Burner apparatus and method of combustion

The invention claimed is: 1. A burner apparatus comprising: a fluid-based flame stabilizer for discharging a stabilized flame therefrom; a burner tile defining a primary flow passage therein, the primary flow passage having an inlet end, a discharge end, and a wall connecting the inlet end to the discharge end and surrounding the primary flow passage, wherein the fluid-based flame stabilizer is operatively disposed to direct the stabilized flame into the primary flow passage of the burner tile; and a plurality of fuel lances associated with the burner tile, each of the plurality of fuel lances having a discharge nozzle, the discharge nozzles of the plurality of fuel lances being positioned proximate the discharge end of the primary flow passage of the burner tile and spaced to distribute a first gaseous fuel proximate the discharge end of the primary flow passage of the burner tile; wherein a first Coanda feature having a Coanda surface directs a portion of the stabilized flame from the primary flow passage defined by the burner tile at the discharge end of the primary flow passage toward at least one first fuel lance of the plurality of fuel lances to cross light the at least one first fuel lance; wherein the first Coanda feature having a Coanda surface protrudes into the primary flow passage. 2. A burner apparatus according to claim 1 , wherein the discharge nozzles are located within 10 cm (3.94 inches) of the discharge end of the primary flow passage of the burner tile. 3. A burner apparatus according to claim 1 , wherein the fluid-based flame stabilizer comprises: a first duct having an inlet end, a discharge end, and a wall extending from the inlet end of the first duct to the discharge end of the first duct, the wall thereby defining a first passage for passing a first oxygen-containing gas therethrough; a second duct having an inlet end, a discharge end, and a wall extending from the inlet end of the second duct to the discharge end of the second duct, the first duct disposed partially within the second duct thereby defining a second passage between the external surface of the first duct and the internal surface of the second duct for passing a second gaseous fuel therethrough, wherein the discharge end of the first duct is recessed from the discharge end of the second duct; and a third duct having an inlet end, a discharge end, and a wall extending from the inlet end of the third duct to the discharge end of the third duct, the second duct disposed partially within the third duct thereby defining a third passage between the external surface of the second duct and the internal surface of the third duct for passing a second oxygen-containing gas therethrough, wherein the discharge end of the second duct is recessed from the discharge end of the third duct. 4. A burner apparatus according to claim 3 , wherein the first gaseous fuel and the second gaseous fuel have the same composition. 5. A burner apparatus according to claim 3 , wherein the first oxygen-containing gas and the second oxygen-containing gas have the same composition. 6. A burner apparatus according to claim 5 further comprising an oxygen-containing gas source operatively disposed to direct the oxygen-containing gas to the first duct and the third duct. 7. A burner apparatus according to claim 1 further comprising a fuel source operatively connected to the plurality of fuel lances. 8. A burner apparatus according to claim 1 , wherein the plurality of fuel lances pass through the burner tile. 9. A burner apparatus according to claim 1 , wherein the discharge end of the primary flow passage of the burner tile has a circular cross-section. 10. A burner apparatus according to claim 1 further comprising a second Coanda feature extending from the burner tile, the second Coanda feature having a Coanda surface extending into the primary flow passage of the burner tile at the discharge end of the primary flow passage adjacent a second fuel lance of the plurality of fuel lances to deflect a portion of the stabilized flame toward the discharge nozzle of the second of the plurality of fuel lances. 11. A burner apparatus according to claim 1 , wherein the or each Coanda surface extends into the primary flow passage around only a portion of the perimeter of the discharge end of the primary flow passage. 12. A burner apparatus according to claim 1 , wherein said apparatus is devoid of separate or secondary passages for redirecting the stabilized flame. 13. A method of combustion comprising: supplying a first gaseous fuel to a plurality of fuel lances of a burner apparatus, the burner apparatus comprising: a fluid-based flame stabilizer for discharging a stabilized flame therefrom; a burner tile defining a primary flow passage therein, the primary flow passage having an inlet end, a discharge end, and a wall connecting the inlet end to the discharge end and surrounding the primary flow passage, wherein the fluid-based flame stabilizer is operatively disposed to direct the stabilized flame into the primary flow passage of the burner tile; and the plurality of fuel lances associated with the burner tile, each of the plurality of fuel lances having a discharge nozzle, the discharge nozzles of the plurality of fuel lances being positioned proximate the discharge end of the primary flow passage of the burner tile and spaced to distribute the first gaseous fuel proximate the discharge end of the primary flow passage of the burner tile; wherein a first Coanda feature having a Coanda surface directs a portion of the stabilized flame from the primary flow passage defined by the burner tile at the discharge end of the primary flow passage toward at least one first fuel lance of the plurality of fuel lances to cross light the at least one first fuel lance; and igniting and sustaining combustion of the first gaseous fuel by cross lighting at the discharge nozzles by flow from the fluid-based flame stabilizer along the Coanda surface toward the discharge nozzles; wherein the first Coanda feature having a Coanda surface protrudes into the primary flow passage. 14. A method according to claim 13 , wherein the discharge nozzles are located within 10 cm (3.94 inches) of the discharge end of the primary flow passage of the burner tile. 15. A method according to claim 13 , wherein the fluid-based flame stabilizer comprises: a first duct having an inlet end, a discharge end, and a wall extending from the inlet end of the first duct to the discharge end of the first duct, the wall thereby defining a first passage for passing a first oxygen-containing gas therethrough; a second duct having an inlet end, a discharge end, and a wall extending from the inlet end of the second duct to the discharge end of the second duct, the first duct disposed partially within the second duct thereby defining a second passage between the external surface of the first duct and the internal surface of the second duct for passing a second gaseous fuel therethrough, wherein the discharge end of the first duct is recessed from the discharge end of the second duct; and a third duct having an inlet end, a discharge end, and a wall extending from the inlet end of the third duct to the discharge end of the third duct, the second duct disposed partially within the third duct thereby defining a third passage between the external surface of the second duct and the internal surface of the third duct for passing a second oxygen-containing gas therethrough, wherein the discharge end of the second duct is recessed from the discharge end of the third duct.