Many flow systems in engineering operations involve the simultaneous transport in pipes of a gaseous (or vapor) phase and a liquid phase. Examples of such systems are numerous; among them are water-steam mixtures in boiler tubes, petroleum liquids and their vapors in tube-stills, liquid-vapor mixtures in refrigeration systems, oil-laden compressed air, condensate return lines, gasoline engine manifolds, partial condensers in fractionation equipment, etc
The interest in oil-water pipe flow descends from its importance in petrochemical industries; pumpin...
In modern chemical and oil refining complexes, separation processes are among the most popular and e...
In two phase flow, differential pressures technique can be used to measure the volume fraction of th...
Fluid flow concerns are quite prevalent among systems that handle chemicals, either in the liquid or...
Pressure drop is of paramount importance in a fluid flow. Single phase pressure drop occurs in a pur...
Chemical engineers frequently encounter the flow of a mixture of two fluids in pipes. Liquid-gas or ...
In this chapter flow patterns, heat transfer and pressure drops characterizing two-phase flows in fl...
This paper presents experimental results for pressure drop during air-water upward two-phase flow ac...
A two-liquid system provides a better analogue for visualization purposes of high pressure boiler sy...
This paper gives a brief overview of types of two-phase flow. Subsequently, it deals with their mutu...
It has been shown previously (Gardner & Kubie 1976) that a two-liquid system provides a better analo...
The gas-liquid two-phase flow is characterized by continuous and local change of surface separation ...
Includes bibliographical references (pages 141-142)This is an extensive literature study about press...
Two-phase flows of liquid (water) – gas (air, vapor, steam) throughout singularities have been wide...
Two-phase flows are commonly found in many industries, especially in systems, where efficient and co...
The interest in oil-water pipe flow descends from its importance in petrochemical industries; pumpin...
In modern chemical and oil refining complexes, separation processes are among the most popular and e...
In two phase flow, differential pressures technique can be used to measure the volume fraction of th...
Fluid flow concerns are quite prevalent among systems that handle chemicals, either in the liquid or...
Pressure drop is of paramount importance in a fluid flow. Single phase pressure drop occurs in a pur...
Chemical engineers frequently encounter the flow of a mixture of two fluids in pipes. Liquid-gas or ...
In this chapter flow patterns, heat transfer and pressure drops characterizing two-phase flows in fl...
This paper presents experimental results for pressure drop during air-water upward two-phase flow ac...
A two-liquid system provides a better analogue for visualization purposes of high pressure boiler sy...
This paper gives a brief overview of types of two-phase flow. Subsequently, it deals with their mutu...
It has been shown previously (Gardner & Kubie 1976) that a two-liquid system provides a better analo...
The gas-liquid two-phase flow is characterized by continuous and local change of surface separation ...
Includes bibliographical references (pages 141-142)This is an extensive literature study about press...
Two-phase flows of liquid (water) – gas (air, vapor, steam) throughout singularities have been wide...
Two-phase flows are commonly found in many industries, especially in systems, where efficient and co...
The interest in oil-water pipe flow descends from its importance in petrochemical industries; pumpin...
In modern chemical and oil refining complexes, separation processes are among the most popular and e...
In two phase flow, differential pressures technique can be used to measure the volume fraction of th...