RU2083262C1 - Closed system for collecting and treating oil and gas in oil field - Google Patents

Abstract

FIELD: oil and gas production. SUBSTANCE: closed system contains wells connected to group measurement installations, separators of the first and end oil separation steps, and oil treatment plant. System is provided with absorber with its entry connected to pipeline for withdrawal of gas from the first-step separator, and exit of saturated oil from absorber is connected with pipeline for withdrawal of oil from the same separator. Product of oil well in the form of oil-gas-water mixture comes to the first separation step. Gas stream from the separator is directed into absorber, into which stable oil is simultaneously introduced as sprinkling means from stabilization unit of absorber. Gas-saturated mixture is mixed with oil from separator and fed into the end separation step and therefrom to treatment plant. EFFECT: enhanced efficiency of treatment. 1 dwg

Description

 The invention relates to the oil and gas industry, namely, sealed systems for the collection, separation, preparation and delivery of marketable oil, gas and water in the fields.

Known sealed system for the collection, preparation and delivery of commercial oil in the fields, which includes wells connected to group metering units, the separators of the main (including the first) and end stages of separation, installation of oil preparation [1]
The disadvantage of the system is its low reliability and uneconomicity, since during the separation of oil, along with the release of the most highly elastic components (C1-C3), heavier hydrocarbons are also removed, which, at certain molecular ratios with water vapor, tend to hydrate. This phenomenon often causes gas pipelines to stop due to clogging with their hydrate plugs, and, as a result, emergency situations with the discharge of hydrocarbons (or their combustion products) into the atmosphere.

 The objective of the invention is to increase the reliability, durability, environmental cleanliness of the entire system while reducing capital investment and operating costs.

 The solution to the problem is achieved by the fact that a sealed system for collecting and preparing oil and gas in the fields, containing wells connected to group metering units, separators of the first and final stages of oil separation, an oil treatment unit, is equipped with an absorber, the inlet of which is connected to the gas outlet pipeline from the separator the first stage of separation, and the output of saturated oil from the absorber is connected to the pipeline for the output of oil from this separator.

 The drawing shows a diagram of the proposed system.

 The system includes wells 1, group installations 2 for measuring production of wells, a separator of the first stage of oil separation 3, an absorber 4, an end stage of separation 5 and an oil treatment unit 6.

The system operates as follows. The production of oil wells 1 (oil-gas-water mixture), through group metering units 2, enters the first stage of separation 3, where, at the corresponding pressure and temperature, hydrocarbons, mainly C1-C3 (75-80 mol%) and other highly elastic components (CO ₂ , N ₂ , H ₂ S). In addition, this entails the entrainment of heavier hydrocarbons (C5 + b), as well as water vapor, with them. This gas stream is directed to the absorber 4 to absorb heavy hydrocarbons from it with stable oil coming from the stabilization unit of the oil treatment unit 6 at the central processing center. Oil saturated with absorbed hydrocarbons (C4 + c) from the absorber 4 is mixed with oil from the separator 3 and fed to the booster pump units, which are fed to the end separation stage 5, and then to the oil preparation unit 6. Gas from the absorber 4 and the end separation stage 5 is sent to the gas pipeline to the gas processing plant (GPP) or the consumer.

 Using the proposed solution will prevent the loss of hydrocarbon condensate and the formation of crystalline hydrates during the transportation of gases of the 1st separation stage. As a result, technological and organizational-technical obstacles that occur during gas transportation will be eliminated, and the reliability and uninterrupted operation of the system will increase. As a result of the exclusion of constant condensate discharges along gas pipelines and the formation of crystalline hydrates, which reduce their throughput, the ecological purity of the system will rise to the required level. In addition, which is equally important, the use of the proposed solution will drastically reduce the loss of valuable hydrocarbons from oil carried earlier with the separation gas, as well as for eliminating the incidence of gas combustion of the first stage of separation in flare systems when gas pipelines fail.

Claims (1)

 A sealed system for collecting and preparing oil and gas in the fields, containing wells connected to group metering units, separators of the first and end stages of oil separation, an oil treatment unit, characterized in that it is equipped with an absorbent, the inlet of which is connected to the gas outlet pipe from the first separator separation stages, and the saturated oil output from the absorbent is connected to the oil withdrawal pipeline from this separator.