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System and method for monitoring aircraft engine health and determining engine power available, and applications thereof

a technology for aircraft engine health and engine power, applied in the field of aircraft instrumentation and condition monitoring, can solve the problems of aircraft engine health deterioration, aircrew members relying on inaccurate engine power available calculations, and conventional aircraft instrumentation not allowing aircrew members to accurately monitor

Active Publication Date: 2006-04-27
HOWELL INSTR
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

"The present invention is a system and method for monitoring the health of aircraft engines and determining the available power during flight operations. It uses smart instrumentation and monitoring to generate real-time data on engine power and performance, which is automatically updated and displayed on the aircraft's flight manual and mission management tools. This helps aircrew members make informed decisions and safely operate the aircraft. The invention also automates calculations and warnings based on real-time data, reducing the workload for aircrew members. Overall, the invention improves aircrew situational awareness, flight safety, and mission effectiveness while reducing the workload for aircrew members."

Problems solved by technology

However, despite this importance, conventional aircraft instrumentation does not allow aircrew members to accurately monitor the health of an aircraft's engine(s) and determine engine power available during flight operations.
In between these specific time interval tests, however, deterioration of the aircraft's engine(s) occurs.
Thus, aircrew members must rely on inaccurate engine power available calculations, which incorrectly assume an aircraft's engine(s) can deliver rated power when in fact the engine(s) cannot deliver rated power, to evaluate an aircraft's performance and capabilities.
This conventional method of attempting to evaluate an aircraft's performance and capabilities results in a reduced margin of safety during flight operations.
The task of evaluating an aircraft's performance and capabilities is particularly challenging when, for example, during flight operations an aircrew is directed to change its mission.
This leads to increased cockpit work load and aircrew stress and may result in evaluation errors that when added to the inherent inaccuracies in engine power available calculations contained in the operating handbook or electronic database used by the aircrew can cause the aircrew to unknowingly operate the aircraft in an unsafe manner.
For example, during lifting operations or in hot, high-altitude operating environments, inaccuracies in engine power available calculations used to determine take-off and landing performance create an unacceptable safety margin that can lead to the loss of the aircraft and the aircrew.

Method used

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  • System and method for monitoring aircraft engine health and determining engine power available, and applications thereof
  • System and method for monitoring aircraft engine health and determining engine power available, and applications thereof
  • System and method for monitoring aircraft engine health and determining engine power available, and applications thereof

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Embodiment Construction

[0021]FIG. 1 is a schematic illustration of an example aircraft 100 in which the present invention is used. Aircraft 100 is a rotary wing aircraft capable of lifting and transporting an external load 102 using a hook (not shown). As would be known to persons skilled in the relevant art(s), before attempting to lift and transport external load 102, however, an aircrew member of aircraft 100 must calculate take-off and landing data to verify that lifting and transporting external load 102 is within the capabilities of aircraft 100. If the aircrew members of aircraft 100 attempt to lift and transport an external load 102 that would cause aircraft 100 to exceed its operational capabilities, it is likely that aircraft 100 would fail and could be destroyed, possibly killing all persons aboard aircraft 100.

[0022] Whether aircraft 100 can safely lift and transport external load 102 is dependent on the health of the engines of aircraft 100 and the engine power available. As described below,...

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Abstract

Smart instrumentation and monitoring provide primary engine instrumentation for an aircraft. The instrumentation generates real time engine power available data for the entire power regime and flight envelope of the aircraft while engine monitoring functions track, record and output performance usage data, trend data, and flight profile data. Generated data is provided to an aircraft flight manual and mission management module that automatically calculates and generates aircraft operational and performance data needed to safely operate the aircraft. The generated data is selectively displayed on flat-panel cockpit displays and / or electronic kneeboard displays in a graphical format that enhances aircrew situational awareness and permits aircrew members to operate the aircraft with its intended margin of safety.

Description

FIELD OF THE INVENTION [0001] The present invention relates to the field of aircraft instrumentation and condition monitoring. BACKGROUND OF THE INVENTION [0002] The performance and capabilities of an aircraft are dependent on the health and performance of its engine(s). For example, an aircraft's take-off distance, rate of climb, useful load, range, and endurance are determined largely by engine health and engine power available. However, despite this importance, conventional aircraft instrumentation does not allow aircrew members to accurately monitor the health of an aircraft's engine(s) and determine engine power available during flight operations. [0003] During mission planning, aircrew members attempt to evaluate an aircraft's performance and capabilities using engine power available calculations that are contained in an operating handbook or an electronic database, which at best are based on data periodically obtained from either one single flight condition or one single high...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): G01C23/00B64D43/00B64D45/00B64F5/00
CPCB64C27/06B64D43/00B64D2045/0085
Inventor PETTIGREW, JAMES L.BOESHART, MITCHELL T.
Owner HOWELL INSTR
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