DE102007037709A1 - Air filtration system for use in air supply unit, has air conduction element flowing and/or feeding and/or supplying air through suction, and filter element designed as air-permeable adsorption filter for adsorption of e.g. toxic materials - Google Patents

Abstract

The system (1) has an air conduction element that is tubular in shape, where the air conduction element is provided for flowing and/or feeding and/or supplying air through suction. A filter element is designed as an air-permeable adsorption filter for adsorption of harmful, odorous and toxic materials. The filter element is integrated into the air conduction element. The filter element sectionally extends over the longitudinal adjustment of the air conduction element. The adsorbent particles are activated charcoal, zeolite, inorganic oxides, silicon dioxides, silica gel and aluminum oxide, molecular sieves, or mineral granulates.

Description

The The present invention relates to an air filtration system having a at least substantially tubular air duct element and at least one filter element according to the preamble of claim 1, wherein the air filtration system according to the invention in particular for the treatment of air, for example for cabs (Cabs) of commercial and construction vehicles or like, is suitable. Furthermore, the present invention relates an air supply unit, which is the inventive Air filtration system, as well as the use of a filter element for the treatment of air, for example for cabs (Cab) of commercial and construction vehicles or the like.

At with the ventilation of enclosed spaces buildings and motor vehicle interiors, For example, of passenger compartments or cabs of motor vehicles, accompanying treatment of air due to constructive requirements as well as laws to be respected Health standards high demands. For example As far as commercial and construction vehicles are concerned, the Air quality in the cabs or driver's cabs meet high standards, especially since the relevant Conditions associated with corresponding laws are increasingly stringent become. In addition, especially in the field of commercial and construction vehicles to watch the development that the vehicles with more and more technical components are equipped so that not finally the space for filtration devices of air gets smaller and smaller. It also makes the technical development, namely that the technical systems in such Vehicles subjected to a certain reduction or miniaturization are, what often with a corresponding space- or space-optimized Alignment of the design or construction of the vehicles is involved, required that also the devices for air filtration adapted to the corresponding spatial conditions become. Consequently, such devices for air filtration in a sense subjected to a reduction process, because of the spatial formation of such devices close constructive limits exist.

there It is also required that high performance the air filtration devices is ensured, in particular because just Nutz- and construction vehicles in such areas for Use come where a sometimes high load of outdoor air Contains pollutants, odors and toxins. It is also remarkable that a not insignificant part of these air pollutants and construction vehicles itself is produced as such vehicles for the most part pollutant-emitting Combustion engines, in particular diesel engines, equipped are those who use the vehicles at appropriate loads the outside air lead, especially as often a variety used by construction machinery in a confined space. In addition, lies on Location, such as construction sites or the like, also by external Factors often an increased air pollution, for example As far as the dust load in the context of demolition work, in this regard, for example, gaseous Pollutants can be released. This can be z. B. be the case if buildings to demolish one have contaminated building substance, as it is for example in the Renovation or demolition of industrial plants, for example in the chemical industry, or from petrol stations can be. In addition to the associated with the construction measures Dust pollution thus often results in an additional Exposure of the outside air with gaseous in particular Pollutants, odors and toxins, which is a great danger represent for the driver of the construction vehicle, in particular if the driver over a longer period of time exposed to such exposure.

The known in the art devices for the filtration of Air, especially for cabs, Cabs or cabs of commercial and construction vehicles often do not live up to the requirements mentioned above they are structurally space or space consuming and in the form of a Variety of components are present. So it is in the art provided that the air to be filtered first through piping from the intake manifold to a separate, space-consuming filtration unit is guided, then through further piping systems to be directed to the driver's cab. As previously stated, is such a system space consuming and structurally complex. In addition, such devices for air filtration of the state the technique with separate filtration units fluidic African not always optimized, so that sometimes not optimal filter performance result.

In front This technical background is an object of the present invention Invention, therefore, an air filtration system for treatment of air for closed rooms or buildings, to provide the above-described disadvantages of the prior the technology at least largely avoids or at least weakens. In particular, such an air filtration system should structurally simple design and save space and at the same time the high requirements regarding the removal of harmful substances, Odor and toxins from the air to be filtered meet.

The previously described task is in the Rah men of the present invention - according to a first aspect of the invention - by an air filtration system, in particular for the treatment of air for enclosed spaces or buildings, for passenger compartments and cabins of motor vehicles, ships and aircraft, for cabs (cabs) of commercial and construction vehicles or the like Claim 1 solved. Further, advantageous embodiments of the air filtration system according to the invention are the subject of the relevant subclaims.

Another The present invention is - according to a second aspect of the invention - an air supply unit according to claim 41, which is the air filtration system according to the invention contains.

After all is the subject of the present invention - according to a third aspect of the invention - the use of a filter element in the form of an air-permeable adsorption filter for Treatment of air according to claim 42, wherein the filter element in an at least substantially tubular air duct element is integrated.

It it goes without saying that embodiments, embodiments, Advantages and the like, which hereinafter for purposes of avoidance of repetitions only to one aspect of the invention are, of course, in relation to the rest Invention aspects apply accordingly.

object of the present invention - according to a first aspect of the present invention - is thus a Air filtration system, which is especially for treatment of air for closed spaces or buildings, for passenger compartments and cabins of motor vehicles, ships and aircraft, for cabs (cabs) of commercial and construction vehicles or the like is suitable, wherein the air filtration system according to the invention at least one at least essentially tubular air duct element, in particular for flowing through and / or suction and / or feeding and / or supplying or with air, and at least one filter element having. A special feature of the present invention is in particular to be seen in that the filter element as an air-permeable Adsorption filter, in particular for the adsorption of pollutants, odor and toxins.

there is the air filtration system according to the invention designed to be used to supply filtered external or ambient air in a vehicle interior, in particular in a Driver's cab or in a driver's cab of a utility and construction vehicle, can be used. equally can the air filtration system of the invention be used in the so-called recirculation mode, the air filtered in the cab itself in the manner of a circulation system becomes. According to the invention, among useful or construction site vehicles, for example, and in non-limiting Way excavators, such as wheeled excavators, crawler excavators, demolition excavators, backhoes, Loading shovels, truck mixers, graders, cranes, telescopic cranes, loaders, Backhoe loaders, crawler loaders, delta loaders, wheel loaders, dumpers, such as dump trucks, Dozers, rollers, such as rubber wheeled rollers, road rollers, Vibratory rollers, compactors, or the like understood become.

The inventive air filtration system records characterized by the fact that it - with excellent Filter performance, in particular with regard to pollutants, odors and toxins - about has a compact design, so that it is for a variety of applications, especially as before led, suitable and also with small space offers in an effective manner, for example, in a commercial or construction vehicle can be integrated.

Because the air filtration system according to the invention is characterized further characterized by the fact that the filter element in the Can be integrated air duct element or that the filter element Part of the air filtration system is. The filter element can in particular in the interior of the air duct element at least in sections be included. Furthermore, it can be provided according to the invention be that the filter element in the air duct element is embedded and / or that the filter element in the air duct element is fixed. In this way, the previously described compact design of the invention Air filtration system can be realized, since so to speak according to the invention a space-saving design based on air filtration, which takes place in the air duct element itself, is realized. there it is inventively managed to additional or to dispense with separate filter or filtration units, what the space savings continue to benefit. By eliminating one additional filter or filtration unit in the state the technology to a certain extent separately, for example after Be formed type of a voluminous Filterbox- or filter chamber also results in a significant cost savings with regard to the air filtration system according to the invention.

This may according to the invention in the air duct element to an air line or an air pipe or the like, which consists for example of plastic or metal and preferably at the respective ends with other connection or connection devices for other air duct elements, distribution elements, control elements, Ausströmeinrichtungen, Ansaugeinrichtun gene or the like.

The Air filtration system according to the invention can also be constructed such that the filter element at least in sections over the longitudinal orientation of the Air duct element extends. In other words, it can be provided according to the invention be that the filter element is a part of the volume of Luftleitungselementes fills, with it in this regard can be provided that - as below described - the filter element, so to speak in full on the inner wall of the air duct element to a certain extent Type of air-permeable plug rests or attached is.

The Filter element can thus at least substantially over extend the cross section of the air duct element. According to this according to the invention preferred embodiment fills the filter element in a sense the cross section or the cross-sectional area of the air duct element at least essentially completely, so that a so-called "Bypass formation" is avoided with the result that the through the air flowing through the air duct element the filter element is passed, what the filter efficiency or performance further increased. The term "cross section", "Cross-sectional area" or "diameter", as in the frame the present invention with respect to the air duct element used, refer to the corresponding inner cross section, the inner cross-sectional area or the inner diameter of the air duct element.

Around a tight fit of the filter element in the air duct element it can be provided according to the invention be that the filter element frictionally, in particular by compression of the filter element, connected to the air duct element is. In this context, it may be to achieve a particular be provided good fixation that the filter element a larger compared to the air duct element cross-section or an enlarged cross-sectional area and during installation or during integration in the air duct element is compressed and thus by the resulting Restoring force in a sense to the inner wall of the air duct element is pressed so that a secure fit of the filter element results in the air duct element. Around the seat of the filter element in the air duct element on improve, it can according to the invention equally be provided that the air duct element at the site the inner wall, on which the filter element is positioned, or at the immediately adjacent areas of the inner wall with additional holding or fixing devices, such as elevations, Hook or the like, is equipped. Also the filter element itself can be independent of the air duct element with equipped such holding or fixing be.

According to one first embodiment of the invention It may be provided that the filter element fixed or permanently connected to the air duct element. In this regard, it may be provided that the filter element with the expert glued adhesives known per se in the air duct element becomes. In this regard, the inventive Luftfiltrationssy system, so to speak designed as a disposable system, wherein it is still possible when integrated into an air supply unit is, the air filtration system according to the invention, which is the air duct element having the filter element completely exchanged, in this regard, in particular at the ends of the air duct element additional, in particular detachable connecting devices, preferably for connection to further air lines, provided could be.

According to one according to the invention, another alternative embodiment can also be used be provided that the filter element from the air duct element removable and / or interchangeable connected to the air duct element is. In this regard, the filter element and / or the air duct element with releasable holding or fixing devices be equipped for receiving the filter element. equally can the air duct element with a removal facilities for the filter element, for example in the form of flaps or the like, be equipped, and it provided in this regard may be that the wall of the air duct element, for example in the region of the position of the filter element in the air duct system is interrupted and, so to speak, covered by a flap, which opened to remove the filter element accordingly and / or can be removed. The filter element can then through the opening in the wall of the air duct element taken out become.

As stated above, the filter element - to allow a tight fit in the air duct element - should be made compressible and in particular reversibly compressible. In this way, a particularly tight fit is ensured in the air duct element, in particular in the event that the filter element in the non-compressed state (prior to installation in the air duct element) has a larger diameter or cross-section or a larger cross-sectional area than the air duct element with respect to the air duct element - as previously stated - the corresponding inner diameter, inner cross section or the inner cross-sectional area is meant as a reference. By further compression of the filter element, this example, in fatigue be removed from the air duct element.

According to the invention it is preferred that the filter element in the operating state upstream to a room to be ventilated or Building and / or a passenger compartment to be ventilated and cabin and / or to a cab to be ventilated (Cab) is arranged. This ensures that that supplied to the aforementioned device (Outside) air before entering the respective facility (eg before entering the cab) through the filter element flows and in this way of pollutants, poison and odors is released.

What the filter element used in the invention further As far as this is concerned, it can be at least one in particular air-permeable have three-dimensional support. It is preferred that the carrier is compressible, in particular reversible is compressible. In this regard it is alike preferably, when the carrier in particular discrete, preferably contains granular adsorbent particles. In this regard, It may be provided according to the invention that the Adsorbent particles incorporated in the carrier or thereto are fixed. By using one in the following even closer specified adsorbent is an effective adsorption of harmful, Poisonous and odorous substances from the ambient air to be filtered, so that a significantly lower exposure for example a driver of a construction vehicle to toxic Substances results.

Of the For the filter element used carrier can porous or open-cell foam, in particular foam, be. According to a preferred according to the invention Embodiment, the carrier may be a foam, in particular an open-pore or open-cell foam, be. Due to the specific open-celled or open-pored porous structure has the filter element according to the invention a high air permeability, at the same time the enlarged inner surface of the filter element is and thus increases the filter capacity In addition, wherein the loading of the adsorbent particles is significant can be increased.

A Particularity of the present invention is thus to be seen in that for the filter element, a support structure based on a foam that is used with the adsorbent particles loaded. Under the concept of foam is used in the present Invention a structure of gas-filled in use, spherical or polyhedron-shaped cells, which by solid Cell boundaries are limited and separated from each other. The cell bridges, which themselves via so-called nodes are connected, thereby forming a coherent framework. Between the cell webs, so-called foam lamellae can tension (= closed-cell or closed-cell foam), in the case of open-celled or open-pored foams at least partially destroyed. For further Details of the term foam can be found on Römpp Chemielexikon, 10th edition, Georg Thieme Verlag, Stuttgart / New York, keyword: "foam", as well as the literature referenced there are referenced.

Under the concept of foam according to the invention in particular Materials distributed over their entire mass, preferably open cells or pores with a bulk density that is lower as that of the scaffolding or foam substance, understood. When Framework substance can be both organic polymers (eg foamed plastics) as well as inorganic materials (e.g. B. foam glass, foam metals, etc.) act.

The foams can after DIN 7726 (May 1982) are subdivided into hard foams, semi-rigid foams, flexible foams, elastic foams and soft-elastic foams depending on their deformation resistance under pressure load: Elastic foams are those which after pressure deformation after DIN 53580 up to 50% of its thickness have no residual deformation greater than 2% of its original volume. Hard foams, on the other hand, are after DIN 7726 (May 1982) Foams which resist deformation under pressure under pressure (compressive stress at 10% compression or compressive strength) DIN 53421 , June 1984, ≥ 80 kPa).

Further classification of the foams is carried out, inter alia, according to the framework substance (polyurethane foams, polystyrene foams, polyolefin foams, polyvinyl chloride foams, etc.), the material class of the framework substance (elastomeric foams, thermoelastomeric foams, thermoplastic foams, etc.), the type, the size and the shape of the foam cells ( open-cell foams, closed-cell foams, mixed-cellular foams, coarse and fine-cell foams, bubble foams, water foams, double-layer or real foams and single-layer or spurious foams, etc.), density (lightweight foams with densities ≤ 100 kg / m ³ and heavy foams with densities ≥ 100 kg / m ³ ) or the density distribution (structural or integral foams).

For further details on the term of the foam can be referred to Römpp Chemielexikon, 10th edition, Georg Thieme Verlag, Stuttgart / New York, keywords: "foams", "rigid foams", "soft foams", "Integralschaumstoffe" and "foam", as well as those there respectively Refereed literature.

As previously described, according to the invention as a carrier for the adsorbent particles in particular open-pored and / or open-cell foam or foam used. Prefers becomes a foam based on at least one organic polymer, in particular based on polyurethanes, polyolefins, polystyrenes, Polyvinyl chlorides, polyisocyanurates and formaldehyde resins, especially preferably based on polyurethanes used. According to the invention preferred Thus, it is in the carrier is a polyurethane foam. In accordance with the invention particularly preferred manner is the carrier used on the basis of an open-pore and / or open-cell foam based on polyurethane (PU foam) formed, in particular based on a flexible polyurethane foam.

According to one According to the invention particularly preferred embodiment is the carrier for the adsorbent after its loading with the adsorbent particles compressed, preferably when installing the filter element in the air duct element, in particular by 1.2 times to 3.0 times its original volume. Preferably for this purpose the carrier is a compressible foam, in particular foam, preferably a flexible foam, and in accordance with the invention particularly preferred embodiment a polyurethane foam which after being loaded with the adsorbent particles, preferably when installing the filter element in the air duct element, is compressed, in particular by 1.2 times to 3.0 times its Initial volume. Compressing succeeds in the basis weight and thus the volume weight by the corresponding compression factor to increase. Thus, structures are created that have a density close to a bed, but still sufficient are gas permeable, so that a very good air permeability with simultaneously high adsorption performance against harmful, Odor and toxins is realized.

The open support structures result in the context of the present Invention thus both a high air permeability as also a high adsorption capacity, which is a big advantage is.

Of the compressed state of the wearer, especially foam or foam, for example, by the air duct element maintained the air filtration system according to the invention become. Alternatively, the compressed state of the wearer, in particular foam or foam, by subsequent, in particular maintained thermal or chemical curing. Foam or foam materials may be used for this purpose can be used by heating after the compression process cure thermally. In this regard, the wearer, d. H. the foam, with a chemical curing agent soaked and subsequently cured, wherein the curing agent advantageously an adhesive or another adhesive is, which equally serves for fixing the adsorbent particles. That way you can the adsorbent particles by means of an adhesive, in particular one Adhesive, to be fixed to the carrier.

To This purpose may be the foam or foam with the adhesive or the adhesive mass soaked or applied and subsequently be loaded with the adsorbent particles, which by means of the adhesive or the adhesive mass are fixed to the carrier, and finally compressed and heated or cured in the compressed state. excess Adhesive can do so before the heating process - and either immediately after loading with the adhesive or after Loading with the adsorbent particles - from foam or foam be removed, for. B. by squeezing the foam (eg Calendering).

What In terms of the invention, suitable adsorbent particles, so they may have a porous structure. According to the invention suitable adsorbent should granular, in particular spherical, formed be. The mean particle diameter of the adsorbent particles should be in the range of 0.01 to 2.0 mm, especially 0.05 to 1.0 mm, preferably 0.1 to 1.0 mm.

According to the invention suitable For example, granular adsorbent particles are selected from the group of activated carbon; zeolites; inorganic oxides, in particular Silicas, silica gels and aluminas; Molecular sieves; mineral granules; clathrates; as well as their mixtures. Particularly according to the invention preferred are activated carbon particles. As previously stated, the adsorbents should preferably be in particulate or particulate form.

In order to ensure a high adsorption capacity or performance, the particular granular adsorbent particles used, in particular the activated carbon particles, should have the largest possible specific surface area (BET). The particular grain-shaped adsorbent particles, in particular the activated carbon particles, usually have a specific surface area (BET) of at least 500 m ² / g, in particular at least 750 m ² / g, preferably at least 1,000 m ² / g, particularly preferably at least 1,200 m ² / g. on. Usually, in particular the granular adsorbent particles, in particular the activated carbon particles, have a spe cific surface area (BET) of 500 to 2,500 m ² / g, in particular 750 to 2,250 m ² / g, preferably 900 to 2,000 m ² / g, particularly preferably 1,000 to 1,750 m ² / g. Such activated carbons have particularly good properties with regard to the adsorption behavior towards pollutants, odors and toxins. All the above-mentioned BET surface area data refer to the determination in accordance with ASTM D6556-04 (In the context of the present invention, the so-called MultiPoint BET determination method (MP-BET) is used in a partial pressure range p / p ₀ of 0.05 to 0.1 for determining the BET surface area). For further details regarding the determination of the BET surface area or the BET method, reference may be made to the aforementioned ASTM D6556-04 and Römpp Chemielexikon, 10th edition, Georg Thieme Verlag, Stuttgart / New York, keyword: "BET method", including the referenced literature, and on Winnacker-Küchler (3rd edition), Volume 7, pages 93 ff. As well as on Z. Anal. Chem. 238, pages 187 to 193 (1968) to get expelled.

Advantageously, the particular granular adsorbent particles, in particular the activated carbon particles, have a total pore volume according to Gurvich of at least 0.50 cm ³ / g, in particular at least 0.55 cm ³ / g, preferably at least 0.60 cm ³ / g, particularly preferably at least 0.65 cm ³ / g, most preferably at least 0.70 cm ³ / g. In a particularly advantageous manner, the particular granular adsorbent particles, in particular the activated carbon particles, a total pore volume according to Gurvich in the range of 0.5 to 3.5 cm ³ / g, in particular 0.55 to 3.5 cm ³ / g, preferably 0.60 to 3.4 cm ³ / g, more preferably 0.65 to 3.3 cm ³ / g, most preferably 0.70 to 3.2 cm ³ / g, on. Such activated carbons have particularly good properties with regard to the adsorption behavior towards pollutants, odors and toxins. As far as the determination of the total pore volume according to Gurvich is concerned, it is a measurement or determination method known per se to a person skilled in the art. For further details regarding the determination of the total pore volume according to Gurvich, reference may be made, for example, to L. Gurvich (1915), J. Phys. Chem. Soc. Soot. 47, 805 , as well as on Lowell, S., et al., Characterization of Porous Solids and Powders: Surface Area Pore Size and Density, Kluwer Academic Publishers, Article Technology Series, pp. 111 et seq ,

Especially particulate adsorbent particles, in particular activated carbon particles, which are particularly suitable according to the invention have a weight- _related nitrogen _{adsorption volume} V _ads (p / p ₀ = 0.995) of at least 250 cm ³ / g, in particular at least 300 cm ³ / g, preferably at least 350 cm ³ / g, particularly preferred at least 400 cm ³ / g, on. It is particularly preferred if the particular granular adsorbent particles, in particular the activated carbon particles, have a weight- _related nitrogen _{adsorption volume} V _ads (p / p ₀ = 0.995) of 250 to 2200 cm ³ / g, in particular 300 to 2000 cm ³ / g, preferably 350 to 2000 cm ³ / g.

As previously described, are those used in the invention in particular granular adsorbent particles, in particular the activated carbon particles, dust-free and / or abrasion-resistant, preferably dust-free and abrasion-resistant, designed. Advantageously the particular granular adsorbent particles, in particular the activated carbon particles, a bursting pressure of at least 5 Newton, in particular a bursting pressure in the range of 5 Newton to 20 Newton, per particle.

According to the invention as granular adsorbent particles suitable materials, in particular activated carbon particles, are commercially available and, for example, about Blücher GmbH, Erkrath, Germany, or Adsor-Tech GmbH, Premnitz, Germany.

According to a particular embodiment of the present invention, particulate particles of high microporosity, in particular granular adsorbent particles, are used, as described in German Utility Model Application DE 20 2006 016 898.2 of 4 November 2006 (the entire disclosure of which is hereby incorporated by reference) and which are commercially available (eg via the companies Blücher GmbH or Adsor-Tech GmbH). These activated carbon particles are characterized by a particularly large microporosity with simultaneously large overall porosity. The above-described activated carbon particles of high microporosity, which are preferably in spherical form, are in particular by a total pore volume according to Gurvich of at least 0.7 cm ³ / g, wherein at least 70% of this total pore volume are formed by micropores pores with pore diameters of ≤ 20 Å, and a middle Pore diameter of at most 30 Å and a BET surface area of at least 1500 m ² / g. The total pore volume according to Gurvich of these activated carbon particles of high microporosity is at least 0.7 cm ³ / g, in particular at least 0.8 cm ³ / g, preferably at least 0.9 cm ³ / g, particularly preferably at least 1.0 cm ³ / g, and can reach values of up to 1.5 cm ³ / g, in particular up to 1.6 cm ³ / g, preferably up to 1.8 cm ³ / g. In general, at least 70%, in particular at least 75%, preferably at least 80%, more preferably at least 85%, most preferably at least 90%, of Gurvich's total pore volume of these activated carbon particles of high microporosity is formed by micropores having pore diameters of ≦ 20 Å; preferably 70% to 95%, in particular 75 to 90%, preferably 75 up to 85% of the total pore volume according to Gurvich, these activated carbon particles of high microporosity were formed by micropores with pore diameters of ≦ 20 Å. In the context of the present invention, the term micropores refers to pores having pore diameters up to 20 Å inclusive, whereas the term mesopores refers to pores having pore diameters of> 20 Å to 50 Å inclusive and the term macropores to pores having pore diameters> 50 Designated Å. The average particle diameter of these activated carbon particles of high microporosity, determined by ASTM D2862-97 / 04 , is in the range of 0.01 to 1.0 mm, in particular 0.1 to 0.8 mm, preferably 0.2 to 0.7 mm, particularly preferably 0.4 to 0.55 mm.

According to an alternative particular embodiment of the present invention, activated carbon particles having a high meso and macroporosity, in particular granular adsorbent particles, are used, as described in the German patent application DE 20 2007 012 963.9 of March 14, 2007 (the entire contents of which are hereby incorporated by reference) or their patent family members, and is commercially available (eg, via the companies Blücher GmbH and Adsor-Tech GmbH). These activated carbon particles are characterized by high meso- and macroporosity combined with relatively high microporosity and, at the same time, a high overall porosity. The above-described activated carbon particles of high meso- and macroporosity, which are preferably in spherical form, are in particular formed by a proportion of pore volume formed by pores with pore diameters of more than 20 Å (ie in other words a proportion of meso and macro pore volumes) of at least 55%. the total pore volume and a mean pore diameter of more than 25 Å and a BET surface area of at least 1250 m ² / g. In general, the total pore volume according to Gurvich of these activated carbon particles of high meso and macroporosity is at least 0.8 cm ³ / g, in particular at least 1.0 cm ³ / g, preferably at least 1.2 cm ³ / g, and may generally have values of up to to 2.0 cm ³ / g, in particular up to 2.5 cm ³ / g, preferably up to 3.0 cm ³ / g, particularly preferably up to 3.5 cm ³ / g reach. In general, at least 60%, in particular at least 65%, preferably at least 70%, particularly preferably at least 75%, very particularly preferably at least 80% of the total pore volume of these activated carbon particles of high meso and macroporosity by the pore volume of pores with pore diameters of more than 20 Å (ie in other words by the meso and macro pore volumes) formed; Preferably 55% to 95%, in particular 60% to 95%, preferably 65% to 90%, particularly preferably 70 to 85%, of the total pore volume of this activated carbon particle high meso- and macroporosity by the pore volume of pores with pore diameters of more than 20 Å formed; the abovementioned percentages thus denote the proportion of the so-called outer pore volume (ie the pore volume formed by pores with pore diameters of more than 20 Å) in the total pore volume of these activated carbon particles of high meso and macroporosity. In general, the mean pore diameter of these activated carbon particles of high meso and macroporosity is at least 30 Å, in particular at least 35 Å, preferably at least 40 Å, and is preferably in the range from 25 to 75 Å, in particular 30 to 75 Å, preferably 35 to 70 Å. more preferably 40 to 65 Å. The mean particle diameter, determined by ASTM D2862-97 / 04 , this activated carbon particles of high meso and macroporosity is generally in the range of 0.01 to 2.0 mm, in particular 0.01 to 1.0 mm, preferably 0.05 to 0.9 mm, particularly preferably 0.1 to 0 , 8 mm, most preferably 0.15 to 0.7 mm.

The in particular granular adsorbent particles can additionally provided with at least one catalyst, in particular be impregnated, in particular wherein the amount of catalyst 0.05 to 12 wt .-%, preferably 1 to 10 wt .-%, particularly preferably 2 to 8 wt .-%, based on the weight of the adsorbent particles. Of the Catalyst can be selected from the group of metals, metal compounds and Metal ions, enzymes, acids and acidic compounds and Bases and basic compounds and their combinations selected be. The use of a catalyst increases the adsorption capacity further improved, and exhaust the adsorbent particles later, as adsorbed substances catalytically degraded can be.

What the air filtration system of the invention further As far as the air duct element is concerned, at least in sections be cylindrical, in this regard a circular cross section of the cylinder base is preferred. In the air duct element, it can thus, so to speak around a pipe in the true sense with a circular Cross section act.

About that In addition, however, other embodiments with respect to the air duct element in Within the scope of the present invention, it is readily achievable It may be provided according to the invention that the Air duct element at least in sections a rectangular, square, triangular, trapezoidal, diamond or elliptical cross section having. However, as stated above, a circular one Cross-section with respect to the air duct element in the present Invention preferred.

As far as the air duct element is concerned, this should be extended over its length have an at least substantially constant or constant cross-section, since in this way an optimized flow behavior can be realized.

The Air duct element can over its length extent at least in sections, at least substantially rectilinearly and / or just run.

equally but it can also be provided according to the invention that the air duct element over its length extension Areas with bends, bulges, thickenings or the like having. In addition, it can also be realized according to the invention be that the air duct element over its longitudinal extent has different cross sections, in which context It can also be provided that the filter element in the Areas with bends, bulges, thickenings or the like is positioned. The filter element should also be over in this case its entire length on the inner wall of the Abut air duct element. Overall, by the individual Design of the air duct element an excellent adaptation to the constructive or spatial conditions possible, so that the air filtration system according to the invention Overall, even with limited space, so to speak space-saving and can be optimally laid or arranged.

to further improvement of the filtration or filtration performance can It should also be provided that the inventive Air filtration system or the filter element in addition with a particle and / or aerosol filter, preferably with a Particle and aerosol filter is equipped. That way is it is possible in the context of the present invention, in addition the aforementioned, in particular gaseous present Pollutants, poisons and odors also particulate substances, which occur, for example, at construction sites in the form of construction dust, reinforced to remove from the air to be filtered.

As far as the particle and / or aerosol filter is concerned, a multiplicity of materials known per se to the person skilled in the art can be used in this regard. In this regard, it may, for example, be a textile fabric, preferably an air-permeable textile material. According to the invention, the textile fabric can be a woven, knitted or knitted fabric, a scrim or a textile composite, in particular a nonwoven. According to the invention, it is preferred to form textile fabrics in the form of a nonwoven. For further information relating to particle and / or aerosol filters which can be used according to the invention, reference may be made to the German utility model which is based on the applicant himself DE 20 2006 007 518 U1 (the entire disclosure of which is hereby incorporated by reference).

Regarding the positioning or arrangement of the particle and / or aerosol filter in the air filtration system according to the invention it is preferred that the particle and / or aerosol filter arranged in the operating state upstream of the filter element is. In other words, it is the particle and / or aerosol filter according to a preferred embodiment with respect to the air to be filtered or with respect to the pollutant source arranged so to speak in front of the filter element, so that the air to be filtered first by the particle and / or Aerosol filter flows to the filter element in this way to relieve. In addition, the service life of the invention Air filtration system can be increased again.

According to one another embodiment of the invention it may also be provided that the air filtration system additionally at least one nozzle, a bulge or the like. In this regard, the neck, the Bulge or the like a larger diameter, Cross section or a larger cross-sectional area have as the remaining air duct element. The stub, the bulge or the like thus provides as it were a local or local enlargement with respect to the air duct element together with the corresponding Interior is at which compared to the air duct element there is a larger (inside) diameter, so to speak.

What continue to the neck, the bulge or the like, so this or this at one end of the air duct element be arranged. In contrast, it is also possible that the Neck, the bulge or the like between at least two Air duct elements is arranged. In this regard acts the nozzle, the bulge or the like, as it were, as a connecting element.

According to the invention, it is possible that the filter element is integrated into the neck, the bulge or the like or is part of the neck, the bulge or the like. According to the invention, it can be realized that the filter element is at least partially accommodated in particular in the interior of the nozzle, the bulge or the like and / or that the filter element is embedded in the neck, the bulge or the like. In addition, it is possible in the context of the present invention that the filter element is fixed in the neck, the bulge or the like. In this way, the filter performance or the service life of the air filtration according to the invention be increased as the air flow rate even further, in particular when the nozzle, the bulge or the like has an enlarged compared to the air duct element cross-section.

The Air filtration system according to the invention can be such be formed that it to an air supply unit or device is connectable. In this regard, can the air filtration system of the invention over Have connection or connection facilities. The air supply device may, for example, an air duct system and an air transport device, such as a fan, a blower or the like. Also a combination with an air conditioner is possible, wherein the inventive Air filtration system in this case upstream and / or can be positioned downstream of the air conditioner.

Another Object of the present invention - according to a another aspect of the present invention - is an air supply unit, which comprises an air filtration system according to the invention. As previously stated, it may be in the inventive Air supply unit to act a system, which further air duct elements or the like, wherein the air supply unit equally an air transport device, such as a fan or a fan, have can.

The allows in the context of the present invention used filter element a diverse use. Another object of the present invention is - according to another aspect of the present Invention - thus the use of a filter element for the treatment of air for closed rooms or buildings, for passenger compartments and cabins of Motor vehicles, ships and aircraft, for cabs (Cabs) of commercial and construction vehicles or like. In this regard, the filter element is in a at least substantially tubular air duct element, in particular for the flow through and / or suction and / or Feeding and / or supplying from or with air, integrated. The inventive method is characterized from that as a filter element an air-permeable Adsorption filter, in particular for the adsorption of pollutants, odor and toxins.

Further advantageous properties, aspects and features of the present invention Invention will become apparent from the following description of one in the Figures illustrated embodiment. It shows:

1 a schematic representation of a construction vehicle in the form of an excavator, which has the air filtration system according to the invention;

1A a schematic representation of the air filtration system according to the invention with an air duct element and a filter element;

1B a schematic cross-sectional view of the filter element according to the invention used with a carrier and adsorption particles;

2 a schematic representation of an air filtration system according to the invention according to an alternative embodiment, wherein the air filtration system is equipped with a nozzle, in which the filter element is received.

As it turned out 1A shows, the inventive air filtration system 1 , which is particularly suitable for the treatment of air for closed spaces or buildings, for passenger compartments and cabins of motor vehicles, ships and aircraft, for cabs (cabs) of commercial and construction vehicles or the like, at least one at least substantially tubular air duct element 2 , in particular for the flow through and / or suction and / or supply and / or supply of or with air, and at least one filter element 3 on. This in 1A illustrated air filtration system according to the invention 1 has the peculiarity that the filter element 3 as an air-permeable adsorption, in particular for the adsorption of pollutants, odors and toxins, is formed.

As 1 can be seen, the air filtration system of the invention 1 in a construction vehicle 7 , For example, an excavator or the like, be integrated.

As in 1A is shown, the air filtration system according to the invention is characterized 1 characterized in that the filter element 3 in the air duct element 2 is integrated and / or part of the air filtration system 1 is. The filter element 3 can in particular in the interior of the air duct element 2 be recorded at least in sections. 1A also shows that the filter element 3 in the air duct element 2 embedded or in the air duct element 2 can be fixed.

As 1A Furthermore, it can be provided according to the invention that the filter element 3 at least in sections on the longitudinal orientation of the air duct element 2 extends. In addition is 1A to see that the filter element 3 at least substantially over the cross section of the air duct element 2 can extend.

What 1B As far as this is concerned, this shows schematically the structure of the filter element used in the invention 3 , wherein the filter element 3 a particular air-permeable three-dimensional support 4 , For example, based on an open-pore or open-cell foam has. In addition, the shows 1B in that the filter element 3 discrete, preferably granular adsorbent particles 5 having, wherein the carrier 4 the discrete, preferably granular adsorbent particles 5 contains. 1B further clarifies that the adsorbent particles 5 in the carrier 4 can be stored or fixed to it.

Finally shows 2 an embodiment of the invention, according to which the air filtration system 1 according to the invention additionally with a nozzle, a bulge or the like 6 is provided, with the neck, the bulge or the like 6 at one end of the air duct element 2 located or at one end of the air duct element 2 is arranged. 2 also clarifies the embodiment of the invention, according to which the filter element 3 in the neck, the bulge or the like 6 is integrated or part of the nozzle, the bulge or the like 6 is. It may equally be provided that the filter element 3 at least in sections about the longitudinal orientation of the nozzle, the bulge or the like 6 extends. In addition, it may also be provided according to this embodiment, that the filter element at least substantially over the cross section of the nozzle, the bulge or the like 6 extends.

• – Im Rahmen der vorliegenden Erfindung ist es gelungen, ein Luftfiltrationssystem bereitzustellen, welches über einen platzsparenden und kompakten Aufbau verfügt, wobei erfindungsgemäß sozusagen eine Luftfiltration im Rohr bzw. im Luftleitungselement selbst stattfindet. Dies wird durch die Integration des Filterelementes in das Luftleitungselement gewährleistet.
• – Auf diese Weise resultiert ein platzsparender und variabler Aufbau des erfindungsgemäßen Luftfiltrationssystems, so daß es sich insbesondere auch für den Einsatz in Baumaschinen eignet, bei denen die Technik immer kleiner wird und neue Designs teilweise wenig Raum für herkömmliche Luftfiltration bieten.
• – Zudem ist es erfindungsgemäß nicht erforderlich, eine zusätzliche Filtereinheit in Form einer großvolumigen Filterbox bzw. eines großvolumigen Filterkastens einzusetzen, so daß das erfindungsgemäße Luftfiltrati onssystem raummäßig weiter optimiert ist und durch Wegfall derartiger Einrichtungen eine Kostenersparnis resultiert.
• – Durch den Einsatz eines spezifischen Filterelementes, welches in das Luftleitungselement integriert ist, findet eine Luftfiltration bereits im Rohr statt. Zudem wird eine sogenannte "Bypass-Bildung", bei welcher ein Teil der zu filternden Luft sozusagen ungefiltert am Filterelement vorbeiströmt, durch die spezielle Anpassung des Filterelementes an das Luftleitungselement vermieden, so daß eine effektive Luftfiltration resultiert.
• – Durch die spezielle Ausgestaltung des Filterelementes als ein luftdurchlässiges Adsorptionsfilter können Schad-, Geruchs- und Giftstoffe in effektiver Weise aus der Umgebungsluft, welche beispielsweise der Kabine bzw. dem Führerhaus zugeführt wird, entfernt werden, so daß eine deutliche Verbesserung der Arbeitssituation bzw. -belastung beispielsweise von Baumaschinenführern gewährleistet wird.
• – Durch die hohe Filterleistung des erfindungsgemäßen Luftfiltrationssystems werden sowohl Schadstoffe, welche von den Baumaschinen selbst stammen, als auch mitunter toxische Substanzen, die beispielsweise auf einer Baustelle durch Abbrucharbeiten von kontaminierten Gebäuden oder dergleichen entstehen, in effektiver Weise ausgefiltert, so daß das Gefährdungspotential für den Führer einer Baumaschine weiter reduziert ist.
• – Aufgrund der kompakten Bauweise und der individuellen Anpaßbarkeit des erfindungsgemäßen Luftfiltrationssystems kann es für eine Vielzahl von Objekten eingesetzt werden. So beschränkt sich die vorliegende Erfindung nicht nur auf Nutz- und Baustellenfahrzeuge. Gleichermaßen ist eine entsprechende Ausrüstung von Kraftfahrzeugen, Schiffen und Flugzeugen, aber auch von Räumen oder Gebäuden möglich.

The present invention has a number of advantages:

• In the context of the present invention, it has been possible to provide an air filtration system which has a space-saving and compact design, wherein, as it were, an air filtration takes place in the pipe or in the air duct element itself. This is ensured by the integration of the filter element in the air duct element.
• - This results in a space-saving and variable structure of the air filtration system according to the invention, so that it is particularly suitable for use in construction machines, in which the technology is getting smaller and new designs offer little space for conventional air filtration.
• - In addition, it is not necessary according to the invention to use an additional filter unit in the form of a large-volume filter box or a large-volume filter box, so that the invention Luftfiltrati onssystem room is further optimized and results in the elimination of such facilities cost savings.
• - Through the use of a specific filter element, which is integrated into the air duct element, air filtration takes place already in the pipe. In addition, a so-called "bypass formation", in which a part of the air to be filtered flows past the filter element so to speak unfiltered, avoided by the special adaptation of the filter element to the air duct element, so that an effective air filtration results.
• - Due to the special design of the filter element as an air-permeable adsorption filter pollutants, odors and toxins in an effective manner from the ambient air, which is supplied to the cabin or the cab, are removed, so that a significant improvement in the work situation or load is ensured for example by construction machine operators.
• - Due to the high filter performance of the air filtration system according to the invention both pollutants, which come from the construction machinery itself, as well as sometimes toxic substances that arise, for example, on a construction site by demolition of contaminated buildings or the like, filtered out in an effective manner, so that the risk potential for the Leader of a construction machine is further reduced.
• - Due to the compact design and the individual adaptability of the air filtration system according to the invention, it can be used for a variety of objects. Thus, the present invention is not limited to commercial and construction vehicles. Similarly, a corresponding equipment of motor vehicles, ships and aircraft, but also of rooms or buildings is possible.

Further Embodiments, Modifications and Variations of the Present Invention are for those skilled in reading the description without more recognizable and realizable without him the scope of the present invention leaves.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 202006016898 [0041]
• - DE 202007012963 [0042]
• - DE 202006007518 U1 [0050]

Cited non-patent literature

• - DIN 7726 [0026]
• - DIN 53580 [0026]
• - DIN 7726 [0026]
• - DIN 53421 [0026]
• ASTM D6556-04 [0036]
• ASTM D6556-04 [0036]
• - Winnacker-Küchler (3rd edition), Volume 7, pages 93 ff. And on Z. Anal. Chem. 238, pages 187 to 193 (1968) [0036]
• - L. Gurvich (1915), J. Phys. Chem. Soc. Soot. 47, 805 [0037]
• . - S. Lowell et al, Characterization of Porous Solids and Powders: Surface Area Pore Size and Density, Kluwer Academic Publishers, Article Technology Series, pages 111 et seq [0037]
• ASTM D2862-97 / 04 [0041]
• ASTM D2862-97 / 04 [0042]

Claims (42)

Air filtration system ( 1 ), in particular for the treatment of air for closed rooms or buildings, for passenger compartments and cabins of motor vehicles, ships and aircraft, for cabs (cabs) of commercial and construction vehicles or the like, wherein the air filtration system ( 1 ) at least one at least substantially tubular air duct element ( 2 ), in particular for the flow through and / or suction and / or supply and / or supply of or with air, and at least one filter element ( 3 ), characterized in that the filter element ( 3 ) is designed as an air-permeable adsorption filter, in particular for the adsorption of pollutants, odors and toxins. Air filtration system according to claim 1, characterized in that the filter element ( 3 ) in the air duct element ( 2 ) and / or component of the air filtration system ( 1 ) and / or that the filter element ( 3 ) in particular in the interior of the air duct element ( 2 ) is received at least in sections and / or that the filter element ( 3 ) in the air duct element ( 2 ) is embedded and / or that the filter element ( 3 ) in the air duct element ( 2 ) is fixed. Air filtration system according to claim 1 or 2, characterized in that the filter element ( 3 ) at least in sections over the longitudinal orientation of the air duct element ( 2 ). Air filtration system according to one of the preceding claims, characterized in that the filter element ( 3 ) at least substantially over the cross section of the air duct element ( 2 ). Air filtration system according to one of the preceding claims, characterized in that the filter element ( 3 ) non-positively, in particular by compression of the filter element ( 3 ), with the air duct element ( 2 ) connected is. Air filtration system according to one of claims 1 to 5, characterized in that the filter element ( 3 ) firmly and / or permanently with the air duct element ( 2 ) connected is. Air filtration system according to one of claims 1 to 5, characterized in that the filter element ( 3 ) removable and / or interchangeable with the air duct element ( 2 ) connected is. Air filtration system according to one of the preceding claims, characterized in that the filter element ( 3 ) is compressible, in particular reversibly compressible, is formed. Air filtration system according to one of the preceding claims, characterized in that the filter element ( 3 ) is arranged in the operating state upstream of a room or building to be ventilated and / or to a passenger compartment and cabin to be ventilated and / or to a cab (cab) to be ventilated. Air filtration system according to one of the preceding claims, characterized in that the filter element ( 3 ) at least one in particular air-permeable three-dimensional support ( 4 ), in particular wherein the carrier ( 4 ) is compressible, in particular reversibly compressible, and / or in particular wherein the carrier ( 4 ), in particular discrete, preferably granular adsorbent particles ( 5 ), preferably wherein the adsorbent particles ( 5 ) in the carrier ( 4 ) are stored and / or fixed thereto. Air filtration system according to claim 10, characterized in that the carrier ( 4 ) is an open-pore and / or open-cell foam. Air filtration system according to claim 10 or 11, characterized in that the carrier ( 4 ) is a foam, in particular an open-pored and / or open-cell foam. Air filtration system according to one of claims 10 to 12, characterized in that the carrier ( 4 ) is a particular open-pore and / or open-cell foam based on at least one organic polymer, in particular based on polyurethanes, polyolefins, polystyrenes, polyvinyl chlorides, polyisocyanurates and formaldehyde resins, particularly preferably a polyurethane foam. Air filtration system according to one of Claims 10 to 13, characterized in that the support ( 4 ) is a particular open-pore and / or open-cell polyurethane-based foam (PU foam). Air filtration system according to one of Claims 10 to 14, characterized in that the support ( 4 ) after its loading with the adsorbent particles ( 5 ), preferably when installing the filter element ( 3 ) in the air duct element ( 2 ), in particular by 1.2 times to 3.0 times its initial volume, and / or in that the carrier ( 4 ) is a compressible, in particular reversibly compressible foam or foam, in particular a flexible foam, preferably a polyurethane foam, which, after being loaded with the adsorbent particles ( 5 ), preferably when installing the filter element ( 3 ) in the air duct element ( 2 ), in particular 1.2 to 3.0 times its original volume. Air filtration system according to claim 15, characterized in that the compressed state of the carrier ( 4 ), in particular foam or foam, through the air duct element ( 2 ) is maintained. Air filtration system according to claim 15, characterized in that the compressed state of the carrier ( 4 ), in particular foam or foam, by subsequent curing, in particular thermal and / or chemical curing, is maintained. An air filtration system according to claim 17, characterized in that the foam or foam is impregnated with a chemical curing agent and subsequently cured, in particular wherein the curing agent is an adhesive or other adhesive mass which is equally suitable for fixing the adsorbent particles ( 5 ) serves. Air filtration system according to one of Claims 10 to 18, characterized in that the adsorbent particles ( 5 ) by means of an adhesive, in particular an adhesive, to the carrier ( 4 ) are fixed. Air filtration system according to one of Claims 10 to 19, characterized in that the adsorbent particles ( 5 ) have a porous structure and / or that the adsorbent particles ( 5 ) are grain-shaped, in particular spherical, are formed, in particular wherein the mean particle diameter in the range of 0.01 to 2.0 mm, in particular 0.05 to 1.0 mm, preferably 0.1 to 1.0 mm. Air filtration system according to one of Claims 10 to 20, characterized in that the adsorbent particles ( 5 ) are selected from the group of activated carbon; zeolites; inorganic oxides, especially silicas, silica gels and aluminas; Molecular sieves; mineral granules; clathrates; and mixtures thereof, and more preferably activated carbon particles. Air filtration system according to one of claims 10 to 21, characterized in that the in particular grain-shaped adsorbent particles ( 5 ), in particular the activated carbon particles, have a specific surface area (BET) of at least 500 m ² / g, in particular at least 750 m ² / g, preferably at least 1,000 m ² / g, particularly preferably at least 1,200 m ² / g, and / or the particular granular adsorbent particles ( 5 ), in particular the activated carbon particles, have a specific surface area (BET) of 500 to 2,500 m ² / g, in particular 750 to 2,250 m ² / g, preferably 900 to 2,000 m ² / g, particularly preferably 1,000 to 1,750 m ² / g , Air filtration system according to one of claims 10 to 22, characterized in that the in particular grain-shaped adsorbent particles ( 5 ), in particular the activated carbon particles, a total pore volume according to Gurvich of at least 0.50 cm ³ / g, in particular at least 0.55 cm ³ / g, preferably at least 0.60 cm ³ / g, particularly preferably at least 0.65 cm ³ / g , very particularly preferably at least 0.70 cm ³ / g, and / or that the particular granular adsorbent particles ( 5 ), in particular the activated carbon particles, a total pore volume according to Gurvich in the range of 0.5 to 3.5 cm ³ / g, in particular 0.55 to 3.5 cm ³ / g, preferably 0.60 to 3.4 cm ³ / g , more preferably 0.65 to 3.3 cm ³ / g, most preferably 0.70 to 3.2 cm ³ / g. Air filtration system according to one of claims 10 to 23, characterized in that the particular granular adsorbent particles ( 5 ), in particular the activated carbon _particles , a weight- _related nitrogen _{adsorption volume} V _ads (p / p ₀ = 0.995) of at least 250 cm ³ / g, in particular at least 300 cm ³ / g, preferably at least 350 cm ³ / g, particularly preferably at least 400 cm ³ / g, and / or that the particular granular adsorbent particles ( 5 ), in particular the activated carbon _particles , a weight- _related nitrogen _{adsorption volume} V _ads (p / p ₀ = 0.995) of 250 to 2200 cm ³ / g, in particular 300 to 2,000 cm ³ / g, preferably 350 to 2,000 cm ³ / g. Air filtration system according to one of Claims 10 to 24, characterized in that the in particular grain-shaped adsorbent particles ( 5 ), in particular the activated carbon particles, dust-free and / or abrasion-resistant, preferably dust-free and abrasion-resistant, are formed and / or that the particular granular adsorbent ( 5 ), in particular the activated carbon particles, have a bursting pressure of at least 5 Newton, in particular a bursting pressure in the range from 5 Newton to 20 Newton, per particle. Air filtration system according to one of claims 10 to 25, characterized in that the in particular grain-shaped adsorbent particles ( 5 ) Activated carbon particles of high microporosity, in particular wherein the activated carbon particles are formed by a total pore volume according to Gurvich of at least 0.7 cm ³ / g, wherein at least 70% of this total pore volume by micropores pores having pore diameters of ≤ 20 Å are formed, and an average pore diameter of at most 30 Å and a BET surface area of at least 1500 m ² / g. Air filtration system according to one of claims 10 to 25, characterized in that the in particular grain-shaped adsorbent particles ( 5 ) Active carbon particles with high meso- and macroporosity, in particular wherein the activated carbon particles of high meso- and macroporosity by a proportion of pores with pore diameters greater than 20 Å formed pore volume of at least 55% of the total pore volume and an average pore diameter of more than 25 Å and a BET surface area of at least 1,250 m ² / g are characterized. Air filtration system according to one of Claims 10 to 27, characterized in that the in particular granular adsorbent particles ( 5 ) additionally provided with at least one catalyst, in particular impregnated, in particular wherein the amount of catalyst from 0.05 to 12 wt .-%, preferably 1 to 10 wt .-%, particularly preferably 2 to 8 wt .-%, based on the weight of the adsorbent particles ( 5 ), and / or in particular wherein the catalyst is selected from the group of metals, metal compounds and metal ions, enzymes, acids and acidic compounds and bases and basic compounds and combinations thereof. Air filtration system according to one of the preceding claims, characterized in that the air duct element ( 2 ) is at least partially cylindrical, preferably with a circular cross-section. Air filtration system according to one of the preceding claims, characterized in that the air duct element ( 2 ) has a rectangular, square, triangular, trapezoidal, diamond, circular or elliptical cross-section, in particular a circular cross-section, at least in sections. Air filtration system according to one of the preceding claims, characterized in that the air duct element ( 2 ) has an at least substantially constant and / or constant cross-section over its longitudinal extent. Air filtration system according to one of the preceding claims, characterized in that the air duct element ( 2 ) extends over its longitudinal extent at least partially at least substantially rectilinearly and / or straight. Air filtration system according to one of the preceding claims, characterized in that the air duct element ( 2 ) Has over its length expansion areas with bends, bulges, thickening or the like. Air filtration system according to one of the preceding claims, characterized in that the air filtration system ( 1 ) and / or the filter element ( 3 ) is additionally equipped with a particle and / or aerosol filter, preferably a particle and aerosol filter. Air filtration system according to claim 34, characterized characterized in that as a particle and / or aerosol filter a textile fabric, preferably an air-permeable Textile material is used, in particular wherein the textile Fabrics, woven, knitted, knitted or scrim Nonwoven textile composite, and particularly preferred a fleece is. Air filtration system according to claim 34 or 35, characterized in that the particle and / or aerosol filter in the operating state upstream of the filter element ( 3 ) is arranged. Air filtration system according to one of the preceding claims, characterized in that the air filtration system ( 1 ) additionally at least one nozzle, a bulge or the like ( 6 ), in particular wherein the neck, the bulge or the like ( 6 ) has a larger cross-section and / or a larger cross-sectional area than the remaining air duct element ( 2 ) having. Air filtration system according to claim 37, characterized in that the neck, the bulge or the like ( 6 ) at one end of the air duct element ( 2 ) or that the neck, the bulge or the like ( 6 ) between at least two air duct elements ( 2 ) is arranged. Air filtration system according to claim 37 or 38, characterized in that the filter element ( 3 ) in the neck, the bulge or the like ( 6 ) is integrated and / or part of the neck, the bulge or the like ( 6 ) and / or that the filter element ( 3 ) in particular in the interior of the nozzle, the bulge or the like ( 6 ) is received at least in sections and / or that the filter element ( 3 ) in the neck, the bulge or the like ( 6 ) is embedded and / or that the filter element ( 3 ) in the neck, the bulge or the like ( 6 ) is fixed. Air filtration system according to one of the preceding claims, characterized in that the air filtration system ( 1 ) is connectable to an air supply unit. Air supply unit comprising an air filtration system according to one of claims 1 to 40. Use of a filter element ( 3 ) for the treatment of air for closed rooms or buildings, for passenger compartments and cabins of Kraft vehicles, ships and aircraft, for cabs (cabs) of commercial and construction vehicles or the like, the filter element ( 3 ) in an at least substantially tubular air duct element ( 2 ), in particular for the flow through and / or suction and / or supply and / or supply of or with air, is integrated, characterized in that as a filter element ( 3 ) an air-permeable adsorption filter, in particular for the adsorption of pollutants, odors and toxins, is used.