RU73076U1 - TEST FOR TURBOCHARGER FOR INTERNAL COMBUSTION ENGINE - Google Patents

Abstract

The utility model relates to tests of blade machines, in particular, turbochargers for boosting internal combustion engines, and can be widely used in testing turbines and compressors in general and power engineering.

The test bench for a turbocharger of an internal combustion engine contains an input and output line connected to the turbocharger under test, an adjustable gas flow source made in the form of a technological compressor with an adjustable drive, recuperative heat exchangers, measuring and control devices, as well as an adjustable heater, heat exchanger-cooler and adjustable the interceptor. The stand is additionally equipped with a second technological compressor with an adjustable drive, two adjustable valves that are installed on the lines connecting the second technological compressor with the turbine inlet and the compressor inlet of the test turbocompressor, as well as pressure, temperature and air flow sensors that are installed at the turbine inlets and the compressor of the turbocharger under test and the pressure and temperature sensors that are installed on the turbine and compressor outputs of the test turbocharger .

The use of this test bench for testing turbocompressors can improve the reliability of diagnostics of their technical condition, and reduce the number of unplanned repairs by 20-30%, as well as increase the efficiency of the turbocompressor by 5-10%, and expand the margin of stability of surge work.

Description

The utility model relates to tests of blade machines, in particular, turbochargers for boosting internal combustion engines, and can be widely used in testing turbines and compressors in general and power engineering.

A known bench for testing a turbocompressor of an internal combustion engine, containing an input and output line, an adjustable gas flow source, made in the form of a technological compressor with an adjustable drive, measuring and control devices, a regenerative heat exchanger, the input and output lines of the stand are connected respectively to the compressor and turbine of the subject turbocharger, the process compressor is connected to the input and output lines, and the regenerative heat exchanger is connected the first circuit with the outlet of the turbine of the tested turbocharger, and the second circuit with the output of the process compressor and the entrance to the turbine, (RF patent No. 2145705 according to class G01M 15/00 "Stand for testing a turbocharger of an internal combustion diesel engine" by D. Nosyreva et al. ., publ. 02.20.2000)

The disadvantage of this stand is the low reliability of the turbocharger test, as well as unproductive energy and the lack of simulation and recreation of conditions on the flow structure at the compressor inlet of the tested turbocharger.

A known bench for testing a turbocompressor of an internal combustion engine, containing an input and output line connected to the tested compressor, an adjustable source of gas flow, made in the form of a technological compressor with

adjustable drive, recuperative heat exchanger, measuring and control devices, the stand is equipped with an adjustable heater, a second recuperative heat exchanger, a heat exchanger-cooler and an adjustable interceptor, the input line of the stand communicating with its entrance to the atmosphere and connected via the second circuits of the second and first recuperative heat exchangers and an adjustable heater to turbine input of the turbocharger under test, the output line is connected by its output to the atmosphere and is connected via By means of the first circuit of the second recuperative heat exchanger and the process compressor with the compressor output of the turbocharger under test, the stand contains a bypass line with a second controlled valve installed in it (RF patent No. 2199727 according to class G01M 15/00 “Test stand for testing a turbocharger of an internal combustion diesel engine” by Nosyrev D.Ya. et al. Publ. 02.27.2003).

The disadvantage of this invention is the low reliability of the test turbocharger.

This technical solution is selected by the author as a prototype.

The technical result is to increase the reliability of diagnosis of the state of turbochargers.

The technical result is achieved by the fact that the test bench for a turbocharger of an internal combustion engine, comprising an input and output line connected to the tested turbocharger, an adjustable gas flow source made in the form of a technological compressor with an adjustable drive, recuperative heat exchangers, measuring and control devices, as well as an adjustable heater, heat exchanger-cooler and adjustable spoiler, optionally equipped with a second

a technological compressor with an adjustable drive, two adjustable valves that are installed on the mains connecting the second technological compressor to the turbine inlet and compressor inlet of the tested turbocompressor, as well as pressure, temperature and air flow sensors that are installed at the turbine and compressor inlets of the tested turbocompressor and pressure and temperature sensors that are installed at the turbine and compressor outputs of the turbocharger under test.

Figure 1 shows a diagram of the proposed stand.

The stand contains a technological compressor 1 with an adjustable drive 2, a second technological compressor 3 with an adjustable drive 4, a test turbocompressor with a compressor 5 and a turbine 6, a first recuperative heat exchanger 7, a second recuperative heat exchanger 8, an adjustable heater 9, a heat exchanger-cooler 10, an adjustable interceptor 11 , input 12, 13 and output 14 of the stand highway. The input line 12 of the stand is communicated with its entrance to the atmosphere and is connected via the second circuits of the second 8 and first 7 recuperative heat exchangers and an adjustable heater 9 to the turbine input 6 of the turbocharger under test. The input highway 13 of the stand is communicated by its entrance with the atmosphere and through the technological compressor and additional highway 15 with the entrance to the turbine, and with the help of highway 16 with the entrance to the compressor. The output line 14 of the stand is communicated with its outlet to the atmosphere and is connected through the first circuit of the second recuperative heat exchanger 8 and the process compressor 1 to the output of the compressor 5 of the turbocharger under test. At the entrance to the compressor 5 of the test turbocharger, an adjustable interceptor 11 is installed, and the output of the turbine 6 of the test turbocharger is connected by a connecting line 17 with the first

controlled by a valve 18 by means of the first circuit of the first recuperative heat exchanger 7 and heat exchanger-cooler 10 with an input of an adjustable spoiler 11. Parallel to the first circuit of the first recuperative heat exchanger 7 and heat exchanger-cooler 10, a bypass line 19 with a second controlled valve 20 installed in it is installed. 16, adjustable valves 21 and 22 are installed, respectively, providing a cyclic supply of compressed air to the turbine inlet or to the compressor inlet. Adjustable heater 9 is made in the form of an electric heater with a control circuit.

The stand works as follows. When the stand is started, the variable speed drive 2 is turned on and the technological compressor 1 is rotated. At the same time, air from the atmosphere through the inlet line 10, the second circuits of the second 8 and first 7 recuperative heat exchangers, an adjustable heater 9, the turbine 6 of the tested turbocharger, the connecting line 17, the first open controlled valve 18 (the controlled valves 14, 21, 22 are closed), the first circuit of the first recuperative heat exchanger 7, heat exchanger-cooler 10, adjustable intercept 11 and the turbocharger compressor 5 of the test to the input process of the compressor 1, and further to the atmosphere through the first circuit of the second regenerative heat exchanger 8 and an outlet line 14.

With further operation of the stand, a controlled gate valve 21 installed on the auxiliary line 15 is opened, an adjustable drive 4 is turned on and the second technological compressor 3 is rotated. In this case, air from the atmosphere enters the technological compressor 3 through the inlet pipe 13, then they are fed to the turbine 6 of the turbocharger under test . After turbine 6, air passes through

the connecting line 17, the compressor 5 of the tested turbocompressor, the first process compressor 1 and through the output line 14 is discharged into the atmosphere. By controlling the operation of the second process compressor 3 and an adjustable gate valve 21 they provide the following conditions: the flow rate of compressed air at the turbine inlet 6 of the turbocharger under test is changed according to the cyclic law, using pressure, temperature and air flow sensors installed at the turbine and compressor inlets and outlets, the flow rates are measured air at the inlet to the turbine, at the inlet to the compressor, the pressure at the inlet and outlet of the turbine and at the inlet and outlet of the compressor, as well as the rotational speed of the turbocompressor rotor, then determine The burden of the retardation maximum pressure of the compressor and the turbocharger speed relative to the maximum pressure at the turbine inlet, and the time lag of the turbocharger judged state.

When compressed air is supplied to the compressor 5 of the turbocharger under test, the stand operates in the following sequence: air from the atmosphere through the inlet line 13, the second process compressor 3, an additional line 16 with an open damper 22 (adjustable valves 20, 21, closed) enters the compressor 5 tested turbocharger, then to the first process compressor 1 and through the output line 14 to be discharged into the atmosphere.

When the stand is operated without heating the air in an adjustable heater 9, close the first controllable valve 18 in the connecting line 17 and open the second controllable valve 20 in the bypass line 19. The variable-speed drive 2 of the process compressor 1 is turned on. In this case, air from the atmosphere enters through the inlet line 12 into the second circuit of the second recuperative heat exchanger 8, where it is heated, passes through

the second circuit of the first recuperative heat exchanger 7, an adjustable heater 9 without additional heating, and enters the turbine 6 of the turbocharger under test. In the turbine 6, the air expands, does the job and drives the turbocharger rotor. After exiting the turbine 6, the air through the bypass line 15 with the second controlled gate valve 20 open through an adjustable interceptor 9 enters the compressor 5 of the turbocharger under test, where it is compressed and fed to the process compressor 1. After compression in the process compressor 1, the exhaust air in the second recuperative heat exchanger 8 gives off heat to the air entering the turbine 6 inlet, and is removed through the output line 14 to the atmosphere.

The use of this test bench for testing turbocompressors can improve the reliability of diagnostics of their technical condition, and reduce the number of unplanned repairs by 20-30%, as well as increase the efficiency of the turbocompressor by 5-10%, and expand the margin of stability of surge work.

Claims (1)

A test bench for a turbocharger of an internal combustion engine, comprising an input and an output line connected to the turbocharger under test, an adjustable gas flow source made in the form of a process compressor with an adjustable drive, recuperative heat exchangers, measuring and control devices, as well as an adjustable heater, heat exchanger-cooler and adjustable interceptor, characterized in that the stand is additionally equipped with a second technological compressor with an adjustable drive two adjustable valves that are installed on the mains connecting the second process compressor to the turbine inlet and compressor inlet of the tested turbocompressor, as well as pressure, temperature and air flow sensors that are installed on the turbine and compressor inlets of the tested turbocompressor and pressure and temperature sensors, which are installed at the turbine and compressor outputs of the turbocharger under test.