Poster: Experimental Streak and Quantitative Schlieren Imaging

A new argument against cooling by convective air eddies formed above sunlit zebra stripes

Scientific Reports ◽

10.1038/s41598-021-95105-4 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Ádám Pereszlényi ◽

Dénes Száz ◽

Imre M. Jánosi ◽

Gábor Horváth

Keyword(s):

The Body ◽

Schlieren Imaging ◽

Air Stream ◽

Stream Drift ◽

Calm Weather ◽

Air Streams ◽

Stream Formation

AbstractThere is a long-lasting debate about the possible functions of zebra stripes. According to one hypothesis, periodical convective air eddies form over sunlit zebra stripes which cool the body. However, the formation of such eddies has not been experimentally studied. Using schlieren imaging in the laboratory, we found: downwelling air streams do not form above the white stripes of light-heated smooth or hairy striped surfaces. The influence of stripes on the air stream formation (facilitating upwelling streams and hindering horizontal stream drift) is negligible higher than 1–2 cm above the surface. In calm weather, upwelling air streams might form above sunlit zebra stripes, however they are blown off by the weakest wind, or even by the slowest movement of the zebra. These results forcefully contradict the thermoregulation hypothesis involving air eddies.

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Schlieren imaging of inverted domains in congruent lithium niobate

CLEO/Europe. 2005 Conference on Lasers and Electro-Optics Europe, 2005. ◽

10.1109/cleoe.2005.1568056 ◽

2006 ◽

Author(s):

M. Paturzo ◽

P. Ferraro ◽

S. Grilli ◽

P. De Natale ◽

S. De Nicola ◽

...

Keyword(s):

Lithium Niobate ◽

Schlieren Imaging ◽

Congruent Lithium Niobate

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Tomographic Schlieren imaging for measurement of beam pressure and intensity

Proceedings of IEEE Ultrasonics Symposium ULTSYM-94 ◽

10.1109/ultsym.1994.401910 ◽

1994 ◽

Cited By ~ 11

Author(s):

Pitts ◽

Greenleaf ◽

Jian-Yu Lu ◽

Kinnick

Keyword(s):

Schlieren Imaging

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Utilizing Schlieren Imaging to Visualize Heat Transfer Studies

Volume 5: Education and Globalization ◽

10.1115/imece2014-38329 ◽

2014 ◽

Cited By ~ 1

Author(s):

Jacob C. Kaessinger ◽

Kramer C. Kors ◽

Jordan S. Lum ◽

Heather E. Dillon ◽

Shannon K. Mayer

Keyword(s):

Heat Transfer ◽

Undergraduate Students ◽

Cfd Simulation ◽

Stokes Equations ◽

Imaging System ◽

Empirical Science ◽

Navier Stokes ◽

Schlieren Imaging ◽

Navier Stokes Equations ◽

Imaging Device

Convective heat transfer beyond explicit solutions to the Navier Stokes equations is often an empirical science. Schlieren imaging is one of the only fluid imaging systems that can directly visualize the density gradients of a fluid using collimated light and refractive properties. The ability to visualize fluid densities is useful in both research and educational fields. A Schlieren imaging device has been constructed by undergraduate students at the University of Portland. The device is used for professorial heat transfer and fluid dynamics research and to help undergraduates visualize and understand natural convection. This paper documents the design decisions, design process, and the final specifications of the Schlieren system. A simple 2-D heated cylindrical model is considered and evaluated using Schlieren imaging, OpenFOAM C.F.D. simulation, and convection analysis using a Nusselt correlation. Results are presented for the three analysis techniques and show excellent verifications between the CFD simulation, Nusselt correlation, and Schlieren imaging system.

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