DE202005005302U1 - air condenser - Google Patents

Abstract

Air condenser (1) for condensing vapor by means of air, comprising:
a steam supply line (2),
at least one upwardly directed tube bundle (6), to which steam to be condensed can be fed,
a condensate drainage for the removal of condensed steam,
a fan (11) for transporting air to the tube bundle (6),
characterized,
in that the tube bundle (6) is arranged underneath the ventilator (11) in a side wall (18) of the air condenser (1), and in that a plurality of tube bundles (6) are arranged such that they have a closed jacket (13) which surrounds them on all sides forming in the vertical extending polygon.

Description

The The invention relates to an air condenser for the condensation of steam by air.

It It is known that air condensers arranged parallel to each other Tube elements, so-called tube bundles, have, which is supplied to condensing vapor. Usually are ever two rows of such tube bundles arranged so that they gable at an acute angle to each other are inclined. In the side view they form a triangular contour, At the base of a fan for the supply of air to the tube bundles provided is. The fan cools the air compared to the steam to the tube bundles so transported that a heat exchange takes place, resulting in the tube bundle Steam can condense on the inner edge of each tube.

It However, it has been shown that air condensers with such triangular Construction at large required cooling capacity a large space requirement as well as a big one height need what requires a complex substructure. There is also air condensers a difficulty in that, a uniform distribution of the steam in every tube bundle to achieve.

Of the Invention is therefore the object of an air condenser to create, with which in a small footprint and cost-effective design a size cooling capacity with even distribution of steam in the tube bundles is economically attainable.

The Task is solved by that an air condenser is used, which comprises: a Steam supply line, at least one upwardly directed tube bundle fed to condensing vapor is a condensate drainage for the discharge of condensed vapor, a fan for air transport through the tube bundle, wherein the tube bundle below the fan in a side wall of the air condenser is arranged.

By the lateral arrangement of the tube bundles in the side walls becomes on the one hand, the height of the air condenser significantly reduced. On the other hand, the tube bundle weights not big anymore height, but arranged in a relatively low height, so that a lighter support structure of the entire air condenser possible which is economically advantageous. In addition, by the arrangement the tube bundle in the side walls the air condenser given a larger available area for tube bundle as in a triangular arrangement, in which only the triangular legs are covered with tube bundles. Consequently can in a small footprint a greater cooling capacity of the air condenser be achieved.

According to one another embodiment are several tube bundles arranged so that they have a closed jacket on all sides form in the form of a vertically extending polygon. This is advantageous, since thus the entire lateral surface above of the ground for Used tube bundle can be.

According to one another preferred embodiment is the tube bundle inclined in a side wall at an angle of ± 30 ° to the vertical. has the slope gives a negative value, for example -30 °, on a funnel-shaped one Construction of the air condenser, wherein the cross-sectional area at the bottom End (bottom) is smaller than at the top (roof). This allows the installation of a fan that has a larger diameter than the stand area of the air condenser. Thus, with minimal footprint a maximum big fan be provided, so that a maximum cooling capacity of the air condenser is reached. Within this angular range of ± 30 ° are the required Arrangements for a stable construction of the associated scaffolding structure still relatively low, leaving a scaffolding structure still inexpensive feasible is.

According to one another preferred embodiment the invention is the vapor to be condensed via a riser to a upper distribution chamber and from there to at least one of the tube bundle transportable. Such a structure allows that thermal expansion due to temperature differences between riser and tube bundles better can be compensated as in a construction in which without riser the steam directly the tube bundles supplied becomes. The construction, which has a "U" shape, can have larger deformations perform elastically.

According to one another preferred embodiment The invention is at least of a condensate collection chamber below one of the tube bundles an upwards directed residual steam pipe provided for the condensation of residual steam. The residual steam pipe serves to separate steam and inert gases.

According to one another preferred embodiment The invention is a residual steam at the top of the residual steam pipe for the discharge of the inert gases including the non-condensed Restdampfes provided.

According to a further preferred embodiment of the invention, the surface outside the tube bundle is sealed airtight. This is sicherge ensures that the air transported by the fan only flows through the tube bundles.

According to one another preferred embodiment According to the invention, the fan is provided with a diffuser. This allows an increase in efficiency of the fan.

following the invention will be described with reference to embodiments shown in the drawings further described. They show schematically:

1 a front view of a first embodiment of the air capacitor according to the invention;

2 a horizontal cross section of in 1 illustrated first embodiment of the air capacitor according to the invention along the line AA; and

3 a perspective view of a second embodiment of the air capacitor according to the invention.

How out 1 and 2 is apparent, the air capacitor of the invention 1 via a supply line 2 Steam supplied. The steam flows through one or more risers 3 upwards and distributed over distribution lines 4 in a respective distribution chamber 5 , It should be noted that in 2 only one riser is shown. The distribution lines are in 2 indicated only schematically; they can become the distribution chamber 5 fan out further or divide into several lines.

The distribution chambers 5 are arranged in the upper region of the air condenser. Below the distribution chambers 5 are tube bundles, which schematically with the reference numeral 6 are shown. Per side wall 18 can according to the diameter of the fan 1 . 2 or more tube bundles may be provided. The hot steam in the tube bundles condenses through the heat exchange with the air flowing past the tubes.

The fluid condensed in the tube bundles runs down the tube walls and collects in a condensate collection chamber 7 , which is arranged below a tube bundle.

From the condensate collection chamber 7 leads a condensate drainage 20 outward from the air condenser.

The remaining residual steam and the inert gases are in a residual steam pipe 8th from the condensate collection chamber 7 led upwards. The tube bundle 6 thus represents a primary part, while the residual steam pipe 8th forms the secondary part. Furthermore, it is obvious that the secondary part 8th may also be formed as a tube bundle.

The secondary part 8th becomes like the primary part 6 from the airflow 12 flows around, so that it is possible that still a portion of the residual steam in the secondary part 8th condensed. This proportion flows into the condensate collection chamber 7 back, while the uncondensed portion including the inert gases at the upper end of the abutment 8th in a residual steam chamber 9 arrives. From there, residual steam and inert gases are passed through a residual steam line 10 , which is shown schematically as a dashed line in 1 is shown by the air condenser 1 dissipated.

A secondary part 8th can be in each tube bundle of the air condenser 1 be provided. Thus, an air condenser also has several residual steam chambers 9 on, from which residual steam is discharged to the outside. It is convenient, the residual steam lines 10 that of the respective residual steam chambers 9 go off, pair with each other.

At the in 1 and 2 illustrated air condenser 1 are the tube bundles in the sidewalls 18 arranged. Several side walls form a closed jacket on all sides 13 in the form of a vertically extending polygon, represented in the figures in the form of a hexagon. The previously for a side wall 18 described arrangement is repeated in the adjacent thereto side walls, so that a symmetrical structure of the air capacitor 1 is reached. By means of the fan 11 Thus, a uniform passage of air through all the side walls can be achieved. The previously described polygon construction of the jacket 13 can also be varied so that the corners are rounded, so that in the plan view of the air condenser 1 a round or nearly circular geometry of the shell 13 is reached. This can ensure a uniform flow through the tube bundle 6 be beneficial.

To the suction effect of the fan 11 To increase this can be done with a diffuser 19 be provided.

In 3 a second embodiment of the invention is shown. It shows schematically a hexagonal air condenser 1 However, unlike the first embodiment has no riser for the supply of steam. The steam is here fed directly into the upper region of the Luftkon capacitor, where he from the distribution chambers 5 can get to the (not shown here) tube bundles. This may be advantageous if in the upper region of an air condenser, a steam supply line from an upstream industrial Plant already exists, allowing a diversion of the steam in the lower part of the air condenser 1 would only be an unnecessary detour.

Claims (8)

Air capacitor ( 1 ) for condensing steam by means of air, comprising: a steam supply line ( 2 ), at least one upwardly directed tube bundle ( 6 ), to which condensing steam can be fed, a condensate drain for the discharge of condensed steam, a fan ( 11 ) for air transport to the tube bundle ( 6 ), characterized in that the tube bundle ( 6 ) below the fan ( 11 ) in a side wall ( 18 ) of the air condenser ( 1 ), and that a plurality of tube bundles ( 6 ) are arranged so that they form a closed jacket ( 13 ) in the form of a vertically extending polygon. Air capacitor ( 1 ) according to claim 1, characterized in that the tube bundle ( 6 ) in a side wall ( 18 ) is inclined at an angle of ± 30 ° to the vertical. Air capacitor ( 1 ) according to one of claims 1 or 2, characterized in that the steam to be condensed via at least one riser ( 3 ) to an upper distribution chamber ( 5 ) and from there to the tube bundles ( 6 ) is guided. Air capacitor ( 1 ) according to claim 3, characterized in that for each tube bundle ( 6 ) own riser is present. Air capacitor ( 1 ) according to one of claims 1 to 4, characterized in that of a condensate collecting chamber ( 7 ) below one of the tube bundles ( 6 ) at least one upwardly directed residual steam pipe ( 8th ) is provided for the condensation of residual steam. Air capacitor ( 1 ) according to claim 5, characterized in that at the upper end of the residual steam pipe ( 8th ) a residual steam discharge ( 10 ) is provided for discharging uncondensed residual steam. Air capacitor ( 1 ) according to one of claims 1 to 6, characterized in that the surface outside the tube bundle ( 6 ) is hermetically sealed. Air capacitor ( 1 ) according to one of claims 1 to 7, characterized in that the fan ( 11 ) with a diffuser ( 19 ) is provided.