Add to ORKGThe heat transfer from hot water to a cold copper pipe in laminar and turbulent flow condition is determined. The mean flow through velocity in the pipe, relative test length and initial temperature in the vessel were varied extensively during tests. Measurements confirm Nusselt's theory for large test lengths in laminar range. A new equation is derived for heat transfer for large starting lengths which agrees satisfactorily with measurements for large starting lengths. Test results are compared with the new Prandtl equation for heat transfer and correlated well. Test material for 200- and to 400-diameter test length is represented at four different vessel temperatures
Experimental data of various investigators of liquid-metal heat-transfer characteristics were reeval...
Unsteady flow is present in man, machine and nature. The flow of blood in arteries and capillaries i...
Heat pipes may be employed as temperature regulators, heat diodes, transformers, storage batteries, ...
An extensive investigation of the changes of the local and mean heat-transfer coefficients along the...
Analysis of liquid-metal heat transfer in cocurrent-flow, double-pipe heat exchangers shows that hea...
Experiments were conducted to study heat transfer mechanisms in laminar flow in a pipe preceded by a...
Experiments were carried out on water flowing turbulently inside each of the five following steam he...
Following a review of heat and mass transfer theory relevant to heat pipe performance, math models a...
Mathematical models are developed for calculating heat-transfer limitations of high-temperature heat...
Development of space thermal control (TC) technique is tightly connected with achievements of heat p...
Development of space thermal control (TC) technique is tightly connected with achievements of heat p...
When a fluid is heated while flowing through a pipe the phenomenon of heat transfer between the pipe...
When a fluid is heated while flowing through a pipe the phenomenon of heat transfer between the pipe...
Local heat transfer for water in turbulent forced flow in entrance region of circular tube
Experimental and analytical study of water heat pipes for 200 to 350 deg F temperature rang
Experimental data of various investigators of liquid-metal heat-transfer characteristics were reeval...
Unsteady flow is present in man, machine and nature. The flow of blood in arteries and capillaries i...
Heat pipes may be employed as temperature regulators, heat diodes, transformers, storage batteries, ...
An extensive investigation of the changes of the local and mean heat-transfer coefficients along the...
Analysis of liquid-metal heat transfer in cocurrent-flow, double-pipe heat exchangers shows that hea...
Experiments were conducted to study heat transfer mechanisms in laminar flow in a pipe preceded by a...
Experiments were carried out on water flowing turbulently inside each of the five following steam he...
Following a review of heat and mass transfer theory relevant to heat pipe performance, math models a...
Mathematical models are developed for calculating heat-transfer limitations of high-temperature heat...
Development of space thermal control (TC) technique is tightly connected with achievements of heat p...
Development of space thermal control (TC) technique is tightly connected with achievements of heat p...
When a fluid is heated while flowing through a pipe the phenomenon of heat transfer between the pipe...
When a fluid is heated while flowing through a pipe the phenomenon of heat transfer between the pipe...
Local heat transfer for water in turbulent forced flow in entrance region of circular tube
Experimental and analytical study of water heat pipes for 200 to 350 deg F temperature rang
Experimental data of various investigators of liquid-metal heat-transfer characteristics were reeval...
Unsteady flow is present in man, machine and nature. The flow of blood in arteries and capillaries i...
Heat pipes may be employed as temperature regulators, heat diodes, transformers, storage batteries, ...