Gas turbine combustor

The invention claimed is: 1. A gas turbine combustor comprising: a burner including a plurality of fuel nozzles for injecting a fuel; a fuel nozzle header for distributing the fuel to the plurality of fuel nozzles; an air hole plate positioned on a downstream side of the plurality of fuel nozzles and the air hole plate includes a plurality of air holes arranged to correspond with each of the fuel nozzles; and a combustion chamber in which a mixture of the fuel injected from the plurality of fuel nozzles and a combustion air are injected from the plurality of air holes and burned in the combustion chamber, wherein: two or more of the plurality of fuel nozzles each respectively have a projection which protrudes perpendicularly from an axis of the fuel nozzle which is parallel to the general flow of the combustion gas, wherein the projection tapers radially inward of the fuel nozzle with respect to the general flow of the combustion gas, the projection is positioned on a downstream side of a flow of the combustion air flowing around each of the two or more of the plurality of fuel nozzles, and the projection is located in a space between the air hole plate and the fuel nozzle header. 2. The gas turbine combustor according to claim 1 , wherein: the projection is formed in a shape with an edge. 3. The gas turbine combustor according to claim 1 , wherein: the projection is formed in a shape where a width of the projection is reduced radially inward of the fuel nozzle with respect to the general flow of the combustion gas, and the outer edge of the fuel nozzle has a curvature. 4. The gas turbine combustor according to claim 1 , wherein: the burner is a multi-burner including a central burner and a plurality of outer peripheral burners installed on an outer peripheral side of the central burner. 5. The gas turbine combustor according to claim 1 , wherein: the plurality of air holes formed in the air hole plate positioned on a tip side of the plurality of fuel nozzles are arranged in pairs with the plurality of fuel nozzles, the plurality of fuel nozzles and the plurality of air holes are arranged coaxially in a plurality of concentric circles, and each of the plurality of fuel nozzles in an outer one of the concentric circles respectively has the projection. 6. The gas turbine combustor according to claim 1 , wherein: each of the plurality of fuel nozzles has the projection which is protruded outward at a base of the fuel nozzle, and has a cylindrical shape at a tip of the fuel nozzle. 7. The gas turbine combustor according to claim 6 , wherein: each of the plurality of fuel nozzles has the projection having a shape which is changed continuously between the base and the tip of the fuel nozzle. 8. A gas turbine combustor, comprising: a burner including a plurality of fuel nozzles for injecting a fuel; a fuel nozzle header for distributing the fuel to the plurality of fuel nozzles; an air hole plate positioned on a downstream side of the plurality of fuel nozzles and the air hole plate includes a plurality of air holes arranged to correspond with each of the plurality of fuel nozzles; and a combustion chamber in which a mixture of the fuel injected from the plurality of fuel nozzles and a combustion air are injected from the plurality of air holes and burned in the combustion chamber, wherein: a first one or more of the fuel nozzles each respectively have a first projection which protrudes perpendicularly from an axis of the fuel nozzle which is parallel to the general flow of the combustion gas, wherein the first projection tapers radially inward of the fuel nozzle with respect to the general flow of the combustion gas, the first projection is positioned on a downstream side of a flow of the combustion air flowing around each of the first one or more fuel nozzles, and the first projection is located in a space between the air hole plate and the fuel nozzle header, and a second one or more of the fuel nozzles each respectively have a second projection which protrudes perpendicularly from an axis of the fuel nozzle which is parallel to the general flow of the combustion gas, wherein a width of the second projection tapers to form a curved shape radially inward of the fuel nozzle with respect to the general flow of the combustion gas, the second projection is positioned on a downstream side of a flow of the combustion air flowing around each of the second one or more of the fuel nozzles, and the second projection is located in a space between the air hole plate and the fuel nozzle header.