SU1520267A1 - Ejector pump unit - Google Patents

Abstract

The invention relates to inkjet technology, mainly to pump-ejector installations for the utilization of associated gas. The aim of the invention is to reduce energy consumption when several sources with different pressures are connected to the installation due to their more rational connection. The pump-ejector unit contains an inlet separator (BC) 1 with a pipeline 2 for supplying production of wells, an oil processing unit (UO) 3 connected by a liquid pipeline 4k BC1 and a pipeline 5 diverting water to the pump 6, the discharge nozzle 7 of which is connected to a liquid-gas separator (СнабжGS) 11 and VS 1. The installation is equipped with additional VS 12, each connected to its source of well production and to UO 3, and additional liquid-gas ejectors (ZHGE) 13, each connected to the injection nozzle 7 by liquid 6, output 14 - to the ГGS 11 and the nozzle 15 for supplying the passive medium - each to its own additional sun 12. When the installation is running, the production of wells, depending on pressure, enters sun 1 or additional sun 12 of which the liquid medium enters RF. UO 3 oil is supplied to the consumer, and water is pumped by pump 6 to LGE 8 and additional LGE 13, which pump out gas from Sun 1 and additional Sun 12. In LHE 8, 13, the gas is mixed with water and compressed, and the resulting gas-liquid mixture enters the CGL 11, from which the separated water flows to its intended purpose, and the separated compressed gas flows to the consumer. Thus, the connection of the source of the oil and gas mixture, depending on the pressure to different inlet separators, makes it possible to reduce the energy consumption of the pumping ejector installation during its operation. 1 il.

Description

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WITH

with a pipeline 2 for supplying production of wells, an oil processing unit (UO) 3, connected by a liquid pipeline to BC1 and a pipeline 5 for discharging water to a pump 6, the discharge nozzle 7 of which is connected to a fluid-gas separator (OGS) 11 and Sun 1. The installation is equipped with additional Sun 12, each connected to its source of well production and to UO 3, and additional liquid-gas ejectors (LGE) 13, each connected to the discharge pipe 7 of pump 6, in liquid outlet 14, to outlet 14 to the CMS 11 and connection of passive wedge food - each to its own additional aircraft 12. During operation of the installation, the production of wells depends on pressure

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Sun 1 or additional air 12 of which the liquid enters EO 3. From UO 3 oil enters the recuperator, and water is pumped by pump 6 to LGE O and additional LGE 13, which pump out gas 1 from LU 1 and additional Sun 12. In ZHGE O, 13 the gas is mixed with water and compressed,

IQ and the resulting gas-liquid mixture enters the CGE 11, whence the separated water comes to its intended purpose, and

1 separated compressed gas enters

to the consumer. Thus, the connection of the source of the oil and gas mixture, depending on the pressure to different inlet separators, makes it possible to reduce the energy consumption of the pump-ejector unit during its operation.

20

1 il.

The invention relates to the field of inkjet technology, mainly to pump-ejector installations for the utilization of associated gas.

The purpose of the invention is to reduce energy costs when several sources with different pressures are connected to the plant due to their more rational connection.

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

The pump-ejector unit contains an inlet separator 1 with a pipeline 2 for supplying production of wells, an oil treatment installation 3 connected by a liquid pipeline k to the input separator 1 and a water removal pipeline 5 to the pump 6, the discharge pipe 7 of which is connected to the liquid- gas ejector Oh, the output 9 and the pipe 10 for supplying a passive gaseous medium which is connected respectively to the liquid-gas separator 11 and the inlet separator 1. The installation is equipped with additional input separators 12, connecting each to its source of well production and to the processing unit 3, oil, and additional liquid-gas ejectors 13, each connected to the discharge pipe 7 of the pump 6, output 14 to the liquid

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a gas separator 11 and a nozzle 15 for supplying a passive medium — each to its own additional inlet separator 12.

Pump-ejector installation works as follows

Production of wells (oil and gas - to the mixture) from several sources, depending on the pressure, enters the inlet separator 1 and additional inlet separators 12, in which the separation of liquid and gas media takes place. The liquid medium enters the oil processing installation 3, from which the processed oil enters the consumer, and water is directed through the EYUDA drainage pipe 5 to the pump 6. The latter, under pressure, supplies water to the liquid-gas ejector 8 and to additional liquid-gas ejectors 13. Liquid gas ejector) 8 and 13 pump out gas that was released during separation from the production of wells in the inlet separator 1 and in the additional inlet separators 12. In a gas-liquid ejector 8 and 13, a gas-liquid mixture is formed and compressed gas. From the ejectors 8 and 13, the gas-liquid mixture enters the liquid-gas separator 11, where it is separated, and the compressed gas is directed to the consumer, and the liquid (water) is directed.

Thus, the connection of sources of an oil and gas mixture depending on pressure to different inlet separators and the pumping of gas from them by an independent ejector makes it possible to reduce the energy consumption during processing and utilization of passing gas in the pump-ejector unit.

Claims (1)

Invention Formula Pump-ejector unit, containing an inlet separator with a pipe line and an additional liquid supply pipe for the production of wells, an oil processing unit connected by a liquid pipeline to the inlet separator and a water discharge pipeline to the pump, the discharge nozzle of which is connected to the liquid-gas ejector out and o the inlet pipe for supplying the passive gaseous medium is connected respectively to the liquid-gas and inlet separators, characterized in that, in order to reduce energy costs when several sources with different pressures are connected to the installation due to their more rational connection, the installation is equipped with additional inlet separators each to its source of well production and to the treatment unit with non-fluid ejectors, each connected to the pump discharge pipe by liquid, - a liquid, bone-gas separator and patrub- 20, supplying passive medium - each to his additional input separator.