SU1201611A1 - Method of piping viscous high-paraffin petroleum - Google Patents

Abstract

1. A method of transporting viscous high-paraffin oil mainly to field facilities, its preliminary preparation inside the near-wall annular shell from a gaseous mixture with a surfactant, characterized in that, in order to increase the efficiency of oil preparation by preventing the formation of a secondary emulsion and its aging, the oil is transported cooled structured form at an external layer temperature of 20-35 ° C. 2. A method according to claim 1, characterized in that the annular shell is formed from cold water with a temperature of O-20 ° C with a ratio of cold water volumes to an emulsion of 1: 3.

Description

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The invention relates to the primary processing of oil and can be used in oil fields to destroy natural emulsions during its movement through pipelines from the bottom of the wells to the objects of preliminary preparation of oil for the purpose of purification from water. and. dissolved salts of oil with a high content of paraffin-asphalt resin substances.

The purpose of the invention is to increase the efficiency of oil preparation by preventing the formation of a secondary emulsion and its aging., -.

The prevention of the formation of secondary emulsion in flooded setting oil with a high content of paraffin-asphalt-resinous substances, which takes place as a result of its heating to 60-70 ° C, is achieved by pipeline transport to the facilities of preliminary separation of water in the fields at a relatively low temperature at which the emulsion flow acquires a structured form, for example, for a field. The temperature is not higher than + 20–35 ° C (this temperature is most effective for the Uzen field conditions, the degassed oil of which solidifies at Plus 28–32 ° C). Transport of the cold emulsion is carried out in an oil-immobilized near-wall gas-sheath, treated with surfactant.

At low temperature, the emulsion flow acquires a structured form that is not capable of moving all the way to the objects of preliminary preparation of oil for emulsification and the formation of secondary emulsions.

At the entrance to the preliminary oil treatment unit, the cold emulsion is separated from the oil and free water containing mechanical components and corrosion products is discharged. Then, the emulsion is heated, additional input of surfactant into the emulsion, displacement, degassing, in-line demulsification at the pipeline section with optimal diameters and length, sludge, separation of water from oil with pumping of the cooled to a structured state of oil to the objects of deep dehydration and desalting, waste water - to the objects of additional heating and its injection into the .plast.

In the method, the transport of products in a structured form is carried out in order to improve the preliminary preparation of oil. In addition, the emulsion is transported to the pre-water collecting facilities in an annular casing formed at this temperature of the gas / gas mixture, which ensures the formation and preservation of the emulsion flow in a structured form throughout the entire route to

objects of preliminary discharge of water, preventing the formation of secondary emulsion.

In wells with high temperature products at the mouth, as well as in the summer period of the year, especially in areas with hot climates, a known method of product transport contributes to the formation of a secondary emulsion, enhancing its stability and aging, which greatly affects the quality of pre-treatment of oil, increases corrosion activity of the medium leads to a significant increase in the consumption of expensive surfactants and the rise in the cost of the entire technological process with a decrease in the quality of commercial products.

The invention is illustrated by the example of pretreatment of oil produced at the field by the gas-lift method using surfactants in gas-lift production in order to increase the efficiency of the gas-lift hoist, which is the case, for example, at the Uzen, Zhetybai and other fields.

The drawing shows the implementation of the proposed process.

From the dosing unit 1 (for example, Br-2.5 or Br-10), a surfactant is pumped into the gas pipeline of the total flow of gas-gas 2 at the entrance to the gas distribution battery 3, followed by flow along with the gas to the bottom of the gas-lift wells 4 in such a quantity that will provide Not only an increase in the efficiency of the gas lift, but also some release of free water from the emulsion with the surfactant dissolved in it to form a stable near-wall gassing shell in the discharge pipe.

The emulsion of wells 4 with water partially separated from it together with gas and surfactant or, if necessary, cold or hot water introduced into it with surfactant dissolved in it via line 5 through device 6 forming the near-wall envelope through flowline 7 to the group metering unit 8. Then the first separation stage passes in the separator 9, from which from two levels (lower and middle) through pipelines 10 and 11 in the form of water and emulsion is taken by pumps 12 and 13 through the forming device 14 with an additional injection of surfactant or cold water through it through line 15, the treated surfactant with a concentration of 0.005-0.015% in a ratio of, for example, 1: 3 and at O-20 ° C if it is necessary to cool the product before acquiring a structured flow, or whose water treated with surfactants of the same concentration in order to avoid freezing of the near-wall annular casing during the cold season, is pumped through oil-field pipelines 16 to the sedimentation tanks of preliminary cold separation of free water from the emulsion 17, pumping out cold waste water 18 preheating the emulsion in furnaces 19 to 45-60 ° C; separation in separators 20, viutritrubnaya demulsification in the pipeline section 21, final sludge in settling tanks 22, separating water from oil, pumping oil by pumps 23 to deep dehydration and desalting oil 24, and water - pumps 25 on the heating furnace 26 and pumping pumps 27 into the reservoir. Some residual gas content in the production of wells 4 after the first separation stage ensures the stability of the structured flow pattern by foaming the turbulization of the near-wall layer, facilitating the transport of these products to the object of preliminary oil preparation. Injection of cold water with a temperature of O-20 ° C into the production flow at wells 4 and at group stops through devices 5 and 15 during the summer period of the year ensures 11. flow mobility without disrupting its structure. Preliminary cold discharge of free water at an oil pretreatment unit 17 before heating the emulsion in furnaces 19 eliminates the ingress of corrosion products into the structured emulsion involved in the near-wall annular casing in the vast inner surface of the pipeline system and, as is known, mixing with the emulsion after it is heated, It may be useless to adsorb a significant amount of surfactant on its surface, increasing the stability of the emulsion. The proposed method will allow the emulsion to be delivered to the pre-treatment facilities as if in a frozen state, eliminating its re-dispersion, the formation of a secondary emulsion, reducing its resistance to destruction and providing a more efficient and high-quality process of pre-separating water from oil in the fields while reducing consumption the most common reagent is the demulsifier surfactant.

Claims (2)

1. METHOD FOR TRANSPORTING VISCOUS HIGH-PARAFFIN OIL mainly to oilfield facilities, its preliminary preparation inside the wall ring shell from a gas-water mixture with a surfactant, characterized in that, in order to increase the efficiency of oil preparation by preventing the formation of a secondary emulsion and its aging, the oil is transported chilled in structured form at an external layer temperature of 20–35 ° С. 2. The method according to π. 1, characterized in that the annular shell is formed from cold water with a temperature of 0-20 ° C with a ratio of the volumes of cold water to the emulsion 1: 3.