Add to ORKGCopyright © 2003 SAE International This paper describes the application of a finite volume procedure for a fluid network to predict thermofluid transients during chilldown of cryogenic transfer lines. The conservation equations of mass, momentum, and energy and the equation of state for real fluids are solved in a fluid network consisting of nodes and branches. The numerical procedure is capable of modeling phase change and heat transfer between solid and fluid. This paper also presents the numerical solution of pressure surges during rapid valve opening without heat transfer. The numerical predictions of the chilldown process have been compared with experimental data
The self-pressurization phenomenon is studied numerically with the Volume of Fluid (VOF) method in a...
The number of cryogenic storage systems applications is growing rapidly with these systems finding t...
International audienceThis paper presents a transient thermohydraulic modeling, initially developed ...
In the present work, a numerical investigation on the Chilldown process under constant heat flux has...
A numerical model to predict chill down in cryogenic transfer lines has been developed. Three chill ...
This paper describes a finite volume procedure for network flow analysis in a thermofluid system. A ...
An extension for cryogenic systems to the AirCondi-tioning Library by Modelon was used to analyze th...
Numerical simulation of chilldown in LN2 transfer line is made by using the volume of fraction (VOF)...
A numerical study of the thermal and fluid-dynamic behaviour of the two-phase flow inside ducts work...
Detailed underst and ing of heat transfer and fluid flow is required for many aerospace thermal syst...
A numerical study of the thermal and fluid-dynamic behaviour of the two-phase flow inside ducts work...
Abstract. In the paper the problems of cryosurgery treatment are discussed. In particular the heat e...
In the paper the problems of cryosurgery treatment are discussed. In particular the heat exchange be...
A numerical investigation of transient natural convective heat transfer with coupled phase change is...
This article deals with a problem of evaporation numerical modeling in cryogenic systems of constant...
The self-pressurization phenomenon is studied numerically with the Volume of Fluid (VOF) method in a...
The number of cryogenic storage systems applications is growing rapidly with these systems finding t...
International audienceThis paper presents a transient thermohydraulic modeling, initially developed ...
In the present work, a numerical investigation on the Chilldown process under constant heat flux has...
A numerical model to predict chill down in cryogenic transfer lines has been developed. Three chill ...
This paper describes a finite volume procedure for network flow analysis in a thermofluid system. A ...
An extension for cryogenic systems to the AirCondi-tioning Library by Modelon was used to analyze th...
Numerical simulation of chilldown in LN2 transfer line is made by using the volume of fraction (VOF)...
A numerical study of the thermal and fluid-dynamic behaviour of the two-phase flow inside ducts work...
Detailed underst and ing of heat transfer and fluid flow is required for many aerospace thermal syst...
A numerical study of the thermal and fluid-dynamic behaviour of the two-phase flow inside ducts work...
Abstract. In the paper the problems of cryosurgery treatment are discussed. In particular the heat e...
In the paper the problems of cryosurgery treatment are discussed. In particular the heat exchange be...
A numerical investigation of transient natural convective heat transfer with coupled phase change is...
This article deals with a problem of evaporation numerical modeling in cryogenic systems of constant...
The self-pressurization phenomenon is studied numerically with the Volume of Fluid (VOF) method in a...
The number of cryogenic storage systems applications is growing rapidly with these systems finding t...
International audienceThis paper presents a transient thermohydraulic modeling, initially developed ...