Design and implementation of cascade control structure for superheated steam temperature control

Hýl, Radim; Wagnerova, Renata

doi:10.1109/carpathiancc.2016.7501104

Cited by 8 publications

(3 citation statements)

References 5 publications

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“…This subsection shows how to implement Algorithm 2 taking superheated steam temperature control as an example. A superheated steam temperature model can be described by [20]:…”

Section: Case I: Superheated Steam Temperaturementioning

confidence: 99%

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A low-cost pole-placement MPC algorithm for controlling complex dynamic systems

Zhang

Xie

et al. 2022

Journal of Process Control

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“…This subsection shows how to implement Algorithm 2 taking superheated steam temperature control as an example. A superheated steam temperature model can be described by [20]:…”

Section: Case I: Superheated Steam Temperaturementioning

confidence: 99%

“…2 i in (21), which is with an overshoot and a large attenuation rate. Meanwhile, the order of the desired model is lower compared with (20). With sampling period 0.1 sec, the parameters in Algorithm 2 are given as…”

Section: Case I: Superheated Steam Temperaturementioning

confidence: 99%

A low-cost pole-placement MPC algorithm for controlling complex dynamic systems

Zhang

Xie

et al. 2022

Journal of Process Control

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“…Para solucionar estos inconvenientes en[1], se desarrolló un controlador en cascada, controladores que también son utilizado para mejorar las perturbaciones que se presenten[1] [2] en la variable de salida, este esquema de control utiliza un sensores intermedio y por lo menos dos lazos de control, en donde el lazo de control interno, toma como punto de operación la señal de control del lazo externo, como lo realizan [3] [4] con lo que mejoran el control de un sistema. Una variación del controlador cascada es el adaptativo cascada el cual ha demostrado presentar mejores prestaciones que los controladores modernos, como los controladores difuso de variable intermedia FCIV y el control de temperatura de un sistema de calefacción solar [5] [6]. y también los desarrollo híbridos como el presentador por [7] en donde el lazo de control interno es multivariable y el externo es predictivo, y en [8] un control cascada IMC se desarrolla para controlar la temperatura del vapor en un caldera en la que los resultados obtenidos del controlador adaptativo cascada son efectivos en el proceso.…”

Section: Introductionunclassified

Experimentation with an adaptive waterfall controller with disturbance effect

Andramuño¹,

Córdova²,

Parra³

et al. 2019

Proceedings of the 17th LACCEI International Multi-Conference for Engineering, Education, and Technology: “Industry, Innovation

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The control systems whose output variable is slow requires more efficient control actions, in this line, there are the cascade-type controllers, which prevent the disturbances in the input of the process from manifesting in the output, currently the analysis are reflected in many investigations, but in a simulated way, and there are a few studies where the implementation is carried out at the didactic level, which allows to perform the verification of the simulations, and to observe the effect that this type of control has when is going to work in a real way, so we can prove the theories and affirmations of the scientific community. In this research, we complete the development of an adaptive cascadetype controller in the two control loops, in a didactic equipment that allows perturbations. To achieve the objectives, we obtained the mathematical modeling of the system, the controllers were designed, the control algorithm is implemented in a plant, whose variables are level and flow, and the effect that these controllers have on perturbations that are made to the process variables. During the implementation of the control algorithm, it was possible to verify that these types of controllers cause that the perturbations that are made at the input of the process were minimun reflected in the output variable.

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