RU2071498C1 - Method for dehydration and desalting of petroleum - Google Patents

Abstract

FIELD: oil recovery and oil processing. SUBSTANCE: desired composition contains block copolymer of ethylene and propylene oxide on the base of ethylene diamine having formula $$$ where 4n=27-28, 4m=59-61 together with sodium or potassium salt of carboxymethyloxyethylated isononyl phenol, mass ratio of said components being 1:3-3:1. Said salt has formula $$$ where Kt is potassium or sodium. EFFECT: improves efficiency of the method. 1 tbl

Description

 The invention relates to compositions used in the preparation of oils for refining in the field and at refineries in the process of dehydration and desalination of oil emulsions.

 Currently, a known method for the destruction of oil emulsions using a demulsifier based on sulfosalts of oxyalkylated p-cumylphenol (a.c.SSSR N 255464, class C 10 G 33/04, 1969).

 Also known is a method of dehydration and desalting of oil by introducing a demulsifier, which is used as a block copolymer of ethylene and propylene oxides based on ethylene diamine (demulsifier "Diproxamine 157-65M TU 3840129928-80).

 The disadvantage of the substances used in these methods of dehydration and desalting of oil is their weak dehydrating and desalting ability.

 The essence of the invention is to reduce the residual content of water and salts in the treated oil. This technical result is achieved due to the synergy of the action of two surfactants: a block copolymer of ethylene and propylene oxides based on ethylene diamine and the sodium or potassium salt of carboxymethyloxyethylated isononylphenol within clearly defined ratios of the ratios of these compounds, within which an increase in demulsifying properties is observed.

в которой 4n 27-28, 4m 56-61
и дополнительно содержит натриевую или калиевую соль карбоксиметилоксиэтилированного изононилфенола формулы:

где Kt калий или натрий.Salient features of the claimed technical solution: use as a composition for dehydration and desalting of oil-surfactant: block copolymer of ethylene and propylene oxides based on ethylene diamine of the formula:

in which 4n 27-28, 4m 56-61
and further comprises a sodium or potassium salt of a carboxymethyloxyethylated isononylphenol of the formula:

where Kt is potassium or sodium.

 With a mass ratio of from 60:20 (3: 1) to 20:60 (1: 3).

Example 1. The oil of the Kokuisky field of the following quality is used: density 847 kg / m ³ , water content 30%, salt content 24,000 g / m ³ . Thermochemical dehydration and desalination of oil was carried out under the following conditions:
the duration of mixing the emulsion with the reagent 2 hours;
the temperature of mixing the emulsion with the reagent (+20 ^o C);
the intensity of mixing on the Wagner shaker 120 double strokes in 1 min;
emulsion settling time 2 hours;
the temperature of sedimentation of the treated emulsion 40 ^o C;
demulsifier consumption of 80 g / t of oil (calculated hereinafter on 50 wt.% the content of the active substance);
As a demulsifier, the sulfosalt of oxyalkylated n-cumylphenol was used.

 The resulting dehydrated and desalted oil is analyzed.

 The results of the analysis of the examples are summarized in table.

 Example 2. Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a block copolymer of ethylene and propylene oxides based on ethylene diamine is used. Demulsifier consumption 80 g / t oil. Hereinafter, in examples 4,5,6,7,10,11,12, a product having coefficients 4n = 28 and 4m = 60 was used as a block copolymer of ethylene and propylene oxides based on ethylene diamine.

 Example 3. Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, the sodium salt of carboxymethyloxyethylated isononylphenol is used. Demulsifier consumption 80 g / t oil.

 Example 4. Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a composition containing 70 mass fractions of sodium salt of carboxymethyloxyethylated isononyl phenol and 10 mass fractions of ethylene diamine-based block copolymer of ethylene and propylene oxides is used. Demulsifier consumption 80 g / t oil.

 Example 5. Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a composition containing 60 mass fractions of the sodium salt of carbosimethyloxyethylated isononyl phenol and 20 mass fractions of a block copolymer of ethylene and ethylene oxides based on ethylene diamine is used. Demulsifier consumption 80 g / t oil.

 Example 6. Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a composition containing 50 mass fractions of sodium salt of carboxymethyloxyethylated isononyl phenol and 30 mass fractions of ethylene diamine-based block copolymer of ethylene and propylene oxides is used. Demulsifier consumption 80 g / t oil.

 Example 7. Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a composition containing 40 mass fractions of the sodium salt of carboxymethyloxyethylated isononyl phenol and 40 mass fractions of a block copolymer of ethylene and ethylene oxides based on ethylene diamine is used. Demulsifier consumption 80 g / t oil.

 Example 8

 Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a composition containing 40 mass fractions of the sodium salt of carboxyletyloxyethylated isononyl phenol and 40 mass fractions of a block copolymer of ethylene and propylene oxides based on ethylene diamine having coefficients 4n = 27 and 4m = 59 is used. Demulsifier consumption 80 g / t oil.

 Example 9

 Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a composition containing 40 mass fractions of a potassium salt of carboxymethyloxyethylated isononyl phenol and 40 mass fractions of a block copolymer of ethylene and propylene oxides based on ethylene diamine having coefficients 4n = 27 and 4m = 59 is used. Demulsifier consumption 80 g / t.

 Example 10. Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a composition containing 30 mass fractions of sodium salt of carboxymethyloxyethylated isononyl phenol and 50 mass fractions of ethylene diamine-based block copolymer of ethylene and propylene oxides is used. Demulsifier consumption 80 g / t oil.

 Example 11. Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a composition containing 20 mass parts of sodium salt of carboxymethyloxyethylated isononyl phenol and 60 mass parts of ethylene diamine-based block copolymer of ethylene and propylene oxides is used. Demulsifier consumption 80 g / t oil.

 Example 12. Thermochemical dehydration and desalting of oil is carried out under the conditions of example 1. As a demulsifier, a composition containing 10 mass fractions of the sodium salt of carboxymethyloxyethylated isononyl phenol and 70 mass fractions of a block copolymer of ethylene and propylene oxides based on ethylene diamine is used. Demulsifier consumption 80 g / t oil.

Claims (1)

Composition for dehydration and desalting of oil, containing a block copolymer of ethylene oxide and propylene based on ethylene diamine, characterized in that it contains a block copolymer of the formula

where 4n 27 28;
4m 59 61,
and further comprises a sodium or potassium salt of a carboxymethyloxyethylated isononylphenol of the formula

where Kt is sodium or potassium,
with a mass ratio of components 1 3 3 1, respectively.

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