Add to ORKGAn analytical heat transfer solution is derived and evaluated for the general case of a turbulently flowing liquid metal which suddenly encounters a step-function boundary temperature in a channel system. Local Nusselt moduli, dimensionless mixed-mean fluid temperatures, and arithmetic-mean Nusselt moduli are given as functions of Reynolds and Prandtl moduli and a dimensionless axial-distance modulus. These solutions are compared with known solutions of more specific systems as well as with a set of experimental liquid-metal heat transfer data for a thermal entrance region
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
Liquid metals are primary coolants in Generation IV nuclear reactors. For low Prandtl fluids, suc...
Heat transfer characteristics for turbulent flow of heat-generating liquid metal in parallel- plate ...
Experimental data of various investigators of liquid-metal heat-transfer characteristics were reeval...
Heat transfer characteristics for turbulent flow of heat generating liquid metals between parallel p...
AbstractNew heat transfer correlations for forced turbulent flow of liquid metals in the tubes have ...
Forced-convection heat transfer analysis for liquid metal flow in rectangular channels with heat sou...
Forced convection heat transfer for liquid-metal flow in rectangular channels with heat sources in f...
[[abstract]]This paper presents an investigation of the thermal entry-region problem for liquid meta...
An analysis was made of heat transfer at low Peclet numbers for fluids flowing turbulently in smooth...
A review is made of some of the experimental data and analyses applicable to convective heat transfe...
Liquid metal cooled reactors are envisaged to play an important role in the future of nuclear energy...
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
Liquid metals are primary coolants in Generation IV nuclear reactors. For low Prandtl fluids, suc...
Heat transfer characteristics for turbulent flow of heat-generating liquid metal in parallel- plate ...
Experimental data of various investigators of liquid-metal heat-transfer characteristics were reeval...
Heat transfer characteristics for turbulent flow of heat generating liquid metals between parallel p...
AbstractNew heat transfer correlations for forced turbulent flow of liquid metals in the tubes have ...
Forced-convection heat transfer analysis for liquid metal flow in rectangular channels with heat sou...
Forced convection heat transfer for liquid-metal flow in rectangular channels with heat sources in f...
[[abstract]]This paper presents an investigation of the thermal entry-region problem for liquid meta...
An analysis was made of heat transfer at low Peclet numbers for fluids flowing turbulently in smooth...
A review is made of some of the experimental data and analyses applicable to convective heat transfe...
Liquid metal cooled reactors are envisaged to play an important role in the future of nuclear energy...
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
The energy equation for mechanically fully developed turbulent flow between parallel plates is numer...
Liquid metals are primary coolants in Generation IV nuclear reactors. For low Prandtl fluids, suc...