posted on 2022-04-01, 14:40authored byKetan Madane, Chirag M. Khalde, Ajinkya Pandit, Vivek V. Ranade
Fluidic oscillators (FOs) are used in a variety of applications, including process control
and process intensification. Despite the simple design and operation of FOs, the fluid
dynamics of FOs exhibit rich complexities. The inherently unstable flow, jet oscilla tions, and resulting vortices influence mixing and other transport processes. In this
work, we computationally investigated the fluid dynamics of a new design of a planar
FO with backflow limbs. The design comprised of two symmetric backflow limbs
leading to bistable flow. The unsteady flow dynamics, internal recirculation, jet oscil lations, secondary flow vortices were computationally studied over a range of inlet
Reynolds numbers (2400–12,000). The nature and frequency of the jet oscillations
were quantified. The computed jet oscillation frequency was compared with the
experimentally measured (using imaging techniques) jet oscillation frequency. The
flow model was then used to quantitatively understand mixing, heat transfer, and
residence time distribution. The approach and the results presented in this work will
provide a basis for designing FO's with desired flow and transport characteristics for
various engineering applications.