Patents by Inventor Sridhar Adibhatla
Sridhar Adibhatla has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11906163Abstract: A fuel delivery system for a gas turbine engine includes a fuel source; a draw pump downstream of the fuel source for generating a liquid fuel flow from the fuel source; a main fuel pump downstream of the draw pump; and a fuel oxygen reduction unit downstream of the draw pump and upstream of the main fuel pump.Type: GrantFiled: May 1, 2020Date of Patent: February 20, 2024Assignee: General Electric CompanyInventors: Daniel Alan Niergarth, Sridhar Adibhatla, Ethan Patrick O'Connor
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Patent number: 11834196Abstract: A computing system for an unducted rotor engine with a variable pitch vane assembly in aerodynamic relationship with an unducted rotor assembly, including a sensor-based controller configured to execute a first set of operations and a model-based controller configured to execute a second set of operations. The first set of operations includes obtaining a first signal corresponding to a commanded low spool speed; obtaining a second signal indicative of a pitch angle corresponding to thrust output from the unducted rotor assembly and variable pitch vane assembly; generating a pitch feedback signal corresponding to a commanded adjustment to the pitch angle based at least on one or both of a variable blade pitch angle or a variable vane pitch angle. The second set of operations include obtaining a desired thrust output via a throttle input; determining, at least via a power management block, a commanded thrust output signal; receiving the commanded thrust output signal; and generating an output signal.Type: GrantFiled: October 15, 2020Date of Patent: December 5, 2023Assignee: General Electric CompanyInventors: Sridhar Adibhatla, Stefan Joseph Cafaro, Robert Jon McQuiston
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Patent number: 11661859Abstract: A system and method for determining performance of an engine is provided. The system includes two or more sensors configured in operable arrangement at two or more respective positions at a flowpath. The system includes one or more computing devices configured to perform operations, the operations include acquiring, via the two or more sensors, parameter sets each corresponding to two or more engine conditions different from one another, wherein each parameter set indicates a health condition at a respective location at the engine; comparing, via the computing device, the parameter sets to determine the respective health condition corresponding to the respective location at the engine; and generating, via the computing device, a health condition prediction based on the compared parameter sets.Type: GrantFiled: October 30, 2020Date of Patent: May 30, 2023Assignee: General Electric CompanyInventors: Sridhar Adibhatla, John Thomas Herbon
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Publication number: 20220338390Abstract: A mechanical assembly includes a power semiconductor device located inside of a mechanical enclosure, and a magnetic component located outside of the mechanical enclosure and operably connected to the power semiconductor device. The power semiconductor device and the magnetic component are cooled via a common air pathway outside of the mechanical enclosure. A power converter includes a powered semiconductor device located inside of a mechanical enclosure, the power semiconductor device configured to convert DC input power to AC output power, and an inductor located outside of the mechanical enclosure and operably connected to the power semiconductor device. The power semiconductor device and the magnetic component are cooled via a common air pathway outside of the mechanical enclosure.Type: ApplicationFiled: April 14, 2022Publication date: October 20, 2022Inventors: Xu She, XuQiang Liao, Vinay Kumar Vinnakota, Vijaylakshmi Bondapalli, Sridhar Adibhatla, Daxesh Kishor Pandya
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Patent number: 11447263Abstract: A method of operating a fuel oxygen reduction unit for a vehicle or a gas turbine engine of the vehicle is provided. The fuel oxygen reduction unit including a contactor and a fuel gas separator, and further defining a stripping gas flowpath in flow communication with a stripping gas inlet of the contactor and a stripping gas outlet of the fuel gas separator. The method includes receiving data indicative of a parameter of a stripping gas flow through the stripping gas flowpath or of a component in flow communication with the stripping gas flow through the stripping gas flowpath; and determining an operability condition of the fuel oxygen reduction unit, or a component operable with the fuel oxygen reduction unit, based on the data received indicative of the parameter of the stripping gas flow or of the component in flow communication with the stripping gas flow.Type: GrantFiled: November 2, 2018Date of Patent: September 20, 2022Assignee: General Electric CompanyInventors: Ethan Patrick O'Connor, Daniel Alan Niergarth, Brandon Wayne Miller, Sridhar Adibhatla
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Publication number: 20220097864Abstract: A system and method for optimizing performance of an aircraft or boat through detection and trending of engine deterioration based on the performance of the vehicle's gas turbine. The system and method detects declines in engine power due to either of in-transit events or over the extended lifetime of the engine, the declines being due to routine engine part aging or an event. As engine power gradually or suddenly deteriorates, the system and method lowers a maximum operating line which defines the safe limits for peak engine power consumption during flight. For in-transit events, the system and method detects when actual power consumption is approaching the current maximum operating line. The controller may then automate changes to operations of entirely separate aircraft systems, such as rebalancing electrical energy consumption by various non-engine elements of the aircraft.Type: ApplicationFiled: September 10, 2021Publication date: March 31, 2022Inventors: Mehdi M. Baladi, Aniello Esposito, Sridhar Adibhatla, Kathleen K. Collins
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Patent number: 11280213Abstract: A system and method for determining leakage in a fluid supply line assembly are provided. The system includes a source of pressurized fluid, a pressurized fluid load, and a fluid supply line coupled to the source and the load. The leak detection system also includes a source isolation valve configured to control a flow of fluid into the fluid supply line from the source, a load isolation valve configured to control a flow of fluid from the fluid supply line to the pressurized fluid load, and a processor communicatively coupled to a memory device. The memory device includes instructions that when executed by the processor, cause the processor to close the load isolation valve and open the source isolation valve to supply pressurized fluid to the fluid supply line, and after a predetermined interval, determine a leakage of pressurized fluid from the fluid supply line.Type: GrantFiled: April 19, 2017Date of Patent: March 22, 2022Assignee: General Electric CompanyInventors: John Thomas Lammers, Philip Allen Najlepszy, Sridhar Adibhatla
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Patent number: 11230385Abstract: A hybrid-electric propulsion system for an aircraft includes a turbomachine, the turbomachine including a first spool and a second spool. A method for operating the hybrid electric propulsion system includes operating, by one or more computing devices, the turbomachine such that the first spool mechanically drives a prime propulsor of the hybrid-electric propulsion system; and modifying, by the one or more computing devices, a speed relationship parameter defined between the first spool and second spool by providing electrical power to, or drawing electrical power from, an electric machine mechanically coupled to the first spool, the second spool, or both.Type: GrantFiled: June 8, 2017Date of Patent: January 25, 2022Assignee: General Electric CompanyInventors: Sridhar Adibhatla, Robert Charles Hon, Michael Thomas Gansler
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Patent number: 11187156Abstract: A combustion engine includes a combustion section; a fuel delivery system for providing a fuel flow to the combustion section, the fuel delivery system including an oxygen reduction unit for reducing an oxygen content of the fuel flow; a thermal management system including a heat sink heat exchanger, the heat sink heat exchanger in thermal communication with the fuel delivery system at a location downstream of the oxygen reduction unit; and a control system including a sensor operable with the fuel delivery system for sensing data indicative of an operability of the oxygen reduction unit and a controller operable with the sensor, the controller configured to initiate a corrective action based on the data sensed by the sensor indicative of the operability of the oxygen reduction unit.Type: GrantFiled: November 21, 2017Date of Patent: November 30, 2021Assignee: General Electric CompanyInventors: Daniel Alan Niergarth, Sridhar Adibhatla, Brandon Wayne Miller, David William Crall
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Publication number: 20210341145Abstract: A fuel delivery system for a gas turbine engine includes a fuel source; a draw pump downstream of the fuel source for generating a liquid fuel flow from the fuel source; a main fuel pump downstream of the draw pump; and a fuel oxygen reduction unit downstream of the draw pump and upstream of the main fuel pump.Type: ApplicationFiled: May 1, 2020Publication date: November 4, 2021Inventors: Daniel Alan Niergarth, Sridhar Adibhatla, Ethan Patrick O'Connor
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Patent number: 11105269Abstract: The present disclosure is directed to a method of control of a gas turbine engine comprising a fan section coupled to a low turbine together defining a low spool, an intermediate compressor coupled to an intermediate turbine together defining an intermediate spool, and a high compressor coupled to a high turbine together defining a high spool. The method includes providing an intermediate spool speed to low spool speed characteristic curve to a controller; providing a commanded power output to the controller; providing one or more of an environmental condition to the controller; determining, via the controller, a commanded fuel flow rate; determining, via the controller, a commanded intermediate compressor loading; and generating an actual power output of the engine, wherein the actual power output is one or more of an actual low spool speed, an actual intermediate spool speed, an actual high spool speed, and an actual engine pressure ratio.Type: GrantFiled: May 12, 2017Date of Patent: August 31, 2021Assignee: General Electric CompanyInventors: Thomas Ory Moniz, Alan Roy Stuart, James William Simunek, Jeffrey Donald Clements, Brandon Wayne Miller, Sridhar Adibhatla
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Publication number: 20210262398Abstract: A method for operating a gas turbine engine having a starter-electric generator driven by one of a plurality of shafts of the gas turbine engine is provided. The method includes determining a desired amount of thrust to be produced by the gas turbine engine, as well as a desired amount of electrical power to be generated by the starter-electric generator of the gas turbine engine. The method operates the gas turbine engine to produce the desired amount of thrust, while producing less than the desired amount of electrical power using the starter-electric generator. Producing less than the desired amount of electrical power using the starter-electric generator allows for the desired amount of thrust production, or allows for the desired amount of thrust production more quickly.Type: ApplicationFiled: May 11, 2021Publication date: August 26, 2021Inventors: Paul Robert Gemin, Sridhar Adibhatla, Arthur Vorwerk Radun, Kevin Richard Leamy
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Publication number: 20210108575Abstract: A computing system for an unducted rotor engine with a variable pitch vane assembly in aerodynamic relationship with an unducted rotor assembly, including a sensor-based controller configured to execute a first set of operations and a model-based controller configured to execute a second set of operations. The first set of operations includes obtaining a first signal corresponding to a commanded low spool speed; obtaining a second signal indicative of a pitch angle corresponding to thrust output from the unducted rotor assembly and variable pitch vane assembly; generating a pitch feedback signal corresponding to a commanded adjustment to the pitch angle based at least on one or both of a variable blade pitch angle or a variable vane pitch angle. The second set of operations include obtaining a desired thrust output via a throttle input; determining, at least via a power management block, a commanded thrust output signal; receiving the commanded thrust output signal; and generating an output signal.Type: ApplicationFiled: October 15, 2020Publication date: April 15, 2021Inventors: Sridhar Adibhatla, Stefan Joseph Cafaro, Robert Jon McQuiston
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Publication number: 20210108576Abstract: A propulsion system is provided, the propulsion system including a variable pitch rotor assembly including a plurality of blades coupled to a disk. The plurality of blades includes a first blade configured to articulate a first blade pitch separately from a second blade configured to articulate a second blade pitch. A vane assembly is positioned in aerodynamic relationship with the variable pitch rotor assembly. A core engine including a high speed spool and a low speed spool, wherein the low speed spool is operably coupled to the rotor assembly. One or more controllers is configured to execute operations. The operations include articulating the first blade of the rotor assembly, wherein articulating the first blade alters the first blade pitch, and articulating the second blade of the rotor assembly, wherein articulating the second blade alters the second blade pitch.Type: ApplicationFiled: October 15, 2020Publication date: April 15, 2021Inventors: Sridhar Adibhatla, Stefan Joseph Cafaro, Robert Jon McQuiston
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Publication number: 20210062675Abstract: A system and method for determining performance of an engine is provided. The system includes two or more sensors configured in operable arrangement at two or more respective positions at a flowpath. The system includes one or more computing devices configured to perform operations, the operations include acquiring, via the two or more sensors, parameter sets each corresponding to two or more engine conditions different from one another, wherein each parameter set indicates a health condition at a respective location at the engine; comparing, via the computing device, the parameter sets to determine the respective health condition corresponding to the respective location at the engine; and generating, via the computing device, a health condition prediction based on the compared parameter sets.Type: ApplicationFiled: October 30, 2020Publication date: March 4, 2021Inventors: Sridhar Adibhatla, John Thomas Herbon
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Patent number: 10822993Abstract: A system and method for determining performance of a turbine engine, and operation thereof. The system and method includes a plurality of sensors and one or more computing devices executing operations including acquiring a plurality of parameter sets each corresponding to a plurality of engine conditions in which each parameter set corresponding to each engine condition indicates a health condition at a plurality of locations at the engine; comparing the plurality of parameter sets to determine a health condition corresponding to a location at the engine; and generating a health condition prediction at the engine based on the compared parameters.Type: GrantFiled: June 6, 2018Date of Patent: November 3, 2020Assignee: General Electric CompanyInventors: Sridhar Adibhatla, John Thomas Herbon
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Patent number: 10794286Abstract: A method of modulating cooling flow to an engine component based on a health of the component is provided. The method includes determining a cooling flow requirement of the engine component for each of a plurality of operating conditions and channeling the determined required flow to the engine component during each respective operating condition of the plurality of operating conditions. The method also includes assessing a health of the engine component. The method further includes modifying the determined cooling flow requirement based on the assessed health of the engine component, and supplying the modified cooling flow requirement to the engine component during each subsequent respective operating condition of the plurality of operating conditions.Type: GrantFiled: February 16, 2016Date of Patent: October 6, 2020Assignee: General Electric CompanyInventor: Sridhar Adibhatla
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Patent number: 10762726Abstract: A computer-implemented method of assessing a health of a gas turbine engine of a hybrid-electric propulsion system for an aircraft includes receiving, by one or more computing devices, data indicative of an amount of electrical power provided to, or extracted from, an electric machine. The method also includes receiving, by the one or more computing devices, data indicative of an operating parameter of the hybrid-electric propulsion system. The method also includes assessing, by the one or more computing devices, a health of the gas turbine engine based at least in part on the received data indicative of the amount of electrical power provided to, or extracted from, the electric machine and the received data indicative of the operating parameter of the hybrid electric propulsion system. The method also includes providing, by the one or more computing devices, information to a user indicative of the health of the gas turbine engine.Type: GrantFiled: June 13, 2017Date of Patent: September 1, 2020Assignee: General Electric CompanyInventors: Michael Thomas Gansler, Sridhar Adibhatla, Brandon Wayne Miller
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Publication number: 20200140112Abstract: A method of operating a fuel oxygen reduction unit for a vehicle or a gas turbine engine of the vehicle is provided. The fuel oxygen reduction unit including a contactor and a fuel gas separator, and further defining a stripping gas flowpath in flow communication with a stripping gas inlet of the contactor and a stripping gas outlet of the fuel gas separator. The method includes receiving data indicative of a parameter of a stripping gas flow through the stripping gas flowpath or of a component in flow communication with the stripping gas flow through the stripping gas flowpath; and determining an operability condition of the fuel oxygen reduction unit, or a component operable with the fuel oxygen reduction unit, based on the data received indicative of the parameter of the stripping gas flow or of the component in flow communication with the stripping gas flow.Type: ApplicationFiled: November 2, 2018Publication date: May 7, 2020Inventors: Ethan Patrick O'Connor, Daniel Alan Niergarth, Brandon Wayne Miller, Sridhar Adibhatla
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Patent number: 10633104Abstract: A method of operating a hybrid-electric propulsion system for an aircraft includes determining a flight phase parameter for the aircraft is equal to a first value, and operating the hybrid-electric propulsion system in an electric charge mode in response to determining the flight phase parameter for the aircraft is equal to the first value. The method also includes determining the flight phase parameter for the aircraft is equal to a second value different from the first value, and operating the hybrid-electric propulsion system in an electric discharge mode in response to determining the flight phase parameter for the aircraft is equal to the second value.Type: GrantFiled: May 17, 2017Date of Patent: April 28, 2020Assignee: General Electric CompanyInventors: Brandon Wayne Miller, Michael Thomas Gansler, Sridhar Adibhatla, Daniel E. Bergsten, Nicholas Adam Wagner, David Allen Gutz