RU2485160C1 - Composition for destruction of oil-water emulsions and for removal and prevention of asphalt-resin-paraffin deposits - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention refers to oil production industry, and namely to compositions for destruction of oil-water emulsions and for removal and prevention of asphalt-resin-paraffin deposits (ARPD), and can be used at oil fields for protection of the equipment. Composition for destruction of oil-water emulsions and for removal and prevention of asphalt-resin-paraffin deposits includes aluminium chloride, solvent - mixture of toluene, benzene and acetone at their ratio in the mixture, which is equal to 4.2:1.0:1.3-2.6 respectively, or mixture of toluene and acetone at their ratio in the mixture, which is equal to 1.27-1.65:1 respectively, or o-xylene, surface active substance - synthanol, or oksinol, or neonol, or sinterol. The specified composition contains a corrosion inhibitor, and namely aminoamide, or polyethylenepolyamine benzyne ammonium chloride, or imidasoline.

EFFECT: higher efficiency and protection degree of oil-field equipment, as well as enlarged range of compositions for protection against ARPD.

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Description

The invention relates to the field of oil production, in particular to compositions for breaking oil-water emulsions and for removing and preventing asphaltene-tar-paraffin deposits (AFS), and can be used in oil fields to protect equipment.

A known composition for the prevention of paraffin, containing a surfactant - potassium or potassium-sodium salt of carboxymethylate of ethoxylated alkyl phenol 25-30, polar electrolyte and acid amide 3-8, the waste product of the production of butyl alcohols - methanol-aldehyde fraction 1-30, water 32- 43, with a polar electrolyte content of 1-4 wt.% And an acid amide of 1-6 wt.%. (RF patent 2388785, publ. 05/10/2010)

A disadvantage of the known composition is the scarcity of some of the components, their high cost and lack of protection of the equipment from corrosion.

A well-known composition for killing and flushing wells that allows you to clean the bottomhole formation zone and underground equipment from ASPO containing fresh or mineralized water, a polysaccharide thickener, a boron crosslinker, a water-soluble surfactant - surfactant and diethanolamine, and contains boron crosslinker cross-linking agent SP-RD, as a water-soluble surfactant - a complex surfactant - Neftenol VVD or Neftenol K, or Neftenol ML and additionally Nefras AK solvent in the following ratio of components , wt.%: polysaccharide thickener 0.2-1.0, a crosslinking agent SP-RD 0.2-1.0, the specified water-soluble surfactant 0.1-1.0, diethanolamine 0-5.0, solvent Nefras AK 0 , 1-1.0, fresh or mineralized water the rest. A method for preparing the composition comprises dissolving a water-soluble surfactant in fresh or mineralized water or sequentially dissolving diethanolamine and a water-soluble surfactant in water. Then, Nefras AK is introduced into the resulting aqueous solution and mixed until a micellar dispersion is obtained, followed by dissolution and hydration of the polysaccharide thickener in it. Next, the crosslinking agent SP-RD is added and mixed until complete crosslinking. [RF patent 2365611, publ. August 27, 2009]

A disadvantage of the known composition is the scarcity of some of the components of the mixture, their high cost.

A known composition for dehydration and desalting of oil with simultaneous protection of equipment from paraffin, containing a block copolymer of ethylene oxide and propylene based on glycerol, as well as an oxyalkylated resin L-5001 and a solvent. As a solvent, the composition may contain, for example, a mixture of aromatic hydrocarbons - _Nefras Ap _120/200 or a butylbenzene fraction, or aliphatic alcohols: methanol or isopropanol or ethanol, or mixtures thereof with water or aromatic hydrocarbons, or mixtures of aromatic hydrocarbons with alcohols and With ₂ -C ₄ monoalkyl ethers of ethylene and diethylene glycols. The following C2-C4 monoalkyl ethers of ethylene and diethylene glycols are used: diethylene glycol monoethyl ether - ethylcarbitol or diethylene glycol monobutyl ether - butylcarbitol.

The composition is not effective enough for the destruction of emulsions of coal-bearing oil with a high content of high-melting paraffins.

A known composition for the destruction of oil-water emulsions and the protection of oilfield equipment from asphalt-resin-paraffin deposits, including a block copolymer of ethylene and propylene oxides, an oxyalkylated polyester resin and a solvent. Moreover, as a block copolymer it contains a block copolymer of ethylene oxide and propylene based on sorbitol, and as an oxyalkylated polyester resin, diepoxide H-101. As a solvent, aromatic solvents or mixtures thereof can be used - heavy oil solvent Nefras A120 / 200, solvent oil Nefras A130 / 150, toluene, ethylbenzene fraction, butylbenzene fraction, methyl alcohol, a mixture of methyl alcohol with aromatic solvents [Patent RU 2234526].

A disadvantage of the known composition is the need to ensure a certain temperature when using it, the high cost of the feedstock.

The closest set of essential features is the composition for removing asphaltenes, resins and paraffins from field equipment, including sodium nitrite 15-40 wt.%, Ammonium chloride 10-35.0 wt.%, Aluminum chloride 1.0-10.0 wt. %, Surfactant - 0.01-0.5 wt.%, Water - the rest (RF Patent 2146725, publ. March 20, 2000). The known composition is used to remove already formed deposits on the walls of pipelines and tanks.

The known composition contains aluminum chloride, which under the influence of water is hydrolyzed already at the preparation stage with the release of heat. Chemical instability of the reagents of the composition prevents its use directly in the well and in the bottomhole zone.

Oil production is accompanied by an inevitable change in thermodynamic conditions and a change in the properties of the oil emulsion from reservoir to surface conditions. At the same time, pressure and temperature decrease. The phase equilibrium of individual hydrocarbons in the mixture is violated and they are released in the form of hydrocarbon gases of one or another composition, on the one hand, and solid or ointment-like heavy fractions in the form of paraffin, resins and asphaltenes, on the other hand. Cooling the oil as it rises, releasing gaseous fractions from it while lowering the pressure, reduces its dissolving ability in relation to such heavy fractions as paraffins and resins, which are released in the form of paraffin crystals, forming a new solid phase.

Typically, the onset of deposits of heavy hydrocarbon fractions on the pipe walls is noted at depths of 300-700 m. These deposits, as a rule, are a viscous mass consisting of a mixture of resins, ceresins, asphaltenes and paraffins. As a rule, their thickness reaches a maximum at depths of 50 to 200 m. The surface roughness, low flow rates and periodic surface exposure due to pulsation contribute to the deposition of paraffin.

The aim of the invention is to develop a highly effective composition for the destruction of oil-water emulsions and to prevent and remove paraffin deposits for the protection of oilfield equipment in wells, in the bottomhole formation zone, and oil storage tanks.

The technical result when using the invention is expressed in increasing the productivity and degree of protection of oilfield equipment, as well as in expanding the range of compositions.

The specified technical result is achieved by the composition for the destruction of water-oil emulsions and to remove and prevent paraffin wax, including aluminum chloride (AlCl ₃ ), a solvent, a surface-active substance (surfactant), namely, its feature is that as a solvent use a mixture of toluene, benzene and acetone with their ratio in the mixture equal to 4.2: 1.0: 1.3-2.6, respectively, or a mixture of toluene and acetone with their ratio in the mixture equal to 1.27-1.65 : 1.0, respectively, or o-xylene, and synth is used as a surfactant nol, or oxinol, or neonol, or synterol, and the composition contains as an inhibitor of corrosion aminoamide, or imidazoline, or polyethylene polyaminobenzylammonium chloride, in the following ratio, wt.%:

aluminum chloride 15.0-50.0 solvent 45.0-79.9 Surfactant 0.01-1.00 corrosion inhibitor 0.5-5.0

During oil production, transportation, storage on the walls of oilfield equipment, an oil conglomerate inevitably accumulates, which worsens the efficiency of the equipment. ASPO, 40-60% consisting of asphaltenes, resins and paraffins, practically do not dissolve in oil solvents (gasoline, kerosene, diesel fuel). The destruction of deposits (dissolution, dispersion, demulsification) intensifies at temperatures close to the melting point of paraffins (50-60 ° C).

The inventive composition for the destruction of oil-water emulsions and for the removal and prevention of paraffin wax contains aluminum chloride, which, when in contact with the aqueous phase of the oil emulsion, hydrolyzes with the release of a large amount of heat. Due to the thermal effect of the reaction, the temperature of the medium rises to a temperature of 60-80 ° C and higher depending on the amount of aluminum chloride in the composition. At such a high temperature, paraffin melting occurs and leads to the destruction of their crystals in the emulsion or already formed deposits on the walls of the oilfield equipment.

Organic solvents (toluene, benzene, acetone and o-xylene) have a dual function in the composition.

Firstly, they are inert carriers of aluminum chloride until the start of the intended use of the composition. Secondly, after exposure of the proposed composition to paraffin deposits, molten paraffin deposits dissolve in the indicated organic solvents, which prevents their recrystallization and their deposition on the equipment walls even at lower ambient temperatures.

A method for preparing the composition includes the sequential dissolution of dry AlCl ₃ in solvents followed by the introduction of a surfactant and a corrosion inhibitor.

The invention is illustrated by the following examples.

Example 1. In a reactor equipped with a stirrer, reflux condenser, thermometer and heat transfer jacket at room temperature, 30 g (0.22 mol) of dry AlCl ₃ and 48.6 g (0.53 mol) of toluene are charged. Stirring is turned on and the reaction mixture is heated to 100 ° C for 1.5-2 hours. Then the temperature is reduced to 75 ° C and 9.9 g (0.12 mol) of benzene are added while stirring is held for 0.5 hours. Next, the temperature is reduced to 50 ° C and 10 g (0.17 mol) of acetone are introduced and stirred for 0.5 h. After that, neonol is added in an amount of 0.5 g and 1 g of aminoamide and stirred for 0.5 h. After cooling, unload . Get the composition with a mass fraction of AlCl ₃ equal to 30%.

Example 2. Under the conditions of Example 1, 45 g (0.34 mol) of AlCl ₃ and 39.49 g (0.43 mol) of toluene were charged. Stirring is turned on and the reaction mixture is heated to 100 ° C for 1.5-2 hours. Then the temperature is reduced to 50 ° C and 15 g (0.26 mol) of acetone are added and stirred for 0.5 hours. Then syntanol is introduced. in an amount of 1 g and 1 g of imidazoline and stirred for 0.5 hours. After cooling, unload. Get the composition with a mass fraction of AlCl ₃ equal to 45%.

Example 3. Under the conditions of Example 1, 20 g (0.15 mol) of AlCl ₃ and 76.95 g (0.72 mol) of o-xylene are charged. Stirring is turned on and the reaction mixture is heated to 130 ° C for 2-3 hours. Then, the temperature is reduced to 50 ° C. Oxinol is added in an amount of 0.05 g and 3 g of polyethylene polyaminobenzylammonium chloride and stirred for 0.5 h. After cooling, it is discharged. Get the composition with a mass fraction of AlCl ₃ equal to 20%.

Example 4. Under the conditions of Example 1, 50 g (0.37 mol) of AlCl ₃ and 30 g (0.33 mol) of toluene are charged. Stirring is turned on and the reaction mixture is heated to 100 ° C for 1.5-2 hours. Then the temperature is reduced to 50 ° C and 15 g (0.26 mol) of acetone are introduced and stirred for 0.5 hours. After that, synterol is introduced in an amount of 1 g and 4 g of aminoamide and stirred for 0.5 hours. After cooling, unload. Get the composition with a mass fraction of AlCl ₃ equal to 50%.

Example 5. Under the conditions of example 1 load 15 g (0.11 mol) of dry AlCl ₃ and 50 g (0.54 mol) of toluene. Stirring is turned on and the reaction mixture is heated to 100 ° C for 1.5-2 hours. Then the temperature is reduced to 75 ° C and 9.9 g (0.13 mol) of benzene are added while stirring is kept for 0.5 hours. Next, the temperature is reduced to 50 ° C and 20 g (0.34 mol) of acetone are introduced and stirred for 0.5 h. After that, neonol is added in an amount of 0.1 g and 5 g of polyethylene polyaminobenzylammonium chloride and stirred for 0.5 h. After cooling, unload . Get the composition with a mass fraction of AlCl ₃ equal to 15%.

Example 6. Under the conditions of example 1 load 30 g (0.22 mol) of dry AlCl ₃ and 48.6 g (0.53 mol) of toluene. Stirring is turned on and the reaction mixture is heated to 100 ° C for 1.5-2 hours. Then the temperature is reduced to 75 ° C and 9.9 g (0.12 mol) of benzene are added while stirring is held for 0.5 hours. Next, the temperature is reduced up to 50 ° C and 10 g (0.17 mol) of acetone are introduced and stirred for 0.5 h. After that, neonol in the amount of 0.5 g and 1 g of imidazoline is introduced and stirred for 0.5 h. After cooling, unload . Get the composition with a mass fraction of AlCl ₃ equal to 30%, and a protective effect of 98%.

To determine the effectiveness of the claimed composition for the impact on the paraffin, tests were carried out according to the methodology described below.

A pre-weighed steel plate made of steel of grade St3 is coated with an even layer of 3-4 mm thick as an AFS. The AFS plate is weighed and placed in a cylindrical vessel. Pour a solution of one of the compositions obtained according to examples 1-6, before coating the plate in the cylinder. Measure the temperature of the medium in the cylinder with the plate and the duration of the reaction of the action of the composition on the plate with paraffin. After the reaction, the plate is processed according to the requirements of GOST 9.905-82. The plate is weighed and the effectiveness of the removal of paraffin, the corrosion rate of the plate and the degree of protection are calculated. The test results are shown in table 1.

The impact of the claimed composition on the oil-water emulsion is determined by the following method.

The oil-water emulsion is placed in a cylindrical vessel. A cylinder pre-treated according to GOST 2789-73 and a weighted plate of steel grade St3 are placed in a cylinder with a water-oil emulsion. One of the solutions of the composition prepared according to examples 1-6 is poured into the vessel. The reaction temperature and the duration of the reaction are measured. At the end of the reaction, delamination is observed - the oil floats in an even layer to the surface, from where it is extracted by known methods and sent for regeneration. After completion of the reaction, the plate is processed according to the requirements of GOST 9.905-82, weighed, and the corrosion rate and degree of protection are calculated. The test results are shown in table No. 1.

Table 1 No. p / p The name of the composition component Examples of the composition,% of the mass. one 2 3 four 5 6 one AlCl ₃ 30,0 45.0 20,0 50,0 15.0 30,0 2 Benzene 9.9 0 0 0 9.9 9.9 3 Toluene 48.6 39.49 0 30,0 50,0 48.6 four Acetone 10.0 15.0 0 15.0 20,0 10.0 5 O-xylene 0 0 76.95 0 0 0 6 Syntanol 0 0.01 0 0 0 0 7 Oxinol 0 0 0.05 0 0 0 8 Neonol 0.5 0 0 0 0.1 0 9 Sinterol 0 0 0 1,0 0 0.5 10 Aminoamide 1,0 0 0 4.0 0 0 eleven Imidazoline 0 0.5 0 0 0 1,0 12 Polyethylepolyamibenzylammonium chloride 0 0 3.0 0 5,0 0 TOTAL% wt. one hundred one hundred one hundred one hundred one hundred one hundred AFS plate test results No. p / p Indicators The reaction temperature, ° C 82.0 85.0 80.0 90.0 78.0 82.0 The duration of the reaction, min 1-2 one 1-2 one 1-2 1-2 The cleaning efficiency,% 99.0 99.0 99.0 99.0 99.0 99.0 Degree of protection, % 98.0 98.0 99.0 95.0 99.0 98.0 Test results of the plate in an oil-water emulsion No. p / p Indicators The reaction temperature, ° C 66 74 54 80 48 65 The duration of the reaction, min 1-2 one 1-2 one 1-2 1-2 The cleaning efficiency,% 99.0 99.0 99.0 99.0 99.0 99.0 Degree of protection, % 98.0 97.0 98.0 97.0 98.0 98.0

The advantage of the claimed composition is expressed in increasing the productivity and degree of protection of oilfield equipment, since under the influence of the composition the crystals of paraffin are dissolved and their growth is prevented in a water-oil emulsion, the adhesion of crystals of paraffin to the metal surface of the walls of downhole and other oilfield equipment is reduced, including storage equipment and transportation of oil products, in addition, an oil-water emulsion is effectively separated and equipment is protected I'm from corrosion.

Claims (1)

Composition for breaking water-oil emulsions and for removing and preventing asphaltene-tar-paraffin deposits, containing aluminum chloride, solvent, surfactant, characterized in that the composition contains a mixture of toluene, benzene and acetone as a solvent in a ratio of 4.2: 1, 0: 1.3-2.6, respectively, or a mixture of toluene and acetone when their ratio in the mixture is 1.27-1.65: 1, respectively, or o-xylene, and as a surfactant contains syntanol, or oxinol, or neonol, or sinterol, and with it composition comprises a corrosion inhibitor, which is used as aminoamide or polietilenpoliaminobenzilammoniyhlorid or imidazoline with the following ratio of components in the composition, wt.%:
Aluminum chloride 15.0-50.0 Solvent 45.0-79.9 Surface-active substance 0.01-1.00 Corrosion inhibitor 0.5-5.0