RU2091435C1 - Composition for dehydration and desalting of crude oil emulsion - Google Patents

Abstract

FIELD: oil and gas production. SUBSTANCE: composition contains 70-82 wt % of 50-55% water-methanol solution of nonionic ethylene oxide- propylene oxide block copolymer; 17-7 wt % of ethylene glycol production waste; and water to the balance. EFFECT: reduced cost due to utilized waste. 3 tbl

Description

 The invention relates to the oil industry and may find application in the dehydration and desalination of oil.

 A known composition for dehydration of the emulsion, including the non-ionic demulsifier OP-10 and anionic sulfonate [1] The known composition does not have sufficiently high demulsifying properties.

Closest to the invention in technical essence is a composition for dehydration and desalination of an oil emulsion, including nonionic demulsifier and wetting agent [2]
The known composition is quite effective in the demulsification of conventional oil emulsions, but it is ineffective in the destruction of oil emulsions, characterized by high aggregate stability.

 The purpose of the invention is the improvement of the dehydrating and desalting ability of the composition.

 The goal is achieved in that the composition for dehydration and desalting of an oil emulsion, including a demulsifier and a wetting agent, according to the invention contains 50-55% water-metal solution of a nonionic block copolymer of ethylene oxide and propylene as a demulsifier, and the production of ethylene glycols as a wetting agent, in the following ratio components, wt.

50-55% water-methanol solution of a nonionic block copolymer of ethylene oxide and propylene 70-82
waste production of ethylene glycols 7-17
water rest
The proposed composition can be used as a reagent-demulsifier in the preparation of oil in the fields, in particular for dehydration of highly viscous stable oil emulsions.

 At present, various oil-water-soluble demulsifiers are used in the oil fields, however, for many emulsions characterized by high aggregate stability, the use of these reagents both individually and in combination with each other does not give a sufficiently high degree of dehydration. Especially difficult is the process of demulsification on emulsions of high viscosity oils with a high content of asphaltenes and resins, as well as on emulsions stabilized by mechanical impurities. The presence of asphaltenes in oil promotes the formation of a film on the interface, and the increased content of particles of mechanical impurities further strengthens the “armor” layer, thereby preventing the gravitational separation of water from the volume of the oil phase. To destroy such emulsions, demulsifiers are required that would possess, along with demulsifying properties, wetting properties.

 The proposed composition, along with demulsifying, has the properties of a wetting agent and has a synergistic effect, which is manifested both in the demulsification of oil emulsions and in the study of colloid-chemical characteristics of the compositions (surface tension, wetting ability of the composition).

 The nonionic demulsifier reapon-4B was chosen as the basic component, and polyglycol resin, which is a waste product of the production of ethylene glycols, was used as a modifying additive.

 The nonionic block copolymer of ethylene oxide and propylene is a medium molecular weight copolymer of 4200, containing 27-31 hydroxyethyl units and 48-55 groups of propylene oxide. The product has the trademark Reapon-4V and is manufactured according to TU 2226-005-10488057-94. The commodity form is a 50-55% solution of a copolymer in a mixture of methanol and water with a volume ratio of 4: 1. Reapon-4V has the following properties (tab. 1).

 The waste from the production of ethylene glycols is obtained in the process of hydration of ethylene oxide. Available in accordance with TU 6-01-10-40-79 and has the following composition, wt.

monoethylene glycol 0.012 8.7
diethylene glycol 0.04 10.87
triethylene glycol 1.00 28
tetraethylene glycol 52 95.74
polyethylene glycols up to 3.13
Indicators characterizing the quality of waste production of ethylene glycols are given in table 2.

 The composition for dehydration and desalting of the oil emulsion is prepared as follows: mix the components based on their content in the composition, wt.

50-55% water-methanol solution of a nonionic block copolymer of ethylene oxide and propylene 70-82
waste production of ethylene glycols 17-7
water rest
Mixing is carried out by heating to 30-40 ^o C.

 The composition for dewatering and desalting the oil emulsion is used as follows: a dosing pump is introduced directly into the pipeline after the production well (pipe demulsification) and at the complex oil treatment facilities directly in line before the first stage of dehydration and desalination.

 In laboratory conditions, to determine the effectiveness of the demulsifying effect of the composition, a 1% solution of the demulsifier in water is prepared. A sample of artificial or natural commercial emulsion in the amount of 60 ml is poured into a 250 ml flask and a 1% demulsifier solution is added. The amount of injected 1% demulsifier solution depends on the consumption of the reagent. Stirring is carried out in a laboratory shaker for 10 min at a speed of 350 rpm, after which a sample of the emulsion with a demulsifier in a 50 ml settler is placed in a water bath with a set temperature for the process of demulsification. The water separated from the oil is counted after 5, 10, 20, 30, 60, 90, and 120 minutes from the beginning of sedimentation. Then, the dehydrated oil is siphoned by gravity 3-5 mm above the interface with water using a pipette into a previously weighed flask of the Dean and Stark apparatus. The water content in oil is determined by the Dean and Stark method in accordance with GOST 2477-65 "Petroleum products. Method for the quantitative determination of water content". The salt content is determined according to GOST 21534-76 (ST SEV 2879-81) "Oil. Methods for determining the content of chloride salts".

 The authors conducted studies of the dehydration process of four oil emulsions, various in their properties, most widely representing oil emulsions formed during oil production.

Example. A model emulsion based on dehydrated Devonian oil from the Bavlinskoye field has the following characteristics:
oil density 0,902 g / cm ³
kinematic viscosity, at 20 ^o C 50.62 mm / cm ²
water content 20 wt.

the content of chloride salts (NaCl) 11000 mg / l
the density of reservoir oil 1,037 g / cm ³
The constituent components of the emulsion, oil and mineralized water, are mixed in a mixer for 5 minutes at a rotation speed of 3000 rpm.

 The stability of the emulsion obtained is determined by settling it at the temperatures of the demulsification process without adding a demulsifier for 2 hours. Under these conditions, water separation does not occur, which indicates a high stability of the artificial emulsion sample.

 The dependence of the residual content of water and salts on the ratio of components in the demulsifier is given in table. 3.

 Thus, according to the research results, the new composition of the composite demulsifier based on the nonionic block copolymer of ethylene oxide and propylene and the waste from the production of ethylene glycols, which acts as a wetting agent in the active principle of the commodity form, is highly effective and has improved performance characteristics.

 The introduction of waste products of the production of ethylene glycols in the commodity form allows to reduce the cost of the reagent up to 20% and increase the volume of production without additional costs of ethylene oxide and propylene, as well as expand the range of demulsifiers produced without changing the process and additional costs for raw materials.

Source of information taken into account when preparing the application:
1. USSR author's certificate N 170602, cl. C 10 G 33/04, published. 1965.

 2. RF patent N 1715824, cl. C 10 G 33/04, published. 1992, prototype.

Claims (1)

 Composition for dehydration and desalting of an oil emulsion, including a demulsifier and a wetting agent, characterized in that it contains a 50-55% aqueous methanol solution of a nonionic ethylene oxide and propylene block copolymer-Reapon-4B as a demulsifier and a polyglycol resin is produced as a wetting agent ethylene glycols and additionally water in the following ratio of components, wt. 50-55th water-methanol solution of nonionic block copolymer of ethylene oxide and propylene Reapon-4V 70 82
Waste from the production of ethylene glycols polyglycol resin 7 17
Water Rest

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