SU977715A1 - Method for preventing deposition of paraffin in oil production equipment - Google Patents

Description

 METHOD OF PREVENTION OF THE DEPOSITION OF PARAFFIN IN OIL INDUSTRIAL EQUIPMENT

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FIELD OF THE INVENTION The invention relates to mining, in particular, to methods of preventing paraffin deposition in oilfield equipment.

There is a known method of preventing from-; paraffin deposit, in which a hydrophilic film of polyacrylamides (; 13.

The disadvantages of this method are significant additional costs for covering and storing pipes and the need to organize their special production.

Closest to the proposed method is the prevention of paraffin deposition in oilfield equipment by introducing into the oil stream a chemical reagent, 20 which is a mixture of hydroxyethyl alkylimidazolines based on the bottoms of synthetic fatty acids of the Cao fraction and above P22.

The disadvantages of this method are the following: the need for preliminary thorough cleaning of the square from sediment and rust, low efficiency and a negative effect on a number of oils.

The purpose of the invention is to increase the efficiency of the method of preventing the deposition of paraffin by eliminating the preliminary cleaning of the wellbore from contamination and rust and expanding the range of reagents used.

The goal is achieved by the fact that according to the method of preventing paraffin deposition in oilfield equipment by introducing a chemical reagent into the oil stream, as a last, vat residues are introduced into the oil stream during the production of alcohols by reducing fatty acid esters in an amount of 0, GOiJ-0.02 masd from the processed oil. In addition, in order to be able to implement the method in winter conditions, the chemical reagent is introduced as a solution into aromatic compounds with a low pour point. The bottoms have a complex composition, including ethers and esters, alcohols, aldehydes, which have the number of carbon atoms in the Le molecule, varying from its content in the original fatty acid esters to twice their number. Alcohols Acids Soaps Hydrocarbons Polyfunctional compounds O,. 15 The method is carried out as follows. On wells (or near oil pipelines) they form sites with tanks in which reagent is poured. The reagent is fed in. borehole, where the reagent enters the lift pipe. The reagent is supplied by a dosing pump, which is matched in performance with the flow rate of the oil. For winter conditions, the reagent should be diluted mossily with low-solubility solvents, such as xylene or luol. The results of laboratory testing of reagents are given in Table 1. Determination of the effectiveness of the reagent was carried out using the cold stern method under laboratory conditions on the Salym and North Variogan oil fields. The calculation of the effectiveness of the reagent is carried out by comparing the weight of the Deposited on a cooled metal rod formed from native and treated with the reagent oil with constant stirring using a magnetic stirrer. Example 1. In Salym oil field, the effectiveness of the vat residue from the production of alcohols fraction CJ-, With the hydrogenation of esters of acids. The reagent is pre-pact embedded in an aromatic solvent (toluene or xylene). The introduction of the above bottoms of the alcohols into the oil allows to reduce the amount of resin-paraffin deposits by 30. Concentration Efficiency, reagent,% 0.0057.0 0.0112.0 0.0230.0 A further increase in the concentration of the reagent does not improve the effectiveness of inhibition. P and p 2. According to the method described above, the effectiveness of the reagent-cube residue of alcohol production by the catalytic hydrogenation of fatty acid methyl esters of the Cfg fraction in the oil of the North Variogan field is investigated. The concentration of the reagent in the oil varies from 0.01 to 0.20%. The introduction of cubic residues of the above alcohols into oil reduces the amount of paraffin deposits in comparison with the control EXPERIENCE: the effectiveness of the reagent depending on the concentration: Concentration, Efficiency.,%% 0.013.8 0.10 21.0 0.25 10.0 Example 3. The effectiveness of inhibition of the reagent on Salym oil — commodity alcohols of composition 2 is investigated. A wide range of concentrations: from 0.005 to,. 0.21. Yars of all concentrations of alcohols do not exhibit a protective effect. An example. On the oil of the North-Variai field, the efficacy of pea-i inhibition of the ICT-tH gate is examined (see Table 2). The concentration of the reagent in the oil varies from 0.005 to 0.02%. At all concentrations of reagent, the amount of sediment increases, i.e. reagent contributes to the deposition of paraffin. The method allows to increase the efficiency of protection of oilfield equipment from wax deposits and to expand the range of reagents. П М Oprint 0,0025 North Variegan 0,0050 0,010 0,015 0,020 0,025 0,05 .0,10 0,25 Ore 0,0025 Salym 0.005 - - - - - - --- - - - - i -. - - - - - “;, Indicators —Lf.a.C.e n 1 (reduction of methyl 2 (restoration of esters) butyl esters) - - --- –4“ in “in a c. "" ("MMlMa Acid Number2-52-5 Essential Number. 30-505-20 Hydroxyl Number100-150" O - 150 Hydrocarbons Content2-65-15 Carbonyl Number2-5 Types of eiiPeareHT 1 consists mainly of alcohols of complex esters and hydrocarbons, obtained after distillation of the alcohols of fraction C. - Reagent 2 consists of alcohols, esters and hydrocarbons, is obtained as a by-product after the distillation of the alcohols of fractions C, i. composition on Reagent Reagent basis 12, IKB-4N Table 1. Table 2 .8, 8

Claims (2)

1. A method of preventing paraffin deposits in oilfield equipment by introducing a chemical reagent into the oil stream, which is to increase the efficiency of the method of preventing paraffin deposition by eliminating pre-cleaning of the well from rust and contamination and expanding the range of reagents used, vat residues as a chemical reagent are introduced into the oil stream during the production of ALCOHOLS by reducing fatty acid esters in the amount of 0.005-0.02% mA from treatment oil. 2. The method according to claim 1, which is different from the fact that, in order to be able to implement the method in winter conditions, the chemical reagent is introduced as a solution in aromatic compounds with a low freezing point. Information sources taken into account when expertise 1. USSR author's certificate N 72 “b9b, cl. E 21 B “JS / OO, 1978. 2.Uruzbaev U.N. et al. Choosing the most efficient method of combating organic sediments in wells. - Oilfield business, No. 11, 1979, p.27 (prototype).