A fuzzy system is developed using a linearized performance model of the gas turbine engine for performing gas turbine fault isolation from noisy measurements. By using a priori information about measurement uncertainties and through design variable linking, the design of the fuzzy system is posed as an optimization problem with low number of design variables which can be solved using the genetic algorithm in considerably low amount of computer time. The faults modeled are module faults in five modules: fan, low pressure compressor, high pressure compressor, high pressure turbine and low pressure turbine. The measurements used are deviations in exhaust gas temperature, low rotor speed, high rotor speed and fuel flow from a base line 'good en...
This study proposes a model-based robust fault detection and isolation (RFDI) method with hybrid str...
Gas path diagnostics is one of the most effective condition monitoring techniques in supporting cond...
Effective fault detection, estimation, and isolation are essential for the safety and reliability of...
A fuzzy system is developed using a linearized performance model of the gas turbine engine for perfo...
Researches show that probability-statistical methods application, especially at the early stage of t...
In this paper is shown that the probability-statistic methods application, especially at the early s...
A fuzzy logic system is developed for gas turbine module fault isolation. Inputs to the fuzzy logic ...
A major challenge faced by the Gas Turbine industry, both the users and the manufacturers is the r...
The problem of malfunction diagnosis in energy systems can be approached using an expert system whic...
Effective fault diagnosis approach in gas turbines is crucial for ensuring reliable and efficient op...
In the paper, neuro-fuzzy systems (NFSs) for gas turbine diagnostics are studied and developed. The ...
The problem of malfunction diagnosis in energy systems can be approached using an expert system whi...
In the paper, Neuro-Fuzzy Systems (NFSs) for gas turbine diagnostics are studied and developed. The ...
In this paper, it is shown that the use of probability‐statistic methods, especially at the early st...
A diagnostic process capable of providing an early warning of a fault in a gas turbine is of tremend...
This study proposes a model-based robust fault detection and isolation (RFDI) method with hybrid str...
Gas path diagnostics is one of the most effective condition monitoring techniques in supporting cond...
Effective fault detection, estimation, and isolation are essential for the safety and reliability of...
A fuzzy system is developed using a linearized performance model of the gas turbine engine for perfo...
Researches show that probability-statistical methods application, especially at the early stage of t...
In this paper is shown that the probability-statistic methods application, especially at the early s...
A fuzzy logic system is developed for gas turbine module fault isolation. Inputs to the fuzzy logic ...
A major challenge faced by the Gas Turbine industry, both the users and the manufacturers is the r...
The problem of malfunction diagnosis in energy systems can be approached using an expert system whic...
Effective fault diagnosis approach in gas turbines is crucial for ensuring reliable and efficient op...
In the paper, neuro-fuzzy systems (NFSs) for gas turbine diagnostics are studied and developed. The ...
The problem of malfunction diagnosis in energy systems can be approached using an expert system whi...
In the paper, Neuro-Fuzzy Systems (NFSs) for gas turbine diagnostics are studied and developed. The ...
In this paper, it is shown that the use of probability‐statistic methods, especially at the early st...
A diagnostic process capable of providing an early warning of a fault in a gas turbine is of tremend...
This study proposes a model-based robust fault detection and isolation (RFDI) method with hybrid str...
Gas path diagnostics is one of the most effective condition monitoring techniques in supporting cond...
Effective fault detection, estimation, and isolation are essential for the safety and reliability of...