SU1320528A1 - Pumping unit - Google Patents

Abstract

Invention m. B. used at gas compressor stations for transporting hydrocarbon condensate. The purpose of the invention is to reduce the cost of installation and reduce operating costs by simplifying the installation. The inlet of the ejector 12 is connected to the pipeline (T) 6 t -; IcxH-txj-Mxf of the working medium supply through T 13 to the shut-off device (charger) 14, and the output to the T 15 working medium removal. The memory 14 is controlled by pressure in the working chambers (RK) 1 and 2. The ejector suction chamber is connected to RK 1 and 2 via T 16 to memory 17 and 18, controlled by the level of the medium in the corresponding RK 1 and 2. the working environment in RK 1 or 2 with pressure in T 7 opens memory 14. The environment from T 6 through T 13, through memory 14, the ejector and T 15 enters into T 7. The environment is removed from the R through memory 17 through T 16, through the suction chamber of the ejector and T 15 in T 7. When the pressure in the RK reaches a value less than in the intake T 3, the pumped medium enters the RK again. silt ((L o th o JV to oo

Description

The invention relates to pump engineering and can be used at gas compressor stations for transporting hydrocarbon condensate.

The purpose of the invention is to reduce installation costs and operating costs by simplifying the installation.

The drawing shows a diagram of a pump installation.

The pump installation contains a replacement pump with two working chambers 1 and 2 connected by suction 3 and discharge 4 pipelines with non-return valves 5 with a source of pumped medium and with a consumer, pipelines 6 and 7 with shut-off devices 8-11 for supplying and removing working medium the ejector 12, while the inlet of the ejector 12 is connected to the pipeline 6 for supplying the working medium through the pipeline 13 to the shut-off device 14 controlled by pressure in the working chambers 1 and 2, the output to the pipeline 15 to remove the working medium and the ejector suction chamber 12 - with working chambers I and 2 through additional pipelines 16 with shut-off devices 17 and 18 controlled by the level of the medium in the corresponding working chamber 1 and 2, level sensors 19-22 connected to control unit 23 with inputs 24- 27 and outputs 28-33, pressure relay 34 with pressure sensor 35.

Pump installation works as follows.

The pumped medium flows through conduit 3 through check valves 5 into working chambers 1 and 2, from where it is displaced by increasing the pressure of the working medium through check valves 5 to conduit 4 and then to the consumer.

In the case when the pressure in the pipeline 6 is greater than the pressure in the pipeline 3, the transfer is carried out as follows. Upon reaching the lower level, when the working chamber 1 (2) is filled, the sensor 19 (20) produces a signal to the input 25 (26) of the control unit 23. Upon reaching the upper level, the sensor 21 (22) generates a signal at the input 24 (27) of the control unit 23, which at the same time produces control signals at its outputs 32 and 28 (29 and 31) and thereby opens the locking device 8 (10) and closes the locking device 17 (18). The working medium under high pressure flows from the pipeline 6 through the locking device 8 (10) into the working chamber 1 (2). There is a displacement of the pumped medium 43 of the working chamber 1 (2) through the corresponding check valves 5 into the pipeline 4 and then to the consumer. When the level of the pumped medium in the working chamber 1 (2) decreases, the sensor 19 (20) removes the signal from the input 25 (26) of the control unit 23, which, in turn, removes the signals from the outputs 32 and 28 (29 and 31), by that

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Sam closed the locking device 8 (10) and opening the locking device 17 (18). The working chamber 1 (2) is disconnected from the pipeline 6 and is connected to the pipeline 7 through the locking device 17 (18), pipeline 16, ejector 12 and pipeline 15. When the pressure of the working medium in chamber 1 (2) is equalized with the pressure in the pipeline 7, sensor 35 produces a signal to the pressure relay 34, which opens the locking device 14. Thus, the ejector 12 is activated. The working medium from the pipeline 6 through the pipeline 13, through the locking device 14, the ejector 12 and the pipeline 15 enters the pipeline 7. In this case, the working mediums s out of chamber 1 (2) through shut-off device 17 (18) through pipeline 16, through the suction chamber of ejector 12 and pipeline 15 into pipeline 17. Pressure in working chamber 1 (2) decreases, and when it reaches a value lower than in pipeline 3, the pumped medium begins to flow into the working chamber 1 (2).

The cycle is repeated.

The principle of operation of working chambers 1 and 2 is the same.

In the case when the pressure in the pipe 7 is lower than the pressure in the pipe 3, when the signal from the sensor 19 (20) is removed at the inlet 25 (26), the control unit 23 generates a signal at the output 33 (30) and opens the locking device 9 (11), through which the removal of the working environment occurs. The ejector 12 in this case is not involved in the work. The displacement of the pumped medium from the working chamber 1 (2) is carried out similarly to the above: when the level rises, the sensor 21 (22) generates a signal to input 24 (27) of the control unit 23, which at the same time generates a signal to output 32 (29) and thereby opens a locking device 8 (10) through which the working medium from the pipeline 6 enters the working chamber 1 (2).

The cycle is repeated.

Claims (1)

Invention Formula A pump installation comprising a replacement pump with two working chambers connected by suction and discharge pipelines with non-return valves, respectively, with a source of pumped medium and with a consumer, pipelines with shut-off devices for supplying and removing working medium, in order to reduce the cost installation and production costs by simplifying the installation, the installation is equipped with an ejector, while the ejector entrance is connected to the working medium supply pipeline through m pipeline with a locking device controllable by the pressure in the working chamber, yield - 1320528 34 with the pipeline for removal of the working medium, pipelines with shut-off devices, and the suction chamber of the ejector - with the level of the medium in the respective chambers by means of an additional working chamber.