Analysis and Optimization of a Passive Micromixer With Curved-Shaped Baffles for Efficient Mixing With Low Pressure Loss in Continuous Flow

Abstract: Numerical simulations and an optimization method are used to study the design of a planar T-micromixer with curved-shaped baffles in the mixing channel. The mixing efficiency and the pressure loss in the mixing channel have been evaluated for Reynolds number (Re) in the mixing channel in the range 1 to 250. A Mixing index (Mi) has been defined to quantify the mixing efficiency. Three geometric dimensions: radius of baffle, baffles pitch and height of the channel, are taken as design parameters, whereas the mix… Show more

“…The chaotic advection in the circular mixer was seen at Re = 50, while in the TMC mixer, it was observed at Re = 10. Cortes-Quiroz et al (2010) performed numerical Simulation and Optimization of a T-micromixer having curved baffles attached to the wall over a Reynolds number range of 1-250. They studied the effects of baffle radius, baffle pitch, and height of the channel on the mixing and pressure drop.…”

Design and Mixing Performance of Passive Micromixers: A Critical Review

“…The chaotic advection in the circular mixer was seen at Re = 50, while in the TMC mixer, it was observed at Re = 10. Cortes-Quiroz et al (2010) performed numerical Simulation and Optimization of a T-micromixer having curved baffles attached to the wall over a Reynolds number range of 1-250. They studied the effects of baffle radius, baffle pitch, and height of the channel on the mixing and pressure drop.…”

Design and Mixing Performance of Passive Micromixers: A Critical Review

Effect of channel aspect ratio of 3-D T-mixer on flow patterns and convective mixing for a wide range of Reynolds number