DE202011001810U1 - Exhaust air cleaning system for livestock houses - Google Patents

Abstract

Stable exhaust air cleaning device, comprising: - an air-permeable exhaust air cleaning wall (40) which is made of an open-pored material, - a humidifying device (41) which is arranged and designed to moisten the open-pored material of the exhaust air cleaning wall with a liquid, - an exhaust air outlet opening (90 ) for purified exhaust air, - A connecting duct (35) which connects the exhaust air purification wall with the exhaust air outlet opening, characterized by an air-air heat exchanger (70) with - a primary air inlet (71) which is connected to the connecting duct (60, 62) by means of an air duct (60, 62) 35) is fluidically connected to the supply of exhaust air from the connecting duct to the primary air inlet, - a primary air outlet (72) for the discharge of exhaust air from the air-to-air heat exchanger, - a secondary fresh air inlet (76) which is in flow connection with the ambient air, - a secondary air outlet (77) with a flow channel (81) is connected to the introduction of the heated fresh air exiting the air-air heat exchanger into the stable, and - a heat exchanger surface for the transfer of heat from ...

Description

The invention relates to a stable exhaust air purification device comprising a first air-permeable exhaust air cleaning wall, which is made of an open-pore material, a humidifying, which is arranged and adapted to moisten the porous material of the first exhaust air cleaning wall with a liquid, an exhaust outlet for purified exhaust air and a connecting channel , which connects the exhaust air cleaning wall with the exhaust air outlet opening. Another aspect of the invention is a method for cleaning stable exhaust air.

The rearing and keeping of livestock in stable housing requires a healthy stable climate, which ensures good housing conditions for kept in the stable livestock. For this purpose, a certain volume of fresh air per unit time must be supplied to the house to compensate for oxygen consumption and pollution of the air within the house. It is known to supply fresh air from the environment of the stable to the stable by means of appropriate fresh air conveying devices and to remove the used air through exhaust air outlet openings. In principle, the arrangement of fresh air inlet and exhaust air outlet is arranged in such a way that it is ensured that the exiting exhaust air can not enter the house again through the fresh air inlet. Alternatively or additionally, it is known to withdraw the exhaust air from the stable by exhaust air conveying means and to convey it to the outside and in this case to supply fresh air through fresh air inlets, for example fresh air inlet chimneys into the stable.

Stable exhaust air regularly has a degree of contamination that should not be readily supplied to the environment. In many countries, the permissible concentration of pollutants in livestock exhaust air is regulated and livestock livestock operators are required to ensure that no pollutants or pollutant concentrations above the predetermined threshold escape from the lair with the exhaust air. In particular, the load of the stable exhaust air with dust fractions and the load of the stable air with ammonia components must be considered and reduced.

To reduce the pollutant concentration in the stable exhaust air, it is known to use exhaust air purification devices of the aforementioned type. These may consist, for example, of a plurality of decentralized exhaust air purification devices, in each of which a portion of the total exhaust air discharged from the house is cleaned and then removed. Furthermore, it is known to clean the stable exhaust air with a centrally arranged exhaust air purification device and to reduce their pollutant concentration so far that the stable exhaust air falls below the predetermined limits. Such central exhaust air purification devices typically comprise at least one exhaust air cleaning wall which extends, for example, over an end wall or part of a wall of the house or which is arranged in an adjoining room adjacent to the house and to which the exhaust air is supplied by exhaust air channels. The exhaust air cleaning wall is constructed of an open-pored material. Through this exhaust air purification wall to be cleaned exhaust air is promoted and pollutant components such as dust particles or other chemical pollution in the exhaust air are retained in the pores of the porous wall. It is particularly known to wet the open-pore exhaust air cleaning wall with a cleaning liquid, such as water. On the one hand, the water leads to an increased filter effect of the exhaust air cleaning wall and, on the other hand, leads the particles collected in the pores of the exhaust air cleaning wall downwards due to its gravity-related outflow, thus permitting a continuous cleaning of the pores of the exhaust air cleaning wall.

Exhaust air purification devices are basically known in the form of single or multi-stage cleaning equipment. In addition to the above-described cleaning by an open-pored, optionally wetted with cleaning fluid material, it is also known to reduce the ammonia content in a second purification stage by a wetted with a chemical cleaning liquid open-cell wall of the first exhaust air purification wall is connected and here in a cycle of cleaning liquid ammonia is filtered out of the stable exhaust air. In certain embodiments, it is also known to provide only an exhaust air purification wall with such ammonia filtration and to omit the first exhaust air purification wall. In this case, the cleaning of the exhaust air from dust particles and ammonia is carried out in a single stage. Finally, it is also known to provide a further exhaust air purification stage, which reduces the odor pollution by the exhaust air. For this purpose, in particular exhaust air purification stages are used, which include broken root wood, which must be flowed through by the exhaust air and thereby brings about an effective odor reduction.

Exhaust air purification devices of the aforementioned type lead to a significant improvement in the air quality of discharged from the stable exhaust air. However, the exhaust air purification devices for the user or operator of a stable represents a significant additional burden. Firstly, energy is needed for the process of exhaust air purification, which is primarily due to the fact that through the exhaust air purification stages flow resistance in the flow of exhaust air from the stable arise, which must be compensated by appropriate conveyors. On the other hand, the pollutants collected in the exhaust air purification device require treatment and optionally a supply of fresh water, which in turn requires on the one hand equipment and design effort to implement this treatment procedurally. Here, too, additional use of resources occurs due to correspondingly required chemical processes, mechanical media guidance and the like.

Finally, an exhaust air purification device requires a fundamental investment in the course of their installation, which is to be transferred to the operating period in the context of the entire management of the stable by the operator of the stable.

It is an object of the present invention to provide an improved exhaust air purification device which overcomes or at least reduces the above-mentioned disadvantages. It is another object of the invention to provide an exhaust air purification device which can be operated more economically than known exhaust air purification devices.

This object is achieved according to the invention with a Stallabluftreinigungsvorrichtung of the aforementioned type, which is characterized by an air-air heat exchanger, with a primary air inlet, which communicates by means of an air duct with the connecting channel fluidly connected to the supply of exhaust air from the connecting channel to the Primäräreinlufteingang, a primary air outlet for removing exhaust air from the air-to-air heat exchanger, a Sekundärfrischlufteingang, which is in fluid communication with ambient air, a secondary air outlet, which is in communication with a flow channel for introducing the emerging from the air-to-air heat exchanger heated fresh air into the stable and a heat exchanger surface for transferring heat from the exhaust air to the fresh air.

The object is further achieved according to the invention by a method for cleaning stable exhaust air, comprising the steps of: cleaning the stable exhaust air by means of an air-permeable exhaust air cleaning wall, which is made of an open-pore material, moistening the open-pored material of the exhaust air purification wall with a liquid, discharging the purified stable exhaust air through a Exhaust air outlet opening, wherein the further steps are performed: supplying the stable exhaust air from a lying in the flow direction behind the exhaust air cleaning wall area to a primary air inlet of an air-air heat exchanger, removing the exhaust air from a primary air outlet of the air-air heat exchanger, supply of fresh air from the Surrounding the stall to a secondary fresh air inlet, transferring heat from the stable exhaust air to the fresh air within the air-to-air heat exchanger and supplying the heated fresh air via a secondary fresh air outlet in the Sta ll.

With the method according to the invention or the device according to the invention, an exhaust-air purification device is developed in an advantageous manner for greater economy by summarily improving its energy consumption. In this case, according to the invention, an approach which dispenses with an improvement in the efficiency by reducing the flow resistance, increasing the cleaning efficiency or an apparatus-related or system-related improvement of the exhaust conveyors and instead uses the heat still contained in the cleaned or partially cleaned exhaust air, fed to the stable To warm fresh air. In this case, the invention utilizes the indirect effect that, as a result of the energy saving achieved with respect to the energy which would be necessary for the heating of the house, an overall economic advantage for the stable operation arises, which is attributable to the exhaust air cleaning device. In this case, the additional effect is used that by the fact that the exhaust air is diverted behind the first exhaust air cleaning wall, the air-air heat exchanger largely particle-free exhaust air can be supplied, whereby the risk of contamination of the primary side of the heat exchanger is substantially reduced and consequently In this regard, an economical operation of the exhaust air purification device with air-air heat exchanger is made possible.

In principle, it should be understood that the exhaust air cleaning device or the exhaust air method can be designed so that the entire exhaust air drawn from the house can be fed to the air-air heat exchanger or only a portion of this exhaust air. Whether the total exhaust air or a proportion and in this case how large this proportion of the exhaust air, which is supplied to the heat exchanger can be controlled or regulated in particular due to the degree of contamination of the exhaust air. It should be noted in particular that the exhaust air supplied to the heat exchanger can not be reintroduced into the exhaust air cleaning device at the same place, without this would either expensive air handling devices would be necessary or would be done to reduce the overall efficiency blending the exhaust before and behind the heat exchanger. It is therefore advantageous on the whole, the exhaust air supplied to the air-air heat exchanger after it has passed through the heat exchanger to supply directly to the environment or at a later stage than that from which the exhaust air was removed to feed again for further purification. In both Cases, however, this part of the exhaust air is subjected to less effective cleaning, so that as a result of the degree of contamination of the exiting the exhaust air purification device air is deteriorated overall. This deterioration can be taken into account especially if the pollution levels of the escaping air anyway far below the desired or additional limit or if the higher polluted portion of the heat exchanger summarily mixed with a lower polluted portion of the exhaust air, which passes through the exhaust air purification stages completely and the two exhaust air portions then fall short of the target or prescribed limit value. In order to ensure this, an air quantity control device can, in particular, be provided which controls or regulates the proportion of exhaust air supplied to the air-air heat exchanger as a function of a contamination level of the exhaust air detected by means of a control device.

The exhaust air cleaning wall used according to the invention may in particular be made of an open-pored plastic material, for example a foamed plastic or a material consisting of a plurality of spherical bodies pressed together. The moistening device can be designed in such a way that it spreads the moisture evenly distributed by a flat spraying the exhaust air cleaning wall or preferably designed such that the liquid is introduced from above into the exhaust air purification wall and seeps through the exhaust air purification wall due to gravity. The moistening device can in particular also be designed as a circuit for the cleaning liquid, with optionally filters and treatment systems being integrated into the circuit in order to filter or treat the liquid before dispensing it from the moistening device onto the exhaust air cleaning wall and to remove pollutants therefrom. The liquid may in particular be water, more preferably, however, the liquid may also be mixed with cleaning agents in order to filter out certain pollutants from the exhaust air, to chemically bind them or to convert them into harmless substances by means of a reaction.

According to a first preferred embodiment, the stall exhaust air cleaning device according to the invention is further formed by a second exhaust air cleaning wall disposed downstream of the first exhaust air cleaning wall and upstream of the exhaust air outlet opening and a second humidifying device arranged and adapted to wet the open porous material of the second exhaust air cleaning wall with a liquid and Primary air inlet is connected by means of the air channel with the connection channel between the first and the second exhaust air purification wall. Through a second exhaust air cleaning wall, a higher degree of purification of the exhaust air is achieved. The second exhaust air cleaning wall may preferably be constructed in an identical manner or at least similar to the first exhaust air cleaning wall, or it may consist of a finer porous material. The second exhaust air cleaning wall may be designed in particular to filter out certain chemical pollutants from the exhaust air. According to the invention, the exhaust air portion, which is branched off from the connecting channel, fluidly diverted between the first and second exhaust air purification wall. The advantage of this embodiment is that the exhaust air is already cleaned in this case of dust particles and numerous pollutants through the first exhaust air cleaning wall and consequently can cause no significant contamination of the heat exchanger more, but at the same time occurring through the first and second exhaust air cleaning wall cooling effect of the exhaust only has partially caused a cooling effect on the exhaust air and consequently still significant heat is contained in the exhaust air. In this embodiment, the exiting the heat exchanger exhaust air can be discharged directly to the environment without a further cleaning device is passed through. Alternatively, the exhaust air can also be supplied to a separate cleaning device in order to clean it after passing through the heat exchanger.

The stable exhaust air cleaning device according to the invention can be further developed by a second exhaust air cleaning wall arranged fluidically between the first exhaust air cleaning wall and the exhaust air outlet opening and a control device which is signal-technically connected to a sensor for detecting the degree of fouling of the exhaust air and which is further designed to control an air guiding device such that at a lying below a limit pollution level of the exhaust air supplied to the air-air heat exchanger exhaust air from the connecting channel between the first and the second exhaust air cleaning wall is removed and at a lying above the limit pollution level of the exhaust air to the air-air heat exchanger supplied exhaust air the connecting channel between the second exhaust air cleaning wall and the exhaust air outlet opening is removed.

This training form achieved in an advantageous manner that on the one hand in each occupancy and operating state of the stable building, from which the exhaust air is cleaned, the maximum heat from the exhaust air is removed by means of the heat exchanger, but at the same time at high levels of contamination Exhaust air sufficient cleaning of the exhaust air takes place. This is realized by deducting at a low degree of contamination of the exhaust air fraction for the heat exchanger behind the first exhaust air cleaning wall, but before the second exhaust air cleaning wall and thus exhaust air is used for the heat exchanger, which has only passed through a purification stage, but still has a significant amount of heat , In the case, however, in which the exhaust air is considerably contaminated and must therefore be subjected to a double cleaning, the exhaust air is first branched off flow behind the second exhaust air purification wall and fed to the heat exchanger. In this case, it is ensured that the exhaust air leaving the heat exchanger is adequately cleaned, with additional cooling of this exhaust air in the second purification stage being accepted.

In principle, it is to be understood that the optional diversion of the exhaust air behind the first or behind the second exhaust air cleaning wall can be combined with a control or regulation of the volume fraction of the exhaust air branched off for the heat exchanger. Basically, the invention provides that a portion of the exhaust passes through the heat exchanger and the entire exhaust air is passed through the heat exchanger only in certain operating situations, for example, when there is almost no pollution of the exhaust air. If necessary, it is provided that the exiting the heat exchanger exhaust air can be discharged without further purification in the environment, as it falls below the specified limits either alone or in summary with the other, exiting the house waste air cleaning device exhaust air.

Furthermore, it is to be understood that the air guiding device and the control device can be designed to deduct a portion of the exhaust air supplied to the heat exchanger before the second exhaust air cleaning wall and subtract another part before the second exhaust air cleaning wall, so as to comply with the prescribed limit depending on the sensor signal.

The stall exhaust air cleaning device according to the invention can be further developed by a second exhaust air cleaning wall arranged fluidically between the first exhaust air cleaning wall and the exhaust air outlet opening and a third exhaust air cleaning wall arranged between the second exhaust air cleaning wall and the exhaust air outlet opening, which is designed to filter odoriferous substances from the exhaust air or into odorless substances in particular, a wall filled with broken root wood, wherein it is further preferably provided that the primary air inlet of the air-air heat exchanger communicates with the connection channel between the first and second exhaust air purification device and the primary air outlet with the connection channel between the second and third exhaust air purification device communicates. In this embodiment, the stall exhaust air cleaning device is composed of a total of three purification stages, namely the first to third exhaust air purification wall. In this case, it is particularly advantageous if the exhaust air supplied to the heat exchanger is fluidly diverted behind the first exhaust air purification wall and then fluidly introduced again behind the second exhaust air purification wall, and then to pass through the third exhaust air purification wall. In this case, a flow guidance effect is achieved by the second exhaust air cleaning wall and the exhaust air of the hot and the cold side of the heat exchanger separated, so that no efficiency deteriorating mixing of the cold and hot air takes place. At the same time sufficient for normal operating conditions cleaning effect of the entire exhaust air is achieved by the double cleaning stage for the heat exchanger through the exhaust air and the triple purification stage for the other exhaust and it can be passed through the heat exchanger a high proportion of the exhaust air.

According to a further preferred embodiment, there is provided a heat exchanger exhaust purification means arranged downstream of the primary air outlet and configured as a unit different from the first, second and third exhaust purification walls, the heat exchanger exhaust purification means corresponding to the cleaning principle and purpose of the second and / or third exhaust purification walls or integral with the first one , Second or third exhaust air purification wall is formed, and the management of the exhaust air from the primary air outlet is fluidly separated from the leadership of the remaining exhaust air through the first, second and third exhaust air purification wall.

With this embodiment, an additional cleaning possibility of the exhaust air is provided which emerges from the heat exchanger. This cleaning option may consist of those stages for the purpose of complete exhaust air cleaning effect, which would have passed through the exhaust air behind the branch point to the heat exchanger, so that the exiting the exhaust air purification device exhaust air has a same degree of purification, regardless of whether it has passed through the heat exchanger or not. However, it can also be provided that the Wärmetauscherabluftreinigungseinrichtung has only one stage or a different type of purification stage, which additionally cleans the exhaust air passing through the heat exchanger in order to thereby be able to comply with the prescribed limits. The Heat exchanger exhaust purification device can be designed as a different unit, ie it can be carried out separately and independently of the exhaust air purification walls of the stall exhaust air purification device and consequently structurally independent of these. This has the particular advantage that a targeted exhaust air duct is possible, which takes into account that the discharged exhaust air should be mixed in any operating condition with the fresh air drawn into the stall, which passes through the heat exchanger. Alternatively, however, the heat exchanger exhaust purification device may also be formed integrally with the first, second or third exhaust air purification wall. It can be provided that the exhaust air from the heat exchanger is fluidly separated from the leadership of the rest of the exhaust air through these exhaust air purification walls. This design has constructive advantages, since this no additional cleaning device must be constructed, assembled and maintained.

Still further, it is advantageously provided that the first exhaust air cleaning wall has a first collecting device for the cleaning liquid supplied to it and / or the second exhaust air cleaning wall has a second collecting device for the cleaning liquid supplied thereto and the condensation liquid which occurs on the primary side of the air-air heat exchanger is collected by means of a collecting device and the first or second collecting device is supplied. With this embodiment, a cleaning effect is used, which is made possible by the condensation that occurs when cooling the exhaust air in the heat exchanger. The condensation liquid has a regular filtering effect on the exhaust air and also contains pollutants that condense early within the exhaust air. As a result, a cleaning effect for the exhaust air can be achieved in the heat exchanger itself and consequently the absence of an exhaust air purification stage can be partially or completely compensated. The condensation liquid collected in this way can in particular be collected and fed to a collecting device of the first or second exhaust air purification wall. In this way, a treatment of the contaminated condensation liquid in the water cycle of the first or the second exhaust air purification wall is achieved. This avoids the need to provide a separate processing facility for this purpose.

Finally, the stall exhaust air cleaning device according to the invention can be further developed by a first sensor for detecting the pollutant concentration in the exhaust air leaving the exhaust air purification device, a second sensor for detecting the pollutant concentration in the outgoing from the air-air heat exchanger exhaust air and an air control device for controlling the exhaust volume, which is supplied from the connection channel to the air-air heat exchanger and / or which is designed to control the location of removal of the exhaust air from the connection channel, and a control device which is signal-wise connected to the first and second sensor and the air control device and formed to control the air control device such that the sum of the detected by means of the first and second sensor pollutants is below a predetermined limit.

This embodiment makes it possible to control the house waste air cleaning device in such a way that it is ensured at each operating point and operating time that the prescribed limit values of the pollutant load in the exiting exhaust air are maintained. At the same time, this embodiment ensures that a maximum possible proportion of warm exhaust air passes through the heat exchanger and consequently maximizes the economic efficiency of the stall exhaust air purification device. The training is basically based on the possibility that the exhaust air passing through the heat exchanger is no longer or no longer completely cleaned and thus has a higher pollutant concentration compared to the other exhaust air. The training follows the principle that this higher pollutant concentration is compensated by a correspondingly lower pollutant concentration, ie a pollutant concentration that is a certain amount below the prescribed limits, if the summary pollutant load or pollutant concentration of the exhaust air is to be considered and adhered to. It is to be understood in principle that the first and second sensor can be arranged within the exhaust air flow from the heat exchanger or the remaining exhaust air and for this particular one sensor or even several sensors for detecting a plurality of pollutants can be provided. In other embodiments, however, it is also possible to provide a single sensor instead of the first and second sensors, for example a sensor which is arranged in the inlet area of the exhaust air into the stall exhaust air purification device and detects the pollutant load of the incoming exhaust air. With a known degree of purification of the exhaust air purification stages, control of the proportion of exhaust air provided for the heat exchanger and / or its removal point can then also be carried out from such an isolated pollutant measurement value.

Another aspect of the invention is the use of an air-to-air heat exchanger for increasing the efficiency of a barn air purifying device by arranging the air-air heat exchanger such that a proportion of the stale exhaust air branches off behind a first or second cleaning stage of the barn blast cleaning device and the primary side of the air-to-air heat exchanger is supplied and supplied to the air-to-air heat exchanger fresh air from the environment on the secondary side, is heated in the air-air heat exchanger and the heated fresh air is supplied to the stable. With this use, a particularly advantageous use of an air-to-air heat exchanger is proposed in connection with a Abluftreinigungswandanordnung for stables, which is characterized on the one hand to realize an economic use of the heat contained in the exhaust air, but at the same time reduces the maintenance of the heat exchanger used for this purpose in that it is supplied with partially or completely cleaned exhaust air and, furthermore, converts a cleaning effect on the exhaust air supplied to it by condensation and filter effects in the heat exchanger.

A preferred embodiment of the invention will be explained with reference to the accompanying figure. The figure shows a schematic side view of a part of a stable building with an exhaust air purification device according to the invention.

The stable building equipped with an embodiment of the exhaust air cleaning device according to the invention 10 is through a side wall 11 , a floor area 12 and a roof 13 limited. Shown is a section of the stable building and it is to be understood that the stable building is bounded on three sides by a further three side walls for a rectangular base and is an enclosed space.

In the stable building 10 are several suction holes 20a , b arranged, which fluidly with a suction channel 21 keep in touch. The suction channel 21 runs horizontally and above the livestock area in the stable building and extends through an opening in the side wall 11 in an adjoining room 30 , After passing through the side wall 11 kinks the suction channel 21 vertically downwards and opens into an outlet opening 22 , In a fluidic manner in front of the outlet opening 22 located portion of the vertically extending portion of the suction channel 21 is an air conveyor 23 arranged. The operation of the air conveyor generates a negative pressure in the suction channel 21 and thereby introduces air from the stable interior of the outlet opening 22 to.

The side wall 11 continues to limit the adjoining room 30 of the stable building 10 , In this side room 30 the exhaust air purification device is arranged. The adjoining room 30 is also through another side wall 31 , a floor 32 and a roof 33 limited.

Through the floor 32 and a horizontally extending false ceiling 34 becomes an exhaust air duct 35 educated. In the exhaust air duct is a first exhaust air purification wall 40 and a second exhaust air purification wall 50 arranged. The exhaust air purification walls 40 . 50 extend vertically in such a way that the exhaust air coming out of the outlet opening 22 exits through the first exhaust air cleaning wall must pass completely.

A humidifying device 41 is arranged in the flow direction in front of the first exhaust air cleaning wall and sprays a fine water mist in the direction of the first exhaust air cleaning wall 40 , The water dripping off in front of the first exhaust air cleaning wall and the water leaving the first exhaust air cleaning wall becomes a catch basin 42 collected and fed to a filter and treatment plant. After filtering and conditioning, the water is again through the water spray 41 sprayed.

The second exhaust air cleaning wall 50 runs parallel and spaced in the flow direction behind the first exhaust air purification wall 40 , Between the first and second exhaust air purification wall is a first exhaust air discharge channel 60 arranged, extending through the false ceiling 34 extends and its inlet opening just below the false ceiling 44 empties.

The first exhaust air extraction duct 60 kinks after a vertical course from the inlet opening 61 in a horizontal course and opens into a second exhaust duct 62 , The second exhaust air extraction duct 62 runs vertically and also extends through the false ceiling 34 , The inlet opening 63 the second exhaust duct also opens just below the false ceiling 34 and in the flow direction behind the second exhaust air purification wall 50 ,

In the area of the mouth of the first exhaust air extraction duct 60 in the second exhaust air extraction duct 62 is a swiveling air deflector 64 arranged. The air flap 64 is about a pivot axis 65 pivoted and can optionally be the mouth of the exhaust duct 60 in the exhaust air extraction duct 62 close or the exhaust air extraction duct 62 close in the flow direction before this junction. Furthermore, the air deflector 63 be pivoted into an intermediate position lying between these two end positions, as shown. By the air deflector, it is thus possible, either exclusively exhaust air from the exhaust air inlet opening 61 or only exhaust air from the exhaust air inlet opening 63 in the exhaust air extraction duct 62 introduce or a determined by the position of the air deflector mixing ratio of exhaust air from the exhaust air inlet openings 61 and 63 ,

In the flow direction behind the merging of the exhaust air extraction duct 60 and exhaust ducts 62 the exhaust air discharge channel opens 62 in an air-to-air heat exchanger 70 , The heat exchanger 70 via the exhaust air extraction duct 62 supplied exhaust air occurs at the primary-side inlet opening 71 in the heat exchanger and is on the primary-side outlet opening 72 led out of the heat exchanger again. The from the heat exchanger 70 led out exhaust air enters an exhaust chimney 73 and gets over this exhaust chimney 73 delivered to the environment. In the exhaust chimney 73 is a controllable throttle device 74 arranged by pivoting a throttle valve, the exhaust air flow through the heat exchanger 70 can control. The exhaust chimney 73 extends through the roof area 33 of the outbuilding 30 and flows into an exhaust outlet 75 at some distance above this roof surface 33 lies.

Downstream of the second exhaust air purification wall 50 is a third exhaust air purification wall 90 arranged. This third exhaust air purification wall 90 consists of a cage filled with broken burl. The third exhaust air purification wall 90 is in a rectangular opening in the side wall 31 of the stable side room 30 used and thus at the same time forms the outlet opening for that exhaust air, not the heat exchanger 70 passes.

A fresh air intake duct 80 leads the heat exchanger 70 Fresh air too. The fresh air intake duct 80 extends through an opening in the side wall 31 and sucks in fresh air from the environment of this side wall. The fresh air is passed through a secondary inlet opening 76 of the heat exchanger is introduced into the heat exchanger and leaves the heat exchanger through a secondary-side outlet opening 77 , From the secondary-side outlet opening 77 the fresh air enters a fresh air supply duct 81 one.

The over the Frischluftansaugkanal 80 sucked fresh air is in the heat exchanger 70 heated by the primary side by this running exhaust air. It should be understood that fresh air and exhaust air can be passed within the heat exchanger in countercurrent, DC or cross flow.

The fresh air supply duct 81 extends through an opening in the side wall 11 of the stable building 10 , It runs horizontally and opens into several fresh air outlet channels 82a , b, vertically from the fresh air supply passage 81 branch off to the bottom. The fresh air outlet channels 82a , b have at their lower end a respective opening 83a , b on, through which the fresh air exits into the interior of the stable building.

In the upper area and in terms of flow, in front of the first exhaust air cleaning wall 40 is a pollutant sensor 101 in the suction channel 21 arranged, which determines the pollutant concentration in the exhaust air. The pollutant sensor 101 is with a control unit 100 signal-technically coupled. The control unit 100 is also designed to the air deflector 64 and the throttle 74 to drive and for this purpose with a corresponding respective actuator for adjusting the air deflector 64 and the throttle 74 signal-technically coupled.

Using the pollutant sensor 101 Consequently, the pollutant concentration in the exhaust air before entering the Abluftreinigungsvorichtung be determined and to the control unit 100 be transmitted. The control unit 100 can then at a high pollutant concentration, the air deflector 64 into a position in which exclusively or substantially exhaust air via the exhaust air extraction duct 62 from the exhaust air inlet opening 63 the heat exchanger 70 is supplied. At a low pollutant concentration, however, the control unit, the air deflector 64 bring into a position in the exhaust air exclusively or substantially from the exhaust air inlet opening 61 and the exhaust duct 60 the air-to-air heat exchanger 70 is supplied. In addition, if necessary, another pollutant sensor in the exhaust chimney 73 be arranged to reduce the pollutant concentration of this exhaust chimney 73 to measure discharged exhaust air.

The device according to the invention can, as shown in the embodiment, with a single air conveyor 23 be operated, the exhaust air from the stable building 10 in the outbuilding 30 promotes and thereby creates an overpressure on the inlet side of the exhaust air purification device, which the exhaust air through the exhaust air purification walls 40 . 50 . 90 and through the heat exchanger 70 transported to the environment. At the same time, the exhaust air conveyor device generates 23 a negative pressure in the stable building 10 , the fresh air via the fresh air intake duct 80 , through the heat exchanger 70 and the fresh air supply passage 81 sucked into the stable building. However, it is also possible to provide exhaust air conveying devices elsewhere or, alternatively or additionally, to provide one or more fresh air conveying devices in order to provide the desired air movement for exhaust air and fresh air in the exhaust air cleaning device according to the invention.

Claims (7)

Barn air purifying apparatus, comprising: - an air-permeable exhaust air cleaning wall ( 40 ), which is made of an open-pored material, A humidifying device ( 41 ), which is arranged and adapted to moisten the open-pore material of the exhaust air cleaning wall with a liquid, - An exhaust air outlet opening ( 90 ) for cleaned exhaust air, - a connecting duct ( 35 ), which connects the exhaust air cleaning wall with the exhaust air outlet opening, characterized by an air-air heat exchanger ( 70 ) with - a primary air inlet ( 71 ), which by means of an air channel ( 60 . 62 ) with the connection channel ( 35 ) is fluidically connected to the supply of exhaust air from the connecting channel to the primary air inlet, - a primary air outlet ( 72 ) for the removal of exhaust air from the air-air heat exchanger, - a secondary fresh air inlet ( 76 ), which is in fluid communication with ambient air, - a secondary air outlet ( 77 ), with a flow channel ( 81 ) is connected to the introduction of the exiting the air-air heat exchanger heated fresh air into the house, and - a heat exchanger surface for transferring heat from the exhaust air to the fresh air. Stallabluftuftigungsvorrichtung according to claim 1, characterized by a downstream of the first exhaust air cleaning wall and upstream of the exhaust outlet opening arranged second exhaust air cleaning wall and a second moistening device which is arranged and adapted to moisten the porous material of the second exhaust air cleaning wall with a liquid and that the primary air inlet by means of Air duct communicates with the connecting channel between the first and the second exhaust air purification wall. Stallabluftuftigungsvorrichtung according to claim 1 or 2, characterized by a stromungstechnisch arranged between the first exhaust air cleaning wall and the exhaust air outlet opening second exhaust air purification wall ( 50 ) and a control device ( 100 ), which with a sensor ( 101 ) in order to detect the pollution level of the exhaust air is signal-technically in communication and which is furthermore designed to provide an air-guiding device ( 64 ) in such a way that - with a degree of pollution of the exhaust air lying below a limit value, the exhaust air supplied to the air-air heat exchanger from the connecting duct (FIG. 35 ) between the first ( 40 ) and the second exhaust air purification wall ( 50 ) is removed and - at a lying above the limit pollution level of the exhaust air, the air-air heat exchanger supplied exhaust air from the connecting channel between the second exhaust air cleaning wall and the exhaust air outlet opening is removed. Stallabluftreinigungsvorrichtung according to any one of the preceding claims, characterized by a fluidically disposed between the first exhaust air cleaning wall and the exhaust air outlet opening second exhaust air purification wall ( 50 ) and a fluidically arranged between the second exhaust air cleaning wall and the exhaust air outlet opening third exhaust air purification wall ( 90 ) which is adapted to filter odorous substances from the exhaust air or convert into odorless substances, in particular a wall filled with broken root wood, wherein the primary air inlet of the air-to-air heat exchanger communicates with the connection channel between the first and second exhaust air purification device and the primary air outlet communicates with the communication passage between the second and third exhaust air purification devices. Stallabluftreinigungsvorrichtung according to any one of the preceding claims, characterized by a downstream of the primary air outlet arranged Wärmetauscherabluftuftseinrichtung, which - As designed by the first, second and third exhaust air purification wall assembly and the Wärmetauscherabluftreinigungseinrichtung the cleaning principle and purpose of the second and / or / or third exhaust air purification wall corresponds or - Is formed integrally with the first, second or third exhaust air cleaning wall, and the management of the exhaust air from the primary air outlet is fluidly separated from the leadership of the remaining exhaust air through the first, second and third exhaust air purification wall. Stallabluftreinigungsvorrichtung according to any one of the preceding claims, characterized in that the first exhaust air cleaning wall has a first collecting device for the cleaning liquid supplied thereto and / or the second exhaust air cleaning wall has a second collecting device for the cleaning liquid supplied thereto and the condensation liquid, on the primary side of the air-air Heat exchanger occurs is collected by a collecting device and the first or second collection device is supplied. Stallabluftreinigungsvorrichtung according to any one of the preceding claims, characterized by - a first sensor for detecting the pollutant concentration in the exiting the exhaust air purification device exhaust air, - a second sensor for detecting the pollutant concentration in the exiting from the air-air heat exchanger exhaust air and - an air control device ( 64 . 74 ) for controlling the exhaust air volume, which is supplied from the connection channel to the air-air heat exchanger and / or which is formed around the location of To control removal of the exhaust air from the connecting channel, and - a control device which is signal technically connected to the first and second sensor and the air control device and designed to control the air control device such that the sum of the detected by means of the first and second sensor pollutants below a predetermined limit.

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