Provided is a combustor connection structure in which a cross-sectional area (Dout) of a transition piece outlet is set within a range of 0.79≦Dout/Din≦0.9, relative to a cross-sectional area (Din) of a transition piece inlet of a combustor, and in a first stage turbine nozzle of a turbine connected
Provided is a combustor connection structure in which a cross-sectional area (Dout) of a transition piece outlet is set within a range of 0.79≦Dout/Din≦0.9, relative to a cross-sectional area (Din) of a transition piece inlet of a combustor, and in a first stage turbine nozzle of a turbine connected to the transition piece outlet, a size (Hin) in a radial direction between upstream ends of the inner shroud and the outer shroud has a same dimension as a size (a) in a radial direction of the transition piece outlet. In a combustor transition piece that is included in the combustor having a center line (S) arranged with an angle to an axial center (R) of a rotor of a gas turbine and that guides combustion gas to the turbine, a cross-sectional area is monotonously reduced from the transition piece inlet in which the combustion gas flows to the transition piece outlet from which the combustion gas flows out.
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1. A combustor connection structure, where a cross-sectional area Dout of a transition piece outlet relative to a cross-sectional area Din of a transition piece inlet of a combustor is set within a range of 0.79≦Dout/Din≦0.9, the combustor connection structure having an angle obliquely radially outw
1. A combustor connection structure, where a cross-sectional area Dout of a transition piece outlet relative to a cross-sectional area Din of a transition piece inlet of a combustor is set within a range of 0.79≦Dout/Din≦0.9, the combustor connection structure having an angle obliquely radially outward to an axial center of a rotor of a gas turbine, and a first stage turbine nozzle of a turbine is connected to the transition piece outlet, wherein an upstream end of an inner shroud that forms an inner wall in a radial direction of the nozzle and an inner end in a radial direction of the transition piece outlet are arranged to contact each other in an axial direction of the rotor, an upstream end of an outer shroud that forms an outer wall in the radial direction of the nozzle and an inner end in the radial direction of the transition piece outlet are arranged to contact each other in the axial direction of the rotor, a size in a radial direction between the upstream ends of the inner shroud and the outer shroud has a same dimension as a size in the radial direction of the transition piece outlet, wherein the first stage turbine nozzle has an inlet height Hin and an outlet height Hout, and wherein the ratio of Hin/Hout is at least 1.18. 2. The combustor connection structure according to claim 1, wherein the inner shroud is arranged to be in parallel to the axial center of the rotor, and the outer shroud is arranged to be oblique to the axial center of the rotor. 3. A combustor transition piece that is provided in a combustor having a center line arranged with an angle obliquely radially outward to an axial center of a rotor of a gas turbine and that guides combustion gas of the combustor to a turbine, wherein a cross-sectional area is monotonously reduced from a transition piece inlet in which the combustion gas flows, to a transition piece outlet from which the combustion gas flows out, and a first stage turbine nozzle of said turbine is connected to said transition piece outlet such that a size in a radial direction of an upstream end of the first stage turbine nozzle has a same dimension of the size in the radial direction of the transition piece outlet, wherein the first stage turbine nozzle has an inlet height Hin and an outlet height Hout, and wherein the ratio of Hin/Hout is at least 1.18. 4. The combustor transition piece according to claim 3, wherein a cross-sectional area Dout of the transition piece outlet is set within a range of 0.79≦Dout/Din≦0.9, relative to a cross-sectional area Din of the transition piece inlet. 5. A gas turbine that supplies combustion gas, obtained by supplying fuel to compressed air compressed by a compressor and burning the compressed air and the fuel in a combustor, to a turbine to generate rotational power, the gas turbine comprising: a combustor connection structure, where a cross-sectional area Dout of a transition piece outlet relative to a cross-sectional area Din of a transition piece inlet of the combustor is set within a range of 0.79≦Dout/Din≦0.9, the combustor connection structure having an angle obliquely radially outward to an axial center of a rotor of the gas turbine, and a first stage turbine nozzle of the turbine is connected to the transition piece outlet, wherein the first stage turbine nozzle has an inlet height Hin and an outlet height Hout, and wherein the ratio of Hin/Hout is at least 1.18, wherein an upstream end of an inner shroud that forms an inner wall in a radial direction of the nozzle and an inner end in a radial direction of the transition piece outlet are arranged to contact each other in an axial direction of a rotor, an upstream end of an outer shroud that forms an outer wall in the radial direction of the nozzle and an inner end in the radial direction of the transition piece outlet are arranged to contact each other in the axial direction of the rotor, and a size in the radial direction of the nozzle between the upstream ends of the inner shroud and the outer shroud has a same dimension as a size in the radial direction of the transition piece outlet. 6. The gas turbine according to claim 5, where, in the combustor connection structure, the inner shroud is arranged to be in parallel to the axial center of the rotor, and the outer shroud is arranged to be oblique to the axial center of the rotor. 7. A gas turbine that supplies combustion gas, obtained by supplying fuel to compressed air compressed by a compressor and burning the compressed air and the fuel in a combustor, to a turbine to generate rotational power, the gas turbine comprising: a combustor transition piece that is provided in the combustor having a center line arranged with an angle obliquely radially outward to an axial center of a rotor, and that has a cross-sectional area monotonously reduced from a transition piece inlet in which the combustion gas flows in to a transition piece outlet from which the combustion gas flows out, while the combustion gas is guided to the turbine, a first stage turbine nozzle of said turbine is connected to said transition piece outlet such that a size in a radial direction of an upstream end of the first stage turbine nozzle has a same dimension of a size in the radial direction of the transition piece outlet, wherein the first stage turbine nozzle has an inlet height Hin and an outlet height Hout, and wherein the ratio of Hin/Hout is at least 1.18. 8. The gas turbine according to claim 7, wherein the combustor transition piece has a cross-sectional area Dout of the transition piece outlet set within a range of 0.79≦Dout/Din≦0.9, relative to a cross-sectional area Din of the transition piece inlet.
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이 특허에 인용된 특허 (8)
Roberts ; Jr. Hubert S. (Cincinnati OH) Ablett Adrian M. (Cincinnati OH) Hauser Ambrose A. (Wyoming OH), Arched combustor.
Ansart Denis Roger Henri,FRX ; Sandelis Denis Jean Maurice,FRX, Control of cooling flows for high-temperature combustion chambers having increased permeability in the downstream direction.
Matthews John A. (Melrose CT) Zeisser Melvin H. (Marlborough CT) Coburn Robert E. (Mansfield Center CT), Sealing and cooling arrangement for combustor vane interface.
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