DE102016209952A1 - filter means - Google Patents

Abstract

The invention is based on a filter device, in particular a nitrogen oxide filter device, in particular for a ventilation system (10), with a filter unit (12) which has at least one filter element (14) with at least one photocatalytic material (16). It is proposed that the filter device has a rinsing unit (18) which is provided for rinsing out reaction products of a photocatalytic reaction from the filter element (14).

Description

State of the art

From the DE 10 2011 050 758 A1 already a ventilation device with a filter device is known, which has a filter unit with a photocatalytic filter element.

Disclosure of the invention

The invention is based on a filter device, in particular a nitrogen oxide filter device, in particular for a ventilation system, with a filter unit which has at least one filter element with at least one photocatalytic material.

It is proposed that the filter device has at least one rinsing unit which is provided for a particularly automatic rinsing of reaction products of a photocatalytic reaction from the filter element.

In this context, a "filter device" is to be understood as meaning, in particular, a component which is preferably functional, in particular a subassembly and / or a design component and / or a functional component of a filter device, in particular a nitrogen oxide filter device. In particular, the filter device may comprise the entire filter device. Advantageously, the filter device is provided to at least partially filter and / or extract and / or remove at least one substance from a medium passed through the filter unit, for example a fluid, in particular air. In principle, the substance can be at least partially retained in the filter unit during filtering. Advantageously, the substance is at least partially converted during filtering, preferably in the photocatalytic reaction, more preferably in at least one reaction product.

In this context, a "photocatalytic material" is to be understood as meaning in particular a material which permits at least one, in particular the photocatalytic reaction, advantageously by means of at least one photon absorption and a subsequent reduction of the substance. Alternatively or additionally, the photocatalytic material may also allow photocatalytic oxidation of, in particular, the substance. Preferably, the photocatalytic material allows at least one photoassisted catalytic reaction, which in particular generates the reaction products. The photocatalytic material preferably comprises at least one metal oxide, in particular at least one titanium oxide and / or at least one zirconium oxide and / or at least one zinc oxide and / or at least one tin oxide and / or at least one cerium oxide. The photocatalytic material is particularly preferably titanium dioxide, in particular an anatase, rutile and / or brookite form, pure crystalline forms being conceivable, as well as mixtures of any desired mixing ratios of different crystalline forms. For example, the filter element may comprise P-25 TiO ₂ nanoparticles. However, other nano- or microstructures are also conceivable, in particular nano- and / or microparticles and / or tubes and / or rods and / or platelets. Preferably, the filter element has at least one substrate, which is coated with the photocatalytic material. The substrate and / or the photocatalytic material particularly preferably forms a network-like and / or folded and / or tangled and / or roughened and / or porous surface and / or structure, advantageously with structural elements in the nm range and / or in the μm range and / or in the mm range.

In principle, the filter unit may have a plurality of filter elements, which are arranged fluidly next to one another and / or behind one another, which may be at least partially identical and / or at least partially different, for example two filter elements or three filter elements or four filter elements or ten filter elements or one hundred filter elements or any desired filter elements other number of filter elements.

Advantageously, the filter unit comprises at least one UV lamp, which is provided for illuminating the filter element. Particularly advantageously, the UV lamp emits photons of an energy that is greater than or equal to a band gap of the photocatalytic material. The photocatalytic material can be excited by the UV lamp during operation of the filter unit. In particular, due to the excitation, the photocatalytic material for the photocatalytic reaction can provide at least one charge carrier, for example an electron from a conduction band of the photocatalytic material, which can be used to reduce the substance.

The substance is in particular at least one nitric oxide. The filter unit is advantageous for filtering various nitrogen oxides (NO _x ) such as, for example, N ₄ O, N ₂ O, N ₄ O ₂ , NO, N ₂ O ₃ , N ₄ O ₆ , NO ₂ , N ₂ O ₄ , N ₂ O ₅ or the like, generally N _y O _z . Particularly advantageously, the reaction products comprise at least one nitrogen oxide salt and / or at least one nitric acid, for example at least one nitrate and / or at least one nitrite and / or nitric acid and / or nitrous acid. It is also conceivable that the reaction products comprise water and / or nitrogen and / or ammonia and / or ammonium salts. Preferably, the reaction products are at least partially water-soluble.

Preferably, the flushing unit is provided for guiding at least one flushing medium through the filter element for flushing. Particularly preferably, the filter unit has at least one inlet and / or at least one outlet for the flushing medium. Advantageously, the rinsing unit is provided for a regular and / or repeated rinsing of the filter element. Particularly advantageously, the filter device has at least one control unit, which is provided for a demand-activation of the flushing unit. A "control unit" is to be understood as meaning, in particular, an electrical and / or electronic unit having at least one control electronics. In particular, a "control electronics" is to be understood as meaning a unit having a computing unit and a memory unit as well as an operating, control and / or regulating program stored in the memory unit, which is provided in particular for execution by the computing unit. For example, it is conceivable that the control unit is provided in at least one operating mode to rinse the filter element at regular intervals, for example at intervals of one minute or at intervals of five minutes or at intervals of ten minutes or at intervals of one hour or at intervals of several hours or at intervals of one day or at intervals of several days, whereby any intervals within and outside the range given here are conceivable. Furthermore, it is conceivable that the control unit is provided to flush out the filter element in response to a user request, for example in a manual rinse mode.

Due to the inventive design of the filter device advantageous properties with respect to a pollutant reduction, in particular a nitric oxide filtering can be achieved. In particular, a pollutant filter can advantageously be easily cleaned and / or a functional state of a filter can be maintained by cleaning. Advantageously, a concentration of pollutants, in particular of nitrogen oxides, in air, for example an ambient air and / or a room air, can be reduced. Furthermore, a reliable nitrogen oxide filter, in particular for ventilation systems, can be provided. Advantageously, a saturation of a filter can be avoided or at least delayed. Furthermore, a cost-effective solution for reliable and / or regular filter maintenance can be provided. In addition, advantageously a long life of a filter can be achieved.

In an advantageous embodiment of the invention, it is proposed that the rinsing unit uses rinse water for rinsing. In particular, the flushing medium is the flushing water. Advantageously, the rinse water is water, which is free of additives. Particularly advantageously, the rinse water is predominantly lime-free and / or decalcified. Preferably, the rinse water has a temperature which corresponds at least substantially to an ambient temperature. By "at least substantially" is to be understood in this context in particular that a deviation from a predetermined value in particular less than 15%, preferably less than 10% and particularly preferably less than 5% of the predetermined value. But it is also conceivable that the rinse water is colder or warmer than the ambient temperature. For example, the flushing unit may have at least one temperature control device which is provided for heating and / or cooling the flushing water. As a result, advantageous reaction products can be removed quickly and reliably.

In a particularly advantageous embodiment of the invention, it is proposed that the flushing unit has at least one pump which flushes the flushing water through the filter element during flushing. In particular, the pump is provided to generate a flush flow of flushing water through the filter element in the rinsing. Preferably, the pump is designed activatable by the control unit. In particular, the pump is intended to be activated for rinsing. Advantageously, the inlet of the filter unit has at least one distributor nozzle, which is provided to allow a homogeneous purging of the filter element. As a result, a uniform and / or sustainable rinsing out of a filter can advantageously be made possible.

In a preferred embodiment of the invention, it is proposed that the rinsing unit has at least one reservoir for the rinsing water. Advantageously, the reservoir has a volume which is sufficient for at least one rinsing process. Particularly advantageously, the reservoir has a volume which is sufficient for several rinsing operations. Preferably, the reservoir has at least one overflow, which is formed connectable, for example, with a sewer line. As a result, a reliable supply with a flushing medium can advantageously be provided.

In a particularly preferred embodiment of the invention, it is proposed that the filter device has a water extraction unit, which is provided for the recovery of the rinse water by condensation of air, in particular from an ambient air. In particular, the flushing unit has at least one supply line, via which flushing water obtained by the water extraction unit reaches the reservoir can. It is conceivable that the control unit is provided to activate the water extraction unit as needed. This can advantageously be achieved independence from a water connection.

Furthermore, it is proposed that the water extraction unit is provided for recovering the rinse water from air passed through the filter unit. Preferably, the filter device has at least one air inlet, through which air can be conducted into the filter unit. Particularly preferably, the filter device has at least one fan, which sucks air through the air inlet and / or blows and / or pushes through the filter unit and / or sucks and / or blows. Advantageously, the control unit is provided to activate the fan as needed. In particular, an activation of the fan may be coupled to an air requirement, for example in a room to be ventilated, wherein the ventilation device in this case may be part of a room ventilation and / or air conditioning and / or ventilation system. Particularly advantageously, the filter device has at least one air outlet, through which air conducted through the filter unit can escape from the filter device. As a result, advantageously a structural simplicity can be achieved.

It is also proposed that the water extraction unit comprises at least one heat exchanger, which is part of a, in particular, the ventilation system. Preferably, the heat exchanger is provided to heat or cool the air passed through the filter unit as needed. Particularly preferably, the water extraction unit is provided to recover the rinse water as condensate from the heat exchanger. For example, the heat exchanger may be part of an air conditioning system. Preferably, the control unit is provided to activate the heat exchanger as needed. As a result, multiple use of a functional component and / or a cost-efficient design can advantageously be made possible.

It is also proposed that the filter device has a sensor unit which is provided for a detection of the reaction products. Advantageously, the sensor unit is provided to generate at least one correlated with a concentration and / or a molar amount of the reaction products sensor signal. Particularly advantageously, at least part of the sensor unit, for example a sensor head and / or a sensor and / or a measuring electrode or the like, is arranged in and / or on the filter element. Alternatively or additionally, it is conceivable that the filter device has at least one NO _x sensor, which is provided for detecting a NO _x concentration. For example, the filter device may comprise at least one first NO _x sensor, which is arranged in fluidic manner in front of the filter unit and is provided in particular for measuring a NO _x concentration in an inflowing air flow. Alternatively or additionally, it is conceivable that the filter device has at least one second NO _x sensor, which is arranged downstream of the filter unit in terms of flow and is provided in particular for measuring a NO _x concentration in an outflowing air stream. As a result, a need for rinsing out a filter can advantageously be recognized.

In an advantageous embodiment of the invention, it is proposed that the filter device has a control unit which is provided for activating the purging unit as a function of at least one, in particular the, sensor signal of the sensor unit. Preferably, the control unit is provided to activate the flushing unit, if a concentration and / or a molar amount of the reaction products exceeds a predetermined limit. Furthermore, it is conceivable that the control unit is provided to create a contamination profile of the filter from a temporal course of the sensor signal and, in particular, to trigger a rinsing of the filter element by the rinsing unit based on this contamination profile at specific time intervals. As a result, a cleaning of a filter can advantageously be carried out as required.

Advantageous properties with regard to a pollutant reduction and / or a cleaning of a filter and / or a room air quality can be achieved with a ventilation system having at least one filter device according to the invention.

An advantageous pollutant reduction and / or a long service life of a filter can be achieved by means of a method with a filter device according to the invention, wherein reaction products of the photocatalytic reaction are rinsed out of the filter element.

The filter device according to the invention should not be limited to the application and embodiment described above. In particular, the filter device according to the invention can have a number deviating from a number of individual elements, components and units specified herein for fulfilling a mode of operation described herein.

drawing

Further advantages emerge from the following description of the drawing. In the drawing, an embodiment of the invention is shown. The drawing, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

It shows:

1 a ventilation system with a filter device in a schematic representation.

Description of the embodiments

1 shows a ventilation system 10 with a filter device 32 in a schematic representation. The ventilation system 10 is designed in this case as an air-conditioning ventilation system of a building. But it is also conceivable a ventilation system with a filter device according to the invention, which is part of a means of transport such as a bus, a train, an aircraft or a ship. Further, a ventilation system with a filter device according to the invention is conceivable, which is provided for a treatment of ambient air, for example outdoors and / or in an interior. In general, a ventilation system with a filter device according to the invention is conceivable, which is provided as an alternative or in addition to a circulation of air.

The filter device 32 has a filter unit 12 on. The filter unit 12 has at least one filter element 14 on. However, it is also conceivable that a filter unit has a plurality of filter elements. The filter element 14 has at least one photocatalytic material 16 on. In the present case, the filter element 14 as one with the photocatalytic material 16 coated, porous substrate formed. Further, in the present case, the photocatalytic material 16 a crystalline titanium oxide.

The filter device 32 has a flushing unit 18 resulting in a rinsing out of reaction products of a photocatalytic reaction from the filter element 14 is provided. The photocatalytic reaction in the present case is a photoassisted catalytic reaction. In the photocatalytic reaction, nitrogen oxides are degraded in the present case. The filter element 14 is intended to photocatalytically convert nitrogen oxides into the reaction products.

The filter unit 12 in the present case comprises a UV lamp 34 leading to a lighting of the filter element 14 is provided. In the present case, the UV lamp 34 used in a continuous mode. However, it is also conceivable that a UV lamp illuminates a filter element pulsed. The UV lamp 34 emits light with a wavelength that is less than 388 nm. From the UV lamp 34 emitted photons generate excited states in the photocatalytic material 16 , These excited states include the presence of an electron in a conduction band of the photocatalytic material 16 , By means of this electron substances, in the present case nitrogen oxides, which are in the filter element 14 halt, be chemically reduced and converted into the reaction products. The filter unit 12 in the present case comprises another UV lamp 36 for lighting the filter element 14 ,

The flushing unit 18 uses rinse water for rinsing. The flushing unit 18 has at least one pump 20 on, which in the rinsing the rinse water through the filter element 14 flushes. The flushing unit 18 has a supply line 38 on, over which the pump 20 the rinse water flushed out through an inlet 40 the filter unit is pumping. In an area of the inlet 40 indicates the rinsing unit 18 a nozzle 42 on, leading to a homogeneous introduction of the rinse water in the filter element 14 is provided. The filter unit 12 indicates a drain 44 on, by which during rinsing the rinse water from the filter element 14 can be directed. The indulgence 44 is designed to be connectable to a waste water connection.

The flushing unit 18 includes at least one reservoir 22 for the rinse water. In the present case is the reservoir 22 via an inlet 46 with the pump 20 connected. During rinsing, the pump pumps 20 Rinse water from the reservoir 22 to the inlet 40 the filter unit 12 ,

The filter device 32 has a water extraction unit 24 on, which is intended to recover the rinse water by condensation of air. The water extraction unit 24 is to recover the rinse water through the filter unit 12 directed air provided. The filter device 32 has an air inlet 48 on, through the air in the filter unit 12 can occur. Furthermore, the filter device 32 an air outlet 50 on, through the air from the filter unit 12 can escape. For example, the air intake 48 be arranged outside a building. Furthermore, a ventilation system may have a plurality of air inlets. For example, the air outlet 50 be arranged within a building. This allows air to ventilate an interior of the ventilation system 10 to be provided. A ventilation system can have a plurality of air outlets, which open, for example, in different rooms of a building. The filter device 32 has a fan 52 on, the air through the air intake 48 sucks and through the filter unit 12 in the direction of the air outlet 50 blows.

The water extraction unit 24 includes at least one heat exchanger 26 which is part of a ventilation system. In the present case, the heat exchanger 26 Part of a ventilation system of the ventilation system 10 , The flushing unit 18 is intended to warm or cool the blower 52 conveyed air by means of the heat exchanger 26 accumulating condensation as rinse water in the reservoir 22 to collect. The reservoir 22 has an overflow 54 on, which is formed connectable to a sewer line.

The filter device 32 has a sensor unit 28 which is intended to detect the reaction products. In the present case, at least one sensor head 56 the sensor unit 28 within the filter element 14 arranged. The sensor unit 28 is intended to determine a concentration and / or a molar amount of nitrogen oxide salts and / or nitric oxide acids. Furthermore, the sensor unit 28 intended to generate at least one sensor signal which correlates with the concentration and / or the amount of substance of the reaction products.

The filter device 32 has a control unit 30 on, leading to activation of the flushing unit 18 as a function of at least one sensor signal of the sensor unit 28 is provided. In the present case, the control unit processes 30 the sensor signal and compares a concentration and / or molar amount of the reaction products with a specified corresponding limit. The control unit 30 is intended, when exceeding the limit, the rinsing of the filter element 14 trigger. The control unit 30 is to an on-demand activation of the pump 20 intended.

Further, in the present case, the control unit 30 to an on-demand activation of the water extraction unit 24 intended. In addition, the control unit 30 for an on-demand activation of the blower 52 intended. Furthermore, the control unit 30 for an on-demand activation of the heat exchanger 26 intended. In the present case, the control unit 30 as a central computer of the ventilation system 10 educated.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102011050758 A1 [0001]

Claims (11)

Filter device ( 32 ), in particular nitrogen oxide filter device, in particular for a ventilation system ( 10 ), with a filter unit ( 12 ), which at least one filter element ( 14 ) with at least one photocatalytic material ( 16 ), characterized by a rinsing unit ( 18 ) resulting in a rinsing out of reaction products of a photocatalytic reaction from the filter element ( 14 ) is provided. Filter device ( 32 ) according to claim 1, characterized in that the flushing unit ( 18 ) used for rinsing rinse water. Filter device ( 32 ) according to claim 2, characterized in that the rinsing unit ( 18 ) at least one pump ( 20 ), which in the rinsing the rinse water through the filter element ( 14 ) washes. Filter device ( 32 ) according to claim 2 or 3, characterized in that the rinsing unit ( 18 ) at least one reservoir ( 22 ) for the rinse water. Filter device ( 32 ) according to one of claims 2 to 4, characterized by a water extraction unit ( 24 ), which is intended to recover the rinse water by condensation of air. Filter device ( 32 ) according to claim 5, characterized in that the water extraction unit ( 24 ) for recovering the rinse water through the filter unit ( 12 ) Guided air is provided. Filter device ( 32 ) according to claim 5 or 6, characterized in that the water extraction unit ( 24 ) at least one heat exchanger ( 26 ), the part of a ventilation system ( 10 ). Filter device ( 32 ) according to one of the preceding claims, characterized by a sensor unit ( 28 ), which is intended for detection of the reaction products. Filter device ( 32 ) according to claim 8, characterized by a control unit ( 30 ) leading to activation of the flushing unit ( 18 ) as a function of at least one sensor signal of the sensor unit ( 28 ) is provided. Ventilation system ( 10 ) with at least one filter device ( 32 ) according to any one of the preceding claims. Method with a filter device ( 32 ), in particular according to one of claims 1 to 9, with a filter unit ( 12 ), which at least one filter element ( 14 ) with at least one photocatalytic material ( 16 ), wherein reaction products of the photocatalytic reaction from the filter element ( 14 ) are rinsed.

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