DE102020109256A1 - Condensate recovery system for an internal combustion engine - Google Patents

Abstract

The invention relates to a condensate recovery system (1) for an internal combustion engine, comprising a water utilization device (2), an exhaust line (3), a fiber material (5) and a connection device (12) for connecting the fiber material (5) to the water utilization device (2), wherein the fiber material (5) is arranged within the exhaust line (3) in such a way that water (7) from an exhaust gas flow (6) of the exhaust line (3) condenses on the fiber material (5) and can be returned to the water utilization device (2).

Description

The invention relates to a condensate recovery system for an internal combustion engine, a silencer and a method for producing a condensate recovery system.

The CN108223058A discloses a condensate recovery device for an internal combustion engine of a vehicle. The condensate is released into the surroundings of the vehicle via a silencer.

The condensate recovery system according to the invention for an internal combustion engine comprises a water utilization device, an exhaust gas line, a fiber material and a connecting device for connecting the fiber material to the water utilization device. The fiber material is arranged within the exhaust line in such a way that water is extracted from an exhaust gas flow 6th of the exhaust line condense on the fiber material and can be returned to the water utilization device.

The water utilization device is preferably a water injection device for injecting water into the internal combustion engine. For a water utilization facility, a water supply is essential for efficient operation. Manual refilling and / of the supply of water to the water utilization device, however, would increase the maintenance effort for the utilization device. A recovery of condensed liquid, preferably water, from the exhaust gas stream enables a low-maintenance and / or maintenance-free supply of the water utilization device with water.

In a preferred embodiment, the condensate recovery system according to the invention comprises a silencer, the fiber material being arranged inside the silencer.

The fact that the fiber material is arranged inside the silencer enables water to be efficiently recovered from the exhaust gas flow without occupying additional installation space, since silencers are already present in many internal combustion engines.

A condensate recovery system according to the invention comprises a silencer according to the invention.

The silencer according to the invention enables a space-saving condensation of water from an exhaust gas flow. The arrangement of the fiber material within the muffler means that the integration of further components for condensing water can be dispensed with, which advantageously lowers the manufacturing costs, the weight and the required installation space of a condensate recovery system according to the invention.

Therefore, the use of a silencer according to the invention within a condensate recovery system according to the invention enables efficient recovery of water.

1. a) Vorbereiten eines Fasermaterials so, dass das Fasermaterial zylinderförmig angeordnet ist und einen Durchmesser aufweist, welcher größer ist als eine durchströmbare Querschnittsfläche eines Schalldämpfers;
2. b) Einstecken des vorbereiteten Fasermaterials in den Schalldämpfer;
3. c) Vorsehen einer Abführung in dem Schalldämpfer zum Abführen von Wasser.

A method according to the invention for producing a condensate recovery system according to the invention comprises the steps:

1. a) preparing a fiber material in such a way that the fiber material is arranged in the shape of a cylinder and has a diameter which is larger than a cross-sectional area of a silencer through which a flow can flow;
2. b) inserting the prepared fiber material into the silencer;
3. c) Providing a drain in the muffler for draining water.

The method according to the invention enables a mechanically simple and inexpensive production of the condensate recovery system according to the invention.

The fact that the diameter of the fiber material is larger, the cross-sectional area of the silencer through which a flow can flow, enables a positive, non-positive and / or material connection between the fiber material and the silencer.

The fiber material is preferably designed as metal wool. This enables the fiber material to be prepared by means of simple mechanical steps, such as cutting, so that the preparation costs and the preparation time are advantageously low.

Plugging in is a simple mechanical processing step that can be carried out within a few seconds even by an unskilled worker. Inexpensive automation is also made possible.

The provision of the discharge is also made possible by simple mechanical steps. A commercially available silencer only needs to be modified slightly in order to provide the discharge. The modifications can be made even by an unskilled person, or are made possible by simple automation.

The dependent claims describe further advantageous embodiments of the invention.

Preferred embodiments are explained in more detail with reference to the following figure.

1 shows schematically a condensate recovery system according to the invention 1 for an internal combustion engine. It includes a water utilization facility 2 , an exhaust system 3 , a fiber material 5 and a connecting device 12 for connecting the fiber material 5 with the water utilization device 2 . The fiber material 5 is within the exhaust system 3 arranged so that water 7th from an exhaust gas stream 6th of the exhaust system 3 on the fiber material 5 condense and to the water utilization facility 2 can be traced back.

In this embodiment, the water utilizing device is 2 designed as a water injection device for injecting water into the internal combustion engine.

The condensate recovery system 1 comprises a silencer according to the invention 4th .

The fiber material 5 is inside the muffler 4th arranged.

The fiber material 5 is designed as metal wool.

Metal wool is particularly suitable as a condensation core for gaseous liquid from the exhaust gas flow 6th . Metal wool is commercially available and available in many forms. Thus, through the formation of the fiber material 5 as metal wool an inexpensive production of the condensate recovery system according to the invention 1 enables.

The metal wool has a degree of fineness between 00 and 4.

The degree of fineness refers to the degree of fineness of metal wool used in industry. In this exemplary embodiment, the metal wool has a degree of fineness of 2. This advantageously enables the back pressure for the exhaust gas flow 6th through the fiber material 5 to be reduced compared to metal wool with a higher degree of fineness. In addition, efficient condensation is made possible because the metal wool has more material than metal wool with a lower degree of fineness.

The fiber material 5 Steel includes steel.

In this exemplary embodiment, the proportion of steel in the fiber material is greater than 90%.

This enables the fiber material to be protected against corrosion 5 against oily and / or acidic components of the exhaust gas flow 6th and / or the condensed liquid 7th . This enables the durability and / or the service life of the condensate recovery system 1 beneficial to increase.

The silencer 4th has a through-flow cross-sectional area 8th perpendicular to a longitudinal axis 9 of the silencer 4th on, the fiber material 5 the cross-sectional area 8th at least partially covered to at least 90%.

In this embodiment, the fiber material is covered 5 100% of the cross section 8th . This enables that from the complete exhaust gas flow 6th existing liquid can be condensed. This enables high efficiency for the operation of the condensate recovery system 1 .

The silencer 4th has one of the exhaust gas flow 6th Longitudinal axis through which flow can flow in the direction of flow 9 on, with the fiber material 5 over a length of at least 10% of the length of the longitudinal axis 9 extends.

In this embodiment the fiber material extends 5 over 10% of the longitudinal axis 9 . The fiber material 5 is close to an exhaust gas inlet of the muffler 4th arranged, in particular within the first third of the longitudinal axis 9 . This enables a reduction in the back pressure in contrast to a solution in which the fiber material is 5 over more than 10% of the longitudinal axis 9 extends.

The connecting device 13 includes a discharge 11 , the muffler 4th comprises an outer shell, and wherein the outer shell has an almost elliptical cross-section at least in sections, and wherein the discharge 11 inside the outer shell at one point 10 with a maximum distance to a central axis of the silencer 4th is arranged.

Liquid condensate flows through gravity 7th to an underside of the muffler 4th . The underside is a side which, after installation in the vehicle, faces a roadway.

The discharge 11 is positioned in such a way that it is as small as possible from the road, i.e. at the lowest point of the silencer 4th is arranged. The arrangement of the discharge 11 on the underside of the muffler 4th enables a simple and inexpensive transfer of the condensed water 7th from the muffler 4th by exploiting the earth's gravity.

The discharge 11 is designed as a hole in the outer shell.

In this embodiment, the connecting device comprises 13 downstream of the bore a hose which is suitable for carrying water 7th from the bottom of the muffler 4th to be transported downstream via the outer shell. This enables a flexible and inexpensive design of the discharge 11 , since an adaptation to different condensate rates can easily be made by adapting the bore diameter and / or the hose diameter.

The connecting device 13 includes a tank 12 for collecting water 7th to supply the water utilization facility 2 , with the tank 12 downstream of the discharge 1 is arranged.

Through the direct transfer of the condensed liquid 7th via the hose to the tank 12 losses during transport are advantageously minimized. In addition, the tank enables 12 a storage of water, which it is to be made available to the water utilization device at a later point in time.

In this embodiment is in addition to the supply of the tank 12 the condensed liquid also means that the tank is filled manually 12 , possible. This allows an increase in the flexibility for the operation of the condensate recovery system 1 .

In an alternative embodiment, the tank is also filled up 12 possible via other recovery systems for water, which are comprised by the internal combustion engine.

The silencer 4th is designed as an absorption silencer.

Absorption silencers are commercially available and established for use in internal combustion engines. This enables the condensate recovery system to be manufactured inexpensively 1 . In addition, a simple integration of the fiber material is required for this type of silencer 5 enables.

1. a) Vorbereiten eines Fasermaterials so, dass das Fasermaterial zylinderförmig angeordnet ist und einen Durchmesser aufweist, welcher größer ist als eine durchströmbare Querschnittsfläche 8 eines Schalldämpfers 4 nach Anspruch 12;
2. b) Einstecken des vorbereiteten Fasermaterials in den Schalldampfer 4;
3. c) Vorsehen einer Abführung 11 in dem Schalldämpfer 4 zum Abführen von Wasser 7.

A method according to the invention for producing a silencer according to the invention 4th comprises the steps:

1. a) Preparing a fiber material in such a way that the fiber material is arranged in the shape of a cylinder and has a diameter which is larger than a cross-sectional area through which a flow can flow 8th of a silencer 4th according to claim 12;
2. b) Inserting the prepared fiber material into the silencer 4th ;
3. c) Provision of a discharge 11 in the muffler 4th for draining water 7th .

In this exemplary embodiment, the fiber material is designed as metal wool. The metal wool is initially in a commercially available cylindrical shape. Metal scissors are used to prepare the metal wool, which can cut through metal fibers during manual operation. This enables the metal wool to be prepared by cutting.

In this exemplary embodiment, the metal wool is 2% larger than a cross-sectional area that can be flowed through 8th of a silencer 4th .

The insertion is done manually in this embodiment. In an alternative embodiment, the insertion takes place automatically.

The discharge is provided through a bore through the outer shell of the silencer, which is inexpensive to manufacture 4th at the point 10 and / or close to the point 10 . The diameter of the hole is 2mm and is made manually with a drill.

An automated execution of the drilling is also conceivable. This would advantageously shorten the manufacturing time compared to manual execution.

QUOTES INCLUDED IN THE DESCRIPTION

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

Patent literature cited

• CN 108223058 A [0002]

Claims (13)

Condensate recovery system (1) for an internal combustion engine, comprising a water utilization device (2), an exhaust line (3), a fiber material (5) and a connecting device (12) for connecting the fiber material (5) to the water utilization device (2), wherein the fiber material ( 5) is arranged within the exhaust gas line (3) in such a way that water (7) from an exhaust gas stream (6) of the exhaust gas line (3) condenses on the fiber material (5) and can be returned to the water utilization device (2). Condensate recovery system (1) Claim 1 , comprising a silencer (4), wherein the fiber material (5) is arranged inside the silencer (4). Condensate recovery system (1) according to one of the preceding claims, wherein the fiber material (5) is designed as metal wool. Condensate recovery system (1) Claim 3 The metal wool has a degree of fineness between 00 and 4. Condensate recovery system (1) according to one of the preceding claims, wherein the fiber material (5) comprises steel. Condensate recovery system (1) according to one of the Claims 2 to 5 , wherein the silencer (4) has a through-flow cross-sectional area (8) perpendicular to a longitudinal axis (9) of the silencer (4), and wherein the fiber material (5) covers the cross-sectional area (8) at least in sections to at least 90%. Condensate recovery system (1) according to one of the Claims 2 to 6th , wherein the silencer (4) has a longitudinal axis (9) through which the exhaust gas flow (6) can flow in the direction of flow, and wherein the fiber material (5) extends over a length of at least 10% of the length of the longitudinal axis (9). Condensate recovery system (1) according to one of the Claims 2 to 7th , wherein the connecting device (13) comprises a discharge (11), and wherein the silencer (4) comprises an outer shell, and wherein the outer shell at least in sections has an almost elliptical cross-section, and wherein the discharge (11) within the outer shell at one point is arranged at a maximum distance from a central axis of the muffler (4). Condensate recovery system according to Claim 8 , wherein the discharge (11) is designed as a bore in the outer shell. Condensate recovery system (1) according to one of the preceding claims, wherein the connecting device (13) comprises a tank (12) for collecting water (7) for supplying the water utilization device (2), and wherein the tank (12) downstream of the discharge (11) is arranged. Condensate recovery system (1) according to one of the preceding claims, wherein the silencer (4) is designed as an absorption silencer. Silencer (4) for a condensate recovery system (1) according to one of the Claims 2 to 11 . A method for producing a silencer (4) for a condensate recovery system (1) according to one of the Claims 2 to 11 , comprising the steps: a) preparing a fiber material so that the fiber material is arranged in a cylindrical shape and has a diameter which is larger than a cross-sectional area (8) of a silencer (4) through which a flow can flow Claim 12 ; b) inserting the prepared fiber material into the silencer (4); c) Providing a discharge (11) in the silencer (4) for discharging water (7).

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