systems coupling - ian lockley
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liSystem Coupling 14.0 – Two‐way FSI with ANSYS FLUENT and ANSYS Mechanicaland ANSYS Mechanical
ANSYS Regional Conference
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Fluid‐Structure Interaction Applications
Fluid‐structure interaction problems encompass a wide range of applications in many different industries.
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applications in many different industries.
Aerospace, automotive, power generation, biomedical, etc.
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Fluid‐Structure Interaction
• The solution to two‐way fluid‐structure interactionThe solution to two way fluid structure interaction requires co‐simulation between computational fluid dynamics and structural mechanics.
• Applications such as air foil flutter, flow induced pp ,vibration from wind loading, membrane valves, pumps, elastic artery modeling and fuel tank sloshing require a two‐way fluid‐structure interaction solution to
l di h b h i f h d iaccurately predict the behavior of the design.
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System Coupling 14.0
• Facilitates simulations that require tightly integratedFacilitates simulations that require tightly integrated couplings of analysis systems in the ANSYS portfolio
• Extensible architecture for range of coupling scenarios (one‐, two‐ & n‐way, static data, co‐simulation…)( , y, , )
• ANSYS Workbench user environment and workflow
• Standard execution management and data interfaces
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System Coupling 14.0 – A Broad Range of Features
• Two‐way surface force/displacement coupling with
Features
Two way surface force/displacement coupling with ANSYS Fluent and ANSYS Mechanical
– Steady/static and transient two‐way FSI
• Workbench based setup and executionWorkbench based setup and execution
– Windows and Linux
• Execution from command line outside of Workbench including cross platform executionincluding cross‐platform execution
• Integrated post‐processing with ANSYS CFD‐Post
• Parallel processing for both CFD and structural l ti ith ANSYS HPCsolutions with ANSYS HPC
– RSM currently not supported
• Restarts for fluid‐structure interaction
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• Parameterization, design exploration and optimization
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System Coupling Schematic Setup
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System Coupling Controls the Participant Solvers for Transient and Steady/Static Solutions
• Solution update can ONLY be done via System Coupling
for Transient and Steady/Static Solutions
Solution update can ONLY be done via System Coupling
• System Coupling ensures that the time duration and time step settings are consistent across all participant solvers
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Setup Transient Structural Model
Setup transient structural solution, structural boundary conditions and
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yFluid Solid Interface
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Setup Fluid Flow (FLUENT) Model
Setup transient fluid solution, fluid boundary conditions and specify System Coupling Dynamic Mesh Zone for fluid‐structure interaction motion
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motion
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System Coupling Motion Type
• System Coupling motionSystem Coupling motion identifies zones that may participate in System Coupling
• Allows user‐defined motion to be combined with System Coupling motion
• Defaults to stationary motion type when not connected to System Coupling
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Update Setup Cells for Transient S l d Fl id Fl (FLUENT)
• State of System Coupling setup cell will be
Structural and Fluid Flow (FLUENT)
State of System Coupling setup cell will be
– Upstream data is now available for SC Setup
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System Coupling Setup GUI
ChartChart Monitors
Outline
Solution Information Text MonitorsDetails
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System Coupling Analysis Settings
• Coupling End TimeCoupling End Time
• Coupling Step Size
• Minimum Number of Iterations per Coupling Stepper Coupling Step
• Maximum Number of Iterations per Coupling Step
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System Coupling Participants are Transient Structural and Fluid Flow (FLUENT)
• Region and variable information
Structural and Fluid Flow (FLUENT)
Region and variable information is generated automatically via Update when analysis systems are first connected to System Coupling
• For FLUENT, all regions of type Wall are shown in SC Setup
• For Mechanical, all regions of type Fluid Solid Interface are shown in SC Setup
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Recommended Way to Create Data T f R i
• Use Ctrl key to select a FLUENT
Transfer Regions
Use Ctrl key to select a FLUENT and Mechanical region pair and select Create Data Transfer from right‐click pop‐up menu
• Automatically fills in the details for the data transfer region
• Data transfers can be one‐way (i.e. only transfer force or only transfer displacement) or two‐way
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Create Data Transfers
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Data Transfer Defines the Details for the S T d D T f C l
• Participant
Source, Target and Data Transfer Controls
Participant
• Region
• Variable
• T f At• Transfer At
– Start of Iteration only
• Under Relaxation Factor
• Convergence Target
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Execution Control
• Co‐Simulation SequenceCo Simulation Sequence– Transient or Static Structural will
always be first in the co‐simulation sequence
D b O• Debug Output– Different levels of debug output for
analysis and data transfers
• Intermediate Results File OutputIntermediate Results File Output– Controls the intervals for writing
restart file information
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Executing System Coupling
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Alternative Method for Executing System C li
• From schematic select Update using right‐click menu
Coupling
From schematic select Update using right click menu on System Coupling solution cell
• Solution progress (% complete) can be monitored using View Progress menug
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Solution Information
• Build information
• Complete summary of coupling service input file
• Analysis details
• Participant summaries
• Data transfer details
• Mapping diagnosticsMapping diagnostics
• Time step and iteration summary
• Solver field equation convergence summaryconvergence summary
• Data transfer convergence summary
FLUENT/MAPDL l t t
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• FLUENT/MAPDL solver output
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Chart Monitors
Default chart monitors show convergence history for all data
f
X‐axis can be coupling time, step or
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transfers.step or iteration.
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Adding Charts and Variables
• Add charts by selecting Create Convergence ChartAdd charts by selecting Create Convergence Chart
• Variables can be added or removed from charts
– Data transfers, CFD and structural convergence normsnorms
• Chart properties are editable in same manner as other charts within ANSYS Workbench
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Post Processing System Coupling
• Transient Structural or Fluid Flow (FLUENT) Results cellTransient Structural or Fluid Flow (FLUENT) Results cell for solver‐specific post‐processing
• Add a Results System (ANSYS CFD‐Post) for unified post‐processing of structural and fluid resultsp p g
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Post Processing System Coupling
• Oscillating Plate VerificationOscillating Plate Verification
– Excellent correlation between System Coupling, published data and MFX solver
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System Coupling – Examples
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Fuel Tank Sloshing
Transient free surface flow in f l ka fuel tank
with internal baffles.
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Mitral Valve
Transient blood flow through a h l f lthree leaf mitral valve, non‐Newtonian fluid and anisotropicand anisotropic hyperelastictissue. Solution includes re‐includes remeshing of the fluid domain and nonlinear contact.
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Reed Valve
Transient response of preed valve opening and closing. Solution includes re‐meshing of the fl id d ifluid domain, large deformations and nonlinearand nonlinear contact.
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Vibrating Rod
Transient response ofresponse of vibrating rod including vortexvortex shedding.
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Deformation of a Leakage Path
Steady state solution for a narrow representative leakage path in a fuel injectorfuel injector assembly clearance gap.
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dQuestions and Answers
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