Add to ORKGWhile there have been many studies for two-phase flow through straight cylindrical tubes, more recently, a new group of studies have emerged that examine two-phase flow through non-straight, non-cylindrical geometries, including expansions, contractions, tees, packed beds and cyclonic separation devices. Although these studies are still, relatively speaking, in their infancy, they have provided valuable information regarding the importance of the flow momentum, and the existence of liquid dryout due to sharp comers in microgravity
As the frequency and length of space flights increase, a better understanding of the physical phenom...
Gas-liquid and liquid vapor-pipe flows in microgravity have been studied for more than forty years. ...
As the frequency and length of space flights increase, a better understanding of the physical phenom...
A reduced gravity environment offers the ability to remove the effect of buoyancy on two phase flows...
Study of gas-liquid two-phase flows under reduced gravity conditions is extremely important. One of ...
We present experimental data on flow pattern transitions, pressure drop and flow characteristics for...
The simultaneous flow of gas and liquid through a fixed bed of particles occurs in many unit operati...
A brief review of both single- and two-phase flow studies in curved and coiled flow geometries is fi...
An extensive experimental and theoretical study of two-phase flow behavior in reduced-gravity condit...
Some areas of opportunity for future research in microgravity two-phase flow and heat transfer are p...
Gas-liquid and liquid vapor-pipe flows in microgravity have been studied for other forty years. The ...
In this report we have catalogued the flow regimes observed in microgravity, summarized correlations...
Gas-liquid and liquid-vapor pipe flows in microgravity have been studied for more than forty years b...
As the frequency and length of space flights increase, a better understanding of the physical phenom...
Microgravity two-phase flow is becoming increasingly important in space-based technologies. Research...
As the frequency and length of space flights increase, a better understanding of the physical phenom...
Gas-liquid and liquid vapor-pipe flows in microgravity have been studied for more than forty years. ...
As the frequency and length of space flights increase, a better understanding of the physical phenom...
A reduced gravity environment offers the ability to remove the effect of buoyancy on two phase flows...
Study of gas-liquid two-phase flows under reduced gravity conditions is extremely important. One of ...
We present experimental data on flow pattern transitions, pressure drop and flow characteristics for...
The simultaneous flow of gas and liquid through a fixed bed of particles occurs in many unit operati...
A brief review of both single- and two-phase flow studies in curved and coiled flow geometries is fi...
An extensive experimental and theoretical study of two-phase flow behavior in reduced-gravity condit...
Some areas of opportunity for future research in microgravity two-phase flow and heat transfer are p...
Gas-liquid and liquid vapor-pipe flows in microgravity have been studied for other forty years. The ...
In this report we have catalogued the flow regimes observed in microgravity, summarized correlations...
Gas-liquid and liquid-vapor pipe flows in microgravity have been studied for more than forty years b...
As the frequency and length of space flights increase, a better understanding of the physical phenom...
Microgravity two-phase flow is becoming increasingly important in space-based technologies. Research...
As the frequency and length of space flights increase, a better understanding of the physical phenom...
Gas-liquid and liquid vapor-pipe flows in microgravity have been studied for more than forty years. ...
As the frequency and length of space flights increase, a better understanding of the physical phenom...