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W181624784 abstract "The oscillating droplet technique is an experimental technique that is used to measure the surface tension and viscous damping coefficients of a liquid droplet. This technique has been the subject of much analysis; theoretical, numerical, and experimental with a number of different external forces used to confine the droplet. These external forces are found to modify the oscillation frequency and damping rates, which need to be quantified in order for the measurement technique to be used. The dynamics of the droplet are three-dimensional but previous numerical work has largely focused on axisymmetric cases. This work uses numerical techniques to extend the previous analysis to include the full three-dimensional effects.In this work a three-dimensional numerical model is designed, developed and applied to study the dynamics of a liquid droplet both in free space and with a high DC magnetic field used to balance gravitational forces. The numerical model is a grid point formulation of the pseudo-spectral collocation method discretised in a spherical coordinate system with the implicit Euler method used to advance the solution in time. A coordinate transformation method is used to ensure the direct surface tracking required for modelling the surface shape oscillations.The study covers the laminar fluid flow regime within a droplet exhibiting translational and surface shape oscillations providing a greater understanding of the physical behaviour of the droplet along with a qualitative and quantitative comparison with theoretical results. Initially a droplet oscillating in free space is considered, with a range of surface oscillation modes used to demonstrate the three-dimensional dynamics. Then the influence of electromagnetic forces on a diamagnetic droplet is studied, this includes the field from a solenoid magnet used to levitate a diamagnetic droplet. Finally the dynamics of an electrically conducting droplet in an external static magnetic field are modelled. In each case a number of methods are used to analyse the surface displacement in order to determine the surface tension and viscous damping coefficients.The numerical study of a freely oscillating droplet shows good agreement with the low order theoretical results for droplets in the limit of low viscosity. The high accuracy of the surface tracking method allows the non-linear effects of mode coupling and frequency shift with amplitude to be observed. There is good agreement with the theoretical values available for inviscid axisymmetric oscillations and the numerical study provides the opportunity to determine these effects for three-dimensional viscous oscillations.The magnetic field from a solenoid is used to study the levitation of a diamagnetic droplet and the oscillation frequencies of the droplet are compared with a theoretical model. The magnetic field is analysed and the accuracy of the field calculation used when determining the modification to the oscillation frequencies is considered with the use of a theoretical model. Analysis is made into the splitting of the frequency spectrum due to the magnetic field.The theoretical model that is available for an electrically conducting droplet in a static magnetic field predicts different fluid flow within the droplet and oscillation frequency and damping rate changes. These changes are compared qualitatively and quantitatively with the numerical model results with good agreement." @default.
W181624784 created "2016-06-24" @default.
W181624784 creator A5049995874 @default.
W181624784 date "2012-02-01" @default.
W181624784 modified "2023-09-26" @default.
W181624784 title "Modelling of liquid droplet dynamics in a high DC magnetic field" @default.
W181624784 cites W1525416034 @default.
W181624784 cites W1573131713 @default.
W181624784 cites W1587262069 @default.
W181624784 cites W1595099035 @default.
W181624784 cites W1602649698 @default.
W181624784 cites W18714901 @default.
W181624784 cites W1963868286 @default.
W181624784 cites W1964145786 @default.
W181624784 cites W1965917480 @default.
W181624784 cites W1967332008 @default.
W181624784 cites W1971862192 @default.
W181624784 cites W1973342617 @default.
W181624784 cites W1975599026 @default.
W181624784 cites W1980389138 @default.
W181624784 cites W1980970335 @default.
W181624784 cites W1982409235 @default.
W181624784 cites W1985533638 @default.
W181624784 cites W1986304238 @default.
W181624784 cites W1988798012 @default.
W181624784 cites W1991988559 @default.
W181624784 cites W1993018248 @default.
W181624784 cites W2000169120 @default.
W181624784 cites W2004766460 @default.
W181624784 cites W2005322032 @default.
W181624784 cites W2008074490 @default.
W181624784 cites W2017255219 @default.
W181624784 cites W2019405665 @default.
W181624784 cites W2021995609 @default.
W181624784 cites W2025222041 @default.
W181624784 cites W2030687834 @default.
W181624784 cites W2031444158 @default.
W181624784 cites W2034799431 @default.
W181624784 cites W2035889806 @default.
W181624784 cites W2037393809 @default.
W181624784 cites W2037842767 @default.
W181624784 cites W2038437863 @default.
W181624784 cites W2043441339 @default.
W181624784 cites W2057089028 @default.
W181624784 cites W2060891648 @default.
W181624784 cites W2062376614 @default.
W181624784 cites W2065351793 @default.
W181624784 cites W2065569811 @default.
W181624784 cites W2066351842 @default.
W181624784 cites W2068670463 @default.
W181624784 cites W2072001803 @default.
W181624784 cites W2075296617 @default.
W181624784 cites W2079154308 @default.
W181624784 cites W2084537065 @default.
W181624784 cites W2094122246 @default.
W181624784 cites W2095131763 @default.
W181624784 cites W2102265431 @default.
W181624784 cites W2105324002 @default.
W181624784 cites W2107659829 @default.
W181624784 cites W2111438841 @default.
W181624784 cites W2116994364 @default.
W181624784 cites W2123644635 @default.
W181624784 cites W2127076250 @default.
W181624784 cites W2128285958 @default.
W181624784 cites W2134169985 @default.
W181624784 cites W2134227032 @default.
W181624784 cites W2137068328 @default.
W181624784 cites W2137772817 @default.
W181624784 cites W2139407227 @default.
W181624784 cites W2147576373 @default.
W181624784 cites W2149568790 @default.
W181624784 cites W2159149310 @default.
W181624784 cites W2166860955 @default.
W181624784 cites W2167863042 @default.
W181624784 cites W230532056 @default.
W181624784 cites W2388489087 @default.
W181624784 cites W2483169938 @default.
W181624784 cites W2564775493 @default.
W181624784 cites W2569591800 @default.
W181624784 cites W279890068 @default.
W181624784 cites W2989910212 @default.
W181624784 cites W3103287600 @default.
W181624784 cites W2043236312 @default.
W181624784 cites W38973874 @default.
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