UA25762U - Method for protection of metallic surface of heat and power engineering equipment in water rotation system - Google Patents

Abstract

A method for protection of metallic surface of heat-and-power engineering equipment in water rotation systems comprises a stage for water treatment with water-soluble polymer. High-molecular water-soluble polyamidoamine is used as a polymer.

Description

Description of the invention

The useful model refers to the treatment of industrial and domestic wastewater, in particular, to methods of protecting 2 metal surfaces, and can be used in the thermal power industry to protect thermal power plants, such as low-, medium- and high-pressure boilers, boilers and other equipment.

In the field of thermal power engineering, during long-term operation of the recirculating water supply system, under conditions of constant heating, cooling and aeration of water, the inner metal surface of the equipment, which is in direct contact with water inside the closed industrial recirculating water supply system, 70 is prone to the deposition of mineral salts in the form of scale, and also to the development of corrosion.

The formation of scale is caused by a high content of the main scale-forming hardness ions in water (Са 72,

Ma"2, Be"), which under the influence of high temperatures firmly bind to the heated metal surface with the formation of a layer of crystals with high heat-insulating properties. 75 The development of corrosion on the metal surface is explained by the fact that together with water, dissolved oxygen enters the water supply system, under the influence of which the natural protective film of the metal surface of thermal power plants is destroyed.

In general, the formation of scale and the development of corrosion on the metal surface leads to a decrease in the efficiency of the thermal power equipment.

Recently, to ensure the efficient operation of thermal power equipment, reagent treatment of water is used, which prevents the formation of salt deposits on the heat exchange surface of the equipment and somewhat reduces the corrosive activity of water.

The method of protection of the metal surface of thermal power equipment in water circulation systems, which includes the stage of water treatment with a water-soluble polymer (56017994 (RAYir MU. Sagpeg, Maregmie, 2000.01.251I.

In a known method, a synthesized M-alkyl polyacrylamide is used as a water-soluble polymer, containing distributed repeating units of the following formula:

K5 Be, (1 zo -9-СН с (Се) с-о му 1

M s (SN ReSNeaMen -(snvsSniaMegu- in de "

B" is chosen from the group that includes a hydrogen atom and C.4-C3 alkyl; 8 c p and 4 are integers from 1 to 10; and B2 and BZ are radicals from the group that includes a hydrogen atom and C.-C" from alkyl; i Ne" and Ne" are selected from the group consisting of an oxygen atom and a nitrogen atom;

B" is selected from the group that includes a hydrogen atom and C4-C0 alkyl;

VZ and CC? - radicals from a group that includes a hydrogen atom, a carboxylate group of C--C3 alkyl and a cycloalkyl group of 3-6 carbon atoms, formed by the union of K and K radicals in the form of a nucleus. 4! The synthesis of M-alkyl polyacrylamide is based on the interaction of polyacrylic acid or copolymers of acrylic acid derivatives and acrylamide with various secondary aliphatic amines in the presence of basic or acidic catalysts under conditions of high temperature and pressure.

Gee! 20 As secondary aliphatic amines, amines of the following formula were chosen:

IS! I don't know

IS:

The use of secondary aliphatic amines in the composition of M-alkyl polyacrylamide determines its ability to dissolve scale crystals formed on the metal surface of thermal power equipment. c However, the application of a known technical solution does not prevent the destructive effect of water-soluble oxygen on the metal elements of thermal power equipment made of ferrous, non-ferrous metals and their alloys. Thus, the disadvantage of the known method of protecting the metal surface in water circulation systems is the low efficiency of the heat energy equipment, which is caused by the corrosive action of the water environment.

The basis of a real useful model is the task of creating such a method of protecting the metal surface of thermal power equipment in water circulation systems, the use of which would allow to exclude the corrosive effect of the water environment on the metal surface of thermal power equipment and thus increase the efficiency of its operation.

The problem is solved by the fact that in the method of protecting the metal surface of thermal power equipment in water circulation systems, which includes the stage of water treatment with a water-soluble polymer, according to a useful model, a high-molecular water-soluble polyamidoamine of the following structure is used as a polymer: " сн, И

N nego nNA-s-0- Mach 70 | And t -s- s

Co

MN

Sn.- 5 1-t de

IS! - secondary aliphatic and/or cyclic amine residue;

ЯМ с р: schi v'-v2--sn.-CH-OH; -

IN? selected from the group consisting of a hydrogen atom and C.-C7 alkyl; t is the proportion of carboxyl groups in partially hydrolyzed polyacrylamide.

In the proposed technical solution, a high molecular weight water-soluble polyamidoamine is used as a polymer, which is obtained as a result of the interaction of methylol derivatives of water-soluble secondary aliphatic and/or cyclic amines and partially hydrolyzed polyacrylamide. at

The use of high-molecular water-soluble polyamidoamine results in the formation of a strong hydrophilic film that protects it from the corrosive action of water-soluble oxygen inside a closed industrial system of reversible o

Water supply. Ha

This is explained by the fact that upon surface contact of high-molecular water-soluble polyamidoamine with the metal surface of thermal power equipment, the interaction of carboxyl groups of high-molecular water-soluble polyamidoamine with metal ions occurs, the result of such interaction is the formation of a "strong hydrophilic film."

Thus, the application of the method of protection of the metal surface of heat energy equipment in water circulation systems, which is claimed, allows to completely exclude the corrosive effect of the water environment on the metal surface of heat energy equipment and thus increase the efficiency of its operation. "» Further, the useful model is explained by a detailed description of its implementation.

The method of protecting the metal surface of thermal power equipment in water-circulating systems consists in introducing high-molecular water-soluble polyamidoamine into the industrial water inside the closed industrial circulating water supply system.

This is done in this way. The finished water-soluble polymer in the form of a suspension is diluted with water at the rate of 2-20 ml of suspension per 1 liter of water.

The resulting solution is introduced into the circulating water supply system with the help of a pump in the amount that would be necessary to ensure the optimal pH of the water, the value of which is regulated by the rules of operation of thermal energy equipment in closed systems of circulating water supply and is pH-9.1-9.3 units.

As a result of the surface contact of the water-soluble polymer with the metal of the thermal power equipment, a strong hydrophilic film is formed on its inner surface, which protects the metal surface from the corrosive action of the water environment inside the closed industrial circulating water supply system.

The high content of modified acrylamide groups in the structure of high-molecular water-soluble polyamidoamine (up to 8095), which is due to the use of highly reactive methylol derivatives of water-soluble secondary aliphatic and/or cyclic amines of the general formula -Х-- 4-25 6" non br provides the possibility of obtaining a hydrophilic film that has high strength.

At the same time, on the metal surface of the thermal power equipment, the transition of the loose corrosion-penetrating layer of Re2Oz into the layer of magnetite RezO,, which has the strongest properties, occurs.

The strong magnetite film obtained as a result of the surface contact of high-molecular water-soluble polyamidoamine with the metal surface of thermal power equipment has high 65 adsorption properties, which ensure its reliable adhesion to the metal surface.

The proposed technical solution allows not only to exclude the corrosive effect of the water environment by forming a strong hydrophilic film and strong magnetite on the metal surface of the thermal power equipment, but also promotes the dissolution of hardness ions.

This is explained by the fact that when a water-soluble polymer interacts with the metal surface of the equipment, water-soluble metal complexes with polyamidoamine macromolecules are formed, followed by their transition into a soluble state for their removal from the system in the form of a compact finely dispersed sludge.

In the future, this property of high-molecular water-soluble polyamidoamine prevents the precipitation of hardness salts on the metal surface, which significantly improves the thermal conductivity of thermal power equipment.

This ability makes it possible to use the claimed method not only to protect clean metal surfaces from 7/0 scale, but also for surfaces without preliminary cleaning.

In addition, in the circulating water supply system, situations arise from time to time, which are associated with the technological shutdown of thermal power equipment, for example, for the purpose of carrying out preventive or repair work, during which their internal metal surface is also prone to the development of corrosion.

In order to avoid this, heat energy equipment is conserved, which consists in the fact that high-molecular water-soluble polyamidoamine is INTRODUCED into the water /5, the presence of which contributes to the formation of a strong magnetite film, which prevents the development of corrosion processes. During "wet" conservation, the thermal energy equipment remains filled with water for the period of work, and during "dry" conservation, after the formation of a film, the water is removed from the water supply system.

Thus, the application of the technical solution of the proposed method allows to ensure comprehensive protection of the metal surface of thermal power equipment in water circulation systems, which leads to an increase in the efficiency of its operation.

The production of high-molecular water-soluble polyamidoamine is based on the chemical reaction in an aqueous environment of partially hydrolyzed polyacrylamide of the following formula:

СО Ma 0-С-МН, | p where p-1000-10000 with 30 and methylol derivatives of secondary aliphatic and/or cyclic amines, of the general formula (Ce) 5 - -5 N.N, where they are E! - secondary aliphatic and/or cyclic amine residue; yu

YAM

35 o cm p: v'-kg--сСнНоСсн-ОН;

IN? - selected from the group that includes a hydrogen atom and C4-C7 alkyl; As a result of condensation of partially hydrolyzed polyacrylamide and methylol derivatives of secondary aliphatic amines, amidoamine groups are formed, the presence of which in the macromolecule of hydrolyzed polyamidoamine contributes to the formation of a strong magnetite film, which provides effective anti-corrosion protection of the metal surface of thermal power equipment. сн,- он сн,- сн яИ-тя - 2 2 2 сСН,- ОН --- t 1 res - 0 Mak t p-С- МН. 1st

FO sn.-- SN sn.,-- SN I-t) H,O then 0p-S -0-Mach | i s-p 1-t s Mmn--sn.,--7

The proposed method of protecting the metal surface of thermal power equipment in water circulation systems can be implemented in the conditions of industrial production on standard equipment, because its use allows in the process of the production cycle to provide effective protection of thermal power equipment and extend its service life.

The greatest economic effect from the use of a method of protecting the metal surface of thermal power equipment in water circulation systems can be obtained at large thermal power facilities (CHP), where decommissioning for repair or replacement of equipment is associated with large economic costs. b5

Claims (1)

The formula of the invention is a method of protecting the metal surface of heat energy equipment in water circulation systems, which includes the 2nd stage of water treatment with a water-soluble polymer, which differs in that a high-molecular water-soluble polyamidoamine of the following structure is used as a polymer: dream at 8 n.-sen--s-0 Ma | | t - -s С-о0 | - sn.-472 1-t c where (se) ry E" is the residue of a secondary aliphatic and/or cyclic amine; m 7-M M 2) and c v'-kg--sn.-CH-OH; B? choose from a group that includes a hydrogen atom and C.-C7 alkyl; « t - the proportion of carboxyl groups in partially hydrolyzed polyacrylamide. From c Official Bulletin "Intellectual Property". Book 1 "Inventions, useful models, topographies of integrated "from microcircuits", 2007 , M 13, 27.08.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. name) 1 -I b 50 Ko) c 60 b5