EA007892B1 - Support for a tube bundle - Google Patents

Abstract

A support for a bundle of tubes, which support comprises a plurality of transverse support plates spaced apart along the direction of the tubes to be supported, and which support plates are provided with openings for accommodating the tubes, wherein the plurality of support plates comprises segmental baffle support elements and expanded metal support elements.

Description

The present invention relates to a support device for a tube bundle, in particular, to a support device containing a large number of transverse support plates, known as segmented partitions, spaced apart from each other along the length of the pipes for which support is required.

State of the art

The main scope of the tube bundle is shell-and-tube heat exchangers. Shell-and-tube heat exchangers contain a cylindrical casing, inside which a tube bundle is placed, which extends in the direction of the longitudinal axis of the casing. Such a tube bundle, also called a tube bundle, can, in particular, be a bundle of parallel pipes.

As is well known, a shell-and-tube heat exchanger is a recuperative heat exchanger in which heat is transferred through the pipe walls from the fluid flowing through the tubes of the tube bundle (through the tube space) to the fluid passing through the zone located on the outside of the tubes (the annulus of the heat exchanger ) A detailed description of the design of shell-and-tube heat exchangers can be found, for example, in the reference book: Retgu'k Siesh1sa1 Epdepegaa 'Napbok (Chemical Engineering Handbook. Perry), 6th edition, 1984, MsSga \\ - NP1 1ps, pp. 11-3 - 1121 The tube bundle is the most important part of this heat exchanger. The ends of the pipes are attached to the tube plate. The heat exchanger may contain two tube boards, one from each end of the cylindrical casing, or one single tube plate mounted on one end of the cylindrical casing, if this heat exchanger is made with ϋ-shaped pipes.

It is understood that intermediate pipe sections (located between the boards) must be maintained, for example, to prevent damage due to vibration of the pipes during operation of the heat exchanger caused by the flow of fluid. To support the intermediate portions of the pipes, the pipe support structure typically comprises transverse support plates installed at a defined distance along the axis. Base plates are sometimes also referred to as base plates or base walls.

The present invention relates to heat exchangers containing, as support plates, so-called segmented partitions. Some types of segmented septa are discussed in the Perry reference book. Known segmental partitions are made of round metal plates in which a circular segment (window) is cut out, and a large number of through holes through which pipes can pass are punched or cut out in the remaining part of the plate. Sometimes two circular segments are cut from the slab from opposite sides, for example, for using the partition in the so-called structures with two-segment partitions, or in structures in which pipes do not pass through the windows.

Segment baffles not only support the pipes, but, in addition, they affect the nature of the flow of fluid in the annulus. Therefore, the structural design of the partition is also determined based on the conditions of heat transfer. Pipe supports made in the form of segmented partitions are used when it is desirable to organize a certain number of transverse fluid flow paths in the annular space inside the casing in order to optimize heat transfer.

The design of segmented partitions can be adapted, within certain limits, to the characteristic requirements of a particular application. For example, a so-called cutout in a partition can be specially selected so that it makes up a certain percentage of the diameter of the circle that is cut off to form a segmented partition. A large cutout in the partition, in the case of a single segmented partition, provides a relatively small pressure drop, however, in this case, a relatively large part of the pipes passing through the window remain without support. Typically, it is sought to support the pipe with at least every second segmented septum, so that the maximum commonly accepted cutout in the septum is 45%.

When pipes pass through windows, their maximum length without support (unsupported pipe length) is at least two times the distance between the segment walls. Therefore, when using pipe supports in the form of segmented partitions, the number of support plates is at least twice their number, which is necessary only from the point of view of creating a mechanical support. Segmented partitions make a significant contribution to the cost of the heat exchanger, therefore, strive to provide the maximum distance between the partitions. When the length of the pipes on which they are deprived of support becomes too long, this can create problems associated with vibration.

In other designs of the heat exchanger, pipes do not pass through windows. For example, in very high vertical heat exchangers (for example, those called Texas towers and used, for example, in large-scale production processes as heat exchangers for exchanging heat between incoming and outgoing fluids), segmented walls made with one cut-out are usually installed at certain intervals segment, while the windows for the passage of fluid are alternately located on opposite sides of the partitions for

- 1 007892 implementation of the necessary flow patterns along the casing with a transverse flow around the tube bundle. Since the gap between the partitions is desirable from the point of view of the optimal organization of the flow and optimal hydraulic characteristics (in particular, the minimum pressure drop) can be much greater than the distance necessary in order to provide reliable mechanical support to prevent vibration, between segmented partitions made with one segment, place a number of additional segment support partitions, each of which is made with two windows. These additional supporting elements account for a significant cost of the cost of the entire supporting device for pipes. Japanese Patent Application Publication No. 05-296680 describes a plate serving as a support wall in which a large number of interconnected sheet metal plates are used to suppress vibration. Due to the fact that all individual strips of sheet metal must have a special profile, the cost of manufacturing such a partition is high.

SUMMARY OF THE INVENTION

An object of the present invention is to provide a support device for a tube bundle, which makes it possible to use a simpler (cheaper) mechanical support that prevents vibration from occurring in the design of the support segment pipe partitions.

In order to solve this problem, the present invention provides a support device for a tube bundle containing a large number of transverse support plates placed at intervals along the length of the pipes that need to be supported and provided with holes for the passage of pipes, and a large number of support plates contain support elements in in the form of segmented partitions and supporting elements from expanded metal sheet.

It is clear that the known segmented partitions do not have to perform some part of the mechanical support function inherent in the supporting element in the form of a segmented partition, but this can be successfully achieved using elements from expanded metal sheet. An element from such a sheet can be made at a significantly lower cost than segmented partitions, since in this case less material is used, less material is cut off and less labor is required. The present invention allows to create a support device for pipes so that its segmented partitions are located in those places where their need is due to the nature of the flow (the need to change its direction), and where they, in addition, create a mechanical support for the pipes. In addition, a mechanical support, in particular designed to prevent vibration, can be provided with the help of elements made of expanded metal sheet. It should be noted that an element of expanded metal sheet affects the nature of the flow stream much less than a segmented partition.

The present invention as a result allows much greater flexibility in the design of heat exchangers with segmented partitions. The main design parameters of the heat exchanger, such as the size of the pipes and their mutual arrangement (for example, with the arrangement of the bundle pipes along the vertices of squares or equilateral triangles), the diameter of the casing, the dimensions of the segment walls and the distance between them, can be selected in order to ensure optimal parameters, such as a flow rate, heat transfer characteristics and differential pressure, which do not adjust, based on considerations of vibration. The problem of vibration, the occurrence of which is possible, can be solved in accordance with the invention by placing inside the casing support elements of expanded metal sheet (elements similar to spacer grids of metal strips).

The term support element is used in the description of the invention and in the claims to refer to part of the base plate or the entire base plate.

Supporting elements of expanded metal sheet and in the form of segmented partitions together can form a combined base plate. For its formation, the expanded metal sheet can be placed so that it overlaps the window (s) formed in the support element made in the form of a segmented partition. Thus, mechanical support for the pipes can be provided over the entire cross section of the base plate, while the fluid can only pass through the window. Since the expanded metal sheet also imposes some restriction on the flow (which, however, is small), it may be desirable to slightly increase the size of the window compared to a window cut in a known segmented support wall.

In addition, support elements from expanded metal sheet made in the form of support plates from expanded metal sheet can be placed as an additional mechanical support between two support elements made in the form of segmented partitions.

In yet another embodiment, a segment profile may be formed from the expanded metal sheet in the base plate itself, i.e. one or more than one segment can be cut in it so that one or more windows are formed. This may be preferable in those designs in which the pipes do not pass through the windows of the segmented partitions, and in which

- 2 007892 an additional mechanical support between the segmental partition with a minimum perturbation of the fluid flow.

The published international application \ ¥ O 03/067170 describes a support device for pipes consisting solely of support elements made of expanded metal sheet. However, this publication does not address the problem of vibration that occurs in known heat exchangers with segmented partitions, and it does not disclose or propose a combined support including a support element in the form of a known segmented partition and a support element of expanded metal sheet.

Brief Description of the Drawings

The invention is further described in more detail and with reference to the drawings.

FIG. 1 is a schematic longitudinal sectional view of a first exemplary embodiment of a heat exchanger with support in accordance with the present invention.

FIG. 2 is a schematic cross-sectional view taken along line ΙΙ-ΙΙ in FIG. one.

FIG. 3 is a schematic cross-sectional view taken along line ΙΙΙ-ΙΙΙ in FIG. one.

FIG. 4 - segment support partition, schematic representation.

FIG. 5 - combined support partition formed of a support element in the form of a segmented partition and a support element of expanded metal sheet.

FIG. 6 is a schematic longitudinal sectional view of a second exemplary embodiment of a heat exchanger with a support device in accordance with the present invention.

FIG. 7 is a cross section along the line UL-UL in FIG. 6, a schematic representation.

FIG. 8 is a cross section along the line USh-USh in FIG. 6, a schematic representation.

FIG. 9 is a schematic illustration of another design of a segmented support partition.

FIG. 10 is a schematic representation of a known segmented partition intended for use as an intermediate base plate in a Texas tower.

FIG. 11 is a schematic representation of an intermediate base plate of expanded metal sheet in accordance with the invention.

FIG. 12 is a schematic longitudinal sectional view of a third exemplary embodiment of a heat exchanger with a support device according to the invention.

FIG. 13 is a schematic illustration of another support element of expanded metal sheet according to the invention.

The same item numbers are used in all figures of the drawings to refer to the same or similar structural elements.

DETAILED DESCRIPTION OF THE INVENTION

The following description of the invention is illustrated in FIG. 1-5. In FIG. 1 shows a part of a vertical shell-and-tube heat exchanger 1 in longitudinal section, and in FIG. 2 and 3 show two transverse sections along the lines ΙΙ-ΙΙ and ΙΙΙ-ΙΙΙ in FIG. 1 respectively. The heat exchanger 1 comprises a casing 3 and a bundle 5 of pipes, of which in FIG. 1, tubes 8, 9, 10, 11, 12, 13, 14 are visible. The support device for the tube bundle 5 includes four support plates 18, 19, 20, 21 shown in FIG. 1. These plates are installed at a fixed distance b ₁ from each other along the length of the pipes 8-14.

The base plates 18, 19 and 21 are conventional segmented partitions shown in enlarged FIG. 4. These segmented partitions are made of round plates 25, from which the segment is cut off to form, when they are installed inside the heat exchanger, windows, for example, windows 28. In the rest of the plate 25, holes 30 are cut out.

The base plate 20 is a combined base plate, shown in more detail in FIG. 5. The combined base plate 35 is formed of a supporting element 38 in the form of a segmented partition 38 and a supporting element 40 of expanded metal sheet, which overlaps (occupies) the window 42, left open in the supporting element 38, made in the form of a segmented partition. The support member 40 of expanded metal sheet may, for example, be welded to said support member 38 and to a rim 45 extending around window 42. This rim 45 may also be welded to element 38 as a segmented partition. In addition, the rim can be formed by the remaining (after cutting the window) part of the original circular plate from which the element 38 is formed in the form of a segmented partition, for example, by milling. An expanded metal sheet is a well-known material with a structure of slots (cells) obtained by stretching the sheet material in which the slots are made. When it is stretched, a gap structure is formed from the longitudinally-transverse strips, called ribbons and ligaments. The initial location and length of the slots, as well as the amount of stretching of the material, determine the size, shape and relative position of the resulting cells, which, therefore, can be obtained so that the pipes pass through them and are optimally supported by them.

Typically, the tapes between adjacent bundles are twisted relative to the plane of the original sheet metal, which reduces the obstruction to the passage of fluid flow in the normal direction to the expanded metal sheet.

The base plate 20 mechanically supports the pipes along the entire cross section of the casing 3, i.e. in

- 3 007892 of such a plate construction also in window 42. Therefore, the length of the pipe without support, for example, the length of pipe 8 between the support plates 19 and 21, is C. For comparison, the length at which the pipe 14 is not supported, for example, the length of the pipe 14 between base plates 18 and 20 is 2 b ₁ . The present invention thus makes it possible to reduce the length of a pipe portion on which there is no support to suppress vibration. If a larger number of support plates in the heat exchanger 1 or all of them are combined support plates 35, then from the point of view of mechanics, the distance between the support plates can be increased.

Below with reference to FIG. 6-11, a second embodiment of the present invention is disclosed.

In FIG. 6 is a longitudinal sectional view of a portion of a Texas tower type heat exchanger 101, and FIG. 7 and 8 show two transverse sections along lines VII-VII and νΐΙΙ-νΐΙΙ (in Fig. 6), respectively. The heat exchanger 101 has a vertical cylindrical casing 103 and a tube bundle 105 extending inside the casing 103 through its central zone. In FIG. 6, pipes 108, 109 and 110 are visible. The Texas tower may, for example, have a height of 24 m and a diameter of 2.5 m.

The support device for the tube bundle 105 includes five support plates 117, 118, 119, 120, 121 shown in FIG. 6 as supporting structural members. These plates are located at a certain distance from each other along the length of the pipes 108-110.

The base plates 117 and 121 are conventional segmented partitions 124, as shown in enlargement in FIG. 9. Such segmented partitions are made of a circular plate 125, from which a segment is cut along line 126 so that when the corresponding plates are installed in the heat exchanger 101, windows 127, 128 are formed. These windows, as shown, are located on opposite sides of the heat exchanger. In the rest of the plate 125, holes 130 are cut out in accordance with the size and arrangement of the pipes 105. Moreover, there are no holes in the plate part 131 opposite to the window, since the design of the heat exchanger 101, as shown in FIG. 6 is a so-called structure without pipes passing through windows.

The distance b ₂ between the segmented partitions is chosen so that the fluid flow is optimized and passes through the windows 127 and 128, thereby crossing the tube bundle 105. The typical value of L ₂ is 1.5 m. If the distance L _{2 is} too large to prevent vibration of the pipes, in this case, additional intermediate base plates, like the plate 133 shown in FIG. 10. The plate 133 is a segment support wall, which is made with two segments cut from opposite sides and provided with holes 134 for pipes. Such additional intermediate base plates can be mounted, for example, at the same distance as shown for plates 118, 119, 120, so that these windows are aligned with windows 127 and 128.

In the embodiment illustrated in FIG. 6-8, the intermediate base plates 118, 119 and 120 are made of expanded metal sheet, similar to the plate 135 shown schematically in FIG. eleven.

The plate 135 is formed by a sheet 136 of expanded metal sheet and is made in two segments, the sheet 136 being welded to the support ring 138 and the support strips 140 so that windows 142 and 143 are formed as a result. The manufacturing cost of the support plate 135 may be much smaller than the conventional intermediate plate 134 shown in FIG. 10.

Next, with reference to FIG. 12, 13, a third embodiment of the invention is disclosed.

An example is a horizontal heat exchanger 201 with a casing 203, within which a tube bundle 205 extends. In FIG. 12 shows a part of a longitudinal section, and it is therefore understood that the heat exchanger can be much longer and that more support plates can be installed in it than shown in the drawing. Tube bundle 205 includes pipes 208, 209, 210, 211, 212, 213, and 214. In this figure, end sections of pipes with tube plate are not displayed.

The pipes are supported by segmented partitions 218, 219, 220. As an additional support against vibration of the pipes, support plates 221, 222 of expanded metal sheet are placed. Supporting elements in the form of a segmented partition and expanded metal sheet are alternately mounted at a fixed distance along the length of the pipes 205. The distance between adjacent segmented partitions, for example, partitions 218 and 219, is equal to b3.

The support elements 218, 219, 220 in the form of segmented partitions are similar to the partitions shown and disclosed with reference to FIG. 4. At half the distance between adjacent segmented partitions, a base plate of expanded metal sheet similar to the plate 235 shown in FIG. 13. Plate 235 can be easily manufactured, for example, by cutting an expanded metal sheet to a circular profile, for example, using a laser, and welding it to the support ring 245.

Base plates 221, 222 of expanded metal sheet serve to prevent vibration of the pipes between the segmented partitions. The maximum length of the pipe section without support, for example, pipe 214, is L ₃ , which corresponds to the gap between adjacent segmented partitions. In the absence of support elements from expanded metal sheet, the length of the pipe without support may be twice as large as the distance between adjacent segmented sections

- 4 007892 births. Thus, the present invention allows you to choose the distance between adjacent segmented walls more than in the case when the support device for pipes consists only of segmented walls. In this case, the septum partitions can be placed so that the optimal flow of the medium in the annular zone inside the casing and the optimal heat transfer are ensured, and the total cost of the supporting device for pipes can be minimized.

However, in some applications, taking into account the vibration of the pipes may impose a restriction on the minimum distance between the segmented partitions. An example would be the case when it is desirable to maximize the transverse flow of a fluid stream in a heat exchanger to ensure maximum heat transfer in a given volume of the heat exchanger. In this case, segmented partitions with a minimum notch are used, and it is desirable to minimize the distance between the partitions. Such a solution causes a large pressure drop, and, in addition, the possibility of vibration of the pipes, despite the relatively small distance between the segmented partitions. In this situation, it would be necessary to first increase the distance between the partitions and, if possible, increase the dimensions of the heat exchanger. However, using the present invention, using additional support plates of expanded metal sheet, the vibration problem can be solved. Although the cost of the supporting device for pipes in the heat exchanger increases slightly due to the use of additional supporting elements from expanded metal sheet, the total cost of the heat exchanger can be reduced, since a smaller casing can be used.

It is understood that the present invention can be equally applicable to both horizontal and vertical heat exchangers.

Base plates may be mounted inside the enclosure in any suitable manner. A known method of mounting segmented partitions is to use dividing rods parallel to the pipes and welded to the casing and to the segmented partitions. Such rods can be welded in one way or another to the support ring of support elements from expanded metal sheet.

For many applications of the present invention, support elements of expanded metal sheet have suitable cells with a size sufficient to allow pipes to pass through them so that each pipe is supported on four sides in the absence of gaps. The size of the cell in this case should typically be such that it is at most 10% larger than the diameter of the pipe that can pass through this cell. Such a cell size is, for example, preferred for the exemplary embodiments discussed with reference to FIG. 1 and 12, where preferably each support member of expanded metal sheet supports the pipes to a sufficient degree.

At the same time, it is obvious that expanded metal sheets with such large cells can be used that pipes of different diameters can pass through them. In this case, the various successively placed expanded metal sheets are suitably arranged relative to each other (across the cross section of the casing) so that the pipes are supported by them from all sides, for example, when using intermediate support elements in the structural embodiment described with reference to FIG. 6. Such suitable structures formed from various expanded metal sheets are disclosed in international application XVO 03/067170. Other suitable designs, types of expanded metal sheets, arrangement and shapes of cells formed at such a location are described in European Patent Application No. 03077463.2, which is not published on the date of initial filing of this application (on the priority date of the present invention).

Claims (5)

CLAIM 1. Supporting device for a bundle of pipes containing a large number of transverse support plates placed at a distance from each other along the length of the pipes to be supported and provided with openings for passing pipes through them, with a large number of supporting plates being supporting elements in the form segment partitions and supporting elements of prosechnyvyazhny metal sheet. 2. The support device according to claim 1, in which a large number of support plates includes a combined support plate consisting of a support element in the form of a segmental partition and a support element of expanded metal drawing sheet. 3. The support device according to claim 2, in which the support element of the expanded metal sheet is located so that it overlaps the window formed between the support element in the form of a segmental partition and the outer circumference of the corresponding diameter. 4. The support device according to claim 1, in which at least one of the supporting elements of the metal sheet of the protruded metal sheet forms a support plate installed in the gap between two support plates made in the form of segment partitions. - 5 007892 5. The support device according to claim 4, in which the intermediate support element of expanded metal sheet forms a segmented support plate.