Best Practice Advice AC7-02: Difference between revisions
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=Best Practice Advice= | =Best Practice Advice= | ||
==Key Fluid Physics== | ==Key Fluid Physics== | ||
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Briefly describe the key fluid physics/flow regimes which exert an influence on the DOAPs. Ideally this should draw together into a coherent picture the associated UFR descriptions together with any important interactions which are AC specific. Mention the UFRs associated with this AC that you have considered in drafting your best practice advice. ''Access the Knowledge Base to find the UFRs associated with your AC''. | Briefly describe the key fluid physics/flow regimes which exert an influence on the DOAPs. Ideally this should draw together into a coherent picture the associated UFR descriptions together with any important interactions which are AC specific. Mention the UFRs associated with this AC that you have considered in drafting your best practice advice. ''Access the Knowledge Base to find the UFRs associated with your AC''. | ||
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==Application Uncertainties== | ==Application Uncertainties== | ||
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List any uncertainties which make a high fidelity CFD model difficult to assemble. Typical examples might include: | List any uncertainties which make a high fidelity CFD model difficult to assemble. Typical examples might include: | ||
*a gas leakage between two components which is difficult to resolve on practical meshes, andeven if it is resolved, the leakage flow conditions may not be known. | *a gas leakage between two components which is difficult to resolve on practical meshes, andeven if it is resolved, the leakage flow conditions may not be known. | ||
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*fine details of the geometry are imprecise. | *fine details of the geometry are imprecise. | ||
Briefly discuss the sensitivity of the DOAP predictions to these uncertainties and their impact on the BPA. In particular, can clear, unequivocal BPA be given or is it necessary to introduce appropriate caveats. | Briefly discuss the sensitivity of the DOAP predictions to these uncertainties and their impact on the BPA. In particular, can clear, unequivocal BPA be given or is it necessary to introduce appropriate caveats. | ||
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==Computational Domain and Boundary Conditions== | ==Computational Domain and Boundary Conditions== |
Revision as of 13:41, 14 May 2020
Airflow in the human upper airways
Application Challenge AC7-02 © copyright ERCOFTAC 2020
Best Practice Advice
Key Fluid Physics
Application Uncertainties
Computational Domain and Boundary Conditions
Discretisation and Grid Resolution
Physical Modelling
Recommendations for Future Work
Acknowledgements
References
Contributed by: S. C. Kassinosa —
aDepartment of Mechanical and Manufacturing Engineering, University of Cyprus, Nicosia, Cyprus
© copyright ERCOFTAC 2020