SU1257286A1 - Method of cavitation testing of impeller pump - Google Patents

Abstract

The invention provides improved accuracy and simplified technology for cavitation tests of vane pumps (I) on cryogenic liquid (W). When pumping liquid gas at a variable temperature through the test subject H at a constant frequency of rotation of the shaft, outputting H to the cavitation breakdown mode is carried out by reducing the flow rate of pumped liquid gas at a constant inlet pressure. In this case, an increase in the temperature G at the inlet to H occurs due to an increase in the proportion of hot leaks in the total flow G, which makes it possible to refuse the use of heaters G 1. M) sd to 00 oh :)

Description

The invention relates to hydraulic engineering and can be used for cavitation testing of vane pumps with cryogenic liquid.

The purpose of the invention is to improve the accuracy and simplify tests on cryogenic liquid.

The drawing shows the layout of the test stand, with which the cavitation test method of the vane pump is carried out.

The bench contains a supply tank 1, 10 to which the suction pipe 2 of the test pump 3 is connected. The discharge line 4 of the pump 3 is connected to the consumer 5 of the fluid pressure energy, which is equipped with a fluid flow regulator 6. The drive of the pump 3 can be a turbine 7 with a system 8 for regulating the supply of the working medium. The bench is equipped with devices 9-11 for measuring fluid flow, shaft rotation frequency 12, and pump 3 cavitation reserve.

The cavitation test method of the vane pump 3 is carried out as follows.

A fluid of variable temperature is pumped through the test pump 3 with capacity in the main flow as it decreases. The temperature of the leaks is significantly higher than the temperature of the flow of liquid drawn in from the supply tank 1, especially when the high-speed pump is operating on a cryogenic liquid. This leads, on the one hand, to an increase in the temperature of the fluid at the inlet of the test pump 3, and to an increase in the non-uniformity of the temperature distribution in the annular flow layers. The cavitational reserve of the pump 3 is continuously recorded by means of the device 11 and the cavitational disruption of work is recorded, for example, by abrupt rotation of the frequency of rotation of the shaft 12.

A change in the temperature field at the outlet of the pump, provided by a decrease in its flow rate, makes it possible to simplify testing by eliminating heat exchangers and fluid heaters and to improve the accuracy of the tests.

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Claims (1)

Invention Formula Method for cavitation tests of a vane pump, including pumping a variable temperature fluid through the constant frequency of rotation of the shaft 12 and the output 25 of the pump under test at a constant frequency of the pump 3 to the mode of cavitation breakdown, and this conclusion is carried out by reducing the flow rate of the pumped liquid at a constant inlet pressure. A decrease in the flow rate Q of the fluid is achieved by means of the flow rate controller 6. The appearance of cavitational phenomena is associated with an increase in the proportion of liquid leaks. rotating the shaft and bringing the pump to the cavitation breakdown mode, characterized in that, in order to increase the accuracy and simplify the tests on cryogenic liquid, the pump pull-off to the cavitation breakdown mode by reducing the flow rate of the pumped fluid at a constant inlet pressure. bones in the main consumption as it decreases. The temperature of the leaks is significantly higher than the temperature of the fluid flow drawn in from the supply tank 1, especially when the high-speed pump is operating on a cryogenic liquid. This leads, on the one hand, to an increase in the temperature of the fluid at the inlet of the test pump 3, and to an increase in the non-uniformity of the temperature distribution in the annular flow layers. The cavitational reserve of the pump 3 is continuously recorded by means of the device 11 and the cavitational disruption of work is recorded, for example, by abrupt rotation of the frequency of rotation of the shaft 12. A change in the temperature field at the outlet of the pump, provided by a decrease in its flow rate, makes it possible to simplify testing by eliminating heat exchangers and fluid heaters and to improve the accuracy of the tests. Invention Formula Method for cavitation tests of a vane pump, including pumping a variable temperature fluid through test pump at constant frequency test pump at constant frequency rotating the shaft and bringing the pump to the cavitation breakdown mode, characterized in that, in order to increase the accuracy and simplify the tests on cryogenic liquid, the pump pull-off to the cavitation breakdown mode by reducing the flow rate of the pumped fluid at a constant inlet pressure. Ctri