DE202009016308U1 - Device for filtering an ingredient from a gas stream - Google Patents

Abstract

Device (100) for filtering an ingredient from a gas stream, having the following features:
an adsorption region (102) into which the gas stream can be introduced;
a desorption area (104);
a separation wall (106) disposed between the adsorption area (102) and the desorption area (104) for separating the adsorption area (102) from the desorption area (104); and
a rotatably arranged adsorber (108) having a plurality of portions distributed on the adsorption area (102) and the desorption area (104), and portions arranged in the adsorption area (102) upon rotation (112) of the adsorber (108) move into the desorption area (104) and portions disposed in the desorption area (104) move into the adsorption area (102) during rotation (112), and portions disposed in the adsorption area (102) are formed to at least one Ingredient to adsorb from the gas stream.

Description

The The present invention relates to an apparatus for filtering an ingredient from a gas stream.

in the road environment come numerous noxious gases and odors, which in the outdoor air operation of Air conditioning often be perceived in the vehicle interior. In addition, lie in the vehicle interior a variety of "VOC's" (volatile organic compound) ago, which received in the recirculation mode of the air conditioner from the filter should be.

This leads to, that cab air filters of different air contents be flowed through. From measurements and literature studies, these substances are known and can be classified.

Frequently in the hybrid filters used today the interpretation in the very limited adsorption capacity exhausted rather quickly. this has The result is that after a certain life odors do not more sufficiently absorbed and therefore perceived in the vehicle interior can be.

used Be pleated vehicle interior filters that fall into the categories Particulate filter, activated carbon filter and hybrid filter are divided can. Activated carbon filter are hardly in use today. Hybrid filters have a combination of Partikelabscheidevlies and activated carbon.

By a use of "standard activated carbon" products, can Although pollutant tips smoothed become, however, become frequent size Amounts of harmful gases insufficient adsorbed. The small amounts of activated carbon in the filters are sufficient insufficient the service life requirements.

The Filtering property of known filters depends on the adsorption behavior of the sorption materials used. On the one hand, from today's Although cabin air filters a wide range of substances be included, however, are not selective for certain Pollutant classes sorbents used, such. B. a special Adsorption of sulphurous substances or ammonia. These filters are to be exchanged after certain exchange intervals, as a rule after 30,000 km.

Customer wishes, in particular special regional requirement profiles, are not with today's filters or only insufficient Fulfills. To a sufficient reduction of odors and a separation of Pollutants over a longer one To obtain service life is a high amount of sorption material or the regeneration of the material by desorption required.

It the object of the present invention is an improved device for filtering an ingredient from a gas stream.

These The object is achieved by a device according to claim 1.

core The invention is a Rotationsadsorber for the removal of gaseous Luftinhaltsstoffen an airflow. Special feature is the running parallel to the adsorption Desorption. By turning the adsorber is always a other part of the adsorber in the desorption or in the adsorption.

Of the Rotary adsorbers, and in particular the sorbent material, can be made consist of sintered materials.

Of the inventive approach allows, an amount of sorbent material introduced into the airflow as far as possible to use optimally. To ensure this use for as long as possible, regeneration of the sorbents is required. This will ensured that over one long period of time, very efficient pollutants from the air flow can be removed. By the corresponding desorption will turn the sorbents back into one Condition offset, in which good kinetics and dynamics of the organic and inorganic sorbents is achieved and thereby a significant Odor reduction can take place.

advantageously, can in the present invention, a consistently good capacity of the Adsorbers can be achieved by desorption. Other advantages are the high sorption capacity and the low tendency to displacement adsorption. A combination of different sorbents can be realized so that here an optimal adaptation to the respective requirement profile becomes possible. An interpretation as a long-life or life-time filter is under consideration of needs-based maintenance intervals possible. Alternatively, a distinct increase the filter surface or an increase the change intervals are performed.

The present invention provides a device for filtering an ingredient from a gas stream, comprising: an adsorption region into which the gas stream can be introduced; a desorption area; a partition disposed between the adsorption area and the desorption area to separate the adsorption area from the desorption area; and a rotatably disposed adsorber having a plurality of portions distributed on the adsorption area and the desorption area, and wherein in the adsorption area arranged portions move in a rotation of the adsorber in the desorption and moving in the desorption arranged portions move during rotation in the adsorption, and wherein arranged in the adsorption region portions are formed to adsorb the at least one ingredient from the gas stream.

The inventive device For example, it can be used as a cabin air filter in a vehicle become. Thus, the gas stream may be air that should be exempted from at least one ingredient. In the ingredient can they are particles that are in the ambient air. Also, the ingredients may be volatile organic compounds and Act odors. By filtering the ingredients removed from the gas stream. The filtering can be done by adsorption. Can do this suitable adsorbents adapted to the constituents to be filtered out or sorbents are used. The adsorbents can on a surface be arranged of the adsorber. Adsorption then takes place when the ingredients are bound to the surface of the adsorber. To remove the bound ingredients again, the adsorber be desorbed. This can be done by appropriate treatment of the Adsorbers, such. B. a heat, respectively. The adsorber can be used as a shaped body, for example as a disk, accomplished be. The adsorber can be rotatably mounted about an axis. The surface The adsorber can be divided circumferentially into individual sections. The sections can while seamless be strung together and be identically formed, so that themselves a homogeneous surface of the absorber. By the absorber is arranged so that during operation of the adsorber at any time some of the sections of the adsorber in an adsorption area and other sections of the Adsorbers can be located in a desorption area, adsorption or the desorption can be carried out in parallel. This may be necessary be to separate the adsorption from the desorption and separated by a partition.

According to one embodiment can be arranged in the desorption arranged portions around an adsorbed from the gas stream ingredient to the Desoptionsbereich to desorb. Thus, the adsorption of ingredients and desorbing the ingredients in parallel and arranged in separate Areas take place. Desorption allows the adsorber to run continuously be released from the ingested ingredients, so that a optimal filter effect can be maintained.

The A plurality of sections may include a sorbent material is formed to the at least one ingredient from the gas stream to adsorb. For example, the sorbent material may be at least have an organic and / or inorganic substance. Such Substances can z. As activated carbon products, zeolites, polymers and catalytic Materials include. A combination of different substances can be advantageous if different for a field of application Ingredients are to be adsorbed. This allows the sorption material be tailored to specific applications.

According to one embodiment According to the present invention, the device according to the invention a heating device, which is formed, at least to heat one of the arranged in the desorption area sections. By heating, the ingredient adsorbed from the gas stream can Desorbed at the Desoptionsbereich. The heater can be electrically or by means of external heating, for. B. by the hot exhaust gases of a vehicle.

Also can the device of the invention have a microwave device which is designed to at least to irradiate one of the arranged in the desorption section to the adsorbed from the gas stream ingredient to the Desoptionsbereich to desorb. By analogy with heating, microwave irradiation can be used for Desorbing ingredients. It can be a Microwave device can be integrated into the vehicle and the Microwave radiation aligned exactly to the areas to be desorbed become.

alternative or additionally can the device of the invention have a device for generating a negative pressure, which is formed is to create a negative pressure in the desorption area, around the ingredient adsorbed from the gas stream to the desorption area to desorb. Due to the negative pressure can be a suction of the ingredients from the adsorber and in addition be made possible from the desorption. The energy for generating the negative pressure can by means of an internal combustion engine of the vehicle.

According to one embodiment can the plurality of sections have flow channels. The gas flow can be through flow channels of in the adsorption region arranged portions are passed. About the Flow channels can a flow resistance of the adsorber over the Gas flow can be reduced. In addition, the flow channels can be the effective surface of the adsorber increase.

Of the Gas flow can be applied to the sections arranged in the adsorption area be directed and the rotation of the adsorber can by the gas flow be effected. Are the sections formed such that the directed gas flow causes a rotation of the adsorber, so can on an external drive relationship meadow waives a third party drive become. Can do this For example, the flow channels a have appropriate shape, so that the flowing through the flow channels gas stream exerts a corresponding driving force on the adsorber.

alternative or additionally can the device of the invention have an external drive which is adapted to the rotation to effect the adsorber. The foreign drive can be a speed the rotational movement and thus the filtering effect are controlled.

According to one embodiment According to the present invention, the adsorber may be disk-shaped be. A disk has good rotation properties and can structurally simple through an opening led the partition become.

The Plurality of sections of the adsorber can cover an entire surface of the adsorber Cover adsorber. Alternatively you can the sections only subregions of the adsorber, for example, a border area or flow channels of the adsorber, cover.

Of the Gas flow may be introduced into a vehicle cabin of a vehicle Represent airflow. The device according to the invention can be a in the adsorption region arranged feed channel for supplying the Air flow to the arranged in the adsorption section sections of the adsorber and a discharge channel for discharging a filtered through the adsorber air flow to the vehicle cabin towards. Thus, the inventive approach can be advantageous in a Air conditioning or a ventilation system of a vehicle. The device according to the invention may alternatively or additionally to known filters are used.

One advantageous embodiment The present invention will be described below with reference to FIGS enclosed drawing closer explained. It shows:

1 an illustration of a device according to the invention.

In the following description of the preferred embodiments of the present invention are for those in the various Drawings shown and similar acting elements same or similar Reference numeral used, with a repeated description of this Elements is omitted.

1 shows a schematic representation of a device 100 for filtering an ingredient from a gas stream, according to an embodiment of the present invention. Two room areas, one adsorption area 102 and a desorption area 104 are through a partition 106 separated. A cylinder-shaped adsorber 108 is arranged so that a part of the adsorber 108 in the adsorption area 102 and another part of the adsorber 108 in the desorption area 104 has. About a symmetrical to the cylindrical shape of the adsorber 108 arranged axis of rotation 110 can be a turn 112 of the adsorber 108 relative to the partition 106 be performed. A flow direction 114 one for filtering gas flow is indicated by an arrow 114 parallel to the axis of rotation 110 represents. The gas stream hits in the adsorption area 102 on the adsorber 108 ,

According to this embodiment, the gas flow hits 114 on an underside of that portion of the adsorber 108 that is in the adsorption area 102 located. The adsorber 108 can be designed so that it opposes the gas flow a low flow resistance, so that the gas flow through the adsorber 108 can flow through it. The gas stream touches a surface of the adsorber 108 and can interact with this. Subsequently, the gas stream from a side opposite the underside of the adsorber 108 emanate again and then be introduced, for example, in a vehicle cabin. Once the gas stream is in contact with the adsorber 108 and in particular with in the adsorber 108 contained adsorption materials, ingredients from the gas stream to the adsorber 108 be adsorbed, so that the gas stream the adsorber 108 leave clean.

The adsorbed from the gas stream ingredient can in the desorption 104 be desorbed. The desorption process can then take place when, by a rotation 112 of the adsorber 108 , the desorbing part of the adsorber 108 from the adsorption area 102 in the desorption area 104 was filmed. Desorption can take place in which the part of the adsorber to be desorbed 108 in the desorption area 104 is treated appropriately. For this purpose, appropriate facilities in or on the desorption 102 to be ordered. Desorbed ingredients can be desorbed 104 be dissipated.

The partition 106 can the adsorption area 102 so from the desorption area 104 separate that the gas flow is not or only to a small extent, z. B. via leakage in the desorption 104 can occur. This can be the partition 106 around the adsorber 108 be guided around as closely as possible with an outer surface of the adsorber 108 to lock. The adsorber 108 may be arranged in the adsorption area 102 a larger proportion of the adsorber 108 is as in the desorption area 104 , Accordingly, the axis of rotation 112 in the adsorption area 102 be arranged. According to this embodiment, the partition wall 106 make a kink, leaving a sector of the adsorber 108 separates. The axis of rotation may be coupled to a motor via which the adsorber 108 can be set in rotation.

For the in 1 Rotational adsorber shown in this embodiment, a filter element is provided, which uses deviating from conventional cabin air filters no pleated media. Rather, molded bodies, extrudates or the like are introduced into the air stream, which have a low flow resistance and / or selective adsorption properties due to their design. The structure is according to this embodiment as a cylindrical disc 108 provided with variable height and diameter. By rotation 112 around the centric axis 110 is it possible to use portions of the adsorber 108 to use for adsorption, as well as other parts that are outside of the directed into the vehicle cabin air flow to desorb. The rotation 112 of the rotary adsorber 108 takes place according to this embodiment by the applied air mass flow 114 and a corresponding formation of the flow channels. Alternatively, the rotation can be done by an external drive.

As sorbent materials in or on the adsorber 108 are arranged and with the air mass flow 114 can come into contact, numerous organic and inorganic sorbents, such. As activated carbon products, zeolites, polymers, catalytic materials, and all conceivable combinations can be used. The desorption can be performed in different ways. For example, the desorption in the vehicle itself can be carried out by the negative pressure of the internal combustion engine or by heating, by intrinsic or external heating, or by microwave irradiation. This can be done during operation of the Rotatonsadsorbers in the vehicle. Alternatively or additionally, the desorption can take place by heating or microwave irradiation of the entire rotary adsorber outside the vehicle.

The described embodiments are chosen only as an example and can be combined with each other. Other versions of desorbable Filtering is possible.

Claims (13)

Contraption ( 100 ) for filtering an ingredient from a gas stream, comprising: an adsorption region ( 102 ) into which the gas stream can be introduced; a desorption area ( 104 ); a partition ( 106 ) between the adsorption area ( 102 ) and the desorption area ( 104 ) is arranged around the adsorption area ( 102 ) of the desorption area ( 104 ) to separate; and a rotatably arranged adsorber ( 108 ) having a plurality of sections which are directed to the adsorption area ( 102 ) and the desorption area ( 104 ) are distributed, and wherein in the adsorption ( 102 ) arranged portions during a rotation ( 112 ) of the adsorber ( 108 ) in the desorption area ( 104 ) and in the desorption area ( 104 ) arranged portions during the rotation ( 112 ) in the adsorption area ( 102 ), and wherein in the adsorption area ( 102 ) are arranged to adsorb at least one ingredient from the gas stream. Contraption ( 100 ) according to one of the preceding claims, wherein in the desorption area ( 104 ) are arranged to a adsorbed from the gas stream ingredient to the Desoptionsbereich ( 104 ) to desorb. Contraption ( 100 ) according to one of the preceding claims, wherein the plurality of sections comprises a sorption material, which is designed to adsorb the at least one ingredient from the gas stream. Contraption ( 100 ) according to claim 3, wherein the sorbent material comprises at least one organic and / or inorganic substance. Contraption ( 100 ) according to one of the preceding claims, with a heating device which is designed to be at least one of the in the desorption ( 104 ) to heat the adsorbed from the gas stream ingredient to the Desoptionsbereich ( 104 ) to desorb. Contraption ( 100 ) according to one of the preceding claims, comprising a microwave device, which is designed to hold at least one of the in the desorption region ( 104 ) to irradiate the adsorbed from the gas stream ingredient to the desorption area ( 104 ) to desorb. Contraption ( 100 ) according to one of the preceding claims, with a device for generating a negative pressure, which is designed to be in the desorption region ( 104 ) to generate a negative pressure in order to supply the substance adsorbed from the gas stream to the desorption region ( 104 ) to desorb. Contraption ( 100 ) according to one of the preceding claims, in which the plurality of sections have flow channels, and the gas flow through flow channels of those in the adsorption zone ( 102 ) arranged portions is passed. Contraption ( 100 ) according to one of the preceding claims, in which the gas flow is directed towards that in the adsorption zone ( 102 ) arranged from sections and the rotation ( 112 ) of the adsorber ( 108 ) is effected by the gas flow. Contraption ( 100 ) according to one of the preceding claims, with an external drive, which is designed to control the rotation ( 112 ) of the adsorber ( 108 ) to effect. Contraption ( 100 ) according to one of the preceding claims, in which the adsorber ( 108 ) is disc-shaped. Contraption ( 100 ) according to one of the preceding claims, in which the plurality of sections comprise an entire surface of the adsorber ( 108 ) covered. Contraption ( 100 ) according to one of the preceding claims, in which the gas flow is an air flow to be introduced into a vehicle cabin of a vehicle, and in which the device has an airflow in the adsorption region ( 102 ) arranged to supply the air flow to those in the adsorption ( 102 ) arranged portions of the adsorber ( 108 ) and a discharge channel for discharging one through the adsorber ( 108 ) has filtered air flow to the vehicle cab out.