Linear instability in highly shear thinning fluids through a pipe

Abstract: Shear-thinning fluids flowing through pipes are crucial in many practical applications, yet many unresolved problems remain regarding their turbulent transition. Using highly robust numerical tools for the Carreau-Yasuda model, we discovered that linear instability, characterised by an azimuthal wavenumber of unity, can occur. When the base flow behaves like power law fluids, two distinct unstable modes, a wall mode and a core mode, appear when the power law index falls below the critical values of 0.35 and 0.43, respectively. The viscosity ratio from infinite to zero shear rate can significantly impact instability, even if it is small, as observed in experiments. Under the parameters used in one of the experiments, where a linear critical point exists, we found that the nonlinear solutions undergo a supercritical bifurcation.