DE202006018753U1 - Device for moistening, cleaning and / or cooling a gas, in particular of air - Google Patents

Abstract

Device for moistening, cleaning and / or cooling a gas, in particular of air, with
A body (10) wettable with liquid, in particular water, which has a flow inlet side (24) and a flow outlet side (26) and has regions arranged between these sides (24, 26) wettable by the liquid and to be treated Gas are suspendable,
- wherein the body (10) comprises a plurality of corrugated plate elements (12) made of plastic, the elevations (32) and depressions (34) having side edges (36) which are provided with perforations (40),
- Wherein adjacent plate elements (12) contact at their elevations (32) and depressions (34) and
- wherein opposite edges (14, 16) of the plate elements (12) the flow input side (24) and the flow exit side (26) form.

Description

The The invention relates to a device for moistening, cleaning and / or cooling a gas, which is in particular air.

such Devices are also called evaporation humidifiers and material exchangers known, among other things, for humidification and simultaneous air cooling for example, of residential or office buildings, warehouses, Stables, greenhouses and other rooms or even of technical equipment, for example for cleaning and in particular dedusting of supply or exhaust air and for reactive gas or air purification (In particular removal of odorous substances such as ammonia from stable exhaust air).

The known devices of the aforementioned types have a Variety of plate elements or material layers, which are usually wavy are, so that when close contact of adjacent plate elements themselves crossing channels arise through the over an input side of the device, the gas flows, the Flowed through device and on one opposite Outlet side flows out again. The input and output sides of the device are defined by opposite edges of the formed individual adjacent plate elements. Consequently flows So the gas parallel to the extension of the plate elements between the relevant margins and between the plate elements.

The known devices are filled with liquid, in particular water, wetted, so that the gas to be treated on wetted surfaces of the plate elements flows along. It is desirable that the wetting liquid one possible size surface forms and turns over a longer one Period in the device or on the plate elements holds.

Known Devices of the aforementioned types have closed Material layers or plate elements made of plastic or paper, the welded together or glued. Plate elements made of paper have the disadvantage that the bodies of the gas permeable with them do not develop clean, without risking the paper plate elements too to destroy. In this regard, are plate elements made of plastic to be preferred. Both known However, systems also have the disadvantage that they are not yet optimal exchange of the gas with the moisture comes which adversely affects the efficiency of gas treatment can. Also, these devices provide a comparatively high flow resistance which is also undesirable is.

task The invention is a device for moistening, cleaning and / or cooling one Gases, especially of air, to create, which has improved properties and especially about has improved efficiency.

• – einem mit Flüssigkeit, insbesondere Wasser, benetzbaren Körper, der eine Strömungseingangsseite und eine Strömungsausgangsseite aufweist und der zwischen diesen Seiten geordnete Bereiche aufweist, die von der Flüssigkeit benetzbar und dem zu behandelnden Gas aussetzbar sind,
• – wobei der Körper eine Vielzahl von gewellten Plattenelementen aus Kunststoff aufweist, die Erhebungen und Vertiefungen mit Seitenflanken aufweisen, welche mit Perforationen versehen sind,
• – wobei benachbarte Plattenelemente sich an ihren Erhebungen und Vertiefungen kontaktieren und
• – wobei gegenüberliegende Ränder der Plattenelemente die Strömungseingangsseite und die Strömungsausgangsseite bilden.

To solve this problem, a device for humidification, cleaning and / or cooling of a gas, in particular of air, proposed by the invention, which is provided with

• A body which is wettable with liquid, in particular water, and which has a flow inlet side and a flow outlet side and which has regions arranged between these sides which are wettable by the liquid and can be exposed to the gas to be treated,
• The body comprising a plurality of plastic corrugated plate elements having protuberances and depressions with side flanks provided with perforations,
• - Wherein adjacent plate elements contact each other at their elevations and depressions and
• - With opposite edges of the plate elements forming the flow inlet side and the flow outlet side.

To The invention is the durchströmbare body of the gas to be treated, which with a liquid, especially water, is wetted by a variety of corrugated Plate elements made of plastic with perforations. On reason These perforations can be a gas exchange between adjacent Plate elements through this done. This improves the mass transfer rate between gas and liquid and reduces the Flow resistance. The inventively proposed body is therefore three-dimensional flow through. Due to the perforated Plate elements are local Turbulences of the body flowing through Gas, which improves the exchange of the gas with the liquid.

The inventive device is used in particular for the adiabatic cooling of stables or greenhouses zuzuführender Air, as through the perforated plate elements an increased amount on liquid in the body over one longer Period can be kept.

Especially is appropriate it, when the plate elements are formed as grid mats, the bars between which are the perforations in the form of open spaces between neighboring bars form. Sticks to the bars the wetting liquid forming a fairly large one Surface, what an enlarged contact surface of the Gas with the liquid entails.

alternative to grid mats can the plate elements may also be formed as foil elements, in which formed the perforations, for example by punching are.

The corrugated plate elements have adjacent peaks and valleys formed on, for example, in the form of valleys and mountains are. The side flanks between a depression and an elevation have expediently the perforations on. The surveys and depressions run preferably oblique to the opposite, forming the input and output sides of the wettable body margins the plate elements. Alternatively, they can also be between these edges zigzag or in other ways deviating from a rectilinear extent run.

When Plastic material for the plate elements are polyolefins and in particular thermoplastics, such as PP or PE.

In Advantageous development of the invention is further provided that adjacent plate elements to each other by plug or locking connections or by pin-hole or rivet joints with cold or hot deformation of the compound producing material are coupled.

The Invention will be described below with reference to an embodiment and with reference to the drawing closer explained. In detail, they show:

1 a perspective view of a block-shaped heat sink of a device for adiabatic cooling of air, partially broken, and

2 a plan view of a corrugated plate member made of plastic with perforations produced by the structures, wherein the heat sink is composed of a plurality of such adjacent plate elements.

1 shows a heat sink 10 from single corrugated plastic plate elements 12 , which are arranged side by side and upright. Each plate element 12 has two opposite edges 14 . 16 which are wavy. Now become two such plate elements 12 against each other, so arise openings 18 to which the body 10 connecting channels through. Through these openings 18 and channels now flows, for example, to be cooled air (see the flow arrows 20 . 22 ) that the body 10 from its flow input side 24 up to its flow exit side 26 flows through. Here are the opening structures on these two sides 24 . 26 through the wavy, opposite edges 14 . 16 the individual plate elements 12 educated.

For wetting the heat sink 10 with, for example, water this is on top 28 of the heat sink 10 applied (see the arrows 30 ). The water flows on the plate elements 12 along down and forms at the plate elements 12 large surfaces, along which flows the gas to be cooled, while cooling adiabatically.

2 shows a plan view of a plate member 12 from, for example, PP. The plate element 12 is with in this embodiment undulating elevations 32 and depressions 34 provided, which are arranged alternately adjacent to each other. The side flanks 36 between the wells 34 and surveys 32 are doing of individual bars 38 formed, between which open spaces 40 are formed, which the plate element 12 Give perforations. These perforations may cause gas and liquid exchange between adjacent plate elements 12 which improves the effectiveness of adiabatic cooling. The bars 38 provide a surface enlargement of the liquid and thus for a better interaction of the air and the liquid. Finally, the flow resistance of the heat sink is reduced 10 , All of these factors affect the performance of the heatsink 10 out.

Claims (5)

Device for moistening, purifying and / or cooling a gas, in particular of air, with - a body wettable with liquid, in particular water, ( 10 ), which has a flow input side ( 24 ) and a flow exit side ( 26 ) and between these pages ( 24 . 26 ) has ordered regions, which are wettable by the liquid and the gas to be treated exposable, - wherein the body ( 10 ) a plurality of corrugated plate elements ( 12 ) made of plastic, the surveys ( 32 ) and depressions ( 34 ) with side edges ( 36 ), which with perforations ( 40 ), whereby adjacent plate elements ( 12 ) to their surveys ( 32 ) and depressions ( 34 ) and - with opposite edges ( 14 . 16 ) of the plate elements ( 12 ) the flow input side ( 24 ) and the flow exit side ( 26 ) form. Device according to claim 1, characterized in that the plate elements ( 12 ) Grid mats with bars ( 38 ) and that the perfo rations ( 40 ) through the spaces between adjacent bars ( 38 ) of the grid mats are formed. Device according to claim 1, characterized in that the plate elements ( 12 ) Are film elements in which the perforations ( 40 ) are formed. Device according to one of claims 1 to 3, characterized in that the elevations ( 32 ) and depressions ( 34 ) obliquely to the opposite edges ( 14 . 16 ) of the plate elements ( 12 ) and / or between these wavy, zigzag or otherwise deviate from a rectilinear extent. Device according to one of claims 1 to 4, characterized in that adjacent plate elements ( 12 ) are coupled to one another by plug or snap connections or by pin-hole or rivet connections with cold or hot deformation of the compound producing material.