Abstract: A fuel supply system for a gas turbine engine comprises a housing having a housing interior chamber and a fuel swirler disposed inside the housing interior chamber. The fuel swirler has an upstream end and downstream end relative to a fuel flow direction along a fuel nozzle longitudinal axis. The fuel swirler has a first axial fuel passage along the longitudinal axis in fluid communication with a first fuel supply and terminating at a first fuel outlet at the downstream end, a second axial fuel passage along the longitudinal axis in fluid communication with a second fuel supply and terminating at a second fuel outlet at the downstream end, and a plurality of compressed air outlets at the downstream end. The first fuel outlet is positioned on an outermost surface of the fuel swirler and leads directly to a mixing site downstream of the fuel swirler.
Abstract: A support plate for an engine casing includes an anti-rotation rib abutting an outer flange wall of the casing and a misalignment tab extending radially outwardly from the anti-rotation rib. The support plate has a support plate hole configured to be aligned with one flange hole of a flange of the casing.
Type:
Grant
Filed:
October 29, 2021
Date of Patent:
June 11, 2024
Assignee:
PRATT & WHITNEY CANADA CORP.
Inventors:
Bernadette Mason, Gennadii Dorozhkin, Jesse Albus, Tibor Urac
Abstract: A system and method for object classification and related applications based on frame and event camera processing is provided. The system acquires an output of image sensor circuitry and determines a first object classification result based on feature points associated with first objects in a first frame of the acquired output. The system executes an event-camera signal processing operation on at least two frames of the acquired output to generate an event frame. The generated event frame includes pixel-level movement information associated with second objects. The system determines a second object classification result based on the pixel-level movement information and determines one or more object classification tags based on the determined first and the determined second object classification result. The determined one or more object classification tags correspond to one or more objects, included in at least the first objects and the second objects.
Abstract: In accordance with at least one aspect of this disclosure, there is provided a heat exchange system. The heat exchange system includes a first heat exchanger and a second heat exchanger. The first heat exchanger includes an engine fluid conduit fluidly connecting an engine fluid inlet to an engine fluid outlet. A first internal buffer fluid conduit fluidly connects a first buffer fluid inlet to a first buffer fluid outlet where the engine fluid conduit is in fluid isolation from the first internal buffer fluid conduit but is in thermal communication with the first internal buffer fluid conduit for heat exchange between the engine fluid and the buffer fluid.
Abstract: A gas turbine engine includes a fan rotor, a compressor section, a combustor section, and a turbine section. The turbine section is positioned downstream of the combustor section. A fan drive turbine in the turbine section, and a shaft connects the fan drive turbine to the fan rotor. An inlet duct is connected to a cooling air source and connected to a cooling compressor downstream of the fan drive turbine. The cooling compressor is connected to an air source, and connected to a turning duct for passing compressed air in an upstream direction through the shaft. A method is also disclosed.
Abstract: Disclosed is a fuel system for a gas turbine engine having a core exhaust and a combustion section. The system comprises a fuel pump for fluid communication with a fuel reservoir; a driving turbine for driving the fuel pump; and an air feed to drive the driving turbine, the air feed being fluidly connectable to the core exhaust of the gas turbine engine. Also disclosed is a fuel system comprising: a fuel pump for fluid communication with a fuel reservoir; a fuel line from the fuel pump for fluid communication with the combustion section of the gas turbine engine; and an air feed to a heat exchanger, the air feed being fluidly connectable to the core exhaust of the gas turbine engine, wherein the fuel line is in thermal communication with the air feed within a heat exchanger.