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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
flow360.HeatEquationSolver
flow360.IncompressibleNavierStokesSolver
flow360.InitialConditionHeatTransfer
flow360.LinearSolver
flow360.NavierStokesSolver
flow360.NoneSolver
flow360.TransitionModelSolver
flow360.PressureCorrectionSolver
Simulation Parameters
flow360.Flow360Params
flow360.Case
flow360.MyCases
Geometry
flow360.Geometry
flow360.IsoSurfaces
flow360.ProgressCallbackInterface
flow360.ReferenceFrame
flow360.ReferenceFrameDynamic
flow360.ReferenceFrameExpression
flow360.ReferenceFrameOmegaDegrees
flow360.ReferenceFrameOmegaRadians
flow360.SlidingInterface
flow360.Surfaces
Volume Zones
flow360.FluidDynamicsVolumeZone
flow360.HeatTransferVolumeZone
flow360.PorousMediumVolumeZone
flow360.VolumeZones
Mesh
flow360.Volume
flow360.VolumeMesh
flow360.VolumeMeshingParams
flow360.SurfaceMeshingParams
flow360.MySurfaceMeshes
flow360.MyVolumeMeshes
flow360.Aniso
flow360.ProjectAniso
flow360.UseAdjacent
Boundary
flow360.FreestreamBoundary
flow360.HeatFluxWall
flow360.IsothermalWall
flow360.MassInflow
flow360.MassOutflow
flow360.MeshBoundary
flow360.NoSlipWall
flow360.RiemannInvariant
flow360.RotationallyPeriodic
flow360.SlidingInterfaceBoundary
flow360.SlipWall
flow360.SolidAdiabaticWall
flow360.SolidIsothermalWall
flow360.SubsonicInflow
flow360.SubsonicOutflowMach
flow360.SubsonicOutflowPressure
flow360.SymmetryPlane
flow360.TranslationallyPeriodic
flow360.WallFunction
CFL & Time-Stepping
flow360.AdaptiveCFL
flow360.RampCFL
flow360.SteadyTimeStepping
flow360.TimeStepping
flow360.UnsteadyTimeStepping
Freestream
flow360.FreestreamFromMach
flow360.FreestreamFromMachReynolds
flow360.FreestreamFromVelocity
flow360.FreestreamInitialCondition
flow360.ZeroFreestream
flow360.ZeroFreestreamFromVelocity
flow360.VelocityInflow
flow360.AirDensityTemperature
flow360.AirPressureTemperature
flow360.PressureOutflow
flow360.SupersonicInflow
flow360.TurbulenceQuantities
flow360.VelocityInflow
Disks
flow360.ActuatorDisk
flow360.BETDisk
flow360.BETDiskChord
flow360.BETDiskSectionalPolar
flow360.BETDiskTwist
flow360.RotorDisk
Monitors
flow360.Monitors
flow360.ProbeMonitor
flow360.SurfaceIntegralMonitor
Output
flow360.AeroacousticOutput
flow360.IsoSurfaceOutput
flow360.MonitorOutput
flow360.SliceOutput
flow360.SurfaceOutput
flow360.VolumeOutput
Additional
flow360.KOmegaSST
flow360.PorousMediumBox
flow360.Slice
flow360.Slices
flow360.SpalartAllmaras
flow360.UnvalidatedFlow360Params
flow360.UserDefinedDynamic
User Configuration
flow360.AnimationSettings
flow360.AnimationSettingsExtended
flow360.UserConfig
flow360.HeatEquationSolver
flow360.IncompressibleNavierStokesSolver
flow360.InitialConditionHeatTransfer
flow360.LinearSolver
flow360.NavierStokesSolver
flow360.NoneSolver
flow360.TransitionModelSolver
flow360.PressureCorrectionSolver
flow360.Flow360Params
flow360.Case
flow360.MyCases
flow360.Geometry
flow360.IsoSurfaces
flow360.ProgressCallbackInterface
flow360.ReferenceFrame
flow360.ReferenceFrameDynamic
flow360.ReferenceFrameExpression
flow360.ReferenceFrameOmegaDegrees
flow360.ReferenceFrameOmegaRadians
flow360.SlidingInterface
flow360.Surfaces
flow360.FluidDynamicsVolumeZone
flow360.HeatTransferVolumeZone
flow360.PorousMediumVolumeZone
flow360.VolumeZones
flow360.Volume
flow360.VolumeMesh
flow360.VolumeMeshingParams
flow360.SurfaceMeshingParams
flow360.MySurfaceMeshes
flow360.MyVolumeMeshes
flow360.Aniso
flow360.ProjectAniso
flow360.UseAdjacent
flow360.FreestreamBoundary
flow360.HeatFluxWall
flow360.IsothermalWall
flow360.MassInflow
flow360.MassOutflow
flow360.MeshBoundary
flow360.NoSlipWall
flow360.RiemannInvariant
flow360.RotationallyPeriodic
flow360.SlidingInterfaceBoundary
flow360.SlipWall
flow360.SolidAdiabaticWall
flow360.SolidIsothermalWall
flow360.SubsonicInflow
flow360.SubsonicOutflowMach
flow360.SubsonicOutflowPressure
flow360.SymmetryPlane
flow360.TranslationallyPeriodic
flow360.WallFunction
flow360.AdaptiveCFL
flow360.RampCFL
flow360.SteadyTimeStepping
flow360.TimeStepping
flow360.UnsteadyTimeStepping
flow360.FreestreamFromMach
flow360.FreestreamFromMachReynolds
flow360.FreestreamFromVelocity
flow360.FreestreamInitialCondition
flow360.ZeroFreestream
flow360.ZeroFreestreamFromVelocity
flow360.VelocityInflow
flow360.AirDensityTemperature
flow360.AirPressureTemperature
flow360.PressureOutflow
flow360.SupersonicInflow
flow360.TurbulenceQuantities
flow360.VelocityInflow
flow360.ActuatorDisk
flow360.BETDisk
flow360.BETDiskChord
flow360.BETDiskSectionalPolar
flow360.BETDiskTwist
flow360.RotorDisk
flow360.AeroacousticOutput
flow360.IsoSurfaceOutput
flow360.MonitorOutput
flow360.SliceOutput
flow360.SurfaceOutput
flow360.VolumeOutput
flow360.KOmegaSST
flow360.PorousMediumBox
flow360.Slice
flow360.Slices
flow360.SpalartAllmaras
flow360.UnvalidatedFlow360Params
flow360.UserDefinedDynamic
flow360.Monitors
flow360.ProbeMonitor
flow360.SurfaceIntegralMonitor
flow360.AnimationSettings
flow360.AnimationSettingsExtended
flow360.UserConfig
Legacy Python Client (Deprecated)
Installing Flow360 Client
flow360client module
Solver Configuration
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
Meshing Recommendations
CGNS Mesh Format and Multizone Interface Connectivity
STEP Format CAD Import for Automated Meshing
Nondimensional Inputs
Boundary Conditions
User Defined Expressions
BET Translators
SectionalPolars
Best Practices.
Simulation
timeStepping
BETDisks
actuatorDisks
navierStokesSolver
turbulenceModelSolver
transitionModelSolver
heatEquationSolver
volumeZones
porousMedia
Postprocessing
Fixing Divergence Issues
Frequently Asked Questions
Publications 📚
Webinar
Papers
Release Notes
Repository
Open issue
.rst
.pdf
flow360.UserConfig
Contents
UserConfig
flow360.UserConfig
#
UserConfig
#
alias of <flow360.user_config.BasicUserConfig object>
