RU112642U1 - MOBILE OIL SEPARATION AND PUMPING COMPLEX - Google Patents

Abstract

1. Mobile complex for the separation and pumping of oil, containing a separation-measuring unit, including an inlet separator, a hydrocyclone installed at the inlet of well production into the separator, a flow meter on the liquid line, a pumping unit containing at least one pump, a control unit and drainage line, characterized in that it is equipped with a drainage tank with a submersible pump, communicated with the inlet separator by means of drainage lines, while the hydrocyclone of the inlet separator has separate outlets for liquid and gas, and an ejector and a gas flow sensor are installed in the separation-measuring unit on the gas line , in addition, it is equipped with a condensate collection tank and a flare facility including an ignition unit, a torch, a flare control unit and a flare separator connected to the condensate collection tank, the pumping unit containing a flow meter, and the units are interconnected by inter-unit technological lines. ! 2. The complex according to claim 1, characterized in that it contains at least one storage tank unit. ! 3. The complex according to claim 1, characterized in that it is equipped with an automated riser for loading oil products. ! 4. The complex according to claim 1, characterized in that it contains a block of a diesel power plant with a storage tank for diesel fuel. ! 5. The complex according to any one of claims 1-4, characterized in that it is equipped with an oil heater. ! 6. A complex according to any one of claims 1-4, characterized in that the blocks are made on a sled base. ! 7. The complex according to claim 1, characterized in that the condensate collection tank and the drainage tank are underground. ! 8. The complex according to claim 7, characterized in that the condensate collection container

Description

The utility model relates to the oil and gas industry and can be used in the separation and pumping of oil at the well sites of oil fields.

Known separation unit with pumping pumping in block execution, mounted on a metal sleigh and containing a separation unit including an inlet separator, a hydrocyclone installed at the input of well products into a separator, a flow meter on a liquid line, a pump unit containing at least one pump, control unit, drainage lines, filter unit and spark plug for emergency gas discharge [Baykov NM, Kolesnikov BV, Chelpanov PI Collection, transport and preparation of oil. - M .: Nedra, 1975, p.123-130].

The disadvantages of this installation are:

- the absence of separate exits from the hydrocyclone for oil and gas, as a result of which the well products that have been separated in the hydrocyclone are again mixed in the upper separator tank and there is a large entrainment of the dropping liquid by gas;

- high residual gas content in oil at elevated separation pressures;

- the lack of the possibility of utilization of associated petroleum gas at low volumes of its production.

The objective of the proposed technical solution is to expand the functional and technological capabilities of the complex.

This is achieved by the fact that a mobile oil separation and pumping complex, comprising a separation and measuring unit, including an inlet separator, a hydrocyclone installed at the input of well products into the separator, a flow meter on the liquid line, a pump unit containing at least one pump, a block control and drainage lines, according to a utility model, is equipped with a drainage tank with a submersible pump in communication with the inlet separator by means of drainage lines, while the inlet separator hydrocyclone has separate exits liquid and gas, and in the separation and measuring unit on the gas line, an ejector and a gas flow sensor are installed, in addition, it is equipped with a condensate collection tank and a flare unit including an ignition unit, a torch, a torch control unit and a flare separator in communication with the condensate collection tank moreover, the pump unit contains a flow meter, while the blocks are interconnected by inter-unit production lines.

Equipping the complex with a drainage tank with a submersible pump allows drainage, accumulation and temporary storage of drainage fluid.

The implementation of the hydrocyclone inlet separator with separate outputs for liquid and gas contributes to a better separation of oil.

Equipping the complex with a flare unit, including an ignition unit, a torch, a torch control unit and a flare separator, allows the associated petroleum gas to be utilized for small volumes of production.

Equipping the complex with a storage tank unit allows the autonomous operation of the complex to be carried out without oil being shipped to tankers or an oil collector and facilitates the release of gas dissolved in the liquid during sludge.

Equipping the complex with an automated riser for loading oil products allows oil to be loaded into tankers.

Equipping the complex with a diesel power plant unit with a storage tank for diesel fuel allows the complex to be supplied with electricity in the absence of other sources.

Equipping the separation complex with an oil heater allows for oil flow during the collection of highly paraffinic viscous oils, as well as oils having a high pour point.

The execution of the blocks of the complex on a sledge basis allows the installation of the complex in the field without special soil preparation.

Running the condensate collecting tank and the drainage tank underground allows gravity to drain liquid into the tank without the use of forced drain devices, such as pumps.

The implementation of the condensate collecting tank and the heated drainage tank helps prevent freezing or thickening of the liquid at ambient temperatures below the freezing temperature of the liquid.

The utility model is illustrated in the drawing, which shows a schematic diagram of the complex.

The mobile oil separation and pumping complex contains a separation and measuring unit 1, a storage tank unit 2, a pump unit 3, a flare unit 4, a condensate collecting tank 5, a control unit 6, a diesel power station unit 7, a diesel fuel storage unit 8 of a diesel power station 7 , drainage tank 9, submersible pump 10, drainage tank 9, automated riser for loading oil products 11, oil heater 12, interblock production lines, including gas 13-16, 31, liquid 17 and drainage 18. V s The separation and measuring unit 1 includes an inlet separator 19 with a hydrocyclone 20, a flow meter 21 on the liquid line 17, an ejector 22, and a gas flow sensor 23 on the gas line 13. The storage tank unit 2 contains a storage tank 24. The pump unit 3 contains a pump 25 and a flow meter 26 on the liquid line. The flare unit includes an ignition unit 27, a flare control unit 28, a flare separator 29, and a flare unit 30.

One of the options for the complex is as follows.

Well production enters a hydrocyclone 20 installed at the inlet of the input separator 19 of the separation and measurement unit, where, under the action of centrifugal forces, the well products are separated into oil and gas. The liquid accumulates in the lower part of the separator 19 to a certain level, and then is pumped out by the pump 25 of the pump unit 3 through the flow meter 21 of the separation-measuring unit 1 located on the liquid line 17 and the flow meter 26 of the pump unit 3 and is sent to the oil recovery system.

The gas released in the inlet separator 19 is directed through the gas line 13, fed to the drive of the ejector 22, and then, through ejection, is directed to be burned to the flare unit 30 of the flare unit 4 through a gas line 15 equipped with a flare separator 29. Drip liquid released in the flare separator 29 , enters the condensate collecting tank communicating with it 5. The volume of the separated gas is measured by the gas flow sensor 23.

Management of the complex is carried out using the control unit 6.

To power and control the flare unit, part of the separated gas under separation pressure is taken by the ejector 22 and sent through the gas line 14 to the ignition unit 27 of the flare unit 4. The operation of the torch is controlled using the torch control unit 28.

Drainage fluid from the separation-measuring unit 1 and pump unit 3 enters through the drainage line 18 into the drainage tank 9, equipped with a pump 10.

To isolate dissolved gas from oil and increase productivity, the complex may contain a storage tank unit 2 with a storage tank 24. In this case, the well products will come from the separation and measuring unit 1 via a liquid line 17 to the storage tank unit 2, and then to the pump unit 3. The higher the separation pressure, the more gas remains in the liquid. The reduced pressure is created by the ejector 22, pumping gas from the storage tank 24 through a gas line 16 for burning on a torch 30. Drainage from the storage tank 3 is carried out through the drain line 18 into the drain tank 9.

For loading the separated oil into tankers, the complex can be equipped with an automated riser for loading oil products 11.

In the absence of an external source of electricity, the complex may contain a diesel power unit 7 with a storage capacity of diesel fuel 8.

To intensify the separation of the gas-liquid mixture, when collecting highly paraffinic viscous oils, the complex can be equipped with an oil heater 12. In this case, the production of wells is sent to the heater 12, and then enters the separation and measuring tank 1 and then follows the method described above. The heater 12 is powered by supplying gas through a gas line 31.

Application of the proposed technical solution will make it possible to create a mobile unit for automated measurement of the production rate of oil and gas producing wells at various pressures, oil pumping and associated gas utilization on a flare operating both in the oil collection system of the field and in the shipment of separated oil by tank trucks.

Claims (8)

1. A mobile oil separation and pumping complex, comprising a separation and measuring unit, including an inlet separator, a hydrocyclone installed at the input of well products into the separator, a flow meter on the liquid line, a pump unit containing at least one pump, a control unit and drainage line, characterized in that it is equipped with a drainage tank with a submersible pump, in communication with the inlet separator by means of drainage lines, while the inlet separator hydrocyclone has separate outputs for liquid and gas, and in sep an ejector and a gas flow sensor are installed on the gas-measuring unit, in addition, it is equipped with a condensate collecting tank and a flare unit including an ignition unit, a torch, a torch control unit and a flare separator in communication with a condensate collecting tank, the pump unit comprising a flowmeter, while the blocks are interconnected by inter-unit production lines. 2. The complex according to claim 1, characterized in that it contains at least one block of storage capacity. 3. The complex according to claim 1, characterized in that it is equipped with an automated riser for loading petroleum products. 4. The complex according to claim 1, characterized in that it contains a diesel power unit with a capacity for storing diesel fuel. 5. The complex according to any one of claims 1 to 4, characterized in that it is equipped with an oil heater. 6. The complex according to any one of claims 1 to 4, characterized in that the blocks are made on a luge basis. 7. The complex according to claim 1, characterized in that the condensate collection tank and the drainage tank are made underground. 8. The complex according to claim 7, characterized in that the condensate collecting tank and the drainage tank are made with the possibility of heating.