SU1705332A1 - Method for oil emulsion decomposition - Google Patents

Abstract

The invention relates to the oil refining industry, in particular, to methods of breaking oil emulsion. The goal is to increase the degree of destruction. For this, the emulsion is treated with a demulsifier — K-salts of a phenol-formaldehyde resin modified with benzylamine of a common f-layer nsn2-wcn2 where n is 6-8. These conditions provide a clear separation of the oil emulsion with 100% de-pulsation while reducing the residual salt content from 3.5 to 0.18-0.38 mg / l. 1 tab. & Yo

Description

The invention relates to the oil refining industry, in particular, to methods for the destruction of petroleum emulsions by chemical reagents.

There is a known method of destruction of oil emulsions, in which neutralized black contact (LFC) is used as a deemulative agent - a technical mixture of products of sulfonation of resinous substances.

However, this method is characterized by an insufficient degree of purification of oil from water. The degree of demulsification in this method is 24%.

A demulsifier for the desalting of petroleum products at 38-150 ° C in an electric coagulator for 20 minutes is known, which is oxyalkylated alkyl phenol formaldehyde polymer, oxyalkylated amine, polyglycol ester, bisphenol glycol ether and ester alkylaryl sulfonic acid salt or mixture

these compounds. This demulsifier is mixed with petroleum. After the destruction of the emulsions, the water separates from the oil at 110-145 ° C for 15-35 minutes, as a result of which the dehydrated oil contains 0.5% water and 800 mg / l of salts with the initial salt content of oil of 1400 mg / l.

The disadvantage of this method is the use of a number of expensive scarce products, the complexity and laboriousness of the preparation of the demulsifier, the use of high process temperature (150 ° C). wherein the light fractions volatilize, as well as the low degree of demulsification (80%).

Closest to the present invention is a method for breaking oil emulsions using a phenol-formaldehyde resin demulsifier. The specified demulsifier is obtained by condensation of aliphatic aldehydes with phenols in a molar ratio (1-3): 1 at 50-80 ° C in the presence of an alkaline catalyst, such as caustic soda, and 0.5-% are added to increase the demulsifying activity and oil emulsion. 4.0 mol of the reaction product, condensation is carried out with 1 mol of the previously prepared and neutralized block copolymer, containing 30-50 wt.% Of ethylene oxide with propylene glycol mol. weight 1500-2500 in the presence of inert solvents at 80-150 ° C, followed by removal of the reaction water.

The disadvantage of the method using this demulsifier is the low degree of destruction of oil emulsions (90%).

The purpose of the invention is to increase the degree of destruction of oil emulsions by treating the oil emulsion with a demulsifying agent based on a modified phenol-formaldehyde resin.

According to the proposed method, the potassium salt of a benzyl-amine-modified phenol-formaldehyde resin is used according to the following general formula

OK

CH2-NH-CH2

where n 6-8.

The proposed method is carried out as follows.

Initial oil with a water content of 15-70% is placed in a sump and contacted at 65-70 ° C with a reagent — a 5% aqueous solution of potassium salt of a benzylamine-modified phenol-formaldehyde resin of formula (1) with a p value from b to 8 and they say weight 1040-1385. It was found that the number of links n 6 in the case of the duration of the experiment up to 2 hours, p 7 at 2.5 hours and p 8 at 3 hours.

PRI me R 1. A 15% water original oil emulsion is placed in a sump and treated with a 5% solution of potassium salt of benzyl amine-modified phenol-formaldehyde resin in an amount of 0.025% of the amount of crude oil having the following formula:

mon, CH2-NH-CH2,

f2i

with mol. weight 1040 (sample 1). Mixing time 10 min. After that, a sump with an oil emulsion and a reagent is placed

in a thermostat with a temperature of 70 ° C for 4 hours. Then the aqueous portion is separated. The degree of deemulsion 99.8%.

PRI mme R 2. The demulsification is carried out

Analogously to Example 1 with the difference that a 55% water emulsion oil emulsion is used, a 5% solution of the potassium salt of phenol-formaldehyde resin modified with benzylamine in the amount of 0.035% of the crude oil of the formula

15

CH2-W-CH2

with mol. weight 1212 (sample 2). The degree of demulsification 98,83%.

Example The demulsification is carried out analogously to example 1 with the difference that a petroleum emulsion with a water content of 70% is used, a 5% solution of the potassium salt of a modified benoylamine phenol formaldehyde resin is used as a demulsifier in the amount of 0.05% of the crude oil of the formula

H

CH, CH2-Sh-CH2

thirty

with mol. weight 1385 (sample 3). The degree of demulsification 98,75%. PRI me R 4. The demulsification is carried out analogously to example 1 with the difference that

35, an oil emulsion with a water content of 25% is used; a 5% solution of the potassium salt of phenylemidehyde resin modified with beneylamine in the amount of 0.01% of the crude is used as a demulsifier.

40 oil with mol. weighing 1100 formulas

CH2-W-CH2 ,.

45

The emulsion is not undressed.

PRI me R 5. The demulsification is carried out analogously to example 1 with the difference that an emulsion with a water content of 70% is used, a 5% solution of the potassium salt of benzylamine-modified phenol-formaldehyde resin is used as a demulsifier in the amount of 0.5% of crude oil with a pier weighing 1239 formulas

55

CH2-W-CH2 |

Under these conditions, a secondary emulsion is formed, which requires additional reagent to be broken down.

To substantiate the advantages of the proposed demulsifier with the prototype, comparative tests were carried out, the results of which are summarized in the table.

Claims (1)

Invention Formula A method of breaking an oil emulsion by treating it with a demulsifier based on a modified phenol-formaldehyde resin, characterized in that. that, in order to increase the degree of destruction, the potassium salt of a phenol-formaldehyde resin modified with benzylamine of the following general formula is used as a demulsifier ten H CH2-NH-CH2 where n - 6-8.