CFD analysis of a polybutene reactor to diagnose causes of polymer adhesion at inner walls

RAMAJO, D.; RAVICULÉ, MARCELA; HOROWITZ, GABRIEL; STORTI MARIO; NIGRO NORBERTO

LATIN AMERICAN APPLIED RESEARCH

Universidad Nacional del Sur y CONICET

Lugar: Bahia Blanca, Argentina; Año: 2009

0327-0793

In this work the flow patterns inside a poly-isobutene reactor operating in an oil refinery were studied by CFD (Computational Fluid Dynamics) using finite elements. Research was carried out with the aim to find possible causes of excessive adhesion of polymer and catalyst particles at the reactor inner walls. The multi-fluid formulation for a three-phase system formed by an emulsion of liquid propane gas with polymer, solid catalyst particles and small butane bubbles generated by the reaction was applied. Deposition of solid particles and a nonhomogeneous flow distribution over the lower reactor walls were founded. Based on the hypothesis that adhesion phenomena is related to a combination of catalyst-particle precipitation at walls and locally low shear stresses, several operative and constructive modifications were proposed in order to reduce this phenomenon