RU2561775C1 - Field preparation method of oil/gas/water mixture for transportation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: field preparation method of an oil/gas/water mixture for transportation consists in extraction of the mixture from wells, creation in a collecting pipeline of delivery pressure by a multiphase pump, separation of the mixture with separation of water from it and supply of the oil/gas mixture to an oil preparation plant. Prior to separation, the mixture is heated by supplying to it at the inlet of the multiphase pump of additional gas, the temperature of which is not lower than the mixture temperature. Gas flow rate is determined according to the following expression: Q_gas=Q_dt·(t_k-t₀), where t₀ is initial temperature of the oil/gas/water mixture; t_k is the required temperature of the oil/gas/water mixture; Q_dt is specific flow rate of compressed gas, which is required for heating of the oil/gas/water mixture by one degree. Some part of gas, which is extracted at separation, can be used as gas supplied to the mixture at the inlet of the multiphase pump.

EFFECT: improving separation efficiency of water from an oil/gas/water mixture at its separation by supplying the additional gas to the oil/gas/water mixture before it is supplied to the multiphase pump.

3 cl, 3 dwg, 1 tbl

Description

The invention relates to a method for the preparation of oil, can be used in oil fields, in particular in booster pump stations equipped with multiphase pumps.

There is a method of field preparation of oil and water mixture for transport, which consists in transporting the oil and water mixture by booster pump stations using multiphase pumps to an oil treatment plant (hereinafter - UPN) (V.V. Sokolov, A.F. Sorokin, I.A.Sherbinin. Multiphase pumping stations in the design of the development of oil fields. - "Oil industry", No. 7, 2002, p.44).

The disadvantage of this method is the lack of preliminary discharge of produced produced water, which leads to overloading of the oil treatment unit and increase the metal consumption of interfield pipelines transporting the oil and gas mixture.

The closest technical solution to the present invention is a method for field preparation of oil and gas mixture for transport, which consists in the selection of oil and gas mixture from wells, creating a discharge pressure by a multiphase pump, separating the mixture with separation of water from it and supplying the oil and gas mixture to UPN (Application RU 96117647/06 , published on November 20, 1998).

The disadvantage of this method is the insufficient efficiency of the process of preparing the oil and gas mixture for transport due to the lack of preliminary discharge of water from the oil and water mixture during its separation.

The problem to which the invention is directed, is to increase the efficiency of the process of preparing the oil and water mixture for transport by increasing the efficiency of separation of water from the oil and water mixture during its separation by increasing the temperature of this process.

The problem is solved in that in the method of field preparation of the oil and water mixture for transport, which consists in taking the mixture from the wells, creating a discharge pressure in the collection pipeline by a multiphase pump, separating the mixture with separation of water from it and supplying the oil and gas mixture to the oil preparation unit, the mixture before separation water is heated from it by supplying additional gas to it at the inlet of the multiphase pump, the temperature of which is not lower than the temperature of the mixture, while the additional gas is supplied in quantity stve determined by the following relationship: Q _gas = Q _dt · (t _a -t ₀₎ where t ₀ - initial temperature neftegazovodyanoy mixture; t _to - the required temperature of the oil and gas mixture; Q _dt is the specific consumption of the compressed gas required to heat the oil and water mixture by one degree, and part of the gas released during separation can be used as the gas supplied to the mixture at the inlet of the multiphase pump.

Heating the mixture contributes to a more efficient discharge of water from it, which increases the efficiency of the process of preparing the oil and water mixture for transport.

The implementation of the heating by supplying it to it at the inlet of the multiphase pump of additional gas, the temperature of which is not lower than the temperature of the mixture, provides heating of the mixture due to the heat generated by gas compression in the multiphase pump. Moreover, for the heating of the mixture does not require the use of any additional heater, which increases the efficiency of this process.

Guaranteed heating of the mixture after the multiphase pump will occur even when a small amount of additional gas is supplied, if its temperature is not lower than the temperature of the mixture. After compression, the gas temperature will become higher than the temperature of the mixture and will be spent on its heating.

The use of gas released from the oil and water mixture during separation allows the mixture to be heated without using an additional gas source, which also increases the efficiency of the process for preparing the oil and water mixture for transport.

Figure 1 presents a diagram of an installation for preparing the produced mixture for transport, which implements the proposed method using an external gas supply device.

Figure 2 presents the diagram of the installation for the preparation of the produced mixture for transport, which implements the proposed method using the gas released during separation.

Installation for preparing the oil and gas mixture for transport (figure 1) contains a multiphase pump 2 connected to the pipeline 1 for pumping the oil and gas mixture, the pipe 3 is connected to its input for additional gas supply. The gas flow rate is determined using the sensor 4 and regulate the valve 5.

The multiphase pump 2 is connected by a pipeline with a separator 6, in which the mixture is separated into phases, while the separated formation water is discharged through pipeline 7, and the associated petroleum gas extracted from the mixture is sent through pipeline 8 to the pressure oil pipeline 9. Water and oil flow after separator 6 determined using sensors 10 and 11.

As an additional gas supplied to the input of the multiphase pump 2, a part of the gas released in the separator 6 can be used. In this case, a part of the gas from the pipeline 10 is supplied to the inlet of the pump 2 through the pipeline 12 (Fig. 2).

The proposed method is implemented as follows.

The oil and water mixture through pipeline 1 under pressure of the oil collection system is sent to receive a multiphase pump 2. To heat and control the temperature of the oil and water mixture, an additional gas is supplied to the input of the multiphase pump, the temperature of which corresponds to or above the temperature of the mixture. The flow rate of the feed gas is determined using the sensor 4 and is controlled by the valve 5 depending on the temperature of the mixture before and after the multiphase pump 2 and the flow rates of water and oil, determined using the sensors 10 and 11, respectively. Additional gas is supplied in an amount determined by the following expression: Q _gas = Q _dt · (t _to -t ₀ ), where t ₀ is the initial temperature of the oil and gas mixture; t _to - the required temperature of the oil and gas mixture; Q _dt - specific consumption of compressed gas required to heat the oil and gas mixture by one degree.

After the multiphase pump 2, the heated oil-gas-water mixture under pressure is subjected to a separation process, in which the formation water discharged through pipeline 7 is separated, as well as associated petroleum gas, which is sent via pipeline 8 to the pressure oil pipeline 9. The resulting oil and gas mixture via the pressure pipe (oil pipeline) 9 is transported to the oil treatment unit (UPN).

Additional gas for heating, supplied to the input of the multiphase pump 2, is supplied either from an external source, or the gas released during separation is used, taking part of it from the pipeline 8.

Table 1 shows the dependence of the temperature change of the oil and water mixture at the outlet of the multiphase pump on the amount of additional gas supplied to its input by the example of the oil and gas mixture of the Urno field. Technological calculations were performed in the Hysys 2006 software package (manufactured by Aspentech). A graphical image of this dependence is shown in graph 1.

Table 1. A table of temperature values at the outlet of a multiphase pump depending on the amount of additional gas supplied to its input. The initial temperature of the oil and gas mixture (t ₀ ) 25.0 ° C The initial pressure of the oil and gas mixture 0.65 MPa (abs) The pressure of the oil and gas mixture at the outlet 3.5 MPa (abs) Oil gas factor 19.0 m / t Oil cut 25.0% of the mass №№ p.p Additionally supplied gas, m ³ / day The consumption of free gas in the mixture, m ³ / day Mixture consumption (oil, water and dissolved gas), t / day The amount of free gas per one ton of oil and water mixture at the inlet of a multiphase pump, m ³ / t The temperature of the oil and gas mixture at the outlet of the multiphase pump, ° C one 2 3 four 5 6 one 0,0 62768,7 5,242.1 11.9 27.5 2 50,000.0 98,498.5 5280.9 18.6 28,2 3 100,000.0 135,253.0 5317.2 25,4 28.9 four 150,000.0 172746.3 5351.8 32,2 29.56 5 200,000.0 210,790.7 5385.0 39.1 30.17 6 250,000.0 249,255.5 5417.2 46.0 30.75 7 300,000.0 288045,2 5448.5 52.8 31.31 8 350,000.0 327088,2 5479,2 59.7 31.85 9 400,000.0 366,329.4 5509,4 66,4 32.36 10 450,000.0 405725.4 5539.1 73,2 32.85 eleven 500,000.0 445,241.8 5568.5 79.9 33.32 12 550,000.0 484,851.2 5597.7 86.6 33.77 13 600,000.0 524531.1 5626.6 93.2 34,20 fourteen 650,000.0 564,263.1 5655.4 99.7 34.62 fifteen 700,000.0 604,032.1 5684.1 106,2 35.01

Claims (3)

1. The method of field preparation of the oil and water mixture for transport, which consists in taking the mixture from the wells, creating a discharge pressure in the prefabricated pipeline by a multiphase pump, separating the mixture with separation of water from it and supplying the oil and gas mixture to the oil preparation unit, characterized in that the mixture before separation from water is heated by supplying additional gas to it at the inlet of the multiphase pump, the temperature of which is not lower than the temperature of the mixture. 2. The method according to claim 1, characterized in that the additional gas is supplied in an amount determined by the following relationship:
Q _gas = Q _dt · (t _to -t ₀ ),
where t ₀ is the initial temperature of the oil and gas mixture;
t _to - the required temperature of the oil and gas mixture;
Q _dt - specific consumption of compressed gas required to heat the oil and gas mixture by one degree. 3. The method according to claim 1 or 2, characterized in that as the gas supplied to the mixture at the inlet of the multiphase pump, use part of the gas released during separation.

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