Rotor shaft cooling
First Claim
1. A gas turbine extending between an inlet section and an exhaust section and defining a downstream direction from the inlet section to the exhaust section, the gas turbine further comprising:
- a compressor;
a turbine section, the exhaust section downstream of the turbine section;
a plurality of combustors disposed downstream from the compressor and upstream from the turbine;
a rotor shaft extending between the turbine section and the compressor;
an inner casing between the rotor shaft and the plurality of combustors, the inner casing surrounding a portion of the rotor shaft between a downstream end of the compressor and an upstream end of the turbine section;
a high pressure packing seal between the rotor shaft and the inner casing;
a heat exchange system defined in the inner casing, the heat exchange system comprising an inlet formed in the inner casing proximate an aft end of the casing, an outlet formed in the inner casing proximate the aft end of the casing, a supply conduit extending through the inner casing upstream from the inlet, and a return conduit extending through the inner casing downstream to the outlet; and
a cooling fluid source in fluid communication with at least one of the inlet and the outlet the cooling fluid source comprising a cooling air system configured to provide cooling air from an intermediate stage of the compressor to the turbine section, the cooling air system comprising;
a first conduit extending from an intermediate stage of the compressor; and
a second conduit extending from the first conduit to the inlet of the heat exchange system,wherein the first conduit and the second conduit define a direct flow path for cooling fluid from the intermediate stage of the compressor to the inlet of the heat exchange system;
wherein the rotor shaft is in thermal communication with the heat exchange system of the inner casing.
2 Assignments
0 Petitions
Accused Products
Abstract
A gas turbine casing with an internal heat exchange system. The gas turbine extends between an inlet section and an exhaust section and defines a downstream direction from the inlet section to the exhaust section. The casing includes a forward end, an aft end downstream of the forward end, a first exterior surface facing radially outward, a second exterior surface facing radially inward, and an internal body at least partially defined between the first exterior surface and the second exterior surface. The heat exchange system includes an inlet and an outlet formed in an exterior surface of the casing proximate the aft end, a supply bore extending upstream from the inlet through the interior body of the casing, and a return bore extending downstream to the outlet through the interior body of the casing.
59 Citations
13 Claims
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1. A gas turbine extending between an inlet section and an exhaust section and defining a downstream direction from the inlet section to the exhaust section, the gas turbine further comprising:
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a compressor; a turbine section, the exhaust section downstream of the turbine section; a plurality of combustors disposed downstream from the compressor and upstream from the turbine; a rotor shaft extending between the turbine section and the compressor; an inner casing between the rotor shaft and the plurality of combustors, the inner casing surrounding a portion of the rotor shaft between a downstream end of the compressor and an upstream end of the turbine section; a high pressure packing seal between the rotor shaft and the inner casing; a heat exchange system defined in the inner casing, the heat exchange system comprising an inlet formed in the inner casing proximate an aft end of the casing, an outlet formed in the inner casing proximate the aft end of the casing, a supply conduit extending through the inner casing upstream from the inlet, and a return conduit extending through the inner casing downstream to the outlet; and a cooling fluid source in fluid communication with at least one of the inlet and the outlet the cooling fluid source comprising a cooling air system configured to provide cooling air from an intermediate stage of the compressor to the turbine section, the cooling air system comprising; a first conduit extending from an intermediate stage of the compressor; and a second conduit extending from the first conduit to the inlet of the heat exchange system, wherein the first conduit and the second conduit define a direct flow path for cooling fluid from the intermediate stage of the compressor to the inlet of the heat exchange system; wherein the rotor shaft is in thermal communication with the heat exchange system of the inner casing. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of cooling a rotor shaft of a gas turbine, the gas turbine extending between an inlet section and an exhaust section, the gas turbine defining a downstream direction from the inlet section to the turbine section, the gas turbine further comprising a compressor, a turbine section with the exhaust section downstream of the turbine section, a plurality of combustors disposed downstream from the compressor and upstream from the turbine, the rotor shaft extending between the turbine section and the compressor, an inner casing between the rotor shaft and the plurality of combustors, the inner casing surrounding a portion of the rotor shaft between a downstream end of the compressor and an upstream end of the turbine section, and a high pressure packing seal disposed in a high pressure packing seal cavity between the rotor shaft and the casing, the method comprising:
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directing a stream of cooling fluid from an intermediate stage of the compressor into a first conduit; directing a portion of the stream of cooling fluid into a second conduit to form a supply stream of cooling fluid, whereby the supply stream of cooling fluid flows directly from the intermediate stage of the compressor to an inlet of a heat exchange system defined in the inner casing along a direct flow path defined by the first conduit and the second conduit; directing the supply stream of the cooling fluid within the inner casing in an upstream direction from the inlet proximate to an aft end of the inner casing; and directing a return stream of the cooling fluid within the inner casing in a downstream direction to an outlet of the heat exchange system proximate the aft end of the inner casing; whereby heat is transferred from the rotor shaft to the cooling fluid. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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Specification