Add to ORKGAbstract: A rst principles model of a cement grinding circuit is developed for the purpose of multi-variable model predictive control (MPC). The model is based on a series of mixed ow reactors with an ideal screen to model ow between the two chambers in the ball mill. The separator is modelled by eciency curves. Breakage of the particles is modelled as a rst order process in terms of functions for the specic rate of breakage and the fragment distribution from breakage. These breakage functions are empirically based. A stationary solution for the model is found and dynamic simulations of step changes in the manipulated variables are shown. Copyright c 2005 IFAC
This paper describes the simulation, implementation and performance assessment of model predictive c...
A dynamic mathematical model was developed for the simulation and control of cement rotary kilns. Th...
In this work an advanced control system design aimed to the improvement of economic benefits and con...
This paper presents the development of a nonlinear model predictive controller (NMPC) applied to a c...
This paper presents the development of a non-linear model predictive controller (NMPC) applied to a ...
The development of a new process model of cement grinding in two-stage mills is discussed. The new m...
A new multivariable controller for cement milling circuits is presented, which is based on a nonline...
This paper focuses on the design of a nonlinear model predictive control (NMPC) scheme for a cement ...
In minerals processing control is vital to increasing performance and output of a plant. Model predi...
Based on a dynamical model of the grinding process in closed circuit mills, efficient efforts have b...
Abstract: A practical model predictive control method is proposed which was applied to a cement raw ...
Abstract: This paper presents a method for model reference control of a cement-milling circuit that ...
In this paper, a Model Predictive Control strategy is used to stabilize a temperature profile along ...
Abstract: The advantages of use closed circuit grinding cement clinker and additives into a ball mi...
The population balance concept has provided a useful framework for the description of the operating ...
This paper describes the simulation, implementation and performance assessment of model predictive c...
A dynamic mathematical model was developed for the simulation and control of cement rotary kilns. Th...
In this work an advanced control system design aimed to the improvement of economic benefits and con...
This paper presents the development of a nonlinear model predictive controller (NMPC) applied to a c...
This paper presents the development of a non-linear model predictive controller (NMPC) applied to a ...
The development of a new process model of cement grinding in two-stage mills is discussed. The new m...
A new multivariable controller for cement milling circuits is presented, which is based on a nonline...
This paper focuses on the design of a nonlinear model predictive control (NMPC) scheme for a cement ...
In minerals processing control is vital to increasing performance and output of a plant. Model predi...
Based on a dynamical model of the grinding process in closed circuit mills, efficient efforts have b...
Abstract: A practical model predictive control method is proposed which was applied to a cement raw ...
Abstract: This paper presents a method for model reference control of a cement-milling circuit that ...
In this paper, a Model Predictive Control strategy is used to stabilize a temperature profile along ...
Abstract: The advantages of use closed circuit grinding cement clinker and additives into a ball mi...
The population balance concept has provided a useful framework for the description of the operating ...
This paper describes the simulation, implementation and performance assessment of model predictive c...
A dynamic mathematical model was developed for the simulation and control of cement rotary kilns. Th...
In this work an advanced control system design aimed to the improvement of economic benefits and con...