Research Image Gallery
A2C2 supplies computational capabilities to many researchers at ASU. This section of our website provides a sampling of visualizations from various researchers utilizing the A2C2 systems.
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- Michael Thompson & Dr. Huei-Ping
School for Engineering of Matter, Transport, and Energy
A Classroom Model for Understanding Earth’s Climate Change
Background: This project uses a rotating tank to conduct fluid experiments for studying the sensitivity of Earth’s climate to external perturbations.
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- Contours of tangential velocity of the tank in CFD solver ANSYS-Fluent of the experimental rotational fluid tank in Paraview/Matlab.
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- Temperature Profile of the experimental rotational fluid tank in Paraview/Matlab.
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- Michael Thompson
School for Engineering of Matter, Transport, and Energy
A Computational Study of Transient Couette Flow Over an Embedded Cavity Surface
How aerodynamic efficient are Butterflies flexible, micro-geometrically surface patterned, scaled wings?
The above picture is a comparison of Inclined Scales.
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- Dr. Marcus Herrmann
Atomization of a liquid jet in crossflow.
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- Dr. Marcus Herrmann
Atomization of a liquid jet in crossflow.
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- Dr. Marcus Herrmann
Breakup of a Diesel jet injected into a high pressure environment.
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- Upstream view of the atomization of a liquid jet injected into a crossflow.
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- From Left to Right: A time averaged view of a turbulent jet flame, a high speed image of a turbulent jet flame, and a high speed image of a bluff body stabilized turbulent flame.
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- Will Gray
2-D snapshots showing (from left to right) the density,
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- 2-D snapshots shows (from left to right) the density, temperature, amount of H2, and amount of metals during the
collapse of the gas cloud.
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- Panel of images showing the evolution of a shock overtaking a gas cloud from initially separate (top left) to
surrounding and compressing the gas (top right and bottom left) and the final state of the gas (bottom right).
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- Dr. Andrew Bordner
Mayo Clinic
Backbone structures for three different peptides after 50 ns all-atom molecular dynamics simulations with explicit solvent.
The three darker colors show three different peptides bound to their protein receptors, while the three lighter colors show the peptides unbound in a solution.
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- credit: Melissa Morris, school of earth and space exploration.
The image shows a bow shock around a planetary embryo
the size of a proto-Mars.
