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Abstract:
In Taylor-Couette flow the total energy dissipation rate and therefore the drag can be determined by measuring the torque on the system. We do so for Reynolds numbers between Re = 7×10 4 and Re = 10 6 after having injected (i) small bubbles (R = 1 mm) up to a volume concentration of α=5% and (ii) buoyant particles (ρp/ρl = 0.14) of comparable volume concentration. In case (i) we observe a crossover from little drag reduction at smaller Re to strong drag reduction up to 20% at Re = 10 6. In case (ii) we observe at most little drag reduction throughout. Several theoretical models for bubbly drag reduction are discussed in view of our findings.
