RU2501944C1 - Method for oil treatment and utilisation of associated gas - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method involves separation of the well products into water, oil and gas, mixing of oil and gas and their joint transportation. According to the invention, the well products are supplied to line heaters to be heated up to 30-45°C. Then, the products are separated. After the well products are separated, some part of gas is supplied to an oil transportation pipeline under conditions excluding forced mixing with oil and transported together with oil to a new gas consumer. Besides, gas condensate is separated from separated and free gas at the pressure of 0.03-0.20 MPa, and some part of that gas is used in line heaters as fuel gas. The above operations are repeated before each new consumer.

EFFECT: possibility of rational gas utilisation and reduction of costs for its transportation.

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Description

The invention relates to the oil industry and may find application in the preparation and transportation of oil and gas and the use of associated petroleum gas.

A known method of joint transport of oil and gas, including the separation of oil from water and gas with subsequent mixing of oil and gas for joint transport (USSR author's certificate No. 623049, publ. 09/05/1978).

A known method of transporting a gas-oil mixture, including the selection of products from wells, creating a discharge pressure and transporting it through a pipeline, feeding it to an end phase divider, phase separation, taking gas, oil and water in separate streams, characterized in that the gas and oil are taken from the terminal a phase divider is produced at the same time, and before being fed to the multiphase pump, they are additionally mixed in the connecting pipe, then the mixture is sent to a centrifugal separator, from where oil in an amount of 2-10% Volumetric. served on the reception of a multiphase pump, and the released gas is introduced into the main oil stream immediately before transportation to the oil treatment unit (Application No. 96117647, publ. 20.11.1998).

Closest to the proposed invention in technical essence is a method of transporting a gas-oil mixture using a multiphase pump, according to which a gas-oil-oil emulsion from group installations is supplied to a terminal phase divider, where it is divided into three phases - gas, oil and water. Separated water with residual oil content is piped to the consumer, where it is used for injection into the reservoir. The evolved gas and gas-oil mixture simultaneously, in separate streams, enter the filter mixer, where additional purification from mechanical impurities and mixing of oil, gas and water to a homogeneous medium, then fed to the multiphase pump, takes place (RF Patent No. 2098714, publ. 10.12.1997 - prototype).

A common drawback of the known technical solutions is the long gas transportation carried out in conjunction with oil, the presence of gas transportation costs, and irrational use of gas, which is most often flared at the end of transportation.

The proposed invention solves the problem of rational use of gas and reducing the cost of its transportation.

The problem is solved in that in a method for preparing oil and using associated gas, including the separation of well products into water, oil and gas, mixing oil and gas and their joint transportation, according to the invention, after the separation of well products, part of the gas is sent to the consumer, the rest of the gas fed to the oil transportation pipeline under conditions that exclude forced mixing with oil, and transported together with oil to a new gas consumer, before a new gas consumer, gas is separated from oil and the separated gas and free gas from the pipeline are sent to a new consumer, and further transportation of oil is performed.

If there are several consumers along the oil transportation route and a sufficient amount of gas in front of each consumer, gas is separated from oil and part of the separated gas and part of the free gas from the pipeline are sent to a new consumer, the remaining gas is supplied to the oil transportation pipeline under conditions that exclude forced mixing with oil, and transported together with oil to a new gas consumer, where operations are repeated.

SUMMARY OF THE INVENTION

In the field, the production of oil wells is divided into water, oil and gas, and mechanical impurities are separated. More gas is burned in flares; at best, it is partially used for burning in heat exchangers furnaces. If there is a lot of gas, they try to send it to consumers, who are often many kilometers away from the place of separation. Basically, such consumers are technological satellites during oil transportation and are located along the pipeline route. At the same time, expensive long pipelines are constantly under pressure to build gas. The construction and operation of such pipelines is very burdensome for fishing, therefore they often sacrifice gas and burn it in flares, but refuse to build gas pipelines. The proposed invention solves the problem of rational use of gas and reducing the cost of its transportation. The problem is solved as follows.

The production of oil wells is collected in a group metering unit and sent through the booster pump station to prepare for transport. At the same time, separators perform the separation of well production into water, oil and gas. Water is purified and sent to the reservoir pressure maintenance system. Gas is partially used for the technological needs of the primary oil preparation unit, burned in furnaces and heat exchangers, and oil is heated for separation. The rest of the gas is sent to the oil transportation pipeline, at the inlet of which there are no devices for mixing oil and gas. Oil and gas are initially transported through the pipeline in two phases. As it moves, the gas partially dissolves in the oil, reducing the viscosity of the oil and facilitating the flow of oil. The lack of mixing devices is due to the fact that it makes no sense to achieve the mixing of gas and oil in the pipeline, because in the end, the current environment will have to be divided again into oil and gas. The presence of partially undissolved gas facilitates the separation of oil and gas in this separation.

After transportation through the pipeline to the new gas consumer, gas is separated from the oil and the separated gas and free gas from the pipeline are sent to the new consumer, and further oil transportation is performed.

If there are several consumers along the oil transportation route and a sufficient amount of gas in front of each consumer, gas is separated from oil and part of the separated gas and part of the free gas from the pipeline are sent to a new consumer, the remaining gas is supplied to the oil transportation pipeline under conditions that exclude forced mixing with oil, and transported together with oil to a new gas consumer, where operations are repeated.

Due to such transportation, it is possible to deliver gas to the gas consumer without building a gas pipeline.

Concrete example

Figure 1 shows a device for the preparation of oil and the use of associated gas, which includes: 1 - track heaters PP-0.63AS; 2 - oil and gas separator E-1; 3 - horizontal sump E-2; 4 - technological capacity E-7; 5 - buffer capacity for crude oil E-5; 6 - installation of preparation of sour oil (UPVSN-2); 7 - sedimentation tank with a hydrophobic filter (OGZHF) E-3; 8 - buffer tank for wastewater E-4; 9 - gas separator E-6; 10 - condensate collector; 11 - compressor installation.

The device operates as follows.

A gas-liquid mixture (GHS) from a group metering system with a water cut of 60% under pressure up to 0.5 MPa and a temperature of 5-10 ° C enters the track heaters of a capacitive type with an intermediate coolant PP-063AS No. 1 and No. 2, working in parallel, where it occurs heating to 30-45 ° C. GHS heated in the track heaters enters the E-1 (V-32 m ³ ) oil and gas separator (NGS), where 1 stage of liquid separation is carried out. With NGS E-1, the production fluid enters the horizontal sedimentation tank E-2 (V-200 m ³ ), where under the pressure of 0.09-0.49 MPa, hot sludge and formation water discharge occur. Further, oil from the E-2 sump enters the E-7 technological tank (V-100 m ³ ), where residual discharge of produced water occurs. From E-7, crude oil enters the E-5 buffer tank (V-25 m ³ ), from where it is pumped by a volumetric type pumping unit (N-1) to the UPVSN-2 sour crude oil treatment unit.

Produced water, after discharge from the sump E-2, is sent for cleaning to the liquid sump with a hydrophobic filter (OGZHF) E-3 (V-100 m ³ ). After purification from oil products in E-3, water is supplied to the buffer tank E-4 (V-200 m ³ ), from where it is pumped out with a content of oil products of not more than 60 mg / l and suspended particles up to 50 mg / l with a central nervous system pump under pressure up to 10 MPa into the reservoir pressure maintenance system.

Released associated petroleum gas from the tanks E-1, E-3, E-4, E-5, E-7 enters the gas separator E-6 (V-4 m ³ ), where at a pressure of 0.03-0.2 MPa is the separation of gas condensate. From E-6, petroleum associated gas enters the track heaters PP-0.63 AC No. 1, 2, where it is used as fuel gas. Part of the gas, through the condensate collector with the help of the K-33 compressor unit, is supplied to the pressure oil pipeline and then pumped to UPVSN-2, where it is again separated from oil and used as fuel in oil heating furnaces.

The temperature range of 30-45 ° C heating in track heaters does not provide a complete separation of well production, but only partial. The amount of gas released is sufficient for the needs of a gas consumer with a small margin. This stock of non-consumed gas is returned to the oil transportation pipeline. The gas that remains unseparated in the production of wells contributes to a smaller increase in viscosity that occurs during gas separation, which reduces the cost of transporting the production of wells through the oil transportation pipeline.

Conditions that exclude forced mixing of gas with oil provide less mixing of gas with oil during transportation and reduce the cost of gas separation in front of the next gas consumer. This part of the gas practically does not affect the decrease in the viscosity of the production of wells, so it makes no sense to completely mix this gas with oil for transportation. However, when gas is released to the next consumer, this gas which is not mixed with oil is very useful and saves money on gas production for the consumer. Conditions that exclude forced mixing of gas with oil can be implemented in various ways, for example, by organizing a laminar fluid flow through a pipeline, by performing a pipeline with zero or minimal slope without shifting the slope in the opposite direction, i.e. without peaks and depressions, using a pipeline with a diameter that is obviously larger than necessary for maximum filling of the pipeline, etc.

The pressure range of 0.03-0.20 MPa when separating gas condensate from separated and free gas allows not to completely separate gas condensate from gas. Part of the gas condensate remaining in the gas has practically no effect on the calorific value of the gas in the track heaters when using it as fuel gas, but it helps to reduce the viscosity of well production when some gas is returned to the oil transportation pipeline. Gas condensate, being a liquid, mixes with oil more easily than gas, lowering its viscosity, which facilitates its transportation through the pipeline.

As a result, it is possible to transport gas through the pipeline to the consumer with the achievement of the beneficial use of gas.

The application of the proposed method will achieve the rational use of gas and reduce the cost of its transportation.

Claims (1)

A method for preparing oil and using associated gas, including the separation of well products into water, oil and gas, the mixing of oil and gas and their joint transportation, characterized in that the well products are fed to track heaters for heating to a temperature of 30-45 ° C, then these products are separated, after the separation of the products of the wells, part of the gas is supplied to the oil transportation pipeline under conditions that exclude forced mixing with oil, and transported together with the oil to a new gas consumer, while of the separated gas and a separated free gas condensate, at a pressure of 0,03-0,20 MPa, and in line heaters use of this gas as a fuel gas, these steps are repeated prior to each new customer.

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