RU2522428C1 - Complex bactericidal additive - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention relates to the complex bactericidal additive containing quaternary ammonium salts, polyhexamethylene guanidine and the solvent, at that as the solvent it comprises aqueous solution of ethyl alcohol and glycerol. Use of the complex bactericidal additive in small doses increases the efficiency of antibacterial treatment of aqueous solutions and surfaces in contact with oil products while production, storage and exploitation of petroleum products.

EFFECT: additive has low temperature of crystallisation, which enables to use it effectively in northern regions.

3 cl, 4 tbl

Description

The invention relates to bactericidal additives used in the field of extraction, storage and transportation of oil, as well as products subject to the influence of pathogenic microorganisms.

Bactericides are used in the oil industry to combat microorganisms during water flooding, drilling, conservation, transportation of oil products and repair work. Bactericidal additives should be easily mixed with aqueous solutions, do not change the physicochemical and operational properties of oil products, provide effective antimicrobial protection of both the fuel itself and antiseptics of the water layer accumulating under the oil product, and also be successfully used to stabilize clay drilling fluids, for hardening grouting cement when lining oil and gas wells, create a protective film on the surface of pipes in oil pipelines, effectively protect oil equipment novanie. At the same time, oil fields are geographically located in areas with a harsh northern climate, which necessitates the use of bactericidal additives with a low freezing point.

The wide range of technical characteristics that must be simultaneously given to bactericidal additives makes inevitable the creation of complex additives, i.e. additives consisting of several different types of components, which, in turn, can be both individual compounds and complex multicomponent products that positively affect each other.

One of the most common and effective types of bactericides and at the same time corrosion inhibitors that are used in the petrochemical industry are quaternary ammonium salts [Skorokhodov VD, Shestakova SI "Protection of non-metallic building materials from biocorrosion." - M.: Higher School, 2004, 205 p.].

The disadvantage of the compounds of the class of quaternary ammonium salts is their high toxicity and the need for high dosages to achieve a significant bactericidal effect, while they have a high crystallization temperature. In this regard, their use in really popular complexes is very limited.

Known biocidal additive ["Refining and petrochemicals", 1994, N 6, p.14, 17] to protect diesel fuel from the action of microorganisms based on polyhexamethylene guanidine phosphate (PHMG), the so-called FOGUCID. However, this biocidal additive has a significant drawback - an aqueous solution of FOGUTSIDA does not have a significant bactericidal effect at low dosages and freezes at low temperatures.

The closest in essence to the proposed invention is a bactericidal additive [RF Patent No. 2074234 "Biocidal additive"], used in petrochemicals to protect against microorganisms in the process of extraction, storage, processing and transportation of petroleum products. The biocidal additive contains polyalkylene guanidine or its salts, while it additionally contains low molecular weight polyethylene glycol or its grafted copolymer on polyalkylene guanidine and a quaternary ammonium compound in the following ratio of components, parts by weight: polyalkylene guanidine or its salt 1.0-50.0; polyethylene glycol or its grafted copolymer on polyalkylene guanidine - 40.0-60.0; Quaternary ammonium compound 0.1-25.0.

As polyalkylene guanidine, it contains polytetramethylene or polyhexamethylene or polydecamethylene guanidine. As salts of polyalkylene guanidines, it contains their salts with hydrochloric, carbonic, oleic, stearic and ditretic-butylphenol-propionic acids. As a quaternary ammonium compound, it contains low molecular weight quaternary ammonium salts or poly-quaternary ammonium salts.

The use of a composition of quaternary ammonium salts and salts of polyhexamethylene guanidine hydrochloride can effectively reduce biodegradation during storage of crude oil and products of its processing, as well as to obtain a low-toxic complex additive with the properties of a corrosion inhibitor. The use of the specified target additives can reduce the dosage of the additive to enhance the bactericidal effect. However, it is poorly soluble in water and does not have high activity at low temperatures.

An object of the invention is to obtain a water-soluble complex bactericidal additives, the use of which in small doses increases the effectiveness of the antibacterial treatment of aqueous solutions and surfaces in contact with oil products in the process of extraction, production, storage and operation of oil products, while having a low crystallization temperature.

The stated technical problem is solved in the present invention in that the complex bactericidal additive contains quaternary ammonium salts, polyhexamethylene guanidine and a solvent. Moreover, as a solvent, it contains an aqueous solution of ethyl alcohol and glycerol. It contains these components in the following ratio, wt.%: Quaternary ammonium salts - 0.4-0.6; polyhexamethylene guanidine - 0.1-0.6; ethyl alcohol - 68-72; glycerin - 0.5-1.5%; water is the rest.

The biocidal additive as quaternary ammonium salts contains benzalkonium chloride, benzalkonium propionate, metsetronium methyl sulfate or a mixture of these components.

The proposed bactericidal additive is readily soluble in aqueous solutions. It maintains its effectiveness in aqueous solutions for 1 year. The additive is non-toxic, has a low crystallization temperature, and is effective when used in low dosages.

Quaternary ammonium compounds in combination with polyhexamethylene guanidines, ethyl alcohol, glycerin and water in the indicated ratio exhibit a synergistic effect of enhancing bactericidal properties at lower dosages in aqueous solutions compared to the prototype.

In the proposed complex bactericidal additive, the role of ethyl alcohol and glycerol is to homogenize the composition and give it complete and fast solubility in aqueous solutions. In this regard, the proposed complex additive mixes well with aqueous solutions, sludge, is well diluted with water for spraying and surface treatment of pipelines and tanks for long-term storage of petroleum products. When pumping petroleum products through pipelines, as well as during prolonged storage of petroleum products in steel tanks, the use of an additive during the processing of the walls of pipelines and tanks with an aqueous solution can suppress the occurrence of biological associations of a wide variety of microorganisms, including bacteria, molds, algae, etc., which can cause biodeterioration of oil products and complicate their pumping and use. In addition, it, in the production of oil and oil products, does not alter their physicochemical and operational properties, provides effective antimicrobial protection of both the fuel itself and antiseptics of the water layer accumulating under the oil product, and it can also be successfully used to stabilize clay drilling solutions for hardening grouting cement during lining of oil and gas wells. In this case, the additive has a low crystallization temperature. Due to the introduction of ethyl alcohol, it also has an additional antiseptic effect.

The ratio of components in the proposed complex additive is selected experimentally and is optimal.

When the content of ethanol in the complex bactericidal additive is less than 68%, the effective dissolution of the additive components and the decrease in the crystallization temperature are not ensured, and more than 72% does not improve the technical result. When the content of the additive is less than 0.4 (mass%) of quaternary ammonium salts, the synergistic effect of the use of the additive is not provided, and if the content is more than 0.6%, toxicity and foaming are enhanced.

When the content of the additive polyhexamethylene guanidine is less than 0.1%, the claimed effect of the use of the additive is not provided, and more than 0.6% is economically and technically impractical. When the glycerol content is less than 0.5%, a significant decrease in the crystallization temperature of the complex bactericidal additive is not provided, and more than 1.5% does not lead to an improvement in the technical result.

In more detail, the technical nature of the invention and the effects achieved can be illustrated by the following examples.

Samples of the complex bactericidal additive according to the invention were developed and prototype additives were reproduced. As an additive prototype used an additive containing polyhexamethylene guanidine hydrochloride, dimethylalkylbenzylammonium chloride and polyethylene glycol with mall. weighing 400 cu in a ratio of 2: 1: 2 (option 1), and polyhexamethylene guanidine hydrochloride, alkyldimethylbenzylammonium chloride and polyethylene glycol with mol. weighing 400 cu in a ratio equal to 2: 3: 5 (option 2).

The complex bactericidal additive according to the invention contains 0.4% benzeneconium chloride, polyhexamethylene guanidine - 0.2%, ethyl alcohol 69%, glycerin - 1% and water - the rest (option 1 according to the invention); 0.6% benzeneconium chloride, polyhexamethylene guanidine - 0.1%, ethyl alcohol 70%, glycerin - 0.5% and water - the rest (option 2 according to the invention).

The bactericidal properties of the prototype additive and the additive according to the invention (options 1) were evaluated in relation to various groups of sanitary significant microorganisms. During the tests, a standard set of test strains of microorganisms (Echerichia coli, Staphylococcus aureus, Candida albicans, Aspergillus niger, Bacillus subtilis) was used. Culture media manufactured by BBL (USA) (Endo medium, Staf agar medium, BIGGY agar, Baclus agar, 5% blood agar).

Microbial cultures were pre-expanded and cultured from 10 ² to 10 ⁴ CFU / ml. The resulting microbial suspensions were introduced into the sample, the volume of which for this study was 100 ml. After cultivation, seeding was carried out on the corresponding solid nutrient medium and the number of grown colonies of test microbes was calculated.

The results of the tests are presented in table 1.

Table 1 The effectiveness of inhibition of the development of various microorganisms Microorganism The concentration of microorganisms, the original / after cultivation Control prototype (option 1) on request (option 1) E. coli 107104 107101 1070 S. aureus 107104 1070 1070 C.albicans 107104 107101 1070 A. niger 107104 107101 1070 B. subtilis 107104 107101 1070

Analysis of the test results shows that the use of the proposed bactericidal additives according to the invention provides a growth retardation of microorganisms and a pronounced bactericidal effect on all studied microorganism strains (Echerichia coli, Staphylococcus aureus, Candida albicans, Aspergillus niger, Bacillus subtilis), significantly reducing their concentration compared to the application prototype additives.

The results of the tests of the proposed bactericidal additives according to the invention (option 1) and the additive prototype (option 2) for drilling fluids are presented in table 2. Moreover, the effective dosage of the bactericidal additive in the prototype is from 0.03% to 0.25%, and for the proposed complex bactericidal additives - 0.01-0.15% by weight of the drilling or grouting fluid.

table 2 Comparative tests of the effectiveness of the bactericidal additives of the prototype and according to the invention for drilling fluids. Microorganism Prototype (option 1) by application (option 1) zone bactericidal zone bactericidal delays act delays act mm mm E. coli 12 Weak bactericidal effect 16 Moderate bactericidal effect S. aureus 16 moderate bactericidal effect twenty strong bactericidal effect C.albicans 21 strong bactericidal effect 23 strong bactericidal effect A. niger 23 strong bactericidal effect 27 strong bactericidal effect B. subtilis 21 strong bactericidal effect 25 strong bactericidal effect

In places of long-term storage of hydrocarbon fuel for a long period of time, so-called “produced water” accumulates under the fuel layer. Comparative tests of the effectiveness of the use of additives according to the invention and prototype (options 1).

Directly in the container with diesel fuel in the bottom phase of the "produced water", with an insemination of 10,000 CFU / l, the additive prototype and the additive according to the invention are introduced.

The dosage of the additive for the additive prototype was 0.01% by weight of produced water. For an additive according to the invention, a similar amount.

The results are shown in table 3.

Table 3 Comparative tests of the effectiveness of the bactericidal additives of the prototype and according to the invention for "commercial water". No. Structure Dosage% Source Final infection, general (bacteria, integrated infection, mushrooms, mold), CFU / l bactericidal the general After 1 day After 3 Across additives (bacteria, fungi, mold), CFU / L days 1 year one. Prototype option 1 0.01 10,000 one hundred 110 250 2. Prototype option 2 0.01 10,000 110 115 260 3. According to the invention, option 1 0.01 10,000 80 85 200 3. According to the invention, option 2 0.01 10,000 70 95 220

The results of the tests show the high efficiency of the use of the bactericidal additive according to the invention for suppressing the bacterial effect in the layer of "produced water", which makes it possible to reuse the tank for storing oil products during their subsequent loading with new oil products.

When using an additive with a prohibitive content of components, there is no synergistic effect from its use.

The freezing study of complex bactericidal additives according to options 1, 2 and prototype additives according to options 1, 2 are presented in Table 4.

Table 4 The freezing point of complex bactericidal additives №№ The composition of the complex bactericidal additives Freezing temperature ° C one. Prototype option 1 0 2. Prototype option 2 0 3. According to the invention, option 1 -fifty four. According to the invention, option 2 -45

The test results showed that the additive according to the invention has a low crystallization temperature, which allows it to be used effectively in the northern regions.

In the manufacture of the additive, ethylene glycol can be used as a solvent. Moreover, the effectiveness of the additive does not deteriorate compared with the additive according to the invention, however, ethylene glycol is toxic and the use of such an additive is impractical.

Thus, a complex bactericidal additive was obtained, the use of which in small doses increases the effectiveness of the antibacterial treatment of aqueous solutions and surfaces in contact with oil products in the production, storage and operation of oil products, while it has a low crystallization temperature.

Claims (3)

1. A complex bactericidal additive containing quaternary ammonium salts, polyhexamethylene guanidine and a solvent, characterized in that it contains an aqueous solution of ethyl alcohol and glycerol as a solvent. 2. The complex bactericidal additive of claim 1, characterized in that it contains these components in the following ratio, wt.%:
quaternary ammonium salts 0.4-0.6 polyhexamethylene guanidine 0.1-0.6 ethanol 68-72 glycerol 0.5-1.5% water rest 3. The complex bactericidal additive according to claim 1, characterized in that benzalkonium chloride, benzalkonium propionate, metsetronium methyl sulfate or a mixture of these components are used as quaternary ammonium salts.