Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
System Identification Methodology of a Gas Turbine Based on Artificial Recurrent Neural Networks
View through CrossRef
The application of identification techniques using artificial intelligence to the gas turbine (GT), whose nonlinear dynamic behavior is difficult to describe through differential equations and the laws of physics, has begun to gain importance for a little more than a decade. NARX (Nonlinear autoregressive network with exogenous inputs) is one of the models used to identify GT because it provides good results. However, existing studies need to show a systematic method to generate robust NARX models that can identify a GT with satisfactory accuracy. In this sense, a systematic method is proposed to design NARX models for identifying a GT, which consists of nine precise steps that go from identifying GT variables to obtaining the optimized NARX model. To validate the method, it was applied to a case study of a 215 MW SIEMENS TG, model SGT6-5000F, using a set of 2305 real-time series data records, obtaining a NARX model with an MSE of 1.945 × 10−5, RMSE of 0.4411% and a MAPE of 0.0643.
Title: System Identification Methodology of a Gas Turbine Based on Artificial Recurrent Neural Networks
Description:
The application of identification techniques using artificial intelligence to the gas turbine (GT), whose nonlinear dynamic behavior is difficult to describe through differential equations and the laws of physics, has begun to gain importance for a little more than a decade.
NARX (Nonlinear autoregressive network with exogenous inputs) is one of the models used to identify GT because it provides good results.
However, existing studies need to show a systematic method to generate robust NARX models that can identify a GT with satisfactory accuracy.
In this sense, a systematic method is proposed to design NARX models for identifying a GT, which consists of nine precise steps that go from identifying GT variables to obtaining the optimized NARX model.
To validate the method, it was applied to a case study of a 215 MW SIEMENS TG, model SGT6-5000F, using a set of 2305 real-time series data records, obtaining a NARX model with an MSE of 1.
945 × 10−5, RMSE of 0.
4411% and a MAPE of 0.
0643.
Related Results
On the role of network dynamics for information processing in artificial and biological neural networks
On the role of network dynamics for information processing in artificial and biological neural networks
Understanding how interactions in complex systems give rise to various collective behaviours has been of interest for researchers across a wide range of fields. However, despite ma...
Fuzzy Chaotic Neural Networks
Fuzzy Chaotic Neural Networks
An understanding of the human brain’s local function has improved in recent years. But the cognition of human brain’s working process as a whole is still obscure. Both fuzzy logic ...
Comprehensive Calculation And Performance Analysis Of Gas Turbine Reversible Power Turbine
Comprehensive Calculation And Performance Analysis Of Gas Turbine Reversible Power Turbine
Gas turbine technology trends to be maturing now, but the problem of which not being able to reverse directly remains resolve. In the field of marine, most ships reverse by adjusta...
On-Design and Off-Design Performance Analysis of a Gas Turbine Combined Cycle Using the Exergy Method
On-Design and Off-Design Performance Analysis of a Gas Turbine Combined Cycle Using the Exergy Method
The present paper describes an on-design and an off-design performance study of gas turbine combined cycle based power plants. The exergy analysis has been carried out along with t...
Hybrid Offshore Power Generation
Hybrid Offshore Power Generation
Abstract
Amid 2020 challenging business environments due to COVID-19 pandemic and strong global push towards transition to cleaner energy, PETRONAS has declared its'...
Comparisons of Pore Structure for Unconventional Tight Gas, Coalbed Methane and Shale Gas Reservoirs
Comparisons of Pore Structure for Unconventional Tight Gas, Coalbed Methane and Shale Gas Reservoirs
Extended abstract
Tight sands gas, coalbed methane and shale gas are three kinds of typical unconventional natural gas. With the decrease of conventional oil and gas...
Influence of impurities contained in fuel and air on sulfide corrosion of turbine blades of the gas turbine engine
Influence of impurities contained in fuel and air on sulfide corrosion of turbine blades of the gas turbine engine
In the process of improving gas turbine engines (GTE), increasing the resource and efficiency, there is a constant increase in temperature and pressure of the working fluid. Turbin...
Air-Conditioning Using Waste Heat Energy
Air-Conditioning Using Waste Heat Energy
Abstract
All oil & gas building facilities such as control room, electrical room, substation and personal accommodation etc., require a comfortable indoor condit...