Author/Authors :
S. Benamor، نويسنده , , F.J. Doyle III and
R. McFarlane، نويسنده ,
Title Of Article :
Polymer grade transition control using
advanced real-time optimization
software
Latin Abstract :
This paper describes the application of an industrial real-time optimization package (ROMeo 1) to the nonlinear model predictive
control (NLMPC) of a simulated polymer grade transition. The NLMPC algorithm is formulated using orthogonal collocation
to integrate the model equations, and sequential quadratic programming to solve the resulting nonlinear programming
problem. A receding horizon estimation scheme and, separately, a Luenberger observer are designed to reconstruct unmeasured
states. The resulting algorithm is demonstrated on two simulated polymerization case studies: (i) continuous methyl methacrylate
and (ii) gas-phase polyethylene.
NaturalLanguageKeyword :
Receding horizon estimation , Nonlinear model predictive control , polymerization , Real-time optimization , Gradetransition , ROMeo , orthogonal collocation
JournalTitle :
Studia Iranica
