The movement of a particle of disperse phase in a flow of rotating liquid phase was analyzed. Two characteristic sections, namely steady-state and non-steady-state sections, were identified. It was found that there is no principle distinctions between the movement of a particle in the gravity field or in the field of centrifugal force. Thus, the use of the two sections detected in engineering calculations of hydrodynamic or mass-exchange processes substantially facilitates the calculations and is physically justified
The Magnus force coefficient was determined from comparison of theoretical and experimental trajecto...
technology and power engineering. The velocity of weighing of a flow is limited by weight force of a...
To predict the behavior of bubbles and particles moving in fluids, the hydrodynamics forces acting o...
The movement of a particle of disperse phase in a flow of rotating liquid phase was analyzed. Two ch...
This paper has analyzed the equation of motion in terms of stresses (Navier), as well as its two spe...
This work is devoted to the study of centrifugation processes, which are one of the most complex pr...
This paper has analyzed the equation of motion in terms of stresses (Navier), as well as its two spe...
In this paper the motion of particles in rotating pipe flow is studied for various flow cases by mea...
Ce travail est consacré à une étude théorique et expérimentale du mouvement d'une particule sphériqu...
Functionally Graded Materials (FGMs) are high performance composite materials, in which physical and...
UnrestrictedIn this investigation, fluid dynamics of a spherical particle in a rotating liquid spher...
Particles in liquid suspensions subjected to velocity gradients undergo characteristic rotational an...
The Magnus force coefficient was determined from comparison of theoretical and experimental trajecto...
We consider the phase separation in the suspension krupnodispersnoy tsenrobezhnyh strength of the v...
We experimentally study the behavior of a particle slightly denser than the surrounding liquid in so...
The Magnus force coefficient was determined from comparison of theoretical and experimental trajecto...
technology and power engineering. The velocity of weighing of a flow is limited by weight force of a...
To predict the behavior of bubbles and particles moving in fluids, the hydrodynamics forces acting o...
The movement of a particle of disperse phase in a flow of rotating liquid phase was analyzed. Two ch...
This paper has analyzed the equation of motion in terms of stresses (Navier), as well as its two spe...
This work is devoted to the study of centrifugation processes, which are one of the most complex pr...
This paper has analyzed the equation of motion in terms of stresses (Navier), as well as its two spe...
In this paper the motion of particles in rotating pipe flow is studied for various flow cases by mea...
Ce travail est consacré à une étude théorique et expérimentale du mouvement d'une particule sphériqu...
Functionally Graded Materials (FGMs) are high performance composite materials, in which physical and...
UnrestrictedIn this investigation, fluid dynamics of a spherical particle in a rotating liquid spher...
Particles in liquid suspensions subjected to velocity gradients undergo characteristic rotational an...
The Magnus force coefficient was determined from comparison of theoretical and experimental trajecto...
We consider the phase separation in the suspension krupnodispersnoy tsenrobezhnyh strength of the v...
We experimentally study the behavior of a particle slightly denser than the surrounding liquid in so...
The Magnus force coefficient was determined from comparison of theoretical and experimental trajecto...
technology and power engineering. The velocity of weighing of a flow is limited by weight force of a...
To predict the behavior of bubbles and particles moving in fluids, the hydrodynamics forces acting o...