Leonhard Urbas scite author profile

Dynamic model development and control of an existing operating industrial continuous bulk free radical styrene polymerization process are carried out to evaluate the performance of auto-refrigerated CSTRs (continuous stirred tank reactors). One of the most difficult tasks in polymerization processes is to control the high viscosity reactor contents and heat removal. In this study, temperature control of an auto-refrigerated CSTR is carried out using an alternative control scheme which makes use of a vacuum system connected to the condenser and has not been addressed in the literature (i.e. to the best of our knowledge). The developed model is then verified using some experimental data of the real operating plant. To show the heat removal potential of this control scheme, a common control strategy used in some previous studies is also simulated. Simulation results show a faster dynamics and superior performance of the first control scheme which is already implemented in our operating plant. Besides, a nonlinear model predictive control (NMPC) is developed for the polymerization process under study to provide a better temperature control while satisfying the input/output and the heat exchanger capacity constraints on the heat removal. Then, a comparison has been also made with the conventional proportional-integral (PI) controller utilizing some common tuning rules. Some robustness and stability analyses of the control schemes investigated are also provided through some simulations. Simulation results clearly show the superiority of the NMPC strategy from all aspects.

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Integration of Mathematical Modeling with HAZOP Study of a Polymerization Plant: Capabilities and Lacunae

Mokhtarname

Safavi

Urbas

et al. 2021

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Toward HAZOP 4.0 Approach for Managing the Complexities of the Hazard and Operability of an Industrial Polymerization Reactor

et al. 2020

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Automated HAZOP

Salimi¹,

Safavi²,

Urbas³

et al. 2023

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Leonhard Urbas

Application of multivariable process monitoring techniques to HAZOP studies of complex processes

Model development and control of an auto-refrigerated polystyrene polymerization reactor

Integration of Mathematical Modeling with HAZOP Study of a Polymerization Plant: Capabilities and Lacunae

Toward HAZOP 4.0 Approach for Managing the Complexities of the Hazard and Operability of an Industrial Polymerization Reactor

Automated HAZOP

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