Abstract
This article deals on the Automatic System of Tests, denominated PROBADOR, used by the Gerencia de Control e Instrumentation (GCI) of the Instituto de Investigaciones Electricas (IIE)for the accomplishment of dynamic tests in laboratory, to the systems of acquisition and control developed with the electronic line SAC-IIE that are installed in the Thermoelectric Power station of Combined Cycle (CTCC) of Dos Bocas, Veracruz and Gomez Palacio, Durango, Mexico. Also the architecture, the functions that are carried out in the equipment of the System of Acquisition and control (SAC) and in the personal computer (PC) that conforms it are described, as well as the methodology used for the development of the tests. The PC constitutes Interface Man-Machine (IMM) and in the SAC equipment the simulation of the processes is made (by means of the execution of algebraic-differential equations) in the compressor, combustion chamber, gas turbine, heat recuperators, steam turbines and condenser equipment that integrate a CTCC. The equations that are used are based in the thermodynamics, flow dynamics and heat transfer; they become attached to the real process with a margin of error that is estimated in 10%. Finally, the tendencies of the PROBADOR and the technical and economic advantages are
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Martinez M, Miguel A;
Flores L, Zenon;
Delgadillo V, Miguel A;
Gutierrez A, Ruben
[1]
- Instituto de Investigaciones Electricas, Cuernavaca, Morelos (Mexico)
Citation Formats
Martinez M, Miguel A, Flores L, Zenon, Delgadillo V, Miguel A, and Gutierrez A, Ruben.
Automatic system of tests for control equipment in combined cycle power stations; Sistema automatico de pruebas para equipos de control en centrales de ciclo combinado.
Mexico: N. p.,
2001.
Web.
Martinez M, Miguel A, Flores L, Zenon, Delgadillo V, Miguel A, & Gutierrez A, Ruben.
Automatic system of tests for control equipment in combined cycle power stations; Sistema automatico de pruebas para equipos de control en centrales de ciclo combinado.
Mexico.
Martinez M, Miguel A, Flores L, Zenon, Delgadillo V, Miguel A, and Gutierrez A, Ruben.
2001.
"Automatic system of tests for control equipment in combined cycle power stations; Sistema automatico de pruebas para equipos de control en centrales de ciclo combinado."
Mexico.
@misc{etde_20412696,
title = {Automatic system of tests for control equipment in combined cycle power stations; Sistema automatico de pruebas para equipos de control en centrales de ciclo combinado}
author = {Martinez M, Miguel A, Flores L, Zenon, Delgadillo V, Miguel A, and Gutierrez A, Ruben}
abstractNote = {This article deals on the Automatic System of Tests, denominated PROBADOR, used by the Gerencia de Control e Instrumentation (GCI) of the Instituto de Investigaciones Electricas (IIE)for the accomplishment of dynamic tests in laboratory, to the systems of acquisition and control developed with the electronic line SAC-IIE that are installed in the Thermoelectric Power station of Combined Cycle (CTCC) of Dos Bocas, Veracruz and Gomez Palacio, Durango, Mexico. Also the architecture, the functions that are carried out in the equipment of the System of Acquisition and control (SAC) and in the personal computer (PC) that conforms it are described, as well as the methodology used for the development of the tests. The PC constitutes Interface Man-Machine (IMM) and in the SAC equipment the simulation of the processes is made (by means of the execution of algebraic-differential equations) in the compressor, combustion chamber, gas turbine, heat recuperators, steam turbines and condenser equipment that integrate a CTCC. The equations that are used are based in the thermodynamics, flow dynamics and heat transfer; they become attached to the real process with a margin of error that is estimated in 10%. Finally, the tendencies of the PROBADOR and the technical and economic advantages are described that it has provided for the improvement in the performance of the control systems, before different situations, with no need to have the real process. [Spanish] Este articulo versa sobre el Sistema Automatico de Pruebas, denominado PROBADOR, utilizado por la Gerencia de Control e Instrumentacion (GCI) del Instituto de Investigaciones Electricas para la realizacion de pruebas dinamicas en laboratorio, a los sistemas de adquisicion y control desarrollado con la linea electronica SAC-IIE que estan instalados en las Centrales Termoelectricas de Ciclo Combinado (CTCC) de Dos Bocas, Veracruz y Gomez Palacio, Durango, Mexico. Tambien se describen la arquitectura, las funciones que se llevan a cabo en el equipo del Sistema de Adquisicion y control (SAC) y en la computadora personal (PC) que lo conforman, al igual que la metodologia utilizada para el desarrollo de las pruebas. La PC constituye la Interfaz Hombre-Maquina (IHM) y en el equipo SAC se realiza la simulacion (mediante la ejecucion de ecuaciones algebraico-diferenciales) de los procesos en los equipos compresor, camara de combustion, turbina de gas, recuperadores de calor, turbinas de vapor y condensador que integran una CTCC. Las ecuaciones que se utilizan tienen base en la termodinamica, dinamica de fluidos y transferencia de calor, se apegan al proceso real con un margen de error que se estima en 10%. Por ultimo, se describen las tendencias del PROBADOR y las ventajas tecnicas y economicas que ha proporcionado para el mejoramiento en el desempeno de los sistemas de control, ante distintas situaciones, sin necesidad de disponer del proceso real.}
place = {Mexico}
year = {2001}
month = {Jul}
}
title = {Automatic system of tests for control equipment in combined cycle power stations; Sistema automatico de pruebas para equipos de control en centrales de ciclo combinado}
author = {Martinez M, Miguel A, Flores L, Zenon, Delgadillo V, Miguel A, and Gutierrez A, Ruben}
abstractNote = {This article deals on the Automatic System of Tests, denominated PROBADOR, used by the Gerencia de Control e Instrumentation (GCI) of the Instituto de Investigaciones Electricas (IIE)for the accomplishment of dynamic tests in laboratory, to the systems of acquisition and control developed with the electronic line SAC-IIE that are installed in the Thermoelectric Power station of Combined Cycle (CTCC) of Dos Bocas, Veracruz and Gomez Palacio, Durango, Mexico. Also the architecture, the functions that are carried out in the equipment of the System of Acquisition and control (SAC) and in the personal computer (PC) that conforms it are described, as well as the methodology used for the development of the tests. The PC constitutes Interface Man-Machine (IMM) and in the SAC equipment the simulation of the processes is made (by means of the execution of algebraic-differential equations) in the compressor, combustion chamber, gas turbine, heat recuperators, steam turbines and condenser equipment that integrate a CTCC. The equations that are used are based in the thermodynamics, flow dynamics and heat transfer; they become attached to the real process with a margin of error that is estimated in 10%. Finally, the tendencies of the PROBADOR and the technical and economic advantages are described that it has provided for the improvement in the performance of the control systems, before different situations, with no need to have the real process. [Spanish] Este articulo versa sobre el Sistema Automatico de Pruebas, denominado PROBADOR, utilizado por la Gerencia de Control e Instrumentacion (GCI) del Instituto de Investigaciones Electricas para la realizacion de pruebas dinamicas en laboratorio, a los sistemas de adquisicion y control desarrollado con la linea electronica SAC-IIE que estan instalados en las Centrales Termoelectricas de Ciclo Combinado (CTCC) de Dos Bocas, Veracruz y Gomez Palacio, Durango, Mexico. Tambien se describen la arquitectura, las funciones que se llevan a cabo en el equipo del Sistema de Adquisicion y control (SAC) y en la computadora personal (PC) que lo conforman, al igual que la metodologia utilizada para el desarrollo de las pruebas. La PC constituye la Interfaz Hombre-Maquina (IHM) y en el equipo SAC se realiza la simulacion (mediante la ejecucion de ecuaciones algebraico-diferenciales) de los procesos en los equipos compresor, camara de combustion, turbina de gas, recuperadores de calor, turbinas de vapor y condensador que integran una CTCC. Las ecuaciones que se utilizan tienen base en la termodinamica, dinamica de fluidos y transferencia de calor, se apegan al proceso real con un margen de error que se estima en 10%. Por ultimo, se describen las tendencias del PROBADOR y las ventajas tecnicas y economicas que ha proporcionado para el mejoramiento en el desempeno de los sistemas de control, ante distintas situaciones, sin necesidad de disponer del proceso real.}
place = {Mexico}
year = {2001}
month = {Jul}
}