EA026582B1 - Inhibitor and method for preventive maintenance and cleaning of boiler equipment and closed water circulation systems from corrosion, scale, other mineral deposits and biological fouling - Google Patents

Abstract

The invention is related to biotechnology, in particular, to microbiological preventive measures and cleaning of boiler equipment and closed water circulation systems from corrosion, scale and other mineral deposits as well as biological fouling and biological damage. The invention discloses utilisation of microorganisms of Bacillus sp. genus as inhibitors of corrosion, scale and other mineral deposits as well as biological fouling. The invention proposes also a method for preventive maintenance and cleaning of boiler equipment and closed water circulation systems from corrosion, scale and other mineral deposits as well as biological fouling, comprising single-time application of an inhibitor containing anaerobic microorganisms of Bacillus sp. genus in an efficient amount. The invented inhibitor and method are environmentally safe and, with minimum serviceability assurance and maintenance costs, provide higher reliability and efficiency of equipment functioning in closed water circulation systems. The method is characterized also by the lowest possible power requirement and lower operating costs for higher efficiency. Furthermore, the method is independent of external factors.

Description

The invention relates to biotechnology, in particular to microbiological prophylaxis and cleaning of boiler equipment and closed water circulating systems from corrosion, scale and other mineral deposits, as well as biological fouling and biological damage, and can be used for the prevention and cleaning of boiler equipment, heat exchangers, pipelines and other equipment of any (production, household, etc.) closed water circulation systems. The invention, in particular, relates to an inhibitor of corrosion, scale and other mineral deposits, as well as biological fouling based on microorganisms, as well as to an appropriate method of prevention and protection.

The introduction of water circulation systems allows not only to provide consumers with water, but also to keep natural sources of water in a clean state, reduce the volume of wastewater and, as a result, significantly reduce the cost of water supply. At the same time, certain problems are inherent in water circulation systems, such as corrosion, scale, other mineral deposits, as well as biological fouling, which lead both to a decrease in the efficiency of the equipment and to its failure. The main cause of corrosion is the presence in the water of dissolved corrosive gases (oxygen, carbon dioxide) that get there when the water comes in contact with the atmosphere. Equipment corrosion, as well as the formation of scale and other mineral deposits are also caused by salts and other impurities contained in the circulating water. Various inhibitors are used to protect against corrosion, scale and other mineral deposits in circulating systems. In addition, deposits often form colonies of microorganisms in water circulation systems. This is especially true for systems in contact with the atmosphere. A variety of microorganisms, penetrating from open reservoirs into the circulating water supply system, settle on any solid surface in contact with water, develop, form settlements, called biological fouling; organisms themselves are called nutrients. Microorganisms (mold, bacteria, fungi) multiply and spread throughout the system, and form a thin layer on the inner walls of pipes and other equipment - a biofilm. Such a film is one of the forms of corrosion, since microorganisms secrete an aggressive secret that corrodes metals. Also, biofilm reduces heat transfer through heat exchange surfaces [1]. Chlorine is traditionally used to combat bacterial nutrients, and copper sulfate is used to destroy algae. Doses and frequency of chlorination are determined on the basis of laboratory tests of circulating water. Algae develop mainly in the warm season. Therefore, sulphate is treated with water 3-4 times a month during the period from April to October [2].

Traditionally, cleaning boiler equipment and closed water circulating systems from corrosion, scale and other mineral deposits, as well as biological fouling, is carried out in two ways: mechanical and chemical cleaning. At the same time, it is traditionally believed that methods using chemical ingredients (acids, alkalis) are the only possible option to remove the formed scale, biodeterioration and rust.

Thus, a method is known that includes introducing a flushing composition into the system of heat exchangers containing pyrosulphates or inorganic sulphate, hydrolyzed alkaline salts of tannin bark of larch, anionic surfactants, as well as acid and water at a certain ratio of components [3]. After cleaning with a flushing compound, an inhibiting scale and corrosion inhibiting compound containing hydrolyzable alkaline salts of larch bark tannin, anionic surfactants and water at a certain ratio is introduced into the heat exchanger system. The patent indicates that the implementation of the method provides a low corrosion rate at the stage of washing; increasing the protective properties of compositions exhibiting higher anti-corrosion properties due to passivation of the equipment surface, expanding the range of environmentally friendly and less expensive inhibitory agents. However, the method proposes the use of a chemical inhibitor of a complex composition, the effect of which on biological deposits is not mentioned.

Other methods known from the prior art, as a rule, differ in the composition of the inhibitor and also involve its periodic repeated introduction into the circulating water with preliminary washing of the system.

Potassium chromate and bichromate are known as inhibitors of a wide spectrum of action. They inhibit the corrosion process and also slow down biological fouling [2]. The method for the prevention and purification of closed water circulating systems using these inhibitors, as well as other methods of the prior art, involves periodic repeated administration of inhibitors in recycled water. In addition, inhibitors are also of a chemical nature. At the same time, this method, taking into account the use of a broad-spectrum inhibitor, which coincides mainly with the spectrum of action of the inhibitor according to the invention, can be adopted as a prototype for the proposed method for the prevention and cleaning of boiler equipment and closed water circulating systems from rust, scale and other mineral deposits, as well as biological fouling.

As mentioned above, known methods using chemical inhibitors have a number of significant drawbacks, among which are environmental hazards;

- 1 026582 the high cost of chemical cleaning methods;

one-time effectiveness for a short period of time (periodic flushing of the equipment is required as scale and biological fouling are formed);

the need to stop equipment at which chemical flushing is carried out;

the need for the disposal of waste acids, alkalis and aqueous solutions based on them;

reduced reliability and service life of the processed equipment;

the need for strict adherence to safety rules;

the need for trained personnel for chemical washing;

the need for special expensive equipment;

the use of various ingredients for various kinds of deposits;

short term preventative effect of inhibitors.

An alternative to traditional chemical methods for the prevention and cleaning of boiler equipment and any closed water circulation systems from corrosion, scale and other mineral deposits, as well as biological fouling, can be a microbiological method, i.e. a method using microorganisms as inhibitors with a number of advantages, the main of which is their higher ability to utilize corrosion products, scale and other mineral deposits, as well as biological fouling. The use of such microorganisms eliminates the need for chemical flushing of equipment to soften water, which will significantly reduce operating costs, practically eliminate the energy consumption and the dependence of the efficiency of the entire cleaning system on external factors. In addition to the obvious advantages, the use of microbiological inhibitors (environmentally friendly technology) for the prevention and cleaning of boiler equipment and closed water circulation systems from corrosion, scale and other mineral deposits, as well as biological fouling, will also allow you to get rid of existing corrosion, scale and other mineral deposits, as well as biological fouling;

minimize the appearance of new foci of corrosion, scale and other mineral deposits, as well as biological fouling;

increase the service life of the processed heat-exchange equipment by 1.5-1.7 times; eliminate side effects (does not destroy metal and other materials); reduce energy costs on processed equipment.

Thus, the objective of the invention is to develop an inhibitor and method for the prevention and cleaning of boiler equipment and closed water circulating systems from corrosion, scale and other mineral deposits, as well as biological fouling, which, being environmentally friendly, with minimal costs for ensuring operability and maintenance would ensure improving the reliability and efficiency of the operation of equipment of closed water circulation systems. The method, in particular, should have the lowest possible energy intensity, lower operating costs with higher efficiency. The method should be independent of external factors.

In this case, the economic component of the implementation of the method is several times lower than the market, with higher efficiency, reliability, lack of energy and operating costs, ease of operation of the water circulation system.

Earlier, the authors have already found ways of microbiological wastewater treatment, including the decomposition of oil products and phosphates [4], as well as the removal of wastewater odors [5]. In these methods, microorganisms of the genus VasShiB 8r., In particular strain VasShiB 8r., Having the number of the VKPM B-5061 depositor, were used as the only active or symbiotic components. Further studies of the authors confirmed their assumption regarding the possibility of wider use of microorganisms of the genus VasShiB Br., Including as inhibitors of rust, scale and other mineral deposits, as well as biological fouling.

Thus, the task is solved by the use of microorganisms of the genus VasShiB Br. as an inhibitor of corrosion, scale and other mineral deposits, as well as biological fouling.

The problem is also solved by the claimed method for the prevention and cleaning of boiler equipment and closed water circulating systems from corrosion, scale and other mineral deposits, as well as biological fouling, including the introduction of a corresponding inhibitor into the circulating water. The problem is solved due to the fact that a single injection of an inhibitor containing anaerobic microorganisms of the genus VasShiB Br. in an effective amount.

In this case, an effective amount can be calculated by a person skilled in the art, based on the volume of the carrier (water) circulating in the closed system and the degree of surface contamination.

An inhibitor in the form of activated sludge is preferably administered.

In the proposed method, strains are used, the characteristics of which most fully satisfy the task of preventing and cleaning boiler equipment and closed water circulation systems from corrosion, scale and other mineral deposits, as well as biological fouling in the complete absence of negative side effects. Inhibitors containing microorganisms of the genus Vashiv er. are entered once and do not require updating, i.e. completely eliminates the need for periodic washing and cleaning of equipment with inhibitors. These microorganism strains are archebacteria, optional, osmophilic (tolerant) and easily use amino acids as a source of carbon and energy, therefore, any protein substances can serve as a source of carbon nutrition for them.

So, for example, the thermophilic strain Vaschiv er., Having a VKPM B-5061 depositor number, was tested for microflora survivability in the range from -15 to 90 ° C, and is a mixture of sticking activated sludge bacteria in the form of rounded gram-negative movable sticks that form zooscopic . The culture is not demanding on nutrient media and can be cultivated on ordinary plate and beveled meat-peptone agar (meat-peptone broth), on dried active waste sludge under anaerobic conditions. Colonies of this strain on agar (90 ° C; 24 h) are round with a diameter of up to 1.5 μm, convex, slightly phosphorizing, but not staining the medium. Anaerobic with a high growth temperature (up to 90 ° C), the optimal growth temperature is 30-75 ° C, pH 6.2-8.6. It has catalase, oxidase and urease activity.

Further, the claimed method for the prevention and cleaning of boiler equipment and closed water circulation systems from corrosion, scale and other mineral deposits, as well as biological fouling using the inventive inhibitor containing microorganisms of the genus Vaschiv er., Will be discussed in more detail on some possible preferred, but not limiting examples. implementation.

The method is as follows.

An inhibitor containing microorganisms of the genus VasShiv v. Capable of synthesizing various enzymes that allow them to utilize biological fouling and various mineral deposits, including scale and rust, is introduced once (1 time) into the closed-loop water circulation system. The volume and amount of injected inhibitor are calculated based on the volume of the carrier (water) circulating in the closed system and the degree of surface contamination.

Example 1

In closed-loop water circulation system (12,600 m ³ of water) management petrochemical plant without pre-washing equipment introduced strain microorganism of the genus Bacillus sp. in the form of activated sludge in an amount of 450 l. The water circulation system was operated without rinsing / cleaning and treatment with inhibitors for two years. After two years, an inspection of the equipment showed that on the inner surfaces of the pipes and equipment of the water circulation system there are no visually distinguishable mineral and biological deposits, as well as damage.

The results of the operation of the water circulation system when implementing the proposed method of cleaning and prevention were compared with the results of the operation of the same system in the previous two years using chemical inhibitors known from the prior art for flushing / cleaning the equipment.

Comparative economic efficiency of cleaning contaminated internal surfaces of equipment according to the known (using chemical reagents) and the claimed method are shown in the table.

Index Known method The inventive method Number of cleanings equipment in 2 years 22 times 1 time The number of deleted spent acids in year 500 tons 0 tons Number of employees workers for cleaning per year 132 pax 2 pax Overhaul resource (carbon pipes become) 2.95 years 4.62 years

Example 2

A strain of microorganism of the genus VasShiv v. In the form of activated sludge in the amount of 100 l was introduced into the feed tank installed in front of hot water boilers (operating heating temperature 90 ° С). The volume of the entire heat supply system is about 400 m ^3. Extreme washing of the boilers with chemical 026582 bom was carried out 3 years before the application of the method. Chemical preparation (flushing the equipment with chemical reagents) was not carried out. Average indicators for the total hardness of the water are more than 3000 mg / l. When opening the boiler after 60 days from the moment the microorganism was introduced no scale was found on the inner surface in contact with water Opened heating elements (batteries) on the inner surface did not have any deposits (corrosion, scale, other mineral deposits, as well as biological fouling / deposits). Font transparency improved from 15 to more than 40, and the pH from 8.2 decreased to pH 7.5.

Example 3

A strain of a microorganism of the genus VasShik 8p., In the form of activated sludge in an amount of 3 liters, was introduced into the heating system of a private house. Before the introduction of the inhibitor, some radiators did not completely transfer heat. After 15 days, the heat transfer of all radiators was restored; no traces of rust or other deposits were found in the pipes.

Thus, among the main advantages of the proposed method for the prevention and cleaning of boiler equipment and closed water circulation systems from corrosion, scale and other mineral deposits, as well as biological fouling using the inventive inhibitor in comparison with traditional methods using chemical ingredients, can be called the removal of existing products corrosion, scale and other mineral deposits, as well as biological fouling;

minimizing the appearance of new foci of corrosion, scale and other mineral deposits, as well as biological fouling;

1.5-1.7 times increase in the service life of the processed equipment of closed water circulation systems, including heat exchange equipment;

lack of side effects (metal and other materials are not destroyed); reduction of energy consumption on processed equipment during its operation; a constant, practically unlimited in time, effect of a single treatment.

From the foregoing, it follows that the use of the claimed inhibitor and method for the prevention and cleaning of boiler equipment and closed water circulating systems from corrosion, scale and other mineral deposits, as well as biological fouling, is economically advantageous, industrially applicable, which is confirmed by examples, has an inventive step, since in its implementation, the effect and environmental result are significantly superior to methods using chemical ingredients.

Information sources

1. The main problems that arise during the operation of revolving cooling systems and possible solutions. Website Aqua Composite. [Electronic resource] - March 17, 2014. - Access mode: b11p: // tyi81pa1№a1eg.gi/uoyoroido1ouka_F) a_oBogo1pu_8181et /

2. Water supply to industrial enterprises. Internet resource eko1odurgot.gi. [Electronic resource] - March 17, 2014. - Access mode: Fire: // 1 о § § от от / / ис е Ъ]]]]]]]]] еко еко еко еко 107 107 8 8 8 рг рг рг рг рг рг рг рг рг рг рг рг ((((((((| | | | | | |.

3. Patent KI No. 2339586 C1, publ. 11/27/2008.

4. Patent EA No. 014386 B1, publ. 10/20/2010.

5. Patent EA No. 016361 B1, publ. 04/30/2012.

Claims (3)

CLAIM 1. The use of anaerobic microorganisms strain VasShi8 8r. VKPM V-5061 as an inhibitor of corrosion, scale and other mineral deposits, as well as biological fouling for the prevention and cleaning of boiler equipment and closed water circulation systems. 2. A method for the prevention and purification of boiler equipment and closed water circulation systems from corrosion, scale and other mineral deposits, as well as biological fouling, including the introduction of a suitable inhibitor into the circulating water, characterized in that they carry out a single injection of an inhibitor containing anaerobic microorganisms VasShi8 8p. VKPM B-5061 in an effective amount. 3. The method according to claim 2, characterized in that the inhibitor is introduced in the form of activated sludge.