It has been shown previously (Gardner & Kubie 1976) that a two-liquid system provides a better analogue for investigating certain aspects of high pressure boiler tube hydrodynamics than air and water at atmospheric pressure. A study is presented here of the flow of n-butyl acetate and water, and iso-amyl alcohol and water in helical coils and the general conclusion is that strongly stratified conditions of either completely separated phases or of drops of one phase in the other exist until velocities are high enough to produce drops sufficiently fine to be dispersed by the turbulence. The critical condition for the breakdown of the separated phases to produce drops is quantitatively correlated with the mass flowrates needed to avoid low qua...
Experimental pressure drop results on boiling water flow through three helical coils of tube inner d...
The normal theory for the prediction of circulation in water-tube boilers assumes that the steam-wat...
CFD is used to study an airewater mixture flowing inside helically coiled pipes, being at the moment...
It has been shown previously (Gardner & Kubie 1976) that a two-liquid system provides a better analo...
A two-liquid system provides a better analogue for visualization purposes of high pressure boiler sy...
The design of helical coiled steam generators requires the knowledge of the single and two-phase flu...
The objective of the present work is to study the two-phase pressure drop in helical coils. Literatu...
An experimental investigation regarding two-phase diabatic pressure drops inside a helically coiled ...
Helically coiled tubes represent a valuable solution to improve the performance of nuclear reactor S...
Single phase and air-water two-phase flow in 12 mm inner diameter parallel helical pipes are investi...
Many flow systems in engineering operations involve the simultaneous transport in pipes of a gaseous...
Helical tube heat exchangers provide better heat transfer characteristics, an improved capability to...
Turbulent two-phase flow in a helical pipe was simulated by means of CFD using the ANSYS-CFX code, b...
The air-water two-phase flow in a 12 mm inner diameter parallel helically coiled pipes is investigat...
Experimental pressure drop results on boiling water flow through three helical coils of tube inner d...
The normal theory for the prediction of circulation in water-tube boilers assumes that the steam-wat...
CFD is used to study an airewater mixture flowing inside helically coiled pipes, being at the moment...
It has been shown previously (Gardner & Kubie 1976) that a two-liquid system provides a better analo...
A two-liquid system provides a better analogue for visualization purposes of high pressure boiler sy...
The design of helical coiled steam generators requires the knowledge of the single and two-phase flu...
The objective of the present work is to study the two-phase pressure drop in helical coils. Literatu...
An experimental investigation regarding two-phase diabatic pressure drops inside a helically coiled ...
Helically coiled tubes represent a valuable solution to improve the performance of nuclear reactor S...
Single phase and air-water two-phase flow in 12 mm inner diameter parallel helical pipes are investi...
Many flow systems in engineering operations involve the simultaneous transport in pipes of a gaseous...
Helical tube heat exchangers provide better heat transfer characteristics, an improved capability to...
Turbulent two-phase flow in a helical pipe was simulated by means of CFD using the ANSYS-CFX code, b...
The air-water two-phase flow in a 12 mm inner diameter parallel helically coiled pipes is investigat...
Experimental pressure drop results on boiling water flow through three helical coils of tube inner d...
The normal theory for the prediction of circulation in water-tube boilers assumes that the steam-wat...
CFD is used to study an airewater mixture flowing inside helically coiled pipes, being at the moment...