Ansys Fluent R 17 - · PDF fileSingle-phase or VOF multiphase ... • Full Fluent Model...
Transcript of Ansys Fluent R 17 - · PDF fileSingle-phase or VOF multiphase ... • Full Fluent Model...
Ansys Fluent R 17.0
Michele Andreoli([email protected])
Table of contentsUser InterfaceFluent MeshingSolver NumericsNew featuresInnovative Solutions
New User Interface: Ribbon-Driven Solver Workflow
Ribbon: Access primary workflow
Tree: Access model particulars and shortcuts
New User Interface: Ribbon-Driven Solver Workflow
New User Interface
Fluent Meshing
Movable Icon Sets
Highlight entities
Common Icons with solver
Operation Icons
Display/Selection controls
Native Polyhedral MeshingPolyhedral mesh requires initial tetmesh generation and then polyhedral mesh conversion in the Fluent solver. Can be complicated, time consuming and result in too many small mesh cells
Create native polyhedral mesh
Advantages:• 2-3 times less memory• 2-3 times faster
Solver AccuracyNew settings for a better convergence and robustness for typical industrial cases
EquationsConservative Coarsening (poly and highly stretched cells)Reordering of the AMG solver
Mesh QualityWarped-Face Gradient Correction
No reordering
RCM reordering
WFGC
New featuresOverset Mesh Method
Customers expect to be able to simulate complex geometries where components of the geometry are moving relative to one another.
Overset mesh problems can be set up and solved for:Steady and transient (fixed mesh), 3-D and 2-D planarPressure-based coupled solverIncompressible density methodSingle-phase or VOF multiphaseHeat transferk-epsilon and SST k- models
BETA in 17.0: Moving mesh, compressible flow, VOF with surface tension, pressure-far-field BC, Workbench support, pressure-based segregated algorithms.
Turbulence/AcousticsHybrid RANS-LES models
Shielded Detached Eddy Simulation (SDES)– New shielding function for DES models
– Much improved shielding under grid refinement – Shielding function which ‘dissolves’ under LES conditions – Improved definition of mesh length scale and calibration
– Stress Blended Eddy Simulation (SBES)– Based on SDES shielding function, switch from selected RANS model to selected LES model– Provide shielding function to clearly define/show regions of RANS and regions of LES
AcousticsAxial Fan
Fluent Addon Modules
Fluent Reacting Flow EnhancementsCHEMKIN-CFD Solver can now be used with no additional licenseFull compatibility with CHEMKIN mechanismsDynamic Cell Clustering with CHEMKIN-CFD offers significant speed-up for detailed chemistry
0 20 40 60 80 100 120
R17-DI
R17-DI-CA
Chemkin-CFD_DCC
ODE_solver Iterative_Solver
Fluent Offshore/Marine VOF
Segregated Velocity Inputs for primary and secondary phases and moving object for Open Channel BCMulti-directional numerical beachFenton Wave Theory for Open-Channel Flows
Improved accuracy for steep waves for which earlier implementations would predict premature breaking
Old New
• Streamlined workflow of entire simulation using Workbench
• Multi-Physics• Deterministic and Probabilistic
analysis• Can be coupled with RBF Morph
to include morphing
Design Exploration
From the comprehensive analysis to innovative solutions
Parameter Based
• Comprehensive design space• Detailed sensitivity analysis• Innovative solutions by gradient
based shape optimization• Can be coupled with RBF Morph
for advanced morphing• One tool – no additional license
Adjoint Solver
Parameter Free
Innovative Design
• Standalone Mesh Morpher based on Free Form Deformation Approach
• Coupled Mesh Morpher with Non-Gradient Based Optimization Methods
• Full Fluent Model Support• One tool – no additional license
Mesh Morpher Optimizer
Shape Optimization
Optimization without Morphing
Optimization with morphing
Goal:Decrease pressure loss in a pipe or manifold.
Challenges:Time.Limited Resources.Complex Environments.
Outcome:Improved overall performance.Life time improvement.Pressure loss decreased by 12%.
oooold.
How to increase life time of a manifold?
Design Space
Porous media
Adjoint Solver
ANSYS Solution for Erosion Modeling• Different particulate modeling options
DPM, DDPM, DEM, Eulerian-Granular
• Wide Varieties of Erosion Models are available in ANSYS FLUENTFLUENT’s Default Erosion ModelMclaury et. Al Erosion ModelSalama & Venkatesh Erosion ModelTulsa Erosion ModelDNV Erosion ModelErosion Model based on Wall Shear StressFlexibility to incorporate any erosion model
• Erosion pattern in complex flows and geometries can be predicted with a good accuracy
Contours of Erosion Rate
Thanks for you attention