Non-linear Model Predictive Control of Conically Shaped Liquid Storage Tanks
For control engineers dealing with non-linear tank dynamics, this work offers a tailored NMPC approach, though it is an incremental application of existing methods.
The paper develops a non-linear model predictive control (NMPC) strategy for level control in conically shaped liquid storage tanks, demonstrating through simulation that NMPC provides better tracking performance than linear MPC.
This paper deals with the analysis and synthesis of a model predictive control (MPC) strategy used in connection with level control in conically shaped industrial liquid storage tanks. The MPC is based on a dynamical non-linear model describing the changes of the liquid level with respect to changes in the inlet flow of the liquid. An Euler discretization of the dynamical system is exploited to transform the continuous time dynamics to its discrete time counterpart, used in the non-linear MPC (NMPC) synthesis. By means of a simulation case study will be shown, that NMPC better tracks the changes of the liquid level, hence provides increased control performance. This paper also compares the traditional approach of optimal control, the linear MPC, with the NMPC strategy.