of turning vanes have an axial twist and a radial twist over a length of the turning vane. 15. The method of claim 14 , wherein the axial twist and the radial twist are continuous over the length of the turning vane. 16. A gas furnace burner system, comprising: an ignition source, configured to ignite a fuel-air mixture to produce a flame; a flame shaper, located downstream of the ignition source with respect to the direction of flow of the flame, wherein the flame shaper comprises: an opening; a plurality of turning vanes extending from a perimeter of the opening towards a center of the opening, wherein the plurality of turning vanes are configured to induce a swirl in the flame, wherein each of the plurality of turning vanes have an axial twist and a radial twist over a length of the turning vane and the axial twist and the radial twist are continuous over the length of the turning vane. 17. The gas furnace burner system of claim 16 , further comprising a heat exchanger tube located downstream of the flame shaper with respect to the direction of flow, wherein the heat exchanger tube receives the flame after the flame passes through the flame shaper. 18. The gas furnace burner system of claim 17 , wherein the opening has a diameter that is between at or about 50% and at or about 90% of a diameter of the heat exchanger tube. 19. The gas furnace burner system of claim 16 , wherein the flame shaper has a central portion wherein the flame is unobstructed in the central portion of the flame shaper.