1d-3d co-simulation of an aircraft ecs -...
TRANSCRIPT
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© Fraunhofer SCAI STAR European Conference 2010
Pascal Bayrasy, Fraunhofer Institute SCAI
1D-3D Co-Simulation of an Aircraft Environment
Control System
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Credits
Team:
Abdul Ludhi, Flowmaster Ltd
David Kelsall, Flowmaster Ltd
Klaus Wolf, scapos AG
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Overview
Motivation for work
Reasons to couple 1D-3D
Developing the Co-Simulation Model
Results
Conclusions
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Motivation for work
Investigate the cooling load discharge in the cabin
Passenger Comfort and Safety
Working With Aerospace Customers
Enhancing Virtual Prototyping Capabilities
Fulfilling customers‟/partners‟ R&D Initiatives
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Reasons to Couple 1D-3D
Benefits:
3D CFD and 1D System Models are complementary
Best of Both Worlds
Mutually improved Boundary Conditions
Mutually improved Data Quality and Simulation Results
Customers want it
Issues:
Resources
Diverse Hardware and Operating System
Capabilities
Support – needs to be highly skilled
Co-Simulation – potentially challenging
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Developing the co-simulation model
1D – Air Distribution System Modeling
Analyze large aircraft air distribution
Evaluate duct re-routing scenarios
Study mixing of fresh and re-circulated air
Conduct “what if” scenarios on duct sizing
Enabling
Understand system interactions
Help meet passenger flow rate requirements
Help guarantee proper temperature and pressure
Mass Flow Results (kg s-1)
System Pressures (N m-2)
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Coupling 1D and 3D CFD
Best of Both Worlds
3D CFD
Better technique for modeling larger „open‟ volumes with complex flows.
Gives better appreciation of factors affecting passenger comfort
System model
Fast to set up and very quick to analyze
Method
Partial CFD Model of Cabin inSTAR-CCM+ 4.06.011
Full ECS system model in Flowmaster v7
MpCCI 4 Code Coupling InterfacePartial CFD Model of Cabin in STAR-CCM+
Large Aircraft Cabin ECS System in Flowmaster V7
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MpCCI Code Coupling Interface
Open interface through API
Generic coupling concept
Flexible mapping workflow:
Ramping and under-relaxation
Support for dynamic remeshing in code
Handling for orphaned nodes
Flexible coupling schemes
Asynchronous buffered communication
Subcycling support
Coupling on demand
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MpCCI Code Coupling Interface
Abaqus 6.10
ANSYS 11, 12
Flowmaster v7
MD Nastran 2009 R4, 2010
MSC.Marc 2007r1, 2008r1
PERMAS 12
RadTherm 9.1, 9.2
Samcef (prototype)
STAR-CD 4
STAR-CCM+ 4
other CFD Codes (commercial and research)
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MpCCI Coupled Interaction with Tools
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ECS Heat Load Simulation
Volumetric Flow Rate of the Cooling Pack: 0,526 m3/s
302.15°K at the inlets
Heat Transfer Steady State Solution
Pressure of 1,2 bar used
for 3D CFD initial BC values
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Cabin Heat Load Simulation
Steady state soak period
Momentum and Energy equations are solved
451,481 Tetrahedral Elements
Cabin is set up to 302.15°K
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Cool-Down Simulation
Combine Both Models
Transient Heat Transfer Simulation
Cooling Pack Temperature set to 282.65°K
Time step 1s
Cool-Down Period 600s
Co-Simulation Quantities
Inlets:
Flowmaster: Temperature and Pressure
STAR-CCM+: Mass Flow Rate
Outlets:
Flowmaster: Pressure
STAR-CCM+: Mass Flow Rate and Temperature
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Co-Simulation results
288.9°K
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Co-Simulation Results
120s
0s
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Co-Simulation Results
600s
360s
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Conclusions
Aerospace Applications
Challenging
Realistic Simulation Possible
Changes in 1D Model Affect 3D Model