DE102007012539A1 - condensation plant - Google Patents

Abstract

Condensing plant, with heat exchanger elements placed above fans, wherein the fans are held in frame-like fan fields (1), which are supported by a support frame (2). The support frame (2) comprises a plurality of supports (3), wherein at least one support (3) extends vertically to the fan fields (1) extending column (5) and above the column (5), opposite the fan field (1) and the Column (5) has obliquely extending head struts (6) which extend to the corners (7) of a fan field (1).

Description

The The invention relates to a condensation plant with the features in Preamble of claim 1.

condensation plants for cooling turbine or process steams are in the field of energy engineering in very large dimensions for many Years in use. In the known designs, fans suck down cooling air and press these by roof-shaped arranged heat exchanger elements. The heated cooling air flows upwards. Below the fan There must be sufficient free space so that the fans, for example at a height be raised by 20 meters on a supporting scaffold. This acts it is a steel construction of columns and connecting the columns Coupling rods. The coupling rods are required because the supports are relatively slim and without transverse support reach a non-permissible kink length would. Also serve the coupling rods for the removal of the horizontal forces caused by wind and earthquake in the Foundations.

It has been shown that the coupling rods by incoming wind can be vibrated, even at relative low wind speeds of 4-5 m / sec. Coupling rods such Systems have lengths from above 10 m and are made of tubes or I-profiles.

The Width of a fan field corresponds approximately to the length the coupling rods, the one length from Z. B. 11-13 m have. The at the corners of such a fan field to be absorbed by the supports Loads are correspondingly large, so that in a condensation plant with 5 × 7 square fan fields a total of 6 × 8 Rows of columns, d. H. a total of 48 columns must be provided. Each of these supports is over coupling rods with neighbor supports connect to. The material used for such scaffolds is significant. Also the Assembly costs are very high.

Of these, Based on the object of the invention, a condensation plant to show with the features in the preamble of patent claim 1 which with regard to the scaffold a Reduction of material usage and a reduction of assembly costs allowed.

These Task is with a condensation plant with the characteristics of Patent claim 1 solved.

advantageous Further developments of the inventive concept are the subject of the dependent claims.

at the condensation plant according to the invention comes one completely novel support structure for Insert in which the vertical supports outside the corners of the fan fields are placed. This is possible because at least one Support one vertical to the fan fields extending column and above the column then, across from the fan field and the pillar aslant extending headstays, extending to the corners of a fan field extend. The loads introduced from the corners into the support structure are therefore not derived directly vertically down, but first in the oblique extending head struts, which in turn on the Support column, which the lower height section every support forms. Every pillar picks up the load from at least two corners of a fan field. In this way Is it possible, the number of columns to reduce considerably.

For example are at an arrangement of 2 × 3 fan fields so far 3 × 4 = 12 columns required. With only one support in the middle of a fan field and four headstays, each leading to the four corners of a fan field In this case, there are only six supports in total and thus even only six foundations required. By reducing the Number of columns can also be a reduction of the previously required horizontal extending coupling rods respectively. With the reduction of the material input is also a reduction associated with the assembly work. At the same time is below the fan fields a greater freedom to disposal, which can contribute to improving the air intake into the fans.

For as possible uniform load absorption it is appropriate, the Pillar in the middle of a fan field to arrange, d. H. where the diagonals are between two opposite corners a fan field to cut. In this configuration, the four headstays have a pillar the same length. in principle but it is also possible the columns so to speak closer together. at an arrangement of 2 × 2 Fan fields is For example, conceivable that the four columns off-center of the respective fan field are placed, the mutual distance of the columns either reduced can be or even be enlarged can, if a rather central or rather marginal support is desired.

In the above-described configuration, the pillars are spaced from the side bars connecting the corners of a fan panel and the longitudinal edges of a fan panel, respectively. But it is also conceivable that a single column is arranged below a side strut of a fan field, in the case that the column has only two head struts, which each extend to the ends extend the side strut, below which the column is arranged. The support in this case is somewhat Y-configured. Such a Y-shaped support is in itself a pendulum support and can therefore be used only in connection with other supports to give the scaffold the necessary rigidity. Preferably, such Y-shaped supports are used only if further supports are provided with four head struts.

Prefers is at least one corner of a fan field over four Supported headrests. This means that this corner is the center of a fan array of 2 × 2 fan fields is, with each fan field over a support supported is at which the column arranged in the middle region of a fan field is and where each of the pillars has four headstays that extend to the four corners of each fan field extend. By having the common corner of the four fan panels over four head struts supported is, so all head struts are indirectly connected, receives the support structure the necessary rigidity. Especially with large condensation plants with for example 5 × 7 fan fields are at least the four corner-mounted fan fields on the above To support the way d. H. with four supports to be provided, each having four headstays.

to Reduction of the buckling length the head struts can these over Coupling struts to be interconnected. The coupling struts in the area of Head struts are much shorter as the coupling rods between two adjacent columns.

Around Horizontal loads, in particular to be able to absorb wind loads, is provided that adjacent columns via cross struts with each other get connected. The cross struts may preferably be diagonal between two adjacent columns extend. It is basically possible that the cross struts from the bottom of the columns, d. H. from the basics, to the beginning of the headstays extend without the accessibility the condensation plant is affected below the fan fields. The reason for this is that only adjacent columns via cross struts with each other are connected under adjacent columns, typically the columns of a Four-way arrangement to understand about which four fan fields in a 2x2 formation supported become.

The Invention is described below with reference to the drawings embodiments explained in more detail. It demonstrate:

1 a perspective view of a support structure of a condensation plant;

2 the fan fields of the condensation plant of 1 in the plan view;

3 the supporting structure of 2 from the direction of arrow III;

4 the supporting structure of 2 from the direction of arrow IV;

5 a perspective view of a support with a fan field and

6a) -F) differently configured fan array arrangements with theoretically possible variants of scaffolds.

The 1 and 2 show in perspective view and in plan view an arrangement of 5 × 7 rectangular fan fields 1 , which form a platform for receiving fans, not shown. Above this platform, roof-shaped heat exchanger elements are placed in several rows next to each other, corresponding to the width of the fan fields, which serve to cool turbine or process vapors. To improve clarity, the representation of the heat exchanger elements is omitted.

It can be seen that the fan fields 1 from a scaffold 2 be worn, the several supports 3 includes, each on foundations 4 are stored. Based on 3 - 5 it becomes clear that the supports 3 are not formed by a vertically extending from bottom to top straight pillars or posts, but each having a lower and an upper height portion, wherein the height portions differ in their configuration from each other. The lower height section is one vertical to the fan fields 1 running column 5 extending over about 50% of the total length of the prop 3 extends. At the top of the column 5 close four head struts 6 on, which is to the corners 7 a fan field 1 extend. The head struts 6 therefore run obliquely or at an angle to the column 5 and also at an angle or at an angle to the fan field 1 , Due to the inclination of the head struts 6 is the pillar 5 at a distance from the corners 7 a fan field 1 interconnecting main beams 8th the platform. Based on 2 it can be seen that the columns 5 each in the middle of a fan field 1 are located. This is what the supports are 3 concerning her through the pillar 5 extending vertical axis formed rotationally symmetrical or double symmetrical, since the fan field is rectangular.

A stiffening learn the head braces 6 through horizontally extending coupling struts 9 , the in a horizontal direction, ie parallel to the fan field 1 , approximately in the middle between two adjacent headstays 6 extend. As a result, the buckling length of the head struts is reduced with the result that the head struts can be made slimmer.

Based on 3 and 4 It can be seen that not only the head struts 6 are additionally connected to each other, but also adjacent columns 5 , between which diagonal transverse struts 10 are arranged. The cross struts 10 each run from the bottom of a column 5 to the upper end of the adjacent column 5 , so that there is a cross-shaped stiffener.

In 2 it can be seen that not below each fan field 1 a prop 3 is arranged. The illustrated fan array is so large that it is sufficient, the four corners arranged fan fields 1 with a central support 3 to provide. The of the supports 3 enclosed corner 7 The abutting fan fields in this case by four head struts 6 supported. As a result, in each case in the corner regions of the platform a particularly solid and rigid support structure is created. Thus, considerable savings can be made in the inner regions of the condensation plant, ie in the region of the fan fields remote from the corners. It can be seen that in the inner areas altogether only four supports 3 are provided. Between these paired columns 3 there are fan fields 1 who do not have their own support 3 exhibit. Because the fan fields 1 however, all are interconnected, there is an indirect support on the adjacent fan fields 1 , When designing the support structure is therefore important to ensure that at least one head strut 6 a prop 3 on every corner 7 the fan fields is arranged. Under which of the abutting fan fields 1 the mainstay 5 is arranged is irrelevant.

Based on 3 and 4 It can be seen clearly that the space below the fan fields is much larger than in comparable arrangements where below each corner 7 the fan fields 1 a vertical support reaches down to the ground. Instead of 6 × 8 = 48 conventional supports only 20 columns are used in the fan field shown by way of example. The number of foundations is correspondingly low 4 ,

6 shows six exemplary selected embodiments of fan arrays. Basically, the fan fields 1 arranged in two rows to ensure sufficient stability of the support structure can. The smallest unit of a fan field arrangement therefore comprises 2 × 2 fan fields ( 6a) ). This arrangement can be expanded as desired. In all embodiments, the basic principle is maintained that at least four adjacent fan fields 1 via central supports 3 should be supported. Due to this requirement is in 6b) a support of all fan fields 1 although theoretically the middle two supports 3 could be omitted.

In 6c) On the other hand, due to the above-described design rule, it is possible for the first time to provide supports 3 in the third column of fan fields 1 to be omitted and the outgoing of these loads on the supports 3 neighboring fan fields 1 transferred to. The same applies to the embodiments of 6d) and f).

A special feature is the embodiment of the 6e) , In this variant is in the range of the middle four fan fields 1 a prop 11 provided, not at a distance from the main carrier 8th but below the main carrier 8th a fan field 1 is arranged. The support 11 therefore has only two head struts 6 that are to the ends 7 of the main vehicle 8th or the corners 7 the fan fields 1 extend. This prop 11 is therefore a Y-shaped pendulum support. Pendulum movements of this support structure are excluded, however, since in addition two quadrangular arrangements of columns 3 are provided.

Reference numerals:

1

fan box

2

scaffold

3

support

4

foundation

5

pillar

6

head brace

7

corner

8th

main carrier

9

coupling strut

10

crossmember

11

support

Claims (10)

Condenser, with heat exchanger elements placed above fans, with fans in frame-type fan fields ( 1 ), which are supported by a scaffold ( 2 ) supporting several supports ( 3 . 11 ), characterized in that at least one support ( 3 . 11 ) one vertical to the fan fields ( 1 ) extending column ( 5 ) and above the column ( 5 ), opposite the fan field ( 1 ) and the column ( 5 ) oblique head struts ( 6 ), which extend to the corners ( 7 ) of a fan field ( 1 ). Condenser according to claim 1, characterized in that the column ( 5 ) at a distance from the corners ( 7 ) of a fan field ( 1 ) interconnecting main carriers ( 8th ) is arranged. Condensation plant according to claim 2, characterized in that the column ( 5 ) in the middle of a fan field ( 1 ) is arranged. Condenser according to one of claims 1 to 3, characterized in that the column ( 5 ) four head struts ( 6 ) extending to four corners ( 7 ) of a fan field ( 1 ). Condenser according to claim 1, characterized in that the column ( 5 ) below a main carrier ( 8th ) of a fan field ( 1 ) is arranged. Condenser according to claim 4, characterized in that the column ( 5 ) two head struts ( 6 ), which extend to the ends ( 7 ) of the main carrier ( 8th ). Condensation plant according to one of claims 1 to 6, characterized in that at least one corner ( 7 ) of a fan field ( 1 ) over four head struts ( 6 ) is supported. Condenser according to one of claims 1 to 7, characterized in that adjacent head struts ( 6 ) a support ( 3 . 11 ) via coupling struts ( 9 ) are interconnected. Condenser according to one of claims 1 to 8, characterized in that adjacent columns ( 5 ) via cross struts ( 10 ) are interconnected. Condensation plant according to claim 9, characterized in that the transverse struts ( 10 ) diagonally between two columns ( 5 ).