Add to ORKGAbstract: Experiments were performed to investigate the performance enhancement of single-phase flow and boiling heat transfer in the 3D inner finned helical tubes. The tests for single-phase flow and heat transfer were carried out in the helical tubes with a curvature of 0.0663 and a length of 1.15m, the range of the Reynolds number examined varies from 1000 to 8500. In comparison to the smooth helical tube, the experimental results of two finned helical tubes with different inner fin geometry showed that the heat transfer and flow resistance in the 3D inner finned helical tube gains greater augmentation. Within the measured range of Reynolds number, the average augmentation ratio of heat transfer of the two finned tubes are 71% and 103%, ...
Flow and heat transfer characteristics of water in a newly designed helical coil heat transfer devic...
The shell and coil heat exchangers are commonly used in heating, ventilation, nuclear industry, proc...
Heat recovery is the capture of energy contained in the fluids otherwise that would be lost from the...
Abstract: Experiments were performed to investigate the performance enhancement of single-phase flow...
Experiments are performed to investigate the single-phase flow and flow-boiling heat transfer augmen...
Enhanced tubes with internally helical fins have been extensively used in the large heat exchangers....
The enhancement of laminar forced convection inside helical pipes is studied numerically and compare...
Abstract — Enhancing the heat transfer by the use of helical coils has been studied and researched b...
This paper experimentally investigates the effects of tube and coil diameters on flow boiling heat t...
An experimental study of heat transfer performance in 3D internally finned steel-water heat pipe was...
WOS:000350080000074International audienceHere we document the effect of flow configuration on the he...
Enhancement in heat transfer due to helical coils has been reported by many researchers. While the h...
This paper provides heat transfer and friction factor data for single-phase flow in a shell and tube...
A double-pipe helical heat exchanger was studied numerically and experimentally for both heat trans...
Parallel-type heat exchangers with artifically roughened elements on the outer surface of the inner ...
Flow and heat transfer characteristics of water in a newly designed helical coil heat transfer devic...
The shell and coil heat exchangers are commonly used in heating, ventilation, nuclear industry, proc...
Heat recovery is the capture of energy contained in the fluids otherwise that would be lost from the...
Abstract: Experiments were performed to investigate the performance enhancement of single-phase flow...
Experiments are performed to investigate the single-phase flow and flow-boiling heat transfer augmen...
Enhanced tubes with internally helical fins have been extensively used in the large heat exchangers....
The enhancement of laminar forced convection inside helical pipes is studied numerically and compare...
Abstract — Enhancing the heat transfer by the use of helical coils has been studied and researched b...
This paper experimentally investigates the effects of tube and coil diameters on flow boiling heat t...
An experimental study of heat transfer performance in 3D internally finned steel-water heat pipe was...
WOS:000350080000074International audienceHere we document the effect of flow configuration on the he...
Enhancement in heat transfer due to helical coils has been reported by many researchers. While the h...
This paper provides heat transfer and friction factor data for single-phase flow in a shell and tube...
A double-pipe helical heat exchanger was studied numerically and experimentally for both heat trans...
Parallel-type heat exchangers with artifically roughened elements on the outer surface of the inner ...
Flow and heat transfer characteristics of water in a newly designed helical coil heat transfer devic...
The shell and coil heat exchangers are commonly used in heating, ventilation, nuclear industry, proc...
Heat recovery is the capture of energy contained in the fluids otherwise that would be lost from the...