Journal ArticleDOI
The slumping of gravity currents
Herbert E. Huppert,J. E. Simpson +1 more
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In this article, it is shown that the gravity current can pass through three states: a slumping phase, a viscous phase, and a purely inertial phase, where the buoyancy force of the intruding fluid is balanced by the inertial force.Abstract:
Experimental results for the release of a fixed volume of one homogeneous fluid into another of slightly different density are presented, From these results and those obtained by previous experiments, it is argued that the resulting gravity current can pass through three states. There is first a slumping phase, during which the current is retarded by the counterflow in the fluidinto which it is issuing. The current remains in this slumping phase until the depth ratio of current to intruded fluid is reduced to less than about 0,075. This may be followed by a (previously investigated) purely inertial phase, wherein the buoyancy force of the intruding fluid is balanced by the inertial force. Motion in the surrounding fluid plays a negligible role in this phase. There then follows a viscous phase, wherein the buoyancy force is balanced by viscous forces. It is argued and confirmed by experiment that the inertial phase is absent if viscous effects become important before the slumping phase has been completed. R’elationships between spreading distance and time for each phase are obtained for all three phases for both two-dimensional and axisymmetric geometries. Some consequences of the retardation of the gravity current during the slumping phase are discussed.read more
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Journal ArticleDOI
Long-scale evolution of thin liquid films
TL;DR: In this article, a unified mathematical theory is presented that takes advantage of the disparity of the length scales and is based on the asymptotic procedure of reduction of the full set of governing equations and boundary conditions to a simplified, highly nonlinear, evolution equation or to a set of equations.
Journal ArticleDOI
The propagation of two-dimensional and axisymmetric viscous gravity currents over a rigid horizontal surface
TL;DR: In this paper, the viscous gravity current that results when fluid flows along a rigid horizontal surface below fluid of lesser density is analyzed using a lubrication-theory approximation, and it is shown that the effect on the gravity current of the motion in the upper fluid can be expressed as a condition of zero shear on the unknown upper surface of the current.
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Analysis and direct numerical simulation of the flow at a gravity-current head. Part 1. Flow topology and front speed for slip and no-slip boundaries
TL;DR: In this paper, a detailed analysis of the flow structure at the foremost part of the front, where no previous high-resolution data were available, was performed, based on spectral and spectral-element discretizations and compact finite differences.
Journal ArticleDOI
Gravity currents produced by instantaneous releases of a heavy fluid in a rectangular channel
James W. Rottman,J. E. Simpson +1 more
TL;DR: In this paper, a finite volume of homogeneous fluid was released instantaneously into another fluid of slightly lower density and the experiments were performed in a channel of rectangular cross-section, and the two fluids used were salt water and fresh water.
Journal ArticleDOI
Turbidity Currents and Their Deposits
Eckart Meiburg,Ben Kneller +1 more
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References
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Journal ArticleDOI
Gravity currents and related phenomena
TL;DR: In this paper, the authors present a broad investigation into the properties of steady gravity currents, in so far as they can be represented by perfect-fluid theory and simple extensions of it (like the classical theory of hydraulic jumps) that give a rudimentary account of dissipation.
Journal ArticleDOI
Oil Spreading on the Sea
TL;DR: The drift due to wind may be estimated by arg uin g that the turbulent shear-stress law at the water interface is approximately the same in both the air and the water as discussed by the authors.
Journal ArticleDOI
The engineer grapples with nonlinear problems
TL;DR: The most important engineering problems and the mathematical concepts and methods involved in their treatment are indicated in the following table as discussed by the authors ; however, it is not possible to give an exhaustive list of all types of problems which require the applications of advanced analytical methods.
Journal ArticleDOI
The dynamics of the head of a gravity current advancing over a horizontal surface
J. E. Simpson,Rex Britter +1 more
TL;DR: In this paper, an apparatus in which the head of a gravity current is brought to rest by using an opposing flow and a moving floor and a modified lock exchange flow was used to determine the velocity of advance, rate of mixing between two fluids and the depth of the mixed layer left behind the head and above the following gravity current.
Book ChapterDOI
The Spread of Oil Slicks on a Calm Sea
TL;DR: It is a common observation that oil, when spilled on water, tends to spread outward on the water surface in the form of a thin continuous layer as mentioned in this paper, which is the result of two physical forces: the force of gravity which causes the lighter oil to seek a constant level by spreading horizontally, just as it would on a plane horizontal solid surface and the surface tension force of pure water, which is usually greater than that of the oil film floating on water.
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