2018-06-20

[public] 284K views, 9.7K likes, 93.0 dislikes audio only

Smarter Every Day 2

Original Video Here: /youtube/video/EVbdbVhzcM4 High Res Images here:

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We used a computer controlled cylinder to pump fluid behind a rubber membrane to fire toroidal vortices out of the vortex cannons.

We fixed one of the vortex cannon in a stationary position, and used a multi-axis microscope stage to align a second cannon to it… which sounds incredibly easy, until you realize that

DYE density was an experiment all on its own.

If the density of the dye mix was light than water, the vortex would go up.

If the dye was more dense than water the vortex would fall.

We had to overcome SO MANY VARIABLES to overcome and we basically spent about 4 hours figuring each variable.

Water/dye temperature differential

Water turbulence

Water turbidity (cloudiness or haziness of a fluid)

How to reset the aquarium

Cannon Spacing

Cannon Nozzle

Cannon Shape

Dye homogeneity in the vortex itself

The piston displacement volume

The piston stroke speed

Rubber diaphragm tension, would make one side fire faster than the other.

Water or air to drive diaphram?

Firing speed (too slow and they drift, too fast and turbulence tears apart secondaries)

We did a complete redesign of the cannon 3 different times.

The Dye loading method was changed several times

At times We tried to maintain negative pressure on the cannon chamber… we also tried to put shutters on the front of the muzzle. Ultimately I decided it was ok to live with dye dripping out of the front.

We had to premix the dyes and eventually we got there.

It got to the point where we didn’t even really know what success looked like and always thought we were there.

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GET SMARTER SECTION

A Vortex Ring is also called a Toroidal Vortex

https://en.wikipedia.org/wiki/Vortex_ring

Original Research Paper by T. T. Lim & T. B. Nickels (Published in Nature 1992)

http://202.118.74.190/~elizabeth/Docs/34_Instability_Head-on%20collision_of_large_VR.pdf

Governing Equations of Fluid Mechanics

http://www.eng.auburn.edu/~tplacek/courses/fluidsreview-1.pdf

Numerical Analysis of this phenomena

http://fluid.itcmp.pwr.wroc.pl/~znmp/Publikacje/JP_2014_Kudela_Kosior.pdf

Interesting Research Papers on Vortex Ring Reconnection

https://pdfs.semanticscholar.org/3721/e67f5bf8e88a47e2241058c7e3cc064c5e8a.pdf

Other Videos created by Dr. T T Lim

http://me.nus.edu.sg/dept/limtt/videogallery.html

Flow Visualization, A Book by Dr. T T Lim

https://www.amazon.com/Flow-Visualization-Techniques-Examples-Second/dp/1848167911/ref=mt_hardcover?_encoding=UTF8&me=&qid=1529505335

Why we typically don’t talk about angular momentum in fluids.

https://physics.stackexchange.com/questions/127712/why-dont-we-talk-about-angular-momentum-at-all-in-fluid-mechanics

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Warm Regards,

Destin