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Singular behaviour of Non-Newtonian fluidsMennad, Abed January 1999 (has links)
Thesis (MTech (Mechanical Engineering))--Peninsula Technikon, 1999 / Since 1996, a team at the Centre for Research in Applied Technology (CRATECH) at
Peninsula Technikon, under NRF sponsorship and with industrial co-operation, has
been involved in the simulation of Non-Newtonian flow behaviour in industrial
processes, in particular, injection moulding of polymers.
This study is an attempt to deal with some current issues of Non-Newtonian flow, in
small areas, from the viewpoint of computational mechanics. It is concerned with the
numerical simulation of Non-Newtonian fluid flows in mould cavities with re-entrant
corners. The major complication that exists in this numerical simulation is the
singularity of the stresses at the entry of the corner, which is responsible for nonintegrable
stresses and the propagation of solution errors.
First, the study focuses on the derivation of the equations of motion of the flow which
leads to Navier- Stokes equations. Thereafter, the occurrence of singularities in the
numerical solution of these equations is investigated.
Singularities require special attention no matter what numerical method is used. In
finite element analysis, local refinement around the singular point is often employed in
order to improve the accuracy. However, the accuracy and the rate of convergence are
not, in general, satisfactory. Incorporating the nature of singularity, obtained by an
asymptotic analysis in the numerical solution, has proven to be a very effective way to
improve the accuracy in the neighborhood of the singularity and, to speed up the rate of
convergence. This idea has been successfully adopted in solving mainly fracture
mechanics problems by a variety of methods: finite difference, finite elements,
boundary and global elements, and spectral methods.
In this thesis, the singular finite elements method (SFEM), similar in principle to the
crack tip element used in fracture mechanics, is proposed to improve the solution
accuracy in the vicinity of the singular point and to speed up the rate of convergence.
This method requires minor modifications to standard finite element schemes.
Unfortunately, this method could not be implemented in this study due to the difficulty
in generating the mesh for the singular element. Only the standard finite element
method with mesh refinement has been used. The results obtained are in accordance
with what was expected.
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Investigation of factors effecting yield stress determinations using the slump test.Nyekwe, Ichegbo Maxwell January 2008 (has links)
Thesis (MTech (Chemical Engineering))--Cape Peninsula University of Technology, 2008. / Certain non-Newtonian fluids exhibit a yield stress which can be measured with a variety of
instruments varying from very sophisticated rotary and tube viscometers to hand-held slump
cones and cylinders of various sizes. Accurate yield stress measurement is significant for
process design and disposal operations for thickenend tailings. The slump value was first related
to the yield stress by Murata (1984). Later, that work was corrected by Christensen (1991) for an
error in the mathematical analysis. Slump, based on a circular cylindrical geometry was first
investigated by Chandler (1986). These concepts led to the study by Pashias et al., (1996) that
formed the basis for the current research. The Flow Process Research Centre (FPRC) at the Cape Peninsula University of Technology
developed a slump meter designed to lift the cone or cylinder vertically at controlled lifting
speeds. In addition the simple hand-held cylinder which is an adaptation of slump cones which
were originally developed by the concrete industry to determine the flowability of fresh concrete
was also used. The vane technique was used as a control. Cones and cylinders made of
stainless steel and PVC were fitted to the slump meter. The yield stresses of four non-Newtonian
fluids at different concentrations were tested in four different configurations at different lift speeds
to ascertain whether the measuring position, lift speed, slip, geometry, wall surface material, and
stability has an effect on the value of yield stress measured. The effect of different predictive
models was also ascertained.The cylinder, lump and cone models relating slump to yield stress
was used in the dimensional analysis of the results. The objective of this work was to determine if
the slump tests (cone, cylinder and the hand-held cylinder) would generate yield stress values
comparable to those found using the vane technique. It was establised that there was no significant effect of lift speed, stability, geometry and wall
surface material on the value of yield stress. The effect of measuring position on the value of
yield stress calculated gave a difference of 25%. Using dimensional analysis, the lump model
(Hallbom, 2005) more accurately predicts the material yield stress when using the hand-held
cylinder as well as all the cone results (due to its specific geometry), and cylinder configurations,
thus affirming the work of Clayton et al., 2003.
It is concluded that, although the materials and concentrations tested induced errors within 40%,
the hand-held cylinder shows promise as a reliable, quick and simple way of measuring the yield
stress.
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The effect of type and concentration of surfactant on stability and rheological properties of explosive emulsionsTshilumbu, Nsenda Ngenda January 2009 (has links)
Thesis (MTech (Chemical Engineering))--Cape Peninsula University of Technology, 2009. / This study investigated water-in-oil (WIG) super-concentrated emulsions used as pumpable
explosives. The aqueous phase of the emulsions is a supersaturated nitrate salt solution (at
room temperature), with a volume fraction usually greater than 0.8. Aqueous phase droplets
are deformed by packing and contact with neighbouring droplets. Compounds of this kind are
thermodynamically unstable and their instability is related to the coarsening of emulsions
(droplet coalescence) and phase transition (crystallisation) in the dispersed phase. However,
it was demonstrated that the dominating mechanism is slow crystallisation inside the supercooled
droplets. The main goal of this thesis therefore concerned a phenomenological study
of the dependence of type and concentration of surfactant, as well as the ageing processes,
on the rheological properties of these emulsions. The bulk rheological measurements were carried out using a rotational dynamic rheometer
MCR 300 (Paar Physica). Samples of different types of surfactant (Pibsa-MEA, Pibsa-UREA,
Pibsa-IMIDE, SMO and SMO/Pibsa-MEA) and different concentrations of surfactants were
studied. The results of the measurements include the flow and viscoelastic properties of the
materials. The rheological parameters have been correlated with the kinetics of structural
changes during ageing as a function of emulsion formulation content. The emulsions under study were non-Newtonian liquids. It was demonstrated that different
surfactant types yield different interfacial properties. In fact, both the interfacial tension and the
interfacial elastic modulus were found to decrease according to the sequence MEA-UREAMEAlSMG-
IMIDE-SMG. It was established that the surfactant type and surfactant
concentration affected the bulk rheological properties of explosive emulsions. Indeed, both the
elastic modulus and the yield stress as function of surfactant type decreased in the following
order: MEA-IMIDE-UREA-MEAlSMG, whereas they also decreased as the surfactant
concentration increased. However the sensitivity of the rheological parameters to the type or
concentration of surfactant was found to decrease as the droplet size increased. Moreover, the
changes in rheological parameters were more strongly expressed than any changes in
interfacial tension. This last finding is considered as rather important. It seems reasonable to
assume that it provides proof of an active role of a surfactant not only as a compound
responsible for the interfacial tension, but also creating additional sources of elasticity.
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Bingham yield stress and Bingham plastic viscosity of homogeneous Non-Newtonian slurriesZengeni, Brian Tonderai January 2016 (has links)
Thesis (MTech (Mechanical Engineering))--Cape Peninsula University of Technology, 2016. / This dissertation presents how material properties (solids densities, particle size distributions, particle shapes and concentration) of gold tailings slurries are related to their rheological parameters, which are yield stress and viscosity. In this particular case Bingham yield stresses and Bingham plastic viscosities. Predictive models were developed from analysing data in a slurry database to predict the Bingham yield stresses and Bingham plastic viscosities from their material properties. The overall goal of this study was to develop a validated set of mathematical models to predict Bingham yield stresses and Bingham plastic viscosities from their material properties.
The interaction of the non-Newtonian material properties is very complex at varying mass solids concentrations. The evaluation of these interactions in terms of constitutive equations is almost impossible and the relationship between material properties, mass solids concentration and rheology can only be modelled in a statistical manner. The validity of each model is checked to ensure that predictions and interpretations are unbiased and efficient. This is done by comparing the resulting models to experimental data generated from test work. An in-depth analysis was conducted to see the interrelationship between the material properties and how they affect the yield stress and viscosity values.
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Influence of coil characteristics on heat transfer to Newtonian fluidsPrabhanjan, Devanahalli G. January 2000 (has links)
No description available.
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Peristaltic Pressure-Flow Relationship of Non-Newtonian Fluids in Distensible Tubes with Limiting Wave FormsHariharan, Prasanna 26 September 2005 (has links)
No description available.
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Boundary-layer analysis and measurement of Newtonian and non-Newtonian fluidsKim, Byung Kyu January 1984 (has links)
The velocity fields around a circular cylinder in a crossflow of drag-reducing polymeric solutions and water were experimentally investigated using a laser-Doppler velocimeter. Measured boundary-layer velocity profiles indicated that the flow parameter controlling the drag on a bluff body in drag-reducing flows is the turbulence intensity rather than the Reynolds number. For turbulence intensity less than 0.7% polymer addition induced delayed separation. For turbulence intensity over 1% the opposite effect was true. Time-averaged velocity profiles of water did not show any significant difference between self-induced and forced oscillatory flows.
Heat, mass and momentum transfer of Newtonian and power-law non-Newtonian fluids were theoretically investigated using an implicit finite-difference scheme. The results clearly· indicated that shear-dependent non-Newtonian viscosity controls the entire transport processes of the power-law fluids. For the major portion of the boundary layer, it was found that the more shear thinning the material exhibits, the lower the skin friction and the higher the heat transfer result. Accounting for the motion of the stagnation point provided an improved prediction of heat transfer for Newtonian fluid. / Doctor of Philosophy
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A mathematical explanation of the transition between laminar and turbulent flow in Newtonian fluids, using the Lie groups and finite element methodsGoufo, Emile Franc Doungmo 31 August 2007 (has links)
In this scientific work, we use two effective methods : Lie groups theory and the finite
element method, to explain why the transition from laminar flow to turbulence flow
depends on the variation of the Reynolds number. We restrict ourselves to the case
of incompressible viscous Newtonian fluid flows. Their governing equations, i.e. the
continuity and Navier-Stokes equations are established and investigated. Their solutions
are expressed explicitly thanks to Lie's theory. The stability theory, which leads to an
eigenvalue problem is used together with the finite element method, showing a way to
compute the critical Reynolds number, for which the transition to turbulence occurs.
The stationary flow is also studied and a finite element method, the Newton method, is
used to prove the stability of its convergence, which is guaranteed for small variations of
the Reynolds number. / Mathematical Sciences / M.Sc. (Applied Mathematics)
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EFFECT OF VOID VOLUME ON THE FRICTION AND RHEOLOGY OF CONCENTRATED SLURRIES.Lezzar, Ahmed. January 1983 (has links)
No description available.
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Observation of laminar-turbulent transition of a yield stress fluid in Hagen-Poiseuille flowGuzel, Bulent 05 1900 (has links)
The main focus of this work is to investigate experimentally the transition to turbulence of a yield stress shear thinning fluid in Hagen-Poiseuille flow. By combining direct high speed imaging of the flow structures with Laser Doppler Velocimetry (LDV), we provide a systematic description of the different flow regimes from laminar to fully turbulent. Each flow regime is characterized by measurements of the radial velocity, velocity fluctuations, and turbulence intensity profiles. In addition we estimate the autocorrelation, the probability distribution, and the structure functions in an attempt to further characterize transition. For all cases tested, our results indicate that transition occurs only when the Reynolds stresses of the flow equals or exceeds the yield stress of the fluid, i.e. the plug is broken before transition commences. Once in transition and when turbulent, the behavior of the yield stress fluid is somewhat similar to a (simpler) shear thinning fluid. We have also observed the shape of slugs during transition and find that their leading edges to be highly elongated and located off the central axis of the pipe, for the non-Newtonian fluids examined. Finally we present a new phenomenological approach for quantifying laminar-turbulent transition in pipe flow. This criterion is based on averaging a local Reynolds number to give ReG. Our localised parameter shows strong radial variations that are maximal at approximately the radial positions where puffs first appear during the first stages of turbulent transition.
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