Gas turbine engines are highly specialized turbomachines widely used for power generation and direct drive. As compared to other power generation systems, fuel costs and maintenance costs ($4.7/MWh to $5.2/MWh) for gas turbine systems are the most important contributors to the total life cycle cost; hence sustaining high efficiency or healthy behavior through performance or life prediction will have a direct and major effect on the financial performance of these plants
Degradation of gas turbine will affect the operation side of the gas power plant operator. Therefore...
Gas turbine prognostics is a promising technology that is used in aircraft maintenance because of it...
Monitoring of industrial gas turbines is of vital importance, since it gives valuable in-formation f...
Growing demand for flexibility and high maintenance costs make gas turbine systems increasingly expe...
Health monitoring is an essential part of condition-based maintenance and prognostics and health man...
In the field of system engineering, the main goal is the prediction of the future health condition o...
Gas turbines are increasingly deployed throughout the world to provide electrical and mechanical pow...
The increase in energy demand has led to expansion of renewable energy sources and their integration...
n the past decade, the Gas Turbine Health Management (GTHM) system has been developed, and put into ...
Abstract Stationary gas turbines are increasingly deployed throughout the world to provide electrica...
Thesis: S.M., Massachusetts Institute of Technology, School of Engineering, Center for Computational...
Predictive health monitoring of micro gas turbines can significantly increase the availability and r...
In this paper, we present a novel method for performance-based prognostics of industrial gas turbine...
AbstractThe estimated life of gas turbines is expected to diminish over time when compared to the ma...
The performance of gas turbines degrades over time and, as a consequence, a decrease in gas turbine ...
Degradation of gas turbine will affect the operation side of the gas power plant operator. Therefore...
Gas turbine prognostics is a promising technology that is used in aircraft maintenance because of it...
Monitoring of industrial gas turbines is of vital importance, since it gives valuable in-formation f...
Growing demand for flexibility and high maintenance costs make gas turbine systems increasingly expe...
Health monitoring is an essential part of condition-based maintenance and prognostics and health man...
In the field of system engineering, the main goal is the prediction of the future health condition o...
Gas turbines are increasingly deployed throughout the world to provide electrical and mechanical pow...
The increase in energy demand has led to expansion of renewable energy sources and their integration...
n the past decade, the Gas Turbine Health Management (GTHM) system has been developed, and put into ...
Abstract Stationary gas turbines are increasingly deployed throughout the world to provide electrica...
Thesis: S.M., Massachusetts Institute of Technology, School of Engineering, Center for Computational...
Predictive health monitoring of micro gas turbines can significantly increase the availability and r...
In this paper, we present a novel method for performance-based prognostics of industrial gas turbine...
AbstractThe estimated life of gas turbines is expected to diminish over time when compared to the ma...
The performance of gas turbines degrades over time and, as a consequence, a decrease in gas turbine ...
Degradation of gas turbine will affect the operation side of the gas power plant operator. Therefore...
Gas turbine prognostics is a promising technology that is used in aircraft maintenance because of it...
Monitoring of industrial gas turbines is of vital importance, since it gives valuable in-formation f...