Select modules from the industry-leading suite of field solvers for microfluidic analysis

With the CoventorWare ANALYZER™ suite of microfluidics solvers, you can analyze, solve, compute, perform and simulate many different types of solutions including:

• analyze fluid flow and chemical transport in electro-kinetic, and mixed electro-kinetic systems
• solve for general purpose CFD
• compute electro-kinetic response of a species in a fluid subjected to a switched electric field
• perform 3D numerical modeling of multiple reacting chemical species, coupled with fluid flow, heat transfer, diffusion, and electro-kinetics
• simulate movement of bubbles and surrounding fluids in micro-channels, of droplet formation, transport and impact
• analyze electro-phoreses, electro-osmosis, mixed electro-kinetics and other fluid-structure interactions in 3D

The microfluidics modules in ANALYZER are built on fluidics solvers supplied by the industry leaders.  Coventor has added special features to each module that make it easy to simulate a wide variety of micro- and nano-scale fluidic effects.  You get the best of both worlds: state-of-the-art field solvers from industry leaders, and Coventor’s many years of experience with microfluidics applications.  Instead of spending valuable engineering time learning how to program microfluidics effects in a general-purpose fluidics solver, you can immediately focus on your microfluidics device.

ANALYZER’s microfluidics modules provide comprehensive coverage of single- and multi-phase fluidics , including:

• Droplet ejection and bubble nucleation (applicable to inkjets)
• Incompressible or variable density flows
• Laminar or turbulent flows
• Pressure-driven flows
• Buoyancy-driven flows
• Newtonian or non-Newtonian viscosity models
• Steady-state or transient solutions
• Electrohydrodynamics (electrokinetics) transport by electrophoresis, dielectrophoresis, or electro-osmosis
• Electrowetting on dielectrics
• Multi-species mixing, separation and transport
• Surface tension and capillary effects
• Hydrophobic and hydrophylic surfaces
• Particle transport
• Evaporation and condensation
• Electrostatic droplet manipulation
• Reaction chemistry including enzyme kinetics
• Fluid-Structure Interaction (FSI)
• Thermal and electrothermal effects (Joule heating)

The microfluidics modules are flexibly bundled: customers can purchase the complete suite, or just the subset that’s relevant to their application.