DE3016274C2 - Packing for the heat exchange of substances - Google Patents

Description

25th

The invention relates to a packing for the heat exchange of substances, in particular for Cooling of water by air in cross and / or countercurrent flow in cooling towers, consisting of stacked towers and folded plates joined together at the points of contact, the Foldings of the plates form polygonal open channels in cross section, according to DE-P3 12 93 796.

DE-PS 21 22 537 discloses a filler body which is used to generate turbulence in the heat exchange media in the walls of the vertical, parallel to the direction of flow of the media Channels spiral guide surfaces in the form of Has notches. As has been shown, these spiral notches are not sufficient for a to bring about sufficient turbulence in the flowing media to improve the heat exchange.

The object on which the invention is based is accordingly to provide means by which a stronger turbulence to improve the heat exchange between the media can be achieved can.

To solve this problem, a filler body with the features characterized in claim 1 is provided suggested.

The filler body is produced by layering and connecting plates in the usual way. An essential feature of the invention is the twisted (twisted) shape of the wall surfaces of the Flow channels, in contrast to previously known fillers, when laying corrugated or folded plates wave crest against wave valley not closed all around, but at least M are partially open so that free passages across the formed channels between adjacent plates are present and the flow media pass from channels in one plate into the adjacent plates can. This has a number of advantages. Due to the twisted course of the canal wall surfaces once a turbulent rotation of the flow is achieved, through which a continuous redeployment within the Flow medium takes place when flowing along the twisted wall surfaces, which again and again leads other particles to the active heat exchange surface. This is the case with the known designs of a filler body is not guaranteed to the same extent.

The increase in turbulence is caused by the aforementioned passage openings between channels of a plate the channels of neighboring panels are reinforced, the connection points of the panels being the draining Share media film and create additional turbulence. With a larger number of connection points the turbulence is also increased. The passages between adjacent plates also allow one conical fanning of the flow medium to be cooled, which is important if as a result of a -Disturbance in the atomization device, the medium hits the filler body as a jet

The cross-section of the channels can be of any size and triangular or polygonal. The carcassing the open channels in the plates are made in the same way as the well-known corrugated or folded Packing plates in a correspondingly designed form.

The panels can be connected point by point. According to an advantageous embodiment of the Invention can also be formed spaced-defined connecting surfaces on which the plates be connected to each other. This improves the strength of the plate connection

The beads, which are preferably inclined to the direction of flow, serve to stiffen them in the Walls of the plates advantageously made of plastic.

The channels can also be inclined to the direction of flow of the media. Usually as a drop in the The medium entering the packing body is then combined to form a film-like flow and into the Channels guided in a defined manner. The angle of inclination is arbitrary.

According to a further advantageous embodiment of the filling body according to the invention, the plates be layered so that the channels in adjacent plates cross each other. Through this There is a multitude of intersection points at which the panels are connected to one another can and cause the aforementioned increase in turbulence. On the other hand, this creates another Increased turbulence as a result of the deflection of the flow medium when it passes through the channels of a plate into the neighboring panels.

The invention is explained in more detail with the aid of the drawing. It shows

F i g. 1 an embodiment of a twisted wall surface in a perspective view,

F i g. 2 the design according to FIG. 1 in a different perspective,

3 shows a further possible embodiment of a twisted wall surface.

F i g. 4 shows the course of two contiguous twisted wall surfaces in a perspective view,

FIG. 5 shows the wall surfaces according to FIG. 4 in one different perspective views.

6 shows a plate with open flow channels and

7 shows a section of three plates assembled to form a filler body.

In the execution of the wall surface 1 according to FIG and 2 is the one side of the wall surface 1 opposite to that

opposite twisted by the angle <*. In the Execution according to Figure 3 is for the twist Chosen shape of a surface bulge.

In Fig.4 and 5 are in different perspective Views of two abutting wall surfaces 1 shown the configuration of the flow channels 2 in the plates 3 can best be seen from Fig.6. In the twisted wall surfaces 1 can inclined to the direction of flow 4 to increase turbulence extending sieves 5 be formed. Defined

Joining surfaces 6 enable laminated panels 3 to be joined, as best seen 7 can be seen. The flow channels 2 have at the embodiment according to FIGS. 6 and 7 has a kinked course, wherein, as best shown in FIG. 7 can be seen, the channels 2 in a plate 3 to those of the adjacent plate 3 run crosswise. The channel cross-section is trapezoidal in the illustrated embodiment, but can also be any other triangular or polygonal Have shape.

For this purpose 4 sheets of drawings

Claims (4)

Patent claims: t, Füllkö. ^ er for the heat exchange of Substances, especially for the cooling of water by air in cross and / or countercurrent in Cooling tunnel consisting of stacked and folded plates joined together at the points of contact, the folds of the plates form polygonal open channels in cross-section, characterized in that that the wall surfaces of the channels are twisted so that the channels are partially open to each other. 2. Filling body according to claim 1, characterized in that that spaced-apart connecting surfaces (6) are formed on the plates (3). 3. Filler body according to claim 1 or 2, characterized by inclined to the direction of flow running beads (5) in the wall surfaces (1) of the plates (3). 4. Packing body according to one of claims 1 to 3, characterized in that the plates (3) so are layered that the channels (2) in adjacent Plates (3) run crosswise to one another.