UA68727A - Inhibitor of corrosion and salt deposition (variants) - Google Patents

Abstract

The inhibitor of corrosion and salt deposition comprises phosphate or phosphonate inhibitors or water-soluble polymer with molecular mass of 300-20000 and at least one anhydrous hygroscopic salt of the alkali metal or the alkali-earth metal capable for joining 4-12 molecules of water, for example, sodium (potassium, calcium) sulfate and carbonate, sodium (potassium) orthophosphate.

Description

Description of the invention

The proposed invention belongs to the composition of inhibitors for the prevention of carbonate, sulfate, 2 iron oxide deposits, as well as for the destruction of these deposits located on heat and mass exchange surfaces, and can be used in the field of heat engineering and water supply, in particular in the reversible cycles of cooling systems, wet cleaning of gases, heat supply and hydraulic transport.

A known inhibitor of carbonate, sulfate, iron oxide deposits in circulating water supply systems, which contains oxyethylidene diphosphonic acid (EOEDFK), lignosulfonates, zinc complex 70 OEEDFK, sulfonate powder - a synthesis product of sulfonate production and water (1).

The closest in technical essence and achievable result is the corrosion and salt deposition inhibitor, which contains phosphate and phosphonate inhibitors.

The inhibitor contains in 95 mass: phosphate inhibitor 0.1-70, preferably 5-30, phosphonate inhibitor 0.1-30, preferably 5-20, water - the rest. 12 The phosphonate inhibitor is selected from the group consisting of oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, aminalcanephosphonic acid, alkanediphosphonic acid, with the number of carbon atoms in the alkane from 1 to 6, or their water-soluble salts.

A phosphate inhibitor selected from sodium hexametaphosphate, sodium tripolyphosphate, pyrophosphoric acid, or a water-soluble salt thereof.

In addition, the inhibitor additionally contains a water-soluble polymer with a molecular weight of 3000-20000 in the amount of 1-795 wt. and/or inhibitor of the azole series 3-1095 wt. (2).

Known inhibitors are produced in the form of aqueous solutions containing from 3 to 9095 wt. water, and, in this regard, require significant freight traffic, special technology of transportation and use as intended. 29 The consumer needs to use additional equipment - special dispensers designed for "small amounts of dosage of highly diluted inhibitor solutions."

The disadvantage of known inhibitors is the inconvenience in their transportation and use, due to the production of inhibitors in a liquid state - in the form of aqueous solutions.

Research has established that the known inhibitor of corrosion and salt deposition (2) is not produced in a solid state in the form of, for example, tablets or pressed tablets, due to the fact that under the conditions of high pressure necessary for the formation of a solid mass of the inhibitor, it is not a sufficiently strong adhesion of the component particles to each other due to their insufficient contact is ensured. -

The invention is based on the task of improving the well-known corrosion and salt deposition inhibitor, in which, by changing the qualitative and quantitative composition of the inhibitor components, in particular, the introduction of an additional 30 substance known in the art, it is possible to manufacture the inhibitor in a convenient for ee, transportation and use in the solid state.

The task is solved by the fact that the known inhibitor of corrosion and salt deposition, which contains phosphate and phosphonate inhibitors, according to the proposed invention, additionally contains, to a lesser extent, "one anhydrous hygroscopic salt of alkali or alkaline earth metals of inorganic acids, the molecule of which can join from 4 -x up to 12 molecules of water, for example, sulfates and carbonates of sodium, potassium, calcium, with orthophosphates of sodium, potassium, in the following composition of components, in 90 mabs.: 2" she phosphate inhibitor 5-40 phosphonate inhibitor 5-40 anhydrous hygroscopic salt of alkaline or alkaline earth metals of inorganic acids, the molecule of which can connect from 4 to the rest. (e)) 12 molecules of water, for example, sulfates and carbonates of sodium, potassium, calcium, orthophosphates of sodium, potassium, etc. The problem is solved by the fact that it additionally contains nonionic surface-active substances, -I 0-59 wt.

The task is solved by the fact that the phosphate inhibitor selected from the series: sodium polyphosphates, in particular, sodium tripolyphosphate, sodium hexametaphosphate, sodium pyrophosphate. "I The task is solved by the fact that a phosphonate inhibitor selected from the following: oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, hydroxyethylidenediphosphonic acid, aminoalkanephosphonic acid, alkanediphosphonic acid with the number of carbon atoms in the alkane from 1 to 6, or their water-soluble salts; salt deposition inhibitor IOMSO-1 in the form of an aqueous solution of sodium salts of nitrilotrimethylphosphonic acid with a content of the main substance - not less than 25.095 wt. » The task is solved by the fact that nonionic surfactants are selected from a number of: polyoxyethylated ethers of fatty acids, alcohols, amines; alkyl phenols, polyglycols.

The technical result of the proposed invention consists in obtaining the inhibitor in a solid state due to the improvement of the contact of the inhibitor components with each other and obtaining, as a result of their joint action, a total solid mass that is easily formed, for example, in the form of solid tablets or granules.

The advantage of the proposed inhibitor in comparison with known inhibitors, which are produced in the form of aqueous solutions, is: - exclusion of the consumption of demineralized water for its production; 65 - convenience of packaging; - decrease in turnover and the absence of the need to develop a special transportation technology and -D-

intended use. The consumer does not need to use special dispensers and other equipment, for example, pipelines for delivering the inhibitor as prescribed.

Another advantage of the proposed invention is that it does not require the consumer to spend additional demineralized water to dissolve the inhibitor, because it can be dissolved in the water to be treated.

Another advantage of the proposed invention is the possibility of using the original components - phosphate and phosphonate inhibitors in the form of concentrated aqueous solutions, because water from their solution is easily absorbed by anhydrous hygroscopic salts of alkali and alkaline earth metals, the molecules of which can connect from 4 to 12 molecules water 70 The inhibitor is characterized by high efficiency of protection against corrosion and salt deposition 290965.

The proposed corrosion and salt deposition inhibitor contains phosphate and phosphonate inhibitors and, to a lesser extent, one anhydrous hygroscopic salt of alkali or alkaline earth metals of inorganic acids, the molecule of which can attach from 4 to 12 molecules of water, for example, sulfates and carbonates of sodium, potassium , calcium, orthophosphates of sodium, potassium, in the following composition of components, in 90 wt.: pod phosphate inhibitor 5-40 phosphonate inhibitor 5-40 anhydrous hygroscopic salt of alkali or alkaline earth metals of inorganic acids, the molecule of which can attach from 4 to 12 residues . water molecules, for example, sulfates and carbonates of sodium, potassium, calcium, orthophosphates of sodium, potassium

In addition, the inhibitor may additionally contain nonionic surfactants 0-595 wt. to improve water wetting of the inhibitor.

A phosphate inhibitor selected from sodium polyphosphates, in particular sodium tripolyphosphate, sodium hexametaphosphate, sodium pyrophosphate.

Phosphonate inhibitor selected from the group: oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, hydroxyethylidenediphosphonic acid, aminoalkanephosphonic acid, alkanediphosphonic acid with the number of carbon atoms in the alkane from 1 to 6, or their water-soluble salts; salt deposition inhibitor IOMS-1 in the form of an aqueous solution of sodium salts of nitrilotrimethylphosphonic acid with the content of the main substance - not less than 25.095 mass, TU 2439-369-05763441-2003.

Nonionic surfactants are selected from the following: polyoxyethylated ethers of fatty acids, alcohols, - amines; alkyl phenols, polyglycols. high school

The inhibitor is made by mixing the components in the proposed ratio. Next, the obtained mass is formed in a tablet machine or on a press in the form of tablets with a size of 5-20 x 5-20 mm, or granulated in a plate granulator. The finished inhibitor is packed in bags or packets and sent to the consumer. Gee)

Do they use an inhibitor at the rate of 30-bOg inhibitor on them? of the physical volume of water to be treated or additional water of the circulating water supply system. what

The proposed invention is explained by specific examples of Moi, 2 production and use of the inhibitor.

A corrosion and salt deposition inhibitor is also known, which includes a water-soluble polymer with a molecular weight of 3000-20000. 7 70 As a water-soluble polymer with a molecular weight of 3000-20000, for example, polymaleic acid or polyacrylic acid, or their copolymers, or their water-soluble salts are used. In addition, corrosion and salt deposition inhibitors include phosphate and phosphonate inhibitors and water (2).

Water-soluble polymers slowly swell and dissolve in water, require special equipment (high-speed mixers) for their preliminary dissolution, and therefore they are used exclusively in the form of 75 ready-made low-concentration aqueous solutions.

Ф The disadvantage of known inhibitors is the inconvenience in their transportation and use, due to (ee) the production of inhibitors in a liquid state - in the form of aqueous solutions.

The well-known inhibitor of corrosion and salt deposition based on water-soluble polymers is not produced in solid form. in the form of, for example, granules, tableted or pressed tablets, due to the fact that the formation of polymers requires the use of special binding or lubricating components (graphite, coal pitch, lime), which negatively affect on water quality.

The invention is based on the task of improving the well-known corrosion and salt deposition inhibitor, in which, by changing the qualitative and quantitative composition of the inhibitor components, in particular, the introduction of an additional substance known in the art, it is possible to manufacture the inhibitor in a solid form convenient for transportation and use. condition in. The task is solved by the fact that the known inhibitor of corrosion and salt deposition, which includes a water-soluble polymer with a molecular weight of 3000-20000, according to the proposed invention, additionally contains, to a lesser extent, one anhydrous hygroscopic salt of alkali or alkaline earth metals of inorganic acids, the molecule of which can attach from 4 to 12 water molecules, for example, sodium sulfates and carbonates, 60 potassium, calcium, orthophosphates of sodium, potassium, in the following composition of components, in 9% by weight: water-soluble polymer with a molecular weight of 3000-20000 5-40 anhydrous hygroscopic salt alkaline or alkaline earth metals of inorganic acids, the molecule of which can connect from 4 to the rest. 12 water molecules, for example, sulfates and carbonates of sodium, potassium, calcium, orthophosphates of sodium, potassium b5

The problem is solved by the fact that as a water-soluble polymer with a molecular weight of 3000-20000,

use, for example, polymaleic or polyacrylic acids, or their copolymers, or their water-soluble salts.

The task is solved by the fact that the inhibitor additionally contains non-ionic surfactants, 0-595 wt.

The task is solved by the fact that nonionic surfactants are selected from a number of: polyoxyethylated ethers of fatty acids, alcohols, amines, alkyl phenols, polyglycols.

The technical result of the proposed invention consists in improving the contact of polymer particles with each other during the production of the inhibitor in the solid state. 70 The advantage of the proposed inhibitor in comparison with the known inhibitors, which are produced in the form of aqueous solutions, is: - exclusion of costs of demineralized water for its production; - convenience of packaging; - decrease in turnover and no need to develop a special transportation technology and /5 Use as intended. The consumer does not need to use special dispensers and other equipment, for example, pipelines for delivering the inhibitor as prescribed.

Another advantage of the proposed inhibitor is the improvement of the dissolution of polymers during the use of the inhibitor, because in the process of dissolution, the molecules of anhydrous hygroscopic salts of alkaline or alkaline earth metals of inorganic acids added to the inhibitor, together with water molecules, penetrate between the polymer molecules, significantly increasing the distance between them during the swelling process and dissolution.

Another advantage of the proposed invention is the possibility of using the original component - a water-soluble polymer in the form of concentrated aqueous solutions, because water from their solution is easily absorbed by anhydrous hygroscopic salts of alkali and alkaline earth metals, the molecules of which can attach from 4 to 12 water molecules.

The proposed corrosion and salt deposition inhibitor includes a water-soluble polymer with a molecular weight of 3000-20000 and, to a lesser extent, one anhydrous hygroscopic salt of alkali or alkaline earth metals of inorganic acids whose molecule can attach from 4 to 12 water molecules, for example, sulfates and carbonates of sodium, potassium, calcium, orthophosphates of sodium, potassium, in the following composition of components, in 90 mg.: sometimes water-soluble polymer with a molecular weight of 3000-20000 5-40 anhydrous hygroscopic salt of alkali or alkaline earth metals of inorganic acids, the molecule of which can join from 4 to the rest. se 12 molecules of water, for example, sulfates and carbonates of sodium, potassium, calcium, orthophosphates of sodium, potassium, or their mixture

As a water-soluble polymer with a molecular weight of 3000-20000, use, for example, polymaleic acid or polyacrylic acid, or their copolymers, or their water-soluble salts. In addition, the inhibitor may include non-ionic surfactants, 0-595 wt. ise)

The inhibitor is made by mixing the components in the proposed ratio. Next, the obtained mass is formed in a tablet machine or on a press in the form of tablets with a size of 5-20 x 5-20 mm, or in a granulator in the form of granules. The finished inhibitor is packed in bags or packets and sent to the consumer. Do they use an inhibitor based on the 30-bOg inhibitor on them? of the physical volume of water to be treated or additional water from 70 circulating water supply systems. c The proposed invention is explained by a specific example of MoZ production and use of an inhibitor. "from Example Mo1

Take ZOkg of OEDFK, ZOkg of sodium hexametaphosphate and 4Okg of anhydrous sodium sulfate, which can add 10 molecules of water (Ma»5O)4.10H20), mix thoroughly, load into a tablet machine and form tablets 10x100mm in size under a pressure of 15 o. Are the obtained corrosion and salt deposition inhibitor tablets added to the supplemental water of the circulating water supply system, or simply to the water of the circulating water supply system with (ee) the calculation of 5Og of the inhibitor on them? physical volume of water. The efficiency of protection against salt deposition and corrosion is 92905.

Example Мо2 имо) ZOkg of OEDFK, 20kg of IOMO-1, which contains 3595 sodium salts of nitrilotrimethylphosphonic acid in «m of dry product, ZOkg of sodium hexametaphosphate and 20kg of anhydrous sodium sulfate, are mixed, loaded into a tablet machine and under pressure are formed into tablets of size 10x1Omm. The obtained corrosion and salt deposition inhibitor tablets are added to the supplementary water of the circulating water supply system, or simply to the 5B water of the circulating water supply system, based on the calculation of the bOg inhibitor on them From the physical volume of water, which has a total hardness of 12 mg.equiv.//dm?, total alkalinity 3.5 mg.eq.//dm?, concentration of chlorine ions bOOmg/l,

P corrosion rate 1.5 mm/year. After water treatment with the proposed inhibitor, the efficiency of protection against salt deposition is 9995, the rate of steel corrosion is 0.08-0.mm/year.

Example Mo C 60 Take 5 kg of 35 95% aqueous solution of the sodium salt of polyacrylic acid with a molecular weight of 5000 and 50 kg of anhydrous sodium carbonate, which can add 10 water molecules (Ma»COz.10H20), mix thoroughly, load into the tablet machine and under pressure form tablets 10x10 mm in size. Are the obtained corrosion and salt deposition inhibitor tablets added to the supplemental water of the recirculating water supply system, or simply to the water of the recirculating water supply system based on the god of the inhibitor on them? physical volume of water. The effectiveness of b5 protection against corrosion and salt deposition is 92960.

Sources of information taken into account during the examination:

1. Russia, patent Mo2173304, СО2Е, С2ЗЕ.

2. Ukraine, patent Mo42519A, СО2Е5/00, 5/06-5/14 (prototype).

Claims (9)

2 Formula of the invention 1. Corrosion and salt deposition inhibitor, including phosphate and phosphonate inhibitors, which is characterized by the fact that it additionally contains at least one anhydrous hygroscopic salt of alkaline or alkaline earth 70 metals of inorganic acids, the molecule of which can attach from 4 to 12 molecules water, for example, sulfates and carbonates of sodium, potassium, calcium, orthophosphates of sodium, potassium, in the following composition of components, 90 wt.: phosphate inhibitor 5-40 phosphonate inhibitor 5-40 anhydrous hygroscopic salt of alkali or alkaline earth metals of inorganic acids, the molecule of which can connect from 4 to the rest. 12 water molecules, for example, sulfates and carbonates of sodium, potassium, calcium, orthophosphates of sodium, potassium 2. The inhibitor according to claim 1, which is characterized by the fact that it additionally contains nonionic surfactants, 0-5 9Uo wt. C. The inhibitor according to claims 1, 2, which is distinguished by the fact that the phosphate inhibitor is selected from the group: sodium polyphosphates, in particular, sodium tripolyphosphate, sodium hexametaphosphate, sodium pyrophosphate. 4. The inhibitor according to claims 1, 2, C, which is characterized by the fact that the phosphonate inhibitor is selected from the following: oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, hydroxyethylidenediphosphonic acid, aminoalkanephosphonic acid, alkanediphosphonic acid with the number of carbon atoms in the alkane from 1 to 6, or their water-soluble salt; salt deposition inhibitor IOMO-1 in the form of an aqueous solution of sodium salts of nitrilotrimethylphosphonic acid with a content of the main substance at least 25.0 95 wt. 5. Inhibitor according to claims 1, 2, C, 4, which differs in that nonionic surfactants are selected from the following: polyoxyethylated esters of fatty acids, alcohols, amines, alkylphenols, polyglycols. b. Corrosion and salt deposition inhibitor, which includes a water-soluble polymer with a molecular weight of 3000-20000, which is characterized by the fact that it additionally contains at least one anhydrous hygroscopic salt of alkali or alkaline earth metals of inorganic acids, the molecule of which can attach from 4 to 12 water molecules, for example, sulfates and carbonates of sodium, potassium, calcium, orthophosphates of sodium, potassium, in Me the following composition of components, by mass: c water-soluble polymer with a molecular weight of 3000-20000 5-40 I«o) anhydrous hygroscopic salt alkaline or alkaline earth metals of inorganic acids, the molecule of which can connect from 4 to the rest. 12 water molecules, for example, sulfates and carbonates of sodium, potassium, calcium, orthophosphates of sodium, potassium 7. Inhibitor according to claim 6, which differs in that as a water-soluble polymer with a molecular weight of 3000-20000 « 70, for example, polymaleic or polyacrylic acids, or their copolymers, or their water-soluble water-soluble salts are used. 8. The inhibitor according to claims 6, 7, which is characterized by the fact that it additionally contains non-ionic surface-active substances, 0-5 95 wt. 9. The inhibitor according to claim 8, which is characterized by the fact that nonionic surfactants are selected from the following: polyoxyethylated esters of fatty acids, alcohols, amines, alkylphenols, polyglycols. Official bulletin "Industrial property". Book 1 "Inventions, useful models, topographies of integrated (ee) microcircuits", 2004, M 8, 15.08.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. -And in Russia) that 60 b5