SU1262255A2 - Heat-exchanging pipe - Google Patents

Abstract

The invention relates to heat engineering and is an improvement of the invention in accordance with auth. No. 108000t. The purpose of the invention is to intensify heat exchange. In the inner tubular insert 4 opposite the longitudinal protrusions 2 are made longitudinal grooves (PP) 5. Between the PP 5 are screw grooves (VP) 6, directed opposite to the screw vyuptam 3 pipes 1. VP 6 are made with the opposite direction of winding in adjacent areas. In all the grooves placed wire ribs 7, secured by spot welding. VP 6 provides for the amplification of the downflows originating at the surface of the insert 4 upon their cooling. PP 5 improves the conditions of the normalization of the upward flows moving along the center of the insert 4. Inside the inserts there are paired vortices that improve heat exchange. Ribs 7 and (L longitudinal protrusions 2 divide the vortices with into separate pair vortex flows. 2 Il.

Description

N3 35

yu yu

Claims (1)

I have installed the joint venture I. The invention is from gasification to heat engineering and is an improvement of the invention in accordance with avt.ev. 1080001. The purpose of the invention is to intensify heat exchange. FIG. 1 shows a heat exchange tube, a perspective view of FIG. 2 - transverse circulation diagram. The heat exchange tube 1 is made with longitudinal projections 2 on the inner surface and between them are screws 1 and projections 3, with the opposite direction of winding on adjacent sections. Corresponding grooves are made on the outer surface of the pipe 1. The pipe 1 is provided with an inner tubular insert 4 having longitudinal grooves 5 and helical grooves 6 located between them with the opposite direction of winding. In all slots of the insert 4, wire ribs 7 are placed. The longitudinal grooves 5 of the insert 4 are located opposite the longitudinal projections 2 of the tube 1, and the screw grooves 6 of the insert 4 are directed opposite to the screw lugs Aam 3 of the tube 1. The tube 1 and the inner insert 4 can be made, for example, by distributing tubular blanks with ice energy. The wire ribs 7 in the slots of the insert 4 are fixed by spot welding. The hot coolant moves in the direction of the AB inside the tubular. S52 inserts 4, grooves increase natural circulation of the threads: screw pairs enhance the downward flows that originate at the surface of the insert 4 when they are cooled by gravity forces, while the longitudinal grooves improve the conditions for the formation of upward currents moving along the center of the insert 4, as a result, pair vortices are formed inside the insert, which improves heat transfer. The cold coolant moves in the annular space in the direction of the BA with the formation of vortices, which are divided by separate longitudinal ribs of the insert 4 and longitudinal protrusions of the pipe 1 into separate paired vortex flows. Invention Form Heat exchanger according to avt.S. No. 1080001, which differs from the fact that, in order to intensify heat exchange, it is equipped with an inner tubular insert having longitudinal grooves and helical grooves located between them with opposite winding direction in adjacent areas, the longitudinal grooves of the insert are opposite the longitudinal projections, and the screw grooves of the insert are directed opposite to the screw protrusions of the pipe and wire fins are placed in all the grooves of the insert.