Elastic instability in a straight channel of viscoelastic flow without prearranged perturbations (2201.06342v2)

Abstract: We report experimental results on elastic instability in a viscoelastic channel shear flow due to only a natural non-smoothed inlet and small holes along the channel for pressure measurements. We show that non-normal mode instability results in elastic waves and chaotic flow self-organized into periodically cycled stream-wise streaks synchronized by elastic wave frequency. The chaotic flow persists above the transition with increasing $Wi$ further into elastic turbulence and drag reduction regimes. Thus, we resolve the recent puzzle whether strong prearranged perturbations are necessary to get an elastic instability in parallel shear viscoelastic flow. Moreover, flow resistance, velocity spectra decay, and elastic wave speed reveal the same scaling with Wi as obtained in the case of strong disturbances. The remarkable result is that all scaling behavior and streaks are found in the entire channel with small attenuation, in sharp contrast to the flow with strong prearranged perturbations.