UA66669A - A composition for prevention of acid microbiological corrosion, a method for processing water and a method for utilization of industrial waters containing ammonia nitrogen - Google Patents

Abstract

A composition for prevention of acid microbiological corrosion of water comprises nitrification inhibitor and organic complexing agent. A method for water processing to prevent an acid microbiological corrosion involves dosing the acid microbiological corrosion inhibitor into the water. A method for utilization of industrial waters containing ammonia nitrogen by use thereof as additional water for resplenishment of water reuse systems.

Description

Description of the invention

The invention relates to the composition of the composition for the prevention of acidic microbiological corrosion of water and to methods 2 of processing and disposal of industrial waters using this composition.

The invention can be used to clean industrial wastewater or water from water circulation systems that contain acid-resistant forms of bacteria (microorganisms) that cause acidic microbiological corrosion.

It is known to use nitrification inhibitors, in particular, 1-carbomoyl-3(5)-methylpyrazole, 1-hydroxymethyl-3(5)-methylpyrazole, 4-amino-1,2,4--riazole, as drugs of selective action that suppress 70 processes of nitrification in the soil, thereby preventing the accumulation of oxidized forms of nitrogen in the soil).

The disadvantage of known nitrification inhibitors is that, when used in water, they do not prevent the accumulation of oxidized forms of nitrogen, which cause acidic microbiological corrosion and, therefore, do not show an effective effect in inhibiting the vital activity of acid-resistant forms of microorganisms in water environments.

A known composition for preventing acidic microbiological corrosion of water, including an organic nitrogen-containing 19 component.

Chlorohydrate is used as an organic nitrogen-containing component

M-phenyl-M(β-diethylaminoethyl)-amido-di-"p-fluorophenyl)-glycolic acid.

The composition is used in the form of an aqueous solution of an organic nitrogen-containing component with a concentration of 10-5 Ωg/l of solution.

Suppression of vital activity of acid-resistant forms of microorganisms is achieved by periodic dosing of the composition into water at a concentration of 1Omg/l after 6 hours and 5Omg/l after 24 hours. (2).

The known composition is effective only against acid-resistant thione and sulfur bacteria and does not inhibit the activity of acid-resistant forms of nitrifying microorganisms (nitrifying bacteria) of the genus

Migozozriga, Migozosossiv, MigozoYorivs, Mivigozotopavzv, and, therefore, does not reduce the degree of their corrosive action.

In the course of their vital activities, nitrifying microorganisms acidify the environment and create "favorable conditions for the implementation of oxidizing processes, creating the aggressiveness of the environment and thereby causing an increase in acidic microbiological corrosion.

The reason for the increase in acidic microbiological corrosion is the presence of ammonia, urea or other ammonium ion (ammonium nitrogen) in the water or getting into the water. Nitrifying microorganisms oxidize ammonia to nitrites nitrates, there is a process of water acidification with the production of protons and a decrease in the pH value of the water - the first stage of Ge) nitrification. At acidic pH values, the rate of acidic microbiological corrosion increases significantly.

The invention is based on the task of creating a composition to prevent acidic microbiological corrosion of water, in which, by changing the qualitative and quantitative composition of the known composition, it is possible to suppress the vital activity of nitrifying microorganisms, which cause biochemical oxidation of ammonia and 32 acidification of water, causing an increase in the speed acid microbiological corrosion. what

The task is solved by the fact that the known composition for preventing acidic microbiological corrosion of water, including an organic nitrogen-containing component, according to the proposed invention, additionally includes an organic complexing agent, and as an organic nitrogen-containing component, the composition includes a nitrification inhibitor in the following ratio of components, in 96 moles: - 50 nitrification inhibitor: organic complexing agent -(1-5):(5-1). c The task is solved by the fact that, as an organic complexing agent, the composition includes: citric acid, phosphonic acids or their derivatives, for example, oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, aminoalkanephosphonic acid, alkanediphosphonic acid with the number of carbon atoms in the alkane from 1 to 6; amino acids, for example aminoacetic acid or its derivatives, for example ethylenediaminetetraacetic acid, or their water-soluble salts. b The task is solved by the fact that the composition includes a nitrification inhibitor as a nitrification inhibitor

Ge") of the triazole series, for example, 4-amino-1,2,4-triazole, and/or of the pyrazole series, for example, 3(5)-methylpyrazole.

The task is solved by using an aqueous solution of the composition with a concentration

Fo 2-2090mas., mostly 5-109omas.

Gee! 20 The technical result of the proposed composition of the composition consists in suppressing the vital activity of nitrifying microorganisms in water. c The advantage of the proposed composition is that in water it exhibits an effective selective effect in relation to nitrifying microorganisms at small levels of its dosage.

In comparison with the prototype composition, the use of the proposed composition provides a decrease in the rate of acidic microbiological corrosion in water containing ammonium nitrogen, ammonia and/or urea, to normative value - 0.1 mm per year (0.07-0.12) mm/year.

The next advantage of the proposed composition in comparison with the prototype composition is the reduction of the consumption of the composition from 10-5BOmg/l to 25mg/l and the frequency of introducing the composition into water from a two-time dosing every 6-24 hours to a single dosing every 10-30 days. Thus, the total costs of composition 60 are reduced by more than 20 times.

Research and industrial tests established that the technical result of the proposed composition of the composition is achieved only with a compatible combination in the declared ratios of nitrification inhibitor and organic complexing agent.

The use of only one or several nitrification inhibitors, in particular, the nitrification inhibitors claimed in the proposed invention of 4-amino-1,2,4-triazole and/or 3(5)-methylpyrazole, which are themselves widely known for inhibiting nitrification in the soil ( 1), in the case of their use in water, does not provide effective action in suppressing the vital activity of nitrifying microorganisms. This is due to the fact that in water, nitrification inhibitors easily interact with iron oxide, which is on the surface of the equipment, forming complex compounds as a result of such interaction, which reduces the effectiveness of nitrification inhibitors in terms of suppressing the vital activity of nitrifying microorganisms and causes the need for a significant increase in inhibitor consumption.

In order to ensure the selective action of nitrification inhibitors relative to the inhibition of the vital activity of nitrifying microorganisms in water, in the proposed invention, nitrification inhibitors are used in combination with organic complexing agents. Studies have shown that in water, organic complexing agents, interacting with iron oxide, form complex compounds with it that are stronger than complex compounds of iron oxide with nitrification inhibitors, while keeping nitrification inhibitor molecules free and thereby ensuring the selectivity of their action in water relative to the inhibition of the vital activity of microorganisms - nitrifiers.

The composition includes a nitrification inhibitor and an organic complexing agent in the ratio (1-5):(5-1) to molnyXx.

As an organic complexing agent, the composition includes: citric acid, phosphonic acids or their derivatives, for example oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, aminoalkanephosphonic acid, alkanediphosphonic acid with the number of hydrocarbon atoms in the alkane from 1 to b; amino acids, for example 2o-aminoacetic acid or its derivatives, for example ethylenediaminetetraacetic acid, or their water-soluble salts.

As a nitrification inhibitor, the composition includes a nitrification inhibitor of the triazole series, for example, 4-amino-1,2,4-triazole, and/or of the pyrazole series, for example, C(5)-methylpyrazole.

For practical use, prepare an aqueous solution of the composition with a concentration of 2-2095 mass, preferably 5-109 mass.

The invention is explained by example Mo1 of preparation of the composition. Example Me1. To prepare the composition in the form of an aqueous solution, use 3(5)methylpyrazole, with a molecular weight of 82.1, produced according to TU "6-21-19-1-83" in the form of a light brown or light yellow liquid with a pyridine-like smell; citric acid produced according to GOST 9008-79, with a molecular weight of 210.14, and water.

Pour 1 liter of water into the container for preparing the composition, then add 50g of Z(5)methylpyrazole and 120g of Ge! from citric acid. Mix and obtain an aqueous solution of the composition with a molar ratio of 1:1 and a concentration of about 15 95 wt. The effectiveness of the composition is investigated in the process of water treatment, which causes ise) acidic microbiological corrosion, given in the example of Mo2. "I

There is also a known method of treating water that causes acidic microbiological corrosion, including dosing an inhibitor of acidic microbiological corrosion into the water. ise)

Chlorohydrate is used as a corrosion inhibitor

M-phenyl-M(β-diethylaminoethyl)-amide-di-(p-fluorophenyl)-glycolic acid in the form of its aqueous solution with a concentration of 10-5 Ωg in a liter of solution.

Suppression of vital activity of acid-resistant forms of microorganisms is achieved by periodic dosing of an aqueous solution of the inhibitor in water at a concentration of 10-5 Ωg/l with a dosing frequency of 6-24 hours. (2). "

The known method does not solve the problem of protecting water from acidic microbiological corrosion caused by acidification of water as a result of the vital activity of acid-resistant forms of nitrifying microorganisms in water containing ammonium nitrogen and its nitrification products - oxidized forms of nitrogen - nitrites and nitrates. with This is due to the selective action of the known inhibitor relative to the inhibition of vital activity of only thion and sulfur bacteria resistant in an acidic environment.

The invention is based on the task of improving the known method of treating water that causes acidity

Ge» microbiological corrosion, in which, by changing the conditions of the known method, in particular the use of a certain substance, the possibility of suppressing the vital activity of nitrifying microorganisms, causing me) biochemical oxidation of ammonia and acidification of water, causing an increase in the rate of acidic microbiological

Ge» of corrosion.

The task is solved by the fact that in the known method of water treatment, causing acidic

Me, microbiological corrosion, which involves dosing the water with an acid microbiological corrosion inhibitor, according to

Ge) according to the proposed invention, as an inhibitor of acidic microbiological corrosion, a composition is used to prevent acidic microbiological corrosion, including a nitrification inhibitor and an organic complexing agent in the ratio (1-5):(5-1), 96 mol.

As an organic complexing agent, the composition includes: citric acid, phosphonic acids or their derivatives, for example, oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, aminoalkanephosphonic acid

P" acid, alkanediphosphonic acid with the number of hydrocarbon atoms in the alkane from 1 to b; amino acids, for example aminoacetic acid or its derivatives, for example ethylenediaminetetraacetic acid, or their water-soluble salts.

As a nitrification inhibitor, the composition includes a nitrification inhibitor of the triazole series, for example, 4-amino-1,2,4-triazole, and/or of the pyrazole series, for example, 3(5)-methylpyrazole.

Use an aqueous solution of the composition with a concentration of 2-209 by mass, preferably 5-1095 by mass.

The task is solved by the fact that the composition is dosed into the water periodically - once every 10-30 days.

The technical result of the proposed method consists in suppressing the activity of nitrifying microorganisms in water. 65 The method is effective in reducing acidic microbiological corrosion in water containing ammonia, urea, ammonium nitrogen and nitrification products - oxidized forms of nitrogen - nitrites and nitrates.

In comparison with the prototype method, the use of the proposed method in water containing ammonium nitrogen provides a reduction in the rate of corrosion to the normative value of 0.1 mm per year (0.07-0.12) mm per year.

The next advantage of the proposed method in comparison with the prototype method is the reduction of composition costs by more than 20 times, and the convenience of its use - once every 10-30 days.

The advantage of the method is also a several-fold increase in the inter-repair mileage of the equipment due to a decrease in the rate of acidic microbiological corrosion.

The advantage of the proposed method is also the preservation within permissible limits of ammonium nitrogen, the salts of which stabilize the pH level, do not have strong corrosive properties and do not form deposits on the surface of 7/0 pipelines and other equipment.

The method includes the stage of periodic dosing into water of a composition to prevent acidic microbiological corrosion, including a nitrification inhibitor and an organic complexing agent at a ratio of (1-5):(5-1), 90 mmol.

As an organic complexing agent, the composition includes: citric acid, phosphonic acids or their derivatives, /5 For example, oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, aminoalkanephosphonic acid, alkanediphosphonic acid with the number of hydrocarbon atoms in the alkane from 1 to b; amino acids, for example aminoacetic acid or its derivatives, for example ethylenediaminetetraacetic acid, or their water-soluble salts.

As a nitrification inhibitor, the composition includes a nitrification inhibitor of the triazole series, for example, 4-amino-1,2,4-triazole, and/or of the pyrazole series, for example, C(5)-methylpyrazole.

Use an aqueous solution of the composition with a concentration of 2-209 by mass, preferably 5-1095 by mass.

The composition is dosed into the water periodically - once every 10-30 days.

The method is explained by a specific example of Mo2 implementation of the method.

An example of Mo2. In circulating water, which contains ammonia up to 1OOmg/l, nitrates 7-10Omg/l and nitrites 7-1Omg/l, an aqueous solution of the composition prepared according to the example of Mo1 is periodically dosed. An optimal dose of 285 Compositions is added to the water at the rate of 25 g per 1 m3 of the physical volume of water. This concentration is maintained during the first 12-24 hours. Then, after 20 days, the dosage of the composition is repeated. "

As a result of the composition, the corrosion rate of steel decreases from 0.15-0.17mm/year to 0.07-0.12mm/year, the pH level of water increases from 6.0 to 7.5-8.2 and stabilizes. The concentration of oxidized forms of nitrogen - nitrites and nitrates decreases to 1-5 mg/l. Gee!

There is a known method of feeding the circulating water supply system by introducing additional water into the system, specially prepared for feeding the circulating water supply system (3). at

The disadvantage of the method is its high cost, due to the need for special preparation of water by means of (Te) its purification and softening.

The closest in terms of technical essence and achievable result is the method of utilization of industrial waters, which Fr

They contain ammonium nitrogen, by using them as additional water to feed systems of reversible Ge) water supply. (4).

As industrial waters containing ammonium nitrogen, for example, wastewater from the production of urea and/or technological condensate from the production of hydrogen or ammonia, and/or biochemically purified wastewater "containing ammonium nitrogen and/or products of its nitrification - oxidized forms of nitrogen - are used nitrites and nitrates.

The disadvantage of the known method is increased acidic microbiological corrosion of the equipment, due to the presence of nitrifying microorganisms and a large amount of ammonia in 8s water, which is easily oxidized by these nitrifying microorganisms to nitrites and nitrates, causing water acidification and increased growth of "" acid-resistant forms of nitrifying microorganisms.

The basis of the method is the task of improving the known method of industrial water utilization, in which, by introducing an additional substance, the possibility of suppressing vital activity is ensured

Ge") nitrifying microorganisms.

This task is solved by the fact that in the known method of disposal of industrial waters containing ammonium nitrogen, b by using them as additional water for feeding circulating water supply systems, according to the proposed method, feeding circulating water supply systems is carried out with periodic dosing of the composition to prevent acidic microbiological of corrosion, including a nitrification inhibitor and an organic complexing agent in the ratio (1-5):(5-1), 96 moles. (Che) As an organic complexing agent, the composition includes: citric acid, phosphonic acids or their derivatives, for example, oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, aminoalkanephosphonic acid, alkanediphosphonic acid with the number of hydrocarbon atoms in the alkane from 1 to b; amino acids, for example aminoacetic acid or its derivatives, for example ethylenediaminetetraacetic acid, or their water-soluble salts.

As a nitrification inhibitor, the composition includes a nitrification inhibitor of the triazole series, for example,

P» 4-amino-1,2,4-triazole, and/or pyrazole series, for example, C(5)-methylpyrazole.

Use an aqueous solution of the composition with a concentration of 2-209 by mass, preferably 5-1095 by mass.

The task is solved by the fact that the composition is dosed into the water periodically - once every 10-30 days. The task is also solved by using, for example, wastewater from urea production and/or technological condensate from hydrogen or ammonia production, and/or biochemically purified wastewater containing ammonium nitrogen and/or its products as industrial water for feeding circulating water supply systems. nitrification - oxidized forms of nitrogen - nitrites and nitrates.

The technical result of the method consists in suppressing the vital activity of nitrifying microorganisms, which cause acidic microbiological corrosion of water.

The advantage of the industrial water disposal method is the reduction of acidic microbiological corrosion from 0.17-0.15 mm/year to 0.07-0.13 mm/year.

The advantage of the method is the low cost of the composition and the convenience of its use - once every 10-30 days.

Another advantage of the method is the preservation within acceptable limits of ammonium nitrogen, the salts of which stabilize the pH level, do not have strong corrosive properties and do not form deposits on the surface of pipelines and other equipment.

The disposal method includes the stage of dosing into the water of the circulating water supply system one or more industrial waters that contain ammonium nitrogen, as additional water for feeding the circulating water supply system, and the stage of periodic dosing into the water of the composition for the prevention of acidic microbiological 7/0 Corrosion, including a nitrification inhibitor and an organic complexing agent at the ratio (1-5):(5-1), 90 mmol.

Use an aqueous solution of the composition with a concentration of 2-2095 wt., preferably 5-1095 wt.

The composition is dosed periodically - once every 10-30 days.

The method is explained by a specific example of the implementation of the method. An example of Mo3. To feed the water circulation system, additional water is introduced into it - wastewater from urea production with an ammonia content of 10Omg/l and urea 1Omg/l. After the introduction of such nourishing industrial water, the circulating water of the system contains ammonia and nitrites at 10 Ω/l, nitrates at 2.5 mg/l. An aqueous solution of a composition for the prevention of acidic microbiological corrosion, which includes a nitrification inhibitor - C(5)methylpyrazole and citric acid in a molar ratio of 1:1.3 based on 25g of the physical volume of water, is periodically dosed into the circulating water. This concentration is maintained during the first 12-24 hours. After 20 days, the dosage of the composition is repeated at the rate of 25 g per 1 m of the physical volume of water in the water circulation system, maintaining this concentration during the first 12-24 hours.

The process of applying the composition is monitored by indicators of circulating water "nitrites, nitrates, ammonia" and the pH level. After dosing the composition, the content of nitrites and nitrates in the water decreases to 0.2mg/l and 0O.5mg/l, respectively, ammonia to 1O0Omg/l., the pH of the water increases from 6 to 8.4. Steel corrosion decreases from 0.15-0.17 mm/year to 0.07-0.12 mm/year.

Sources of information taken into account during the examination: 1. Yu.A. Bunyatyan, "Microbiological aspects of the influence of nitrification inhibitors on the self-cleaning ability of soil.", Hygiene of settlements, issue 37, Kyiv 2000, Ministry of Health of Ukraine, Ukrainian Scientific Ge) hygienic center , pp. 609-614. 2. A.S. USSR Mo916421, СО2Е1/50, publ. 30.03.82, B.Mo12. (prototype). and

Z. F.I. Belan, "Water treatment", Gosznergoizdat, M.L., 1963. pp. 164-254. (se) 4. A.V. Ivanov, I.V. Boyko, B.N. Shukailo, A.V. Talalay, P.V. Kolomiets, "Increasing the level of operation of heat exchange equipment", z., Equipment and tools for professionals, Water Cleaning, Mo10, 2002. pp. 46-49. (prototype). (Se)

Claims (1)

The formula of the invention " 1. A composition for preventing acidic microbiological corrosion of water, which includes an organic nitrogen-containing component, which is distinguished by the fact that it additionally includes an organic complexing agent, and as an organic nitrogen-containing component, it includes a nitrification inhibitor in the following ratio of components, 95 mol: "" nitrification inhibitor : organic complexing agent as (1-5) : (5-1). 2. The composition according to claim 1, which differs in that, as an organic complexing agent, the composition includes: citric acid, phosphonic acids or their derivatives, for example, oxyethylidenediphosphonic acid, Ge) nitrilotrimethylphosphonic acid, aminsalkanephosphonic acid, alkanediphosphonic acid with the number of hydrocarbon atoms in the alkane from 1 to 6; amino acids, for example aminoacetic acid or its derivatives, for example F ethylenediaminetetraacetic acid or their water-soluble salts. Ge) Z. The composition according to claims 1, 2, which differs in that, as a nitrification inhibitor, the composition includes a nitrification inhibitor of the triazole series, for example 4-amino-1,2,4-triazole and/or the pyrazole series, for example C(5) -methylpyrazole. (Che) 4. The composition according to claims 1-3, which differs in that an aqueous solution of the composition with a concentration of 2-20 9% by weight is used. mostly 5-10 9o wt. 5. A method of water treatment to prevent acidic microbiological corrosion, which includes dosing an inhibitor of acidic microbiological corrosion into the water, which differs in that the composition according to claims 1-4 is used as an inhibitor of acidic microbiological corrosion. P» 6. The method according to claim 5, which differs in that the composition is dosed into water periodically - once every 10-30 days. 7. The method of disposal of industrial waters containing ammonium nitrogen by using them as additional water for feeding circulating water supply systems, which is characterized by the fact that the feeding of circulating water supply systems is carried out with periodic dosing of the composition to prevent acidic microbiological corrosion according to claims 1-4. 8. The method according to claim 7, which is distinguished by the fact that, for example, wastewater from the production of urea and/or technological condensate from the production of hydrogen or ammonia, and/or biochemically purified wastewater containing ammonium nitrogen are used as industrial water for feeding circulating water supply systems and/or 65 products of its nitrification - oxidized forms of nitrogen - nitrites and nitrates. 9. The method according to claims 7, 8, which differs in that the composition is dosed into the return water supply system periodically - once every 10-30 days. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 5, 15.05.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. " (22) "so (Se) (Se) (Se) shi s ;" (22) (22) (22) b 50 3e) 60 b5