CN100538241C

CN100538241C - air-cooled condenser

Info

Publication number: CN100538241C
Application number: CNB2006100720366A
Authority: CN
Inventors: 米歇尔·沃琪; 菲利普·纳格尔
Original assignee: SPX Cooling Technologies GmbH Ratingen
Current assignee: SPG Dry Cooling Belgium SPRL
Priority date: 2005-04-04
Filing date: 2006-04-04
Publication date: 2009-09-09
Anticipated expiration: 2026-04-04
Also published as: CA2541503A1; EP1710524B1; CN1847765A; US20060243430A1; EP1710524A1; DE202005005302U1; KR20060106900A; CA2541503C; JP2006284171A; JP5400263B2; ZA200602732B

Abstract

A kind of air-cooled condenser (1) that is used for by air setting steam, described air-cooled condenser comprises: steam suppling tube line (2); The upwards vessel cluster (6) of guiding of at least one, the steam that is about to be condensed supplies to this vessel cluster; Condensate discharge portion is used for the discharging of condensed steam; Fan (11) is used for air is transferred to vessel cluster.Vessel cluster (6) is set at the below of fan (11), is positioned at the sidewall (18) of air-cooled condenser (1); And a plurality of vessel clusters (6) are arranged in the following manner: they extend to form the enclosure (13) with the polygon form along plumb line, and the wherein said enclosure is compact arranged, so that it forms a fence on all sides.

Description

Air-cooled condenser

Technical field

The present invention relates to be used for air-cooled condenser by air setting steam.

Background technology

As everyone knows, air-cooled condenser comprises the conduit tube component that is arranged in parallel, and is also referred to as vessel cluster, and the steam that will be condensed supplies to this vessel cluster.Like this, per two row's vessel clusters are arranged to the cusp configuration that tilts mutually with acute angle usually.Observe from the side, they form triangular-shaped profile, have in its bottom to be used for the fan that the guide tube bank provides air.So that the mode of heat exchange to take place, this fan is sent to vessel cluster with the air colder than steam, thus the internal edge condensation of each conduit that steam can be in vessel cluster.

But the air-cooled condenser with above-mentioned triangular design and powerful refrigerating capacity needs very big space, also needs very big setting height(from bottom), so need expensive fabric.And the difficult point of air-cooled condenser is to distribute identical steam distribution amount to each vessel cluster.

Summary of the invention

Therefore, the purpose of this invention is to provide a kind of air-cooled condenser, it realizes powerful refrigerating capacity more economically, has very little space requirement and cost-effective design simultaneously, and steam can be distributed into vessel cluster equably.

By using this air-cooled condenser to achieve the above object, this air-cooled condenser comprises: the steam suppling tube line; At least one is the vessel cluster of transmission upwards, and the steam that is about to be condensed supplies to this vessel cluster; The condensate discharge pipe is used for the discharging of condensed steam; Fan is used for air is transferred to vessel cluster.Wherein, vessel cluster be set at fan below, and in the sidewall of air-cooled condenser.

At first, arrange the setting height(from bottom) that has reduced air-cooled condenser significantly in the side of side-walls vessel cluster.Secondly, vessel cluster no longer is provided with in the mode of high setting height(from bottom), and is provided with in the mode than low-mounting height, therefore makes the lighter supporting construction of whole air-cooled condenser become possibility, and very economical.And, compare with the triangle setting in the setting of the vessel cluster of the side-walls of air-cooled condenser, can guarantee that bigger vessel cluster can utilize the zone, during being provided with, described triangle have only leg-of-mutton side to be covered by vessel cluster.Therefore, under very little space requirement, air-cooled condenser just can be realized stronger refrigerating capacity.

According to other embodiment, a plurality of vessel clusters are arranged in the following manner: they extend to form the enclosure with the polygon form along plumb line, and the wherein said enclosure is compact arranged, so that it forms a fence on all sides.Its advantage is that the whole curved surface of the enclosure of top, bottom can be used as vessel cluster.

According to other preferred embodiment, tilt with respect to the angular range of plumb line with ± 30 ° at the vessel cluster of side-walls.This gradient can be a negative value, and for example-30 °, its result forms the funnel-shaped design of air-cooled condenser, wherein in the bottom area of section of (bottom) than little at the area of section of top ends (top).Allow to install the diameter fan bigger like this than air-cooled condenser pedestal.Therefore, under the situation of minimum dimension pedestal, also can use maximum sized fan, reach the maximum refrigerating capacity of air-cooled condenser thus.In ± 30 ° angular range, the essential parts that are used for linking frame shelf structure Stability Design relatively seldom therefore can be with low-cost implementation framework structure.

According to other preferred embodiment of the present invention, the steam of condensation can be transported to the top distributor chamber, and be sent at least one vessel cluster from the top distributor chamber by the rising trunnion.Such design is compared with steam is not directly supplied to vessel cluster through the rising trunnion design, can provide better because the compensation of the thermal expansion that the temperature contrast between rising trunnion and the vessel cluster causes.This is designed to " U " font, can carry out resilient large deformation.

According to other preferred embodiment of the present invention, be arranged on the upwards entrained steam pipe of guiding that is used for the entrained steam condensation that is provided with at least one in the collection chamber receiving condensate of a vessel cluster bottom.This entrained steam pipe is used for separate vapour and inert gas.

According to other preferred embodiment of the present invention, the entrained steam discharge portion is used to discharge the inert gas that comprises uncooled entrained steam, is arranged at the upper end of entrained steam pipe.

According to other preferred embodiment of the present invention, the exterior lateral area of vessel cluster is sealed fully.Only flow through vessel cluster with the air of guaranteeing the fan transmission.

According to other preferred embodiment of the present invention, fan has diffusion part.It guarantees to improve the efficient of fan.

Description of drawings

Fig. 1 is the front elevation of first embodiment of air-cooled condenser of the present invention;

Fig. 2 is the horizontal cross along the A-A line of first embodiment of air-cooled condenser as shown in Figure 1 of the present invention;

Fig. 3 is the stereogram of second embodiment of air-cooled condenser of the present invention.

The specific embodiment

Followingly the present invention is carried out more detailed specific description with reference to illustrated embodiment.

As depicted in figs. 1 and 2, by using supply pipeline 2, steam is fed into air-cooled condenser 1 of the present invention.Therefore, steam upwards flows by one or more rising trunnions 3, and is assigned to separately distributor chamber 5 by distribution pipeline 4.Be noted that and in Fig. 2, only shown a rising trunnion.Described distribution pipeline is just schematically shown in Fig. 2; It can also be unfolded or be divided into many pipelines that lead to distributor chamber 5.

Distributor chamber 5 is set at the upper area of air-cooled condenser.Below distributor chamber 5, be provided with vessel cluster, it is usage flag 6 in the accompanying drawings.Corresponding to the diameter of fan, 1,2 or more vessel cluster can be set on each sidewall 18.By carrying out heat exchange with the air that flows through conduit, the vapours in vessel cluster is able to condensation.

The liquid of condensation flows down along catheter wall in vessel cluster, and the collection chamber receiving condensate 7 that is set at below the vessel cluster collects.

From collection chamber receiving condensate 7, be extended with condensate discharge pipe 20 with leaving air-cooled condenser.

Entrained steam and inert gas are upwards guided to entrained steam pipe 8 from collection chamber receiving condensate 7.Like this, vessel cluster 6 is a major part, and entrained steam pipe 8 is less important part.And clearly, less important part 8 also can be used vessel cluster.

The same with major part 6, air 12 flows around less important part 8, therefore can carry out the condensation of the entrained steam of another part in less important part 8.This part vapor stream is got back to collection chamber receiving condensate 7, and the uncooled part that contains inert gas arrives the upper end of less important part 8, and enters entrained steam chamber 9.From entrained steam chamber 9, the entrained steam pipeline of representing by dotted line among Fig. 1 10 gives off air-cooled condenser 1 with described entrained steam and inert gas.

Less important part 8 can be set in each vessel cluster of air-cooled condenser 1.Like this, air-cooled condenser also comprises: a plurality of entrained steams chamber 9, entrained steam is from these entrained steam chamber 9 dischargings.Preferably make from entrained steam chamber 9 extended entrained steam pipelines 10 separately and be connected to each other.

In air-cooled condenser illustrated in figures 1 and 21, vessel cluster is set in the sidewall 18.Therefore, a plurality of sidewalls extend to form the enclosure 13 with polygonal form along plumb line, and the enclosure 13 in the diagram is hexagonal form, and the wherein said enclosure is compact arranged, so that it forms a fence on all sides.The set-up mode for sidewall 18 of foregoing description is reused in the sidewall that is adjacent, thereby reaches the symmetric design of air-cooled condenser 1.Thus, can realize even air duct by fan 11 via all sidewalls.The polygon design of the above-mentioned enclosure 13 also can be changed into the angle and exist to lead round form, and therefore in the vertical view of air-cooled condenser 1, the enclosure 13 can become circle or be almost circular geometry.It helps the evenly through-flow of vessel cluster 6.

In order to improve the getter action of fan 11, its rear portion can be provided with diffusion part 19.

The second embodiment of the present invention as shown in Figure 3, it has schematically shown hexagonal air-cooled condenser 1, but different with first embodiment be the rising trunnion that is not provided for supplying with steam.Here, steam is supplied directly onto the upper area of air-cooled condenser, and steam can arrive vessel cluster (not shown) from distributor chamber 5.If the steam suppling tube line that connects the upstream from industrial equipment is installed in the upper area of air-cooled condenser in advance, the steam diversion of its result in the lower area of air-cooled condenser 1 just becomes unwanted loop so.

Claims

1, a kind of air-cooled condenser with plumb line (1) that is used for by air setting steam, described air-cooled condenser comprises:

Steam suppling tube line (2);

The upwards vessel cluster (6) of guiding of at least one, the steam that is about to be condensed supplies to this vessel cluster,

Condensate discharge portion is used for the discharging of condensed steam;

Fan (11) is used for air is transferred to vessel cluster;

Wherein, vessel cluster (6) is arranged on the below of fan (11), is positioned at the sidewall (18) of air-cooled condenser (1); Wherein a plurality of vessel clusters (6) are arranged as: extend to form the enclosure (13) with the polygon form along plumb line, the wherein said enclosure is compact arranged, so that it forms a fence on all sides, wherein said vessel cluster (6) tilts with the angle that equals 30 ° with respect to plumb line;

Described air-cooled condenser has top ends and bottom, and wherein said fan is arranged on the described top ends, and described condensate discharge portion is positioned on the described bottom,

The area of section of wherein said bottom is less than the area of section of described top ends.

2, air-cooled condenser as claimed in claim 1 (1) is characterized in that, the steam that is about to be condensed is directed to top distributor chamber (5) by at least one rising trunnion (3), and is sent to vessel cluster (6) from the top distributor chamber.

3, air-cooled condenser as claimed in claim 2 (1) is characterized in that, the trunnion that independently rises is used to each vessel cluster (6).

4, as any described air-cooled condenser (1) in the claim 1 to 3, it is characterized in that, be arranged on and be provided with the upwards entrained steam pipe (8) of guiding that is used for the entrained steam condensation in the collection chamber receiving condensate (7) of a vessel cluster (6) bottom.

5, air-cooled condenser as claimed in claim 4 (1) is characterized in that, the entrained steam discharge portion (10) that is used to discharge uncooled entrained steam is arranged on the upper end of entrained steam pipe (8).

As any described air-cooled condenser (1) in the claim 1,2,3 and 5, it is characterized in that 6, the exterior lateral area of vessel cluster (6) is sealed fully.

7, the air-cooled condenser described in claim 4 (1) is characterized in that, the exterior lateral area of vessel cluster (6) is sealed fully.

As any described air-cooled condenser (1) in the claim 1,2,3,5 and 7, it is characterized in that 8, fan (11) has diffusion part (19).

9, air-cooled condenser as claimed in claim 4 (1) is characterized in that, fan (11) has diffusion part (19).

10, air-cooled condenser as claimed in claim 6 (1) is characterized in that, fan (11) has diffusion part (19).

11, air-cooled condenser as claimed in claim 1 (1), the area of section of wherein said bottom and described top ends provides the infundibulate geometry of air-cooled condenser.