Chaotic mixing in a free‐helix extruder using a new solution to the biharmonic equation

Abstract: A recently published approach for modeling the cross flow in an extruder channel using a new solution to the biharmonic equation is utilized in a study of chaotic mixing in a free‐helix single‐screw extruder. This novel extruder was designed and constructed with the screw flight, also referred to as the helix, detached from the screw core. The flight‐helix had straight sides that more closely emulated rectangular channel theory than the nominal sloped sides of a conventional single screw channel. Each of the s… Show more

“…[30] The reasons for the limitation of the conventional barrel analysis when compared to the general predictions of the screwrotation analysis were recently discussed in detail. [31] For the tradition barrel rotation analysis, referring to Figure 1, the flow rate analysis is restricted to the z direction channel flow:…”

“…These transformed (moving) reference frame concepts are utilized in the following development: the boundary conditions at the barrel of the flight-helix, V b , which is the velocity of the flighthelix next to the barrel." [31] "An outline of a new single screw melting concept was previewed in 2009 for the typical conventional melting process. [32] This screw rotation model predicted that the solid bed melted due to dissipation and heat transfer in all four melt films surrounding the melting solid bed, as illustrated in Figure 9.…”

“…[ 30 ] The reasons for the limitation of the conventional barrel analysis when compared to the general predictions of the screw‐rotation analysis were recently discussed in detail. [ 31 ] For the tradition barrel rotation analysis, referring to Figure 1, the flow rate analysis is restricted to the z direction channel flow: At constant rotation rate, as H increases V b and thus V bz , the barrel z direction velocity, must be decreased to keep the shear rate consistent relative to the screw core velocity, V sc ( H ). At the limit when H is large enough to force the screw radius to 0, Q will be 0.…”

“…A recent numerical analysis of screw channel flow and Moffatt eddies found that by keeping the barrel interface velocity independent of the channel depth, the results were consistent with those found using Equation (7). These transformed (moving) reference frame concepts are utilized in the following development: the boundary conditions at the barrel of the flight‐helix, V b , which is the velocity of the flight‐helix next to the barrel.” [ 31 ]…”

A proposed mechanism for solid bed encapsulation: Based on comparing three dimensional andone‐dimensionalscrew melting models

“…[30] The reasons for the limitation of the conventional barrel analysis when compared to the general predictions of the screwrotation analysis were recently discussed in detail. [31] For the tradition barrel rotation analysis, referring to Figure 1, the flow rate analysis is restricted to the z direction channel flow:…”

“…These transformed (moving) reference frame concepts are utilized in the following development: the boundary conditions at the barrel of the flight-helix, V b , which is the velocity of the flighthelix next to the barrel." [31] "An outline of a new single screw melting concept was previewed in 2009 for the typical conventional melting process. [32] This screw rotation model predicted that the solid bed melted due to dissipation and heat transfer in all four melt films surrounding the melting solid bed, as illustrated in Figure 9.…”

“…[ 30 ] The reasons for the limitation of the conventional barrel analysis when compared to the general predictions of the screw‐rotation analysis were recently discussed in detail. [ 31 ] For the tradition barrel rotation analysis, referring to Figure 1, the flow rate analysis is restricted to the z direction channel flow: At constant rotation rate, as H increases V b and thus V bz , the barrel z direction velocity, must be decreased to keep the shear rate consistent relative to the screw core velocity, V sc ( H ). At the limit when H is large enough to force the screw radius to 0, Q will be 0.…”

“…A recent numerical analysis of screw channel flow and Moffatt eddies found that by keeping the barrel interface velocity independent of the channel depth, the results were consistent with those found using Equation (7). These transformed (moving) reference frame concepts are utilized in the following development: the boundary conditions at the barrel of the flight‐helix, V b , which is the velocity of the flight‐helix next to the barrel.” [ 31 ]…”

A proposed mechanism for solid bed encapsulation: Based on comparing three dimensional andone‐dimensionalscrew melting models

Melt Homogenization

Melt Homogenization