And Cooling Patents (Class 60/806)
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Publication number: 20130276460Abstract: An airfoil includes an airfoil body that defines a longitudinal axis. The airfoil body includes a leading edge and a trailing edge and a first side wall and a second side wall that is spaced apart from the first side wall to define a camber line there between. The first side wall and the second side wall join the leading edge and the trailing edge and at least partially define a cavity in the airfoil body. Multiple ribs extend longitudinally in the cavity and are laterally spaced apart from each other relative to the longitudinal axis. In at least one plane that is perpendicular to the longitudinal axis, each of the ribs connects the first side wall and the second side wall along respective minimum distance directions that are perpendicular to the camber line. At least two of the respective minimum distance directions are non-parallel.Type: ApplicationFiled: April 24, 2012Publication date: October 24, 2013Inventors: Tracy A. Propheter-Hinckley, Benjamin T. Fisk, Steven Taffet, Gregory M. Dolansky, Anita L. Tracy
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Publication number: 20130276461Abstract: An airfoil includes an airfoil body that defines a longitudinal axis. The airfoil body includes a leading edge and a trailing edge and a first side wall and a second side wall that is spaced apart from the first side wall. The first side wall and the second side wall join the leading edge and the trailing edge and at least partially define a cavity in the airfoil body. A lattice network connects the first side and the second side. The lattice network includes at least one enlarged node spaced apart from the first side wall and the second side wall and ribs that extend from the at least one enlarged node. Each of the ribs connects to one of the first side wall and the second side wall.Type: ApplicationFiled: April 24, 2012Publication date: October 24, 2013Inventors: Tracy A. Propheter-Hinckley, Sergio M. Loureiro, Agnes Klucha, Benjamin T. Fisk, Anita L. Tracy
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Publication number: 20130255278Abstract: A turbine casing assembly, comprising an annular seal segment assembly for surrounding the turbine adjacent to the turbine blades. An abradable coating is provided on the inboard surface of the seal segments of the assembly and one or more coolant ducts extend from the outboard surface of the seal segment assembly through respective seal segments and the abradable coating, for carrying a coolant towards the blade tips. One or more annular grooves are formed in the inboard surface of the abradable coating, the or each coolant duct opening into one of the one or more annular grooves.Type: ApplicationFiled: March 11, 2013Publication date: October 3, 2013Applicant: ROLLS-ROYCE PLCInventors: Anthony Gordon RAZZELL, Adrian Lewis HARDING
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Publication number: 20130247587Abstract: A system for selectively supplying air between separate plena of a gas turbine engine includes a gas turbine engine, a door, and a bi-metallic door actuator. The gas turbine engine comprises at least a first plenum and a second plenum, and has an opening between the first plenum and the second plenum. The is door mounted in the gas turbine engine and is movable between a closed position, in which air is prevented from flowing through the opening, and an open position, in which air may flow though the opening. The bi-metallic door actuator is coupled to the door and is configured to selectively move the door between the closed position and the open position.Type: ApplicationFiled: March 22, 2012Publication date: September 26, 2013Applicant: HONEYWELL INTERNATIONAL INC.Inventor: Charles Lo
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Publication number: 20130247584Abstract: A gas turbine includes at least one combustor and an exhaust frame; a compressor adapted to supply air to the combustor and to supply bleed air to the exhaust frame. A cooling air supply duct is arranged to supply ambient air to the exhaust frame and at least one ejector is. arranged to supply the bleed air to the cooling air supply duct upstream of the exhaust frame. A control valve is configured to control the supply of compressor bleed air to the cooling air supply duct and to the exhaust frame as a function of turbine exhaust temperature and/or turbine load conditions and cooling requirements at the various turbine load conditions.Type: ApplicationFiled: March 22, 2012Publication date: September 26, 2013Applicant: GENERAL ELECTRIC COMPANYInventors: Ravi Shankar Venkata KASIBHOTLA, Sanyaswara Rao GANTI
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Publication number: 20130239542Abstract: A turbine engine has a fan comprising a duct and supporting struts, a first compressor configured to pressurize inlet air, and a second compressor configured to further pressurize the inlet air. A cooling circuit is located to cool the inlet air after the inlet air is pressurized by the first compressor and before the inlet air is further pressurized by the second compressor, and includes at least intercooler configured to transfer heat from inlet air to a secondary fluid heat sink.Type: ApplicationFiled: March 16, 2012Publication date: September 19, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventors: Arindam Dasgupta, Om P. Sharma
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Publication number: 20130239588Abstract: An engine includes a duct containing a flow of cool air and a pump system having an impeller with an inlet for receiving air from the duct and an outlet for discharging air into a discharge manifold. The discharge manifold containing at least one heat exchanger which forms part of a thermal management system.Type: ApplicationFiled: March 14, 2012Publication date: September 19, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventors: Gabriel L. Suciu, Brian D. Merry, Christopher M. Dye, Jorn A. Glahn
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Patent number: 8534038Abstract: A combined power plant that is capable of reducing the time required for restarting is provided.Type: GrantFiled: March 26, 2008Date of Patent: September 17, 2013Assignee: Mitsubishi Heavy Industries, Ltd.Inventor: Yoshinori Kitaguchi
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Publication number: 20130236301Abstract: Disclosed herein are apparatuses and systems for directing the flow of hot gas exiting a transition piece. In an embodiment, an aft frame an aft frame has an exit face that has an airfoil shape. In an embodiment, a transition piece aft exit has an airfoil shape.Type: ApplicationFiled: March 9, 2012Publication date: September 12, 2013Applicant: General Electric CompanyInventors: Wei Chen, Stacy Ann Holzman, Keith Cletus Belsom, Ronald James Chila, Richard Martin DiCintio
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Publication number: 20130232991Abstract: An airfoil for a turbine engine, the airfoil including a first side wall, a second side wall spaced apart from the first side wall, and an internal cooling channel formed between the first side wall and the second side wall. The internal cooling channel includes at least one pedestal having a first pedestal end connected to the first side wall and a second pedestal end connected to the second side wall. The internal cooling channel also includes a first fillet disposed around the periphery of the first pedestal end between the first side wall and the first pedestal end; and a second fillet disposed around the periphery of the second pedestal end between the second side wall and the second pedestal end. At least one of the first fillet and the second fillet includes a profile that is non-uniform around the periphery of the corresponding pedestal end.Type: ApplicationFiled: March 7, 2012Publication date: September 12, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventor: Edwin Otero
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Publication number: 20130227964Abstract: A transition piece aft frame assembly is provided, and includes a transition piece aft frame and a heat shield. The transition piece aft frame has an aft face. At least a portion of the aft face is exposed to an exhaust gas stream. The heat shield is connected to the transition piece aft frame. The heat shield is oriented to generally deflect the exhaust gas stream away from the aft face of the transition piece aft frame.Type: ApplicationFiled: March 2, 2012Publication date: September 5, 2013Applicant: GENERAL ELECTRIC COMPANYInventors: Christopher Paul Willis, William Lawrence Byrne, David William Cihlar, Donald Timothy Lemon, Patrick Benedict Melton
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Patent number: 8522558Abstract: A gas turbine engine component includes a wall having first and second wall surfaces and first and second cooling holes extending through the wall. The first and second cooling holes each include an inlet located at the first wall surface, an outlet located at the second wall surface, a metering section extending downstream from the inlet and a diffusing section extending from the metering section to the outlet. Each diffusing section includes first and second lobes, each lobe diverging longitudinally and laterally from the metering section. The outlets of each cooling hole include first and second lateral ends and a trailing edge. One of the lateral ends of the outlet of the first cooling hole and one of the lateral ends of the outlet of the second cooling hole meet upstream of the trailing edge of the first cooling hole and the trailing edge of the second cooling hole.Type: GrantFiled: July 9, 2012Date of Patent: September 3, 2013Assignee: United Technologies CorporationInventor: JinQuan Xu
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Patent number: 8522572Abstract: An aircraft adaptive power thermal management system for cooling one or more aircraft components includes an air cycle system, a vapor cycle system, and a fuel recirculation loop operably disposed therebetween. An air cycle system heat exchanger is between the air cycle system and the fuel recirculation loop, a vapor cycle system heat exchanger is between the vapor cycle system and the fuel recirculation loop, and one or more aircraft fuel tanks are in the fuel recirculation loop. An intercooler including a duct heat exchanger in an aircraft gas turbine engine FLADE duct may be in the air cycle system. The system is operable for providing on-demand cooling for one or more of the aircraft components by increasing heat sink capacity of the fuel tanks.Type: GrantFiled: May 27, 2011Date of Patent: September 3, 2013Assignee: General Electric CompanyInventors: George Albert Coffinberry, Neil Richard Garrigan
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Publication number: 20130219920Abstract: A gas turbine engine includes a heat exchanger, a diffuser case, a passageway and a nozzle assembly. The heat exchanger exchanges heat with a bleed airflow to provide a conditioned airflow. The diffuser case includes a plenum that receives the conditioned airflow. The passageway is fluidly connected between the heat exchanger and the diffuser case, and the conditioned airflow is communicated through the passageway and into the plenum. The nozzle assembly is in fluid communication with the plenum of the diffuser case to receive the conditioned airflow from the plenum.Type: ApplicationFiled: February 27, 2012Publication date: August 29, 2013Inventors: Gabriel L. Suciu, Ioannis Alvanos
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Patent number: 8516828Abstract: An assembly and method for providing buffer air and/or ventilation air within a gas turbine engine, the assembly includes an accessory gearbox and a centrifugal compressor. The accessory gearbox is connected to a driven shaft of the gas turbine engine. The centrifugal compressor is driven by the accessory gearbox during operation of the gas turbine engine to receive and compress a bleed air to produce the buffer air and/or the ventilation air. The buffer air and/or the ventilation air is communicated within the gas turbine engine.Type: GrantFiled: February 19, 2010Date of Patent: August 27, 2013Assignee: United Technologies CorporationInventor: Jorn A. Glahn
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Patent number: 8517663Abstract: A cooling system for a turbine engine, as well as a methodology for controlling the cooling system, is described. A valve member is disposed between a cooling fluid passage and a wheel space of the turbine engine and operates to admit cooling fluid to the wheel space for cooling thereof. The valve assembly is responsive to a condition in the wheel space and varies the flow of additional cooling fluid to the wheel space based on that condition.Type: GrantFiled: September 30, 2008Date of Patent: August 27, 2013Assignee: General Electric CompanyInventors: Rex Allen Morgan, Michael Alan Davi, Clement Gazzillo, Harold Lamar Jordan, Jr.
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Patent number: 8516787Abstract: A method involves operating a combined-cycle power plant (10), which has a gas turbine (11) with a compressor (12) and a turbine (13), a heat recovery steam generator (17) which is connected downstream to the gas turbine (11) and is for producing steam in a water/steam cycle, and also at least one once-through cooler (21), through which flows compressed air which is compressed in the compressor (12) and intended for cooling the gas turbine (11), and, cooling down, converts feed-water (24) which is fed from the heat recovery steam generator (17) into steam, and discharges the steam to the heat recovery steam generator (17). The combined-cycle power plant is switched between a first operating mode, in which only the gas turbine cycle is used for power generation, and a second operating mode, in which the gas turbine cycle and the water/steam cycle are used for power generation.Type: GrantFiled: February 29, 2012Date of Patent: August 27, 2013Assignee: ALSTOM Technology Ltd.Inventors: Gijsbertus Oomens, Christoph Ruchti, Francois Droux
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Publication number: 20130205790Abstract: A gas turbine engine component includes a cooling hole. The cooling hole includes an inlet, an outlet, a metering section and a diffusing section. The diffusing section extends from the metering section to the outlet and includes a first lobe diverging longitudinally and laterally from the metering section, a second lobe adjacent the first lobe and diverging longitudinally and laterally from the metering section, and a transition region having a portion that extends between the first and second lobes and an end adjacent the outlet.Type: ApplicationFiled: July 9, 2012Publication date: August 15, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventors: JinQuan Xu, Mark F. Zelesky, Atul Kohli, Matthew S. Gleiner
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Publication number: 20130205802Abstract: A gas turbine engine component includes a wall having first and second wall surfaces and a cooling hole extending through the wall. The cooling hole includes an inlet located at the first wall surface, an outlet located at the second wall surface and a diffusing section in communication with the inlet and extending to the outlet. The diffusing section includes a plurality of crenellation features that encourage lateral spreading of cooling air flowing through the cooling hole.Type: ApplicationFiled: July 9, 2012Publication date: August 15, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventors: Glenn Levasseur, Edward F. Pietraszkiewicz
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Publication number: 20130205801Abstract: A gas turbine engine component includes a wall having first and second wall surfaces and a cooling hole extending through the wall. The cooling hole includes an inlet at the first wall surface, an outlet at the second wall surface, a metering section extending downstream from the inlet and a diffusing section extending from the metering section to the outlet. The diffusing section includes a first lobe diverging longitudinally and laterally from the metering section, a second lobe adjacent the first lobe and diverging longitudinally from the metering section, a third lobe adjacent the second lobe and diverging longitudinally and laterally from the metering section, and a transition region having an end adjacent the outlet and a portion that extends between the lobes and the outlet. The first and third lobes each include a curved outer portion.Type: ApplicationFiled: July 9, 2012Publication date: August 15, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventors: JinQuan Xu, Mark F. Zelesky, Atul Kohli, Matthew S. Gleiner
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Publication number: 20130205803Abstract: A gas turbine engine component includes a wall having first and second wall surfaces and first and second cooling holes extending through the wall. The first and second cooling holes each include an inlet located at the first wall surface, an outlet located at the second wall surface, a metering section extending downstream from the inlet and a diffusing section extending from the metering section to the outlet. Each diffusing section includes first and second lobes, each lobe diverging longitudinally and laterally from the metering section. The outlets of each cooling hole include first and second lateral ends and a trailing edge. One of the lateral ends of the outlet of the first cooling hole and one of the lateral ends of the outlet of the second cooling hole meet upstream of the trailing edge of the first cooling hole and the trailing edge of the second cooling hole.Type: ApplicationFiled: July 9, 2012Publication date: August 15, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventor: JinQuan Xu
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Publication number: 20130205791Abstract: A gas turbine engine component includes a cooling hole. The component includes a first wall having an inlet, a second wall having an outlet and a metering section extending downstream from the inlet and having a substantially convex first surface and a substantially concave second surface. The component also includes a diffusing section extending from the metering section to the outlet. A gas turbine engine wall includes first and second surfaces and a cooling hole extending between an inlet at the first surface and an outlet at the second surface. The cooling hole includes a metering section commencing at the inlet and a diffusing section in communication with the metering section and terminating at the outlet. The metering section includes a top portion having a first arcuate surface and a bottom portion having a second arcuate surface. The first and second arcuate surfaces have arcs extending in substantially similar directions.Type: ApplicationFiled: July 9, 2012Publication date: August 15, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventors: Dominic J. Mongillo, JR., Matthew S. Gleiner
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Publication number: 20130205792Abstract: A gas turbine engine component includes a wall having first and second wall surfaces and a cooling hole extending through the wall. The cooling hole includes an inlet located at the first wall surface, an outlet located at the second wall surface, a metering section extending downstream from the inlet and a diffusing section extending from the metering section to the outlet. The diffusing section includes a first lobe diverging longitudinally from the metering section and a second lobe adjacent the first lobe and diverging longitudinally and laterally from the metering section.Type: ApplicationFiled: July 9, 2012Publication date: August 15, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventors: Matthew S. Gleiner, Atul Kohli, Mark F. Zelesky
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Publication number: 20130192267Abstract: A turbine engine includes a compressor section, a combustor section in fluid communication with the compressor section, a high pressure turbine in fluid communication with the combustor, a low pressure turbine in fluid communication with the high pressure turbine, and a mid turbine frame located axially between the high pressure turbine and the low pressure turbine. The mid turbine frame includes an outer frame case, an inner frame case, and a plurality of hollow spokes that distribute loads from the inner frame case to the outer frame case. The spokes are hollow to allow cooling airflow to be supplied through the spokes to the inner frame case.Type: ApplicationFiled: January 30, 2012Publication date: August 1, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventors: Paul K. Sanchez, Kalpendu J. Parekh, William A. Daniels, John S. Tu
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Publication number: 20130192268Abstract: A turbine engine includes a compressor section, a combustor section in fluid communication with the compressor section, a high pressure turbine in fluid communication with the combustor, a low pressure turbine in fluid communication with the high pressure turbine, and a mid turbine frame located axially between the high pressure turbine and the low pressure turbine. The mid turbine frame includes an outer frame case, an inner frame case, and a plurality of hollow spokes that distribute loads from the inner frame case to the outer frame case. The spokes are hollow to allow cooling airflow to be supplied through the spokes to the inner frame case.Type: ApplicationFiled: January 30, 2013Publication date: August 1, 2013Applicant: UNITED TECHNOLOGIES CORPORATIONInventor: United Technologies Corporation
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Patent number: 8495883Abstract: A turbine engine assembly for a generator including a turbine engine having a compressor section, a combustor section and a turbine section. An air bleed line is in communication with the combustor section for receiving combustor shell air from the combustor section and conveying the combustor shell air as bleed air to a plurality of stages of the turbine section. Bleed air is controlled to flow through the air bleed line when an operating load of the turbine engine assembly is less than a base load of the engine to bypass air exiting the compressor section around a combustor in the combustor section and effect a flow of high pressure combustor shell air to the stages of the turbine section.Type: GrantFiled: February 4, 2010Date of Patent: July 30, 2013Assignee: Siemens Energy, Inc.Inventors: Adam M. Foust, Raymond S. Nordlund, Nitin Chhabra, David A. Little
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Publication number: 20130186101Abstract: An external fluid in a closed loop is used to cool hot gas path components of gas turbine. After cooling the turbine components, the heated external fluid is dumped either in the compressor discharge casing or in the one of the turbine's stages. Where the external fluid is nitrogen to be dumped in the turbine compressor's discharge casing, the nitrogen is compressed using diluent nitrogen compressors. Alternatively, where the external fluid is nitrogen to be dumped in one of the stages of the turbine, the nitrogen is not compressed at all. The turbine blade heat exchangers in the turbine stages through which the nitrogen passes can be connected in parallel or in series for cooling the hot gas path components in the turbine stages. The nitrogen can optionally be mixed with air or steam or not mixed at all.Type: ApplicationFiled: January 24, 2012Publication date: July 25, 2013Applicant: General Electric CompanyInventors: Kamlesh MUNDRA, Ashok Kumar Anand, Veerappan Muthaiah
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Patent number: 8491259Abstract: A seal apparatus in a gas turbine engine between a transition duct and a vane structure in a first row vane assembly. The seal apparatus includes a transition seal structure associated with the transition duct and a vane seal structure associated with the vane structure. The transition seal structure includes a transition base portion that defines a first axially facing surface, a first transition lip member extending axially from the first axially facing surface, and a second transition lip member radially spaced from the first transition lip member and extending axially from the first axially facing surface. The vane seal structure includes a vane base portion that defines a second axially facing surface, a first vane lip member extending axially from the second axially facing surface, and a second vane lip member radially spaced from the first vane lip member and extending axially from the second axially facing surface.Type: GrantFiled: August 26, 2009Date of Patent: July 23, 2013Assignee: Siemens Energy, Inc.Inventor: Muzaffer Sutcu
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Publication number: 20130180261Abstract: A combustor includes first and second annular casings with a joint between the first and second annular casings. A flow sleeve surrounds a combustion chamber to define an annular passage, and an annular shield inside the first annular casing extends downstream from the joint and prevents a working fluid flowing through the annular passage from contacting at least a portion of the first annular casing. A method for reducing thermal stresses in a combustor includes flowing a working fluid from a compressor through an annular passage between a combustion chamber and a flow sleeve inside the combustor, shielding the working fluid flowing through the annular passage from contact with at least a portion of a joint between first and second annular casings, and shielding the working fluid flowing through the annular passage from contact with at least a portion of the first annular casing downstream from the joint.Type: ApplicationFiled: January 13, 2012Publication date: July 18, 2013Applicant: GENERAL ELECTRIC COMPANYInventors: Lucas John Stoia, Patrick Benedict Melton
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Publication number: 20130174564Abstract: A method for determining a cooling flow parameter of a cooling medium supplied through a gas turbine is disclosed. The method may generally include receiving a signal associated with a first value of a combustion product parameter at a location within a combustion zone of the gas turbine, receiving a signal associated with a second value of a combustion product parameter at a location downstream of the combustion zone, comparing the first and second values of the combustion product parameter and determining a cooling flow parameter of the cooling medium based on the comparison of the first and second values.Type: ApplicationFiled: January 6, 2012Publication date: July 11, 2013Applicant: GENERAL ELECTRIC COMPANYInventor: Rex Allen Morgan
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Patent number: 8474239Abstract: An industrial gas turbine engine capable of operating at higher temperatures than air cooled nickel based alloy airfoils in the turbine. The engine burns stoichiometric or rich to produce a hot gas stream that is mostly without oxygen, and the turbine airfoils are made from a high temperature resistant material such as a refractory material that also has poor oxidation resistance. A second small gas turbine engine is used to compress nitrogen gas that is used to pass through the turbine airfoils for cooling where the film cooling nitrogen gas is injected into the hot gas stream but without igniting the fuel rich gas stream.Type: GrantFiled: May 17, 2011Date of Patent: July 2, 2013Assignee: Florida Turbine Technologies, Inc.Inventor: Joseph R Paulino
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Publication number: 20130152601Abstract: A gas turbine engine has, in flow series, a compressor section, a combustor, and a turbine section. The gas turbine engine further has a system for cooling the turbine section and providing tip clearance control between turbine blades and circumferentially distributed segments forming an annular shroud surrounding the blades outer tips. The turbine section cooling sub-system diverts a first cooling air flow, regulated by a first valve arrangement, from the compressor section to a heat exchanger and then to the turbine section to cool its components. The tip clearance control sub-system supplies a second cooling air flow, regulated by a second valve arrangement, to an engine case where the segments are mounted, which regulates thermal expansion of the case and controls the clearance between the segments and outer tips. The system further includes a closed-loop controller which issues demand signals to the first and second valve arrangements.Type: ApplicationFiled: November 20, 2012Publication date: June 20, 2013Applicant: ROLLS-ROYCE PLCInventor: ROLLS-ROYCE PLC
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Publication number: 20130145744Abstract: A system for directing air flow to separate plena of a compartment that is defined at least by a compartment wall includes a NACA scoop, and a Pitot scoop. The NACA scoop is formed in the compartment wall, and includes two side walls, a bottom wall, and an entrance lip that is defined by the compartment wall and is spaced apart from the bottom wall to form a NACA scoop air inlet. The Pitot scoop is longitudinally aligned with the NACA scoop, includes a Pitot scoop air inlet, a Pitot scoop air outlet, and a Pitot scoop flow passage.Type: ApplicationFiled: December 12, 2011Publication date: June 13, 2013Applicant: HONEYWELL INTERNATIONAL INC.Inventors: Charles Lo, Ted Alford, Morris Anderson
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Patent number: 8459934Abstract: A guide blade for a gas turbine includes an inner and an outer platform, an airfoil extending in a radial direction between the inner and the outer platforms and having a height in the radial direction, and at least one cooling channel disposed in an interior of the airfoil and configured to receive a cooling medium flowing through the at least one cooling channel configured to cool the guide blade, wherein a cross-sectional area of a blade material of the airfoil varies over the height.Type: GrantFiled: September 23, 2010Date of Patent: June 11, 2013Assignee: Alstom Technology LtdInventors: Willy Heinz Hofmann, Roland Dueckershoff, Brian Kenneth Wardle
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Patent number: 8459040Abstract: In one exemplary embodiment, a gas turbine engine includes a turbine and a high pressure compressor. The high pressure compressor includes a last stage having a last stage compressor blade and a last stage vane. The gas turbine engine includes a first flow path through which bleed air flows to the turbine and a second flow path through which air from the last stage of the high pressure compressor flows. The bleed air in the first flow path exchanges heat with a portion of the air in the second flow path in a heat exchanger to cool the air in the second flow path. The cooled air in the second flow path is returned to the high pressure compressor to cool the high pressure compressor.Type: GrantFiled: July 9, 2012Date of Patent: June 11, 2013Assignee: United Technologies CorporationInventors: Jorn A. Glahn, Peter M. Munsell, Steven B. Johnson
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Patent number: 8453465Abstract: A device (30) for optimizing the cooling in a gas turbine of the type comprising at least one compressor, equipped with a combustion chamber (10) and an outer casing (16) and inner casing (32), at least one turbine wheel (14), equipped with a series of blades 12), and at least one high-pressure rotor (38), equipped with one or more supporting bearings (34), the compressor being capable of generating cooling air sent to the turbine wheel (14) through a suitable channel (20). On the outer surface of the device (30), there are one or more grooves (26) which allow the passage of additional flow-rates of air from the compressor towards the channel (20), in order to increase the overall cooling air flow towards said turbine wheel (14). The device (30) can be easily installed without the necessity of dismantling the outer casing (16), and is assembled on pre-existing machines in substitution of the vent tube (22) of the seals (36) of the supporting bearings (34).Type: GrantFiled: May 22, 2007Date of Patent: June 4, 2013Assignee: Nuovo Pignone, S.p.A.Inventors: Moreno Baldaccini, Roberto De Prosperis
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Patent number: 8453463Abstract: An anti-vortex device for use in a compressor rotor assembly of a gas turbine engine is described. Spaced-apart radial passageways extend from an axially extending passage provided in a central area of the device to an outer peripheral rim surface thereof. The radial passageways channel air from the primary gaspath about the rotor assembly to the axially extending passage where the air is directed into a central axial passage of the rotor assembly.Type: GrantFiled: May 27, 2009Date of Patent: June 4, 2013Assignee: Pratt & Whitney Canada Corp.Inventors: Daljit Singh Grewal, Alessandro Ciampa, Jean-Francois Caron
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Patent number: 8438874Abstract: Motive power supply equipment for a natural gas liquefaction plant includes gas turbine equipment having a compressor for compressing air, a combustor for generating combustion gases by burning a fuel and the compressed air from the compressor, and a turbine rotated by the combustion gases from the combustor. A low-temperature heat source supply system is provided which, during rated load operation of the gas turbine equipment, supplies carbon dioxide as a cooling medium to the gas turbine equipment in order to cool the gas turbine equipment. The carbon dioxide supplied is generated by separation from the natural gas in the natural gas purification equipment.Type: GrantFiled: January 23, 2008Date of Patent: May 14, 2013Assignee: Hitachi, Ltd.Inventors: Tomomi Koganezawa, Hidefumi Araki, Shinichi Higuchi, Yasuhiro Horiuchi, Mutsumi Horitsugi
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Publication number: 20130104567Abstract: An airfoil for a gas turbine engine is provided that includes a first sidewall and a second sidewall coupled together at a leading edge and a trailing edge, such that a cavity is defined therebetween. A central plenum and an impingement chamber are defined within the cavity. The central plenum channels cooling fluid to the impingement chamber where cooling fluid impinges on the sidewalls. Cooling fluid is discharged from the impingement chamber via film cooling holes.Type: ApplicationFiled: October 31, 2011Publication date: May 2, 2013Inventors: Douglas Gerard Konitzer, Mark Willard Marusko, James Herbert Deines, Brian David Przeslawski, MIchael William Bell, Andrew David William Thiel, Xi Yang
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Publication number: 20130104560Abstract: A gas turbine engine includes a fan section and an intercooling turbine section along an engine axis aft of a fan section and forward of a combustor section.Type: ApplicationFiled: November 1, 2011Publication date: May 2, 2013Inventor: Daniel B. Kupratis
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Publication number: 20130104559Abstract: A thermal management system for a gas turbine engine includes a first heat exchanger that provides a first conditioned fluid, a second heat exchanger in series flow communication with the first heat exchanger and that exchanges heat with the first conditioned fluid to provide a second conditioned fluid, and a third heat exchanger in parallel flow communication with the second heat exchanger and that selectively exchanges heat with the first conditioned fluid to provide a third conditioned fluid. The second conditioned fluid and the third conditioned fluid combine to provide a mixed conditioned fluid. A first portion of the mixed conditioned fluid including a first temperature is communicated to a first engine system. A second portion of the mixed conditioned fluid including a second temperature is communicated to a second engine system. The second temperature includes a greater temperature than the first temperature.Type: ApplicationFiled: October 31, 2011Publication date: May 2, 2013Inventors: Federico Papa, Thomas G. Phillips, Kathleen R. Phillips
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Publication number: 20130098050Abstract: A gas turbine engine includes a fan section and an intercooling turbine section along an engine axis aft of a fan section and forward of a combustor section.Type: ApplicationFiled: November 1, 2011Publication date: April 25, 2013Inventor: Daniel B. Kupratis
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Publication number: 20130098062Abstract: A compressor bleed cooling fluid feed system for a turbine engine for directing cooling fluids from a compressor to a turbine airfoil cooling system to supply cooling fluids to one or more airfoils of a rotor assembly is disclosed. The compressor bleed cooling fluid feed system may enable cooling fluids to be exhausted from a compressor exhaust plenum through a downstream compressor bleed collection chamber and into the turbine airfoil cooling system. As such, the suction created in the compressor exhaust plenum mitigates boundary layer growth along the inner surface while providing flow of cooling fluids to the turbine airfoils.Type: ApplicationFiled: October 25, 2011Publication date: April 25, 2013Inventors: ERIC E. DONAHOO, Christopher W. Ross
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Patent number: 8425223Abstract: An apparatus, a system and a method by which fuel gas to drive a heat source is heated are provided. The apparatus includes a first gas passage by which at least a portion of the fuel gas is transported from an inlet to an outlet, the outlet being fluidly coupled to the heat source, a plurality of heat pipes in thermal communication, at respective first ends thereof, with the portion of the fuel gas transported by the first gas passage, and a heating element, fluidly coupled to the heat source to receive exhaust of the heat source, through which respective second ends of the heat pipes extend to be in position to be heated by the exhaust.Type: GrantFiled: July 29, 2008Date of Patent: April 23, 2013Assignee: General Electric CompanyInventors: Hua Zhang, Jatila Ranasinghe, Dean Matthew Erickson
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Publication number: 20130091858Abstract: A fuel nozzle for a turbine combustor includes a nozzle head configured to supply a fuel/air mixture to a burner tube attached to said nozzle head and extending downstream of the nozzle head. The burner tube is provided with plural holes for introducing a fluid into the burner tube to thereby treat (e.g., cool) an interior wall of the burner tube by effusion.Type: ApplicationFiled: October 14, 2011Publication date: April 18, 2013Applicant: GENERAL ELECTRIC COMPANYInventors: Anand Prafulchandra DESAI, Nitin Subramanya SARJA, Bhaskara Rao ATCHUTA, Ravi Kumar KOYYANA
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Publication number: 20130086915Abstract: A combustion liner assembly is provided and includes a combustion liner and a transition piece. A portion of the transition piece is circumferentially disposed around a portion of the combustion liner. A seal is attached to the transition piece, and the seal is configured to apply a compressive force to an aft end of the combustion liner.Type: ApplicationFiled: October 7, 2011Publication date: April 11, 2013Inventors: David William Cihlar, Ronald James Chila, Patrick Benedict Melton, William David York
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Publication number: 20130086882Abstract: A power plant is provided and includes a gas turbine engine having a combustor in which compressed gas and fuel are mixed and combusted, first and second supply lines respectively coupled to the combustor and respectively configured to supply the compressed gas and the fuel to the combustor and an exhaust gas recirculation (EGR) system to re-circulate exhaust gas produced by the gas turbine engine toward the combustor. The EGR system is coupled to the first and second supply lines and configured to combine first and second portions of the re-circulated exhaust gas with the compressed gas and the fuel at the first and second supply lines, respectively.Type: ApplicationFiled: October 7, 2011Publication date: April 11, 2013Applicant: GENERAL ELECTRIC COMPANYInventors: Ashok Kumar Anand, Thirumala Reddy Nagarjuna Reddy, Jason Brian Shaffer, William David York
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Publication number: 20130081408Abstract: An airfoil for a gas turbine engine includes a first sidewall and a second sidewall coupled together at a leading edge and a trailing edge, such that a cavity is defined therebetween. A plurality of cooling circuits are defined within the cavity. Each cooling circuit channels cooling fluid through at least one cooling chamber to facilitate cooling the airfoil. More specifically, a cascade impingement circuit, a down pass circuit, a flag tip circuit, and a trailing edge circuit are provided. The cascade impingement circuit includes a central chamber and a plurality of impingement chambers.Type: ApplicationFiled: September 30, 2011Publication date: April 4, 2013Inventors: Steve Mark Molter, Steven Robert Brassfield, Richard William Jendrix, Cory Michael Williams, Renee Solomon Wenstrup, Mark Willard Marusko, Mark Edward Stegemiller
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Patent number: 8402771Abstract: A combustor (14) is placed next to a turbine (16), on the side opposite a compressor (12). A heat insulation device (20) for reducing the transmission of heat from the high-temperature side to the low-temperature side is provided between the combustor/turbine and the compressor. A connection shaft (18) has an axial hole (18a) open on the inlet side of the compressor and axially extending to near a turbine impeller, and also has a radial hole (18b) open near the turbine impeller to the outside of the connection shaft and radially extending to be in communication with the axial hole.Type: GrantFiled: June 19, 2012Date of Patent: March 26, 2013Assignee: IHI CorporationInventor: Kosuke Isomura
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Patent number: 8403632Abstract: A method of cooling a gas turbine engine component includes creating a cooling channel within a platform of the component, communicating cooling air into the cooling channel to cool the platform, and recycling the cooling airflow used to cool the platform by communicating the cooling airflow from the cooling channel into the airfoil to cool the airfoil.Type: GrantFiled: November 24, 2010Date of Patent: March 26, 2013Assignee: United Technologies CorporationInventors: Raymond Surace, Andrew D. Milliken