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Blog Posts Tagged Microfluidics Module

Performing a Shape and Topology Optimization of a Tesla Microvalve

November 15, 2019

1 Tesla microvalve model, 2 ways: The shape optimization features available in COMSOL Multiphysics enable you to improve simple designs inspired by more complex topology optimization results.

Modeling Free Surfaces in COMSOL Multiphysics® with Moving Mesh

May 31, 2018

You can model free liquid surfaces that do not undergo topology changes using moving mesh functionality in the COMSOL® software. Here’s a thorough guide on how to do so.

Two Methods for Modeling Free Surfaces in COMSOL Multiphysics®

May 15, 2018

We take you through 2 methods for modeling free surfaces in the COMSOL® software: the level set and phase field methods. Learn how to use each method and their benefits.

Improving IFE Target Fabrication with a Droplet Microfluidics Method

September 29, 2017

A common joke is that fusion energy is 30 years away, and always will be. Researchers are using simulation to tackle the challenges involved with of inertial fusion energy target production.

Analyzing a New Droplet-Forming Fluidic Junction with Simulation

September 8, 2017

A novel oscillatory microfluidic junction design, called a “batwing”, is improving the field of droplet microfluidics by consistently producing uniform and complex double-emulsion droplets.

Understand Phenomena in the Viscous Catenary Problem via Simulation

March 22, 2017

The viscous catenary problem is theoretically and experimentally significant in many industries due to the complex phenomena it entails. Simulation can help us understand this problem.

Designing Inkjet Printheads for Precise Material Deposition

January 4, 2017

The design of an inkjet printhead nozzle is important in order for the device to have precise material deposition, whether it is used in a 2D or 3D printer.

Designing Effective Transdermal Drug Delivery Patches with Simulation

November 29, 2016

Transdermal drug delivery (TDD) patches continuously deliver drugs into the body for a certain amount of time. However, the skin is designed to keep out foreign substances, like drugs. To create a TDD patch that successfully bypasses this barrier, simulation can be used to study drug release and absorption into the skin. To analyze this process, Veryst Engineering created a TDD patch model with the COMSOL Multiphysics® software and compared the results to experimental data.


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