The laminar low Mach number flow of a gas in a tube is analyzed for very small and very large values of the inlet-to-wall temperature ratio. When this ratio tends to zero, pressure forces confine the cold gas to a thin core around the axis of the tube. This core is neatly bounded by an ablation front that consumes it at a finite distance from the tube inlet. When the temperature ratio tends to infinity, the temperature of the gas increases smoothly from the wall to the axis of the tube and the shear stress and heat flux are positive at the wall despite the fact that the viscosity and thermal conductivity of the gas scaled with their inlet values tend to zero at the wall
Bubble formation is involved in many engineering applications. It is important to understand the dyn...
A numerical study is presented of the natural frequency of the volume oscillations of gas bubbles in...
Abstract:- A long bubble-driven fluid flow in a circular tube is visualized by an optical method. A ...
The laminar low Mach number flow of a gas in a tube is analyzed for very small and very large values...
The fluid mechanical aspects of the axisymmetric growth and collapse of a bubble in a narrow tube fi...
The rise of a large gas bubble, or slug, through a closed, vertical, liquid-filled channel of infini...
A circular Hele-Shaw cell bounded by a volumetrically confined elastic solid can act as a fluidic fu...
The purpose of this research is to investigate the behavior of a long bubbles penetrating through vi...
Bubbles and droplets are ubiquitous in many areas of engineering, including microfluidics where they...
Two-phase liquid-gas injection constitutes an important industrial process that is used in most sepa...
Two-phase liquid-gas injection constitutes an important industrial process that is used in most sepa...
La croissance et le détachement des bulles formées sur une paroi par injection ou ébullition sont pr...
© 2019 American Physical Society. When a confined long gas bubble rises in a vertical tube in a cocu...
Gas bubble injection mode has been found by many researchers to be quite affecting the terminal velo...
Bubble formation dynamics has great value in mineral recovery and the oil industry. In this paper...
Bubble formation is involved in many engineering applications. It is important to understand the dyn...
A numerical study is presented of the natural frequency of the volume oscillations of gas bubbles in...
Abstract:- A long bubble-driven fluid flow in a circular tube is visualized by an optical method. A ...
The laminar low Mach number flow of a gas in a tube is analyzed for very small and very large values...
The fluid mechanical aspects of the axisymmetric growth and collapse of a bubble in a narrow tube fi...
The rise of a large gas bubble, or slug, through a closed, vertical, liquid-filled channel of infini...
A circular Hele-Shaw cell bounded by a volumetrically confined elastic solid can act as a fluidic fu...
The purpose of this research is to investigate the behavior of a long bubbles penetrating through vi...
Bubbles and droplets are ubiquitous in many areas of engineering, including microfluidics where they...
Two-phase liquid-gas injection constitutes an important industrial process that is used in most sepa...
Two-phase liquid-gas injection constitutes an important industrial process that is used in most sepa...
La croissance et le détachement des bulles formées sur une paroi par injection ou ébullition sont pr...
© 2019 American Physical Society. When a confined long gas bubble rises in a vertical tube in a cocu...
Gas bubble injection mode has been found by many researchers to be quite affecting the terminal velo...
Bubble formation dynamics has great value in mineral recovery and the oil industry. In this paper...
Bubble formation is involved in many engineering applications. It is important to understand the dyn...
A numerical study is presented of the natural frequency of the volume oscillations of gas bubbles in...
Abstract:- A long bubble-driven fluid flow in a circular tube is visualized by an optical method. A ...