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

Abstract: 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 sys… Show more

“…At present, polystyrene is widely used in the chemical, manufacturing, construction, and electrical industries due to its excellent chemical resistance, thermal stability, mechanical durability, and electrical insulation. [1][2][3] However, the modeling and control of the polystyrene polymerization reaction process remains a difficult research area, primarily due to the processes' complex reaction kinetics, highly nonlinear nature, and interactivity between process variables. 4 One of the important objectives of the polystyrene polymerization reaction process is to ensure that the enduse polystyrene products have the desired properties for a specific application, such as the molecular weight distribution, chain lengths, and monomer conversion.…”

Tube‐based batch model predictive control for polystyrene polymerization reaction process

“…At present, polystyrene is widely used in the chemical, manufacturing, construction, and electrical industries due to its excellent chemical resistance, thermal stability, mechanical durability, and electrical insulation. [1][2][3] However, the modeling and control of the polystyrene polymerization reaction process remains a difficult research area, primarily due to the processes' complex reaction kinetics, highly nonlinear nature, and interactivity between process variables. 4 One of the important objectives of the polystyrene polymerization reaction process is to ensure that the enduse polystyrene products have the desired properties for a specific application, such as the molecular weight distribution, chain lengths, and monomer conversion.…”

Tube‐based batch model predictive control for polystyrene polymerization reaction process

Case study 2: Managing the Complexities of the HAZOP for styrene polymerization plant

Shape memory polystyrene and trans-1,4-polyisoprene-derived nanocomposites