RU2682534C1 - Emulsifier for invert emulsions and preparation method thereof - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to emulsifiers of invert emulsions and can be used in producing homogeneous mixtures of immiscible liquids, which are two-phase systems used in oil and gas industry, including drilling and killing wells, as well as increasing oil recovery by waterflooding. Emulsifier of invert emulsions contains an oil-soluble surfactant in form of a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine, a water-oil-soluble surfactant and a hydrocarbon solvent, with the following ratio of components, wt%: oil-soluble surfactant 18÷50, water-oil-soluble surfactant 2÷20, hydrocarbon solvent – balance. Water-oil-soluble surfactant is obtained by sulphonation of fat with a sulphonating agent with subsequent neutralization of the reaction mass to pH 6–7 with an alkaline agent and separation of the formed aqueous phase, where the fat is represented by technical fish fats – fish processing industry wastes, and the sulphonating agent used is a mixture of mineral oil, non-ionic surfactants and oleum, wherein mineral oil is represented by industrial oil I-L-A-10 or I-LH-A-15, as non-ionic surfactants – Neonol AFor Neonol AFin an oil:surfactant:oleum ratio of 0.5:0.5:1.0 by weight. Sulphonation is carried out in a reactor with constant stirring and temperature of 50–110 °C for 1.5–30 minutes at a weight ratio of cod-liver oil to sulphonating agent equal to 1.0:(0.1÷0.3), alkaline agent used is 5–10 % aqueous solution of sodium hydroxide or triethanolamine. Hydrocarbon solvent used is arctic diesel fuel or jet fuel JP-1, or transformer oil VG. Emulsifier preparation involves introduction of a hydrocarbon solvent into the mixture of surfactants and mixing until a homogeneous product forms.EFFECT: providing stable back emulsions which do not decompose at temperature of 90 °C for 24 hours and at temperature 20 °C for 8 hours, possibility of formation of direct emulsion solutions and efficiency in case of application for increasing oil recovery of the formation.1 cl, 2 tbl, 3 ex

Description

The present invention relates to invert emulsion emulsifiers and can be used to obtain homogeneous mixtures of immiscible liquids, which are biphasic systems consisting of polar and non-polar liquids (for example, water and oil or water and another hydrocarbon phase) used in the oil and gas industry , including for drilling and killing wells, as well as increasing oil recovery by water flooding.

Closest to the proposed technical solution is the inverse emulsion emulsifier Emultal, which contains a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine [1, 2, prototype].

This emulsifier has a good emulsifying ability, but not high enough thermal stability of the inverse emulsion obtained on its basis.

"Emultal" refers to emulsifiers of inverse emulsions, which excludes the possibility of the formation of a direct type emulsion, therefore, when an emulsifier is added to the injected water, the emulsifier and the injected water are instantaneously separated, which makes it not effective in case of application to increase oil recovery.

The invention is directed to the creation of an invert emulsion emulsifier having the ability to form a direct emulsion when mixed with water, and when interacting with hydrocarbons and water, the ability to form an inverse emulsion with high thermal stability.

The result is achieved by creating an emulsifier containing an oil-soluble surfactant containing a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine, a water-oil-soluble surfactant obtained by sulfonation of fish oil with a sulfonating agent, representing a mixture of mineral oil, surfactants and oleum, followed by neutralization of the reaction mass with an alkaline agent and a hydrocarbon solution Rietel - commodity medium distillate fuels or light oils.

The features of the invention "Emulsifier of invert emulsions and method for its preparation" are:

1) Oil-soluble surfactant.

2) Emultal (TU 6-14-1035-79), which contains a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine, is used as an oil-soluble surfactant.

3) Water-soluble surfactant.

4) A substance obtained by sulfonating fish oil with a sulfonating agent representing a mixture of mineral oil, nonionic surfactants and oleum according to GOST 2184-2013 with subsequent neutralization of the reaction mass with an alkaline agent is used as a water-oil-soluble surfactant.

5) Technical fish oils are used as fat in accordance with GOST 1304-76 - waste from the fish processing industry.

6) Industrial oil I-L-A-10 or I-LG-A-15 is used as mineral oil according to GOST 20799-88.

7) Neonol AF _9-6 or Neonol AF _9-12 according to TU 2483-077-05766801-98 is used as nonionic surfactants.

8) A 5-10% aqueous solution of sodium hydroxide according to GOST R 55064-2012 or triethanolamine according to TU 2423-005-78722668-2010 is used as an alkaline agent.

9) Hydrocarbon solvent.

10) Commercial distillate fuels or light oils are used as a hydrocarbon solvent: arctic diesel fuel in accordance with GOST 305-82, TS-1 brand jet fuel in accordance with GOST 10227-86, VG transformer oil in accordance with TU 38-401978-98.

11) A method for the synthesis of a water-oil-soluble surfactant.

12) The method of preparation of the emulsifier.

Signs 1, 2 are common with the prototype, and signs 3-12 are the essential distinguishing features of the invention.

SUMMARY OF THE INVENTION

An emulsifier is proposed for producing invert emulsions used in the oil and gas industry, including for drilling and killing wells, as well as increasing oil recovery by water flooding, containing an oil-soluble surfactant - a mixture of oleic, linoleic, linolenic esters, as well as resin acids and triethanolamine, a water-oil-soluble surfactant and a hydrocarbon solvent in the following ratio, wt. %:

oil soluble surfactant 18 ÷ 50 water-oil-soluble surfactant 2 ÷ 20 hydrocarbon solvent rest,

and the preparation of an emulsifier includes the introduction of a hydrocarbon solvent into the mixture of surface-active substances, which is used as arctic diesel fuel, or TC-1 aviation kerosene, or VG transformer oil and mixing until a homogeneous product is formed;

in this case, a water-oil-soluble surfactant is obtained by sulfonating fat with a sulfonating agent followed by neutralization of the reaction mass with an alkaline agent, where technical fish oils are used as fat - waste from the fish processing industry, and a mixture of mineral oil and nonionic surfactants is used as a sulfonating agent and oleum, while industrial oil I-L-A-10 or I-LG-A-15 is used as mineral oil, as nonionic surfactants ETS - Neonol AF AF Neonol _9-6 or _9-12 in a ratio of oil: surfactant: oleum is equal to 0.5: 0.5: 1.0, sulfonation is carried out in a reactor under continuous stirring at 50-110 ° C for 1 , 5-30 min at a mass ratio of fish oil: sulfonating agent equal to 1.0: (0.1 ÷ 0.3), after which the resulting product is neutralized to pH 6-7 with an alkaline agent, which is used as 5-10% - aqueous sodium hydroxide solution or triethanolamine, after which the aqueous phase is separated from the obtained product.

The use of a smaller than indicated amount of an oil-soluble surfactant as well as a water-oil-soluble surfactant in the emulsifier increases the dosage of the emulsifier when used, and an increase in the content of surfactants in it increases the viscosity, which is not technologically advanced.

Examples 1-3 describe the technology of obtaining a water-oil-soluble surfactant included in the composition of the emulsifier and the commodity form of the emulsifier. For the prototype taken "Emultal" (TU 6-14-1035-79), containing in its composition a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine.

Example 1

In the reactor, which is a three-necked round-bottom flask with a stirrer and a thermometer, 100 g of fish oil, a waste from the fish processing industry, is loaded. The mixture is heated in a water bath to a temperature of 50 ° C, after which 10 g of a sulfonating agent, which is a mixture of industrial oil IL-A-10, surfactant Neonol AF _9-12 and oleum in a ratio of 0.5: 0.5, is introduced into the starting product : 1.0 by weight, respectively, for 30 minutes with constant stirring, at the end of the supply of a sulfonating agent, the resulting reaction mass is neutralized with a 5% aqueous solution of sodium hydroxide to pH 6-7 and the resulting aqueous phase is separated. The resulting water-oil-soluble surfactant is placed in a beaker mixed with an oil-soluble surfactant containing a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine and a hydrocarbon solvent - arctic diesel fuel in the following ratio components, wt. %: a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine - 50%, a water-oil-soluble surfactant - 20%, a hydrocarbon solvent - the rest. The mixture is stirred for 5 minutes until a homogeneous product is formed.

Example 2

In the reactor, which is a three-necked round-bottom flask with a stirrer and a thermometer, 100 g of fish oil, a waste from the fish processing industry, is loaded. The mixture is heated in a water bath to a temperature of 110 ° C, after which 30 g of a sulfonating agent, which is a mixture of industrial oil I-LG-A-15, surfactant Neonol AF _9-6 and oleum, in a ratio of 0.5: 0, is introduced into the starting product , 5: 1.0 by weight, respectively, for 1.5 minutes with constant stirring. At the end of the supply of sulfonating agent, the resulting reaction mass is cooled to 65 ° C and neutralized with triethanolamine to pH 6-7 and the resulting aqueous phase is separated. The resulting water-oil-soluble surfactant is placed in a beaker mixed with an oil-soluble surfactant containing a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine and a hydrocarbon solvent - TS-1 aviation kerosene with the following ratio of components, wt. %: a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine - 25%, a water-oil-soluble surfactant - 15%, a hydrocarbon solvent - the rest. The mixture is stirred for 5 minutes until a homogeneous product is formed.

Example 3

In the reactor, which is a three-necked round-bottom flask with a stirrer and a thermometer, 100 g of fish oil, a waste from the fish processing industry, is loaded. The mixture is heated in a water bath to a temperature of 80 ° C and then 20 g of a sulfonating agent, which is a mixture of industrial oil I-LH-A-15, surfactant Neonol AF _9-6 and oleum, in a ratio of 0.5: 0 are introduced into the starting product , 5: 1.0 by weight, respectively, for 10 minutes with constant stirring. At the end of the supply of sulfonating agent, the resulting reaction mass is cooled to 65 ° C and neutralized with an alkaline agent - 10% aqueous solution of sodium hydroxide to a pH of 6-7 and the resulting aqueous phase is separated. The resulting water-oil-soluble surfactant is placed in a beaker in a mixture with an oil-soluble surfactant containing a mixture of esters of oleic, linoleic, linolenic, and also resin acids and triethanolamine, and a hydrocarbon solvent - VG transformer oil in the following the ratio of components, wt. %: a mixture of esters of oleic, linoleic, linolenic, as well as resin acids and triethanolamine - 18%, a water-oil-soluble surfactant - 2%, a hydrocarbon solvent - the rest. The mixture is stirred for 5 minutes until a homogeneous product is formed.

The component compositions of the obtained invert emulsion emulsifiers for drilling and killing wells, as well as increasing oil recovery by water flooding described in examples 1-3, as well as the composition of the prototype are presented in table 1.

The resulting compositions were investigated as follows:

1. The formulation of the emulsion: emulsifier - 3% wt. based on surfactant; diesel fuel - 20% wt .; water is the rest.

The thermal stability of the emulsion was evaluated visually by stratification of the obtained compositions after holding them for at least 24 hours at a temperature of 90 ° C.

2. The formulation of the emulsion solution: emulsifier - 3% of the mass. based on surfactant; water is the rest. The stability of the emulsion solution was evaluated visually by stratification of the obtained compositions after holding them for at least 8 hours at a temperature of 20 ° C.

Table 2 presents the results of the studies.

From table 2 it follows that the claimed composition, in contrast to the prototype, forms stable inverse emulsions that do not collapse at a temperature of 90 ° C and are capable of forming direct emulsion solutions due to the introduction of a water-oil-soluble surfactant obtained in the emulsifier sulfonation of fat with a sulfonating agent and a hydrocarbon solvent, which makes it more effective if applied to increase oil recovery, since it does not require adding a hydrocarbon phase to the emulsifier solution in water (emulsion solution) at the stage of its injection into the injection well; the hydrocarbon phase enters the emulsion solution after it has passed through the oil-bearing rocks of the formation.

Information sources

1. Kister E.G. Feinstein I.Z. Kasyanov N.M. and others. Emultal - an emulsifier for invert emulsion drilling fluids / Drilling, 1974, N 12, S. 15-18., Prototype.

2. Emultal. Technical conditions TU 6-14-1035-79, prototype.

Claims (3)

An invert emulsion emulsifier comprising an oil-soluble surfactant in the form of a mixture of esters of oleic, linoleic, linolenic, and resin acids and triethanolamine, characterized in that it further comprises a water-oil-soluble surfactant obtained by sulfonation of fish oil with a sulfonating agent followed by neutral neutralization masses to pH 6-7 with an alkaline agent and separation of the resulting aqueous phase, where technical fish oils are used as fish oil - waste in the processing industry, and as a sulfonating agent, a mixture of mineral oil, nonionic surfactants and oleum is used, while the industrial oil I-L-A-10 or I-LG-A-15 is used as a mineral oil, as non-ionic surfactants active substances - Neonol AF _9-6 or Neonol AF _9-12 in the ratio oil: surfactant: oleum, equal to 0.5: 0.5: 1.0 by weight, sulfonation is carried out in the reactor with constant stirring and a temperature of 50-110 ° C for 1.5-30 minutes at a weight ratio of fish oil: sulfonating agent t, equal to 1.0: (0.1 ÷ 0.3), as an alkaline agent use a 5-10% aqueous solution of sodium hydroxide or triethanolamine, and a hydrocarbon solvent, which is used as Arctic diesel fuel, or brand kerosene TS-1, or VT transformer oil, in the following ratio of components, wt. %: oil soluble surfactant 18 ÷ 50 water-soluble surfactant 2 ÷ 20 hydrocarbon solvent rest the preparation of an emulsifier includes the introduction of a hydrocarbon solvent into the surfactant mixture and mixing until a homogeneous product is formed.