Skip to content

This project contains the user-defined functions (UDF) necessary to perform unsteady computational fluid dynamics (CFD) analysis of dynamically morphing wings equipped with morphing flaps.

License

Notifications You must be signed in to change notification settings

AbhijithMoni/Dynamic-Morphing-Wing

 
 

Repository files navigation

Flow Response to Rapid Morphing Flap Deflection from Article

Morphing video

Unsteady Morphing Wing with Seamless Side-Edge Transition from Article

Dynamic Morphing Wing CFD

This project contains the user-defined functions (UDF) necessary to perform unsteady computational fluid dynamics (CFD) analysis of dynamically morphing wings equipped with morphing flaps.

There are three UDFs for each of the following applications:

  1. 2D Downward Dynamic Morphing Flap
  2. 2D Harmonic Morphing Flap
  3. 3D Morphing Wing with Seamless Side-edge Transition

Prerequisites

The UDFs were specifically developed and tested for ANSYS Fluent 18.1 and above, there is backward compatibility although some differences might be present in the building and compiling process within ANSYS Fluent.

Make sure that a proper compiler is installed on the machine, Visual Studio 2012 for instance, and the environment variables are set accordingly.

Getting Started

  1. When the mesh is created, make sure that the origin of the coordinates system is at the leading-edge start
  2. Make sure that the upper/lower surfaces of the wing are defined and names separately
  3. Download the UDF needed for the application required (2D downward, 2D harmonic or 3D downward)
  4. select Define > User Defined > Functions > Compiled.
  5. Select the Add button to add your source file.
  6. Select Build.
  7. After the UDF has been successfully built it is necessary to load the built library by clicking load
  8. Once this is done, make sure to go to the dynamic mesh tab and assign to each of the wing surfaces a user-defined function (Up or down) 9.The user could preview the mesh motion from preview mesh option
  9. During an unsteady run the mesh deformation will start from the user-defined morphing start time chosen by the user, this needs to be specified within the UDF

Author(s)

Dr Chawki Abdessemed, Cranfield University UWE Bristol LinkdIn, Researchgate, Google Scholar.

Citing

If you use one of the UDFs in a thesis work or scientific publication, we would appreciate citations to the following papers and PhD thesis from the list below:

  • Abdessemed, C.; Bouferrouk, A.; Yao, Y. Effects of an Unsteady Morphing Wing with Seamless Side-Edge Transition on Aerodynamic Performance. Energies 2022, 15, 1093. https://doi.org/10.3390/en15031093
  • Abdessemed, C.; Yao, Y.; Bouferrouk, A. Near Stall Unsteady Flow Responses to Morphing Flap Deflections. Fluids 2021, 6, 180. https://doi.org/10.3390/fluids6050180
  • Abdessemed, C.; Bouferrouk, A.; Yao, Y. (2021) “Aerodynamic and Aeroacoustic Analysis of a Harmonically Morphing Airfoil Using Dynamic Meshing“. Acoustics 2021, 3, 177-199. https://doi.org/10.3390/acoustics3010013
  • Abdessemed, C., Yao, Y., Bouferrouk, A., and Narayan, P., 2020. Dynamic Mesh Framework for Morphing Wings CFD - UDF. DOI
  • Abdessemed, C., 2020. Dynamic Mesh Framework for Morphing Wings CFD (Doctoral dissertation).https://uwe-repository.worktribe.com/output/1490739
  • Abdessemed, C., Yao, Y., Bouferrouk, A., and Narayan, P., (2017) “Morphing Airfoils Analysis Using Dynamic Meshing” International Journal of Numerical Methods for Heat and Fluid Flow., Vol. 28 Issue: 5, pp.1117-1133. https://doi.org10.1108/HFF-06-2017-0261
  • Abdessemed, C., Yao, Y., Bouferrouk, A. and Narayan, P. (2018) “Analysis of a 3D Unsteady Morphing Wing with Seamless Side-edge Transition”. In: 2018 Applied Aerodynamics Conference Atlanta, Georgia, 25 - 29 June 2018. https://doi.org/10.2514/6.2018-3178
  • Abdessemed, C., Yao, Y., Bouferrouk, A. and Narayan, P. (2018) “Aerodynamic Analysis of a Harmonically Morphing Flap Using a Hybrid Turbulence Model and Dynamic Meshing”, In: 2018 Applied Aerodynamics Conference Atlanta, Georgia, 25 - 29 June 2018. https://doi.org/0.2514/6.2018-3813
  • Abdessemed, C., Yao, Y., Bouferrouk, A., and Narayan, P., (2019) “Flow Response to Rapid Morphing Flap Deflection”, in: 54th 3AF International Conference on Applied Aerodynamics, Paris, France, 26 – 28 March 2019. Link

Morphing

Acknowledgments

Chawki Abdessemed gratefully acknowledges the studentship funding received from the Engineering Modelling and Simulation Research Group, University of the West of England, Bristol, UK.

License

This project is licensed under the MIT License - see the LICENSE.md file for details

About

This project contains the user-defined functions (UDF) necessary to perform unsteady computational fluid dynamics (CFD) analysis of dynamically morphing wings equipped with morphing flaps.

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages

  • C 100.0%