EP2547894A1

EP2547894A1 - Fuel feeding system

Info

Publication number: EP2547894A1
Application number: EP10796275A
Authority: EP
Inventors: Thorsten Ortlepp; Christian Grunenberg; Emmanuel Routier
Original assignee: Daimler AG
Current assignee: Mercedes Benz Group AG
Priority date: 2010-03-18
Filing date: 2010-12-09
Publication date: 2013-01-23
Also published as: CN102803700A; DE102010011915A1; JP2013522523A; RU2012144231A; WO2011113464A1; US20130048754A1; US8726853B2

Abstract

A fuel feeding system comprises a fuel supply line (12) for conveying fuel from a fuel tank via a fuel pump (14, 15) to a fuel injection device (10) of an internal combustion engine; a fuel filter (16) which is arranged in the fuel supply line (12) and has a water separator (17); and a fuel/water dispensing device (32) which is coupled to the fuel filter (16) and is intended for conducting the water collected in the water separator (17) of the fuel filter (16) into an exhaust pipe (36) of the internal combustion engine. The fuel/water dispensing device (32) is connected via a main line (22) to a dry region of the fuel filter (16) and via a branch line (20) to a water storage region of the fuel filter (16). In addition, a mixing device (24) is arranged in the main line (22) and the branch line (20) opens out into the mixing device (24) in such a manner that a stream of fuel in the main line (22) can carry along water from the water line (20).

Description

Fuel supply system

The invention relates to a fuel supply system for an internal combustion engine according to the preamble of claim 1.

The use of fuel filters with water separator in the fuel supply line to the fuel injection device of the internal combustion engine has long been known. The water must be emptied regularly from the fuel filter or the water separator. The problem here is that the water deposited in the fuel filter is generally contaminated with fuel. Since no unburned fuel may be discharged into the environment, for example, laborious and expensive water filtering or conditioning systems must be used.

DE 195 45 133 A1 discloses a fuel filter with a fuel inlet for the unpurified fuel and a fuel outlet for the purified fuel. In the fuel filter, a water separator is further integrated, the water outlet is coupled to the fuel drain. In order to again mix the separated water flow with a defined proportion of fuel, the discharge pipe of the water separator is coupled to the fuel pipe connected to the fuel pipe, that sets the desired fuel-water ratio over defined throttle points of a mixer unit. In favor of a lower overall pressure gradient with an equivalent mixing function, the mixer unit with its throttle points can preferably be designed as a Venturi nozzle.

Furthermore, it is known, for example from DE 10 2006 027 201 A1, to inject the water deposited in the fuel filter-including the fuel contained therein-via an injection nozzle into the exhaust gas line of the internal combustion engine. The injection of water into the exhaust line can lead to thermal problems in the exhaust after-treatment, since the water concentration in the range of 0 to 100% can vary very strong and unpredictable. The present invention has for its object to provide an improved fuel supply system with fuel filter. In particular, the fuel supply system should allow an environmentally sound and process-reliable removal of water from the fuel filter.

This object is achieved by a fuel supply system having the features of claim 1. Advantageous embodiments and modifications of the invention are the subject of the dependent claims.

The fuel supply system includes a fuel supply line for conveying fuel from a fuel tank via a fuel pump to a fuel injection device of an internal combustion engine; a fuel filter disposed in the fuel supply line and having a water separator; and a fuel / water discharge device coupled to the fuel filter for discharging the water collected in the water separator of the fuel filter into an exhaust line of the internal combustion engine. In this case, the fuel / water delivery device is connected via a main line to an anhydrous area of the fuel filter and via a branch line to a water storage area of the fuel filter. Further, a mixing device is arranged in the main line and opens the branch line into the venturi nozzle device such that a fuel flow of the main line can entrain water from the water line.

In the fuel supply system according to the invention, the fuel / water discharge device for discharging the water collected in the fuel filter into the exhaust line of the internal combustion engine is connected to the fuel filter via two lines. A main line is connected to an anhydrous area of the fuel filter and a branch line is connected to a water storage area of the fuel filter. In addition, a mixing device is arranged in the main line, wherein the branch line opens into the mixing device such that a fuel flow of the main line can entrain water from the water line, if water is present and the branch line is open.

The separated in the fuel filter water is injected via the branch line and the fuel / water discharge device in the exhaust line of the internal combustion engine. The fuel components present in the water are thus burned in the exhaust aftertreatment system of the internal combustion engine, so that it can be ensured that no unburned fuel is discharged into the environment. By the measures to connect the fuel / water dispensers via two lines to the fuel filter, wherein the main line delivers fuel and the branch line promotes water, and the water through a mixing device the

To add fuel flow, can also be achieved that the fuel / water delivery device and thus the exhaust line a fuel flow is supplied with a possibly still between 0% and a defined value less than 100% fluctuating water concentration, causing the aforementioned control problems and thermal problems in the exhaust system be avoided or reduced to the extent necessary in the conventional systems.

Preferably, the mixing device is designed with at least one throttle point, nozzle and / or Venturi nozzle. Particularly preferably, the mixing device is designed as a Venturi nozzle or a Venturi nozzle device.

In a preferred embodiment of the invention, a valve device for selectively opening or closing the branch line is provided in the branch line. By means of this optionally provided valve device, it is possible, for example for flushing processes or regeneration processes, to set the possible maximum water concentration in the fuel flow fed to the fuel / water delivery device to 0%.

This valve device of the branch line is preferably arranged in or on a housing of the fuel filter. In this way, a compact design of the fuel supply system can be achieved.

In a further embodiment of the invention, a metering device is provided between the mixing device and the fuel / water delivery device.

This metering device is connected to the mixing device preferably via a short line piece, so that the metering device can be flushed very quickly if necessary - possibly with the aid of a shut-off valve in the water supply line to the mixing device.

Further, a water level sensor for detecting a water level in the

Be provided water separator of the fuel filter. By means of such a water level sensor can be ensured that the amount of water collected in the fuel filter does not exceed a predetermined upper limit. Furthermore, that can Appearance of water in the metering device can be predicted much better by this measure.

In one embodiment of the invention, this water level sensor with the valve device of the branch line forms a structural unit. This assembly is also preferably disposed in or on a housing of the fuel filter in order to achieve a compact design of the fuel supply system can.

In a further embodiment of the invention, the mixing device ((venturi) nozzle) is arranged in its position above the water level in the fuel filter. As a result, the effect can be used that during the injection breaks (ie during pause times of the metering) by the higher density of water compared to the fuel, the water in the fuel filter or in the water separator can run back and thus in a subsequent only very short flushing this Dosing initially with the applied without adding water fuel.

The above and other features, advantages and applications of the invention will become more apparent from the following description of a preferred, non-limiting embodiment with reference to the accompanying drawings. Therein, the single figure shows a schematic representation of the structure of a fuel supply system according to an embodiment of the present invention.

A fuel injection device 10 of an internal combustion engine (not shown) is supplied with fuel via a fuel supply line 12. The internal combustion engine is, for example, a diesel engine without the fuel supply system according to the invention being restricted to this application.

In the fuel supply line 12, a fuel filter 16 is arranged with a water separator 17 in a conventional manner. The fuel is conveyed by means of a fuel pump 14 upstream of the fuel filter 16 and / or a fuel pump 15 downstream of the fuel filter 16 to the fuel injection device 10 of the internal combustion engine.

For detecting the amount of water collected in the fuel filter 16, a water level sensor 18 is provided, which is preferably installed in or on the housing of the fuel filter 16. The concept according to the invention for automatically discharging the water collected in the fuel filter 16 or in its water separator 17 will now be described in more detail.

According to the present invention, the water collected in the fuel filter 16 is discharged into the exhaust line 34 of the internal combustion engine so that the unburned fuel contained in the water passes through the exhaust aftertreatment system of the internal combustion engine and is burned.

For this purpose, a branch 20 is connected to the water storage area of the fuel filter 16, i. generally a low point on the fuel filter. In addition, a main line 22 is connected to a higher, anhydrous point of the fuel filter 16, so that only fuel, in particular only purified fuel is conveyed through this main line 22.

The main line 22 and the branch line 20 both open into a Venturi nozzle mixing device 24. This is done in such a way that the flowing through the Venturi nozzle mixing device 24 fuel flow of the main line 22 entrains the water in the branch line 20. Depending on the design of the cross-sectional ratios of branch line 20, main line 22 and Venturi nozzle ischvorrichtung 24 so a largely constant maximum Wasserzumischungsverhältnis can be adjusted to the fuel flow. In particular, by means of the (venturi nozzle) mixing device 24, a maximum mixing of water with values of less than 100% can be set.

Downstream of the venturi nozzle mixer 24, a metering device 28 is provided for adjusting the amount of fuel / water supplied to the fuel / water dispenser 32. The Venturi nozzle mixing device 24 is connected to the metering device 28 via a shortest possible line piece 26 and the metering device 28 is connected to the fuel / water discharge device 32 via another line piece 30.

With the aid of an (electromagnetic) shut-off valve 36 arranged in the branch line 20, the water flow into the Venturi nozzle mixing device 24 can be selectively released or interrupted. Therefore, a fuel / water mixture with a fixed maximum water content or pure fuel flows selectively through the metering device 28. The metering device 28 can therefore be rinsed very quickly with pure fuel if necessary and it can at any time to a pure force Substance metering be switched into the exhaust line 34 of the internal combustion engine. The flushing of the metering device 28 may be necessary, for example, in the event of an unexpected engine stop, so that no water remains in the metering device, which increases

Could cause oxidation or icing damage. The injection of pure fuel into the exhaust line 34 of the internal combustion engine is desired, for example, during regeneration processes of the exhaust aftertreatment system.

The shut-off valve 36 of the branch line 20 forms, for example, with the water level sensor 18 of the fuel filter 16 is a structural unit. This unit is installed on or in the housing of the fuel filter 16 in order to achieve the most compact possible design.

The location of the venturi nozzle mixer 24 is selected above the water level in the fuel filter 16. During metering pauses, i. with locked metering device 28 and at the same time open or in another embodiment not obstructed shut-off valve 36 can continue to flow via the main line 22 fuel and replace the back in the branch line 20 to the water 17, until the water level in the branch line 20 is equal to that in the water 17 is. This is in the front part of the branch line 20 fuel without Wasserzumischung on, which allows (despite active admixture) short doses of pure fuel.

Claims

claims

1. Fuel delivery system, with

a fuel supply line (12) for conveying fuel from a fuel tank via a fuel pump (14, 15) to a fuel injection device (10) of an internal combustion engine;

a fuel filter (16) disposed in the fuel supply pipe (12) and having a water separator (17); and

a fuel / water delivery device (32) coupled to the fuel filter (16) for discharging the water collected in the water separator (17) of the fuel filter (16) into an exhaust line (36) of the internal combustion engine, characterized in that

the fuel / water discharge device (32) is connected via a main line (22) to an anhydrous area of the fuel filter (16) and via a branch line (20) to a water storage area of the fuel filter (16); and in the main line (22) a mixing device (24) is arranged and the branch line (20) opens into the mixing device (24) such that a fuel flow of the main line (22) can entrain water from the water line (20).

2. Fuel supply system according to claim 1,

characterized in that

the mixing device (24) is designed with at least one throttle point, nozzle and / or Venturi nozzle.

3. A fuel supply system according to claim 1 or 2,

characterized in that

in the branch line (20) a valve device (34) for selectively opening or closing the branch line (20) is provided.

4. Fuel supply system according to claim 3,

characterized in that

the valve device (34) of the branch line (20) is arranged in or on a housing of the fuel filter (18).

5. Fuel supply system according to one of the preceding claims,

characterized in that

between the mixing device (24) and the fuel / water dispenser (32) a metering device (28) is provided.

6. Fuel supply system according to claim 5,

characterized in that

the metering device (28) is connected to the mixing device (24) via a short line piece (26).

7. Fuel supply system according to one of the preceding claims,

characterized in that

a water level sensor (18) is provided for detecting a water level in the water separator (17) of the fuel filter (16).

8. Fuel supply device according to claim 7 and one of claims 3 to 6, characterized in that

the valve device (34) of the branch line (20) and the water level sensor (18) form a structural unit.

9. A fuel supply system according to claim 8,

characterized in that

the assembly of valve device (34) and water level sensor (18) is arranged in or on a housing of the fuel filter (18).

10. Fuel supply system according to one of the preceding claims,

characterized in that

the mixing device (24) is arranged above a water level in the fuel filter (16).