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Statistically steady measurements of Rayleigh-Taylor mixing in a gas channelBanerjee, Arindam 30 October 2006 (has links)
A novel gas channel experiment was constructed to study the development of
high Atwood number Rayleigh-Taylor mixing. Two gas streams, one containing air
and the other containing helium-air mixture, flow parallel to each other separated by
a thin splitter plate. The streams meet at the end of a splitter plate leading to the
formation of an unstable interface and of buoyancy driven mixing. This buoyancy
driven mixing experiment allows for long data collection times, short transients and
was statistically steady. The facility was designed to be capable of large Atwood
number studies of ABtB ~ 0.75. We describe work to measure the self similar evolution
of mixing at density differences corresponding to 0.035 < ABtB < 0.25. Diagnostics
include a constant temperature hot-wire anemometer, and high resolution digital
image analysis. The hot-wire probe gives velocity, density and velocity-density
statistics of the mixing layer. Two different multi-position single-wire techniques
were used to measure the velocity fluctuations in three mutually perpendicular
directions. Analysis of the measured data was used to explain the mixing as it
develops to a self-similar regime in this flow. These measurements are to our knowledge, the first use of hot-wire anemometry in the Rayleigh-Taylor community.
Since the measurement involved extensive calibration of the probes in a binary gas
mixture of air and helium, a new convective heat transfer correlation was formulated
to account for variable-density low Reynolds number flows past a heated cylinder. In
addition to the hot-wire measurements, a digital image analysis procedure was used
to characterize various properties of the flow and also to validate the hot-wire
measurements. A test of statistical convergence was performed and the study
revealed that the statistical convergence was a direct consequence of the number of
different large three-dimensional structures that were averaged over the duration of
the run.
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Automatiskt avvägningssystem för obemannad undervattensfarkost / Automatic Trim System for Unmanned Underwater VehicleCarlsson, Magnus, Kristoffersson, Daniel January 2005 (has links)
<p>This master thesis work was done at Saab Underwater Systems AB, a company at the cutting edge of underwater technology. Here torpedoes and other underwater vehicles are developed and manufactured. The major customers are navies of different countries, mostly the Swedish navy. </p><p>The aim of this master thesis is to develop, construct and evaluate an automatic Trim System for Unmanned Underwater Vehicles. The task of the system is to change the position of the centre of mass and the vehicle’s total mass or volume. A system like this gives more opportunities like improved low speed properties, manoeuvre ability and energy consumption. </p><p>Different ways to make this change of total mass and position of centre of mass has been discussed and a choice has been done. A system of chosen concept has then been developed, constructed and evaluated. A part of big importance in this report is the work with simulations to predict the performance of the system and its behaviour. Other big parts has been to find suiting components and to develop the control electronics of the system.</p>
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Automatiskt avvägningssystem för obemannad undervattensfarkost / Automatic Trim System for Unmanned Underwater VehicleCarlsson, Magnus, Kristoffersson, Daniel January 2005 (has links)
This master thesis work was done at Saab Underwater Systems AB, a company at the cutting edge of underwater technology. Here torpedoes and other underwater vehicles are developed and manufactured. The major customers are navies of different countries, mostly the Swedish navy. The aim of this master thesis is to develop, construct and evaluate an automatic Trim System for Unmanned Underwater Vehicles. The task of the system is to change the position of the centre of mass and the vehicle’s total mass or volume. A system like this gives more opportunities like improved low speed properties, manoeuvre ability and energy consumption. Different ways to make this change of total mass and position of centre of mass has been discussed and a choice has been done. A system of chosen concept has then been developed, constructed and evaluated. A part of big importance in this report is the work with simulations to predict the performance of the system and its behaviour. Other big parts has been to find suiting components and to develop the control electronics of the system.
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Modelling of bouyancy-induced hydromagnetic couples stress fluid flow with periodic heat inputMakhalemele, Cynthia Reitumetse January 2020 (has links)
Thesis (Ph.D. (Applied Mathematics)) -- University of Limpopo, 2020 / The flow of electrically conducting fluids in the presence of a magnetic field has wide
applications in science, engineering and technology. Examples of the applications
include industrial processes such as the cooling of reactors, extrusion of plastics,
purification of crude oil, medical applications, aerodynamics and many more. The
induced magnetic field usually act as a flow control mechanism, especially under
intense heat. In this study a couple stress fluid in a channel will be used as the working
fluid. Channel flow and heat transfer characteristics of couple stress fluids find
applications in processes such as the extrusion of polymer fluids, solidification of liquid
crystals, cooling of metallic plates in a bath, tribology of thrust bearings and lubrication
of engine rod bearings. One major characteristic that distinguishes the couple stress
fluid from other non-Newtonian fluids is the inclusion of size-dependent microstructure
that is of mechanical significance. As such, the couple stress constitutive model is
capable of describing the couple stresses, the effect of body couples and the nonsymmetric
tensors manifested in several real fluids of technological importance.
A fully developed laminar magnetohydrodynamic (MHD) flow of an incompressible
couple stress fluid through a vertical channel due to a steady-periodic temperature on
the channel plates is investigated. Specifically, the effects of couple stresses and
internal heat generation on MHD natural convection flow with steady-periodic heat
input, the impact of magnetic field induction on the buoyancy-induced oscillatory flow
of couple stress fluid with varying heating and a mixed convective two dimensional
flow of unsteady MHD couple stress fluid through a channel field with porous medium
are studied. Analytical methods and the semi-analytic Adomian decomposition method
will be used to solve the resulting non-linear differential equations governing the flow
systems. Useful results for velocity, temperature, skin friction and Nusselt number are
obtained and discussed quantitatively. The effects of the various flow governing
parameters on the flow field are investigated.
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