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CCS Art Show 2010

 

Art and Descriptions 

Hoa_Nguyen_CCS_Art_November_2010

Hoa Nguyen
Post-doctoral Researcher

Many small planktonic organisms bear spines, some of whose potential functions have been explored, e.g., in increasing drag during gravitational settling or in defense against predators. We have developed full computational fluid dynamic simulations that examine the rotation of a diatom with varying spine number, length and angle in shear flows. We found that motion of spined cells can be accurately predicted from simple theory for spheroid motion by applying that theory to the smallest spheroid inscribing the cell inclusive of its spines.

This is a CCS collaboration with the University of Maine.

 

Bradford_Smith_Artshow_2010[1] 

Bradford Smith
Ph. D candidate, Biomedical Engineering

Overlay of the forward- and backward-time Finite-time Lyapunov exponent (FTLE) fields in a fluid displaced by a migrating bubble with both steady an sinusoidal velocity components.

In collaboration with Donald Gaver, Sarah Lukens, and Lisa Fauci.

 

Bree Cummins startreefinal_brighterblue 

Bree Cummins
Post-doctoral Researcher

A star falling through a viscoelastic Christmas tree

The green to red shading shows the accumulating stress in the tree. This work uses a numerical particle method for viscoelastic flow developed at the Center for Computational Science in collaboration with Ricardo Cortez, Lisa Fauci, and John Chrispell. 

 

Chia-yu Hsu Eric Tytell Lisa Fauci Cover4 

Lisa Fauci
Faculty

Lamprey duet

Muscle activation properties and body stiffness affect the wake structure shed by a virtual lamprey.

This is a CCS collaboration between Chia-yu Hsu, Post-doctorial researcher and Eric Tytell, John Hopkins University. 

 

fujioka2010 

Hideki Fujioka
Computational Scientist

Spreading of Surfactant over Liquid Surface

The  presence of an inhomogeneous distribution  of surfactants on air-liquid interfaces, which results in surface tension gradients, causes tangential stresses and Marangoni flow. The Moving Particle Semi-implicit method (MPS) is used. This computation performed on a NVIDIA Tesla C1060 GPU. 

 

John Chrispell CCSArtPumpParticle 

John Chrispell,
Post-doctoral Researcher

Peristaltic Particle Pumping

The attached art shows a snap shot of the velocity field and the trace of the viscoelastic extra stress tensor (denoting polymer distension) for a solid particle in a periodic peristaltic pumping channel. 

 

Kate Hamlington artshow2010-kate[1] 

Katharine Hamlington
Ph. D candidate, Biomedical Engineering

Hypnotic Mixing

The transport of two solutions (blue and pink) that react to form a complex (green) is simulated in spiral geometry. In the left spiral, the blue and pink solutions enter in parallel through the inlet at the top; in the right spiral, the blue and pink solutions sequentially enter the channel. A pressure drop between the inlet and outlet in the center drives the flow. Green indicates where the two solutions have mixed. The velocity field is computed by solving the Stokes equations with the boundary element method. The grid-free particle strength exchange method is implemented to solve the convection-diffusion-reaction equation for the concentrations of the reactants and complex.

This work is funded by NSF EPSCoR. 

 

Michael Nicholas shootingstar2 

Michael Nicholas
Post-doctoral Researcher

Fluid flows past an anchored star, shedding vortices in its wake. Computation done with CFD solver Fluent. 

 

Rajib Mukherjee snap1 

Rajib Mukherjee
Post-doctoral Researcher

Nucleosomes are 147 basepairs (bp) DNA surrounding histone protein in a ~1.7 left handed superhelix. Nucleosomal DNA tends to kink in preferred position around histone. The kink is also a material property of DNA and depends on the bp. This figure shows a series of 21 different nucleosomes formed by inserting one bp at a time from one end and taking out one from the other. Thus 21 bp are replaced keeping 126 bp constant. The relative position of a bp changes with respect to histone and the kinks appear and disappear at a position around the histone (colored gray). 

 

Ricardo Cortez ArtShowRC2010 

Ricardo Cortez
Faculty

Mosquitoes swarming around a source of a CO2 plume

In the spread of West Nile Virus, birds generate  CO2 as they  breathe and mosquitoes use  Its  concentration to eventually  reach  the  birds  and  bite them. This process contributes  to the spread of the virus. The image shows a simulated plume of CO2 concentration emanating from the left and being carried downstream to the right by the air. The mosquitoes have made their way close to  the  source.  The colors indicate concentration levels.

Collaboration between CCS and the Tulane Department of Epidemiology. 

 

Sarah Olson CCSartOlson 

Sarah Olson
Post-doctoral Researcher

The motility of sperm is dictated by the movement of the flagellum, which changes in response to chemical cues. Activated motility is characterized by linear trajectories and hyperactivation is a motility pattern of mammalian sperm that is associated with highly asymmetrical flagellar bending, leading to nonlinear tra jectories, including swimming in circles. It is necessary for the sperm to achieve hyperactivated motility in order to reach and fertilize the egg. Initiation and maintenance of hyperactivated motility is associated with a change in calcium concentration in the flagellum. These pictures are trajectories of a material point on the sperm flagellum for t=0-4 s. In the model, we are accounting for CatSper mediated calcium dynamics, mechanics, and hydrodynamics. Each trajectory corresponds to a change in parameter values for the calcium threshold to change the amplitude or the passive stiffness. Using this model we are able to have trajectories characteristic of hyperactivated motility. 

 

Weixiong Wang wwang2 

Weixiong Wang
Post-doctoral Researcher

Blood Flow in A Giant Aneurysm

The blood flow in a giant vertebrobasilar junction aneurysm was numerically simulated with computational fluid dynamics (CFD) method. The streamlines of the blood flow indicated a large vortex structure existing inside the aneurysm. Strong jet flow effect was also observed which was caused by the asymmetric distribution of the flow rates between the left and right vertebro arteries. With this effect, a high static pressure region appeared on the aneurysm surface which corresponded to high risks of aneurysm rupture.

This is collaboration between the CCS, the Biomedical Engineering, and the Department of Chemical & Biomedical Engineering, Tulane University and the Department of Neurosurgery, LSU. 

 

 Tony Kwan artshow 

Yuen-Yick Kwan
Post-doctoral Researcher

Lagrange Polynomials on Triangle

In high-order finite element method, the interpolation error depends on the collocation points used. On the left is a Lagrange polynomial based on a uniform grid, which equals 1 at the point (0.5,0.5) and vanishes at all other collocation points. The rapid oscillation of the function, known as Gibbs phenomena, indicates large interpolation error. On the right is a Lagrange polynomial based on a Lobatto grid, which shows much less interpolation error. 

 

hideki-snowman 

Hideki Fujioka
Flow Passes A Snowman

The flow over a model of snowman was computed using the IBAMR software package, which is a distributed-memory parallel implementation of the immersed boundary (IB) method with Cartesian grid adaptive mesh refinement (AMR). (https://code.nyu.edu/wiki/ibamr) 

 

 


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