SU1343190A1 - Heat exchanger - Google Patents

Abstract

Invention m. used in fuel-burning installations. The purpose of the invention is to increase the reliability of the H - I elasgiveal. but only t / f f f of the exchanger by improving the compensation of the thermal elongation of heat exchange tubes (TT). For this purpose, cylindrical sleeves (CB) 9 are mounted in the inlet compartment 6, covering TTs 5. The sleeves are tightly fixed at one end of the first tube plate 2 at one end, and passed through the annular openings 8 between the holes of the second tube plate 3 and the other TT 5. Thanks to the free passage of the TT 5 through the CB 9 creates the possibility of free independent thermal lengthening of each of them. When air is introduced through compartment 6 and openings 8, it emerges as continuous ring streams, flows onto the outer surfaces of the TT and due to a sharp decrease in pressure Laziness in the root of the jets cuts off the gaps 10 between the central bank 9 and TT5 from the working annulus, thus achieving aerodynamic sealing of the gaps 10. 1 sludge. From W / / - / s 00: with Z and I f Product Perani

Description

1P

The invention relates to a heat exchange technique and can be used in fuel combustion installations.

The purpose of the invention is to increase reliability by improving compensation for thermal elongation of pipes.

The drawing shows the proposed heat exchanger, longitudinal section

The heat exchanger includes a housing 1, equipped with at least three tube plates 2 -, in the holes of which vertical heat exchange tubes 5 are missed, with the first 2 and second 3 tube plates forming an inlet compartment 6 connected to the source through the inlet 7 the heated medium, and between the holes of the second tube plate 3 and the tubes 5 are made annular outlet openings 8. The heat exchanger is equipped with cylindrical sleeves 9 installed in the inlet compartment 6 and covering the heat exchange tubes 5 with a gap of 10 LCI 9 with one end firmly fixed in the holes of the first tube plate 2 and the other passed through annular openings 8 to the housing 1 in the third zone of the tube plate 4 connected heated fluid discharge pipe 11. The housing 1 is also provided with a compensator 12 thermal extensions.

The heat exchanger operates as follows.

Combustion products leaving furnaces (flue gases) pass from inside up to heat exchanging tubes 5, from the bottom up, not changing its direction. Due to heat transfer, the supplied air moving in the annular space is heated. In this case, the walls of the heat exchange tubes 5 and the housing 1 are heated to different temperatures, which causes their respective elongation to vary. The thermal extensions of the housing 1 are activated by the compensator 12. Due to the free passage of the heat exchanging pipes 5 through the sleeves 9, it is possible to freely extend the thermal expansion of each of them. For aerodynamic compaction

02

 10 between vt.pklmi 9 nts with p. Exchange pipes 5 air inlet into the working annular tube of the heat exchanger of the properties. See through

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the inlet compartment of the ring and ring openings 8. At the same time, the ioztsuk, puffing out with continuous ring-shaped jets, flows onto the outer surfaces

heat exchange tubes and due to a sharp decrease in pressure at the root of the jets cut off the gaps 10 from the working annular space, thus achieving aerodynamic uplift. The aggravated air, having passed the annular space, exits the heat exchanger (through pipe 11.

The possibility of free replacement of the heat exchange tubes 5 and tube plates 2 and 3 ensures that the heat exchanger is operated i and jj. At high temperatures, the air intake and the organization of air intake by means of annular jets surrounding the heat exchanger tubes 5, ensure aerodynamic Bykh gap clearances 10, which allow free movement: the shaft of the tubes 5.

Ф орм ул а and 3 о б р е т п и и

A heat exchanger comprising a housing. supplied with at least j - remch

tube plates, in the holes of which the vertical is missed, which are heat-exchange tubes, with the ps-ditch and tube plates forming between them an inlet compartment, and

to the source of the fires

between, y (the holes of the BTOs are tuggsh, p.-ki and pipes are made by KC1, ppech1; - the opening openings, about t and a and r i m i and - so that, in order to improve the reliability by IVOMIICHI germicheskih about the elongation of the pipes:., -: - fully equipped with cylindrical sleeves installed in the inlet compartment and covering the heat of the blender:, 1e

The pipes, bushings, with one end are tightly fixed in the holes of the first tube plate, and the other end is nigelt through the said annular openings.

Claims (1)

A heat exchanger comprising a housing provided with at least | pipe tubes, in the openings of which vertical heat transfer pipes are passed, the first and the second tube boards forming an inlet compartment connected to the source of the heated medium, and made between the holes of the second tube deck and the pipes annular outlet openings, about l and h ?.> u and the fact that, in order to increase reliability by improving compensation for thermal elongation of pipes, from. l.? - is fully equipped with cylindrical bushings installed in the inlet compartment and covering the heat transfer pipes, with the bushings at one end tightly fixed in the holes the first tube plate, and the other passed through said annular openings.