Modeling of transport phenomena and melting kinetics of starch in a co-rotating twin-screw extruder

In this study, the finite element method was used to investigate the effects of screw speed, entering peroxide distribution, and pressure-to-drag flow ratio on the mixing characteristics of steady non-isothermal reactive flows in a forward conveying element of a self-wiping twin screw extruder. The

The laser Doppler anemometer (LDA) technique has been successfully applied to measure the local velocities in the nip region of a twinscrew extruder. Tangential and axial components of velocity for heavy corn syrup were measured below and on either side of the nip. The experimental data show that th

## Abstract The distributive mixing efficiency of a twin‐screw extruder kneading zone consisting of eccentric disc elements was measured using an online video technique. Both co‐ and counter‐rotation were examined. Viscous Newtonian silicone oil was used as model liquid and black iron oxide pigment

The fiber degradation in the kneading disk region of a corotating twin screw extruder was studied with a closed single-stage co-rotating twin screw extruder as a model for the analysis. In a previous article, we reported that the stress in the kneading zone was proportional to the screw torque. In t

This article describes a mathematical model for the finishing stage of nylon-6,6 polycondensation in a twin-screw extruder reactor. In the model, the extruder is conceptually divided into two regions. The first one is the partially filled degassing zone, which is operated under low pressure and wher