EP2395225A2 - Heat exchanger, in particular waste gas heat exchanger - Google Patents

Abstract

The heat exchanger (1) has a channel which is cooled by exhaust gas (2) and a fluid. Two partial heat exchanger units (4,5) are formed, where one partial heat exchanger unit has a medium (6) which is designed to dehumidify the exhaust gas. The latter heat exchanger unit is arranged below the former heat exchanger unit. An independent claim is also included for a method for operating an exhaust gas system of a motor vehicle.

Description

The invention relates to a heat exchanger, in particular an exhaust gas heat exchanger, according to the preamble of claim 1 and a method for operating an exhaust system according to claim 10,

Heat exchangers, which are used as exhaust heat exchanger or exhaust gas cooler in the exhaust gas recirculation in motor vehicles are known in various designs, for example by the DE 199 07 163 C2 the applicant.

Depending on the interconnection, very low exhaust gas temperatures are reached, which results in large amounts of acidic condensate failing, which can lead to corrosion attacks. The resulting condensate is passed through the exhaust gas heat exchanger and attacks the exhaust gas-carrying components, Furthermore, other components that are arranged downstream of the exhaust heat pump, such as a charge air cooler, from which aggressive condensate can be damaged.

It is an object of the invention to provide a heat exchanger, in particular a Abgaswärmeübertrager that eliminates these problems and also is still easy and inexpensive to produce.

This object is achieved by a heat exchanger with the features of claim 1, Advantageous embodiments are the subject of the dependent claims.

According to a basic concept of the invention, a heat exchanger, in particular Abgaswärmeubertrager for a motor vehicle provided with exhaust gas and cooled by a fluid channels, the heat exchanger having a first partial heat exchanger and at least a second partial heat exchanger, the second partial heat exchanger having means which are formed to dehumidify the exhaust gas. The integration of the dehumidification function in the heat exchanger, the problem is solved dehumidify the exhaust flow early and thus downstream, components and the exhaust gas heat exchanger itself to protect against corrosion. In addition, space is saved by the compact design and overall reduced manufacturing costs.

In this case, it is possible, on the one hand, for the second partial heat exchanger to be arranged below the first partial heat exchanger or, alternatively, for the first and second partial heat exchangers to be arranged concentrically, the second partial heat exchanger being arranged outside the first partial heat exchanger. In particular, it is provided that the first and second partial heat exchanger is arranged as a structural unit in a common housing. Alternatively, the second Teilwärmeüberirager could also be arranged as a bypass channel outside the housing.

In a further embodiment, only the first partial heat exchanger is embodied with channels through which exhaust gas can flow and which can be cooled by a fluid. The first partial heat exchanger is thus designed as a conventional Abgaswärmeubertrager of the prior art, while the second has a means which is designed to dehumidify the exhaust gas.

This agent is preferably a sorbent, for example zeolite, which fills the second Tellwärmeübertrager partially or intelligently. For example, the sorbent is arranged concentrically on the inner wall of the second Teilwärmeübertragers and connected thereto.

Alternatively, the second partial heat exchanger is electrically heated, so that if necessary, the means for dehumidification can be baked out.

In a further embodiment, the heat exchanger further comprises a flap, so that the exhaust gas flow into a first partial flow in the first partial heat exchanger and a second partial flow in the second partial heat exchanger can be divided. By means of the flap, the individual partial flows can thus be specifically controlled and / or regulated.

In a further embodiment, the second partial heat exchanger has a drain for separating the condensate from the exhaust gas.

Such a heat exchanger can be used in particular in an exhaust system of a motor vehicle in order to dehumidify the exhaust gas flow.

• Absperren des ersten Teilwärmeübertragers mittels der Klappe, so dass das Abgas ausschließlich in den zweiten Teilwärmeübertrager strömt und entfeuchtet wird.
• Teilweises Öffnen der Klappe, so dass das Abgas in den ersten und zweiten Teilwärmeübertrager strömt und im zweiten Teilwärmeübertrager die Feuchtigkeit durch das Abgas ausgetrieben wird.
• Abführen der Feuchtigkeit aus dem zweiten Teilwärmeübertrager über den Abfluss.
• Absperren des zweiten Teilwärmeübertragers mittels der Klappe, so dass das Abgas ausschließlich in den ersten Teilwärmeübertrager strömt.

For operating such an exhaust system, a method is provided with the following features:

• Shutting off the first partial heat exchanger by means of the flap, so that the exhaust gas flows exclusively into the second partial heat exchanger and is dehumidified.
• Partial opening of the flap, so that the exhaust gas flows into the first and second partial heat exchanger and in the second partial heat exchanger, the moisture is expelled by the exhaust gas.
• Removing moisture from the second partial heat exchanger via the drain.
• Shutting off the second Teilwärmeübertragers means of the flap, so that the exhaust flows exclusively in the first partial heat exchanger.

It is understood that the features mentioned above and those yet to be explained not only in the combination, but also in other combinations or in isolation can be used without departing from the scope of the present invention.

Further important features of the present invention will become apparent from the following detailed description taken in conjunction with the claims and the drawings.

Hereinafter, a preferred embodiment of a heat exchanger according to the invention will be described and explained in more detail with reference to the accompanying drawing.

• Fig. 1 einen Abgaswärmeübertrager gemäß der vorliegenden Erfindung;

It shows:

• Fig. 1 an exhaust heat exchanger according to the present invention;

Fig. 1 time designed as a Abgaswärmeübertraser 1 heat exchanger, as used for example in the exhaust gas recirculation for motor vehicles. In this embodiment, the exhaust gas 2 flows through an inlet 11 into the heat exchanger and leaves it through an outlet 12. The cooling of the exhaust gas is effected by a fluid 3, preferably a coolant, which can be taken from a cooling circuit (not shown) of the internal combustion engine of the motor vehicle. The coolant flows through an inlet 13 into the heat exchanger, exchanges heat with the exhaust gas and leaves the heat exchanger through an outlet 14,

The exhaust gas heat exchanger 1 has a housing shell 16 and is divided in its interior into a first partial heat exchanger 4 and a second partial heat exchanger 5. Not shown in this embodiment channels, in the form of exhaust pipes. These exhaust pipes, that is, pipes through which exhaust gas can flow, are arranged such that gaps exist between them, through which the coolant 3 can flow,

According to the invention, it is provided that the exhaust pipes are arranged only in the first partial heat exchanger 4. In the second partial heat exchanger 5 is a sorbent 6, which is adapted to dehumidify the exhaust gas flowing into the second partial heat exchanger 5 (second partial flow 9). For this purpose, the sorbent, for example zeolite, is arranged on the inner wall of the second Teilwärmeübertragers.

Downstream of the inlet 11 of the exhaust gas heat exchanger 1, a flap 7 is arranged, which regulates the exhaust gas stream 2 in the first (first partial flow 8) and second (second partial flow 9) partial heat exchanger.

1. a) Beladung des Sorptionsmittels (Klappe 7 verschließt den Einlass des ersten Teilwärmeübertragers 4): In dieser Stellung der Klappe 7 strömt das Abgas ausschließlich in den zweiten Wärmeübertrager 5, wo es seine Feuchtigkeit an das Sorptionsmittel abgibt und dabei gleichzeitig erwärmt wird.
2. b) Entladung (Klappe 7 ist in einer Zwischenstellung, so dass das Abgas sowohl in den ersten als auch in den zweien Teilwärmeübertrager strömen kann): In dieser Stellung der Klappe 7 kann das Abgas sowohl in den ersten 4 als auch in den zweiten 5 Wärmeübertrager strömen. Der Teil des Abgasstromes, der in den zweiten Wärmeübertrager 5 strömt treibt in diesem die Feuchtigkeit aus dem Sorptionsmittel aus, Gleichzeitig wird ein Ventil 15 geöffnet, so dass der mit Feuchtigkeit beladene Teilstrom durch den Abfluss 10 an die Umgebung abgegeben werden kann.
3. c) Normalbetrieb (Klappe 7 verschließt den Einlass des zweiten Teilwärmeübertragers 5): In dieser Stellung der Klappe 7 strömt das

The invention now works as follows:

1. a) loading of the sorbent (flap 7 closes the inlet of the first Teilwärmeübertragers 4): In this position of the flap 7, the exhaust gas flows exclusively into the second heat exchanger 5, where it emits its moisture to the sorbent and is heated at the same time.
2. b) discharge (flap 7 is in an intermediate position so that the exhaust gas can flow into both the first and the second partial heat exchanger): In this position of the flap 7, the exhaust gas in both the first 4 and in the second 5 heat exchanger stream. The part of the exhaust gas flow, which flows into the second heat exchanger 5 expels in this the moisture from the sorbent from, at the same time, a valve 15 is opened, so that the moisture laden partial stream can be discharged through the drain 10 to the environment.
3. c) Normal operation (flap 7 closes the inlet of the second Teilwärmeübertragers 5): In this position, the flap 7 flows

Exhaust only in the first heat exchanger 4, where it can give off its heat to a fluid 3, such as a coolant, and thus cooled. The exhaust gas flow is conducted into the first partial heat exchanger 4 until the moisture content remains below a set limit value. As soon as this limit value is exceeded, the exhaust gas flow is diverted into the second partial heat exchanger 5.

Overall, a cost-effective and compact heat exchanger is thus provided by the invention, which frees the exhaust stream from aggressive and acidic condensate.

Claims (10)

Heat exchanger, in particular exhaust gas heat exchanger (1) for a motor vehicle with channels of exhaust gas (2) and of a fluid (3), wherein the heat exchanger has a first partial heat exchanger (4) and at least one second partial heat exchanger (5), characterized in that the second partial heat exchanger means (6) which are designed to dehumidify the exhaust gas. Heat exchanger according to claim 1, characterized in that the second partial heat exchanger (5) is arranged below the first Teilwärmeübertragers (4), Heat exchanger according to claim 1, characterized in that the first and second partial heat exchanger (4, 5) are arranged concentrically, wherein in particular the second partial heat exchanger (5) outside of the first Tellwärmeübertragers (4) is arranged. Heat exchanger according to one of the preceding claims, characterized in that only the first partial heat exchanger (4) with exhaust gas (2) and by a fluid (3) can be cooled channels. Heat exchanger according to one of the preceding claims, characterized in that the means (6) for dehumidifying the exhaust gas at least partially sorbent, in particular zeolite include. Heat exchanger according to one of the preceding claims, characterized in that the second partial heat exchanger (5) is electrically heated. Heat exchanger to one; The preceding claims, characterized in that the heat exchanger further comprises a flap (7), so that the exhaust gas flow into a first partial flow (8) in the first partial heat exchanger and a second partial flow (9) can be divided into the second partial heat exchanger. Heat exchanger according to one of the preceding claims, characterized in that the second Teilwarmeübertrager has a drain (10) for separating the condensate from the exhaust gas Exhaust system of a motor vehicle with a heat exchanger according to one of the preceding claims. Method for operating an exhaust system of a motor vehicle having the following features: - Shut off the first Teilwärmeübertragers (4) by means of the flap (7), so that the exhaust gas flows exclusively into the second partial heat exchanger (5) and is dehumidified. - Partially open the flap (7), so that the exhaust gas in the first (4) and second partial heat exchanger (5) flows and in the second Partial heat exchanger, the moisture is expelled by the exhaust gas. - Discharge of moisture from the second partial heat exchanger via the drain (10). - Shut off the second Teilwärmeübertragers means of the flap (7), so that the exhaust gas flows exclusively in the first partial heat exchanger (4).

Images