SU865833A1 - Method of preventing growth of sulfate-reducing basteria - Google Patents

Description

(54) METHOD FOR PREVENTING GROWTH OF SULPHATIC STEEL BACTERIA

Claims (3)

The invention relates to methods for controlling sulphate-reducing bacteria and can be used, Hanpwviep, to prevent the growth of bacteria in the oil reservoir and in the topics of reservoir pressure maintenance, production, preparation and transportation of oil. Methods are known for preventing the growth of sulfate-reducing bacteria (SRB) by treating water with chemical compounds, such as the reaction product of alkyl halides and the residue of the coal tar, the reaction product of tetramethyl ammonium chloride and RSnCi, where R is an alkyl radical C and 2. However, these compounds have a low bactericidal activity, Most Close to the invention in its technical essence and the achieved effect is a method of preventing the growth of SSCs by treating water with methane-nitro-ethanethanilide, which growth of microorganisms on a 99,100% at concentrations of reagent 100 mg / l and 75-87% at a concentration of 10-50 mg / L 3. The purpose of the invention - reduction of reagent consumption while maintaining a high degree of SRB growth inhibition. This goal is achieved by using 6-methyl-7 (propen-1yl-1) -2,4-dioxabipiclo (3,4) -nonane CHj / V CH CH-CH3 as the reagent. Preferably, the reagent is added in an amount of 5- 25 mg / l. This compound is a crystalline powder, gray-yellow in color with a melting point of 123 125 ° C, sparingly soluble in water, readily soluble in alcohol and acetone. The effectiveness of inhibiting the growth of SIS is determined by a known method. The reagent is introduced into the commercial water containing SSC under sterile anaerobic conditions in appropriate concentrations and kept for 24 hours at 32 ° C. Then 1 ml of liquid is taken from these samples and injected into bottles with. nutrient medium of Postgate. Bottles are incubated for 15 days. At the same time put the control samples without the addition of reagent. The effectiveness of preventing the growth of bacteria is assessed according to the degree of suppression of SSC, defined by the formula –1 – Ca., C where C – 1 and C / 1 are the content of hydrogen sulfide in the control and test samples (mg / l) after 15 days, after the beginning of the test. The results of determining the degree of SSC suppression are shown in the table. As can be seen from the table, the proposed method provides a high degree of suppression of the growth of sulfate-converting bacteria at a lower concentration of reagents as compared with the known one. The reagent used for this is cheap, affordable, and has a wide raw material base for large-scale production. Water treatment can be carried out by treating the entire volume of water with a reagent at a concentration of 0.00050, 01% or, for example, when pumping water into oil reservoirs, to treat a small volume of water with higher doses of the bactericide, after which you can switch to water injection without treatment. bactericides. The technical and economic advantage of P11 of the proposed method compared with the known one is: a) high efficiency, i.e. complete inhibition of bacterial growth provided at low concentrations of reagent; b) high processability of the method, since the applied composition is not explosive, not flammable, and not toxic; c) expanding the range of commercially available chemical products used to prevent the growth of bacteria (this is not necessary, since microorganisms are able to adapt and require periodic use of bactericides of different mechanism of action); d) prevention of hydrosulphuric and microbiological corrosion of equipment, reducing the number of emergency breakouts of water lines and reducing the economic costs associated with their liquidation; e) the possibilities of environmental protection, since the effective prevention of the growth of sulfate reducing bacteria helps reduce environmental contamination with hydrogen sulfide. 1. Method for preventing the growth of sulfate-reducing bacteria, including water treatment with a bactericidal agent, characterized in that, in order to reduce reagent consumption while maintaining a high degree of prevention, 6-methyl-7 (propen-1-IL-1) -2 is used as a reagent , 4-dioxabicyclo (3.4) nonane. 2. Method POP.1, distinguished by the fact that the reagent is administered in the amount of 5-25 mg / l. Sources of information taken into account during the examination 1. Patent. USA 3928198, kl.252-8-55, published. 1978 2. US Patent No. 3089847, cl. 252-8-55, publ. 1967. 3. USSR author's certificate according to the application 2849832/26, c. C 02 F 1/50, 20.08.79.