SU1730502A1 - Method for suppressing growth of sulfate recovering bacteria in water filled oil layer - Google Patents

Abstract

The invention relates to methods for controlling sulfate reducing bacteria (SRB) and can be used in the oil industry to suppress the process of biogenic sulfate reduction in water injected into an oil reservoir. The goal is to increase the efficiency of the method while expanding the range of bactericides and reducing material costs. Zinc sludge is used as a chemical reagent added to the water injected into the reservoir — waste from the production of 1-naphthol-3,6-disulfonic acid from the purification filtration stage with a zinc sludge content in water of at least 0.01 wt.%. Sludge - a powdery gray matter with a density of 2.5-2.6 g / cm3, contains, wt%: zinc hydroxide 96-97; tin hydroxide 0.5-1.0; 1-naphthol 3, 6-disulfonic acid 0.5-1, water the rest .. Reagents have a high degree of inhibition of the growth of sulfate reducing bacteria. 1 tab. WITH S

Description

The invention relates to methods for controlling sulphate-reducing bacteria (CB B) and can be used in the oil industry to suppress the processes of biogenic sulphate reduction in water pumped into the oil reservoir.

There is a method of preventing the growth of sulfate reducing bacteria in waste oil field waters using a mixture of sulfonic acids.

However, when using this method, foaming of water is observed, which makes it necessary to make defoaming. This increases the cost of preparing the water. In addition, a mixture of succinic acids is the desired product.

There is a known method for suppressing the growth of sulfate reducing bacteria using a basic zinc carbonate reagent. However, this reagent (brand name Milgard) is an expensive, scarce target product and its use increases the cost of bactericidal water treatment.

Closest to the present invention is a method using as a bactericide a condensation product of phenol and naphtholsulfonic acid.

The disadvantage of this method is its lack of efficiency, and the use of the target product, and in high concentrations, causes an increase in material costs.

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The purpose of the invention is to increase the efficiency of the method by expanding the range of bactericides and reducing material costs.

The goal is achieved by using zinc sludge as a chemical reagent added to the water injected into the reservoir - waste from the production of 1-naphthol-3,6-disulfonic acid from the purification filtration stage with a zinc sludge content in water of at least 0.010% by weight.

Zinc sludge is a powdery gray substance with a density of 2.50-2.60 g / cm3 and contains wt.%: Zinc hydroxide 96-97; tin hydroxide 0.5-1.0; 1-naphthol-3,6- disulfonic acid 0.5-1.0; water - the rest. The presence of heavy metal hydroxides (zinc and tin) in the sludge in combination with 1-naphthol-3,6-disulfonic acid prevents the development of microorganisms in water and. accordingly, in the watered oil reservoir.

When using the proposed method, the effectiveness of inhibiting the growth of sulfate reducing bacteria in the oil reservoir during the development of oil fields with water flooding is increased, the range of chemicals that play the role of bactericides is expanded, and material costs are reduced.

The method is carried out as follows.

At the field where it is planned to pump water, one or a number of injection wells are selected. Taking into account the injectivity of the wells, the required addition of a bactericide, zinc sludge, is calculated and introduced into the water injected into the well continuously. Previously in the tank prepare a working solution of bactericide - zinc sludge.

Depth water samples are periodically taken to determine the presence of SSC. In case of their absence, the supply of the bactericide is stopped. The bactericidal activity of the reagent is determined by a known technique. A certain amount of the reagent is injected into the industrial water containing SCB under sterile anaerobic conditions and kept for 24 hours at 32 ° C. Then, 1 ml of liquid is taken from these samples and injected into bottles with Postgate nutrient medium. Bottles thermostatic at 32 ° C for 15 days. At the same time, a control sample is placed without the addition of a reagent and

with the addition of the reagent by a known method. Bactericidal activity is assessed by the absence or presence of darkening samples, while the absence of darkening indicates a complete inhibition of the growth of sulfate reducing bacteria.

PRI me R. In a container with Postgate nutrient medium, 1 ml of a solution containing 0.010% by weight of the reagent is injected and thermostated at 32 ° C for 15 days. The growth of SSC is suppressed with the introduction of 0.01 wt% of the proposed bactericide by 100% (see table, test report), by a known method, with the introduction of the same amount of bactericide (test 6), the degree of inhibition of SSC growth is 86.4%. 0.010% by weight of zinc hydroxide; the degree of inhibition is 94.0% (Run 9).

The test results are shown in the table.

The use of the proposed reagent in an amount of less than optimal concentration is inefficient (experiment 1 and 2), and in an amount of more optimal concentration (experiment 4) does not lead to an increase in efficiency, but leads to an overrun of the reagent.

The proposed reagent has a higher degree of inhibition of the growth of SIB. When using the proposed bactericide, a synergistic effect is observed in connection with the presence in the sludge of both zinc compounds and sulfonic acids.

The application of the proposed method allows to reduce the cost of bactericidal protection against contamination of oil fields and mined products of sulfate reducing bacteria and biogenic hydrogen sulfide, to expand the range of bactericides and prevent environmental pollution.

Claims (1)

Claims of Invention A method for suppressing the growth of sulfate-reducing bacteria in a waxy oil reservoir by pumping water with additives of chemical reagents into the reservoir, characterized in that zinc sludge - waste from the production of 1-naphthol-3,6-disulfonic acid from the purification filtration stage with a zinc sludge content in water of at least 0.010 wt.%.