Automatic engine fuel flow monitoring and alerting fuel leak detection method
First Claim
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1. A method for automatically monitoring and alerting a fuel leak downstream of an engine fuel flow meter in an aircraft, the method comprising the steps of:
- obtaining a predicted fuel flow rate for each engine of the aircraft based on a set of predetermined reference operating parameters for each engine, the predetermined reference operating parameters including thrust, airspeed, altitude, outside air temperature, engine accessory loads, and engine age;
obtaining a measured fuel flow rate for each engine of the aircraft based on actual operating parameters for each engine;
using an engine monitoring system software to compare the predicted fuel flow rate to the measured fuel flow rate; and
,automatically providing an alert of a fuel leak downstream of the engine fuel flow meter, the alert being on a flight deck display if there is a difference above a nuisance threshold between the measured fuel flow rate and the predicted fuel flow rate.
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Abstract
A method for automatically monitoring and alerting a fuel leak downstream of an engine fuel flow meter in an aircraft is provided. The method uses existing engine sensor data to input into a predetermined parameter model to predict the nominal fuel flow, and also compares fuel flow between a left engine and a right engine.
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Citations
16 Claims
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1. A method for automatically monitoring and alerting a fuel leak downstream of an engine fuel flow meter in an aircraft, the method comprising the steps of:
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obtaining a predicted fuel flow rate for each engine of the aircraft based on a set of predetermined reference operating parameters for each engine, the predetermined reference operating parameters including thrust, airspeed, altitude, outside air temperature, engine accessory loads, and engine age; obtaining a measured fuel flow rate for each engine of the aircraft based on actual operating parameters for each engine; using an engine monitoring system software to compare the predicted fuel flow rate to the measured fuel flow rate; and
,automatically providing an alert of a fuel leak downstream of the engine fuel flow meter, the alert being on a flight deck display if there is a difference above a nuisance threshold between the measured fuel flow rate and the predicted fuel flow rate. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for automatically monitoring and alerting a fuel leak downstream of an engine fuel flow meter in a multi-engine aircraft, the method comprising the steps of:
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obtaining a first thrust setting of a first engine and a second thrust setting of a second engine, such that the first thrust setting is equivalent to the second thrust setting; obtaining a fuel flow rate for the first engine and a fuel flow rate for the second engine; using an engine monitoring system software to compare the fuel flow rate for the first engine to the fuel flow rate of the second engine; and
,automatically providing an alert of a fuel leak downstream of the engine fuel flow meter, the alert being on a flight deck display if there is a difference above a nuisance threshold between the fuel flow rate of the first engine and the fuel flow rate of the second engine, and wherein the method further provides alerts for fuel flow rate disagreement between the first and second engines, the possible engine fuel leaks, secondary engine indications, and expanded fuel quantity indications. - View Dependent Claims (8, 9, 10, 11)
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12. An automatic engine fuel flow monitoring and alerting fuel leak detection method for automatically monitoring and alerting a fuel leak downstream of an engine fuel flow meter in a two engine aircraft, the method comprising the steps of:
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obtaining a predicted fuel flow rate for each engine of the aircraft based on a set of predetermined reference operating parameters for each engine, the predetermined reference operating parameters including thrust, airspeed, altitude, outside air temperature, engine accessory loads, and engine age; obtaining a measured fuel flow rate for each engine of the aircraft based on actual operating parameters for each engine; using an engine monitoring system software to compare the predicted fuel flow rate to the measured fuel flow rate; automatically providing an alert of a fuel leak downstream of the engine fuel flow meter, the alert being on a flight deck display if there is a difference above a nuisance threshold between the measured fuel flow rate and the predicted fuel flow rate; obtaining a thrust setting for each engine and making sure the thrust setting for each engine is equivalent; obtaining a fuel flow rate for each engine; using the engine monitoring system software to compare the fuel flow rate of each engine; and
,automatically providing an alert of the fuel leak downstream of the engine fuel flow meter, the alert being on the flight deck display if there is a difference above a nuisance threshold between the fuel flow rate of each engine. - View Dependent Claims (13, 14, 15, 16)
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Specification