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Study of two-phase bubbly flow dynamics in binary mixtures (1992)

Riznic, J. R. ; Khabeev, N. S.

Springer

Shock waves 2 (1992), S. 49-56

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ISSN: 1432-2153

Keywords: Bubble dynamics ; Two-phase flow ; Binary mixtures

Source: Springer Online Journal Archives 1860-2000

Topics: Physics , Technology

Notes: Abstract The results of an investigation of the bubble dynamics and wave phenomena in two-component vapor-liquid mixtures are presented. These mixtures are widely used in industrial systems as heat transfer media. The effects of various additives on the wave dynamics of vapor-liquid mixtures are of particular interest. A single-velocity two-pressure model was used which takes into account both the liquid radial inertia due to medium volume changes, and the temperature distribution around the bubbles. The claim that mixture composition may have a peculiar effect on the bubble dynamics of a boiling non-ideal solution is substantiated. It is noted that the small free radial oscillation damping ratio for some binary systems lies outside the domain defined by the damping ratio of the constituents as a result of phase change diffusion effects. A criterion is proposed to identify cases of diffusion resistance responsible for the anomalous effect of component concentration on bubble behavior. The phase change delay due to diffusion results in observably higher mixture wave velocities and a smaller damping ratio than for respective single-component systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01414421

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Ignition and growth of a detonation by a high energy plasma (1992)

Saurel, R. ; Larini, M. ; Loraud, J. C.

Springer

Shock waves 2 (1992), S. 19-29

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ISSN: 1432-2153

Keywords: Two-phase flow ; Numerical model ; Deflagration detonation transition ; Equation of state ; Laser ; Plasma

Source: Springer Online Journal Archives 1860-2000

Topics: Physics , Technology

Notes: Abstract Many experimental and numerical studies have been achieved to describe the transition process of deflagration to detonation when a projectile impacts an explosive. Also a large work has been done for the determination of various parameters — such as the impact pressure, the efficiency factors, etc. of the laser — material interaction. When a laser beam impacts an explosive, the P2 τ criterion, characteristic of shock initiated detonations, is no longer valid due to the generated hot plasma whose effect is to decrease the DDT (Deflagration to Detonation Transition) duration. The present paper deals with a modelling of the plasma-explosive medium allowing the determination of distances and times of the DDT process. The two phase modelling of the granular explosive takes into account the creation of hot spots. The pressure of the plasma is computed using a semi empirical model, while the temperature is obtained from Maxwell Boltzmann statistics. The authors focused their attention on the equation of state for the detonation products and the numerical process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01414418

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Gravitational migration of fuel in porous media (1992)

Pistiner, Arieh ; Shapiro, Michael ; Rubin, Hillel

Springer

Transport in porous media 9 (1992), S. 187-205

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ISSN: 1573-1634

Keywords: Two-phase flow ; buoyancy force ; porous media ; Bond number

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Technology

Notes: Abstract Fuel migration in a water flowing through a porous medium generally occurs parallel to porous strata, which may not be horizontal. In this case, gravity tends to cause vertical segregation of fluids, depending on their densities. This phenomenon can exert a strong effect on fuel migration. The gravitational force creates the buoyancy force which acts upon the fuel, and may be either parallel or anti-parallel to the water flow direction. In this study, the above effects are investigated using the one-dimensional model of Pistineret al. We go beyond the latter investigation in describing the influence of the gravitational forces upon the movement of fuel saturation fronts in a vertical porous layer against and along the water flow direction. It is found that when the directions of the buoyancy force and of the water flow are anti-parallel, fuel migrates in the direction of the buoyancy force, provided the latter is strong enough. However, in the case of a weak buoyancy force, the direction of migration of the fuel depends on its mass. Small fuel masses move mainly in the direction of the water flow. However, big fuel slugs possessing large masses will move mainly in the direction of the buoyancy force. Slugs, characterized by intermediate masses, have no preferable moving direction and are almost stagnant.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00611966

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