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Simulation of the process of water-air low-temperature plasma jet outflowing from a half-closed volume into a flooded space
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A. D. Rychkov
Published/Copyright:
February 4, 2009
Abstract
Numerical simulation is used for studying the formation and outflow of a jet of low-temperature plasma generated by water evaporation induced by a high-energy electric pulse discharge in a half-closed cylindrical volume. It is shown that a stable bounded comet-shaped high-pressure zone is formed in the leading part of the jet moving in the vertical direction.
Published Online: 2009-02-04
Published in Print: 2009-January
© de Gruyter 2009
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Articles in the same Issue
- Comparison of two- and three-dimensional steady flows of a homogeneous viscous incompressible fluid
- Numerical simulation of a turbulent mixing zone in a stably stratified medium using second-order mathematical models
- Shallow water equations on a movable bottom
- Simulation of the process of water-air low-temperature plasma jet outflowing from a half-closed volume into a flooded space
- Numerical simulation of a laser pulse self-focusing process in a dielectric based on the nonlinear Schrödinger equation
- An elliptic method for construction of adaptive spatial grids
