RU18088U1 - MULTI-PHASE INSTALLATION (OPTIONS) - Google Patents

Abstract

1. A multiphase installation containing an inlet separator having autonomous output gas and water lines with valves, a multiphase pump having a pressure and suction line with valves, the last of which is connected to the output lines of the inlet separator, characterized in that the installation is equipped with a mixer with main and additional inputs and outputs, the main inputs of which are connected to the output gas and water lines of the inlet separator, and the output is connected to the multi suction line a gas pump, an output separator with an input and output lines, one of the output lines of which through a valve is connected to a collector of oil, and the input line is connected through a valve to a pressure line of a multiphase pump controlled by a throttle mounted on the output gas line of the output separator connected to an additional mixer inlet, booster pump with an electric motor mounted on the output line for supplying lubricating and locking fluid to the output separator, with union of the additional input provided on the multiphase pump and non-return valves, two of which are mounted on the output gas and the input mains-water separator, and one output to the output line of the separator connected to the collector of nefti.2 collection. A multiphase installation comprising an inlet separator having autonomous output gas and gas-oil lines with valves, a multiphase pump having a pressure and suction line with valves, the last of which is connected to the output lines

Description

MULTI-PHASE INSTALLATION (OPTIONS).

The utility model relates to hydro-gas engineering and can be used in the oil and gas industry for the joint pumping of gas and gas-oil mixture in oil production.

From the existing level of technology, as the closest technical solution selected for the prototype, a multiphase installation is known, comprising an inlet separator having autonomous gas and oil and gas lines with valves, a multiphase pump having a pressure and suction pipes with valves, the last of which is connected to the output highways of the inlet separator (see Bazhaikin SG and others. "Centrifugal pumps in the systems for collecting, preparing and main oil transportation, M.," Nedra, 1999, p. 148, Fig. 4.1.).

This installation is designed for pumping multiphase production of oil wells, especially in small fields remote from central oil collection points. Here, a screw pump-compressor pumps the gas-liquid mixture from the buffer-separation tank, from where the liquid and gas phases are separately supplied to the pump-compressor, and the gas-liquid mixture enters the oil pipeline.

The task to which the claimed utility model is directed in all three variants of its implementation is to create a multiphase installation for pumping a gas-water-oil mixture, eliminating the flow of gas-free, only oil-water mixture through the pump, causing pressure pulsations in the pump chambers, reducing the pump life.

FOIC 1/00, F 04C 2/00 F 04 D 13/00, F 04 D 15/00

The technical results obtained when solving the problem and implementing the utility model in all three variants of its implementation include the prevention and complete exclusion of pressure pulsations in the pump chambers, an increase in the working pressure in the pump, an increase in the multiphase plant productivity and an increase in its reliability and service life.

The problem is solved, and the technical result is achieved according to the first embodiment of the utility model in that, a multiphase installation containing an inlet separator having autonomous gas and oil and gas pipelines with valves, a multiphase pump having a pressure and suction pipes with valves, the last of which is connected with output lines of the input separator, according to a utility model, is equipped with a mixer with primary and secondary inputs and outputs, the main inputs of which are connected to the output gas and water-oil lines of the inlet separator, and the outlet is connected to the suction line of the multiphase pump, the outlet separator to the inlet and outlet lines, one of the outlet lines of which is connected through the valve to the oil collection manifold, and the inlet line is connected through the valve to the pressure head of the multiphase pump, adjustable throttle mounted on the gas outlet gas line of the output separator connected to the additional input of the mixer, a booster pump with a drive, installed on the output line for supplying lubricating and locking fluid to the output separator, connected to an additional input made on a multiphase pump, and check valves, two of which are installed on the output gas and oil-water lines of the input separator, and one on the output line of the output separator connected to the collector oil collection.

The problem is solved, and the technical result is achieved according to the second embodiment of the utility model in that, a multiphase installation containing an inlet separator having autonomous gas and gas-oil pipelines with valves, a multiphase pump having a pressure and suction pipes with valves, the last of which is connected to the output lines of the input separator, according to the utility model, the installation is equipped with a mixer with primary and secondary inputs and outputs, the main inputs of which are connected to the outlet gas and gas-oil lines of the inlet separator, and the outlet is connected to the suction line of the multiphase pump, the outlet separator to the inlet and outlet lines, one of the outlet lines of which is connected through a valve to the oil collection manifold, and the inlet pipe is connected through the valve to the pressure head a multiphase pump line regulated by a throttle installed on the gas outlet line of the output separator connected to the additional input of the mixer a pump with a drive installed on the output line for supplying lubricating and locking fluid to the output separator, connected to an additional input made on a multiphase pump, and check valves, two of which are installed on the output gas and oil-water lines of the input separator, and one on the output line of the output separator connected to an oil collection manifold.

The problem is solved, and the technical result is achieved according to the third embodiment of the utility model in that, in a multiphase installation containing a multiphase pump having a pressure and suction line with valves, the last of which is connected to a gas-oil mixture supply line connected to a separator having input and output gas and oil and gas pipelines, according to a utility model, the separator is installed at the output of a multiphase installation, one of the output pipelines of which through a on with a collector of oil collection, and the input line is connected through a valve to the pressure line of the multiphase pump, the unit is equipped with a mixer with the main and additional inputs and outputs, the main input of which is connected to the gas-oil mixture supply line, and the output is connected to the suction line of the multiphase pump controlled by a throttle installed on the gas outlet line of the separator connected to the additional input of the mixer, a booster pump with a drive installed on the outlet master Whether feeding a lubricating fluid separator and the locking connected to the additional input provided on the multiphase pump and check valves mounted on the supply line gazovodoneftyanoy mixture and on the output line of the separator connected to the collector of oil collecting.

The utility model is illustrated by drawings, where.

In FIG. 1 shows a diagram of a multiphase installation according to the first embodiment of the utility model;

In FIG. 2 - the same as in the second embodiment of the utility model;

In FIG. 3 - the same as in the third embodiment of the utility model.

The multiphase installation according to the first embodiment of the utility model has an inlet separator 1 with outlet gas and oil-water lines with valves 2. The multiphase pump 3 has a pressure and suction line with valves 2, the last of which is connected to the output lines of the input

separator 1. The unit is equipped with a mixer 4 with primary and secondary inputs and outputs. The main inputs of the mixer 4 are connected to the output gas and oil-water lines of the inlet separator 1, and the output is connected to the suction line of the multiphase pump 3. The installation also has an output separator 5 with inlet and outlet lines. One of the output lines of the output separator 5 through the valve 2 is connected to the oil collector (not shown), and the input line is connected via the valve 2 to the pressure line of the multiphase pump 3. An adjustable choke 6 is installed on the gas output line of the output separator 5, connected to its turn, with an additional input of the mixer 4. The installation is equipped with a booster pump 7 with a drive (not shown) installed on the output line 8 for supplying lubricating and locking fluid to the output separator 5, connected with an additional input made on a multiphase pump 3. Non-return valves 9 are installed on the output gas and oil-water lines of the inlet separator 1 and on the outlet line of the output separator 5 connected to the oil collector (not shown).

The multiphase installation according to the second embodiment of the utility model contains all of the same elements, however, as the input separator 1, the separation tanks of the oil well can directly appear, and gas and gas-oil mixture are fed to the main inputs of the mixer 4 through the corresponding highways of the same name.

The multiphase installation according to the third embodiment of the utility model has a multiphase pump 3 with a pressure and suction lines with valves 2, connected to a separator 1 having input and output gas and water-oil lines. The separator 1 is installed at the output of the multiphase installation. One of

the output lines of the separator 1 through the valve 2 are connected to the collector of oil collection (not shown), and the input line is connected via the valve 2 to the pressure line of the multiphase pump 3. The unit is equipped with a mixer 4 with the main and additional inputs and output. The main input of the mixer 4 is connected to the gas-water-oil mixture supply line, and the output is connected to the suction line of the multiphase pump 3. An adjustable choke 6 is installed on the gas outlet line of the separator 1, which, in turn, is connected to the additional input of the mixer 4. The installation has a booster pump 7 with a drive (not shown) installed on the output line 8 of the supply of lubricating and locking fluid to the separator 1, connected to an additional input made on a multiphase pump 3. Check valves 9 installed on the gas-oil mixture supply line, and on the output line of the separator 1, connected to the oil collection manifold (not shown).

Multiphase installation operates as follows.

The main principles laid down in the claimed multiphase installation are: the ability to pump a multiphase flow, maximum reliability, operating flexibility with sudden changes in pumping parameters, simplicity and compactness.

All three variants of a multiphase installation work identically, therefore it is appropriate to illustrate the operation of a multiphase installation using the first variant of its implementation as an example.

The multiphase pump 3 pumps the gas-oil mixture coming from the separator 1 or directly from the separator 1 of the separation tanks of the oil well. From the separator 1, the gas and oil-water phases, the mixtures are separately supplied to the mixer 4, or, as in the third embodiment of the utility model, to the mixer 4

all of the gas-oil mixture is fed immediately along one highway from the oil well. This is the difference between the options of the utility model from one another. Otherwise, all three variants of the utility model function the same in the future.

In the mixer 4, the gas and oil-gas mixture is re-mixed, after which the gas-oil mixture enters the suction line of the multiphase pump 3. Further, the gas-oil mixture under pressure created by the multiphase pump 3 passes through its pressure line to the output separator 5, in which overpressure. Oil under excess pressure from the separator 5 through one of its output lines through the valve 2 and the check valve 9 enters the collector of oil collection.

Non-return valves 9 installed on the gas and water lines of the separator 1 and the gas-oil line according to the third embodiment of the utility model and the output line of the separator 5 connected to the oil collector (not shown) prevent the multiphase mixture from flowing back when the pressure in the system drops emergency situations.

The output separator 5 has two more output lines. An adjustable choke 6 is installed on the gas outlet line of the separator 5, which, in turn, is connected to an additional input of the mixer 4.

By taking gas from the output separator 5 by means of an adjustable choke 6, the performance of the multiphase pump 3 is regulated and pressure pulsations in its chambers are prevented, due to the passage of additional gas taken from the output separator 5 through it, the design incorporated in the utility model is provided - preventing the flow of pure oil-water mixture through multiphase pump 3 - overflow without

gas. If the adjustable choke 6 is closed, then the performance of the multiphase pump is 100%. If the adjustable choke 6

open, then the multiphase pump performance is 100%. At

this, it should be taken into account that in the mixer 4 there is a certain supply of gas for its participation in the process of pumping the gas-oil mixture through the multiphase pump 3, and if it is insufficient to prevent pressure pulsations in the chambers of the pump 3, additional gas is taken from the separator 5, the amount which is regulated by a throttle 6.

The multiphase installation additionally has a booster pump 7 with a drive (not shown). The feed pump 7 is installed on the output line 8 for supplying lubricating and locking fluid from the output separator 5. Line 8 is connected to an additional input made on a multiphase pump. The oil-water mixture coming from the separator 5 through the line 8 to the multiphase pump 3 has two functions: it provides lubrication of the rubbing surfaces of the parts of the pump 3 and prevents (closes) the flow of the pumped mixture through the technological clearances of the pump parts 3.

The multiphase installation is made of traditional structural materials used in the gas and oil industry, using traditional technologies and can be manufactured under the conditions of ordinary serial production.

Claims (3)

1. A multiphase installation containing an inlet separator having autonomous output gas and water lines with valves, a multiphase pump having a pressure and suction line with valves, the last of which is connected to the output lines of the inlet separator, characterized in that the installation is equipped with a mixer with main and additional inputs and outputs, the main inputs of which are connected to the output gas and water lines of the inlet separator, and the output is connected to the multi suction line a gas pump, an output separator with an input and output lines, one of the output lines of which through a valve is connected to a collector of oil, and the input line is connected through a valve to a pressure line of a multiphase pump controlled by a throttle mounted on the output gas line of the output separator connected to an additional mixer inlet, booster pump with an electric motor mounted on the output line for supplying lubricating and locking fluid to the output separator, with union of the additional input provided on the multiphase pump and non-return valves, two of which are mounted on the output gas and the input mains-water separator, and one output to the output line of the separator connected to the collector of oil collecting.  2. A multiphase installation containing an inlet separator having autonomous output gas and gas-oil lines with valves, a multiphase pump having a pressure and suction lines with valves, the last of which is connected to the output lines of the inlet separator, characterized in that the installation is equipped with a mixer with main and additional inputs and outputs, the main inputs of which are connected to the output gas and gas-oil pipelines of the inlet separator, and the output is connected to the suction line a multiphase pump, an output separator with an input and output lines, one of the output lines of which through a valve is connected to an oil collector, and the input line is connected through a valve to a pressure line of a multiphase pump controlled by a throttle mounted on the gas outlet line of the output separator connected to an additional input of the mixer, a booster pump with an electric motor mounted on the output line for supplying lubricating and locking fluid to the output separator an atomizer connected to an additional input made on a multiphase pump and non-return valves, two of which are installed on the output gas and oil-water lines of the inlet separator, and one on the outlet line of the output separator connected to the oil collector. 3. A multiphase installation comprising a multiphase pump having a pressure and suction line with valves, the last of which is connected to a gas-oil mixture supply line connected to a separator having input and output gas and oil-water lines, characterized in that the separator is installed at the output of the multiphase installation , one of the output lines of which through the valve is connected to the collector of oil collection, and the input line is connected through the valve to the pressure line of the multiphase pump, The ka is equipped with a mixer with main and additional inputs and an output, the main input of which is connected to the gas-oil-gas mixture supply line, and the output is connected to the suction line of a multiphase pump, regulated by a throttle installed on the separator output gas line connected to the additional input of the mixer, a booster pump with an electric motor mounted on the output line of the supply of lubricating and locking liquid of the separator connected to an additional input made on the multi ZNOM pump and check valves mounted on the line supplying the gas-oil-water mixtures, and the output line of the separator connected to the collector of oil collecting.