RU118401U1 - MODULAR MULTI-WAY HEAT EXCHANGER (OPTIONS) - Google Patents

Abstract

1. Modular multi-pass heat exchanger containing interconnected heat exchange modules, including heat exchange tubes mounted in at least two rows on a rectangular tube sheet and closed by covering walls, headers for supplying and removing the coolant, and at least one bypass chamber between two adjacent rows of heat exchange tubes located in the same plane, and the covering walls of the modules are interconnected by jumpers, characterized in that the heat exchange modules are installed on the support frame one after the other sequentially in the horizontal plane and are coaxially oriented by means of centering nodes, and each jumper is integral connecting the covering walls of two adjacent heat exchange modules is made in the form of a rectangular metal strip, and the modular headers for supplying and removing the coolant, as well as the bypass chambers of the heat exchange modules, are interconnected by flange inserts. ! 2. Modular multi-pass heat exchanger according to claim 1, characterized in that the heat exchange tubes are U-shaped. ! 3. Modular multi-pass heat exchanger according to claim 1, characterized in that the heat exchange tubes are U-shaped. ! 4. Modular multi-pass heat exchanger according to claim 1, characterized in that the heat exchange tubes are V-shaped. ! 5. Modular multi-pass heat exchanger according to claim 1, characterized in that the heat exchange tubes are W-shaped. ! 6. Modular multi-pass heat exchanger according to claim 1, characterized in that each centering unit is made in the form of a stop located on the support frame, and two guide plates made with

Description

The utility model relates to heat exchange technology and can be used, in particular, for the utilization of heat of exhaust gases in order to heat the coolant (air, liquid).

Known air heater containing internally heated pipe sections, divided into two rows in a checkerboard pattern. Heated air washes the pipe sections in separate streams, for which shaped partitions are installed between them (USSR author's certificate No. 266991 for invention, class F23L 15/04, published 01.01. 1970).

A disadvantage of the known air heater is the bulkiness of the design.

The closest in technical essence and the achieved result is a four-way air heater with V-shaped tubes mounted in two rows on a rectangular tube grill and closed by covering walls, including air supply and exhaust manifolds and a bypass chamber between two rows of tubes, while the four-way air heater consists of a number of heat exchange modules mounted on top of each other in series, with the covering walls of the modules interconnected by jumpers, each of which has a bent corner profile, and the modular air supply and exhaust manifolds, as well as the bypass chambers of the modules, are interconnected by rings fastened to their internal surfaces (RF patent No. 17600 for utility model, class F23L 15/04, publ. 10.04 .2001 - a prototype).

A disadvantage of the known four-way air heater is the complexity of installation:

due to the univariate arrangement of heat exchange modules sequentially one above the other, which imposes certain requirements on the high-altitude structural characteristics of the object;

- due to the lack of centering devices on the heat exchange modules.

The technical result is the creation of a new modular multi-pass heat exchanger, providing an extension of its spatial and structural capabilities, as well as reducing the complexity and simplifying installation at the facility.

To achieve a technical result, in the first embodiment, a modular multi-pass heat exchanger containing interconnected heat exchange modules, including heat transfer tubes mounted at least in two rows on a rectangular tube sheet and covered with covering walls, collectors for supplying and discharging the heat carrier and at least , one bypass chamber between two adjacent rows of heat exchange tubes located in the same plane, and the covering walls of the heat exchange modules are connected between themselves with jumpers, according to a utility model, the heat transfer modules are mounted sequentially in a horizontal plane on the support frame and aligned with the alignment nodes, each jumper connecting the covering walls of two adjacent heat exchange modules in one piece, made in the form of a rectangular metal strip, and modular collectors for the inlet and outlet of the coolant, as well as the bypass chambers of the heat exchange modules are interconnected by flange inserts.

In a modular multi-pass heat exchanger according to the first embodiment, it is preferable:

- heat transfer tubes are U-shaped;

- heat transfer tubes are U-shaped;

- heat transfer tubes are V-shaped;

- heat transfer tubes are W-shaped;

- each centering unit is made in the form of a stop located on the support frame, and two guide plates made respectively on adjacent heat-exchange modules;

- the end walls of the inlet and outlet manifolds and the coolant bypass chamber are made of a solid metal sheet;

- stiffeners are mounted along the central axes of the rectangular tube sheet.

To achieve a technical result, in the second embodiment of a modular multi-pass heat exchanger comprising sequentially mounted heat exchange modules, including heat transfer tubes mounted at least in two rows on a rectangular tube sheet and covered by covering walls, collectors for supplying and discharging the heat carrier and, according to at least one bypass chamber between two adjacent rows of heat exchange tubes located in the same plane, and the covering walls of the modules are connected to According to the utility model, the jumpers are mounted on a support frame and are aligned coaxially with the help of centering units, each jumper connecting the cover walls of two adjacent heat exchange modules in one piece, made in the form of a rectangular metal strip, and modular collectors for supplying and discharging the heat carrier , as well as the bypass chambers of the heat exchange modules are interconnected by flange inserts.

In a modular multi-pass heat exchanger according to the second embodiment, it is preferable:

- heat transfer tubes are U-shaped;

- heat transfer tubes are U-shaped;

- heat transfer tubes are V-shaped;

- heat transfer tubes are W-shaped;

- the end walls of the inlet and outlet manifolds and the coolant bypass chamber are made of a solid metal sheet;

- stiffeners are mounted along the central axes of the rectangular tube sheet;

- each centering unit is made in the form of a pin and a sleeve located on the end walls of two adjacent heat exchange modules.

A comparative analysis of the two options for a modular multi-pass heat exchanger and prototype reveals the distinctive features of the claimed options for a modular multi-pass heat exchanger compared to the closest analogue, which allows us to conclude that the claimed utility model meets the criterion of "novelty."

The presence of distinctive features makes it possible to obtain a positive effect, expressed in the creation of two versions of a modular multi-pass heat exchanger, which provides the expansion of its spatial and structural capabilities, as well as reducing the complexity and simplifying installation at the facility.

Using the utility model as a heat exchange technique, in particular for utilizing the heat of exhaust gases to heat the coolant (air, liquid), ensures compliance with the criterion of “industrial applicability”.

The inventive modular multi-pass heat exchanger is illustrated by drawings, in which Fig. 1 shows a general view of a modular multi-pass heat exchanger according to the first embodiment, Fig. 2 shows a general view of a separate heat exchanger module of a multi-pass heat exchanger according to the first embodiment, Fig. 3 shows end walls and stiffeners mounted on the tube sheet of the multi-way heat exchanger according to the first embodiment, Fig. 4 shows the covering walls connected by jumpers in the heat exchanger according to the first embodiment; figure 5 shows the end walls of the collectors of the inlet and outlet of the coolant and the bypass chamber connected by flange inserts, according to the first embodiment; in Fig.6 shows heat exchange modules with centering nodes mounted on a support frame, according to the first embodiment; Fig. 7 shows a general view of a modular multi-pass heat exchanger according to the second embodiment; Fig. 8 shows a general view of a separate heat exchanger module of a multi-pass heat exchanger according to the second embodiment; Fig. 9 shows the end walls and stiffeners mounted on the tube sheet of the multi-pass heat exchanger according to the second embodiment , figure 10 shows the covering walls connected by jumpers in a heat exchanger according to the second embodiment; figure 11 shows the end walls of the manifolds of the inlet and outlet of the coolant and the bypass chamber connected by flange inserts, according to the second embodiment; Fig. 12 shows elements of a centering assembly located on the end walls of adjacent heat exchange modules according to the second embodiment.

The modular multi-pass heat exchanger according to the first embodiment contains interconnected heat exchange modules 1, including heat exchange tubes 2 mounted at least in two rows on a rectangular tube sheet 3 and covered by cover walls 4, collectors for supply 5 and heat transfer 6 and, at least at least one bypass chamber 7 between two adjacent rows of heat exchanger tubes 2 located in the same plane, and the covering walls 4 of the modules 1 are connected by jumpers 8, while the heat exchange modules 1 are mounted on the support frame 9 one after the other in series in a horizontal plane and coaxially oriented with the help of alignment units, each jumper 8, one-piece connecting the covering walls 4 of two adjacent heat-exchange modules 1, is made in the form of a rectangular metal strip, and modular collectors for supply and removal 5 6 of the heat carrier, as well as the bypass chambers 7 of the heat exchange modules 1 are interconnected by flange inserts 10.

In a modular multi-pass heat exchanger according to the first embodiment, it is preferable:

- heat transfer tubes 2 are U-shaped;

- heat transfer tubes 2 are U-shaped;

- heat transfer tubes 2 are V-shaped;

- heat transfer tubes 2 are W-shaped;

- each centering unit is made in the form of a stop 11 located on the support frame 9, and two guide plates 12, respectively made on adjacent heat exchange modules 1;

- end walls 13 of the collectors of the inlet 5 and outlet 6 and the bypass chamber 7 of the coolant are made of a solid metal sheet;

- along the central axes of the rectangular tube sheet 3 mounted ribs 14.

The modular multi-way heat exchanger according to the second embodiment comprises sequentially heat exchange modules 1 mounted on each other, including heat exchange tubes 2 mounted at least in two rows on a rectangular tube sheet 3 and covered by cover walls 4, collectors for supply 5 and heat transfer 6 and, at least one bypass chamber 7 between two adjacent rows of heat exchange tubes 2 located in the same plane, and the covering walls 4 of the heat exchange module 1 are connected by jumpers 8, while the heat exchange modules 1 are mounted on the supporting frame 9 and aligned with the centering units, each jumper 8, one-piece connecting the covering walls 4 of two adjacent heat exchange modules 1, is made in the form of a rectangular metal strip, and modular supply manifolds 5 and the heat transfer pipes 6, as well as the bypass chambers 7 of the heat exchange modules 1, are interconnected by flange inserts 10.

In a modular multi-pass heat exchanger according to the second embodiment, it is preferable:

- heat transfer tubes 2 are U-shaped;

- heat transfer tubes 2 are U-shaped;

- heat transfer tubes 2 are V-shaped;

- heat transfer tubes 2 are W-shaped;

- end walls 13 of the inlet 5 and outlet 6 collectors and the coolant bypass chamber are made of a solid metal sheet;

- along the central axes of the rectangular tube sheet 3 mounted ribs 14;

- each centering unit is made in the form of a pin 15 and a sleeve 16 located on the end walls of two adjacent heat exchange modules 1.

The design of both versions of the modular multi-pass heat exchanger allows for simple installation directly on the site, without resorting to the use of heavy lifting and handling equipment, and the mass of each heat exchanger module 1, not exceeding 10 tons, allows it to be delivered to any inaccessible area for mounting the general design of the modular multi-pass heat exchanger.

Installation of a modular multi-pass heat exchanger taking into account the high-rise structural characteristics of the object is as follows.

Modules 1 are pre-assembled on frame 9 in the conditions of the manufacturer for a more accurate fit of the components of a modular multi-pass heat exchanger. At the same time, on the first module 1 on the support frame 9, centering units are mounted, each of which includes a stop 11 located on the support frame 9, and a guide plate 12, respectively made on the first heat-exchange module 1. The alignment nodes allow you to uniquely orient the first module 1 on the support frame 9 when assembling a modular multi-pass heat exchanger at the facility. The second module 1 is joined to the first module 1 with the help of alignment nodes, each of which includes a stop 11 located on the support frame 9, and a guide plate 12 made on the second heat exchange module 1. At the same time, flange inserts 10 are welded to the first module. the end walls of the collectors of the inlet 5 and the outlet 6 of the coolant, and jumpers 8, welded to the covering wall 4. The following modules 1 are connected to the previous modules 1 in the same way. At the facility, modules 1 are assembled on a supporting frame 9, while the flange inserts 10 of the previous module 1 are welded to the end walls of the collectors of the inlet 5 and outlet 6 of the coolant of the next module 1, forming a cavity of the working coolant, for example, air, and the jumpers 8 of the previous module 1 are welded to the covering wall 4 of the next module 1, forming a cavity of the spent coolant, for example, combustion products of a gas turbine installation. At the final stage of installation, the base of the heat exchange modules 1 is welded to the support frame 9.

The bivariate design of the modular multi-pass heat exchanger allows its installation to be optimally carried out taking into account the high-altitude structural characteristics of the object.

Claims (16)

1. A modular multi-pass heat exchanger comprising interconnected heat exchange modules, including heat transfer tubes mounted at least in two rows on a rectangular tube sheet and covered by covering walls, collectors for supplying and discharging a heat carrier and at least one bypass chamber between two adjacent rows of heat exchange tubes located in one plane, and the covering walls of the modules are connected by jumpers, characterized in that the heat exchange modules are mounted on The frame is successively aligned in a horizontal plane and aligned with the centering units, each jumper connecting the cover walls of two adjacent heat exchange modules in one piece, made in the form of a rectangular metal strip, and the modular collectors for supplying and discharging the coolant, as well as overflow chambers heat exchange modules are interconnected by flange inserts. 2. The modular multi-pass heat exchanger according to claim 1, characterized in that the heat exchange tubes are U-shaped. 3. The modular multi-way heat exchanger according to claim 1, characterized in that the heat exchange tubes are U-shaped. 4. The modular multi-pass heat exchanger according to claim 1, characterized in that the heat exchange tubes are V-shaped. 5. The modular multi-pass heat exchanger according to claim 1, characterized in that the heat exchange tubes are W-shaped. 6. The modular multi-way heat exchanger according to claim 1, characterized in that each centering unit is made in the form of a stop located on the support frame and two guide plates, respectively made on adjacent heat exchange modules. 7. The modular multi-way heat exchanger according to claim 1, characterized in that the end walls of the inlet and outlet collectors of the coolant and the bypass chamber are made of a solid metal sheet. 8. The modular multi-way heat exchanger according to claim 1, characterized in that stiffeners are mounted along the central axes of the rectangular tube sheet. 9. A modular multi-pass heat exchanger containing sequentially mounted heat exchange modules, including heat exchange tubes mounted at least in two rows on a rectangular tube sheet and covered by covering walls, collectors for supplying and discharging the heat carrier and at least one bypass a chamber between two adjacent rows of heat exchange tubes located in one plane, and the covering walls of the modules are connected by jumpers, characterized in that the heat exchange modes The streets are mounted on a support frame and coaxially oriented using centering nodes, with each jumper connecting the cover walls of two adjacent heat exchange modules in one piece, made in the form of a rectangular metal strip, and the modular collectors for supplying and discharging the heat carrier, as well as the bypass chambers of the heat transfer modules are connected among themselves flange inserts. 10. The modular multi-way heat exchanger according to claim 9, characterized in that the heat exchange tubes are U-shaped. 11. The modular multi-way heat exchanger according to claim 9, characterized in that the heat exchange tubes are U-shaped. 12. The modular multi-way heat exchanger according to claim 9, characterized in that the heat exchange tubes are V-shaped. 13. The modular multi-way heat exchanger according to claim 9, characterized in that the heat exchange tubes are W-shaped. 14. The modular multi-way heat exchanger according to claim 9, characterized in that the end walls of the inlet and outlet collectors of the coolant and the bypass chamber are made of a single metal sheet. 15. The modular multi-way heat exchanger according to claim 9, characterized in that stiffeners are mounted along the central axes of the rectangular tube sheet. 16. The modular multi-way heat exchanger according to claim 9, characterized in that each centering unit is made in the form of a pin and a sleeve located on the end walls of adjacent heat exchange modules.