6. Knowledge Base

This part of the documentation focuses on guidelines related to CFD and aerodynamics. Here you will find best practices for pre-processing and setting up simulations in Flow360 as well as more in-depth explanations about certain features.

• 6.1. Preprocessing
  • Meshing Recommendations
    • Introduction
    • Surface Mesh
      • Element Sizing
      • Quality Metrics
    • Volume Mesh
      • Element Sizing
      • Quality Metrics
      • y+ Estimation
    • Mesh format related considerations
    • BET and AD Refinement Regions
    • Modeling a Hub in BET/AD Simulations
    • Automated Meshing Refinement Regions for BET/AD Simulations
  • CGNS Mesh Format and Multizone Interface Connectivity
    • Introduction
    • Multizone Interface Connectivity
      • Collaboration with Volume Models
      • Interpretations in surfaceOutput
  • STEP Format CAD Import for Automated Meshing
    • Quick Example
    • Common Issues
      • Lofting Surfaces
      • Boolean Operations
      • Solid Body v.s. Sheet Body
      • Notes
  • BET Disk
    • BET Translators
      • C81 to Flow360 JSON
      • XFOIL to Flow360.json
      • XROTOR to Flow360.json
      • DFDC to Flow360.json
    • BET Sectional Polars
  • ESP Tutorials
    • ESP Tutorial for the ONERA M6 Wing
      • 3D Sketches of Airfoils
      • Wing Planform
      • Wing Solid Model
      • Adding Edge Attribute
        • Using Coordinates of Nodes and Edge Attribute UDPRIM
        • Using a Bounding Box
        • Using Edge ID
      • Adding Face and Group Attributes
    • ESP Tutorial for a 2D Multi-element Airfoil
      • Modeling Multi-element Configurations in ESP
        • Defining Geometry Parameters
        • 3D Sketches of Multi-element Configuration
        • Building the Wing Face Body
        • Building the Flap and Slat Face Bodies
        • Multi-element Configuration Solid Body
        • Adding Edge Attribute
        • Adding Face and Group Attributes
        • Using Python to Add Coordinates and Build Parameters
• 6.2. Simulation
  • Time Stepping
    • timeStepSize
      • Vortex Shedding Frequency
      • Angle of Rotation per Step
    • maxPseudoSteps
    • CFL
      • RampCFL
      • AdaptiveCFL
        • max_relative_change
        • convergence_limiting_factor
        • min
        • max
      • Comparison between RampCFL and AdaptiveCFL
  • NavierStokesSolver
    • absolute_tolerance
    • relative_tolerance
    • kappa_MUSCL
    • order_of_accuracy
    • Limiters
    • linear_solver
    • update_jacobian_frequency
    • equation_evaluation_frequency
    • numerical_dissipation_factor
    • Solver setup recommendation for the low-dissipation scheme
  • TurbulenceModelSolver
    • Turbulence Model Types
    • absolute_tolerance
    • relative_tolerance
    • order_of_accuracy
    • linear_solver
    • update_jacobian_frequency
    • equation_evaluation_frequency
    • rotation_correction
    • quadratic_constitutive_relation
    • DDES
  • TransitionModelSolver
    • absolute_tolerance
    • relative_tolerance
    • order_of_accuracy
    • linear_solver
    • update_jacobian_frequency
    • equation_evaluation_frequency
    • N_crit
    • turbulence_intensity_percent
  • HeatEquationSolver
    • equation_evaluation_frequency
    • linear_solver
  • Propeller Models and Rotational Volume Zones
    • Actuator Disk (AD)
      • Left-handed and Right-handed Rotors
    • Blade Element Theory Disk (BET Disk)
      • rotation_direction_rule
      • omega
      • chords and twists
      • n_loading_nodes
      • blade_line_chord
      • tip_gap
    • Blade Element Theory Line (BET Line)
    • Rotational Volume Zone
      • parent_volume
    • Multiple Reference Frame (MRF)
    • Single Reference Frame (SRF)
  • Aeroacoustics
    • Overview
  • Solid
    • material
    • initial_condition
  • PorousMedium
• 6.3. Validation Studies
  • NACA 0012 Low Speed Airfoil
    • Introduction
    • Mesh and Flow Configuration
    • SA/SA-RC Model Results
    • SST(m) Model Results
    • Remarks
  • 2D NACA 4412 Airfoil Trailing Edge Separation
    • Introduction
    • Simulation setup
    • Numerical Results
  • 2D Backward Facing Step
    • Introduction
    • Simulation setup
    • Numerical Results
  • Transition Modeling
    • Introduction
    • Flat Plate Case
      • Simulation Setup
      • Numerical Results
    • NLF(1)-0416 Airfoil Case
      • Simulation Setup
        • Grid Families
        • Grid Levels
        • Grid Comparisons
      • Grid Convergence Study
      • 2D vs Pseudo-3D
      • Spanwise Grid Effects
      • Grid Topology Effects
      • 3D Effects
      • Comparisons with FUN3D/OVERFLOW and Experimental Data
    • Conclusions
  • Wall Model
    • Introduction
    • Wall Model Formulation in Flow360
    • Flat Plate Case
      • Simulation Setup
      • Numerical Results
    • NACA0012 Case
      • Simulation Setup
      • Numerical Results
    • ONERAM6 Wing Case
      • Simulation Setup
      • Numerical Results
    • Ahmed Body Case
      • Simulation Setup
      • Numerical Results
    • Windsor Body Case
      • Simulation Setup
      • Numerical Results
    • Conclusions
  • High Lift Common Research Model (HL-CRM)
    • Introduction
    • Problem Description
    • Mesh
    • Setup and Solution
      • Upload the Mesh File
      • Run the Case
      • Downloading the Results
    • Grid Convergence
    • Results
    • Summary
  • Drag Prediction of Common Research Model
    • Introduction
    • Problem Description
    • Mesh
    • Setup and Solution
      • Upload the Mesh File
      • Run the Case
      • Downloading the Results
    • Grid Convergence
    • Results
    • Summary
  • ONERA M6 Wing
    • Introduction
    • Grid Convergence
    • Results
    • Summary
  • XV-15 Rotor Blade Analysis using the Blade Element Disk Method
    • Highlights
    • Introduction
    • Helicopter Hovering Mode
    • Airplane Mode
  • DTU 10MW Wind Turbine
    • Introduction
    • Rotor Geometry
    • Automated Meshing
    • Flow Configuration
    • Residual Convergence
    • Surface and Volumetric Results
    • Sectional Loads on One of the Blades
    • Integrated Loads on the Entire Rotor
    • Off-Design Performance
  • Scale-Resolving Simulations Past a Circular Cylinder
    • Introduction
    • Simulation Setup
    • Grid Refinement Study
    • Time-Dependent Flow Field Results
    • Time-Averaged Flow Field Results
    • Conclusions
  • Aeroacoustics and Noise Simulation
    • Introduction
    • Cross Flow over Circular Cylinder
    • Rod-Airfoil Configuration
      • Simulation Setup
      • Aerodynamic Validation
      • Noise Evaluation
    • Two-bladed Propeller
      • Simulation Setup
      • Grid Refinement Study
      • Aerodynamic Validation
      • Noise Evaluation
    • Conclusions
  • Underwater Flow Around the DARPA Model 4740 Submarine
    • Introduction
    • Geometry and Setup
    • Meshing Strategy
    • Simulation Parameters
    • Results and Validation
      • Mesh Sensitivity Study
      • Resistance Prediction Analysis
      • Surface Pressure and Skin Friction Coefficients
      • Radially Averaged Streamwise Velocity Field
    • Conclusion
    • References
• 6.4. Papers
  • Fundamental Studies Towards Rotor Simulations and Design
  • An Application of the Flow360 Solver to the Hover Download Prediction Problem
  • An Analysis of Modeling Sensitivity Effects for High Lift Predictions using the Flow360 CFD Solver
  • Impact of the Propulsion Modeling Approach on High-Lift Force Predictions of Propeller-Blown Wings
  • Flexcompute Contribution to the VIIth AIAA Drag Prediction Workshop
  • XV-15 Rotor Simulation in Flow360 using the Blade Element Theory
  • Rotor5: Rotor analysis under 5 hours using ultra-fast and high-fidelity CFD simulation and automatic meshing
  • Assessment of Detached Eddy Simulation and Sliding Mesh Interface in Predicting Tiltrotor Performance in Helicopter and Airplane Modes
  • Aerodynamic Risk Assessment using Parametric, Three-Dimensional Unstructured, High-Fidelity CFD and Adaptive Sampling