INVISCID DYNAMICS OF TWO-DIMENSIONAL SHEAR LAYERS

Inviscid Two-Dimensional Fluid Dynamics Experiments with Magnetized Electron Columns

Inviscid two-dimensional (2D) fluid phenomena like hurricanes, jet streams, Jupiter’s Red Spot, and protoplanetary disks are quite common in Nature. Unfortunately, 2D fluid phenomena are difficult to study in the laboratory because the finite size of laboratory apparati commonly introduces unwanted viscous and friction effects. Magnetized electron columns, however, behave like twodimensional fl...

Shear dynamics of hydration layers.

Molecular dynamics (MD) simulations have been performed to investigate the shear dynamics of hydration layers of the thickness of D=0.61-2.44 nm confined between two mica surfaces. Emphases are placed on the external shear response and internal relaxation properties of aqueous films. For D=0.92-2.44 nm liquid phase, the shear responses are fluidic and similar to those observed in surface force ...

Two-dimensional vesicle dynamics under shear flow: effect of confinement.

Dynamics of a single vesicle under shear flow between two parallel plates is studied in two-dimensions using lattice-Boltzmann simulations. We first present how we adapted the lattice-Boltzmann method to simulate vesicle dynamics, using an approach known from the immersed boundary method. The fluid flow is computed on an Eulerian regular fixed mesh while the location of the vesicle membrane is ...

AIAA-88-3538-CP On the Instability of Inviscid, Compressible Free Shear Layers

Successive elimination of shear layers by a hierarchy of constraints in inviscid spherical-shell flows

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