1.TURBO-E TUBE is a revolutionary heat transfer tube for boiling on outer surface.
2.It has very excellent heat transfer coefficient derived from an unique fine structure based on the boiling phenomenon essentially.
3.It is different from the conventional integral fin tube which simply increases the surface area.
4.By forming fine openings in the surface skin and circumferential tunnels which connect them under the surface skin, bubbles are generated continuously so that an extremely high boiling heat transfer performance can be achieved.
5.To prevent the phenomenon in which sub-cooled refrigerant invades the tunnels and re-condenses the bubble inside the tunnels, fine projections are formed just beneath the openings in the surface skin to lessen the influence of the sub-cooled refrigerant. This has improved the heat transfer performance in all regions including the low heat flux region.
6.Helix slots are added inside the tube to improve the internal heat transfer coefficient so that the overall heat transfer coefficient is more improved than that of the THERMOEXCEL-E tube.
STANDARD SIZES - TYPE TURBO-E TURBO-E
Series of HSTE1942-1 HSTE1942-2 HSTE1942-3
Nominal
Dimensions (mm) Outside Diameter (Do) 19.05 19.05 19.05
Wall Thickness (To) 1.3 1.5 1.5
Plain End Dimensions (mm) Outside Dia-meter 15.88 15.88 19.05
Wall Thi-ckness 1.4 1.55 1.55
Finned Section Dimensions Number of Fins Per Inch 42 42 42
Outside Diameter (Df) 18.2 18.2 18.2
Root Diameter (Dr) 16.8 16.8 16.8
Wall Thickness (Tf) 0.65 0.89 0.89
Fin Height (Hf) 0.7 0.7 0.7
Ridge
Dimensions Numberof Ridges 20~22 20~22 20~22
Depthof Ridges 0.4 0.4 0.4
Helix Angle 30° 30° 30°
* Gap of Fin : 0.05 ~ 0.15 Width of Tunnel: 0.3
Do-----Outside diameter of plain end section
Df------Diameter of top fins
Dr------Root diameter of finned section
Di------Inside diameter of finned section
T0-----Wall thickness of plain end section光
Tf------Wall thickness of finned section
G-------Plain end length
Hf------Fin height
A-------Incomplete finned section
L-------Total length