SU1663368A1 - Spiral tubular heat exchanger - Google Patents

Abstract

The invention allows to intensify heat exchange between media. The housing houses a bundle of spiral heat exchange tubes 2, the adjacent turns of which tightly adjoin each other to form a spiral channel for the annular space medium communicated with the inlet and outlet nozzles of this medium. The housing 1 is made asymmetrical, the outer turns 8 of each helix are adjacent to the housing part of the length in the area of the inlet nipple, and the remaining part of the length are placed with a gap to the body that gradually increases in the direction of the outlet nipple. Adjacent pipes 2 of the outer coils 8 are offset relative to each other in the radial direction with the formation between them of additional channels 10 for the annulus environment. 2 Il.

Description

The invention relates to heat exchangers and can be used in exhaust gas heat recovery systems of internal combustion engines.

The purpose of the invention is to intensify heat transfer.

FIG. 1 shows a heat exchanger, general view; 2 is a section A-A in FIG. one.

The heat exchanger comprises a housing 1 with a bundle of spiral heat exchange tubes 2 placed inside, the adjacent turns of which tightly adjoin one another to form a spiral channel 3 for the annular space medium communicated with inlet 4 and outlet 5 of this medium. The housing 1 is also provided with an inlet 6 and outlet 7 collectors of the medium of the tube space. The housing 1 is made unbalanced, the outer turns 8 each

the helix adjoins the body 1 part of the length in the zone of the inlet 4, and the remaining part of the length is placed with a gap 9 to the body 1. gradually increasing in the direction of the outlet nozzle 5. The adjacent pipes 2 of the outer turns 8 are offset one from the other in radial direction with the formation between them of additional channels 10 for the annulus environment.

The heat exchanger operates as follows.

The medium of the tube space enters the inlet manifold 6, where it is distributed through the spiral pipes 2. Pass through the tubes 2, the medium of the tube space enters the output header 7, from where it is then removed from the heat exchanger. The medium of the annular space will give e, ъ «tA #

into the supply pipe 4, passes further along the spiral channel 3, washing the pipe 2 and exchanging heat with the medium of the tube space, and is removed through the discharge pipe 5. When the medium passes through the last turn of the spiral channel 3, it flows through additional channels 10 between adjacent pipes 2, washing the latter also on the outer side of the last turn. At the same time, the implementation of the gap 9 expanding in the direction of the medium movement contributes to a more intensive flushing of the outer turns of the pipes 8. The use of the invention allows to intensify the heat exchange between transients and thereby increase the compactness of the heat exchanger,

Claims (1)

Claims of the Invention A spiral tube heat exchanger comprising a housing with a housing arranged inside a bundle of spiral heat exchange tubes, the adjacent turns of which are tightly adjacent to each other with the formation of a spiral channel for the annular space medium communicated with the inlet and outlet nozzles of this medium, and the inlet and outlet collectors of the medium of the tube space, characterized in that heat exchange, the casing is made asymmetrical, the outer turns of each helix are adjacent to the casing at a part of the length in the zone of the inlet nipple, and at the remaining part of the length are placed with a clearance to the casing, gradually increasing in the direction towards the outlet nozzle, while the adjacent pipes of the outer orbits are displaced relative to each other in the radial direction with the formation between them of additional channels for the annular space medium. mn fi & 1 here it-w-t FIG. g