UA139862U - ANTISCALANT WITH BIOCIDAL ACTION FOR COMPLEX ANTI-CORROSION PROTECTION IN CIRCULATORY COOLING SYSTEMS OF HEAT EXCHANGERS - Google Patents

Abstract

Antiscalant with biocidal action for complex corrosion protection in circulating cooling systems of heat exchangers of power plants and industrial enterprises contains a reagent for inhibition of organic and mineral acids, which contains from 77 wt. % to 11 wt. % chemically desalinated water (CAS 7732-18-5); from 5 wt. % to 20 wt. % 1-hydroxyethylidene diphosphonic acid (OEDPK, CAS 2809-21-4) and from 10 wt. % to 40 wt. % hydrogen peroxide 50% (H2O2, CAS 7722-84-1). Additionally, the antiscalant contains the following components, in the following ratios, wt. %: monoethanolamine (MEA, CAS 2809-21-4) 2-5 dimethyl sulfoxide (DMSO, CAS 67-68-5) 0.5-2 hexamethylenetetramine (Urotropin, CAS 3710-84-7) 5-20 polyethylene glycol (PEG, CAS 25322-68-3) 0.5-2.

Description

The useful model belongs to the field of reagent methods for the preparation of feed water in closed circulation cooling systems (CCO) of heat exchangers at power plants and industrial enterprises in order to minimize losses from corrosion processes and prevent the formation of sediments of mineral and organic origin.

The requirements for reagent treatment in closed circulation cooling systems of power plants are defined in the current regulatory documents (ND): 1. GKD 34. 02.507-2003 "Technical operation of power plants and networks. Rules" 2. RD 34.22.501-87 "Methodical instructions for prevention formation of mineral and organic deposits in turbine condensers and their cleaning" 3. RD 34.22.506-85 (MU 34-70-115-85) "Methodical instructions for the operation of flowless cooling systems" 4. RD 34.22. 503-88 "Methodical instructions for stabilization treatment of cooling water in circulating cooling systems with cooling towers with oxytylidene diphosphonic acid" 5. RD 34.22.401-85 "Methodical instructions for setting up technical water supply systems of power plants (MU 34-70-112-85)" 6. GKD 34.22.502-95 "Chemical cleaning of condensers of turbines and heat exchangers at thermal power plants. Methodical instructions."

According to the current ND, to ensure scale-free and non-corrosive operation of the CSO, it is necessary to perform the following measures |, 2, ZI: 1) to carry out system purging or water treatment to prevent the precipitation of carbonate sediments by: acidification (with sulfuric or hydrochloric acids); phosphating with inorganic polyphosphates, oxyethylidene diphosphonic acid (OEDFK) SAB5 Mo 2809-21-4; liming with deoxidation or using a combined method and treatment (acidification and phosphating with inorganic polyphosphates, sodium tripolyphosphate SAB Mo 2809-21-4; or acidification and dosing of OEDFC, 2) carry out treatment with biocides to protect against biodamage and deposition of biological films and sediments on the surface of the equipment heat exchangers and pipe systems and

From water collectors. As a rule, treatment with chlorine (СА5 Mo 2809-21-4), copper salts is used: copper chloride (СА5 Me 2809-21-4), copper sulfate (СА Me 2809-21-4); 3) apply corrosion inhibitors depending on the type of cooling water stabilization - alkaline or acidic, respectively, alkaline or acidic corrosion inhibitors.

When using OEDFC as an antiscalant, that is, a reagent that inhibits precipitation of carbonates, it is necessary to take into account that the concentration of the antiscalant should be within 0.25-2 mg/l. Since it does not work in smaller doses, and in larger doses it causes corrosion of both metal and concrete. In addition, the protective effect of OEDFC is limited by the hardness of the cooling water, which should be no more than 7.5 mg-equiv./l (clause 1.3 RD 34.22.506-85).

During acidification or alkaline phosphating of the cooling water, it is very difficult to maintain the correct dosage, since the circulation circuit is very large, the circulation speed is also very significant - more than 15,000 mzZ/h, which requires a complex monitoring system based on a number of scaling indices: Langelier, Rizner, Pakorius, which are quite not described in our regulatory documents. When using more than two reagents, it is practically impossible to adjust the monitoring system according to the standard parameters of chemical control, which leads both to the periodicity of the dosing of reagents and to their failure to add to the cooling water in general.

Corrosion inhibitors in cooling systems are not defined by regulations. In addition, the regulatory documents do not define the methods of controlling the level of corrosion and the necessary prompt response.

The use of organic biocides in cooling systems is very limited due to their high cost, low efficiency and high environmental hazard. The use of chlorine and its compounds, as well as copper salts, is very harmful to the environment and economically unprofitable, because their dosage increases corrosion processes, and the impact on biological life is insufficient, since they are used periodically.

Deposits that have already formed in the CSO are not removed by known reagents during operation, and chemical cleaning of such systems is technologically unprofitable and extremely dangerous for the environment.

When using reagents in circulating cooling systems, it is necessary to take into account the large volume of these systems - more than 3000 m3 and up to 20000 m3. Accordingly, when dosing several reagents at once (from 2 to 5 or even more), their costs and price will be very significant. In addition, it is necessary to build complex installations for dosing and monitoring the content of components in the cooling system. This leads to the fact that at most industrial enterprises, the processing of circulating cooling systems is not carried out in full, or at all they use a reagentless method of operation with large purges of cooling systems or direct-flow cooling systems - where all the cooling water is not returned to the cycle, but is discharged into the environment . Such approaches are unacceptable both economically and ecologically in modern conditions.

However, since the main documents regulating the use of chemical reagents in closed circulation cooling systems of turbine condensers have not been revised for more than 30 years, all known reagents for compliance with operating conditions in cooling systems are outdated. Therefore, a number of new challenges, for example, protection against reproduction in the water cooling system and removal of dangerous bacteria, especially Legionella type, are not reflected in these documents.

Accordingly, the state-of-the-art in the operation of circulating cooling systems requires reagents with the following properties: 1) to ensure that hardness compounds (calcium and magnesium) do not fall out of the cooling water with a hardness of less than 7.5 mg-eq/l in aqueous solutions in the temperature range from 9 "C to 30 "C; 2) ensure an acceptable level of corrosion in the circulating cooling system - no more than 0.2 mm/year; 3) ensure the maintenance of biotic activity in the cooling water at a minimum level; 4) have a washing ability to wash away sediments, both of organic origin - biofilm, and of inorganic nature - carbonate deposits, in order to remove and clean contaminated heat exchange equipment of the CSO.

The reagent closest to meeting the specified requirements is the reagent according to patent 05 58007Z2A dated 1.09.1998, which is intended for comprehensive protection of CSO according to the "all in one" principle, with the following composition: 5095 Veisoi 575 - aqueous solution

Veysog 575 10 Fo hydroxyphosphonoacetic acid CA5 23783-26-8 1. Hydroxyethylidenediphosphonic acid o

Oedievi 2010 B; B; (SAB 2809.21.4) 58-62 Fo "Phosphonic acid (SAB5 13598.36.2) - 1.8-2.5 90

CA5 40623-75-4 2-Acrylamido-2-

Asiteg 2000 590 10 Fo methylpropane sulfonic acid -

Acrylic acid (AA/UAMRO

Eeosinyinoi: NENNYA NOOS: UNN S s: NNNNNNNNNYA

KNgROH

Two of the specified components are unacceptable for use in an open cooling system with cooling towers:

From 1) inhibitor tolyltriazole SAB 29385-43-1, insoluble in water, soluble in strongly alkaline solutions. It is an inhibitor for non-ferrous metals (silver, copper, nickel, zinc, lead), and it is ineffective for mild steel metal surfaces in CSOs with cooling towers; 2) ethylene glycol (SAB 107-21-1) is a highly toxic substance intended exclusively for closed cooling systems as an antifreeze and unsuitable for open circulation cooling systems.

Taking into account the above, a reagent was produced for comprehensive protection in circulating cooling systems with cooling towers and for use in modern coolers.

High technological indicators of this inhibitor for comprehensive anti-corrosion protection

CSO heat exchangers of power plants and industrial enterprises are provided by the following:

by cooking in activated chemically desalted water (SAB 7732-18-5) by heating to 85-90 C and purging with nitrogen or argon with a specific electrical conductivity of no more than 0.1 μS/cm - from 77,905 to 11 9o; by dissolving from 5 to 20 95 1-hydroxyehylidenediphosphonic acid (OEDFK, CA5 2809-21-4), which acts as an antiscalant and dispersant, i.e. it helps to keep the carbonate compounds of sediments in a suspended state, while at the same time contributing to the facilitated mechanical washing of sediments from the surfaces of already formed sediments; followed by dissolving from 10 to 40 95 hydrogen peroxide 50 95 (СА5 7722-84-1); adding monoethanolamine (MEA, САБ 141-43-55 from 2 to 595 to create a medium pH of at least 10.5; adding dimethyl sulfoxide (DMSO, САБ5 67-68-5) from 0.5 to 2 95; dissolving from 5 to 2095 of hexamethylenetetramine (urotropin, SAB 3710-84-7), which provides the basic anticorrosive activity of the reagent; by adding polyethylene glycol (PEG, CA5 25322-68-3) with a molecular weight up to 400 and in a concentration from 0.5 to C 95, which causes synergy (enhancement of action) OEDFC, as an antiscalant and dispersant.

Final homogenization of the inhibitor components by stirring in a nitrogen or argon environment under control of the pH, which should be at least 10.5.

Claims (1)

USEFUL MODEL FORMULA Antiscalant with biocidal action for comprehensive anti-corrosion protection in circulation cooling systems of heat exchangers of power plants and industrial enterprises, which is a reagent for inhibition of organic and mineral acids, containing from 77 wt. 95 to 11 wt. 95 chemically desalted water (SAbB 7732-18-55; from 5 wt.95 to 20 mab.9v of 1-hydroxyethylidenediphosphonic acid (OEDFK, CA5 2809-21-4) and from 10 wt. 95 to 40 wt. 95 of hydrogen peroxide 50 95-year (NgOg, CA 7722-84-1), which is distinguished by the fact that it additionally contains the following components, at the following ratios, mass 9o: monoethanolamine (MEA, CA5 2-5 2809-21-4) dimethyl sulfoxide (DMSO, 0 5-2 SAB5 67-68-5) hexamethylenetetramine 5-20 (Urotropin, CA5 3710-84-7) polyethylene glycol (PEG, CA5 0 5-2 25322-68-3) Mt