Add to ORKGIn recent years, microfluidic devices that generate micron sized droplets/bubbles have found widespread applications in drug delivery, microanalysis, tumor destruction, as ultrasound agents and in chemical reactions at the micron level. In the current work, simulations results are being presented for a T-junction device for formation of micron-sized droplets using the lattice Boltzmann method. In this work, the key parameters of interest for estimating the frequency and volume of the generated droplets are the flow rates and viscosities of the two fluids, and the geometry of the flow channel. Simulations at low Capillary number indicate that droplets formed occupy the whole volume of the main channel and undergo a squeezing regime. At highe...
Drop formation in cross-junction micro-channels is numerically studied using the lattice Boltzmann m...
Abstract A free energy model is used to describe the droplet formation and break-up process in a T-j...
Analysis of droplet formation in microfluidic systems is important to understand the operation of th...
Using the lattice Boltzmann multiphase model, numerical simulations have been performed to understan...
We investigated the formation of a droplet from a single pore in a glass chip, which is a model syst...
In this study, we compared microchannel droplet formation in a microfluidics device with a two phase...
In the surface tension-dominated microchannel T-junction, droplets can be formed as a result of the ...
We investigate the interaction of two immiscible fluids in a head-on device geometry, where both flu...
In the surface tension-dominated microchannel T-junction, droplets can be formed as a result of the ...
In this work, the formation of droplets in a microfluidic flow-focusing device is studied and presen...
Flow regimes obtained as a consequence of two immiscible fluids interacting at a T-junction are pres...
In this work, the formation of droplets in a microfluidic flow-focusing device is studied and presen...
Using a phase-field model to describe fluid/fluid interfacial dynamics and a lattice Boltzmann model...
We developed a lattice Boltzmann model to investigate the droplet dynamics in microfluidic devices. ...
Droplet formation in a microfluidic flow-focusing device studied using two different simulation tech...
Drop formation in cross-junction micro-channels is numerically studied using the lattice Boltzmann m...
Abstract A free energy model is used to describe the droplet formation and break-up process in a T-j...
Analysis of droplet formation in microfluidic systems is important to understand the operation of th...
Using the lattice Boltzmann multiphase model, numerical simulations have been performed to understan...
We investigated the formation of a droplet from a single pore in a glass chip, which is a model syst...
In this study, we compared microchannel droplet formation in a microfluidics device with a two phase...
In the surface tension-dominated microchannel T-junction, droplets can be formed as a result of the ...
We investigate the interaction of two immiscible fluids in a head-on device geometry, where both flu...
In the surface tension-dominated microchannel T-junction, droplets can be formed as a result of the ...
In this work, the formation of droplets in a microfluidic flow-focusing device is studied and presen...
Flow regimes obtained as a consequence of two immiscible fluids interacting at a T-junction are pres...
In this work, the formation of droplets in a microfluidic flow-focusing device is studied and presen...
Using a phase-field model to describe fluid/fluid interfacial dynamics and a lattice Boltzmann model...
We developed a lattice Boltzmann model to investigate the droplet dynamics in microfluidic devices. ...
Droplet formation in a microfluidic flow-focusing device studied using two different simulation tech...
Drop formation in cross-junction micro-channels is numerically studied using the lattice Boltzmann m...
Abstract A free energy model is used to describe the droplet formation and break-up process in a T-j...
Analysis of droplet formation in microfluidic systems is important to understand the operation of th...