Mandala-inspired representation of the turbulent energy cascade
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1.
Stanford University
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2.
California Institute of Technology
Abstract
The poster presents a striking way of looking at turbulent motion. Signals obtained from the numerical simulation of isotropic turbulence are wavelet transformed to show the scale content of the data over space. The wavelet graph is then colored and spinned into a vibrant mandala. The result beautifully renders the visual evidence of the celebrated Richardson cascade and reveals in particular its fractal character: it shows that large-scale eddies breakdown and transfer energy to small scales following a pitchfork pattern, and that the increase in Reynolds number augments the number of cascading stages. These representations provide a deeper insight into the turbulent energy cascade and highlight the complexity of flow phenomena that surround us.
Copyright and License
This work is licensed under the Creative Commons Attribution-NonCommercial 4.0 International License. Any reuse must credit the author(s) and provide a link back to this page.
Additional Information
Poster is one of the 2017 APS/DFD Milton van Dyke Award Winners (Poster): https://gfm.aps.org/meetings/dfd-2017
Acknowledgement
Acknowledgements: Prof. Yukio Kaneda and Takashi Isihara, Prof. Spedding, Mark Fischer, Carmel Farzanch.
Data Availability
Data: Physical Review Fluids 1, 082403(R) (2016), T. Isihara, K. Morishita, M. Yokokawa, A. Uno, Y. Kaneda. https://doi.org/10.1103/PhysRevFluids.1.082403
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Additional details
- Accepted
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2017-11-19Published online