Turbine airfoil cooling system for bow vane

I claim: 1 . A turbine airfoil ( 12 ), characterized in that: a generally elongated hollow airfoil ( 36 ) formed from an outer wall ( 38 ), and having a leading edge ( 16 ), a trailing edge ( 18 ), a pressure side ( 40 ), a suction side ( 42 ), an inner diameter platform ( 44 ) at a first end ( 46 ) of the airfoil ( 36 ) and an outer diameter platform ( 48 ) at a second end ( 50 ) opposite to the first end ( 46 ), and a cooling system ( 10 ) positioned within interior aspects of the generally elongated hollow airfoil ( 36 ); at least one cooling channel ( 28 ) of the cooling system ( 10 ) having a larger cross-sectional area proximate to an end of the airfoil ( 36 ) than at a midspan location; and at least one corner blocker ( 30 ) extending from a first end ( 52 ) at a corner ( 54 ) of an inner surface ( 56 ) forming the at least one cooling channel ( 28 ) toward a second end ( 58 ) positioned closer to a midpoint ( 60 ) of the at least one cooling channel ( 28 ) in a spanwise extending direction and extending diagonally from a base ( 64 ) at the inner surface ( 56 ) to a tip ( 66 ) positioned closer to a centerline axis ( 34 ) of the at least one cooling channel ( 28 ). 2 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the at least one corner blocker ( 30 ) tapers from the first end ( 52 ) having a larger cross-sectional area to the second end ( 58 ) having a smaller cross-sectional area positioned closer to the midpoint ( 60 ) of the at least one cooling channel ( 28 ). 3 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the base ( 64 ) of the at least one corner blocker ( 30 ) is in contact with the inner surface ( 56 ) forming the at least one cooling channel ( 28 ) from a first end ( 52 ) of the at least one corner blocker ( 30 ) to a second end ( 58 ) of the at least one corner blocker ( 30 ). 4 . The turbine airfoil ( 12 ) of claim 1 , characterized in that a cross-sectional area of the at least one corner blocker ( 30 ) within 25 percent of a length from the base ( 64 ) to the tip ( 66 ) from the tip ( 66 ) is larger than a cross-sectional area of the at least one corner blocker ( 30 ) within 25 percent of a length from the base ( 64 ) to the tip ( 66 ) from the base ( 64 ). 5 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the at least one corner blocker ( 30 ) has a rounded tip ( 66 ). 6 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the at least one corner blocker ( 30 ) comprises two corner blockers ( 30 ), wherein a first corner ( 72 ) blocker extends from a first corner ( 74 ) on the suction side ( 42 ) of the at least one cooling channel ( 28 ) and a second corner blocker ( 76 ) extends from a second corner ( 78 ) on the suction side ( 42 ) of the at least one cooling channel ( 28 ). 7 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the at least one corner blocker ( 30 ) comprises two corner blockers ( 30 ), wherein a first corner blocker ( 80 ) extends from a first corner ( 82 ) on the suction side ( 42 ) of the at least one cooling channel ( 28 ) and extends from a first internal rib ( 84 ) extending from the pressure side ( 40 ) to the suction side ( 42 ) and a second corner blocker ( 86 ) extends from a first corner ( 88 ) on the pressure side ( 40 ) of the at least one cooling channel ( 28 ) and extends from the first internal rib ( 84 ). 8 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the at least one corner blocker ( 30 ) comprises four corner blockers ( 30 ), wherein a first corner blocker ( 90 ) extends from a first corner ( 92 ) on the suction side ( 42 ) of the at least one cooling channel ( 28 ), a second corner blocker ( 94 ) extends from a second corner ( 96 ) on the suction side ( 42 ) of the at least one cooling channel ( 28 ), a third corner blocker ( 98 ) extends from a first corner ( 100 ) on the pressure side ( 40 ) of the at least one cooling channel ( 28 ) and a fourth corner blocker ( 102 ) extends from a second corner ( 104 ) on the pressure side ( 40 ) of the at least one cooling channel ( 28 ). 9 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the first end ( 52 ) of the at least one corner blocker ( 30 ) is positioned at the outer diameter platform ( 48 ). 10 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the first end ( 52 ) of the at least one corner blocker ( 30 ) is positioned at the inner diameter platform ( 44 ). 11 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the at least one cooling channel ( 28 ) of the cooling system ( 10 ) comprises a leading edge cooling channel ( 106 ) with an inlet ( 108 ) at the outer diameter platform ( 48 ) and an outlet ( 110 ) at the inner diameter platform ( 44 ). 12 . The turbine airfoil ( 12 ) of claim 11 , characterized in that the at least one cooling channel ( 28 ) of the cooling system ( 10 ) comprises a mid-chord serpentine cooling channel ( 112 ) extending from the outer diameter platform ( 48 ) to the inner diameter platform ( 44 ) with chordwise extending cooling channel legs ( 114 ). 13 . The turbine airfoil ( 12 ) of claim 1 , characterized in that the trailing edge ( 18 ) of the airfoil ( 36 ) is positioned further in an upstream direction at an intersection ( 148 ) of the trailing edge ( 18 ) and the outer diameter platform ( 48 ) and an intersection ( 150 ) of the trailing edge ( 18 ) and the inner diameter platform ( 44 ) than a location between the inner diameter platform ( 44 ) and the outer diameter platform ( 48 ). 14 . The turbine airfoil ( 12 ) of claim 13 , characterized in that the leading edge ( 16 ) of the airfoil ( 36 ) is positioned further in an upstream direction at an intersection ( 152 ) of the leading edge ( 16 ) and the outer diameter platform ( 48 ) and an intersection ( 154 ) of the leading edge ( 16 ) and the inner diameter platform ( 44 ) than a location between the inner diameter platform ( 44 ) and the outer diameter platform ( 48 ).