Flow360 CFD Solver

Flow360 is the next-generation Navier-Stokes solver. It is 100 times faster than industry-leading solvers, with the same high-fidelity and reduced cost. It expedites your time to market, shortens design cycles, reduces development cost, and facilitates more comprehensive testing to avoid program delays.

1.1 Introduction to Flow360

WebUI

1.2 ONERA M6 Wing

WebUI

1.3 ONERA M6 Wing

python

1.4 Automated Meshing

WebUI

1.5 Automated Meshing

python

1.6 NREL S809 Airfoil

python

Contents

• Quick Start 👋
  • Introduction to Flow360
  • ONERA M6 Wing with WebUI
  • ONERA M6 Wing with Python API
  • Automated Meshing with WebUI
  • Automated Meshing with Python API
  • NREL S809 Airfoil
  • XV-15 Rotor
• Capabilities 📈
  • Overview
  • Feature Compatibility Matrix
  • Propeller Models and Rotational Volume Zones
  • Aeroacoustics
  • User Defined Dynamics
  • User Defined Post Processing
• Preprocessing ✅
  • Mesh Configuration File
  • Engineering Sketch Pad
  • Automated Meshing
• Python API Beta 💻
  • Solvers
  • Simulation Parameters
  • Geometry
  • Volume Zones
  • Mesh
  • Boundary
  • CFL & Time-Stepping
  • Freestream
  • Disks
  • Output
  • Additional
  • Monitors
  • User Configuration
• Legacy Python Client (Deprecated)
  • Installing Flow360 Client
  • Sign in with your Account and Password
  • flow360client module
• Solver Configuration
  • geometry
  • freestream
  • boundaries
  • volumeZones
  • navierStokesSolver
  • turbulenceModelSolver
  • transitionModelSolver
  • heatEquationSolver
  • initialCondition
  • timeStepping
  • slidingInterfaces (list)
  • actuatorDisks (list)
  • BETDisks (list)
  • porousMedia (list)
  • userDefinedDynamics
  • Output
• Case Studies 📖
  • NACA 0012 Low Speed Airfoil
  • 2D NACA 4412 Airfoil Trailing Edge Separation
  • 2D Backward Facing Step
  • Transition Modeling
  • Wall Model
  • High Lift Common Research Model (HL-CRM)
  • Drag Prediction of Common Research Model
  • ONERA M6 Wing
  • XV-15 Rotor Blade Analysis using the Blade Element Disk Method
  • DTU 10MW Wind Turbine
  • Scale-Resolving Simulations Past a Circular Cylinder
  • Aeroacoustics and Noise Simulation
• Tutorials ✍️
  • Geometry Modeling and Preparation for Automated Meshing: An Example of the ONERA M6 Wing
  • Non-Dimensionalization and Integrated Loads Post-Processing in Flow360
  • RANS CFD on 2D High-Lift System Configuration Using the Flow360 Python Client
  • Blade Element Theory using the XV-15 rotor
  • Time-accurate RANS CFD on a propeller using a sliding interface: the XV-15 rotor geometry
  • Calculating Dynamic Derivatives using Sliding Interfaces
  • Automated Meshing for Internal Flow
  • Conjugate Heat Transfer for Cooling Fins
  • TU Berlin TurboLab Stator simulation using periodic boundary conditions
  • User Defined Dynamics
  • User Defined Postprocessing via userDefinedFields
• Knowledge Base 🔎
  • Preprocessing
  • Simulation
  • Postprocessing
  • Fixing Divergence Issues
  • Frequently Asked Questions
• Publications 📚
  • Webinar
  • Papers
• Release Notes
  • release-24.2
  • release-23.3.2.0
  • release-23.2.3.0
  • release-23.2.1.0
  • release-23.1.1.0
  • release-22.3.3.0
  • release-22.2.3.0
  • release-22.1.3.0
  • release-21.4.1.0