Abstract
Over the years, design tools have become increasingly sophisticated. It is now possible to use modular design codes to reproduce, with fairly good accuracy, the static and dynamic behaviour of thermohydraulic processes to allow the optimum design of suitable control systems. However, especially in the event that the structure of the proposed control system has not been established `a priori`, simplified models can play an important role by allowing designers to approximate, in analytical form, the most important characteristics of the system and thus obtain and interpret essential design information regarding the required control system. This paper illustrates how these simplified models can be integrated with more complete models in the design of systems for the control of the start-up of a fossil fuel power plant`s cylindrical bodied boiler and the control of a heat exchanger`s outlet temperature.
Citation Formats
Bolis, V, Quatela, S, and Zizzo, A.
Thermohydraulic process control systems: Design tools; Strumenti di progetto per lo studio dei sistemi di controllo dei processi termoidraulici.
Italy: N. p.,
1991.
Web.
Bolis, V, Quatela, S, & Zizzo, A.
Thermohydraulic process control systems: Design tools; Strumenti di progetto per lo studio dei sistemi di controllo dei processi termoidraulici.
Italy.
Bolis, V, Quatela, S, and Zizzo, A.
1991.
"Thermohydraulic process control systems: Design tools; Strumenti di progetto per lo studio dei sistemi di controllo dei processi termoidraulici."
Italy.
@misc{etde_10107193,
title = {Thermohydraulic process control systems: Design tools; Strumenti di progetto per lo studio dei sistemi di controllo dei processi termoidraulici}
author = {Bolis, V, Quatela, S, and Zizzo, A}
abstractNote = {Over the years, design tools have become increasingly sophisticated. It is now possible to use modular design codes to reproduce, with fairly good accuracy, the static and dynamic behaviour of thermohydraulic processes to allow the optimum design of suitable control systems. However, especially in the event that the structure of the proposed control system has not been established `a priori`, simplified models can play an important role by allowing designers to approximate, in analytical form, the most important characteristics of the system and thus obtain and interpret essential design information regarding the required control system. This paper illustrates how these simplified models can be integrated with more complete models in the design of systems for the control of the start-up of a fossil fuel power plant`s cylindrical bodied boiler and the control of a heat exchanger`s outlet temperature.}
place = {Italy}
year = {1991}
month = {Dec}
}
title = {Thermohydraulic process control systems: Design tools; Strumenti di progetto per lo studio dei sistemi di controllo dei processi termoidraulici}
author = {Bolis, V, Quatela, S, and Zizzo, A}
abstractNote = {Over the years, design tools have become increasingly sophisticated. It is now possible to use modular design codes to reproduce, with fairly good accuracy, the static and dynamic behaviour of thermohydraulic processes to allow the optimum design of suitable control systems. However, especially in the event that the structure of the proposed control system has not been established `a priori`, simplified models can play an important role by allowing designers to approximate, in analytical form, the most important characteristics of the system and thus obtain and interpret essential design information regarding the required control system. This paper illustrates how these simplified models can be integrated with more complete models in the design of systems for the control of the start-up of a fossil fuel power plant`s cylindrical bodied boiler and the control of a heat exchanger`s outlet temperature.}
place = {Italy}
year = {1991}
month = {Dec}
}