SU1728513A2 - Power plant - Google Patents

Abstract

The invention makes it possible to increase the cleaning efficiency of the flow parts of a turbocharger of an internal combustion engine. The power plant contains an internal combustion engine 1, a turbocharger 2 with a gas intake pipe 3 of the turbine and an air inlet pipe 4 of the compressor, connected to the gas-air duct of the engine 1, spray nozzles installed in the gas inlet pipe 3 of the turbine and the air inlet pipe 4 of the compressor and performed as an air inlet pipe 3 of the turbine and air inlet pipe 4 of the compressor and performed as an air inlet pipe 3 of the turbine and air inlet pipe 4 of the compressor and in the form of an ejector; with active 5 and passive 6 nozzles, and the nozzles are made in the form of pipes bent along a ring, У1

Description

installed one inside the other and provided with each outlet nipples, with the nozzles 7 of the passive nozzle 6 installed inside the nozzles 8 of the active nozzle 5 coaxially last. The installation also contains a water-tube boiler 9 with water supply 10 and steam water supply with 11 drums and supply lines for supplying water 12 and removal of steam 13, a burner 14 and a fuel supply pipe 15. The annular tube of the active nozzle 5 is connected to the pipe 16 with the steam pipe 13 and the annular pipe of the passive nozzle 6 is connected to the pipe 17 with a water reel 10. Improving the quality of cleaning is achieved by placing nozzles over the entire area of the surface being cleaned without compromising the aerodynamic properties of the turbocharger nozzles. 3 il.

The invention relates to mechanical engineering, in particular to systems for cleaning the flow channels of a turbo-compressor of a pressurized internal combustion engine, and is an improvement of the invention according to the authors. St. No. 1655412.

The power plant is known, which contains an internal combustion engine (ICE), a water-tube boiler with water and steam-water drums and feedwater supply and steam evacuation pipelines, a turbocharger for charging the ICE with a gas inlet nozzle and air compressor nozzle in the form of an ejector with concentrically located passive and active nozzles connected by pipes to the water and steam-water drums, respectively, with the pipe with passive nozzles placed inside the pipe s with active nozzles to form the annulus.

However, the device does not provide uniform cleaning of the fixed flow surfaces of the turbocharger, since the nozzles provide local washing.

The purpose of the invention is to increase the area and improve the quality of washing the surfaces of the flow parts of the turbocharger.

To achieve this goal, a pipe with passive nozzles is placed in a pipe with active nozzles to form an annular space, which allows to supply steam through the annular space from the steam drum to the active nozzles and accelerate the water coming out of the passive nozzles. inner tube from a water drum KQT-la.

Figure 1 shows a schematic diagram of a power plant; Fig. 2 is a schematic of the arrangement of annular tubes in the air inlet of the compressor; on fig.Z - section aa in figure 2.

The power plant contains an internal combustion engine 1, a turbocharger 2 with a gas intake pipe 3 of the turbine and a compressor inlet 4, connected to the gas-air path of the engine, spray liquid dispensers installed in the gas intake pipe 3 of the turbine and air inlet 4 of the compressor and made in the form of an ejector jet active 5 and passive 6 nozzles, and the nozzles are made in the form of tubes bent along a ring, installed one inside the other and provided with each outlet nozzles, while fittings 7 pa A fixed nozzle 6 is installed inside the nozzles 8 of the active nozzle 5 coaxially last. The installation also contains a water-tube boiler 9 with water supply 10 and steam water supply with 11 drums and supply lines for supplying water 12 and removal of steam 13, a burner 14 and a fuel supply pipe 15. The annular pipe of the active nozzle 5 is connected by a pipe 16 with the pipe 13 of the steam outlet, and the annular pipe of the passive nozzle b is connected by a pipe 17 with a water drum 10.

Power installation works as follows.

The exhaust gases of the internal combustion engine 1 enters the gas inlet 3 of the turbocharger 2, which provides boost. The fuel supplied to the burner 14 is burned through conduit 15, and steam is formed in the steam-boiling drum 10 of the water-tube boiler 9. During the cleaning of the flow channels of the turbocharger 2, steam flows through the pipe 13 to remove the steam through pipes 16 to the active nozzles 5 and outlet fittings 8, and to disperse water coming from passive nozzles 6. To passive nozzles, water comes from water drum 10 through pipes 17. In ejector nozzles, water is accelerated by steam to high speeds and is efficient in flushing. The nozzles mounted on the annular tube allow high-quality cleaning around the entire circumference of the flow parts of the turbocharger 2. Since the annular tubes can be bent in any way, the nozzles can provide high-quality surface rinsing in any closed space and any shape.

The experience of operating turbo compressors of the type T-340 shows that pipes with ejector mixers can be placed in the flow parts of air supply systems without compromising their aerodynamic qualities. The tubes may have any cross sectional shape. Manufacturing techniques are feasible by known means. The inner tube can be fixed relative to the outer, for example, crosspiece,

Claims (1)

Outlet fittings can be screwed into threaded pipes. In general, the efficiency of the power plant is increased by improving the quality of cleaning the flow parts of various shapes and sizes of the air-supply system of the internal combustion engine. The formula of the invention Sylowov installation on author. St. No. 1655412, characterized in that, in order to increase the cleaning efficiency of the turbocompressor flow parts, the active and passive nozzles of each ejector are made in the form of tubes bent around the ring, installed one into the other, each of which is equipped with outlet fittings, and the output fittings of the passive nozzles are installed inside the output nozzles of the active nozzle coaxially last. FIG. one oo l With "P v