2D PIV study of grid turbulence

Cardesa Dueñas, José Ignacio

January 2012

No description available.

620

Turbulence ; Particle image velocimetry

Application of finite-difference methods to steady-state advection

Molenkamp, Charles Richard, 1941-

January 1967

No description available.

Air flow -- Mathematical models.

Turbulence.

An evaluation of hot-film anemometry for Reynolds stress measurements under sea ice.

Koutitonsky, Vladimir G.

January 1973

No description available.

Anemometer.

Turbulence.

Sea ice drift.

An investigation of the role of flux divergence in the turbulent kinetic energy balance of the atmospheric surface layer

Vogel, Christoph Alexander

08 1900

No description available.

Atmospheric turbulence

Boundary layer (Meteorology)

An investigation of shear instabilities in the mesocyclone

Hauser, Heather Maguire

12 1900

No description available.

Shear flow

Tornadoes

Atmospheric turbulence

Behavior of Turbulent Structures within a Mach 5 Mechanically Distorted Boundary Layer

Peltier, Scott Jacob

16 December 2013

High-resolution particle image velocimetry (PIV) is employed to resolve the velocity fields within a Mach 4.9 mechanically distorted turbulent boundary layer (Reθ ≈ 40,000). The goal of this study is to directly observe the mechanisms responsible for the modified turbulent stresses present in mechanically distorted boundary layers. This is achieved by measuring the effects of the mechanical distortions upon the distribution, population, size, orientation, and energy content of the turbulent structures, and how the perturbed state of these structures is manifested within the ensemble-averaged turbulent stresses. The two mechanical distortions under investigation are 1) streamline curvature-induced favorable pressure gradients (Ip = {-0.08; -0.49}), and 2) periodic arrays of diamond roughness elements (k/δ ≈ 0.07). A smooth-wall, flat-plate boundary layer is also included to establish the unperturbed state of the turbulent structures. The response of the mean turbulence statistics is investigated through ensemble-averaged profiles of Reynolds stresses, indicating the respective influences of pressure gradient effects and surface roughness upon the turbulent statistics. The distortion and reorientation of the large-scale coherent motions is quantified through the determination of the integral length scale and local structure angle from two-point correlations. Detection of individual vortices through the swirling strength criterion λci allows the population distribution of the turbulent eddies to be examined, along with the conditionally averaged hairpin structure. The baseline and rough-wall stresses showed good agreement when scaled by the smooth-wall friction velocity. Two-point correlations indicate that the reorientation of the large-scale [i.e. O(δ)] coherent structures, coupled with the modified wall-normal fluctuations, is primarily responsible for the modification of the rough-wall Reynolds stresses. The reduced Reynolds stresses observed in the favorable pressure gradients is partially due to the attenuation of the local flowfield around the near-wall hairpin structures, mitigating the mechanism for “producing” turbulence. The rotational rate of the hairpin vortices, measured through the mean prograde swirling strength, was reduced for the favorable pressure gradient models.

boundary layer

turbulence

coherent structures

Generation, propagation and breaking of an internal gravity wave beam

Clark, Heather A

Unknown Date

No description available.

internal

waves

experiments

turbulence

instability

An analysis of turbulent base flow using an integral boundary layer method.

Bland, Douglas John.

January 1969

No description available.

Turbulence

Boundary layer

Engineering, General.

CFD simulation of mixing in a carbon black reactor : optimum geometry and momentum ratio

Kamal, Rajit

12 1900

No description available.

Combustion chambers

Turbulence

Fluid mechanics

Turbulence measurements using pulsed Doppler ultrasound

Saxena, Vijay

12 1900

No description available.

Turbulence Measurement

Flow meters

Hemodynamics