The Beauty of the Flow

Nicole Sharp

Applied Mathematics Undergraduate SeminarTexas A&M University2 October 2013

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What is a fluid?A fluid is a substance that deforms continuously

under an application of shear stress.

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shear stress, τ

Image credits: W. van Hoeve et al.; A. Lindholdt et al.; NASA/ESA; P. Lovine; G. Scott

Liquids Gases

Plasmas Granular Materials Gels

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A droplet falling into a pool

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Video credit: S. Trainoff and N. Phillips

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A droplet falling into a pool

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Image credits: A. Labuda and J. Belina; D. Terwagne et al.; Y. Couder et al.; D. Harris and J. Bush

The procession of progressively smaller drops merging with the pool

is called the coalescence cascade.

The cascade can be delayed almost indefinitely by vibrating the pool,

which bounces the droplets.

Using vibration to mix bouncing drops of different immiscible fluids.

Clustered arrays of bouncing droplets. Bouncing droplets as quantum mechanical analogs.

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A falling viscous stream

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Image/video credits: Smarter Every Day; S. Morris et al.

When viscous fluids like honey fall, they tend to coil depending on

factors like height, jet diameter, viscosity, and mass flow rate.

If we instead pour the fluid onto a moving belt, we get even stranger behavior:

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A falling viscous stream

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Image credit: S. Chui-Webster and J. Lister

Each shift in behavior is called a bifurcation and appears due to nonlinearity in the governing equations. Eventually, this leads to chaos.

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Highly viscous flow

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Video credit: U. Penn General Motors Lab

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Highly viscous flow

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Image credit: U. New Mexico Physics Dept.; T. Congor

In extremely viscous (laminar) flows, only molecular diffusion and momentum

diffusion govern how the fluid moves.

Molecular diffusion is random but slow. Momentum diffusion is exactly reversible,

allowing one to unmix the fluids.

Most flows are turbulent and their motion is generated by momentum convection which is irreversible.

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Instability in fluids

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Image/video credits: V. Zecevic; J. Fontane et al.; M. Stuart

The Kelvin-Helmholtz instability occurs between fluid layers moving

at different velocities.

It can be observed through numerical simulation as well as

laboratory demonstration.

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Instability in fluids

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Image credits: G. Hart; NASA/JPL/U. of Arizona; NASA/Voyager 1

The Kelvin-Helmholtz instability is observed in nature as well at many

different scales.

Kelvin-Helmholtz clouds on Earth and on Jupiter

Lava coils on the surface of Mars.

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Fluid-object interaction: vortex shedding

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Video/image credits: M. Soltys; D. Burbank; MODIS Aqua

Blunt objects in a flow shed alternating periodic vortices to

create von Karman vortex streets.

Vortex street from islands off Baja California.Vortex streets formed by volcanic islands.

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Fluid-object interaction: vortex shedding

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Image credits: J. Buchholz and A. Smits; T. Schnipper et al.; M. Shelley and J. Zhang

Similarly complicated wake structures are made by flapping objects.

Dye visualization of the wake of a pitching plate.

Wakes of flapping foils in flowing soap films.

Wakes of flexible flapping flags.

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Fluid-object interaction: flutter

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Video source: B. Pathe

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Fluid-object interaction: flutter

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Video/image credits: Wikimedia; NASA; A. Varma

Sometimes an object’s structural dynamics and its aerodynamics get

into a potentially destructive feedback loop known as flutter.

Tacoma Narrows Bridge in flutter (circa 1940).

Piper PA-30 Twin Comanche with tail in flutter.

Male hummingbirds use flutter in their tail feathers during dives as part of their mating calls.

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So where’s the math?

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So where’s the math?

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Virtually all fluid motion is described by the same three sets of equations.

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So where’s the math?

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Virtually all fluid motion is described by the same three sets of equations.

Conservation of mass (a.k.a. continuity):

0

ut

Conservation of momentum (a.k.a. Navier-Stokes equation):

fτuuu

pt

Conservation of energy:

Tkppt

phh

t

h

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Where can you find more fluid dynamics?

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• Math• Chemistry• Physics/astrophysics• Atmospheric science• Geology• Every engineering department

What math should you study?

• Calculus• Differential and partial differential equations• Fourier transforms• Linear algebra• Perturbation theory• Nonlinear dynamics and chaos• Mathematical modeling

Image credits: F. Oefner; D. Quinn et al.

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nicole.sharp@gmail.com

For more fluid dynamics: http://fuckyeahfluiddynamics.tumblr.com

For a copy of these slides: http://tinyurl.com/nss-slides

Nicole Sharp

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For more information on…

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Coalescing droplets: more high-speed videosBouncing emulsions: D. Terwange et al. Hydrodynamic quantum analogs: Y. Couder et al.; J. Bush et al.

Plasma: applications; electrohydrodynamics; magnetohydrodynamicsGranular flows: applications; examples; similarities to traditional fluids

Coiling fluids: more examples; Kaye effect; lavaChaos in fluids: turbulence; blowing in a straw; vibrating networks

Viscous flow: Stokes flow; laminar flow; Saffman-Taylor instabilitiesMixing: turbulence; Rayleigh-Taylor instabilities

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For more information on…

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Fluid instabilities: examples; Rayleigh-Taylor; Plateau-Rayleigh; Saffman-Taylor; Richtmyer-Meshkov; Kelvin-Helmholtz

Vortex shedding: examples; wakes; von Karman vortex streetFlapping: examples; flapping flightFlow visualization: examples; smoke; dye; oil-flow; schlieren

Aeroelastic flutter: examples; use in hummingbirdsTacoma Narrows Bridge collapse: Minute Physics explains;

Billah and Scalan

fτuuu

pt

0

ut The math: continuity; Navier-Stokes; energy conservation

The Millenium Prize: Navier-Stokes existence and smoothness

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Just one more video…

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Video credit: B. Tomlinson