SU1560977A1 - Heat-exchange pipe - Google Patents

Abstract

The invention relates to heat engineering and can be used in heat exchangers operating primarily on clean gases. The purpose of the invention is to intensify heat transfer. The heat exchange tube 1 contains outer spiral ribs, which are U-shaped in longitudinal section, with a base 3 in contact with the surface of the pipe 1, and side surfaces formed by flat petals 4, having bent sections 5 and 6 at the periphery that form L-shaped profile. Bent sections 5 and 6 of adjacent petals are located at different distances from the surface of pipe 1 and can be located in cross section along concentric circles or along sides of a polygon. Flare openings or extrusions can be made on the surface of the base 3. Heat transfer intensification occurs due to an increase in the degree of turbulence with an increase in the degree of interaction of the fins with the flow of heat transfer fluid in the entire volume of the annular space. 4 hp ff, 8 ill.

Description

FIG. 6

The invention relates to heat engineering and can be used in the construction of heat exchangers operating mainly on clean gases.

The purpose of the invention is the intensification of heat exchange

Figure 1 shows a heat exchanger tube, a general view; 2 - the same, with the arrangement of the folded sections of the petals along concentric circles, the cross section; in FIG. 3 - the same, with the arrangement of the folded sections of the petals along the sides of the hexagon; 4 is the same, with the folded areas of the petals positioned on the sides of the rectangle; in Fig. 5, the same is true when the folded areas of the petals are located on the sides of the triangle; Fig. 6 shows the node I in Fig. 1; Fig. 7, section A-A in Fig. 6 (when formed on the basis of the ribs of openings with gateways); on figs8 - the same, when performing pockets.

The heat exchange tube 1 contains outer spiral ribs 2, having a U-shape in longitudinal section with a base 3 in contact with the surface of the tube 1 and side surfaces formed by flat lobes 4 having bent sections 5 and 6 in the periphery, forming in a longitudinal section G-about a different profile. Bent sections 5 and 6 of adjacent petals are located at different distances from the surface of pipe 1 and can be located in cross section along concentric circles or along sides of a polygon with a number of sides predominantly equal to 3.4 and 6. On the surface of base 3 Holes 8 with flanges 7 or extrusions can be made.

The heat exchange pipe works as follows

In the course of operation, heat exchange takes place between the medium flowing inside the pipe 1 and the gaseous heat transfer fluid washing it in the transverse direction.

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Making the lobes 4 with the bent sections 5 and 6 increase the degree of turbulence, and the location of the bent sections at different distances from the pipe surface increases the degree of turbulence by increasing the interaction of the fins with the flow of heat transfer fluid over the entire annular space. In addition, with the arrangement of the folded sections 5 and 6 on the sides of the polygon, it is possible to obtain a more compact surface when assembling pipes 1 into a bundle.

The presence on the surface of the base of the 3 holes 8 with 7 flanges or wedges contributes to the flow turbulization in the most unfavorable areas.

Claims (5)

Invention Formula 1 o A heat exchange tube containing outer spiral ribs having a U-shape in longitudinal section with a base in contact with the surface of the tube and side surfaces formed by flat lobes, characterized in that, in order to intensify heat exchange in a cross-flow, The petals have bent sections on the periphery that form an L-shaped profile in a longitudinal section, the bent sections of adjacent petals being located at different distances from the pipe surface. 2. Trumpet pop.1, distinguished by the fact that the folded sections of the petals are located in cross section along concentric circles, 3. Pipe pop.1, characterized in that the bent sections form a polygon in cross section. 4. A tube according to claim 1, characterized in that flared holes are made on the surface of the base of the ribs, 5. A pipe according to claim 1, characterized in that extrusions are made on the surface of the base of the ribs. Phage. one Rig.z FIG. 2 . d R -i N , about Lj L T-JLJ3lj A Fy Phage. five FIG. 7 YA U FIG. eight