Journal ArticleDOI
A Thin Conducting Liquid Film on a Spinning Disk in the Presence of a Magnetic Field: Dynamics and Stability
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TLDR
In this paper, the effects of a magnetic field on the dynamics of a thin nonuniform conducting film of an incompressible viscous fluid on a rotating disk has been considered, and a nonlinear evolution equation describing the shape of the film interface has been derived as a function of space and time and solved numerically.Abstract:
A theoretical analysis of the effects of a magnetic field on the dynamics of a thin nonuniform conducting film of an incompressible viscous fluid on a rotating disk has been considered A nonlinear evolution equation describing the shape of the film interface has been derived as a function of space and time and has been solved numerically The temporal evolution of the free surface of the fluid and the rate of retention of the liquid film on the spinning disk have been obtained for different values of Hartmann number M, evaporative mass flux parameter E, and Reynolds number Re The results show that the relative volume of the fluid retained on the spinning disk is enhanced by the presence of the magnetic field The stability characteristics of the evolution equation have been examined using linear theory For both zero and nonzero values of the nondimensional parameter describing the magnetic field, the results show that (a) the infinitesimal disturbances decay for small wave numbers and are transiently stable for larger wave numbers when there is either no mass transfer or there is evaporation from the film surface, and although the magnitude of the disturbance amplitude is larger when the magnetic field is present, it decays to zero earlier than for the case when the magnetic field is absent, and (b) when absorption is present at the film surface, the film exhibits three different domains of stability: disturbances of small wave numbers decay, disturbances of intermediate wave numbers grow transiently, and those of large wave numbers grow exponentially The range of stable wave numbers increases with increase in Hartmann numberread more
Citations
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Journal ArticleDOI
Impinging jet flow and hydraulic jump on a rotating disk
Yunpeng Wang,Roger E. Khayat +1 more
TL;DR: In this paper, the effects of rotation and inertia on the thin-film flow formed by a circular jet impinging on a rotating disk is analyzed theoretically and the location and height of the hydraulic jump are determined subject to the value of the thickness at the edge of the disk, which is established first for a stationary disk based on the capillary length, and then for a rotating disks using existing analyses and measurements in spin coating.
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Dynamic factors controlling carrier anchoring on vascular cells.
T. N. Swaminathan,Jin Liu,Uma Balakrishnan,Portonovo S. Ayyaswamy,Ravi Radhakrishnan,David M. Eckmann +5 more
TL;DR: This article reviews experimental and modeling methods for determining the critical roles played by the various factors that control nanocarrier drug delivery to vascular endothelial cells.
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Vibration of spinning discs and powder formation in centrifugal atomization
Huaxia Deng,Huajiang Ouyang +1 more
TL;DR: In this article, a dynamic model of the atomizing disc as a spinning Kirchhoff plate is established with moving melt film treated as a moving load on the disc and as an unstable growing wave interacting with the surrounding air outside the disc.
References
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R. W. Atherton,George M. Homsy +1 more
TL;DR: In this article, a general method for deriving evolution equations for long interfacial waves in two-phase flow is presented, with particular attention paid to the form of the stress conditions in curvilinear coordinates.
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Film flow on a rotating disk
TL;DR: In this article, the authors analyzed how a film of uniform thickness thins when the disk is set in steady rotation and showed that the leading order term in the long-time-scale solution for the transient film thickness is a lower bound for film thickness for all time.
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Magnetohydrodynamic Flow and Heat Transfer About a Rotating Disk
Ephraim M Sparrow,R. D. Cess +1 more
TL;DR: In this article, the effects of an axial magnetic field on the flow and heat transfer about a rotating disk were analyzed, and it was found that the presence of the magnetic field significantly decreases the flow velocities; but increases the torque required to maintain steady rotation of the disk.
Journal ArticleDOI
The flow and stability of thin liquid films on a rotating disk
TL;DR: In this article, the authors measured the thickness and the stability of thin films of liquid formed on a rotating horizontal disk and correlated in terms of an asymptoticexpansion solution of the thin-film equations.
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Experimental analysis and flow visualization of a thin liquid film on a stationary and rotating disk
TL;DR: In this paper, the mean thickness of a thin liquid film of deionized water with a free surface on a stationary and rotating horizontal disk has been measured with a nonobtrusive capacitance technique.
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