Dynamic Modeling of the Reactive Twin-Screw Corotating Extrusion Process: Experimental Validation by Using Inlet Glass Fibers Injection Response and Application to Polymers Degassing

Abstract: In this paper is described an original dynamic model of a reactive co-rotating twinscrew extrusion (TSE) process operated by the Rhodia company for the Nylon-66 degassing finishing step. In order to validate the model, dynamic experiments have been performed on a small-scale pilot plant. These experiments consist in a temporary injection of glass fibers at the inlet of the extruder after it has reached a given operating point. The outlet glass fibers mass fraction time variation is then measured. This experime… Show more

“…The extruder is considered as a continuous chemical reactor, in which polymers with different viscosities are mixed, chemical reactions develop and heat transfer phenomena occur [5]. The first attempt in modelling reactive extrusion is based on an engineering approach, such as residence time distribution (RTD) and flow conditions described for an ideal chemical reactor.…”

Contribution of Reactive Extrusion to Technological and Scientific Challenges of Eco-Friendly Circular Economy

“…The extruder is considered as a continuous chemical reactor, in which polymers with different viscosities are mixed, chemical reactions develop and heat transfer phenomena occur [5]. The first attempt in modelling reactive extrusion is based on an engineering approach, such as residence time distribution (RTD) and flow conditions described for an ideal chemical reactor.…”

Contribution of Reactive Extrusion to Technological and Scientific Challenges of Eco-Friendly Circular Economy

“…In the literature, a constant density is often used and the shear viscosity is modeled by an empirical equation [56][57][58] or a rheological law [35,[52][53][54][55].…”

A Review of Dynamic Models of Hot-Melt Extrusion

Hybrid Modeling of Phase Transition for Evaporators and Condensers in Chillers