BE1025597B1 - ORGANIC AIR WASHER - Google Patents

Abstract

Biological air washer (1) for removing ammonia from contaminated air comprising a filter space (2), air being sucked into the filter space (2) and displaced through the filter space (2), a first filter unit (4) arranged in the filter space (2) through which the air moves, and a spraying device (11) for applying water to this first filter unit (4), the first filter unit (4) comprising at least one surface for growing and attaching aerobic nitrifying bacteria, wherein the first filter unit (4) comprises a flexible carrier (6a) comprising the at least one said surface, said carrier (6a) being arranged in the filter space (2) such that the surface waves under the influence of the movement of air through the first filter unit (4).

Description

ORGANIC AIR WASHER

This invention relates to a biological air washer for removing ammonia from contaminated air comprising a filter space, wherein air is sucked into the filter space and displaced through the filter space, a first filter unit arranged in the filter space through which the air moves, and a spray device for applying water to this first filter unit, the first filter unit comprising at least one surface for growing and adhering to aerobic nitrifying bacteria.

Biological air scrubbers use aerobic nitrifying bacteria such as Nitrosomonas and Nitrobacter to remove contaminated air from, for example, stables with ammonia. These air scrubbers use for this purpose at least one filter unit comprising a surface on which the nitrifying bacteria can adhere and grow and spray elements for applying water to these surfaces. With the help of the water, the ammonia present in the air is precipitated as ammonium. This ammonium then ends up on a stated surface of the filter unit and is then converted by the nitrifying bacteria into nitrite and ultimately into nitrate. This nitrate is then removed with the help of the water and the result is air free from ammonia and therefore air free from an annoying odor that can be emitted. The biological air washer is normally provided with a suction device for sucking in the air in the filter space and moving the air through the filter space.

The problem with the existing biological air scrubbers is that after a certain time the growth of these bacteria is so extensive and also dirt, which is present in the air, is deposited on the surfaces of the filter unit, that the filter units clog and air still difficult to pass through these filter units. It is therefore necessary to clean this filter unit at regular intervals, and thus get rid of the excess bacteria and dirt, and / or replace it. This also means that the suction device, which is provided to introduce the air into the filter space and to

BE2017 / 5689 move through the filter space, also the air has to move through these filter units, and therefore has to provide more and more power to be able to move the air through this filter unit. As a result, a suction device with a sufficient capacity must be provided and a great deal of energy is required to make this air washer work.

An attempt is already being made to solve this problem by providing the air washer with a water curtain arranged for the filter unit. The polluted air then first comes into contact with this water curtain and the dust that is present is largely precipitated, making the filter unit less likely to clog. However, they are still going to clog due to bacterial growth.

When the filter unit is clogged, the problem arises that for a certain time the air cannot be purified and stripped of ammonia. Since biological air washers are not only provided to purify the air, but are also provided, for example, to ventilate a stable or the like, this means that no polluted air can be sucked in during this specific time and therefore the stable or the like is not ventilated, which of course causes problems.

It is therefore an object of the invention to manufacture a biological air washer that is less susceptible to clogging and whose proper functioning is more assured over a longer period.

This object is achieved by providing a biological air washer for removing ammonia from contaminated air comprising a filter space, air being sucked into the filter space and displaced through the filter space, a first filter unit arranged in the filter space through which the air passes displaced, and spraying device for applying water to this first filtering unit, the first filtering unit comprising at least one surface for growing and adhering to aerobic nitrifying bacteria, the first filtering unit comprising a flexible carrier covering the at least one said surface

BE2017 / 5689, wherein this carrier is arranged in the filter space such that the surface waves under the influence of the movement of air through the first filter unit.

In order to supply / suck in the air in the filter space and to move the air through the filter space, a suction device is preferably provided, which may or may not be integrated into the biological air washer. The suction device then preferably comprises one or more suction elements which will suck in the polluted air. This air can for instance be sucked in from a room such as a stable. These one or more suction elements can for instance be fans.

A flexible carrier indicates that the carrier cannot be regarded as stiff. When forces are exerted on this carrier by an air displacement, the carrier will therefore visibly deform. For example, the flexible carrier may wrinkle and / or flutter slightly.

The surface here forms part of a flexible carrier that waves during the operation of the biological air washer, that is, when air passes through the filter unit. This ensures that the bacteria that adhere to the surface and also start to grow on it and / or dirt that adheres to the surface cannot form a too thick layer on the surface. Due to the fluttering of the carrier, bacteria will come loose from the surface under the influence of gravity and the fluttering movement, so that the risk of clogging and / or clogging of the filter unit is smaller here. This biological air washer can therefore be used for a longer period of time and must be maintained less frequently than the existing biological air scrubbers. Moreover, since the amount of bacteria and dirt attached to the surface is smaller, the suction device must provide less power to be able to move the air through the first filter unit.

BE2017 / 5689

The flexible carrier is preferably a plastic film. Films are easily available, able to fly well under the influence of air displacement and, according to their volume, have a large surface on which bacteria can adhere. The plastic film is, for example, a polyethylene film (PE film). A PE film is strong, sturdy and will not die quickly.

In a preferred embodiment, the flexible carrier is tensioned between two places in the filter space that extend at a distance from each other. The flexible carrier is then preferably tensioned in such a way that it can still flutter somewhat between these two locations. If the flexible carrier is a film, it is very easy to tension this film between two places. For example, one can connect two edges of the film to these two locations, respectively, in such a way that the film is stretched between these two locations, but can still move somewhat.

Furthermore, preferably the one location of said two locations extends higher than the other location of said two locations in the vertical direction. The flexible carrier is then placed in the filter space in such a way that it extends upright. Due to this arrangement, there is a good chance that dirt and bacteria that come loose from the surface will end up at the bottom of the air washer. This dirt and the bacteria can then be easily removed from the air washer via the water. Since the air is often displaced in a horizontal direction by the suction device, the air can then move well through the first filter unit.

Still further preferably, the aspirated contaminated air contacts the first filter unit in a first direction that extends substantially horizontally and when there is no air displacement through the first filter unit, the flexible carrier extends substantially along a plane between the two said locations, wherein this plane makes an angle between 0 ° and 45 °, preferably 0 ° and 30 °, with this first direction and makes an angle between 70 ° and 90 ° with a horizontal plane. It is provided to suck in air in the filter space and to move this sucked air through the filter space. With the sucked in

BE2017 / 5689 contaminated air makes contact with the first filter unit according to a first direction, it is indicated that the biological air washer is arranged so that preferably the air contacts the first filter unit according to said first direction. If there is no air displacement through the first filter unit, the air washer does not serve. This can therefore be referred to as the state of rest of the air washer. The angle here always indicates the minimum angle. This surface therefore here, viewed in accordance with a horizontal cross-section, makes an angle between 0 ° and 45 °, preferably 0 ° and 30 °, with the first direction. During use of the air washer, the flexible carrier will flutter, so that it does not always extend along a plane. The flexible carrier here makes a small angle with the first direction, as a result of which the air will make good contact with the first filter unit and the risk is smaller that the ammonia does not come into contact with the water on a said flexible carrier. The ammonia will dissolve well here in the water that is applied to the filter unit and will therefore be removed from the air.

Further preferably, the plane makes substantially an angle of 90 ° with the horizontal plane. The perpendicular projection of this plane onto a horizontal plane, then forms substantially a straight line making an angle between 0 ° and 45 °, preferably 0 ° and 30 °, with this first direction.

In a preferred embodiment the filter space is bounded at the bottom by a bottom and at the top bounded by a ceiling, the flexible carrier being connected on the one hand to the ceiling and on the other hand connected to the bottom, so that the surface extends between the bottom and the ceiling. The air is washed over the entire height of the air washer and it is therefore better to ensure that virtually all air will pass through the first filter unit, so that there is a greater chance that all air will come into contact with at least one of the said surfaces of the first filter unit.

BE2017 / 5689

The first filter unit preferably comprises at least two flexible carriers, each of which comprises at least one said surface. The more said surfaces are arranged in the filter space, the greater the chance that the air will always come into contact with at least one said surface. By working with two or more flexible carriers, the total contact surface of the first filter unit with the air is increased.

Furthermore, the flexible carriers are preferably mounted at a distance from each other in the filter unit. Thus, certainly in the rest position, there is a certain distance between the flexible carriers, as a result of which the air can still pass well through the filter unit and, therefore, not too great a power is required to cause the air to move through the filter unit. Preferably, each flexible carrier is attached between two locations, the distance between the respective locations of two successive flexible carriers being, for example, between 3 and 25 cm. If the flexible carriers are then, for example, films, then they extend at a distance of 3 to 25 cm from each other in the rest state of the air washer. There is sufficient space here between the films so that the filter unit will not clog / clog. The distance is also not too large, so that the air always makes good contact with at least one surface.

Further preferably, the two flexible carriers are mounted at a distance from each other in the first filter unit and the aspirated contaminated air makes contact with the first filter unit in a first direction that extends substantially horizontally, the two flexible carriers extending side by side as seen in a direction perpendicular to the first direction and in the horizontal plane. The air can move well between these flexible carriers here.

Still further preferably, the surfaces of said flexible carriers that extend between said two locations, respectively, make an angle with respect to each other. The flexible carriers, for example the plastic films, make angles with respect to each other. Air is then unable or difficult to pass through the filter unit without coming into contact with a said surface.

BE2017 / 5689

In a preferred embodiment, the sucked-in polluted air makes contact with the first filter unit in a first direction and the first filter unit comprises at least two groups with two or more flexible carriers each, said groups extending side by side, viewed in this first direction. The polluted air first comes into contact with a first group of multiple flexible carriers and then comes into contact with a second group of multiple flexible carriers. This makes the air very well purified from ammonia.

In a very preferred embodiment, the flexible carrier is a plastic bubble wrap. This foil then comprises a surface with several studs, whereby the contact surface between the air and the foil is very large. Nitrifying bacteria can adhere very well between and on these studs, and this without the air flow being hindered too much. The air here comes in optimum contact with the surface of this film, so that it is very well purified from ammonia.

Preferably the sucked-in contaminated air makes contact with the first filter unit in a first direction and the spraying device comprises one or more spray elements for applying water to the first filter unit in substantially this first direction. With the help of this water, the ammonia present in the air will very easily precipitate on the one or more surfaces of the filter unit in the form of ammonium.

The biological air washer preferably comprises a second filter unit arranged in the filter space. By working with an additional filter unit, the air is even better purified from ammonia and dust. If the air is then not sufficiently purified by the first filter unit, this is collected by the second filter unit.

Furthermore, the second filter unit preferably comprises a rigid filter package.

BE2017 / 5689

Also further preferably, the filter space comprises an exit opening, wherein the air is first applied through the first filter unit and then brought back into the outside environment via the exit opening, the second filter unit being arranged movably in the filter space between a first position, the second filter unit is arranged at the level of the exit opening so that air must also pass through this second filter unit and a second position, wherein air passes directly to the exit opening from the first filter unit. At the first position, the air will then pass through the first filter unit and also through the second filter unit and only then pass through the exit opening. The second filter unit here comprises a rigid filter package, as a result of which this filter unit is more susceptible to sludge / clogging due to the growth of the bacteria and due to the accumulation of dirt. Since this second filter unit extends after the first filter unit, the accumulation of dirt is rather small. However, because this second filter unit can assume two positions and therefore also a position where the air does not have to pass through this second filter unit in order to be able to pass through the exit opening, it is possible to make this in an emergency, i.e. when the second filter unit is clogged. put it in its second position and still provide ventilation and purification of the air. It can also be ensured that in the second position of the second filter unit, this second filter unit is easier to clean.

In an alternative embodiment, this invention relates to a biological air washer for removing ammonia from contaminated air comprising a filter space, wherein air is sucked into the filter space and displaced through the filter space, a second said filter unit as described above which is arranged in the filter space through which the contaminated air moves, and one or more spray elements for applying water to this second filter unit, the second filter unit comprising at least one surface for growing and attaching aerobic nitrifying bacteria and this biological air washer does not comprise a first filter unit as above described. The advantage here is that if the second filter unit clogs up, it is still possible to do so

BE2017 / 5689 provide ventilation for, for example, the stable, and this by then placing the second filter unit in its second position and thus not washing the air with this filter unit. This already solves part of the above problem. What is discussed below about the second filter unit with regard to the preferred embodiment comprising both the first and the second filter unit, therefore also applies to this alternative embodiment which comprises said second filter unit and does not comprise said first filter unit.

Still further preferably, the second filter unit is pivotably arranged for movement around a pivot axis. With the aid of a pivot axis, it is easy to move the second filter unit from its first position to its second position.

Even more preferably, the filter space at the top is bounded by a ceiling and the exit opening is at the height of this ceiling, and in the first position the second filter unit covers this exit opening. The hinge axis here preferably extends substantially horizontally. If the ceiling then also extends horizontally, the outlet opening can simply be covered by pivoting the second filter unit.

In a preferred embodiment, the spraying device comprises one or more spraying elements for applying water to the second filter unit. In this way it is also easy to keep the second filter unit wet so that ammonia will precipitate well in the form of ammonium on the second filter unit. The nitrifying bacteria here will also grow well on the second filter unit.

This invention also relates to a stable comprising a biological air washer as shown above. Here the stable itself comprises this biological air washer and is therefore part of the stable. The stable then forms a whole here that is well ventilated and whose air is well purified from ammonia and only brought to the outside environment after the ammonia has been removed.

BE2017 / 5689

This invention will now be further elucidated with reference to the following detailed description of a preferred embodiment of a biological air washer according to the present invention. The purpose of this description is to provide illustrative examples only and to indicate further advantages and details, and thus can in no way be interpreted as limiting the scope of the invention or the patent rights claimed in the claims.

In this detailed description reference is made by reference numerals to the accompanying drawings wherein

figure 1 is a first perspective representation of a simplified representation of a biological air washer according to the invention;

figure 2 is a second perspective view of the air washer shown in figure 1;

Figure 3 is a third perspective view of the air washer shown in Figure 1.

A simplified representation of a biological air washer (1) is shown in the figures. This air washer (1) is used for removing ammonia from contaminated air from stables. This air washer (1) is preferably arranged in the shed itself, so that the air washer (1) does not form a separate part and is very capable of purifying the contaminated air of the shed from ammonia. This biological air washer (1) comprises for this purpose a filter space (2) which is bounded at the top by a ceiling (8) and bounded at the bottom by a bottom (7) and which is bounded by four side walls. A fan (3) is inserted in one of these side walls, which is capable of sucking air that is present in the space that extends next to the biological air washer (1) into the filter space (2). The fan (3) here forms the suction device (3) for sucking in polluted air and displacing this air through the filter space (2). The fan (3) is shown schematically as a circle in the figures. The fan (3) applies the air to the filter space (2) according to essentially a first direction (A)

BE2017 / 5689 extends horizontally and from left to right in the figures. The biological air washer (1) further comprises a first filter unit (4) and a second filter unit (9) which, viewed in accordance with this first direction (A), extend side by side so that the air first comes into contact with the first filter unit (4) ). Furthermore, the filter space (2) at the top right of the ceiling (8) comprises an outlet opening, so that the air can leave the filter space (2) again.

This first filter unit (4) comprises two groups of a plurality of flexible plastic films (6a, 6b), these two groups extending side by side as viewed in the first direction (A). The plastic films (6a, 6b) are polyethylene bubble films (6a, 6b) and because of their studs have a relatively large outer surface on which bacteria can adhere and grow. Each group of plastic films (6a, 6b) comprises a plurality of upright plastic films (6a, 6b) which are connected on the one hand to the ceiling (8) and on the other hand connected to the bottom (7). The plastic films (6a, 6b) all extend in planes that make an angle of substantially 90 ° with the bottom (7) and make an angle with the first direction (A) between 1 ° and 30 °. In each group of plastic films (6a, 6b), said surfaces of the plastic films (6a, 6b) extend such that one or more of these surfaces intersect. The air will move between the plastic foils (6a, 6b) and through the said positions of these foils (6a, 6b) always make contact with at least one of the plastic foils (6a, 6b). When air passes through these plastic foils (6a, 6b), they flutter slightly.

The second filter unit (9) comprises two rigid filter packages (10a, 10b), each of which is pivotally arranged between two positions, being a first position in which a said filter package (10a, 10b) extends next to the exit opening and a second position in which a said filter package (10a, 10b) leaves the exit opening free. Nitrifying bacteria also adhere to these filter packages (10a, 10b) and also grow here. When both filter packages (10a, 10b) are in their first position, the second filter unit (9) forms an obstacle through which the air has to pass when it moves to the exit opening. The second filter unit (9)

BE2017 / 5689 is then here in a first position that covers the exit opening. Here, the air is then first filtered through the first filter unit (4) and then additionally filtered through the second filter unit (9). When both filter packages (10a, 10b) are in their second position, the second filter unit (9) does not form an obstacle through which the air has to pass when it proceeds to the exit opening. The second filter unit (9) is then in a second position here, which leaves the outlet opening completely free. Two intermediate positions are also possible for the second filter unit (9), one of the two filter packages (10a, 10b) being in the first position and the other of both filter packages (10a, 10b) being in the second position. The advantage of working here with a hinged filter packages (10a, 10b) is that if one of these filter packages (10a, 10b) or both of these filter packages (10a, 10b) is clogged by an excess of bacterial growth and / or an excess of dust, one can pivot these filter packages (10a, 10b) to their second position and one can still start using the biological air washer (1), so one does not have to wait until these filter packages (10a, 10b) are cleaned and / or replaced. In this way it is avoided that suddenly ventilation of the house is no longer possible.

The biological air washer (1) further comprises a spraying device (11) comprising a plurality of spraying elements (5a, 5b, 5c) for applying water to the parts of the filter units (4, 9). The water will cause the ammonia present in the air to precipitate as ammonium on the filter units (4, 9) and the nitrifying bacteria can start converting this ammonium into the final nitrate which is then discharged with the water.

Claims (10)

CONCLUSIONS A biological air washer (1) for removing ammonia from contaminated air comprising a filter space (2), wherein air is sucked into the filter space (2) and is moved through the filter space (2), a first filter unit (4) that is arranged in the filter space (2) through which the air moves, and a spraying device (11) for applying water to this first filter unit (4), the first filter unit (4) comprising at least one surface for growing and adhering of aerobic nitrifying bacteria, characterized in that the first filter unit (4) comprises a flexible carrier (6a) comprising the at least one said surface, said carrier (6a) being arranged in the filter space (2) such that the surface flaps under influence of the movement of air through the first filter unit (4) · Biological air washer (1) according to claim 1, characterized in that the flexible carrier (6a) is a plastic film. A biological air washer (1) according to claim 1 or 2, characterized in that the flexible carrier (6a) is tensioned between two locations (7, 8) in the filter space (2) which extend at a distance from each other. Biological air washer (1) according to claim 3, characterized in that the one location (8) of said two locations (7, 8) extends higher than the other location (7) of said two locations (7, 8) ) according to the vertical direction. Biological air washer (1) according to claim 4, characterized in that the contaminated polluted air makes contact with the first filter unit (4) in a first direction (A) that extends substantially horizontally and that when there is no air displacement through the first filter unit (4), the flexible carrier (6a) extends substantially along a plane between the BE2017 / 5689 two locations mentioned (7, 8), wherein this plane makes an angle between 0 ° and 45 °, preferably 0 ° and 30 °, with this first direction (A) and makes an angle between 70 ° and 90 ° with a horizontal plane. Biological air washer (1) according to one of the preceding claims, characterized in that the filter space (2) is bounded at the bottom by a bottom (7) and bounded at the top by a ceiling (8), the flexible carrier (6a) on the one hand is connected to the ceiling (8) and on the other hand is connected to the bottom (7), so that the surface extends between the bottom (7) and the ceiling (8). Biological air washer (1) according to one of the preceding claims, characterized in that the first filter unit (4) comprises at least two flexible carriers (6a), each of which comprises at least one said surface. Biological air washer (1) according to claim 7, characterized in that the two flexible carriers (6a) are mounted at a distance from each other in the first filter unit (4) and the sucked-in contaminated air makes contact with the first filter unit (4) according to a first direction (A) which extends substantially horizontally and the two flexible carriers (6a) extend next to each other as seen in a direction perpendicular to the first direction (A) and in the horizontal plane. Biological air washer (1) according to claims 5 and 8, characterized in that the surfaces of said flexible carriers (6a) that extend between their said two locations (7, 8), respectively, make an angle with respect to each other. Biological air washer (1) according to one of claims 7 to 9, characterized in that the polluted air drawn in makes contact with the first filter unit (4) in a first direction (A) and that the first filter unit (4) has at least two groups with two or more flexible carriers each BE2017 / 5689 (6a, 6b), wherein these groups, viewed in this first direction (A), extend side by side. Biological air washer (1) according to one of the preceding claims, characterized in that the flexible carrier (6a, 6b) is a plastic bubble wrap. Biological air washer (1) according to one of the preceding claims, characterized in that the polluted air drawn in makes contact with the first filter unit (4) in a first direction (A) and that the spraying device (11) has one or more comprises spraying elements (5a, 5b) for applying water to the first filter unit (4) in substantially this first direction (A). A biological air washer (1) according to any one of the preceding claim, characterized in that the biological air washer (1) comprises a second filter unit (9) arranged in the filter space (2). Biological air washer (1) according to claim 13, characterized in that the second filter unit (9) comprises a rigid filter package (10a, 10b). Biological air washer (1) according to claim 13 or 14, characterized in that the filter space (2) comprises an outlet opening, wherein the air is first applied through the first filter unit (4) and subsequently returned to the outside environment via the outlet opening with the second filter unit (9) arranged movably in the filter space (2) between a first position, the second filter unit (9) being arranged at the exit opening so that air must also pass through this second filter unit (9) and a second position, wherein air travels directly to the exit opening from the first filter unit (4). A biological air washer (1) according to claim 15, characterized in that the second filter unit (9) is arranged so as to be movable about a hinge axis. BE2017 / 5689 A biological air washer (1) according to claim 16, characterized in that the filter space (2) is delimited at the top by a ceiling (8) and the exit opening is at the height of this ceiling (8), and in the first position the second filter unit (9) covers this outlet opening. Biological air washer (1) according to one of claims 13 to 17, characterized in that the spraying device (11) comprises one or more spraying elements (5c) for applying water to the second filter unit (9). 19. A stable comprising a biological air washer (1), characterized in that the biological air washer (1) is a biological air washer (1) according to one of claims 1 to 18.