17988170. SYSTEM AND METHOD FOR DETERMINING TORQUE IN A TURBOMACHINE simplified abstract (General Electric Company)
Contents
- 1 SYSTEM AND METHOD FOR DETERMINING TORQUE IN A TURBOMACHINE
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 SYSTEM AND METHOD FOR DETERMINING TORQUE IN A TURBOMACHINE - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Possible Prior Art
- 1.10 Original Abstract Submitted
SYSTEM AND METHOD FOR DETERMINING TORQUE IN A TURBOMACHINE
Organization Name
Inventor(s)
Bugra Han Ertas of Niskayuna NY (US)
Leonardo Coviello of Bari (IT)
Juraj Hrubec of Dolny Kubin (SK)
Joseph Alfred Iannotti of Glenville NY (US)
Eric Richard Westervelt of Niskayuna NY (US)
Keith F. Beatty of Cincinnati OH (US)
Bradley Alan Bauer of Cincinnati OH (US)
SYSTEM AND METHOD FOR DETERMINING TORQUE IN A TURBOMACHINE - A simplified explanation of the abstract
This abstract first appeared for US patent application 17988170 titled 'SYSTEM AND METHOD FOR DETERMINING TORQUE IN A TURBOMACHINE
Simplified Explanation
The power transmission gearbox system for a turbomachine includes a drivetrain with rotating components, static components interfacing with the rotating components, a sensor on the static component providing strain data, and a controller analyzing the data to determine torque in the rotating components.
- The system includes a drivetrain with rotating components.
- The system has static components that interface with the rotating components.
- A sensor is placed on the static component to provide strain data.
- A controller, with a processor and memory, analyzes the strain data to determine torque in the rotating components.
Potential Applications
This technology can be applied in various industries such as aerospace, automotive, and power generation for monitoring and optimizing the performance of turbomachines.
Problems Solved
This technology helps in detecting strain in static components and determining torque in rotating components, which can prevent potential failures and optimize the efficiency of the turbomachine.
Benefits
The benefits of this technology include improved safety, increased reliability, enhanced performance, and reduced maintenance costs for turbomachines.
Potential Commercial Applications
The potential commercial applications of this technology include aircraft engines, gas turbines, wind turbines, and industrial machinery for monitoring and controlling power transmission systems.
Possible Prior Art
One possible prior art for this technology could be strain gauge sensors used in various industries for measuring strain in components and structures.
What are the specific components of the drivetrain in this system?
The specific components of the drivetrain in this system include rotating components and static components that interface with each other to transmit power efficiently.
How does the controller analyze the strain data to determine torque in the rotating components?
The controller analyzes the strain data from the sensor on the static component using the processor and memory to calculate the torque in the rotating components based on the relationship between strain and torque in the drivetrain.
Original Abstract Submitted
A power transmission gearbox system for a turbomachine is provided. the power transmission gearbox system includes a drivetrain having one or more rotating components. The system further includes at least one static component interfacing with the one or more rotating components. The system further includes a sensor disposed on the at least one static component and configured to provide data indicative of strain in the static component. The system further includes a controller communicatively coupled to the sensor. the controller includes a processor and a memory. the processor is configured to perform a plurality of operations. The plurality of operations includes monitoring the data indicative of strain in the static component from the sensor. The operations further include determining, at least partially based on the data indicative of the strain in the static component, a torque in the one or more rotating components of the drivetrain.
- General Electric Company
- Bugra Han Ertas of Niskayuna NY (US)
- Leonardo Coviello of Bari (IT)
- Juraj Hrubec of Dolny Kubin (SK)
- Joseph Alfred Iannotti of Glenville NY (US)
- Eric Richard Westervelt of Niskayuna NY (US)
- Keith F. Beatty of Cincinnati OH (US)
- Bradley Alan Bauer of Cincinnati OH (US)
- G01L5/12
- F01D15/12
- F01D19/00