Gas Turbine, Compressor Patents (Class 701/100)
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Patent number: 8775049Abstract: A method for evaluating the state of a fuel-air mixture and/or the combustion in a combustion chamber of an internal combustion engine, with sample signals of flame light signals being stored in a database, and with flame light signals of the combustion in the combustion chamber being detected and compared with the stored sample signals, and with an evaluation of the state being output in the case of coincidence between the measured and stored signal patterns. In order to enable the monitoring of the combustion in the simplest possible way the sample signals in the database are stored with the assigned emission values and an evaluation of the state of the combustion is performed with respect to the obtained emissions in the case of coincidence between the measured and stored signal patterns for the combustion chamber of the respective cylinder.Type: GrantFiled: November 29, 2011Date of Patent: July 8, 2014Assignee: AVL List GmbHInventors: Ernst Winklhofer, Heribert Fuchs, Alois Hirsch, Harald Philipp
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Patent number: 8762025Abstract: A method for controlling a gas turbine including a compressor assembly including at least one variable geometry portion, a combustion chamber, and a turbine assembly. The method generates a flow rate setpoint value for fuel to be fed to the combustion chamber as a function of a desired speed of the gas turbine, computes threshold values for maintaining the fuel flow setpoint value in a given range, the threshold values depending on a thermodynamic state of the gas turbine, and controls the position of the variable geometry portion by controlling an actuator as a function of the difference between position information representative of the instantaneous position and setpoint position information. The threshold values are automatically adjusted by computation in real time as a function of the instantaneous position information of the variable geometry portion or of the difference between this position information and the setpoint position information.Type: GrantFiled: January 15, 2010Date of Patent: June 24, 2014Assignee: SNECMAInventor: Christian Aurousseau
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Patent number: 8755985Abstract: A method of monitoring at least one limited-lifetime part. During an identification step (STP1), storage means (40) store a list including a reference for each limited-lifetime part of an engine (3). During an information-search step (STP2), the storage means (40) communicate with a centralized data system (DB) in order to store for each identified part the corresponding maintenance data. During a monitoring step (STP3), the wear of the engine is monitored by using the information stored in the storage means (40).Type: GrantFiled: February 6, 2013Date of Patent: June 17, 2014Assignee: Airbus HelicoptersInventor: Hilario Vieira
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Publication number: 20140163838Abstract: An operations support system is provided for an engine with a turbine having a turbine inlet. The system includes a diagnostic engine model unit configured to receive engine data from the engine and to generate diagnostics data based on the engine data, the diagnostics data including scalars. The system further includes an engine-specific model unit coupled to the diagnostic engine model unit and configured to receive the scalars from the diagnostic engine model unit and configured to generate turbine inlet temperature information for the engine using a thermodynamic model. The thermodynamic model is based on component maps associated with the engine. The system further includes a storage unit coupled to the engine-specific model unit and configured to store the turbine inlet temperature information.Type: ApplicationFiled: December 6, 2012Publication date: June 12, 2014Applicant: HONEYWELL INTERNATIONAL INC.Inventors: Kevin Moeckly, Richard Ling, Robert Sandoval
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Patent number: 8751423Abstract: A turbine performance diagnostic system creates a performance report for one or more turbines and includes an assessment module that receives operating data from at least one turbine and produces a performance report from the operating data. The assessment module includes a change detection module configured to determine when at least one parameter has changed beyond an associated threshold and generate an alarm and a root cause analyzer coupled to the change detection module that predicts a root cause of the alarm utilizing a Bayesian Belief Network (BBN). The performance report includes an indication of the predicted root cause.Type: GrantFiled: November 30, 2010Date of Patent: June 10, 2014Assignee: General Electric CompanyInventors: Achalesh Kumar Pandey, Subrat Nanda, Maria Cecilia Mazzaro, Atanu Talukdar
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Publication number: 20140156165Abstract: A system includes a controller configured to control one or more parameters of a gas turbine engine based on a feedback and a predicted lifespan of one or more components of the gas turbine engine to substantially maintain at least one of power output or heat rate above a threshold level in response to degradation or fouling of the gas turbine engine.Type: ApplicationFiled: November 30, 2012Publication date: June 5, 2014Applicant: GENERAL ELECTRIC COMPANYInventors: David Spencer Ewens, John Rogers Huey, Marc Gavin Lindenmuth
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Patent number: 8738326Abstract: A method of performance calculation and comparison is provided and includes collecting, at a central location, data relating to a performance characteristic of a machine, calculating at the central location and from the collected data, the performance characteristic of the machine and comparing the calculated performance characteristic with a target performance characteristic.Type: GrantFiled: March 23, 2011Date of Patent: May 27, 2014Assignee: General Electric CompanyInventors: Phani Raghavender Gurijala, William Theadore Fisher, Rajan Gupta, Mallikarjan Puttappa Narayanpur, Ryan Margate Pastrana, Eric Thomas Pool, Subramaniam Krishnakumar Sastry, Janna Christiaanse Walsh, Difei Wang
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Patent number: 8731797Abstract: A tuning process is provided for monitoring fuel properties of a fuel being consumed by a gas turbine (GT) engine, and for dynamically tuning the GT engine as a function of changes to the monitored fuel properties. Initially, readings are taken from the GT engine during a reference calibration, or commissioning, and utilized to calculate an initial-pressure-drop reference value. The tuning process during commercial operation takes post-calibration readings from the GT engine to calculate a fuel property parameter, which represents a heating value of the fuel. Specifically, the fuel property parameter is calculated by deriving a corrected-pressure-drop dynamic value as a function of pressure and temperature readings of the fuel at a point upstream of a combustor and pressure drops across fuel nozzles that introduce the fuel into the combustor, and solving a ratio of the dynamic value and the reference value.Type: GrantFiled: April 14, 2011Date of Patent: May 20, 2014Assignee: Alstom Technology Ltd.Inventors: Nicolas Demougeot, Donald Gauthier, Peter Stuttaford, Hany Rizkalla
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Patent number: 8731798Abstract: In a temperature estimation apparatus for an aeroplane gas turbine engine, there are provided with a calculator that calculates a low-pressure turbine outlet temperature change (dEGT) based on low-pressure turbine rotational speed (N1) and ambient temperature (T1), a calculator that calculates a model outlet temperature (MODEL-EGTC) based on corrected high-pressure turbine rotational speed (N2C) and atmospheric pressure (P0) to calculate a model outlet temperature difference (dEGTC) by subtracting the calculated temperature (MODEL-EGTC) from a corrected low-pressure turbine outlet temperature (EGTC), a calculator that calculates a correction amount (dEGTad) relative to the model outlet temperature difference (dEGTC) based on the model outlet temperature difference (dEGTC) and low-pressure turbine rotational speed (N1), and a calculator that calculates an estimation value of the low-pressure turbine inlet temperature (ITT) based on the low-pressure turbine outlet temperature (EGT), etc.Type: GrantFiled: September 15, 2011Date of Patent: May 20, 2014Assignee: Honda Motor Co., Ltd.Inventors: Hironori Muramatsu, Tomohisa Saita
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Patent number: 8720201Abstract: A method of sensing a reduction in fuel screen area in a fuel system. The method includes detecting an engine shutdown, initiating an electronic engine control (EEC) built in test, shifting a metering valve from a first position to a second position, determining a travel time of the metering valve, and sensing a reduction in fuel screen area based on the travel time of the metering valve.Type: GrantFiled: November 24, 2010Date of Patent: May 13, 2014Assignee: Hamilton Sundstrand CorporationInventors: David L. Chapski, Thomas A. Bush
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Patent number: 8725384Abstract: A turbine to detect a flame holding event includes a combustion section to receive a fluid from a compressor, to heat the fluid by combusting a fuel to generate heat, and to output the heated fluid to a turbine section. The combustion section includes a combustor having a combustion chamber in which the fuel is combusted, and the combustion section having a sensor to sense a static pressure within the combustion chamber. A combustion control device detects a flame holding event in the combustion chamber based only on the sensed static pressure.Type: GrantFiled: February 10, 2012Date of Patent: May 13, 2014Assignee: General Electic CompanyInventors: Anthony Wayne Krull, Gilbert Otto Kraemer
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Publication number: 20140129111Abstract: The system for mitigating an overspeeding condition of a turbine engine can include a sensor for measuring an actual speed of a gas generator turbine of the turbine engine and a processor for deriving a delta, the delta being a comparison between the actual speed of the gas generator turbine and a predicted gas generator turbine speed. The system is configured for detecting the overspeeding condition when delta is higher than a predetermined threshold. A method of detecting an overspeeding condition during operation of a turbine engine can include measuring an actual speed of a gas generator turbine, then evaluating a delta between the actual speed of the gas generator turbine and a predicted speed of the gas generator turbine, then comparing the delta to a threshold value.Type: ApplicationFiled: November 2, 2012Publication date: May 8, 2014Applicant: BELL HELICOPTER TEXTRON INC.Inventors: Joseph M. Schaeffer, Areian A. Kouros, Christopher Cawelti, Curtis L. Moore, Michael D. Trantham
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Publication number: 20140121934Abstract: Systems and methods for detecting a shaft shear event in a turbine engine. An accelerometer coupled to the engine detects an axial acceleration indicative of a shaft shear event in the engine. A control system is configured to, in response to the detected axial acceleration, transmit a signal to initiate a shut down of a fuel system of the engine.Type: ApplicationFiled: October 26, 2012Publication date: May 1, 2014Inventor: Kevin Allan DOOLEY
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Publication number: 20140121935Abstract: Systems and methods for model based control tuning for gas turbine systems. In one embodiment, a nonlinear optimization process with multiple nonlinear constraints can create a set of control schedules that can work across an ambient range based on specific unit characteristics derived from a single test ambient. As part of model based control for a gas turbine system, all of the control schedules can be defined based on a nominal unit. Multiple control loops may be active across the ambient range with each control loop being active at a different ambient condition. This tuning process can provide a set of control schedules to provide improved performance for a specific gas turbine system or unit over a wide operation range.Type: ApplicationFiled: November 1, 2012Publication date: May 1, 2014Applicant: GENERAL ELECTRIC COMPANYInventors: Daili Zhang, James Anthony West
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Patent number: 8712665Abstract: Certain embodiments of the invention may include systems and methods for providing unchoked control of gas turbine fuel control valves. According to an exemplary embodiment of the invention, a method is provided for active control of a gas flow control valve. The method may include receiving a desired fuel command and an inlet pressure parameter, and determining a gas flow gain based at least in part on the inlet pressure parameter. The method may also include determining a valve flow coefficient based at least in part on the desired fuel command and the gas flow gain, and controlling the gas flow control valve based at least in part on the valve flow coefficient.Type: GrantFiled: January 15, 2010Date of Patent: April 29, 2014Assignee: General Electric CompanyInventors: Scott William Szepek, Michael John Mariani, Robert Loeven
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Publication number: 20140114549Abstract: An engine monitoring module includes a housing configured to be mounted at the aircraft engine and a first wireless transmitter carried by the housing. A memory is carried by the housing and a processor is carried by the housing and coupled to the memory and the first wireless transmitter and configured to collect and store in the memory engine data relating to at least one engine parameter sensed during operation of the aircraft engine by a plurality of engine sensors that transmit the engine data via the first wireless transmitter. A wireless receiver is located within the aircraft and configured to receive the engine data transmitted from the first wireless transmitter. A second wireless transmitter is located within the aircraft and operatively connected to the wireless receiver and configured to receive and transmit the engine data.Type: ApplicationFiled: January 7, 2014Publication date: April 24, 2014Applicant: Harris CorporationInventor: JAMES J. ZIARNO
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Patent number: 8682563Abstract: A system for predicting turbine rub includes a monitoring system configured to form operational values for a turbine based on information received from the turbine and a correlation engine configured to form at least one correlated value from the operating values that correlates a first operating value to a second operating value. The system also includes a variable deriver configured to form at least one derived variable from a one of the operating values and a rub predictor that forms a rub prediction based on the at least one correlated value and the at least one derived value.Type: GrantFiled: August 30, 2011Date of Patent: March 25, 2014Assignee: General Electric CompanyInventors: Molli Anne Malcolmson, Debasis Bal, Rajagopolan Chandrasekharan, Roopesh Ranjan
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Publication number: 20140081547Abstract: An electronic engine controller includes a commanded rotor speed input, an altitude input, and a current rotor speed input, a computer processor, and a memory storing a prediction logic. The prediction logic is operable to cause the processor to determine a predictive value representative of a closed loop transient response of a propulsion system's actual corrected low rotor speed in response to a commanded change in low rotor speed.Type: ApplicationFiled: September 20, 2012Publication date: March 20, 2014Applicant: United Technologies CorporationInventor: Ramesh Rajagopalan
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Publication number: 20140069105Abstract: Methods and devices for anticipating a surge in a gas turbine engine. Controlled pressure signal(s) may be compared with reference pressure signal(s), each of the controlled pressure signal(s) and reference pressure signal(s) having an associated time value. If the controlled pressure signal(s) are less than the reference pressure signal(s), a controlled pressure curve may be fitted through a predetermined number of points based on the controlled pressure value(s) and associated time value(s). A reference pressure curve may be fitted through the predetermined number of points based on the reference pressure value(s) and associated time value(s). A time to compressor surge may be estimated based on an intersection of the controlled pressure curve and the reference pressure curve.Type: ApplicationFiled: September 13, 2012Publication date: March 13, 2014Applicant: PRATT & WHITNEY CANADA CORP.Inventor: Tuyen Trong HOANG
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Patent number: 8666632Abstract: A gas turbine engine includes a plurality of fuel injectors grouped operatively by stages in a multistage combustor. A fuel system for the gas turbine engine includes at least one fuel metering module per stage of the multistage combustor. Each fuel metering module includes a pump, a flow meter, a pressure sensor, a controller, and a motor, which work together to control fuel output.Type: GrantFiled: April 20, 2011Date of Patent: March 4, 2014Assignee: Hamilton Sundstrand CorporationInventors: Thaddeus J. Zebrowski, Richard E. Versailles
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Patent number: 8666568Abstract: A method of performing a health check of at least one turbine engine (3). During a development step (STP0), the installation losses (1) are quantified for a plurality of test values for a reduced speed of rotation (Ng?) of a gas generator (4) of the engine. During an acquisition step (STP1), the speed of rotation of said gas generator (4) is increased until said engine develops a maximum power, and then the speed of rotation of the gas generator (4) is decreased until the reduced speed of rotation (Ng?) reaches a test value. The aircraft is stabilized and at least one monitoring value is acquired. During an evaluation step (STP2) of evaluating the health check, at least one operating margin is determined by using a monitoring value and the effects of mounting the engine in an airplane.Type: GrantFiled: January 9, 2013Date of Patent: March 4, 2014Assignee: EurocopterInventor: Emmanuel Camhi
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Patent number: 8666633Abstract: An engine system for starting a gas turbine engine is provided. The system includes a starter generator coupled to the gas turbine engine and configured to provide torque to the gas turbine engine and a controller coupled to the starter generator and configured to provide a command signal to the starter generator. The starter generator provides the torque to the gas turbine engine based on the command signal, and the controller is configured to command the starter generator at a dwell speed until ignition.Type: GrantFiled: February 7, 2012Date of Patent: March 4, 2014Assignee: Honeywell International Inc.Inventors: Timothy Ertz, Thomas Nesdill, Mike Baron, Paul Otto
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Publication number: 20140058644Abstract: A method for reducing a turbine clearance between a plurality of rotor blades of a turbine engine and a shroud of the turbine engine is provided. Said method includes determining, with a flight operation controller, that an airplane is in a first flight condition, wherein the first flight condition is associated with a first turbine clearance and a first engine responsiveness level, determining, with the flight operation controller, that the airplane is in a second flight condition, adjusting an engine responsiveness level from the first engine responsiveness level to a second engine responsiveness level based on determining the airplane is in the second flight condition, and adjusting the turbine clearance from the first turbine clearance to a second turbine clearance based on the engine responsiveness level.Type: ApplicationFiled: July 30, 2013Publication date: February 27, 2014Applicant: General Electric CompanyInventors: Sridhar Adibhatla, Steven Edward Nolte, Gerhard Walter Moeller, Christopher Timothy Gallagher, John William Hanify, Grant Alan Ingram
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Patent number: 8660771Abstract: A method for detecting the opening of a thrust reverser for a jet engine of an aircraft is disclosed. According to the method, an operating parameter of the turbojet (1) is determined being responsive to the opening of a mobile element (2a, 2b) of the thrust reverser and reacting to such an opening by a sudden variation of the value thereof, the parameter is measured continuously and the mobile element (2a, 2b) is considered as being opened when the sudden variation is detected.Type: GrantFiled: May 28, 2010Date of Patent: February 25, 2014Assignee: Airbus Operations SASInventors: Patrick Jegu, Jacques Rosay, Emanuele Costanzo
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Patent number: 8655571Abstract: A fault detection and diagnosis method for a gas turbine engines comprises collecting a sensor signal from an acoustic or vibrational sensor at the gas turbine engine, pre-processing the sensor signal to remove predictable background, and extracting a feature set from the sensor signal using Mel-Frequency Cepstral Coefficients (MFCC) algorithms and/or Code Excited Linear Prediction (CELP) algorithms. Fault and non-fault states are reported based on comparison between the feature set and a library of fault and non-fault feature profiles corresponding to fault and non-fault states of the gas turbine engine.Type: GrantFiled: June 23, 2011Date of Patent: February 18, 2014Assignee: United Technologies CorporationInventors: Andrew F. Geib, Chung Chieh Kuo, Martin Gawecki, EnShuo Tsau, Je Won Kang, Paul Raymond Scheid
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Patent number: 8649954Abstract: A system for controlling angular position of stator blades including: a mechanism for calculating a set angular position of the blades according to one of speeds; and a module for correcting the set position including: a mechanism for determining the angular position of the blades; a mechanism for measuring fuel flow rate of the turbine engine; a memory unit in which consecutive angular positions of the blades are combined with the fuel flow rates of the turbine engine measured at the angular positions; and a mechanism for determining a correcting angle according to the difference between the fuel flow rates measured between two consecutive angular position of the blades. A method for optimizing the common angular position can utilize the system.Type: GrantFiled: September 23, 2010Date of Patent: February 11, 2014Assignee: SNECMAInventors: David Julien Boyer, Cedrik Djelassi, Julien Alexis Louis Ricordeau
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Publication number: 20140039775Abstract: One of a controllable load and a fuel flow to a single-spool turboshaft engine is controlled so that a rotational speed of a single-spool turboshaft engine is substantially regulated to a level corresponding to a corrected rotational speed command, and the other of the fuel flow and the controllable load is controlled so that a torque transmitted from the single-spool turboshaft engine to the controllable load is substantially regulated to a level corresponding to a corrected torque command. Under at least one operating condition, the corrected rotational speed command is determined so as to minimize or nearly minimize a measure of fuel consumption by the single-spool turboshaft engine when operated so that the torque transmitted to the controllable load corresponds to the corrected torque command.Type: ApplicationFiled: August 1, 2013Publication date: February 6, 2014Applicant: WILLIAMS INTERNATIONAL CO., L.L.C.Inventors: Ray D. LICKFOLD, Gregg WILLIAMS, Robert S. THOMPSON, JR.
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Publication number: 20140012481Abstract: Methods for controlling an aircraft turbofan engine during icing of a temperature probe and devices for carrying out such methods are described. The methods may comprise: using one or more signals representative of temperature received from a heated temperature probe to generate one or more control signals for use in controlling the engine; determining that an icing condition associated with the probe exists; and using data representing one or more substitute signals in place of signals representative of temperature received from the heated temperature probe to generate the one or more control signals for use in controlling the engine.Type: ApplicationFiled: September 13, 2013Publication date: January 9, 2014Applicant: Pratt & Whitney Canada Corp.Inventors: Salvatore Calandra, Frederic Giroux, Mark Iacobacci, Martin Chabot, Simon Hartropp, Yusuf Syed, Dariusz Chmiel, Adrienne Bajaj
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Patent number: 8626420Abstract: A method to develop a software based sequencer for a turbine including: selecting a general purpose sequencer software module having standardized software for sequencing turbines through defined states of operation; selecting options from predefined settings presented by the sequencer software module, wherein the selected options define operational events of the turbine which trigger the sequencer to transition the turbine from one of the defined states to the next defined state, and using the general purpose sequencer software configured with the selected options for the settings.Type: GrantFiled: February 22, 2012Date of Patent: January 7, 2014Assignee: General Electric CompanyInventors: Peter Gaffney, Christopher Hills
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Publication number: 20140005910Abstract: A disclosed control system for a gas turbine engine includes a controller configured to set a position of the variable area fan nozzle according to a predetermined schedule of variable area fan nozzle positions corresponding to a flight operating condition. The schedule is determined in view of a relationship between a position of the variable area nozzle and a performance level of the engine at current flight conditions.Type: ApplicationFiled: July 2, 2012Publication date: January 2, 2014Inventors: Matthew D. Teicholz, Paul H. Spiesman, Christopher J. Hanlon, John R. Gendron, Glenn D. Bartkowski
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Publication number: 20140005909Abstract: A method for model-based control of a gas turbine engine is disclosed. An operating point of the gas turbine engine is generated from measured parameters using a component-level model. The component-level model is analytically linearized by taking the first partial derivative of output parameters of each component with respect to input parameters of each component, and evaluating the result at the operating point. Components of the linearized component-level model are combined to form a combined perturbational model of the gas turbine engine, which is inverted to solve for control commands as a function of target parameters and measured parameters.Type: ApplicationFiled: June 29, 2012Publication date: January 2, 2014Applicant: UNITED TECHNOLOGIES CORPORATIONInventors: Richard P. Meisner, Jonnalagadda V. R. Prasad, Gi Yun Chung, Manuj Dhingra
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Publication number: 20130338898Abstract: A method monitoring a servo-control loop, including: estimating monitoring parameters from operating data of the servo-control loop; obtaining indicators from the monitoring parameters; determining at least one signature from values of at least some of the indicators; and detecting and locating a degradation affecting the servo-control loop as a function of the at least one determined signature.Type: ApplicationFiled: October 21, 2011Publication date: December 19, 2013Applicant: SNECMAInventors: Christian Aurousseau, Régis Michel Paul Deldalle, Xavier Flandrois, Jean-Rémi André Masse, Aziz Sif, Benjamin Pierre Lamoureux
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Patent number: 8612114Abstract: A method and system are provided for controlling the operating temperature of a torque converter during torque converter stall conditions. The torque converter has a pump rotatably driven by an internal combustion engine and a rotatable turbine fluidly coupled to the pump. The system first determines whether the torque converter is currently in a torque converter stall condition, and, if so, determines a slip speed as a difference in rotational speeds between the pump and the turbine, determines an engine output torque limit as a function of the slip speed and a desired slip speed, and controls the operating temperature of the torque converter by limiting output torque produced by the engine based on the engine output torque limit.Type: GrantFiled: February 27, 2012Date of Patent: December 17, 2013Assignee: Allison Transmission, Inc.Inventors: Robert Merrion, Brett Caldwell, John Kresse
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Publication number: 20130325287Abstract: A propulsion system includes a prime mover for providing primary power to propel a vehicle; a flywheel energy storage device for providing secondary power to propel the vehicle when primary power is not being provided, wherein the flywheel energy storage device stores power provided by the prime mover; and a controller for commanding the prime mover on and off.Type: ApplicationFiled: June 5, 2012Publication date: December 5, 2013Applicant: HAMILTON SUNDSTRAND CORPORATIONInventors: Lubomir A. Ribarov, Jacek F. Gieras
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Patent number: 8600642Abstract: A hub unit adapted for use in a monitoring system that monitors engine performance parameters of a gas turbine engine. The hub unit includes a housing, at least one signal conditioning circuit board within the housing and adapted to receive the analog sensor outputs from the sensors, and a control circuit board within the housing, connected to the signal conditioning circuit board, and adapted to produce digital data corresponding to analog sensor outputs. The signal conditioning circuit board multiplexes a plurality of the analog sensor outputs generated by the sensors to produce an individual multiplexed analog output, and has at least one amplifier with adjustable gain for scaling the analog sensor outputs of the individual multiplexed analog output to produce an individual conditioned multiplexed analog output from which the corresponding digital data are produced. The amplifier and the adjustable gain thereof are controlled by the control circuit board.Type: GrantFiled: December 23, 2010Date of Patent: December 3, 2013Assignee: General Electric CompanyInventors: Eric John Bair, John David Weickert, Gregory Keelen Griffin
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Patent number: 8600643Abstract: A suspension control system for a vehicle includes a pressure increasing module and a compressor control module. In response to a startup of the vehicle, the pressure increasing module: selectively sets a pressure increase signal to a first state when an air pressure within air bags of a suspension system is less than a predetermined pressure; and selectively sets the pressure increase signal to a second state when the air pressure is greater than the predetermined pressure. In response to the startup of the vehicle, the compressor control module: operates an air compressor of the suspension system when the pressure increase signal is in the first state; and disables operation of the air compressor when the pressure increase signal is in the second state.Type: GrantFiled: August 20, 2012Date of Patent: December 3, 2013Inventors: Brian A. MacFarlane, Steven A. Opiteck
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Patent number: 8594903Abstract: A system, method and apparatus for monitoring the performance of a gas turbine engine. A counter value indicative of the comparison between the engine condition and the threshold condition is adjusted. The aircraft operator is warned of an impending maintenance condition based on the counter value and determines an appropriate course of action.Type: GrantFiled: December 29, 2008Date of Patent: November 26, 2013Assignee: Pratt & Whitney Canada Corp.Inventors: Mark Edward Feeney, Keith John Leslie, Yusuf Razi Syed, Simon John Hartropp
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Publication number: 20130311060Abstract: The present invention provides a method of optimising engine wash event scheduling. An underlying deterioration gradient and a total deterioration gradient are determined. A number of engine wash events, x, are set. Engine deterioration for x engine wash events is calculated. The washed engine cost of engine deterioration for x engine wash events is calculated. The calculation of engine deterioration is iterated for different x to optimise the number of engine wash events with respect to the cost of engine deterioration. Advantageously the method systematically optimises scheduling of wash events taking into account the underlying deterioration of the engine which cannot be recovered by engine washing and the cost of the engine wash events.Type: ApplicationFiled: April 15, 2013Publication date: November 21, 2013Applicant: OPTIMIZED SYSTEMS AND SOLUTIONS LIMITEDInventor: Graham Colin SMITH
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Patent number: 8583294Abstract: A dual redundant actuation control system for controlling a plurality of actuators for positioning a plurality of moveable aircraft components. The actuation control system includes a component controller. The component controller includes two component control channels. Each of the plurality of actuators is electrically connected to each of the two component control channels such that either of the two component control channels may control any or all of the plurality of actuators.Type: GrantFiled: April 11, 2011Date of Patent: November 12, 2013Assignee: Hamilton Sundstrand CorporationInventors: William E. Villano, Kevin Gibbons, Teddy L. Jones, Francis W. Recck
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Patent number: 8571782Abstract: A computer system for vehicles is provided in which the functions are partitioned among the computers of the computer system. A first computer takes over the driving-related functions, while a second computer having greater computing power takes over entertainment-specific functions.Type: GrantFiled: November 4, 2003Date of Patent: October 29, 2013Assignee: Robert Bosch GmbHInventors: Andre Barkowski, Peter Siepen, Torsten Mlasko, Wolfgang Baierl, Andreas Westendorf
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Patent number: 8566000Abstract: A controller receives a power-level command representative of a level of power to be transmitted by a single-spool turboshaft engine to a controllable load. A torque command determined responsive to a measure of inlet pressure, from a control schedule responsive to the power-level command, is representative of a level of torque to be transmitted by an element to drive the controllable load. Under some operating conditions, a rotational speed command provides for at least nearly minimizing a measure of associated fuel consumption when the transmitted torque is regulated to the level corresponding to the torque command by controlling one of the controllable load and a fuel flow to the engine, and the other of the controllable load and the fuel flow to the engine is controlled so as to regulate an associated rotational speed to a level corresponding to the rotational speed command.Type: GrantFiled: February 23, 2011Date of Patent: October 22, 2013Assignee: Williams International Co., L.L.C.Inventors: Ray D. Lickfold, Gregg Williams, Robert S. Thompson, Jr.
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Patent number: 8564457Abstract: A method of characterizing and counting violations of a threshold by an operating parameter of an aircraft engine of an aircraft includes detecting, by the aircraft, a violation of the threshold by the operating parameter while the aircraft engine is in operation. The method also includes, on detecting the violation, automatically transmitting from the aircraft to a ground system a warning message about the violation. Further, the method includes, on the basis of the warning message, automatically determining a severity level for the violation. In addition, the method includes incrementing a counter representing a number of occasions the operating parameter of the aircraft engine has presented a violation corresponding to the severity level.Type: GrantFiled: December 18, 2008Date of Patent: October 22, 2013Assignee: SNECMA ServicesInventor: Nicolas Lecerf
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Patent number: 8565999Abstract: A method and apparatus for operating a gas turbine engine including determining a temperature of a working gas at a predetermined axial location within the engine. Acoustic signals are transmitted from a plurality of acoustic transmitters and are received at a plurality of acoustic receivers. Each acoustic signal defines a distinct line-of-sound path from one of the acoustic transmitters to an acoustic receiver corresponding to the line-of-sound path. A time-of-flight is determined for each of the signals traveling along the line-of-sound paths, and the time-of-flight for each of the signals is processed to determine a temperature in a region of the predetermined axial location.Type: GrantFiled: December 14, 2010Date of Patent: October 22, 2013Assignee: Siemens Energy, Inc.Inventors: Richard H. Bunce, Upul P. Desilva
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Patent number: 8566001Abstract: Methods for controlling a gas turbine engine are provided, where a compressor inlet temperature, ambient temperature, and relative humidity are measured. Utilizing these measurements, it is first determined whether an evaporation cooler is actively importing water content into inlet air entering the compressor. This determination is based on whether the inlet air is substantially cooler than the ambient temperature. If so, an EC correction factor is added to an inlet air temperature value (CTIM) and set as an air temperature parameter (INLETIM). Second, it is determined whether the relative humidity is greater than a predefined threshold. If so, a relative humidity (RH) correction factor is added to CTIM and set as the INLETIM. Next, the INLETIM and TTRF are located in a look-up table, and a bias value corresponding to these inputs is identified. The fuel-flow for a fuel circuit is adjusted according to the identified bias value.Type: GrantFiled: April 14, 2011Date of Patent: October 22, 2013Assignee: Alstom Technology Ltd.Inventors: Peter Stuttaford, Nicolas Demougeot, Melvin Swann
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Patent number: 8565998Abstract: An on-engine data storage device for a gas turbine engine includes a housing, an interface device, and a memory device. The interface device can communicate with a peripheral device. The memory device is mounted within the housing and is operable to store engine data related to the gas turbine engine.Type: GrantFiled: November 27, 2006Date of Patent: October 22, 2013Assignee: United Technologies CorporationInventor: Rork S. Brown
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Patent number: 8560203Abstract: Methods for controlling an aircraft turbofan engine during icing of a temperature probe and devices for carrying out such methods are described. The methods may comprise: using one or more signals representative of temperature received from a heated temperature probe to generate one or more control signals for use in controlling the engine; determining that an icing condition associated with the probe exists; and using data representing one or more substitute signals in place of signals representative of temperature received from the heated temperature probe to generate the one or more control signals for use in controlling the engine.Type: GrantFiled: July 26, 2011Date of Patent: October 15, 2013Assignee: Pratt & Whitney Canada Corp.Inventors: Salvatore Calandra, Frederic Giroux, Mark Iacobacci, Martin Chabot, Simon Hartropp, Yusuf Syed, Dariusz Chmiel, Adrienne Bajaj
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Patent number: 8548713Abstract: A method is disclosed of determining the power demand on a power subsystem (2) of a system (1) by optimising a respective demand-dependent operating characteristic based on one or more operating conditions affecting the power subsystem, the method comprising: using a system-authority (3, 14) to determine system-level power demand limits on the basis of a system-level objective associated with an operating period; inputting the power demand limits to a separate power control processor (4, 16) configured for regulating the power demand on the power subsystem (2); determining each of said operating conditions; and using the power control processor (4, 16) autonomously to determine the overall power demand on the power subsystem (2) within said system-level limits, based on each of said operating conditions, thereby to optimise said operating characteristic. A method of regulating the power demand during the operating period is also disclosed.Type: GrantFiled: July 22, 2009Date of Patent: October 1, 2013Assignee: Rolls-Royce PLCInventors: Kristian Alexander Self, Geoffrey Radmore
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Patent number: 8548714Abstract: According to this invention, artificial force gradient means (9a) of a throttle control lever (4) for a turbo-engine comprise means (17) for adjusting the intensity of the artificial force gradient.Type: GrantFiled: March 16, 2010Date of Patent: October 1, 2013Assignee: Airbus Operations (SAS)Inventor: Laurent Andrieu
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Publication number: 20130253734Abstract: A system of speed control for a ram air turbine of an aircraft includes a power electronics controller, at least one routing device in communication with the power electronics controller, at least one secondary load in serial communication with the at least one routing device and the power electronics controller, and a ram air turbine (RAT) in communication with the power electronics controller, wherein the power electronics controller is configured to apply the secondary load to the RAT through the at least one routing device in response to a transient speed increase of the RAT.Type: ApplicationFiled: March 23, 2012Publication date: September 26, 2013Applicant: HAMILTON SUNDSTRAND CORPORATIONInventors: Dustin L. Kaap, Conor Riordan
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Patent number: 8538657Abstract: Systems and methods for controlling fuel flow to a turbine component are provided. One or more parameters associated with a fuel flow to a turbine component may be monitored. The fuel flow may be modeled based at least in part on the one or more monitored parameters. The fuel flow may be adjusted to a target flow based at least in part on the modeling of the fuel flow.Type: GrantFiled: April 30, 2009Date of Patent: September 17, 2013Assignee: General Electric CompanyInventor: David August Snider