SU1233899A1 - System for collecting and preparing petroleum - Google Patents

Description

This invention relates to oil field preparation.

The purpose of the invention is to reduce operating costs while increasing the combustible qualities of gas products under the conditions of operation of the first installation associated with the deposit developed by the method of intraplasma burning.

The drawing shows a diagram of the proposed system for the collection and preparation of oil.

The system consists of two installations for the collection and treatment of oil, each of which includes inlet pipe 1 and 2 connected in series, gas separator 3 and 4, with gas output pipeline 5 and 6, water and gas separator 7, end separator 9 and 10 with pipelines gas outlets 11 and 12. In addition, the system is equipped with a pipeline 13 connecting the gas outlets 5 of the gas separator 3 of the first installation with the supply pipe 14 of the end separator 10 of the second installation and the pipeline 15 connecting the gas outlet pipeline 12 of the end separator 10 second th installation with a separator 7 first installation.

The system works as follows.

The well production of the reservoir sections developed by the in-situ combustion method enters the inlet pipeline 1 to the gas separator 3 and the separator 7, where gas and water are separated, then sent for final gasification to the end separator 9 and then pumped out to the consumer.

The production of wells of areas (or fields) developed by conventional methods flows through the inlet pipe 2 to the gas separator 4 and the separator 8, where the bulk of the gas is separated, sent through the gas outlet pipe 6 to utilization and water, followed by oil to

is fed to the end separator 10 where the residual gas is separated and then pumped out to the consumer. The gas of the main stage of gas separation of the first installation through the pipeline 13 is fed into the inlet pipeline 14 of the end separator 10 of the second installation.

In the phem supply line 14 of the end separator 10, gas and heavy gaseous hydrocarbons are extracted from the oil, i.e., the stabilization of the oil without the consumption of heat energy by using a non-combustible gas - an evaporating agent.

In the inlet pipe 14 and the separator 10, the combustible qualities of the gas from the gas separator 3 are increased by enriching the gas separator 4 with the combustible components of the oil. Therefore, the gas mixture withdrawn from the separator 10 is combustible, which allows it to be used as fuel. This mixture is fed through pipelines 12 0 and 15 into separator 7 together with oil and water emulsion from gas separator 3.

In separator 7, the oil is emulsified with a lower consumption of the demulsifier and without heating with the help of a combustible gas mixture from the separator 10 and the absorption from this mixture of heavy hydrocarbons with heavy oil. Absorption continues in the inlet gas and oil pipeline of the separator 9, which is connected to the separator 7. In this inlet pipeline and the separator 9, the oil is stabilized using a combustible gas mixture — evaporator 1, its agent.

Combustible gas is discharged from separator 9 through pipeline 11 to the consumer of fuel.

As a result of this work, the systems reduce operating costs by reducing the consumption of thermal energy and the absorber and increase the combustible quality of the gas from the first section.

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Claims (1)

COLLECTION AND PREPARATION SYSTEM- KI NEFTI, including two parallel-running units, each of which consists of a gas separator, a separator and an end separator connected in series, characterized in that, in order to reduce operating costs while increasing the combustible quality of gas products in the conditions of the first installation, connected with the fields developed by the in-situ combustion method, the gas outlet pipe of the gas separator of the first installation is connected to the inlet pipe of the end separator of the second installation, t uboprovod gas outlet which is connected to the first separator unit. go with OO QO with ζ0