Fluid mixing in droplet‐based microfluidics with T junction and convergent–divergent sinusoidal microchannels

Abstract: To explore and utilize the advantages of droplet-based microfluidics, hydrodynamics, and mixing process within droplets traveling though the T junction channel and convergent-divergent sinusoidal microchannels are studied by numerical simulations and experiments, respectively. In the T junction channel, the mixing efficiency is significantly influenced by the twirling effect, which controls the initial distributions of the mixture during the droplet formation stage. Therefore, the internal recirculating flow c… Show more

“…The rst signicant mixing of reacting streams (R1 and R2) occurs near the liquid-liquid interface preceding droplet formation by the mechanism known as the twirling effect. 28 Three-dimensional tracer distributions and mixing indices for droplets exiting the outlet nozzle (position 0 in Fig. 7) are shown in Fig.…”

“…27 Knowledge about hydrodynamics and mixing phenomena inside of droplets plays a vital role in design optimisation and prospective expansion of microuidics in various high-end applications. 28,29 Currently, the character of the uid movement is mostly examined by microscale Particle Image Velocimetry (mPIV) using microscopic latex particles as a model tracer. 30 For the experimental evaluation of mixing performance, a variety of microscopic techniques with the aid of ow visualisation by pH-sensitive, coloured and uorescent dyes, have been employed.…”

Influence of channel height on mixing efficiency and synthesis of iron oxide nanoparticles using droplet-based microfluidics

“…The rst signicant mixing of reacting streams (R1 and R2) occurs near the liquid-liquid interface preceding droplet formation by the mechanism known as the twirling effect. 28 Three-dimensional tracer distributions and mixing indices for droplets exiting the outlet nozzle (position 0 in Fig. 7) are shown in Fig.…”

“…27 Knowledge about hydrodynamics and mixing phenomena inside of droplets plays a vital role in design optimisation and prospective expansion of microuidics in various high-end applications. 28,29 Currently, the character of the uid movement is mostly examined by microscale Particle Image Velocimetry (mPIV) using microscopic latex particles as a model tracer. 30 For the experimental evaluation of mixing performance, a variety of microscopic techniques with the aid of ow visualisation by pH-sensitive, coloured and uorescent dyes, have been employed.…”

Influence of channel height on mixing efficiency and synthesis of iron oxide nanoparticles using droplet-based microfluidics

“…40,49,50 Given that the two miscible fluids have very close properties, it would be a valid assumption to ignore the Marangoni effect in the solution as frequently being assumed in previous works on mixing inside droplets. 28,42 The The effective dimensionless numbers in this study are Reynolds, Peclet and Capillary numbers.…”

Effects of magnetic nanoparticles on mixing in droplet-based microfluidics

“…Microchannel structures deformation was widely used to break the symmetric recirculation in the droplets moving in the straight channel. The common methods are meandering channels ( Figure 4 a–f) or obstacle arrangements ( Figure 4 g) to break the symmetrical recirculation as well as to increase the effect of chaotic advection for mixing [ 34 , 53 , 56 , 58 , 63 , 64 , 65 ].…”

Passive Mixing inside Microdroplets