RU2050402C1 - Compound for dewatering and demineralization of oil - Google Patents

Abstract

FIELD: dewatering and demineralization of oil. SUBSTANCE: compound for dewatering and demineralization of oil has the following qualitative and quantitative composition, mas. nonionic demulsifier 10.0-50.0; dimethyl or diethyl phosphite 0.6-15.0; amine 0.6-5.2 taken from group containing triethanolamine, diethylamine, tetramethyldipropylene triamine, pyridine; the balance, solvent. EFFECT: higher efficiency. 2 cl, 6 tbl

Description

 The invention relates to means for destroying oil-water emulsions and can be used for desalting and dehydration of oil during pipe demulsification at oil gathering facilities, industrial oil treatment plants, refineries and processes of deep dehydration and desalting of oil while protecting the oil collection, transport and preparation system from electrochemical and microbiological corrosion.

Known composition for dehydration and desalination of oil based on nonionic surface-active alkyl phenols [1]
However, this demulsifier is not suitable for the preparation of sulphurous oil, since the process proceeds with excessive consumption rates, at a relatively high temperature and a long settling time.

A known method of oil preparation by using the composition as a demulsifier, including a nonionic demulsifier such as block copolymers of alkylene oxides, bottoms from the production of butanol by oxosynthesis, containing C ₁ -C ₄ aliphatic alcohols and their esters, butylbenzene fraction [2]
A disadvantage of the known technical solution is the low demulsifying ability of the composition.

The closest in technical essence to the proposed is a composition for dehydration and desalination of oil, including, by weight.h. nonionic demulsifier type block copolymer of alkylene oxides of 0.7-1.5; bottoms from the production of butanol by oxosynthesis, containing C ₁ -C ₄ aliphatic alcohols and their esters 0.2-0.8; butylbenzene fraction 0.2-0.8 [3]
The disadvantage of the composition is the low demulsifying effectiveness.

 The basis of the invention is the task of creating a composition for dehydration and desalting of oil, which allows efficient separation of the water-oil emulsion, highly effective inhibition of hydrogen sulfide corrosion of oilfield equipment and having a bactericidal property, as well as properties to inhibit asphalt-resin-paraffin deposits.

 The claimed composition for dehydration and desalting of oil and protection of oilfield equipment from corrosion contains dimethyl or diethylphosphoric acid, a nonionic demulsifier, an amine selected from the group consisting of triethanolamine, diethylamine, tetramethyldipropylene triamine, pyridine and solvent in the following ratio, wt.

Dimethyl or diethylphosphorous acid 0.6-15.0
Nonionic demulsifier 10.0-50.0
An amine selected from the indicated group 0.6-5.2 Solvent Else In a preferred embodiment, the composition for dehydration and desalting of oil as a solvent contains methyl or ethyl alcohol, or isopropyl alcohol, or ethylene glycol, mixed with water in the following ratio of components, wt.

Dimethyl or diethylphosphorous acid 0.6-15.0
Nonionic demulsifier 10.0-50.0
Amine selected from the specified group of 0.6-5.2
Methyl, Ethyl or
isopril alcohol or ethylene glycol 14.3-78.7 Water Else.

 As a nonionic demulsifier, chemicals of various chemical structures can be used, for example, ethoxylated alkyl phenols, or ethoxylated monoalkyl phenols based on propylene polymers known as neonols or polyethylene glycol ethers of synthetic alcohols, or block copolymers of ethylene and propylene oxides.

In specific examples of the preparation of the compositions, reagents manufactured by the domestic industry are carried out as non-ionic demulsifier, for example: OP-10 polyethylene glycol ether of monoalkylphenol, obtained by condensation of ethylene oxide with alkyl phenols in the presence of catalysts, for example, alkali 4; AF-9-12, ethoxylated monoalkylphenols based on propylene trilors known as neonols 4; OP-10 and AF-9-12 are known as reagents for enhanced oil recovery 4; KD-6 polyethylene glycol ether fraction C ₃ -C ₁₀ synthetic alcohols 5; Prevocel CE 10/16 product of the addition of ethylene oxide and propylene to alkyl phenol 4.

 Reapon-4B contains block copolymers of ethylene and propylene oxides based on ethylene glycol and propylene glycol (TU 6-55-54-91).

 A new set of declared existing signs will allow to obtain a new technical result, namely, to increase the inhibitory effect of corrosion of oilfield equipment while maintaining high properties of the composition as a demulsifier: to give the composition the properties of a bactericide and an inhibitor of asphalt-resin-paraffin deposits.

 An analysis of the known solutions selected during the search showed that there is no object in science and technology that is similar to the claimed combination of features and has high demulsifying properties, properties to inhibit corrosion of oilfield equipment, bactericidal properties and properties to inhibit paraffin deposits, which allows us to conclude that the invention meets the criteria of "novelty "and" inventive step ".

 To prove compliance of the claimed object with the criterion of "industrial applicability" specific compositions 1-35 and their properties are given.

 Compositions for dehydration and desalting of oil and protection of oilfield equipment from corrosion are prepared by mixing the components. The compositions are presented in table. 1. The resulting compositions are tested for demulsifying, anticorrosive activity and inhibition properties.

Tests of the demulsifying activity of the compounds is carried out on an artificial emulsion of 30% water cut, which is prepared on anhydrous oil of the Malo-Montenegrin field. The density of anhydrous oil of 0.825 g / cm ³ . The mineralization of the produced water model is 330 g / l, density 1.01 g / cm ³ . The residual oil content is determined in accordance with GOST 14870-77 by the Dean Stark method. The test results of the demulsifying activity of the composition are shown in table.2.

Testing of samples as a hydrogen sulfide corrosion inhibitor is carried out according to oST-39-099-79 ("Corrosion inhibitors. Method for assessing the effectiveness of the protective action of corrosion inhibitors in oilfield wastewater", MNP) in a standard solution with a density of 1.12 g / cm ³ . The concentration of hydrogen sulfide in the test medium is 100 mg / L. Steel 3 is used as metal samples (Art. 3). The exposure time of metal samples in assessing the effectiveness of the composition for OST is 6 hours. The test results are presented in Table 5 and are the arithmetic mean of four measurements with an estimate of the standard deviation, as provided for in the OST.

 Testing the composition on the effect of inhibiting asphalt-resin-paraffin deposits is carried out according to the laboratory method for determining the dispersion of particles, which consists in the following.

 In a 200 ml conical flask, 100 L of produced water is poured and 1 ml of the test reagent is dosed. The walls of the flask are treated with the obtained 1% solution of the reagent in produced water. 2-3 g of paraffin deposits of the same field are added and heated in a water bath until they are completely melted. Then the flask is sharply cooled under a stream of cold water, shaking it in a circular motion. According to the state of paraffin deposits, the dispersing ability of the reagent is evaluated. After laboratory tests, the state of paraffin deposits and the reagent solution in produced water are recorded in detail and the dispersing ability is evaluated. The dispersion of deposits into homogeneous particles with a size of 0.5-1 mm is considered excellent. At the same time, dispersed particles settle for no more than 2-3 minutes, the reagent solution in produced water should remain transparent, and the flask walls are clean. Good dispersion of deposits into heterogeneous particles ranging in size from 0.1 to 3 mm is considered, while slight contamination (glossing) of the walls of the bulb (less than 10%) from the working surface is allowed.

 The condition in which particles are formed up to -2-3 mm in size or dispersed to a size of 0.1 mm in diameter with little contamination of the surface of the flask walls is considered satisfactory. A condition is considered unsatisfactory in which deposits are not dispersed into particles larger than 5 mm and complete contamination of the working surface of the flask walls is observed. Dispersion to unacceptably small sizes (with a diameter of less than 0.1 mm) and slow settling is also considered unsatisfactory, which can lead to complication of well operation.

 Of the presented in table. Figures 1-6 show that the claimed composition for dehydration and desalting of oil is a highly effective demulsifier, has the effect of inhibiting corrosion of the metal surface of oilfield equipment, and also the effect of inhibiting asphalt-resin-paraffin deposits, i.e. is a compound of complex action.

Claims (1)

 1. Composition for dehydration and desalting of oil containing a nonionic demulsifier and a solvent, characterized in that it further comprises dimethyl or diethylphosphoric acid and an amine selected from the group consisting of triethanolamine, diethylamine, tetramethyldipropylenetriamine, pyridine, in the following ratio. Diethyl or diethylphosphoric acid 0.6-15.0
Nonionic demulsifier 10.0-50.0
Amine selected from the specified group of 0.6-5.2
Thinner Up to 100
2. The composition according to claim 1, characterized in that as a solvent it contains methyl, ethyl or isopropyl alcohols or ethylene glycol, taken in a mixture with water, in the following ratio, wt. Dimethyl or diethylphosphorous acid 0.6-15.0
Nonionic demulsifier 10.0-50.0
Amine selected from the specified group of 0.6-5.2
Methyl, ethyl or isopropyl alcohols or ethylene glycol 14.3-78.7
Water Up to 100

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