DE1300511B - Contact device for liquid and gas - Google Patents

Description

1 2

The invention relates to a contact apparatus for folds or corrugations in two adjacent ones Liquid and gas with layers under the same or approximately the same in a housing brought contact bodies, which are made with folds inclination angle to the inlet edge for the one or have corrugations provided, vertically flowing gas in the apparatus, the entire contact standing layers are composed, the 5 body is inclined in such a way that the lower support against each other and between which through- parts of the edges opposite their upper parts in going channels are present, which are simultaneously shifted from the direction of gas flow. One the gas under horizontal and from the liquid-expedient embodiment of the invention results speed under a vertical main direction of flow also in that there is a flow through in a vertical direction will. io or outlet edges of the contact body for such devices are in particular flowing gas the oblique angles of the folds or for cooling towers. According to an older suggestion of corrugations, two adjacent layers are added to these same inventor is a contact apparatus edges are of different sizes, The contact body to be used is provided with The invention is shown in the drawing in two alternatives, the folds in adjacent layers 15 management examples as a cooling tower schematically on top of one another cross. This means that the channels are put in between. It shows

see the layers a constantly varying width, F i g. 1 shows a longitudinal section through a first and

which has the consequence that the flow direction Fig. 2 is a second embodiment,

of the means during passage through FIG. 3 is a perspective view of a

Contact body changes repeatedly. A contact body.

body of this type results in a high degree of efficiency. According to FIG. 1, two contact bodies 10 are of

With respect to the intended change of state, a housing 12 surrounded, the one below such as B. the cooling of water. Has water collection tank 14. In the field of

It has been found, however, that this arrangement contact body 10 has the housing 12 several tion, e.g. B. in a cross-flow cooler, not completely 25 undesignated recesses for admission can satisfy. Namely by the fact that two be the gaseous agent, i. H. the air flowing through the adjacent layers over the whole or a contact body 10 strokes and the housing A larger part of its surface leaves a coherent 12 through an outlet 18 to which one of Form the gap, the fan 20 driven by a motor 22 is influenced by the fluid supplied with one at an angle to the flow 30 is arranged.

direction of the liquid acting force, the one The water is the contact bodies 10 of

Some lateral displacement of the liquid in the top is fed through manifold 24 which is in a one-contact body strives to effect. Furthermore, the simplest embodiment is arranged and fixed in place the liquid in the form of droplets can be provided with outflow holes 26, 35 The contact bodies 10 consist of folds will blow. This is especially true when or corrugations 28, 30 provided layers, where the means in the so-called criss-cross or transverse with the folds or corrugations of neighboring encounter current in the gaps of the contact body. Layers cross each other. The latter are on theirs

The invention has for its object to be the contact points with each other z. B. glued and familiar arrangement - namely the crossing or 40 are preferably liquid or water repellent. Cut the folds or corrugations adjacent to Advantageously, they can be made of cellulose or fibers barter contact body layers - in particular an inorganic substance, such as. B. asbestos Cross-flow trickle cooler with the aim of being turned on. Those obtained in this way apply that an optimal heat exchange takes place- Layers are expediently, e.g. by a takes place, it is ensured that the liquid 45 impregnation with a substance, for example the layers evenly distributed over a phenolic resin, resistant to moisture must follow the whole contact body, whereby the power.

Desired highest possible level of performance of the cross The chilled water is from the collecting

stream trickle cooler is achieved. container 14 through a line 34 in which a

To achieve this object, 50 valve 36 is attached according to the invention, provided to a point provided that the folds or corrugations are directed away to use from there in known of the adjacent layers to return to the manifolds 24 in a manner known per se. Of the Way cross each other, whereby the folds or water level in the collecting container 14 is means Corrugations, which, in the direction of flow of the gas of a float 38, are regulated, so that new water seen from the entry side in the contact body, 55 for the purpose of replacing losses through, among other things run diagonally upwards, are more inclined than the evaporation towards the respective contact body 10 crossing folds or curls. Is performed on this.

Way is a lateral displacement of the above by the fact that the folds or corrugations 28,

the layers of distributed liquid flow cross each other through 30, that from below upwards counteracted the blowing effect of the gas flow. 60 urging air to constantly change their

In addition to a significant improvement in the direction of travel during the passage between The arrangement according to the invention carries the layers of the contact body 10. the This also contributes to the fact that clogging of the trickle gets associated turbulence Channels cannot take place, which is known to result in the steep inclination of the fold occurs when the contact body does not have a sufficient positive influence, on the one hand with respect to are wetted so that a precipitate forms, ζ. B. the contact with the water and on the other hand there-salts Od. Like. Minerals, can be deposited. by keeping the air resistance at low values

It is preferably provided that the is held. That from above over the front surface

of the contact body 10 flows down the layers as a film in a manner meandering path, with a very high exchange between the agents per surface unit of the Layers is obtained.

In the embodiment according to FIG. 1, the contact body 10 of the two means in the transverse or Crossed out cross flow. The water is through the manifold 24 on the top of the contact body 10 and then runs along the layers with the main flow direction perpendicular. the In contrast, air enters in the area of the inlet side 40, which is at the level of a side edge of the contact body 10 is provided, and then flows in the direction of the flow direction indicated by arrows 42, 44 with a mainly horizontal direction through the between the contact bodies 10 Columns or channels. In the embodiment of FIG. 1, the contact bodies 10 are rectangular Outer shape, and the folds or corrugations ao gen 28 in the one group of layers the same angle of inclination as the corrugations or folds 30 in the other group of layers, related to the inlet edge for the air. The contact bodies 10 are, however, inclined by on inclined support floors 46 with openings 48 for the drainage of the water to a collecting container 14 rest. This gives the folds 30, which, viewed in the flow direction 42 of the air, are upward have a steeper angle of inclination to the horizontal than with the floor lying horizontally. Conversely, the inclination of the downwardly facing folds 28 becomes gentler with respect to the direction of the air flow 42. The whole has the consequence that means are created in the contact body 10 which exert a holding influence on the running water so that it is in the least possible Degree is carried away by the airflow. So if it is assumed that the air flow is turned off is, the inclination of the contact body 10 has the consequence that the water to that of the inlet side 40 facing side edge of the contact body 10 wants to run. On the other hand, the airflow wants that Blow running water over to the outlet side of the air. These two influences cancel each other out according to the invention, so that an even distribution of the water over the whole contact body 10 is ensured.

In the embodiment according to FIGS. 2 and 3, the contact body 10 is set up so that its Sides coincide with the horizontal or vertical planes. Instead is the folds such an inclination has been given that the folds belonging to one group 30 form a larger angle with the horizontal plane than the folds 28 of the former Layers intersecting layers. In this way, it has the same effect as the previous embodiment obtain.

The folds 28 can incidentally run horizontally and even slightly obliquely upwards in the flow direction of the air through the contact body 10. The force component holding back the water becomes greater, the steeper the folds 30 obliquely upwards and the weaker the folds 28 obliquely downwards to the direction of flow Are placed in the air.

Finally, a salt solution, for example a solution, can be used instead of water of a hygroscopic salt in water. In certain cases other liquids with high Vapor pressure come into consideration. The invention is also applicable to the heating of, for example, water transferrable in order to utilize the waste heat in an air stream.

Claims (3)

Patent claims: 1. Contact apparatus for liquid and gas with contact bodies accommodated in a housing, those made up of folds or corrugations that are vertical in the apparatus are composed, which are supported against each other and between which continuous Channels are present, simultaneously from the gas under horizontal and from the liquid are flowed through with a vertical main direction of flow, characterized in that that the folds or corrugations (28, 30) of the adjacent layers are known per se Way cross each other, with the folds or corrugations (30) that, in the direction of flow (42) of the gas seen from the inlet side (40) in the contact body (10), obliquely run upwards, stand more obliquely than the folds or corrugations crossing them (28). 2. Contact apparatus according to claim 1, characterized in that the contact bodies in the Folds or corrugations (28, 30) in two adjacent layers are the same or approximately the same have the same inclination angle to the inlet and outlet edges for the flowing gas, the entire contact body (10) being inclined in such a way that the lower parts of the edges are shifted relative to their upper parts in the gas flow direction. 3. Contact apparatus according to claim 1, characterized in that when perpendicular Inlet and outlet edges of the contact body for the flowing gas, the oblique angles of the folds or corrugations of two adjacent layers (28, 30) of different sizes to these edges are. 1 sheet of drawings