RU2447199C2 - Method of producing steel corrosion inhibitor - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: method of producing steel corrosion inhibitor base on water-soluble polymer comprises filling cylindrical container with conical bottom with outlet in its lower part by 15-25% of water, polyoxyethylene, soda ash, bentonite clay and adding preset amount of water. Note here that process is carried on at 5-45°C with permanent mixing and forced circulation for 5-10 min after adding soda ash.

EFFECT: simplified procedure.

1 dwg, 1 ex

Description

FIELD OF THE INVENTION

The invention relates to the field of corrosion protection of steel and can be used to protect, for example, overpasses (railway and automobile bridges) and other metal structures.

More specifically, the invention relates to methods for producing corrosion inhibitors of steel (metals) based on water-soluble polymers.

State of the art

A known method of producing a metal corrosion inhibitor based on water-soluble polymers, including a water-soluble polyelectrolyte, which is obtained by polymerization of a quaternary ammonium salt of 1,2-dimethyl-5-vinylpyridinium methyl sulfate in an aqueous medium in the presence of a redox initiator β-hydroxypropyltretbutyl peroxide (patent RU32026565 11/173, 04.20.2003, bull. No. 11).

The disadvantages of the known method of obtaining a corrosion inhibitor include its labor costs due to the need to organize special production and use of special equipment.

This drawback was overcome in the method of producing a steel corrosion inhibitor described in patent RU No. 2353709, C23F 11/173, 04/27/2009, bull. No. 12, which we adopted as a prototype.

A known method of obtaining a corrosion inhibitor of steel based on a water-soluble polymer is that in a container equipped with a stirrer and a pH meter, a concentrated aqueous solution of the polymer is used, which is used as a polyoxyethylene, with a concentration of 0.9-1.0 wt.%, then the process is carried out with the stirrer operating and at 18-22 ° C, then a solution of soda ash with a concentration of 0.9-1.0 wt.% is introduced and the pH is adjusted to 8-9, after which an aqueous solution is introduced at a rate of 1 l / min suspension of bentonite clay with a concentration of 5-10 wt.%, then adding yayut calculated amount of water and the resulting mixture is stirred for 10-15 min. The ratio of components, wt.%, The following:

Polyoxyethylene 0.001-0.1 Bentonite clay 0.5-4.0 Soda ash 0.1-1.0 Water rest

The above known inhibitor was tested and proved to be a high degree of corrosion protection of steel.

As you can see, the method is quite simple, and the equipment used is widely available and widely used in many technological processes.

The disadvantages of this method include the following:

- the need for tight control and maintaining the temperature in a narrow range of 18-22 ° C;

- the need to pre-prepare concentrated solutions of polymer and bentonite by a long, at least 5 hours, swelling of the components in water;

- the need to monitor the pH level and maintain its constant value of 8-9.

The technical result of the invention is to remedy these disadvantages.

SUMMARY OF THE INVENTION

The specified technical result is achieved by the fact that in the method of obtaining a corrosion inhibitor of steel based on a water-soluble polymer, which is used as polyoxyethylene, soda ash and bentonite clay, which consists in the fact that polyoxyethylene, soda ash and bentonite clay are sequentially loaded into the container with constant stirring and adding a calculated amount of water, according to the invention, in a container that has a cylindrical shape, which is provided with a conical bottom with an outlet from With a hole in the lower part, initially from 15 to 25% of the required amount of water is loaded, then polyoxyethylene is poured, soda ash is added, the required amount of which is determined previously for the calculated amount of the prepared solution to bring it to a value of 8-9, after which bentonite clay is poured and add the calculated amount of water, while the whole process is carried out at a temperature of 5-45 ° C and constant stirring, and after adding soda ash - for 5-10 minutes, after completely falling asleep tonitovoy clay - within 5-7 minutes, and the resulting mixture was stirred for 5-10 minutes, and the stirring was carried out by forced circulation of a circulating pump connected by the inlet pipe with the outlet opening of the container, the outlet of which is immersed in a container.

It is easy to notice that the noted disadvantages of the known invention are eliminated in our solution, while a circulation pump is used as a mixer.

Below the invention is illustrated in the example implementation with the accompanying drawing, a diagram of equipment to provide a method for producing an inhibitor.

The implementation of the invention

A method of obtaining a corrosion inhibitor of steel based on a water-soluble polymer, which is used as polyoxyethylene, soda ash and bentonite clay, in general, consists of sequentially loading polyoxyethylene, soda ash and bentonite clay into a cylindrical container with constant stirring and adding a calculated amount of water. Specifically, the method consists in the fact that in the cylindrical container 1, which is equipped with a conical bottom 2 with an outlet 3 in the lower part, initially from 15 to 25% of the required amount of water is loaded. Then polyoxyethylene is poured, soda ash is added, the necessary amount of which is determined previously for the calculated amount of the prepared solution to bring its pH to a value of 8-9. After that, bentonite clay is gradually poured over and the calculated amount of water is added. In this case, the whole process is carried out at a temperature of 5-45 ° C and constant stirring, and after adding soda ash for 5-10 minutes, after completely filling the bentonite clay for 5-7 minutes, and the resulting mass is stirred for 5- 10 minutes. While mixing is carried out by forced circulation by means of a circulation pump 4, connected via an inlet pipe 5 to the outlet 3 of the tank, the outlet pipe 6 of which is immersed in the tank 1.

As you can see, the implementation of the method is in accordance with the claims.

An example of the method

Pre-determine the required amount of soda ash for the preparation of, for example, 500 kg of inhibitor. To do this, in the laboratory for specific industrial batches of polyoxyethylene used in the production of an inhibitor, the amount of soda ash (as a percentage of the initial amount of water) required to obtain a solution with a pH of 8-9 is determined, in this example this value is 1%.

A method of obtaining a corrosion inhibitor of steel based on a water-soluble polymer, which is used as polyoxyethylene, soda ash and bentonite clay, in general, consists of sequentially loading polyoxyethylene, soda ash and bentonite clay into a cylindrical container with constant stirring and adding a calculated amount of water. In a cylindrical container 1, which is equipped with a conical bottom 2 with an outlet 3 in the lower part, at first 100 kg of water (25% of the required amount of water) is loaded, then, in order to avoid the formation of lumps, polyoxyethylene - 0.5 kg is added, and soda ash is added - about 1 kg, after which bentonite clay is gradually poured in the amount of 3.5 kg and the calculated amount of water is added - 395 kg. At the same time, the whole process is carried out with constant stirring, and after adding soda ash for 5-10 minutes, after completely filling the bentonite clay for 5-7 minutes, and the resulting mass is stirred for 5-10 minutes. In this case, mixing is carried out by forced circulation by means of a circulation pump 4 connected via an inlet pipe 5 to the outlet of the vessel 3, the outlet pipe 6 of which is immersed in the vessel 1.

The whole process is carried out at ambient temperature in a positive value, preferably in the range of 5-45 ° C. At lower temperatures, local places of supercooling with freezing of the solution may appear, and at higher temperatures, the probability of thermomechanical destruction of the polymer and flocculation of bentonite increases.

The prepared inhibitor is applied to steel structures using a high pressure pump 7.

Comparison of the claimed technical solution with the prior art known from the scientific, technical and patent documentation at the priority date in the main and related sections did not reveal a tool that has features identical to all the features contained in the claims proposed by the applicant, i.e. the set of essential features of the claimed solution was not previously known and is not identical to any known technical solutions, therefore, it meets the condition of patentability “novelty”.

An analysis of the known technical solutions in the art showed that the proposed method does not follow explicitly from the prior art for the specialist, since solutions having features matching the distinguishing features of the invention have not been identified and the influence of the distinctive features on the technical indicated in the application materials has not been confirmed. result. Those. the claimed solution has features that are not in the known technical solutions, and their use in the claimed combination of essential features makes it possible to obtain a new technical result. Therefore, the proposed technical solution can only be obtained through a creative approach and is not obvious to the average person skilled in this field, i.e. has an inventive step in comparison with the existing level of technology.

The claimed technical solution is technically applicable, since it can be implemented industrially in construction and engineering and used in other sectors of the economy, efficiently, feasibly and reproducibly, and the distinguishing features of the method allow to obtain the desired technical result.

Currently made installation, with which the proposed method for producing a corrosion inhibitor of steel. The results are positive.

It should be noted that the advantage of the present invention over a close analogue (prototype) is provided by the presented set of essential features, each of which performs its function, and together, in conjunction, they solve the problem of creating a new, more advanced technical solution, simple and cheap.

Claims (1)

A method of obtaining a corrosion inhibitor of steel based on a water-soluble polymer, which is used as polyoxyethylene, soda ash and bentonite clay, comprising sequentially loading polyoxyethylene, soda ash and bentonite clay into the tank with constant stirring and adding the calculated amount of water, characterized in that the tank , which has a cylindrical shape, which is equipped with a conical bottom with an outlet in the lower part, initially loaded from 15 to 25% of the required the amount of water, then gradually pour polyoxyethylene, add soda ash, the required amount of which is determined previously for the calculated amount of the prepared solution to adjust the pH to 8-9, then gradually fill in bentonite clay and add the calculated amount of water, while the whole process is carried out at a temperature 5-45 ° C with constant stirring, and after adding soda ash for 5-10 minutes, after completely falling asleep bentonite clay for 5-7 minutes, and the resulting the mass is mixed for 5-10 minutes, while the mixing is carried out by forced circulation by means of a circulation pump connected by means of an inlet to the outlet of the vessel, the outlet of which is immersed in the vessel.

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