2024
Physics and theory for nanoFluidX.
View new features for nanoFluidX 2024.
nanoFluidX is a software to simulate single and multi-phase flows based on the Lagrangian Particle Method Smoothed Particle Hydrodynamics (SPH).
Discover nanoFluidX functionality with interactive tutorials.
Create a nanoFluidX model using SimLab.
How to run a nanoFluidX model.
How to post-process nanoFluidX results using ParaView.
Guidance on modeling specific usecases with nanoFluidX.
nanoFluidX commands and parameters with examples.
The body force, defined through acceleration in units of [m/s2], can be varied over time using an input file.
Enable the contact angle parameter to allow different wetting behaviors.
Energy equation in nanoFluidX is implemented so that it accommodates for conduction and convection heat transfer with initial or Dirichlet boundary conditions.
nanoFluidX implementation of the multiphase surface tension model heavily relies on the work of Adami et al.
Both single phase surface tension and adhesion modeling is based on the work of Akinci et al.
nanoFluidX now supports both temperature-viscosity and non-Newtonian modeling behavior. For temperature-viscosity, three models were implemented: polynomial, Sutherland, and power law. For non-Newtonian, the Cross model is available, which can be used to approximate power law behavior without risking instabilities due to viscosity unboundness of the power model.
Information about advanced solver features.
Validation cases for the dynamic testing of nanoFluidX.
Performance benchmark results for nanoFluidX.
This glossary contains generic messages generated by nanoFluidX, their likely causes, and possible methods to resolve the related issues.
This section provides quick responses to typical and frequently asked questions regarding nanoFluidX.
References used throughout the nanoFluidX manual.
View All Altair HyperWorks Help