FI20185834A1 - Dual fuel -injektori, duel fuel -polttoainejärjestelmä, polttomoottorikone ja käyttömenetelmä - Google Patents

Abstract

Duel fuel-injektori (6) polttomoottorikoneen (1) sylinteriä (2) varten, jossa on ainakin yksi ensimmäinen suutinventtiili (7), jonka kautta voidaan viedä ensimmäinen polttoaine, erityisesti diesel, kulloisenkin sylinterin (2) palotilaan (5), ja ainakin yksi toinen suutinventtiili (9), jonka kautta toinen polttoaine, erityisesti metanoli, voidaan viedä kulloisenkin sylinterin (2) palotilaan (5), jolloin yhden tai jokaisen toisen suutinventtiilin (9) alueella on viety kulloisenkin toisen suutinventtiilin (9) suutinneula sen neulanohjaimeen, jolloin neulanohjain määrittää ainakin osittain neulapolttoainetilan, johon voidaan viedä syöttöjohdon kautta toinen polttoaine määritetyllä polttoainepaineella, jolloin yhden tai jokaisen suutinventtiilin (9) alueella kulloisenkin toisen suutinventtiilin (9) neulanohjaimeen voidaan syöttää tiivistys- ja voiteluöljy, jotta toisaalta estetään toisen polttoaineen vuotaminen neulanohjaimen kautta ympäristöön ja toisaalta voidellaan kulloistakin suutinneulaa neulanohjaimessa, jolloin yhteen tai jokaiseen toiseen suutinventtiiliin (9) on järjestetty kytkentäventtiili (18), joka syöttää kulloisenkin toisen suutinventtiilin (9) kulloiseenkin neulapolttoainetilaan syöttöjohdon kautta toisen polttoaineen riippuen kulloisenkin sylinterin (2) ruiskutustahdista, niin että toisen polttoaineen polttoainepaine on käsillä neulapolttoainetilassa riippuen ruiskutustahdista, ja jolloin kulloisenkin toisen suutinventtiilin (9) neulanohjain määrittää ainakin osittain tiiviste- ja voiteluöljyllä syötettävän neulanvoitelutilan, jolla on sillä tavalla mitoitettu etäisyys kulloisestakin neulapolttoainetilasta, että silloin, kun kulloisessakin neulapolttoainetilassa on käsillä toisen polttoaineen polttoainepaine ruiskutussyklistä riippuen, toinen polttoaine ei päädy neulanvoitelutilan alueelle.

Description

MAN Diesel & Turbo SE

DUAL-FUEL INJECTOR, DUAL-FUEL SYSTEM, INTERNAL COMBUSTION ENGINE AND METHOD FOR OPERATING THE SAME

The invention relates to a dual-fuel injector. The invention, furthermore, relates to a dual-fuel system, an internal combustion engine and a method for operating the same.

Dual-fuel internal combustion engines, which in a first operating mode combust a first fuel and in a second operating mode a second fuel, are thoroughly known from practice. The fuel combusted in the first operating mode is preferentially a liquid fuel such as for example diesel. The second fuel combusted in the second operating mode can either be a gaseous fuel or also a liquid fuel, such as for example methanol. In the second operating mode, the first fuel is preferentially utilised for igniting the second fuel. The invention present here relates in particular to a dual-fuel internal combustion engine which as first fuel and as second fuel combusts a liquid fuel in each case. A dual-fuel internal combustion engine comprises a dual-fuel system which comprises a dual-fuel injector for each cylinder of the internal combustion engine. Dual-fuel injectors known from practice typically comprise a first nozzle valve and multiple second nozzle valves, wherein the first nozzle valve serves for introducing the first fuel into a combustion chamber of the respective cylinder, and wherein the second nozzle valves serve for introducing the second fuel into the combustion chamber of the respective cylinder. As already explained, the first fuel is in particular diesel and the second fuel in particular methanol, alternatively ethanol or LPG.

In the region of the respective nozzle valve, in particular in the region of each second nozzle valve, a nozzle needle of the respective nozzle valve is guided in a needle guide of the same, wherein the needle guide of the nozzle needle of the respective nozzle valve defines a needle fuel chamber at least in sections. The respective needle fuel chamber of the respective nozzle valve is suppliable with the respective fuel with a defined fuel pressure via a supply line. This applies both in the region of the first nozzle valve and also in the region of the second nozzle valve.

Diesel fuel, which via the first nozzle valve is introducible into the combustion chamber of the respective cylinder can assume a lubricating function for the respective nozzle needle, which diesel fuel moreover is non-toxic. Methanol, by contrast, which is introducible via the second nozzle valves into the combustion chamber of the respective cylinder cannot assume a lubrication function on the one hand and is toxic on the other hand, so that it is usual from practice to supply the needle guide of the respective second nozzle valve in the region of the or each second nozzle valve with a sealing and lubricating oil in order to avoid on the one hand that the second fuel escapes via the needle guide into the surroundings and on the other hand lubricate the respective nozzle needle in the needle guide.

In dual-fuel injectors known from practice, a fuel pressure of the second fuel is permanently present in the second operating mode of the internal combustion engine in the needle fuel chamber of the respective second nozzle valve, which can amount to several hundred bar, in particular in the order of magnitude of approximately 600 bar. For this reason it is necessary in dual-fuel injectors known from practice to provide the sealing and lubricating oil with a pressure that is above the fuel pressure of the second fuel, that accordingly the dual-fuel injector has to be supplied with a sealing and lubricating oil that is under high pressure. This is complicated and disadvantageous. DE 10 2014 014 452 B4 discloses a dual-fuel injector according to the prior art with a first nozzle valve for a first fuel and multiple second nozzle valves for a second fuel.

Starting out from this, the present invention is based on the object of creating a new type of dual-fuel injector, a dual-fuel system, an internal combustion engine and a method for operating the internal combustion engine.

This object is solved through a dual-fuel injector according to Claim 1. According to the invention, the or each second nozzle valve is assigned a switching valve, which supplies the respective needle fuel chamber of the respective second nozzle valve with the second fuel as a function of an injection cycle of the respective cylinder via the supply line, so that the fuel pressure of the second fuel is present in the needle fuel chamber as a function of the injection cycle. The needle guide of the respective second nozzle valve defines, at least in sections, a needle lubricating chamber that can be supplied with the sealing and lubricating oil, which has a distance from the respective needle fuel chamber that is dimensioned in such a manner that in particular when in the respective needle fuel chamber the fuel pressure of the second fuel is present as a function of the injection cycle, the second fuel does not enter the region of the needle lubricating chamber.

Because of the fact that in the dual-fuel injector according to the invention the second fuel is supplied to the needle fuel chamber of the respective second nozzle valve as a function of the injection cycle of the respective cylinder, so that accordingly the fuel pressure of the second fuel is not permanently present in the needle fuel chamber of the respective second nozzle valve but merely as a function of the respective injection cycle, just as because of the fact that the distance between the needle fuel chamber and the needle lubricating chamber supplied with the sealing and lubricating oil is dimensioned in a defined manner, a sealing and lubricating oil under high pressure can be omitted.

On the contrary, the sealing function and lubricating function of the oil can also be ensured in its entirety in particular when the oil pressure of the sealing and lubricating oil is below the fuel pressure of the second fuel in the second operating mode. For the distance between the needle fuel chamber and the needle lubricating chamber of the respective second nozzle valve is dimensioned in such a manner that in particular when in the respective needle fuel chamber the fuel pressure of the second fuel is present, which is higher than the oil pressure of the sealing and lubricating oil, the second fuel does not enter the region of the needle lubricating chamber. Insofar, the sealing and lubricating function of the sealing and lubricating oil can be provided in its entirety.

According to an advantageous further development of the invention, the dual-fuel injector comprises multiple second nozzle valves wherein the second nozzle valves are assigned a common switching valve. This is advantageous for a simple design embodiment of the dual-fuel injector.

According to an advantageous further development, the switching valve is arranged outside a basic body of the dual-fuel injector. This makes it possible to simply replace the switching valve.

The dual-fuel system is defined in Claim 7 and the internal combustion engine is defined in Claim 9. The method for operating the internal combustion engine is defined in Claim 10.

Preferred further developments of the invention are obtained from the subclaims and the following description. Exemplary embodiments of the invention are explained in more detail by way of the drawing without being restricted to this. There it shows:

Fig. 1: a block diagram of a dual-fuel system,

Fig. 2: an extract from a dual-fuel injector of the dual-fuel system in the region of a second nozzle valve in the closed state of the same; and

Fig. 3: the extract of Fig. 2 in the opened state of the second nozzle valve.

The invention present here relates to a dual-fuel injector, to a dual-fuel system and to an internal combustion engine having such dual-fuel injectors and to methods for operating a dual-fuel internal combustion engine.

Fig. 1 shows highly schematically an extract from a dual-fuel internal combustion engine 1 or a dual-fuel system of the same in the region of a cylinder 2 of the internal combustion engine. Of the cylinder 2, a cylinder head 3 and a piston 4 are shown, wherein cylinder head 2 and piston 4 delimit a combustion chamber 5 of the respective cylinder 2 in sections.

The cylinder head 3 receives for the respective cylinder 2 a dual-fuel injector 6, wherein in the shown exemplary embodiment the dual-fuel injector 6 comprises a first nozzle valve 7, via which a first fuel 8 can be introduced into the combustion chamber 5 of the cylinder 2, and wherein the dual-fuel injector 6 comprises multiple second nozzle valves 9, via which a second fuel 10 can be introduced into the combustion chamber 5 of the cylinder 2.

The first fuel 8 is a first liquid fuel, in particular diesel. The second fuel 10 is also a liquid fuel, in particular methanol or ethanol or LPG (liquid petroleum gas) .

The first nozzle valve 7 of the dual-fuel injector 6 of the respective cylinder 2 is suppliable with the first fuel with the help of a first fuel supply system 11, wherein the first fuel is kept ready in a first fuel tank 12 of the first fuel supply system 11 and, emanating from the first fuel tank 12, can be supplied via a respective first fuel pump 13 to the respective cylinder 2, namely the respective dual-fuel injector 6 of the respective cylinder 2. The respective first fuel pump 13 can be a so-called cylinder-individual plug-in pump, which provides the first fuel with a first fuel pressure, which for example is in the order of magnitude of at least 1,500 bar, or between 1,500 bar to 2,500 bar.

The second nozzle valves 9 of the dual-fuel injector 6 of the respective cylinder 2 are suppliable with the second fuel via a second fuel supply system 14, wherein the second fuel is kept ready in a second fuel tank 15 of the second fuel supply system 14. A second fuel pump 16 of the second fuel supply system 14 delivers the second fuel emanating from the second fuel tank 15 into a fuel storage unit 17, in which the fuel is kept ready with a second fuel pressure, which in particular is of the order of magnitude of approximately 600 bar. Emanating from this storage unit 17, the second fuel can be supplied to the second nozzle valves 9, wherein between the storage unit 17 and the second nozzle valves 9 of the respective dual-fuel injector 6 a switching valve 18 is coupled, which does not permanently provide the second nozzle valves 7 with the second fuel with the second fuel pressure but merely as a function of the injection cycle of the respective cylinder in the times in which the second nozzle valves 9 actually inject the second fuel 10 into the combustion chamber 5 of the respective cylinder 2.

Fig. 1, furthermore, shows a sealing and lubricating oil system 19 with a reservoir 20 for sealing and lubricating oil, which can be provided to the dual-fuel injector 6, in particular for assuming sealing and lubricating functions in the region of the nozzle valves of the respective dual-fuel injector 6.

Fig. 2 and 3 show an extract from the dual-fuel injector 6 in the region of a second nozzle valve 9, which serves for injecting the second fuel into the combustion chamber 5 of the respective cylinder 2, wherein in Fig. 2 the shown second nozzle valve 9 is closed and in Fig. 3 the same is opened.

Accordingly, the second nozzle valve 9 of the dual-fuel injector 6 shown in Fig. 2 and 3 comprises a nozzle needle 21 which is moveably guided up and down in a needle guide 22, wherein this needle guide 22 is provided by a basic body 23 of the dual-fuel injector 6. The needle guide 22 of the respective second nozzle valve 9 defines at least in sections a needle fuel chamber 24, which is suppliable with the second fuel, namely as a function of the injection cycle via the respective switching valve 18 and a supply line 25 for the second fuel leading from the switching valve 18 of the cylinder 2 or of the dual-fuel injector 6 to the respective needle fuel chamber 24.

As already explained, the switching valve 18, which is assigned to the or each second nozzle valve 9 of the dual-fuel injector 6, does not supply the respective needle fuel chamber 24 of the respective second needle valve 9 with the second fuel but merely as a function of the injection cycle of the respective cylinder 2, so that the fuel pressure of the second fuel is present in the needle fuel chamber 24 as a function of the injection cycle of the respective cylinder 2, i.e. in particular when the respective second nozzle valve 9 according to Fig. 3 is opened, i.e. when a contour 2 6 of the nozzle needle 21 is lifted off the corresponding valve seat 27 of the needle guide 22. In particular when, by contrast, according to Fig. 2, the respective second nozzle valve 9 is closed because of the fact that the contour 26 of the nozzle needle 21 lies against the valve seat 27 of the needle guide 22, the switching valve 18 is closed so that the needle fuel chamber 24 is then not provided with a second fuel via the supply line 25 and accordingly the fuel pressure of the second fuel is then not present in the needle fuel chamber 24.

In Fig. 3, the flow of the second fuel with opened second nozzle valve 9 is shown in continuously drawn arrow lines, which, emanating from the opened switching valve 18, is accordingly supplied to the needle fuel chamber 24 via the supply line 25 and is introducible with the nozzle needle 21 lifted off the valve seat 27 via an orifice 28 in the basic body 23 of the dual-fuel injector 6 into the combustion chamber 5 of the respective cylinder 2. Compared with this, Fig. 3 shows in dash-dotted lines that with the respective closed second nozzle valve 9 in the respective needle fuel chamber 24 the second fuel is not supplied, since in this case the switching valve 18 is closed so that with closed second nozzle valve 9 in the needle fuel chamber 24 the fuel pressure of the second fuel is then not present. In the state of Fig. 3, the sealing and lubricating oil can flow into the region of the needle fuel chamber 24.

According to Fig. 2 and 3, the needle guide 22 of the respective second nozzle valve 9 delimits, furthermore, a needle lubricating chamber 29 that is suppliable with the sealing and lubricating oil at least in sections. According to the dashed arrow lines shown in Fig. 2 and 3, the respective needle lubricating chamber 29 is suppliable with the sealing and lubricating oil emanating from the oil tank 20 of the sealing and lubricating oil system 19 in order to lubricate on the one hand the respective sealing needle 21 in the respective needle guide 22 and on the other hand avoid that second fuel can escape into the surroundings via the needle guide 22.

Here, seen in the axial direction or movement direction of the nozzle needle 21 of the respective second nozzle valve 9 of the dual-fuel injector 6 a distance X between the needle fuel chamber 24 and the needle lubricating chamber 29 is dimensioned in such a manner that in particular when in the needle fuel chamber 24 the fuel pressure of the second fuel (see Fig. 3) is present as a function of the injection cycle, the second fuel, emanating from the needle fuel chamber 24 can migrate via the needle guide 22 in the direction of the needle lubricating chamber 29 however does not enter the region of the needle lubricating chamber 29, so that accordingly the sealing and lubricating oil cannot be displaced from the needle lubricating chamber 29 even in particular when its pressure is lower than the fuel pressure of the second fuel.

With the dual-fuel injector 6 according to the invention, the or each second nozzle valve 9 is accordingly assigned a switching valve 18, in order to make the second fuel available to the respective needle fuel chamber 24 as a function of the injection cycle of the respective cylinder 2, so that accordingly the fuel pressure of the second fuel in the needle fuel chamber 24 is not permanently present but merely as a function of the respective injection cycle. The needle lubricating chamber 29, which has the defined distance X from the needle fuel chamber 24, is permanently supplied with sealing and lubricating oil the oil pressure of which is lower than the fuel pressure of the second fuel. Typically, the fuel pressure of the second fuel is approximately 600 bar and the oil pressure of the sealing and lubricating oil less than 100 bar, for example approximately 10 bar. Because of the defined distance X between the needle fuel chamber 24 and the needle lubricating chamber 29, the second fuel, in particular when as a function of the injection cycle the fuel pressure of the second fuel is present in the needle fuel chamber 24, can indeed migrate in the direction of the needle lubricating chamber 29, but not enter the region of the needle lubricating chamber 29 and accordingly not displace the sealing and lubricating oil from the needle lubricating chamber 29. Accordingly, the distance X between the needle fuel chamber 24 and the needle lubricating chamber 29 is dimensioned as a function of the injection cycle and preferentially also as a function of a pressure differential between the oil pressure of the sealing and lubricating oil and the fuel pressure of the second fuel.

As already explained, the dual-fuel injector 6 preferentially comprises a first central first nozzle valve 7 and multiple second nozzle valves 9, which are positioned about the first nozzle valve 7. The multiple second nozzle valves 9 of the dual-fuel injector 6 of the respective cylinder 2 are assigned a common switching valve 18, which is arranged outside the basic body 23 of the dual-fuel injector 6 and can thus be easily replaced.

List of reference numbers 1 Internal combustion engine 2 Cylinder 3 Cylinder head 4 Piston 5 Combustion chamber 6 Dual-fuel injector 7 Nozzle valve 8 First fuel 9 Nozzle valve 10 Second fuel 11 Fuel supply system 12 Reservoir 13 Fuel pump 14 Fuel supply system 15 Reservoir 16 Fuel pump 17 Reservoir 18 Switching valve 19 Sealing and lubricating oil system 20 Reservoir 21 Nozzle needle 22 Needle guide 23 Basic body 24 Needle fuel chamber 25 Supply line 26 Contour 27 Valve seat 28 Orifice 29 Needle lubricating chamber

Claims (10)

1. Duel fuel -injektori (6) polttomoottorikoneen (1) sylinteriä (

2) varten, jossa on ainakin yksi ensimmäinen suutinventtiili (7), jonka kautta

5 voidaan viedä ensimmäinen polttoaine, erityisesti diesel, kulloisenkin sylinterin (2) paloillaan (5), ja ainakin yksi toinen suutinventtiili (9), jonka kautta toinen polttoaine, erityisesti metanoli, voidaan viedä kulloisenkin sylinterin (2) palotilaan (5), jolloin yhden tai jokaisen toisen suutinventtiilin (9) alueella on viety

10 kulloisenkin toisen suutinventtiilin (9) suutinneula (21) sen neulanohjaimeen (22), jolloin neulanohjain (22) määrittää ainakin osittain neulapolttoainetilan (24), johon voidaan viedä syöttöjohdon (25) kautta toinen polttoaine määritetyllä polttoainepaineella, jolloin yhden tai jokaisen toisen suutinventtiilin (9) alueella kulloisen15 kin toisen suutinventtiilin (9) neulanohjaimeen (22) voidaan syöttää tiivistys- ja voiteluöljy, jotta toisaalta estetään toisen polttoaineen vuotaminen neulanohjaimen (22) kautta ympäristöön ja toisaalta voidellaan kulloistakin suutinneulaa (21) neulanohjaimessa (22), tunnettu siitä, että yhteen tai jokaiseen toiseen suutinventtiiliin (9) on järjestetty kytken20 täventtiili (18), joka syöttää kulloisenkin toisen suutinventtiilin (9) kulloiseenkin neulapolttoainetilaan (24) syöttöjohdon (25) kautta toisen polttoaineen riippuen kulloisenkin sylinterin (2) ruiskutustahdista, niin että toisen polttoaineen polttoainepaine on neulapolttoainetilassa (24) riippuen ruiskutustahdista, kulloisenkin toisen suutinventtiilin (9) neulanohjain (22) määrittää

25 ainakin osittain tiiviste- ja voiteluöljyllä syötettävän neulanvoitelutilan (29), jolla on sillä tavalla mitoitettu etäisyys (X) kulloisestakin neulapolttoainetilasta (24), että silloin, kun kulloisessakin neulapolttoainetilassa (24) on toisen polttoaineen polttoainepaine ruiskutustahdista riippuen, toinen polttoaine ei päädy neulanvoitelutilan (29) alueelle.

30 2. Patenttivaatimuksen 1 mukainen dual fuel -injektori, tunnettu siitä, että se käsittää yhden ainoan keskeisen ensimmäisen suutinventtiilin (7).

3. Patenttivaatimuksen 1 tai 2 mukainen dual fuel -injektori, tunnettu siitä, että se käsittää useita toisia suutinventtiilejä (9).

4. Patenttivaatimuksen 3 mukainen dual fuel -injektori, tunnettu

35 siitä, että toiset suutinventtiilit (9) on sijoitettu ensimmäisen suutinventtiilin (7) ympärille.

20185834 prh 04-10- 2018

5. Patenttivaatimuksen 3 tai 4 mukainen dual fuel -injektori, tunnettu siitä, että toisiin suutinventtiileihin (9) on järjestetty yhteinen kytkentäventtiilii (18).

6. Jonkin patenttivaatimuksen 1-5 mukainen dual fuel -injektori,

5 tunnettu siitä, että kytkentäventtiili (18) on sijoitettu dual fuel -injektorin (6) peruskappaleen (23) ulkopuolelle.

7. Polttomoottorikoneen dual fuel -polttoaine)ärjestelmä, jossa on kulloisellekin polttomoottorikoneen sylinterille (2) jonkin patenttivaatimuksen 1-6 mukaisen dual fuel -injektori (6),

10 ensimmäinen polttoaineensyöttöjärjestelmä (11), jonka kautta voidaan syöttää ensimmäinen polttoaine kulloiseenkin dual fuel -injektoriin (6), toinen polttoaineensyöttöjärjestelmä (14), jonka kautta voidaan syöttää toinen polttoaine kulloiseenkin dual fuel -injektoriin (6), tiivistys- ja voiteluöljyjärjestelmä (19), jonka kautta voidaan syöttää

15 tiivistys- -ja voiteluöljy kulloiseenkin dual fuel -injektoriin (6).

8. Patenttivaatimuksen 7 mukainen dual fuel -polttoainejärjestelmä, tunnettu siitä, että toinen polttoaineensyöttöjärjestelmä (14) asettaa käytettäväksi toisen polttoaineen määritetyllä polttoainepaineella,

20 tiivistys- ja voiteluöljyjärjestelmä (19) asettaa käytettäväksi tiivistyspä voiteluöljyn määritetyllä öljynpaineella, joka on pienempi kuin toisen polttoaineen polttoainepaine.

9. Polttomoottorikone, jossa on ainakin yksi sylinteri (2),

25 jossa on patenttivaatimuksen 7 tai 8 mukainen dual fuel polttoainejärjestelmä.

10. Menetelmä patenttivaatimuksen 9 mukaisen polttomoottorikoneen (1) käyttämiseksi, jolloin yhteen tai jokaiseen toiseen suutinventtiiliin (9) syötetään toinen polttoaine riippuen kulloisenkin sylinterin (2) ruiskutussyklistä.