RU2004573C1 - Method of emulsion dehydration - Google Patents

Abstract

SUMMARY OF THE INVENTION An oil emulsion is treated with aqueous 0.1 to 02% by weight solutions of a demulsifier. polyacrylamide and then 0.1 - 0.2 wt% aqueous solution of poly-1,2-dimethyl-5-vinylpyridinium methyl sulfate 1 table

Description

The invention relates to methods for dehydration of oil emulsions and can be used in oil field treatment plants and oil refineries.

A method is known for dehydrating oil emulsions by introducing a surfactant, sodium silicate and a water-soluble polyelectrolyte based on a copolymer of acrylic acid ester and divinyl sulfides therein.

A disadvantage of the known method is the low degree of dehydration and the impossibility of its use for the dehydration of waste and old oil emulsions.

A known method is the dehydration of oil emulsions by treating them with a composition containing a nonionic surfactant, condensed sulphite-alcohol distillery stillage, sodium sulfate and water.

A disadvantage of the known method is its long duration (4 hours) and the inability to use it for dehydration of spent and old oil emulsions.

The closest in purpose and technical nature to the proposed is a method of dehydration of oil emulsions by introducing into it aqueous solutions of a demulsifier and polyacrylamide. A disadvantage of the known method is the low degree of dehydration of highly watered (more than 10% water) and chronic oil emulsions.

The aim of the invention is to increase the degree of dehydration of oil, in particular used and old emulsions. This goal is achieved in that an aqueous solution of poly-1,2-dimethyl-5-vinylpyridinium methyl sulfate (poly-MVP-DMS) is introduced into the oil emulsion pretreated with a demulsifier and polyacrylamide (PAA) and the reagents are used in the form of 0, 1-0.2% aqueous solutions.

Data indicating the advantages of the proposed method compared to the known are presented in the table.

The additional introduction of poly-MVP-DMS into the oil emulsion leads to the formation of complex polycomplexes with PAA and a demulsifier capable of absorbing water from oil and thereby increase the degree of dehydration of the oil emulsion.

The use of 0.1-0.2% solutions of reagents provides a greater probability of contact of the droplets of the emulsion with the reagents and a higher rate of adsorption

from aqueous solutions and thereby increases the degree of dehydration of oil emulsions.

Increased concentration of solutions

reagents above 0.2% leads to a decrease in the rate of adsorption of reagents from aqueous solutions at the oil-water interface and a decrease in the degree of dehydration of oil emulsions. The water content in the oil emulsion increases from 3% to 16%, i.e. 5 times, with an increase in the concentration of aqueous solutions of reagents 2 times. The use of reagent solutions with a concentration of less than 01% leads to a decrease in the rate of adsorption of reagents and, consequently, to a degree of dehydration of oil emulsions, which is 84%, as well as to an increase in the volume of technological equipment.

0 A method for dehydrating oil emulsions is carried out as follows.

The oil emulsion is heated in a water bath to a temperature of 60 ° C and, with continuous stirring, a solution of a demulsifier and PAA are introduced, followed by a solution of polyMVP-DMS. Then, the emulsion is additionally mixed for 10 min with an intensity of 270 and defended at a temperature of 60 ° С for 10 min.

Example. K1l of spent oil emulsion heated to 60 ° C from the wastewater treatment unit of an oil refinery (refinery) containing 50% water,

5, with continuous stirring, 20 ml of a 0.1% solution of disolvan 4411 and 200 ml of a 0.1% solution of PAA are added, and then 200 ml of a 0.1% solution of poly-MVP-DMS are further mixed

0 for 10 minutes with an intensity of 270 and defend for 10 minutes The water content in the oil emulsion decreased from 50 to 0.25% or from 500 to 2.5 g / kg. The degree of dehydration is 99.5%.

5 Example 2. The process is carried out analogously to example 1. In the spent oil emulsion from the wastewater treatment unit of an oil refinery with a water content of 50%, 20 ml of a 0.1% solution of procholite, 200 ml of a 0.1% solution of PAA are added, and then 200 ml 0.1% solution of polypol-MVP-VHI, mix and assert. The water content in the oil emulsion is reduced from 50 to 0.3% or from 500 to 3 g / kg, i.e. power

5 dehydration is 99.4%.

Sample The process is carried out analogously to example 1. To 1 liter of spent oil emulsion from a refinery wastewater treatment unit with a water content of 50%, 10 ml of a 0.2% solution of disolvan 4411, 100 ml are added

0.2% PAA solution and 100 ml of 0.2% poly-MVP-VHI solution. After stirring and settling, the water content in the oil emulsion decreases from 50 to 2% or from 500 to 20 g / kg, i.e. the degree of dehydration is 96%.

Example 4. The process is carried out analogously to example 1. In 1 liter of spent oil emulsion from the wastewater treatment unit of an electric desalination plant (ELOU) of a refinery with a water content of 48%, 25 ml of a 0.2% aqueous solution of disolvan is introduced 4411, 250 ml of a 0.2% solution of PAA and 250 ml of a 0.2% solution of poly-MVP-VHI. After stirring and settling, the water content in the emulsion is reduced from 48 to 9%. The degree of dehydration is 81.2%.

PRI me R 5. The process is carried out analogously to example 1, In 1 l of spent mixed oil emulsion from the wastewater treatment unit of the refinery and oil desalination unit at ELOU with a water content of 74%, 250 ml of 0.2% aqueous 4411 disolvan solution, 250 ml of a 0.2% aqueous solution of PAA and 250 ml of a 0.2% solution of poly-MVP-VHI. After stirring and settling, the water content in the emulsion decreases from 74 to 3% or from 740 to 30 g / kg. The degree of dehydration is 96%.

The proposed method, in comparison with the known method, provides an increase in the degree of dehydration of spent oil emulsions from 6-30 to 78-99.5% and makes it possible to reduce the water content in the oil emulsion after dehydration from 48-74 to 0.25-9%. (56) Copyright certificate of the USSR No. 945412, cl. C 10 G 23/04, 1982.

USSR copyright certificate No. 988856.cl. C 10 G 33/04, 1974.

Evidence of the effect of the molecular weight of poly-MVP-DMS on the degree of dehydration of oil emulsions.

Table continuation

Claims (1)

The claims are characterized in that in the processed the oil emulsion is further introduced OIL DEHYDRATION METHOD — a solution of poly-1,2-dimethyl-5-vinylpyridine-EMULSION by treating it with de-N-methyl sulfate and reagents are used with a mulgator and polyacrylamide in the form of 0.1 - 0.2% aqueous solutions. Table continuation