DE2855551A1 - PISTON COMBUSTION ENGINE WITH AT LEAST TWO EXHAUST GAS TURBOCHARGERS - Google Patents

Description

ENGINE AND TURBINE UNION
FRIEDRICHSHAPEN GMBH

Friedrichshafen

Piston internal combustion engine with at least two exhaust gas turbochargers

The invention relates to a piston internal combustion engine with charging by at least two exhaust gas turbochargers, which at Operation of the internal combustion engine in the upper power range connected in parallel with the cylinders of the internal combustion engine Supply charge air, and of which at least during operation of the internal combustion engine in the lower to medium power range one is switched off. By this measure, the entire exhaust gas of the internal combustion engine is in partial load operation the other exhaust gas turbochargers supplied, which thereby, opposite parallel operation with all exhaust gas turbochargers, closer to their design point and therefore with a better one Efficiency. This enables them to have a higher boost pressure and a larger amount of air for charging provide. This can reduce the amount of fuel and so that the torque can be increased without deteriorating the combustion or the exhaust gas composition to have to. Due to the larger amount of fuel and air, the energy contained in the exhaust gas is also increased, so that this in turn results in better charging.

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An internal combustion engine of the type mentioned has become known from DE-PS 850 965. In the case of the one described there However, the system has the disadvantage that when switching from operation with only one exhaust gas turbocharger to parallel connection a temporary shortage of charge air for the internal combustion engine occurs from two exhaust gas turbochargers.

This lack of charge air is caused by a drop in the Exhaust gas pressure when the second exhaust gas turbine is switched on, resulting in speed and thus charge air delivery of the first exhaust gas turbocharger is sensitively impaired without the second exhaust gas turbocharger standing still at this moment Is able to compensate for the deficiency. In addition, the second compressor arrives when the second exhaust-gas turbocharger starts up must work against a closed non-return valve, thereby in an impermissible pumping operation, so that he is not able to reach the pressure head of the first compressor »

In this way, a switchover to normal operation is possible cannot be achieved with exhaust gas turbochargers connected in parallel.

The object of the invention is to enable this switchover, with a drop in the charge air pressure as far as possible should be prevented so that none of the resulting effects - drop in performance and deterioration the exhaust quality - are of particular importance.

This object is achieved in that when the internal combustion engine is operated with medium to higher powers that part of the exhaust gas quantity of the internal combustion engine which is the exhaust gas quantity required for the continuously switched on exhaust gas turbocharger exceeds, the disconnectable exhaust gas turbochargers via an adjustable throttle device is fed that the in the process, charge air conveyed on the suction side of the continuously switched-on exhaust gas turbocharger via a tangential to the intake manifold or suction mouth arranged, a pre-swirl of the entering air causing the nozzle is supplied and that after reaching

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an approximately the same speed for all loaders a complete opening of the adjustable throttle device and a supply the internal combustion engine with charge air in the usual way by connecting all exhaust gas turbochargers in parallel he follows.

By pressurizing the switched off exhaust gas turbocharger The diversion of exhaust gas to accelerate the turbines and compressors can be controlled via an adjustable throttle that only the excess exhaust gas is used for this.

This excess exhaust gas would be switched off if the power of the internal combustion engine was further switched on without the switched on The exhaust gas turbocharger creates a back pressure in the exhaust gases due to the inadequate absorption capacity of the switched-on turbines into the cylinder of the internal combustion engine and thus cause a negative impairment of the combustion.

By introducing the charge air conveyed into the exhaust gas turbocharger during the acceleration process Intake line of the continuously delivering compressor is prevented that this charge air is blown into the open in an uncontrolled manner and the operating personnel may be harassed in the process. At the same time the compressor to be started up enables startup without pumping. Due to the pre-swirl achieved, the efficiency of the is permanent when the charger is switched on, so that less exhaust gas energy is required for the same charge air delivery rate. In this way, a larger amount of exhaust gas can be allocated to the exhaust gas superchargers to be switched on, so that the switching process takes place can be carried out faster.

With the proportional connection of the individual compressors to separate charge air lines, there is a risk of a Mutual damaging influence of the compressors through imprecise synchronous operation or through different Delivery rates and heights avoided at the moment of switchover. Then, after stabilization of the individual superchargers, the charge air lines can be reconnected to one another, as is generally the case. It

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however, it is also possible without further ado until it is reached continue to operate the internal combustion engine with separate charge air lines at full power.

During the switching process, a lack of charge air and the associated excess fuel can worsen the Exhaust emissions are advantageously counteracted by the fact that the disconnectable during the acceleration process Exhaust gas turbocharger, only some of the cylinders are fully supplied with charge air by the continuously switched on turbochargers is, while in the other cylinders a reduction in the boost pressure with a corresponding air and boost pressure-dependent Fuel reduction is made.

To further improve the charge air supply when the internal combustion engine is operating in the lower power range as well as when switching to operation in the upper performance range with all exhaust gas turbochargers, it is advantageous to that the exhaust gas turbocharger each with a controllable turbine stator and / or with a controllable compressor stator are equipped.

A reduction in the maintenance effort is achieved by that the division serving adjustable throttle device at the same time as a shut-off device for switching off the relevant exhaust gas turbocharger is formed and in the exhaust line before or after the turbines of the disconnectable Exhaust gas turbocharger is arranged.

A further improvement in the transition from small to large output of the internal combustion engine can thereby be achieved that as a controllable throttle device and shut-off device each have an adjustable turbine stator is arranged on the switch-off exhaust gas turbocharger or turbochargers.

An advantageous mode of operation of exhaust gas turbochargers in which the turbines the exhaust gas in each case in several, the Stator of the turbines is fed to various sections acting on channels, is thereby

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achieved that one channel after the other is released or shut off by actuating the throttle device.

A simple and appropriate regulation of the adjustable throttle device can be done by the pressure in the exhaust pipe take place in front of the throttle device.

An embodiment of the invention is shown in the drawing shown schematically, and is shown below using the example of a piston internal combustion engine with two rows of cylinders and two exhaust gas turbochargers working in parallel in the upper power range are described in more detail:

In the drawing, the two rows of cylinders 11 and the piston internal combustion engine are each with an exhaust manifold 13 or 14 and each with a charge air line 15 or l6. Mistake. The two exhaust manifolds 13 and 14 are among each other through a line 17 and also each connected to a turbine 21 and 22 of the two exhaust gas turbochargers 23 and 24, respectively.

The turbines 21 and 22 drive compressors 25 and 26, respectively, in a known manner. The compressors 25 and 26 suck in the charge air from the atmosphere via filters 27 and 28 and press it via charge air coolers 29 and 30, respectively into the charge air lines 15 and 16, respectively.

A charge air distribution valve 31 is arranged between the charge air coolers and the charge air lines, the four Has switching positions a to d.

Between the exhaust manifold 14 and the turbine 22 is an adjustable throttle and shut-off device 32 is arranged.

Both the charge air distribution valve 31 and the adjustable one Throttle and shut-off device 32 can in a known manner, not shown, depending on a Parameter for the performance of the internal combustion engine, ζ. Β. Boost pressure, path of the control rod, speed of internal combustion

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machine or exhaust gas turbocharger, etc., can be adjusted.

When operating the internal combustion engine in the lower to middle In the power range, the charge air distribution valve 31 is in position a. The throttle and shut-off device blocks the flow of exhaust gas for the turbine 22. As a result, the exhaust gas turbocharger 24 comes to a standstill.

All of the resulting exhaust gases are fed to the turbine 21 of the exhaust gas supercharger 23, which is thus enabled is, in a known manner, a satisfactory supply of the internal combustion engine up to the medium power range to be carried out with charge air. The charge air delivered by the compressor accordingly passes through the charge air valve 31 in both charge air lines 15 and 16.

In the event of an increase in output beyond the average output range of the internal combustion engine, the maximum Reached absorption capacity of the turbine 21 in relation to the amount of exhaust gas. A back pressure of the exhaust gases into the The cylinder of the internal combustion engine is opened by opening the adjustable throttle and shut-off device 32 accordingly avoided. At the same time, the charge air distribution valve 31 is moved into the switching position b and thereby that of the As the exhaust gas turbocharger 24 runs up, charge air conveyed is passed to the suction side of the compressor 25. Through a throttle 33 can also control the supply of charge air to the cylinders the cylinder bank 12 are throttled. At the same time, in a manner not shown, the amount of fuel for this cylinder is reduced accordingly.

During the acceleration process of the exhaust gas turbocharger 24, the throttle and shut-off device 32 is dependent on the accumulation of the excess amount of exhaust gas and thus open further depending on the power of the internal combustion engine. After the speed of the exhaust gas turbocharger 24 has reached approximately that of the exhaust gas turbocharger 23, the charge air distribution valve 31 is moved into the switching position c. As a result, each exhaust gas turbocharger is provided with a cylinder

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Row allocated for charging via separate charge air lines.

After the conditions have stabilized, the normal usual charging via interconnected charge air lines.

During the transition from full-load to part-load operation of the internal combustion engine the throttle and shut-off device 32 closed and thus the exhaust gas turbocharger 24 stopped. At the same time, the charge air distribution valve 31 takes the switching position a a. Both rows of cylinders of the internal combustion engine are thus again supplied with charge air by the exhaust gas turbocharger 23 provided.

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Claims (8)

[7 Tti ENGINE AND TURBINE UNION
FRIEDRICHSHAFEN GMBH Friedrichshafen Claims Piston internal combustion engine with charging by at least two exhaust gas turbochargers, which are connected in parallel when the internal combustion engine is operating in the upper power range dje cylinder of the internal combustion engine with charge air supply, and of those when operating the internal combustion engine in the lower to medium power range at least one is switched off, characterized in that during operation of the internal combustion engine with medium up to higher outputs, the part of the exhaust gas quantity of the internal combustion engine that is used for the permanently switched on Exhaust gas turbocharger (23) exceeds the amount of exhaust gas required, the deactivatable exhaust gas turbocharger (24) an adjustable throttle device (32) is fed that the thereby conveyed charge air of the suction side of the continuously switched on exhaust gas turbocharger (23) via a tangentially arranged on the intake manifold or suction mouth, a Pre-swirl of the incoming air causing nozzle is supplied and that after reaching approximately the same speed a complete opening of the adjustable throttle device for all loaders (32) and a supply of the internal combustion engine with charge air in the usual way by the All exhaust gas turbochargers are connected in parallel. December 8th, 78 7 8 6 0 gm-sw * * * 03 0 027/03 4 8 2. Internal combustion engine according to claim 1, characterized in that that after reaching approximately the same speed for all superchargers first a switchover of the charge air flows takes place in such a way that each charger (25 or 26) proportionally the cylinder (11 or 12) of the internal combustion engine Supplied with charge air via separate charge air lines (15 or 16). 3. Internal combustion engine according to claim 1 or 2, characterized in that that during the acceleration process the deactivatable exhaust gas turbocharger (24) is only part of the Cylinder (11) is fully supplied with charge air by the continuously switched on chargers, while the others Cylinders (12) a reduction in the boost pressure with a corresponding air and boost pressure-dependent fuel reduction is made. 4. Internal combustion engine according to claim 1 to 3, characterized in that that the exhaust gas turbocharger (23, 24) each with a controllable turbine stator and / or with a adjustable compressor stator are equipped. 5. Internal combustion engine according to claim 1 to 3, characterized in that that the division serving adjustable throttle device (32) at the same time as a shut-off device for Shutdown of the relevant exhaust gas turbocharger (24) is formed and in the exhaust line before or after Turbines of the disconnectable exhaust gas turbocharger (24) is arranged. 6. Internal combustion engine according to claim 4 and 5> characterized in that that as an adjustable throttle device and shut-off device each have an adjustable turbine stator arranged on the switch-off exhaust gas turbo1wheels is. 7. Internal combustion engine according to claim 1 to 3 »in which the turbines of the exhaust gas turbocharger the exhaust gas in each case in several, the stator of the turbine on various parts December 8th, 78 7 8 6 0 gm-sw ... 03 ^ 027/0346 ι / sections are fed to the ducts, characterized in that one channel after the other is released by actuating the throttle device or is blocked. 8. Internal combustion engine according to claim 1 to 7, characterized in that that the adjustable throttle device (32) is regulated by the pressure in the exhaust pipe (14) upstream of the throttle device. December 8th, 78 7 8 6 0 030027 / 03Λ6