UA80665C2 - Anionite, method of its producing and a filler of filter cartridges - Google Patents

Abstract

Anionite, the anions of ionogenic groups of which are the anions of acids or salts of water-soluble phosphorus-containing scale and corrosion inhibitor; a method for preparation of the anionite which includes treatment of strongly basic polymerizing anionite with aqueous solution of acid or its water-soluble salt of water-soluble phosphorus-containing scale and corrosion inhibitor at ratio of the volumes of aqueous solution of inhibitor with concentration of 4-20 wt.% to the anionite as 7-10:1, and a filler of filter cartridges which includes a water-soluble phosphorus-containing scale and corrosion inhibitor, which is the anionite, the anions of ionogenic groups of which are the anions of acids or salts of water-soluble phosphorus-containing scale and corrosion inhibitor.

Description

Description of the invention

The proposed invention relates to the heat energy industry, in particular, to the production of sorbents based on strongly basic polymerization anions, which can be used in water treatment systems, heat supply, for the purification of drinking water, the treatment of cold water with inhibitors of salt deposits and corrosion in order to stabilize it before supplying it to steam boilers and also for household water heating devices: boilers, gas columns, electric and gas boilers, washing machines and dishwashers.

There are known inhibitors of salt deposits and corrosion based on phosphate or phosphonate acids or their water-soluble salts, which are widely used in thermoenergetics, in particular in the reversible cycles of cooling systems, heat supply and hydrotransport (11).

But the use of these inhibitors in the form of aqueous solutions for the treatment of cold water of hot water supply, which is supplied to household water heaters, is limited on the one hand by the low limit of the permissible concentration of these inhibitors in cold drinking water, and, on the other hand, by the absence of microdosers, 72 which could to ensure maintenance of the necessary, as well as stable over time and uniform volume of treated water, concentration of inhibitors in this water.

Also known are sorbents based on strongly basic polymerization anionite, type AB-17, AB-29 and others, the anions of ionogenic groups of which are in the hydroxyl or chlorine form. These anions are widely used to soften or desalinate water by ion exchange of hydroxyl or chlorine anions of their ionogenic groups for anions of salts and/or acids that are in water or aqueous solutions and cause their hardness (21.

In the process of water softening, known anionites provide stable over time and uniform allocation of hydroxyl or chlorine anions in the treated water volume and extraction of salt and/or acid anions from the water, which displace the hydroxyl or chlorine anions of the anionite.

Known anionites in the process of their use for water treatment of hot water supply are not capable of restraining the processes of formation of various types of deposits of hardness salts, corrosion products and destroying such deposits. Gee)

The closest in technical essence and achievable result to the proposed useful model is anionite, the anions of the ionogenic groups of which are the anions of acids or their water-soluble salts.

Anionite is a strongly basic polymerization anionite, the anions of iogenic groups of which are anions of mineral acids, in particular, hydrochloric acid or its water-soluble sodium salt |21. at

The disadvantage of such anionite is that if it is used to treat cold water of hot water supply, which is supplied to the heat supply system for fueling steam boilers as well as for domestic water heating devices, it does not prevent the formation of various types of deposits, hardness salts, ee products, corrosion and other products on the heat exchange surfaces of hot water supply systems and does not destroy deposits, Ha") that have already accumulated on these surfaces. 325 The basis of a useful model is the task of improving the known anionite, in which, by changing its qualitative composition, in particular, changing the chemical composition of the anions of the ionogenic groups of the anionite, it is possible to create an anionite capable of restraining the formation of deposits of various types on the heat exchange surfaces of hot water supply systems and destroying such deposits , which have already accumulated on these surfaces. "

The problem is solved by the fact that the anionite, the anions of ionogenic groups of which are anions of acids or their water-soluble salts, according to the proposed useful model, as anions of acids or their water-soluble salts, and it contains anions of acids or salts of a water-soluble phosphorus-containing salt release and corrosion inhibitor.

From" The problem is solved by the fact that, as anions of salts or acids of a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion, anionite contains anions of acids or salts of a phosphate or phosphonate inhibitor of salt deposits and corrosion from 50 to 200 g/dm? anionite со 395 The task is solved by the fact that as anions of acids or salts of a phosphate inhibitor it contains anions of a phosphate inhibitor selected from the following: sodium polyphosphates, in particular, sodium trisulfophosphate, (ав) sodium hexametaphosphate, sodium hygrophosphate, and as anions of acids or salts of a phosphonate inhibitor it contains b» anions of a phosphonate inhibitor selected from the following: oxyethylidenediphosphonic acid, npyrlotrimethylphosphonic acid, hydroxyethylidenediphosphonic acid, aminoalkanephosphonic acid with

He) 50 with the number of carbon atoms in an alkane from one to six, or their water-soluble salts; inhibitor of salt deposits sp IOMO-1 in the form of an aqueous solution of sodium salts of nitrilotrimethylphosphonic acid with a content of the main substance - not less than 25.09 mass, reagent PAF-1ZA in the form of an aqueous solution of polyaminomethylene phosphonates with a content of the main substance 28-3595 mass.

The proposed invention provides the possibility of creating a modified anionite, which is able to restrain the processes of formation of insoluble deposits: deposits of calcium, magnesium, various types of scale and

HF) of corrosion products in the process of heating the cold water of the hot water supply, due to the release of 7 inhibitor anions into the water, as a result of exchange reactions between the anions of the ionogenic groups of the modified anionite, which are the anions of salts or acids of the inhibitor, and the sulfate anions that are in the water. The inhibitor anions released into the water bind calcium and magnesium ions, block the crystals of calcium carbonate, magnesium hydroxide, and iron hydroxide (if present, for example, in the form of corrosion products), and in the form of small mobile complexes remain in the water and are easily removed together with water down the drain.

The advantage of the proposed anionite is that all inhibitor anions that are released into water form complexes with hardness salts and corrosion products that are fully biodegradable and do not pose a threat of water pollution for domestic and drinking water supply. because the proposed anionite can be used for stabilization treatment of hot water supply water with an open water intake, as well as in circulating water cooling systems of industrial enterprises and power plants, in closed heat supply systems, as well as for treatment of cold drinking water of hot water supply before it is supplied to domestic water heating devices.

The use of such anionite for water treatment provides the possibility of maintaining the necessary, as well as stable over time and uniform volume of treated water, concentration of corrosion inhibitors and salt deposits, does not require special softening of water and special microdosers for dosing inhibitors.

The proposed anionite can be used as a filler for cartridges of industrial filters as well as 70 household tubular filters and used in conditions of high heat stress.

The technical result of the proposed useful model consists in the creation of a modified anionite capable of restraining the processes of formation of various types of deposits, scale and corrosion products in the process of water treatment.

The proposed anionite is a modified anionite, the anions of ionogenic groups of which are anions of 75 phosphorus-containing inhibitor of salt deposits and corrosion, in particular, a phosphate inhibitor selected from the series: sodium polyphosphates, in particular, sodium tripolyphosphate, sodium hexametaphosphate, sodium pyrophosphate, or a phosphonate inhibitor selected from the series: oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, hydroxyethylidenediphosphonic acid, aminoalkanephosphonic acid with the number of carbon atoms in the alkane from one to six, or their water-soluble salts; inhibitor of salt deposits IOMOS-1 in the form of an aqueous solution of sodium salts of nitrilotrimethylphosphonic acid with a content of the main substance - not less than 25,090 wt., reagent PAF-1ZA in the form of an aqueous solution of polyaminomethylene phosphonates with a content of the main substance 28-3595 wt.

The proposed anionite is obtained by passing a 4.0-20.096% aqueous solution of a phosphorus-containing salt deposit and corrosion inhibitor through a standard anionite of the AB-17, AB-29 type, or other anions in the hydroxyl or chlorine form, which are produced by industry and are commercial products. Water-soluble phosphorus-containing inhibitors of salt deposits and corrosion on a phosphate or phosphonate basis are also produced i) by industry and are commercial products.

The produced anionite can be identified for the presence of water-soluble phosphorus-containing salt deposit inhibitor anions in it by determining the concentration of phosphorus-containing anions according to standard methods for determining such anions.

The method of manufacturing and using anionite for the treatment of cold water of hot water supply is explained by examples Mo1-9, "i

There is also a known method of producing anionite by treating a strongly basic polymerization anionite with an aqueous solution of an acid or its water-soluble salt and subsequent washing with water. at

As an acid or its water-soluble salt, hydrochloric acid or its water-soluble sodium salt is used (2). co

The disadvantage of the known method is that it does not provide the production of anionite capable of preventing the formation of deposits of hardness salts of various types, corrosion products and other products, or destroying such deposits on the heat exchange surfaces of hot water supply systems. "

The useful model is based on the task of improving the known method of manufacturing anionite, in which, by changing the process conditions, in particular, the use of a new substance known in the art,

And it provides the possibility of creating anionite capable of restraining the formation of deposits of various types on the heat exchange surfaces of hot water supply systems and destroying such deposits that have already accumulated on these surfaces.

The task is solved by the fact that in the known method of manufacturing anionite, which includes processing

Go! of a strongly basic polymerization anionite with an aqueous solution of an acid or a water-soluble salt, and subsequent washing with water, according to the proposed useful model, as an acid or a water-soluble salt, a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion is used in the ratio of the volumes of the aqueous solution

Ge" inhibitor to anionite, as (7-10): 1.

The task is solved by using an aqueous solution of a phosphorus-containing inhibitor

Me, salt deposits and corrosion with a concentration of 4-2095 wt. The problem is solved by the fact that a phosphate or phosphonate inhibitor of salt deposits and corrosion is used as a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion.

The task is solved by the fact that the phosphate inhibitor is used from the series: sodium polyphosphates, in particular, sodium tripolyphosphate, sodium hexametaphosphate, sodium pyrophosphate, and the phosphonate inhibitor is used from the series: oxyethylidenedyrosphonic acid, nitrilotrimethylphosphonic acid,

F) hydroxoethylidenediphosphonic acid, aminoalkanephosphonic acid with the number of carbon atoms in the alkane from one to six, or their water-soluble salts; inhibitor of salt deposits IOMOS-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 mass, because the reagent PAF-IZA in the form of an aqueous solution of polyaminomethylene phosphonates with a content of the main substance 28-3590 mass.

The proposed invention provides the possibility of creating a simple and effective method of manufacturing modified anionite with new properties, which is able to restrain the processes of formation of insoluble sediments, various types of scale and corrosion products in the process of water treatment, in particular, when heating cold 65 Water of hot water supply.

The technical result of the proposed useful model consists in the creation of a modified anionite,

capable of restraining the processes of formation of various types of deposits, scale and corrosion in the process of water treatment.

The proposed method includes the following stages: - treatment of the strongly basic polymerization anionite in the hydroxyl or chlorine form with an aqueous solution of a phosphorus-containing inhibitor of salt deposits and corrosion with a concentration of 4-2095 wt. with the ratio of the volumes of the aqueous solution of the inhibitor to the anionite, as (7-10): 1; - washing with water.

The proposed method is explained by examples of implementation of the method Mo1-6.

A filler for filter cartridges is also known, which includes a water-soluble inhibitor of corrosion and/or salt deposits. As an inhibitor of corrosion and salt deposits, water-soluble polyphosphate in the form of tablets is used. (3).

The disadvantage of the known filler is that it does not ensure the maintenance of the necessary concentration of the inhibitor in this water, which is stable over time and uniform over the volume of the treated water. This is due to the uneven dissolution of the inhibitor, which is used in a solid state: in the form of 7/5 Crystalline Polyphosphate tablets.

The basis of the invention is the task of improving the known filler, in which, by changing the qualitative composition of the filler, it is possible to maintain the necessary, as well as stable over time and uniform in volume, concentration of the inhibitor in this water.

The task is solved by the fact that in the known filter cartridge filler, which includes a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion, according to the proposed useful model, anionite is used as a filler, the anions of the ionogenic groups of which are anions of acids or salts of the water-soluble phosphorus-containing inhibitor of salt deposits and corrosion.

The task is solved by the fact that the anions of the ionogenic groups of anionite are anions of acids or salts of phosphate and/or phosphoiate inhibitor of salt deposits and corrosion from 50 to 200 g/dm3. Ha

The problem is solved by the fact that the anions of the acids or salts of the phosphate inhibitor are the anions of the phosphate inhibitor selected from the following: sodium polyphosphates, in particular, sodium tripolyphosphate, and9) sodium hexametaphosphate, sodium pyrophosphate, and the anions of the acids or salts of the phosphonate inhibitor are the anions of acids or salts of the phosphonate an inhibitor selected from the group: oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, hydroxyethylidenediphosphonic acid, aminoalkanephosphonic acid with the number of carbon atoms in the alkane from one to six, or their water-soluble salts; 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 - not less than 25.095 wt., reagent PAF-1ZA in the form of an aqueous solution of polyaminomethylphosphonates with (Te) content of the main substance 28-35905 wt.

The proposed invention makes it possible to create a filler that provides a stable over time and a uniform concentration of corrosion inhibitor and salt deposits in the treated water. with

The advantage of the proposed filler is that its use does not require special safety measures due to the use of the inhibitor in the form of anionite anions, and provides stable microdosing of the inhibitor due to a stable and uniform ion exchange process over time. "

The advantage of the filler is that it ensures stable and long-term operation of the filters with a simultaneous 70 reduction of energy costs. And also the fact that it can be used in conditions of high heat stress. - c The technical result of the proposed invention consists in ensuring the possibility of maintaining the necessary, as well as stable over time and uniform in volume treated water, the concentration of corrosion inhibitor and salt deposits.

The proposed filler is a modified anionite, the anions of the ionogenic groups of which are the anions of a phosphorus-containing inhibitor of salt deposits and corrosion, in particular, a phosphate inhibitor selected from the series: (ee) sodium polyphosphates, in particular, sodium tripolyphosphate, sodium hexametaphosphate, sodium pyrophosphate, and/or a phosphonate inhibitor selected from the series: oxyethylidenediphosphonic acid (OEDP), o nitrilotrimethylphosphonic acid (NTF), hydroxyethylidenediphosphonic acid (GOEDP),

He») aminoalkanephosphonic acid with the number of carbon atoms in the alkane from one to six, or their water-soluble salts; inhibitor of salt deposits YuMO-1 in the form of an aqueous solution of sodium salts of nitrilotrimethylphosphonic b acid with a content of the main substance - not less than 25.09 mass., reagent PAF-1ZA in the form of an aqueous solution of polyaminomethylene phosphonates with a content of the main substance 28-3595 mass.

The filler, which is a mixture of two anionites: anionite, the anions of which are phosphate inhibitor of salt deposits and corrosion, and anionite, the anions of which are ionogenic groups of which are anions of phosphonate inhibitor of salt deposits and corrosion, contains these anions in a volume ratio of (1: 5) to (5:1).

Ф. The proposed filler is delivered in the form of granules with a grain size of 0.3-3.О0mm and a moisture content of up to 7095, packed in disposable plastic cups with a volume of 0.5 liters. Cartridge with a filler volume - 400 cm3 or 0.4 l, has a service life - up to b0m? of water, and ensures the thermal stability of treated water - not less than 9095. 60 The proposed filler is explained by specific examples of Mo7-9 of its use in cartridges for processing cold drinking water and hot water supply for household appliances.

Example Mo1

10 liters of anionite 65 (ion exchange resin) AB-17x8 in chlorine form are loaded into a 20 liter ion exchange filter equipped with upper and lower drainage and distribution devices (DRP), product loading and unloading units. The filter with anionite is filled with water and left to swell the anionite for 24-48 hours. The layer of swollen anionite is loosened by water pressure through the lower DRP to remove small or destroyed granules. Next, the anionite is transferred from the chlorine form to the hydroxyl form, for which a 4 percent aqueous solution of caustic sodium is pumped from bottom to top with a dosing pump through the lower DRP and the anionite layer at a rate of bm/hour based on the calculation of bl of caustic sodium solution per 1 liter of loaded anionite At the end of supplying caustic sodium, the anionite is washed with running drinking water to a pH of no more than 9.5. Anionite in the hydroxyl form is treated with a 596% aqueous solution of OEDF acid. For this, the OEDF acid solution is pumped through the anionite according to the recirculation scheme at a speed of 4-bm/h with the ratio of the volume of the aqueous OEDF acid solution to the volume of the anionite, as (7-10): 1. The recirculation process leads to a constant residual acidity of the aqueous of the OEDF solution, that is, until the anionite is completely saturated. 70 The resulting anionite is washed with running drinking water to a pH of at least 5.5. The finished modified anionite is unloaded from the filter and loaded into disposable plastic cups with a volume of 0.5 l. The moisture content of anionite is up to 7095. The grain size is 0.3-3.0 mm. Phosphonate content - 150g/dm3.

An example of Mo2

10 liters of anionite (ion exchange resin) AB-17 x 8 in 75 Xchloro-form are loaded into the ion-exchange filter with a volume of 20 liters. The filter with anionite is filled with water and left to swell the anionite for 24-48 hours.

The layer of swollen anionite is loosened by water pressure through the lower DRP to remove small or destroyed granules. Next, a 5-9% aqueous solution of IOMS-1 is passed through the anionite at a speed of 4-6 m/hour with the ratio of the volume of the aqueous solution of IOMS-1 to the volume of the anionite, as (7-10): 1.

The recirculation process is carried out according to the balance of the content of total phosphonates in the solutions at the inlet and outlet of the filter. The recirculation process is completed when the content of total phosphonates in the IOMO-1 solution at the inlet and outlet of the filter is the same.

Example MoZ3 is carried out as given in example Moi, only instead of OEDF acid is used

Bulk aqueous solution of PAF-13ZA.

Examples Мо4 and Мо5 are carried out in the same way as given in example Мой, only instead of OEDF of acid Га

NTF acid or GEDF acid or aminomethylenephosphonic acid are used.

Example Mob is carried out as given in example Me2, only instead of IOMO-1, sodium polyphosphate (sodium tripolyphosphate or sodium hexametaphosphate or sodium pyrophosphate) is used in the form of a 595% aqueous solution. The recirculation process leads to a stable residual acidity of the polyphosphate aqueous solution, i.e. to complete saturation of the anionite. The resulting anionite is washed with running drinking water to a pH of at least 5.5. yu

The finished modified anionite is unloaded from the filter and loaded into disposable plastic cups with a volume of

Oh, 5 liters. The moisture content of anionite is up to 7095. The grain size is 0.3-3.0 mm. The phosphate content is 150 g/dm3. oh

Example Mo7. Anionite produced according to any of the examples Mo1-5 is loaded into a typical cartridge (se) of a household tubular filter. The cartridge is installed in the filter mounted on the bypass line of cold drinking water supply to domestic heating appliances. During the passage of cold water through the cartridge with o anionite, the water is subjected to stabilization treatment. The concentration of phosphonates in water is determined analytically by (ee) the difference of total phosphonates in water before and after stabilization treatment. The concentration of phosphonates after stabilization treatment should not exceed 1.Omg/dm" of water.

The stability of water before the formation of carbonate-calcium deposits is checked by boiling a sample of treated water for 5 minutes. The criterion of stability is the absence of turbidity of the sample during boiling and the absence of plaque on the walls of the beaker after removing the sample. t s Example Mo8. Anionite, made according to Mob's example, is loaded into a typical cartridge of a household filter. The cartridge is installed in a filter mounted on the bypass line for the supply of cold drinking water to domestic heating appliances. The concentration of phosphates in the water is determined analytically by the difference of total phosphates in the water before and after the stabilization treatment. The concentration of phosphates after the stabilization treatment should not exceed 3.Bmg/dm To determine the stability of treated water, take 200-300cm from a sample of treated water. The sample av) is transferred to a heat-resistant glass, a household kettle is immersed in the sample, brought to a boil and boiled for three minutes. The stability of treated water is determined visually due to the absence of scale on the boiler and the walls of the glass.

Ge") 20 Example Mob. Anionite made according to any of the examples Mo1-5, i.e. anionite modified with a phosphate inhibitor of salt deposits and corrosion, and anionite made according to example Mob, i.e. anionite modified with a phosphate inhibitor of salt deposits and corrosion, are mixed in a ratio of 1:11 by volume and loaded into a typical household filter cartridge. The cartridge is installed in the filter mounted on the bypass line of cold drinking water supply to domestic heating appliances. The concentration of phosphates after water stabilization treatment should not exceed 3.5 mg/dm ? of water, and the concentration (F) of phosphonates should not exceed mg/dm? water The stability of treated water is determined as follows

GI in example Mo8.

Sources of information taken into account during the examination: in 1. CA, patent Mob8727 A, August 16, 2004, Bull. Mo8. 2. KHZ, M, 1963, vol. 2, p. 299-305. (prototype). 3. Advertising prospectus Bozatakh Viy. Proportional dispenser with semi-phosphate (prototype).

Claims (9)

The formula of the invention b5 1. Anionite, the anions of ionogenic groups of which are anions of acids or their water-soluble salts, which differs in that, as anions of acids or their water-soluble salts, it contains anions of acids or salts of a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion. 2. Anionite according to claim 1, which differs in that, as anions of salts or acids of a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion, it contains anions of acids or salts of a phosphate or phosphonate inhibitor of salt deposits and corrosion in a concentration of 50 to 200 g/dm3. 3. Anionite according to claim 1 or 2, which differs in that, as anions of acids or salts of a phosphorus-containing inhibitor, it contains anions of a phosphate inhibitor selected from the group: sodium polyphosphates, in particular, sodium tripolyphosphate 70, sodium hexametaphosphate, sodium pyrophosphate, or anions of acids or salts of a phosphonate inhibitor selected from the following: oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, hydroxoethylidenediphosphonic acid, aminalkanephosphonic acid with the number of carbon atoms in the alkane from one to six, or their water-soluble salts, the salt deposit inhibitor IOMOS-1 in the form of an aqueous solution of sodium salts of nitrilotrimethylphosphonic acid containing of the main substance is not less than 25.0 90 wt., 75 reagent PAF-1Z3A in the form of an aqueous solution of polyaminomethylene phosphonates with a content of the main substance 28-35 90 wt. 4. The method of obtaining anionite, which includes treatment of a strongly basic polymerization anionite with an aqueous solution of an acid or its water-soluble salt, and subsequent washing with water, which differs in that the acid or its water-soluble salt is taken as a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion at the ratio of the volumes of the aqueous solution inhibitor with a concentration of 4-20 wt.95 to anionite, as 7-10: 1. 5. The method according to claim 4, which differs in that a phosphate or phosphonate inhibitor of salt deposits and corrosion is used as a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion. 6. The method according to claim 5, which differs in that the phosphate inhibitor is selected from the series: sodium polyphosphates, in particular, sodium tripolyphosphate, sodium hexametaphosphate, sodium pyrophosphate, and the phosphonate inhibitor is selected from the series: oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, hydroxoethylidenediphosphonic acid, aminalcanphosphonic acid acid with the number of carbon atoms in the alkane from i9) one to six, or their water-soluble salts, salt deposit inhibitor IOMOS-1 in the form of an aqueous solution of sodium salts of nitrilotrimethylphosphonic acid with a basic substance content of at least 25.0 9% by weight, reagent PAF-1ZA in in the form of an aqueous solution of polyaminomethylene phosphonates with a content of the main substance of 28-3595 im by mass. 7. Filler for filter cartridges, which includes a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion, which differs in that anionite is used as a filler, the anions of ionogenic groups of which are (Te) anions of acids or salts of a water-soluble phosphorus-containing inhibitor of salt deposits and corrosion. 8. Filler according to claim 7, which differs in that the anions of the ionogenic groups of the anionite are anions of acids or o salts of phosphate and/or phosphonate inhibitor of salt deposits and corrosion in a concentration of 50 to 200 g/dm3. (uh) 9. Filler according to claim 8, which is characterized by the fact that the anions of the acids or salts of the phosphate inhibitor are the anions of the phosphate inhibitor selected from the group: sodium polyphosphates, in particular, sodium tripolyphosphate, sodium hexametaphosphate, sodium pyrophosphate, and the anions of the acids or salts of the phosphonate inhibitor are "acids or salts of a phosphonate inhibitor selected from the following: oxyethylidenediphosphonic acid, nitrilotrimethylphosphonic acid, hydroxoethylidenediphosphonic acid, aminosalkanphosphonic acid with the number of carbon atoms in the alkane from one to six, or their water-soluble salts; inhibitor of salt deposition and IOMO-1 in the form of an aqueous solution of sodium salts of nitrilotrimethylphosphonic acid with a basic substance content of at least 25.0 90 wt., PAF-IZL reagent in the form of an aqueous solution of polyaminomethylene phosphonates with a basic substance content of 28-35 90 wt (ee) Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated circuits", 2007, M 16, 10.10.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. (22) b 50 sl F) ime) 60 b5