A semi-analytical closure approximation for pipe flows of two Herschel–Bulkley fluids with a stratified interface

We propose a semi-analytical closure approximation to the stratified flow of two Herschel–Bulkley fluids flowing along a circular pipe. The closure proposed appears to approximate the volumetric fluxes within 10–15% over a broad range of rheological parameters and interface heights. Accuracy is diminished at more extreme viscosity ratios when the less viscous fluid is in a thin layer. We demonstrate that the closure is able to give a good prediction of displacement front velocities in the viscous regime, comparing well with experimental values, and can be used for approximating other design features of a displacement process, e.g. the maximal static wall layer (in the case of a yield stress fluid) and the minimal flow rate to prevent backflow.

► Semi-analytical closure approximation to the stratified flow of two Herschel–Bulkley fluids flowing along a circular pipe. ► Approximation within 10–15% over a broad range of rheological parameters and interface heights. ► Good prediction of displacement front velocities in the viscous regime. ► Good comparison with experimental values. ► Predicting minimal flow rates and maximal static wall layers.