SU1588925A1 - Ejector-pump unit - Google Patents

Abstract

The invention relates to inkjet technology, mainly to installations for compressing gas. The purpose of the invention is to expand the range of adjustment of the mode of operation. Pump-ejector installation contains a three-phase separator (TS) 1 with a vapor pipe 2 and pipelines (TRZ) 3 and (TLF) 4 drainage of working fluid and light fraction, the pump (H) 5, the suction nozzle (VP) 6 of which is connected to the RTL 3 , and a liquid-gas ejector (HGE) 7, the active nozzle of which is connected to the discharge nozzle (NP) 8 H 5, nozzle 9 for supplying the passive medium to the source of the pumped medium and output 10 to the TS 1. TLF 4 is connected to VP 6. Working fluid via TRG 3 and light fraction by TLF 4 is fed to VP 6. A mixture of media H 5 is injected into the act Clear jet nozzle 7. After expiration of active jet nozzle 7, the fluid entrains the pumped gas in LGE 7 and compresses it. The gas-liquid mixture from HGE 7 enters the TS 1, where the separation of gas, light fraction and working fluid occurs. Compressed gas from TS 1 flows to the consumer, and the light fraction and the working fluid again flow into H 5. By regulating the flow rate of the light fraction and the working fluid into H 5, the density of the mixture of media is controlled, and therefore the pressure of the injection pressure is H 5 and the pressure of the gas is LGE 7. Thus, by adjusting the density of the liquid supplied to H 5 and LGE 7, the amount of gas compressed in LGE 7 is regulated, which makes it possible to expand the range of adjustment of the operating mode of the installation. 1 il.

Description

The invention relates to the field of jetting technology, mainly to installations: To compress gas. A: The purpose of the invention is to expand the range of adjustment of the operating mode.

The drawing shows a diagram of the pump-ejector installation.

Pump-ejector installation contains a three-phase separator 1 with a vapor pipe 2 and pipelines 3, 4 drainage of working fluid and light fraction, pump 5, the suction nozzle 6 of which is connected to the pipeline 3 outlet working And liquid, and a liquid-gas ejector 7, the active nozzle of which connected to the discharge pipe 8 of the pump 5, the pipe 9 supplying a passive medium to the source of the pumped medium and outlet 10 to the separator 1. The pipeline 4 for discharging the light fraction is connected to the suction port- Pipe 6 of the pump 5.

When the installation is in operation, a light fraction liio to the pipeline 4 and the working fluid. By the pipeline 3 enter the suction inlet 6 of the pump 5. The mixture is pumped by the pump 5 through the discharge nozzle 8 and flows into the active nozzle of the ejector 7. Liquid entrains the passive gaseous medium in the ejector 7 and compresses it. The gas-liquid mixture from the ejector 7 enters the separator 1, where the separation takes place

The pipeline 2 receives the consumer and the working fluid and lightly fractionally enter the pump 5. Controlling the supply of the light fraction and the working fluid 5 to the pump 5, regulate the density supplied to the active nozzle of the ejector 7 of the fluid, which in turn leads to the regulation of pressure reached in the discharge pipe 8 of the pump 5 and 10 7 gas in ezhe

Thus, by adjusting the density of the fluid supplied to the eect, the amount of gas compressed in the ejector is regulated, which makes it possible to extend the range of regulation of the unit's operating mode.

Claims (1)

Invention Formula Pump-ejector unit, containing a three-phase separator with a gas outlet pipe and pipelines for tapping the working fluid and light fraction pump, the suction nozzle of which is connected to the pipeline for draining the working fluid, and the active nozzle of which is connected to the discharge nozzle of the pump, nozzle supplying a passive medium to the source of the pumped medium and access to a sepaator, characterized in that, in order to expand the control mode gas, light fraction and working liquid ™: pet. Compressed gas from separator 1 at the gas outlet - ENDWS s. TFR connected to the suction port of the pump The new pipeline 2 is supplied to the consumer and the working fluid and light fraction are again fed to pump 5. By regulating the flow rate of the light fraction and the working fluid 5 to the pump 5, the density of the liquid medium supplied to the active nozzle of the ejector 7 is regulated, which in turn leads to regulation of the pressure value achieved in the discharge port 8 of the pump 5 and the upper 10 7 gas in the ejek. Thus, by adjusting the density of the liquid supplied to the ejector, the amount of compression of the gas in the ejector is regulated, which allows the control range to be expanded. - 5 lire installation mode. Invention Formula Pump-ejector unit containing a three-phase separator with a vapor pipe and pipelines for discharging working fluid and light fraction pump, the suction inlet of which is connected to the pipeline for discharging working fluid, and a liquid-gas ejector 5 whose active nozzle is connected to the discharge pipe of the pump, branch pipe supplying a passive medium to the source of the pumped medium and access to a separator, characterized in that, in order to expand the .u, p tklk enTvsy y. TFR p tklk enTvsy y. TFR connected to the suction port of the pump.