An airfoil cooling circuit includes an impingement cooling circuit and a serpentine cooling circuit. An airfoil for use in a gas turbine engine having a cooling circuit which includes an impingement cooling circuit and a serpentine cooling circuit.
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1. An airfoil cooling circuit comprising: an impingement cooling circuit;a serpentine cooling circuit;cooling air;a first cooling air inlet proximate an airfoil leading edge; anda second cooling air inlet positioned between the airfoil leading edge and an airfoil trailing edge;wherein incoming cooli
1. An airfoil cooling circuit comprising: an impingement cooling circuit;a serpentine cooling circuit;cooling air;a first cooling air inlet proximate an airfoil leading edge; anda second cooling air inlet positioned between the airfoil leading edge and an airfoil trailing edge;wherein incoming cooling air first enters the airfoil proximate the airfoil tip;wherein a first portion of the cooling air entering through the first cooling air inlet is directed through an orifice to form a stream of pre-impingement cooling air for rotor purge at a radially inward hub, andwherein a second portion of the cooling air entering through the first cooling air inlet is directed to the impingement cooling circuit. 2. An airfoil cooling circuit according to claim 1, wherein said impingement cooling circuit includes an insert having a plurality of impingement holes, the insert further comprising; a first radially-oriented wall having a plurality of impingement holes configured to direct cooling air to impinge on the interior of a pressure side airfoil wall proximate the airfoil leading edge, the first radially-oriented wall being substantially linear;a second radially-oriented wall having a plurality of impingement holes configured to direct cooling air to impinge on the interior of a suction side airfoil wall proximate the airfoil leading edge, the second radially-oriented wall being curved; anda third radially-oriented wall free of impingement holes, the third radially-oriented wall being substantially linear, the three radially-oriented walls being connected along radially oriented joints to form the insert;wherein the third radially-oriented wall forms a channel with a rib, the rib stretching from an airfoil pressure side to an airfoil suction side;wherein the channel delivers post impingement air in a radially inward direction to the inlet of the serpentine circuit. 3. An airfoil cooling circuit according to claim 1, wherein said serpentine cooling circuit includes a refresher hole. 4. An airfoil cooling circuit according to claim 1, wherein said serpentine cooling circuit includes a collection cavity for feeding a plurality of trailing edge slots. 5. An airfoil cooling circuit according to claim 1, wherein said serpentine cooling circuit directly feeds a plurality of trailing edge slots. 6. An airfoil cooling circuit according to claim 1, wherein said serpentine cooling circuit includes at least two 180 degree changes of flow direction. 7. An airfoil cooling circuit according to claim 1, wherein said serpentine cooling circuit is free from impingement features. 8. An airfoil cooling circuit according to claim 1, wherein said impingement cooling circuit and said serpentine cooling circuit are in fluid communication and cooling air flows from said impingement cooling circuit to said serpentine cooling circuit. 9. An airfoil for use in a gas turbine engine, said airfoil having a cooling circuit comprising: an impingement cooling circuit;a serpentine cooling circuit;cooling air;an insert having a plurality of impingement holes; the insert further comprising; a first radially-oriented wall having a plurality of impingement holes configured to direct cooling air to impinge on the interior of a pressure side airfoil wall proximate the airfoil leading edge, the first radially-oriented wall being substantially linear;a second radially-oriented wall having a plurality of impingement holes configured to direct cooling air to impinge on the interior of a suction side airfoil wall proximate the airfoil leading edge, the second radially-oriented wall being curved; anda third radially-oriented wall free of impingement holes, the third radially-oriented wall being substantially linear, the three radially-oriented walls being connected along radially oriented joints to form the insert;wherein the third radially-oriented wall forms a channel with a rib, the rib being radially oriented and stretching from an airfoil pressure side to an airfoil suction side;wherein the channel delivers post impingement air in a radially inward direction to the inlet of the serpentine circuit;a first cooling air inlet proximate an airfoil leading edge; anda second cooling air inlet positioned between the airfoil leading edge and an airfoil trailing edge;wherein incoming cooling air first enters said airfoil proximate the airfoil tip,wherein said serpentine cooling circuit is free from impingement features,wherein a first portion of the cooling air entering through the first cooling air inlet is directed through an orifice to form a stream of pre-impingement cooling air for rotor purge at a radially inward hub, andwherein a second portion of the cooling air entering through the first cooling air inlet is directed to the impingement cooling circuit. 10. An airfoil according to claim 9, wherein the orifice is radially oriented and is positioned inside the insert. 11. An airfoil according to claim 10, wherein said serpentine cooling circuit includes a crossover hole, and wherein the second cooling air inlet delivers pre-impingement cooling air to the serpentine circuit via a refresher hole, wherein the pre-impingement cooling air mixes with the post-impingement cooling air in the serpentine circuit proximate the airfoil tip. 12. An airfoil according to claim 9, wherein said serpentine cooling circuit includes three 180 degree changes of flow direction. 13. An airfoil according to claim 9, wherein said serpentine cooling circuit includes a collection cavity for feeding a plurality of trailing edge slots. 14. An airfoil according to claim 9, wherein said serpentine cooling circuit directly feeds a plurality of trailing edge slots. 15. An airfoil according to claim 9, wherein said serpentine cooling circuit includes at least two 180 degree changes of flow direction. 16. An airfoil according to claim 9, wherein said cooling air in said serpentine cooling circuit includes a mixture of pre-impingement and post-impingement air, wherein said pre-impingement air enters the airfoil through said second cooling air inlet. 17. An airfoil according to claim 9, wherein said airfoil is a turbine vane. 18. An airfoil according to claim 16, wherein said serpentine cooling circuit includes an orifice, wherein a portion of said pre-impingement air is directed through said orifice to be used as purge air. 19. An airfoil according to claim 9, wherein said impingement cooling circuit and said serpentine cooling circuit are in fluid communication and cooling air flows from said impingement cooling circuit to said serpentine cooling circuit. 20. A turbine airfoil for use in a gas turbine engine, said airfoil having a leading edge, a trailing edge, and a plurality of internal cavities between said leading edge and said trailing edge, said cooling circuit comprising: a first cooling air inlet proximate the leading edge;a second cooling air inlet positioned between the leading edge and the trailing edge;an impingement cooling circuit disposed in an internal cavity near said leading edge and including an insert having a plurality of impingement holes; anda serpentine cooling circuit disposed in a plurality of internal cavities forming a serpentine path with at least two 180 degree changes of flow direction;wherein said impingement cooling circuit and said serpentine cooling circuit are in fluid communication and cooling air flows from said impingement cooling circuit to said serpentine cooling circuit,wherein incoming cooling air first enters said airfoil proximate the airfoil tip,wherein a first portion of the cooling air entering through the first cooling air inlet is directed through an orifice to form a stream of pre-impingement cooling air for rotor purge at a radially inward hub, andwherein a second portion of the cooling air entering through the first cooling air inlet is directed to the impingement cooling circuit.
Damlis Nicholas (Cincinnati OH) Isburgh Anne M. (Loveland OH) Martus James A. (West Chester OH) Goldman Edward H. (Cincinnati OH), Bonded turbine airfuel with floating wall cooling insert.
Jacala Ariel (Scotia NY) Davis Richard M. (Scotia NY) Sullivan Michael A. (Inman SC) Chiu R. Paul (Scotia NY) Staub Fred (Schenectady NY), Closed circuit steam cooled bucket.
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