SU510634A1 - Heat exchanger - Google Patents

Description

one

The invention relates to tenloobmennaya annarata, in particular to their design.

A heat exchanger is known that comprises a heat exchange tube and a turbulizer with a wavy surface concentrically arranged in a cylindrical housing, dividing the mellipe space into the inlet and outlet cavities and having openings on the surface for introducing the medium into the cavity between the heat exchange tube and the turbulizer.

In the known device, the inlet openings are made on the turbulizer liners and are therefore remote from the surface of the heat exchange tube, and therefore the effective destruction of the boundary layer on the heat exchange tube is not achieved, which impairs heat transfer.

The purpose of the invention is to improve the destruction of the non-boundary layer on the surface of the heat exchange medium and to improve the heat exchange. This is achieved by the fact that the medium inlets are made at the troughs of the turbulizer, the turbulator being installed in the annular space so that the ratio of the cross-sectional areas of the inlet and outlet cavities is 0.8-1.2. The turbulator may be made with a gradual broadening of its transverse section towards the exit of the medium from the annular space.

FIG. 1 shows the proposed heat exchanger, longitudinal section; in fig. 2 is the same; section A-A in FIG. one; in fig. 3 shows an embodiment of a heat exchanger with a variable cross section of the inlet and outlet cavities; in fig. 4 is the same, the section along BB in FIG. 3

The heat exchanger contains a cylindrical body 1, a heat exchange tube 2 arranged along its axis with a wavy turbulator 3 having radial holes 4. The protrusions 5 are directed along the longitudinal axis of the tube. At the ends of the turbulizer 3 installed end caps 6 and 7.

During operation of the heat exchanger, the coolant enters through the nozzle 8 and the inlet cavity 9 into the radial holes 4 of the turbulizer 3, from which, in separate streams 10, is supplied to the outer surface of the heat exchange tube 2 and then enters the chamber 12 and exits through pipe 13. At the same time, the flow of the second coolant moves in) 1 of the pipe 2 towards the first.

The diameter of the radial holes must be less than the thickness of the walls of the turbulizer, and they are placed apart from each other at a distance that ensures the continuous contact of the impact streams with the surface of the heat exchange tube. At the same time, to ensure maximum intensity of heat exchange, the distance between the outlet section of the radial holes of the turbulizer and the heat exchange tube must be within the initial part of the jet, i.e. it must not exceed five calibers in diameter of the holes. The impact of the coolant streams on the surface of the heat exchange tube destroys the film of the non-boundary layer and creates a contact exchange.

Claims (2)

1. A heat exchanger for liquid and gaseous media containing concentrically located in a cylindrical housing a MeHHyio heat transfer tube and a turbulizer with a wedge BéprHocTFjio, dividing the intertubular space into the inlet and outlet cavities and having openings on the surface for introducing the medium into the cavity between the heat exchange tube and 5, different by that that, in order to improve the destruction of the boundary layer on the top of the heat exchanger tube and improve the tenlo exchange, the medium inlet holes are made in the cavities of the turbulator, and the turbulator is installed in the annular space so that the ratio of the cross-sectional areas of the inlet and outlet cavities is 0.8-1, 2 2. A heat exchanger according to claim 1, characterized in that the turbulizer is made with the broadening of its cross section towards the outlet of the medium from the annular space. 22ZZ2 // / fl . I i ..: .... N -1 -4i Ii j t ,,,, / У. ., i  //.//// / / / / / / / / X / / V / -O