Results 151 to 160 of about 3,343 (185)
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The hydromagnetic flow over an oscillating flat plate with arbitrary periodic oscillation

Mechanics Research Communications, 2004
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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Study of the Interaction of a Streamwise-Oscillating Shock with the Boundary Layer on a Flat Plate

Fluid Dynamics, 2004
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Pilyugin, N. N., Khlebnikov, V. S.
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Hydromagnetic flow near an oscillating porous flat plate

Proceedings of the Indian Academy of Sciences - Section A, 1977
A solution in the closed form has been obtained for the flow of a viscous incompressible fluid of small electrical conductivity near an infinite insulated porous flat plate oscillating harmonically in its own plane in the presence of a transverse magnetic field of uniform strength fixed relative to the fluid.
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Structure of Turbulent Boundary Layer on an Oscillating Flat Plate

1981
In order to study the effects of the unsteadiness of the flow on the boundary layer flow and its turbulence structure, an oscillating turbulent boundary layer has been investigated experimentally in a wind tunnel in which a flat plate is driven sinusoidally parallel to the constant freestream.
Y. Kobashi, M. Hayakawa
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Effect of Flat Plate Oscillation on Boundary Layer Development for Subsonic Flows

36th AIAA Fluid Dynamics Conference and Exhibit, 2006
An experimental study has been conducted to investigate the effects of oscillation, of varying amplitude (0 to 5 cm) and frequency (0 to 8 Hz), on the aerodynamic characteristics of a flat plate under favourable and adverse pressure gradients. The Reynolds number was 106 based on the flat plate chord-length.
Amir, M., Kontis, K.
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Oscillation of the Wake behind a Flat Plate parallel to the Flow

Journal of the Physical Society of Japan, 1958
Oscillation of the pure laminar wake behind a flat plate placed in a uniform stream at zero incidence angle was investigated experimentally at Reynolds numbers between 10 2 and 10 5 . (The Reynolds number R is U l /ν, where U is the model speed, l is the plate length and ν is the kinematic viscosity.) For a sufficiently small R the corresponding wake ...
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Influence of vortical structure impingement on the oscillation and rotation of flat plates

Journal of Fluids and Structures, 2017
Abstract Wind tunnel experiments were performed to study the impact of coherent vortical structures, shed from a cylinder, on the oscillations and rotations of vertical flat plates with thickness ratio b / c = 1 / 16 , 3/16 and 5/16. Various combinations of cylinder diameter to plate chord ratio of d / c = 1.1 , 0.8 and 0.5,
B. Liu   +3 more
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NONLINEAR AERODYNAMIC FORCES ON THE FLAT PLATE IN LARGE AMPLITUDE OSCILLATION

International Journal of Applied Mechanics, 2013
Nonlinear aerodynamic forces on the flat plate subjected to a forced torsional oscillation of asymptotically varying amplitude at high reduced velocities are investigated by using computational fluid dynamics method integrated with continuous wavelet transform method.
LIN HUANG, HAILI LIAO
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Flow past a normal flat plate undergoing inline oscillations

Physics of Fluids, 2012
The flow past an inline oscillating normal flat plate has been considered with the view to explore the variety of wake phenomena which arise even at the low Reynolds number (Re) equal to 100 based on the free stream velocity and the width of the plate. The three-dimensional Navier-Stokes equations were integrated in time over a wide range of excitation
Hatef A. Khaledi   +3 more
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Time–frequency analysis of flat-plate oscillating heat pipes

International Journal of Thermal Sciences, 2015
Abstract Time-varying surface temperatures of two flat-plate oscillating heat pipes (OHPs), one with Tesla valves and one without, were analyzed in the time–frequency domain using the short-time Fourier and Hilbert–Huang transforms. Tesla valves were installed along the channel structure of the OHP for the purpose of rectifying the oscillatory ...
John D. Fairley   +2 more
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