XFlow offers particle-based Lattice-Boltzmann technology within SIMULIA s fluid simulation portfolio for high-fidelity computational fluid dynamics (CFD) applications
Summary
Summary
Advantage
Advantage
In the competitive environment of modern product innovation, industries across a wide range of industries require complex simulations of the real-world behavior of their products under extreme conditions, such as vehicle wading, powertrain lubrication, and critical flight maneuvers.
XFlow offers particle-based Lattice-Boltzmann technology within SIMULIA's fluid simulation portfolio for high-fidelity computational fluid dynamics (CFD) applications. XFlow is an advanced technology that allows users to solve complex CFD workflows involving high-frequency transient simulations with realistic moving geometry, complex multiphase flows, free-form flow, and fluid-structure interactions.
Its automatic lattice generation and adaptive optimization minimize user input, reducing time and effort spent on meshing and preprocessing. This way, engineers can spend most of their energy on design iterations and optimizations.
With XFlow's discretization approach, surface complexity is also no longer a limiting factor. The underlying lattice can be easily controlled with a small set of parameters; the lattice has a high tolerance for the quality of the input geometry and can accommodate the presence of moving parts. Advanced rendering capabilities provide realistic visualizations for a deeper understanding of flow and thermal performance. XFlow's unique capabilities help companies reduce physical testing while making better design decisions faster.
SIMULIA Fluid Simulation is powered by three free technologies that provide customers with scalable fluid simulation to meet a wide range of real-world application needs. The Dassault Systèmes SIMULIA brand is dedicated to enhancing and expanding our fluid simulation portfolio to provide end-to-end solutions for various industry processes on the 3DEXPERIENCE platform.
Unique CFD method:
- ∨Beyond the Lattice Boltzmann method
- ∨Particle Motion Solver
- ∨Adaptive Lattice Optimization
- ∨Disturbance Modeling: High Fidelity WMLES