EP4039949A1 - Exhaust gas treatment module for an exhaust gas system of a combustion engine - Google Patents

Abstract

An exhaust treatment assembly for an exhaust system of an internal combustion engine, comprising a housing (12), at least one exhaust treatment section accommodating chamber (14, 16) in the housing (12) for accommodating an exhaust treatment section (32, 34) in the housing (12) such that the exhaust gas treatment section (32, 34) can be removed from the housing (12), an exhaust gas supply duct leading to the housing (12) and open to the housing (12) via a housing inlet area (24) in the area of a first exhaust gas treatment section receiving chamber (14). (26), a main mixing section accommodating chamber (22) in the housing (12) for accommodating a main mixing section (52) in the housing (12) such that the main mixing section (52) can be removed from the housing (12) is removable, wherein with the first exhaust treatment section (32) housed in the first exhaust treatment section accommodating chamber (14) and the main mixing section (52) housed in the main mixing section accommodating chamber (22), a first exhaust treatment section inlet tt area (38) of the first exhaust gas treatment section (32) for receiving exhaust gas (A) from the exhaust gas supply duct (26) to the housing inlet area (24) is open and a first exhaust gas treatment section outlet area (40) of the first exhaust gas treatment section (322) to one Main mixing section exhaust gas inlet area (58) of the main mixing section (52) is open.

Description

The present invention relates to an exhaust gas treatment assembly having a housing and a plurality of exhaust gas treatment units arranged in the housing.

In order to clean exhaust gas emitted by an internal combustion engine, it is known to use various exhaust gas treatment units, such as catalytic converter units or particle filter units. These are arranged in a housing through which exhaust gas can flow, it being possible for a plurality of such exhaust gas treatment units to be provided in exhaust gas treatment sections arranged one after the other in the direction of flow for efficient exhaust gas cleaning in such a housing.

It is the object of the present invention to provide an exhaust gas treatment assembly for an exhaust system of an internal combustion engine which, with a simple structure, enables a mixing section or an exhaust gas treatment section to be integrated into a housing and also to be removed from the housing.

• ein Gehäuse,
• wenigstens eine Abgasbehandlungssektion-Aufnahmekammer in dem Gehäuse zur Aufnahme einer Abgasbehandlungssektion in dem Gehäuse derart, dass die Abgasbehandlungssektion aus dem Gehäuse entfernbar ist,
• einen zu dem Gehäuse führenden und über einen Gehäuse-Eintrittsbereich im Bereich einer ersten Abgasbehandlungssektion-Aufnahmekammer zu dem Gehäuse offenen Abgaszuleitkanal,
• einer Haupt-Mischsektion-Aufnahmekammer in dem Gehäuse zur Aufnahme einer Haupt-Mischsektion in dem Gehäuse derart, dass die Haupt-Mischsektion aus dem Gehäuse entfernbar ist,

wobei bei in der ersten Abgasbehandlungssektion-Aufnahmekammer aufgenommener erster Abgasbehandlungssektion und in der Haupt-Mischsektion-Aufnahmekammer aufgenommener Haupt-Mischsektion ein erster Abgasbehandlungssektion-Eintrittsbereich der ersten Abgasbehandlungssektion zur Aufnahme von Abgas aus dem Abgaszuleitkanal zu dem Gehäuse-Eintrittsbereich offen ist und ein erster Abgasbehandlungssektion-Austrittsbereich der ersten Abgasbehandlungssektion zu einem Haupt-Mischsektion-Abgaseintrittsbereich der Haupt-Mischsektion offen ist.According to the invention, this object is achieved by an exhaust gas treatment assembly for an exhaust system of an internal combustion engine according to claim 1. This exhaust gas treatment assembly comprises:

• a housing,
• at least one exhaust treatment section accommodating chamber in the housing for accommodating an exhaust treatment section in the housing such that the exhaust treatment section is removable from the housing,
• an exhaust gas supply channel leading to the housing and open to the housing via a housing inlet area in the area of a first exhaust gas treatment section receiving chamber,
• a main mixing section accommodating chamber in the housing for accommodating a main mixing section in the housing such that the main mixing section is removable from the housing,

wherein, with the first exhaust treatment section accommodated in the first exhaust treatment section accommodating chamber and the main mixing section accommodated in the main mixing section accommodating chamber, a first exhaust treatment section entrance area of the first exhaust treatment section for receiving exhaust gas from the exhaust gas supply passage to the housing entrance area is open and a first exhaust treatment section- Outlet area of the first exhaust gas treatment section is open to a main mixing section exhaust gas inlet area of the main mixing section.

In the construction of an exhaust gas treatment assembly according to the invention, the modular construction with a first exhaust gas treatment section removably accommodated in the housing and a main mixing section makes it possible for each of these system areas on the housing to be functional when exhaust gas and reactant injected into it are mixed downstream of the first exhaust gas treatment section provided and removed from the housing.

In order to provide a flow connection between the first exhaust gas treatment section and the main mixing section, it is proposed that with the first exhaust gas treatment section accommodated in the first exhaust gas treatment section accommodation chamber and the main mixing section accommodated in the main mixing section accommodation chamber, the first exhaust gas treatment section exit area and the main mixing section Exhaust gas inlet area to the main mixing section accommodating chamber are open.

In order to avoid flow leaks or a flow short circuit, a first exhaust gas guide arrangement surrounding the first exhaust gas treatment section outlet area and the main mixing section exhaust gas inlet area and guiding an exhaust gas flow from the first exhaust gas treatment section outlet area into the main mixing section exhaust gas inlet area can be provided.

The first exhaust gas guiding arrangement can comprise a ring-like first exhaust gas guiding element, for example made of wire material, such as wire mesh or the like.

In order to be able to carry out the exhaust gas treatment downstream of the main mixing section, a second exhaust gas treatment section accommodation chamber for accommodating a second exhaust gas treatment section can be formed in the housing, with an exhaust gas discharge channel leading away from the housing via a housing outlet area in the area of the second exhaust gas treatment section accommodation chamber the casing is open, wherein with the second exhaust treatment section accommodated in the second exhaust treatment section accommodating chamber and the main mixing section accommodated in the main mixing section accommodating chamber, a second exhaust treatment section exit portion of the second exhaust treatment section for discharging exhaust gas into the exhaust gas discharge passage to the housing exit portion is open and a second exhaust treatment section entrance area of the second exhaust treatment section is open to a main mixing section exhaust exit area of the main mixing section. Thus, as in the case of the first exhaust treatment section accommodating chamber, the second exhaust treatment section accommodating chamber may be open to the main mixing section accommodating chamber to provide exhaust flow communication between the exhaust treatment sections and the main mixing section when the exhaust treatment sections are deployed.

Also in the case of the second exhaust treatment section, a flow connection to the main mixing section can be provided in that, with the second exhaust treatment section accommodated in the second exhaust treatment section accommodating chamber and the main mixing section accommodated in the main mixing section accommodating chamber, the second exhaust treatment section entry area and the main mixing section -Exhaust gas outlet areas are open to the main mixing section accommodation chamber.

To avoid flow leakage or a flow short circuit between the first exhaust treatment section exit area and the second In the exhaust gas treatment section entry area, a second exhaust gas guiding arrangement surrounding the second exhaust gas treatment section entry area and the main mixing section exhaust gas outlet area and guiding an exhaust gas flow from the main mixing section exhaust gas outlet area into the second exhaust gas treatment section entry area can be provided.

The second exhaust gas guiding arrangement can also comprise a ring-like second exhaust gas guiding element, for example made of wire material, such as wire mesh or the like.

For an easy-to-implement, stable mounting of one or each exhaust gas treatment section in the housing, it is proposed that at least one, preferably each exhaust gas treatment section, be held by the main mixing section accommodated in the main mixing section accommodation chamber in the exhaust gas treatment section accommodation chamber, or/and that at least one, preferably each, exhaust gas treatment section is fixed to the housing by at least one fastening element, preferably screw bolts.

Furthermore, a defined and stable positioning of the main mixing section in the housing can be achieved in that a closure element that can be detached from the housing is provided for closing off the main mixing section accommodation chamber, with the main mixing section being accommodated in the main mixing section accommodation chamber Main mixing section is held by the closure member in the main mixing section accommodating chamber.

In order to be able to achieve thorough mixing of exhaust gas and reactant in the main mixing section, a first reactant delivery arrangement for delivering reactant in the direction of the main mixing section receiving chamber can be provided on the housing in the region of the main mixing section receiving chamber, and the main The mixing section may include a main mixing section reactant entry area for receiving reactant discharged from the first reactant delivery arrangement.

To enable even more intensive exhaust gas cleaning, in particular to reduce the proportion of nitrogen oxides, it is also proposed that the exhaust gas feed channel be assigned a second reactant delivery arrangement for delivering reactant into the exhaust gas feed channel upstream of the housing entry area. A mixture of exhaust gas and reactant can thus already be provided before the first exhaust gas treatment section in order to be able to provide a first stage of reducing the proportion of nitrogen oxides in the first exhaust gas treatment section.

For a compact structure, a plurality of exhaust gas treatment section accommodation chambers can be arranged next to one another in the housing with accommodation chamber longitudinal axes that are essentially parallel to one another, transversely to the accommodation chamber longitudinal axes. If one of the exhaust gas treatment section accommodating chambers is arranged upstream of the main mixing section accommodating chamber and another exhaust gas treatment section accommodating chamber is arranged downstream of the main mixing section accommodating chamber, with such an arrangement, the two exhaust gas treatment section accommodating chambers are arranged substantially side by side and axially in each other Flows through essentially completely overlapping exhaust gas treatment sections of exhaust gas in mutually opposite directions.

The housing inlet area and the housing outlet area can be provided in a first housing wall delimiting the first exhaust gas treatment section accommodating chamber and the second exhaust gas treatment section accommodating chamber at its axial end region remote from the main mixing section accommodating chamber.

Furthermore, for a compact structure, it can be provided that the main mixing section accommodation chamber is delimited by a second housing wall in the area of an axial end area of the exhaust gas treatment section accommodation chambers that is close to it.

In this case, the first housing wall and the second housing wall can be arranged essentially parallel to one another.

The main mixing section generally removably housed within the housing may comprise a main mixing section housing insertable into the housing of the exhaust treatment assembly. A mixer can be arranged in the main mixing section for improved mixing of exhaust gas and reactant injected into it.

At least one, preferably each, exhaust gas treatment section may comprise a shell and at least one exhaust gas treatment element supported in the shell, for example by means of a fiber mat or the like. For a further improved exhaust gas purification function, at least one exhaust gas treatment section may comprise at least two exhaust gas treatment units arranged one after the other in an exhaust gas flow direction.

The present invention is described below with reference to the 1 described, which represents an exhaust gas treatment assembly in principle-like longitudinal section.

In 1 an exhaust gas treatment unit for an exhaust system of an internal combustion engine, for example in a vehicle, is generally denoted by 10 . The exhaust system 10 comprises an essentially box-like housing 12 constructed, for example, from sheet metal material, in which two exhaust gas treatment section accommodation chambers 14, 16 are arranged next to one another in the example shown. These extend essentially between a first housing wall 18 and a second housing wall 20 parallel to this, for example, and are open in the region of the second housing wall 20 to a main mixing section receiving chamber 22 formed in the housing 12 . In this arrangement, the two exhaust gas treatment section accommodation chambers 14, 16 elongated in the direction of the respective accommodation chamber longitudinal axes L ₁ , L ₂ are arranged so as to essentially completely overlap one another in the direction of the accommodation chamber longitudinal axes L ₁ , L ₂ .

In the area of a housing entry area 24 formed in the first housing wall 18 , an exhaust gas feed channel 26 opens into the first exhaust gas treatment section receiving chamber 14 . In the area of a housing outlet area 28 formed in the first housing wall 18 next to the housing inlet area, an exhaust gas discharge channel 30 leads away from the second exhaust gas treatment section receiving chamber 16 .

In the first exhaust treatment section accommodating chamber 14, a first exhaust treatment section, generally designated 32, is accommodated. In the exemplary embodiment shown, this includes an exhaust gas treatment unit 34, which in a tubular jacket 36 can include one or more exhaust gas treatment elements 37 held on the jacket 36, for example by a fiber mat. In the area of a first exhaust gas treatment section entry area 38, the first exhaust gas treatment section 32 or the first exhaust gas treatment unit 34 thereof is open to the housing entry area 24, so that exhaust gas A flowing in via the exhaust gas feed duct 26 can flow through the housing entry area 24 and the first exhaust gas treatment section entry area 38 can enter the first exhaust treatment section 32 . At the other axial end area, the first exhaust gas treatment section 32 has a first exhaust gas treatment section exit area 40 . Through this, the exhaust gas A flowing through the first exhaust treatment section 32 can flow into the main mixing section accommodating chamber 22 .

In the second exhaust treatment section accommodating chamber 16, a second exhaust treatment section 42 is accommodated. In the example shown, this also includes an exhaust gas treatment unit 44 with a tubular jacket 46, for example, and at least one exhaust gas treatment element 47 held therein, for example by means of a fiber mat. Entry area 48 to main mixing section receiving chamber 22 open. In the area of one of the first housing walls 18 or at the end facing the housing outlet area 28 provided therein, the second exhaust gas treatment section 42 is open via a second exhaust gas treatment section outlet area 50 to the housing outlet area 28 and thus to the exhaust gas discharge channel 30 .

In the main mixing section accommodating chamber 22, a main mixing section 52 is accommodated. This comprises a main mixing section housing 54 which is, for example, box-like and, like the housing 12 of the exhaust gas treatment assembly 10, constructed, for example, from sheet metal material A main mixing section exhaust gas inlet region 58 is arranged opposite the exhaust gas treatment section outlet region 40 . Likewise, a main mixing section exhaust exit area 60 is provided in the bottom wall 56 opposite the second exhaust treatment section entrance area 48 .

In order to ensure a defined flow guidance for the exhaust gas A from the first exhaust gas treatment section outlet area 40 into the main mixing section housing 54 and from the main mixing section housing 54 into the second exhaust gas treatment section inlet area 48, two are, for example, with wire mesh or other flexible and exhaust gas - Or temperature-resistant material constructed, ring-like exhaust gas guiding elements 62, 64 are provided, which each provide an exhaust gas guiding arrangement. The first exhaust gas guiding element 62 encloses the first exhaust gas treatment section outlet area 40 and the main mixing section entry area 58 along their respective outer peripheral area and thus sees a defined flow guide for the exhaust gas A from the first exhaust gas treatment section 32 through an area of the main mixing section accommodation chamber 22 into the main mixing section housing 54. Likewise, the second exhaust gas guiding element 64 surrounds the main mixing section outlet region 60 and the second exhaust gas treatment section inlet region 48 lying opposite it along their outer peripheral region and thus provides a defined flow guidance from the main mixing section housing 54 into the second exhaust gas treatment section 42 .

Although the two exhaust gas guiding elements 62, 64 do not necessarily have to provide a completely gas-tight seal, they prevent a flow short circuit directly from the first exhaust gas treatment section 32 through the main mixing section accommodation chamber 22 to the second exhaust gas treatment section 42.

The two exhaust gas guide elements 62, 64 can be supported on the bottom wall 56 of the main mixing section housing 54 on the one hand and on a respective flange-like holding area 66, 68 of the exhaust gas treatment sections 32 or 42, which projects radially outwards from the jacket 36 or 46, on the other hand, and thus main mixing section 52 accommodated in the main mixing section accommodation chamber 22 hold the two exhaust gas treatment sections 32, 42 or the exhaust gas treatment units 34, 44 in a defined positioning in the respective exhaust gas treatment section accommodation chamber 14, 16. In order to be able to support the exhaust gas treatment sections 32, 34 in a defined manner in the radial direction in the region of the other axial end, radial support units 70, 72 assigned to them can be provided. These can surround the respective jacket 36, 46 on its outside and can comprise ring-like radial support elements, for example made of wire mesh or other flexible material, which are supported on the walls surrounding the respective exhaust gas treatment section receiving chamber 14 or 16. Furthermore, the radial support units 70, 72 can include sealing elements, which in this axial end region of the exhaust gas treatment sections 32, 42 can provide a tight closure of the same with respect to the walls of the housing 12 surrounding the exhaust gas treatment section receiving chambers 14, 16.

Alternatively or in addition to the holding function provided by the main mixing section 52 for the two exhaust gas treatment sections 32, 42, these can be detachably fixed to the second housing wall 20, for example in the area of their respective holding flanges 66, 68, by means of fastening elements, for example screw bolts.

By means of a closing element 74 designed like a cover, the main mixing section accommodation chamber 42 can be closed in an exhaust-tight manner on its side opposite the second housing wall 20 by means of fastening elements 76, for example screw bolts. For this purpose, a sealing element 80 can be arranged between a fastening flange 78 and the closing element 74 . Furthermore, holding elements 82 acting between the closing element 76 and the main mixing section housing 54 can be provided, by means of which the main mixing section housing 54 is pressed against the exhaust gas guiding elements 62, 64. In order to achieve a defined positioning of the main mixing section housing 54 in the main mixing section receiving chamber 52 in the direction of the longitudinal axes L ₁ , L ₂ of the receiving chamber, the retaining elements 82 provided, for example, on the closing element 74 can be essentially rigid, i.e. under the occurring forces may be formed substantially non-deformable.

In association with the main mixing section 52, a first reactant dispensing arrangement 86, also generally referred to as an injector, is provided in the area of the main mixing section receiving chamber 22 on a peripheral wall 84 of the housing 12. A reactant R may be injected from the first reactant dispensing assembly 86 into the main mixing section receiving chamber 22 in the form of a spray cone. With the main mixing section 52 received in the main mixing section receiving chamber 22, the first reactant delivery arrangement 86 faces a main mixing section reactant inlet region 88 through which reactant can be injected into the main mixing section housing 54 and thus the exhaust stream flowing therethrough. As with all of the other entry areas and exit areas discussed above, the main mixing section reactant injection area 88 may include one or more orifices. To support the thorough mixing of exhaust gas A and reactant R, a mixer 90 can be arranged in the main mixing section housing 54, which, due to the turbulence generated by this on the one hand and the reactant evaporation caused on its surface on the other hand, ensures efficient thorough mixing of reactant R and Exhaust A provides.

Equally, the exhaust gas supply channel 26 can be assigned a second reactant dispensing arrangement 92, which can inject reactant R in the form of a spray cone into the exhaust gas supply channel 26 and thus the exhaust gas A flowing therein. A mixer 94 can also be provided here in order to efficiently support the thorough mixing of reactant R and exhaust gas A. The second reactant delivery arrangement 92 thus provides, in connection with the mixer 94 or the exhaust gas supply duct 26, a pre-mixing section 96 in which a mixture of exhaust gas A and contained in the housing 12 or in the first exhaust gas treatment section 32 is already present before it enters the housing 12 or in the first exhaust gas treatment section 32 Reactant R, for example a urea / water solution, can be generated.

When such a pre-mixing section 96 is provided, the first exhaust gas treatment section 32 or the exhaust gas treatment unit 34 thereof can comprise a pre-SCR catalytic converter, in which a reduction in the proportion of nitrogen oxides in the exhaust gas A can already be achieved. Furthermore, the first exhaust gas treatment section 32 can comprise an oxidation catalytic converter, in particular a diesel oxidation catalytic converter, and/or a particle filter, in particular a diesel particle filter. If no pre-mixing section 96 is provided in association with the exhaust gas supply channel 26, ie if no reactant is injected into the exhaust gas flow upstream of the first exhaust gas treatment section 32, the first exhaust gas treatment section 32 does not include a pre-SCR catalytic converter. In this case, the main mixing section 52 forms the only mixing section of the exhaust gas treatment system 10.

The second exhaust gas treatment section 42 includes a main SCR catalytic converter, in which the proportion of nitrogen oxides is further reduced by converting the reactant R injected in the main mixing section 52 . Further, the second exhaust treatment section 42 may include an ammonia slip catalyst to prevent ammonia unreacted in the second exhaust treatment section 42 from exiting the housing 12 .

Each of the exhaust gas treatment sections 32, 42 can be constructed with a single exhaust gas treatment unit 34 or 44, in a single exhaust gas treatment unit 34 or 44 several, for example different functions such. B. the function of the pre-SCR catalytic converter or the main SCR catalytic converter or an oxidation catalytic converter or a particle filter, taking over exhaust gas treatment elements can be included. Each exhaust gas treatment element of this type can be constructed with a body, for example monolithic and through which exhaust gas can flow, which can be constructed and/or coated with catalytically active material. In an alternative configuration, the exhaust gas treatment sections 32 and/or 42 can each be constructed with a plurality of exhaust gas treatment units constructed separately from one another, each with a jacket and at least one exhaust gas treatment element accommodated in the jacket. These separate exhaust gas treatment units can be inserted into the exhaust gas treatment section accommodation chambers 14 or 16 in succession in the direction of the respective accommodation chamber longitudinal axis L ₁ or L ₂ , so that the exhaust gas treatment units arranged in succession in the axial direction can face each other in the direction of the respective accommodation chamber longitudinal axis L ₁ or L ₂ defined and the exhaust gas treatment unit providing the first exhaust gas treatment section exit area 40 or the exhaust gas treatment unit providing the second exhaust gas treatment section entry area 48 in the manner described above through the main mixing section 52 or the main mixing section housing 54 and/or one or more fastening elements are fixed with respect to the housing 12.

With the structure of an exhaust gas treatment assembly 10 according to the invention, the possibility is created due to the modular structure of each of the functional groups, i.e. the two exhaust gas treatment sections 32, 42 or the exhaust gas treatment units 34, 44 of the same as well as the main group providing a flow volume or a deflection volume for the exhaust gas flow. Mixing section 52 to be used in a simple manner in the housing 12 and, for example, to carry out maintenance or repair work or to remove them from the housing 12 to replace them with cleaned or new sections. All that is required is to detach the closure member 74 from the housing 12, thereby gaining access to the main mixing section 52 and, once removed, to the exhaust gas treatment sections 32 and 42, respectively. Due to the possibility of being able to remove the main mixing section 52 from the housing 12 in particular, it can be easily cleaned of urea deposits occurring therein outside the housing 12 or, if this is not possible due to excessive deposits, replaced with a new one will.

During operation, the exhaust gas A flows through the two exhaust gas treatment sections 32, 42 in opposite directions to one another. The flow deflection takes place in the area of the main mixing section 52. To remove the two exhaust gas treatment sections 32, 42 from the housing or the respective exhaust gas treatment section receiving chambers 14, 16, both exhaust gas treatment sections 32, 42 are moved in a direction E, which is essentially parallel to the Longitudinal axes L ₁ , L ₂ of the receiving chamber are pulled out of the housing 12 or reinserted into the housing 12 by moving in the opposite direction.

Claims (15)

Exhaust treatment assembly for an exhaust system of an internal combustion engine, comprising: - a housing (12), - at least one exhaust treatment section receiving chamber (14, 16) in the housing (12) for receiving an exhaust treatment section (32, 34) in the housing (12) such that the exhaust treatment section (32, 34) is removable from the housing (12). , - an exhaust gas feed duct (26) leading to the housing (12) and open to the housing (12) via a housing inlet area (24) in the area of a first exhaust gas treatment section receiving chamber (14), - a main mixing section receiving chamber (22) in the housing (12) for receiving a main mixing section (52) in the housing (12) such that the main mixing section (52) is removable from the housing (12), wherein with the first exhaust treatment section (32) housed in the first exhaust treatment section accommodating chamber (14) and the main mixing section (52) housed in the main mixing section accommodating chamber (22), a first exhaust treatment section entry area (38) of the first exhaust treatment section (32) for Intake of exhaust gas (A) from the exhaust gas supply channel (26) to the housing inlet area (24) is open and a first exhaust gas treatment section outlet area (40) of the first exhaust gas treatment section (322) to a main mixing section exhaust gas inlet area (58) of the main Mixing section (52) is open. The exhaust treatment assembly of claim 1, characterized in that with the first exhaust treatment section (32) housed in the first exhaust treatment section accommodating chamber (14) and the main mixing section (52) housed in the main mixing section accommodating chamber (22), the first exhaust treatment section exit region (40 ) and the main mixing section exhaust gas inlet area (58) are open to the main mixing section accommodation chamber (22). Exhaust treatment assembly according to Claim 2, characterized in that an exhaust gas flow from the first exhaust treatment section exit area (40) into the main mixing section exhaust gas entry area (58 ) conductive first exhaust guide arrangement is provided,
preferably wherein the first exhaust gas guiding arrangement comprises a ring-like first exhaust gas guiding element (62). Exhaust gas treatment assembly according to one of the preceding claims, characterized in that a second exhaust gas treatment section accommodation chamber (16) for accommodating a second exhaust gas treatment section (42) is formed in the housing (12), an exhaust gas discharge channel (30) leading away from the housing (12) is open to the housing (12) via a housing exit area (28) in the area of the second exhaust treatment section accommodating chamber (16), wherein the second exhaust treatment section (42) accommodated in the second exhaust treatment section accommodating chamber (16) and the main mixing section - the main mixing section (52) accommodated in the receiving chamber (22), a second exhaust gas treatment section outlet area (50) of the second exhaust gas treatment section (42) for discharging exhaust gas (A) into the exhaust gas discharge channel (30) to the housing outlet area (28) is open and a second exhaust treatment section entry area (48) of the second exhaust treatment section (42) to a main mixing section exhaust exit tt area (60) of the main mixing section (52) is open, preferably wherein with the second exhaust treatment section (42) accommodated in the second exhaust treatment section accommodating chamber (16) and the main mixing section (52) accommodated in the main mixing section accommodating chamber (22) the second exhaust treatment section entry area (48) and the main mixing section exhaust gas exit area (60) are open to the main mixing section accommodating chamber (22). The exhaust gas treatment assembly according to claim 4, characterized in that an exhaust gas flow from the main mixing section exhaust gas outlet area (60) into the second exhaust gas treatment section entry area (48 ) conductive second exhaust gas guide arrangement is provided,
preferably wherein the second exhaust gas guiding arrangement comprises a ring-like second exhaust gas guiding element (64). Exhaust treatment assembly according to one of the preceding claims, characterized in that at least one, preferably each exhaust treatment section (32, 42) is accommodated by the main mixing section (52) accommodated in the main mixing section accommodation chamber (22) in said exhaust treatment section (32, 42) receiving exhaust gas treatment section receiving chamber (14, 16) and/or that at least one, preferably each exhaust gas treatment section (32, 42) is fixed to the housing (12) by at least one fastening element, preferably screw bolts. Exhaust treatment assembly according to one of the preceding claims, characterized in that a closure member (74) detachable from the housing (12) is provided for closing off the main mixing section accommodating chamber (22), wherein when accommodated in the main mixing section accommodating chamber (22). Main mixing section (52) the main mixing section (52) is held in the main mixing section accommodating chamber (22) by the closure member (74). Exhaust treatment assembly according to one of the preceding claims, characterized in that on the housing (12) in the region of the main mixing section receiving chamber (22) a first
Reactant delivery arrangement (86) for delivering reactant (R) towards the main mixing section receiving chamber (22), and that the main mixing section (52) has a main mixing section reactant entry area (88) for receiving from the first reactant delivery arrangement (86) released reactant (R). Exhaust gas treatment assembly according to one of the preceding claims, characterized in that the exhaust gas feed duct (26) is assigned a second reactant delivery arrangement (92) for delivering reactant (R) into the exhaust gas feed duct (26) upstream of the housing inlet area (24). Exhaust gas treatment assembly according to one of the preceding claims, characterized in that in the housing (12) a plurality of exhaust gas treatment section accommodation chambers (14, 16) with mutually substantially parallel accommodation chamber longitudinal axes (L ₁ , L ₂ ) transverse to the accommodation chamber longitudinal axes (L ₁ , L ₂ ) are arranged side by side. Exhaust treatment assembly according to Claim 10 and Claim 4, characterized in that the housing inlet region (24) and the housing outlet region (28) are located in a first exhaust treatment section accommodating chamber (14) and the second exhaust treatment section accommodating chamber (16) at its end separated from the The first housing wall (18) delimiting the main mixing section receiving chamber (22) remote from the axial end area is provided. Exhaust gas treatment assembly according to Claim 10 or 11, characterized in that the main mixing section accommodation chamber (22) is delimited by a second housing wall (20) in the region of an axial end region of the exhaust gas treatment section accommodation chambers (14, 16) close to it. Exhaust gas treatment assembly according to Claims 11 and 12, characterized in that the first housing wall (18) and the second housing wall (20) are arranged essentially parallel to one another. Exhaust gas treatment assembly according to one of the preceding claims, characterized in that the main mixing section (52) comprises a main mixing section housing (54) and/or that a mixer (90) is arranged in the main mixing section (52). Exhaust gas treatment assembly according to one of the preceding claims, characterized in that at least one, preferably each exhaust gas treatment section (32, 42) comprises a shell (36, 46) and at least one exhaust gas treatment element carried in the shell (36, 46), or/and that at least one Exhaust gas treatment section (32, 42) comprises at least two exhaust gas treatment units which follow one another in an exhaust gas flow direction.

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