RU2425864C1 - Detergent for removing organic contaminants from surfaces - Google Patents

Abstract

FIELD: chemistry. ^ SUBSTANCE: detergent for removing organic contaminants from surfaces contains the following, wt %: sodium metasilicate (Na2SiO3) 15-20, sodium tripolyphosphate (Na5P3O10) 10-15, caustic soda (NaOH) 10-15, calcined soda (Na2CO3) 25-30, Na-carboxymethylcellulose 2, neonol AF9-12 2-5, catamin 2, sodium sulphate (Na2SO4) up to 100. ^ EFFECT: detergent with a complex of physical and chemical properties with low content of phosphates and low risk of environmental pollution while preserving detergent power. ^ 2 tbl

Description

The invention relates to technical detergents for cleaning and degreasing surfaces and can be used in all industries and in households where surface contamination with products of organic origin takes place: oil, grease, oil, emulsions, asphalt-resin-paraffin deposits. The composition of technical detergents in the form of aqueous solutions is applicable in the manufacture and repair of equipment in almost all industries, in transport, in the food industry, at service stations, and agricultural complexes.

Known technical detergent for cleaning metal surfaces from oil and oil pollution according to the patent of the Russian Federation No. 2194748 (publ. 2002.12.20). This tool contains as a surface-active substances (surfactants) neonol AF _9-12 in an amount of 2.4-3.6 wt.%, Neonol AF _6-9 - 2.4-3.6 wt.%, 0.4 -0.6 wt.% Sodium salt of alkylbenzene-sulfonic acid (sulfonol). Additionally, the specified detergent contains, wt.%: Soda ash 51.0-64.0; sodium tripolyphosphate 13.0-28.0; trisodium phosphate 13.0-17.0.

The disadvantages of this tool include high foaming and the stability of the foam of aqueous solutions, which makes it difficult to use when cleaning capacitive equipment. The high content of phosphorus-containing components negatively affects the environment, given the difficulty in removing residual phosphates from alkaline effluents when discharged into water bodies.

The prior art also known a number of detergents for cleaning metal surfaces according to RF patents No. 2079550 (publ. 05/20/95) and No. 2132368 (publ. 06/27/99) containing nonionic surfactants - neonol AF _9-12 and neonol AF _9-6 , sodium tripolyphosphate or trisodium phosphate and soda ash. These tools are a modification of the above analogue of patent No. 2194748.

The main disadvantages of these funds include insufficient detergent ability to organic pollution, high phosphate content and the inability to reuse detergent solutions.

Known detergent for cleaning smoke chambers and chimney pipes according to the patent of the Russian Federation No. 20100844 (publ. 15.04.94), containing, wt.%: Sodium carbonate 19-29; trisodium phosphate 14-16; sodium hydroxide 12-14; sodium metasilicate 39-42; nonionic surfactant 2-5; water up to 100, additionally contains a cationic surfactant such as alkylammonium or alkylpyridinium halide in an amount of 0.2-0.8 wt.%.

The disadvantage of this composition is the high content of sodium metasilicate, which gives an alkaline precipitate in the form of gel-like SiO ₂ , which complicates the process of washing the surface to be cleaned and forms a suspended, difficult-to-filter precipitate, which makes it difficult to clean the used solutions from impurities:

Trisodium phosphate does not have a high complexing ability, as a result of which the washing ability of the solutions of the above composition is reduced.

The closest to the achieved result and the composition of the washing composition is detergent "PAN", RF patent No. 2309979 (publ. July 31, 2006). The basis of the washing composition is, wt.%: Sodium metasilicate 8-15; sodium tripolyphosphate 2-10; trisodium phosphate 10-15; sodium polyphosphate 2-10; caustic soda 1-5 and calcined 15-23; neonol 0.5-4.0; syntamide-5 1-5; sodium sulfate up to 100. The mass ratio of neonol to syntamide is 1: (0.25-10). Additionally, the composition includes a defoamer up to 0.3 wt.% And a complexing agent - Trilon B - in an amount of 1.0-3.0 wt.%.

The main disadvantage of this composition is the high phosphorus content, which is in terms of P ₂ O ₅ up to 20 wt.%. The introduction of an additional amount of complexing agent is impractical, because sodium polyphosphates, the typical representative of which is sodium tripolyphosphate, are complexing agents and the best softeners of water of various origins used for the preparation of working solutions of detergent compositions.

At the same time, phosphates are one of the difficult to remove components in the treatment of alkaline effluents of enterprises and the introduction of an excessive amount of phosphates in the composition is impractical.

Of these sodium polyphosphates of the general formula Na _{n + 2} P _n O _{3n + 1} , only sodium tripolyphosphate is commercially available. The use of other polyphosphates is difficult, because they are present on the market at best in the form of expensive chemicals in small quantities.

The combined use of large quantities of surfactants (up to 10 wt.%) And antifoam reduces the effect of surfactants already at the stage of preparation of working solutions, inhibiting their ability to form water-oil emulsions that increase the degree of cleaning of the treated surface.

The technical task of the invention is to obtain a detergent for cleaning surfaces from contaminants of an organic nature, which would have a complex of physico-chemical properties: wetting, dissolving, degreasing, emulsifying and anti-corrosion ability, while reducing the phosphate content and reducing the risk of environmental pollution while maintaining detergent abilities.

The stated technical problem is solved by the fact that sodium tripolyphosphate in the amount of 10-15 wt.% Is introduced into the composition of the washing composition, which in terms of P ₂ O ₅ is 5-8 wt.%, The cationic surfactant is catamine in the amount of 2 wt.% At the mass ratio of catamine and neonol equal to 1: (1-2.5), and the sodium salt of carboxymethyl cellulose, comprising 2 wt.%.

The detergent composition has the following ratio of components, wt.%:

sodium metasilicate (Na ₂ SiO ₃ ) 15-20 sodium tripolyphosphate (Na ₅ P ₃ O ₁₀ ) 10-15 caustic soda (NaOH) 10-15 soda ash (Na ₂ CO ₃ ) 25-30 Na - carboxymethyl cellulose 2 Neonol AF _9-12 2-5 catamine 2 sodium sulfate (Na ₂ SO ₄ ) up to 100

The active ingredient - sodium silicate - Na ₂ SiO _{3 is} indicated in the formulation, when preparing the washing composition, it is necessary to take into account the crystallization water that is part of the commercial product (Na ₂ SiO ₃ · 5H ₂ O or Na ₂ SiO ₃ · 9H ₂ O) used in as a source component. The amount of sodium sulfate introduced is calculated taking into account the crystallization water of the feedstock.

The amount of sodium tripolyphosphate in the detergent composition is determined by the need for complexation with pollution particles, an increase in the washing ability and softening of the water used to prepare the working solution of the detergent due to the formation of insoluble compounds with stiffness ions. Sodium tripolyphosphate exhibits an inhibitory effect due to absorption on the surface being cleaned and the creation of protective films on them.

The necessary amount of sodium tripolyphosphate is economically determined by price differences between the cost of caustic and soda ash and sodium tripolyphosphate. A quantitative ratio between the sum of caustic and soda ash and sodium tripolyphosphate equal to (2-4): 1 was found to be optimal for creating a stable pH of the detergent working solution and complexing properties. The introduction of less than 10 wt.% Sodium tripolyphosphate reduces the complexing ability of the detergent composition, more than 15 wt.% - is economically disadvantageous.

Introduction to the composition of the detergent composition of an ionic surfactant - catamine, which is a mixture of alkylbenzyldimethylammonium chlorides, increases the wetting ability of detergent solutions while providing a disinfecting effect. The mass ratio of catamine to neonol 1: (1-2.5) is sufficient for optimal foaming while maintaining the inhibitory properties of the detergent composition.

Sodium silicate in alkaline solutions is hydrolyzed with the release of colloidal polysilicic acids, which, when optimally contained in the composition of the composition, increase the ability of the solutions to disperse impurities and retain them in the bulk of the solution. The best option is to use sodium metasilicate with a module of 0.97 (Na ₂ O: SiO ₂ ). Sodium silicate exhibits inhibitory properties, which reduces the corrosion damage to the metal surface and allows the process to be carried out at pH = 11.5-12.8. The content of Na ₂ SiO ₃ less than 15 wt.% Degrades the washing properties of the composition, more than 20 wt.% - reduces the degree of purification due to the release of SiO ₂ on the surface of the product being cleaned.

To increase the degree of destruction of oil-water emulsions and reduce the settling time of spent solutions with a view to their subsequent use as an adsorbent demulsifier, the sodium salt of carboxymethyl cellulose is introduced into the composition of the detergent. In this case, complex compounds containing phosphorus, enlarged silicic acid gels (SiO ₂ ) pass into the precipitate, and the most complete clarification of the spent solution is achieved.

The clarified solutions are used for the initial treatment and soaking of the surfaces to be cleaned or, after neutralization, are discharged to the treatment plant.

The invention can be used both for direct washing from contaminants, and for pre-soaking contaminated parts in a washing solution for 2-12 hours, followed by cleaning of swollen and loose contamination.

To determine the quality of the detergent composition, compositions were prepared, the mass ratios of the components of which are presented in table 1. Composition No. 6 repeats the composition of the prototype.

Obtaining the composition claimed in the claims is carried out in a mixer, which is a horizontal cylindrical apparatus with a stirrer, a unit for loading loose components, fittings for loading liquid components and an unloading unit. In the manufacture of the mixture, it is necessary to observe the loading conditions under which the calculated amount of sodium sulfate, sodium tripolyphosphate, sodium metasilicate, Na-carboxymethyl cellulose are first loaded and mixed with a closed reactor. Then, pre-mixed liquid neonol and catamine are introduced into the prepared dry mixture. The mixer is closed and re-mixed for 10-15 minutes. Then the mixer is opened and the calculated amount of caustic and soda ash is introduced. Close the loading unit, turn on the stirrer drive and mix the contents of the mixer for 4-5 minutes. The speed of the mixer is 30 rpm. The nominal volume of the apparatus is 1.0 m ³ , the working volume is 0.5 m ³ . The finished product is analyzed for compliance with the specifications, packaged.

To clean the surface of contaminants, an aqueous solution of the proposed product is used with a concentration depending on the object to be cleaned and the type of contamination. The detergent is dissolved at a temperature of 50-60 ° C. For testing, prepare a 0.5% aqueous solution.

The washing ability is determined by a known method - the weight method, which is based on determining the percentage of washability of contaminants from the surface of the part.

For testing, take plates with a surface roughness of 0.32-0.61 with a size of 100 × 50 × 1.5 mm, degrease with ether and incubate for 5-10 minutes until the ether is completely evaporated and they take a constant temperature. The plates are weighed on an analytical balance with an accuracy of 0.0001 grams, then a uniform layer of contamination is applied with a glass rod. The amount of contamination applied should be approximately the same on all plates and be 0.08-0.085 grams. Then the contaminated plates are placed in a washing solution and washed for two minutes. After washing, the plates are washed with distilled water and dried by blowing air from a fan at room temperature. The dried plates are weighed. The percentage of surface contamination removed is determined by the formula

% = 100 (P ₁ -P ₂ ) / (P ₁ -P ₀ ),

where P ₀ is the initial weight of the sample (pure), g,

P ₁ - the weight of the contaminated sample, g,

P ₂ - the weight of the sample after washing, g

When determining the wetting ability, samples (metal plates measuring 100 × 50 × 1.5 mm) are first immersed in the prepared detergent solution, and then in demineralized water for 10 seconds. Next, the samples are removed from the water and fix the violation of the continuous water film visually. Wetting ability is characterized by the time in seconds from the start of the test to the rupture of the water film.

Foaming ability was determined by shaking in a standard cylinder with 250 cm ³ a detergent solution of a concentration of 1.0 wt.% In an amount of 100 cm ³ at a temperature of 60 ° C, followed by measuring the height of the foam column.

The rate of separation of the spent detergent solution was estimated by the time of clarification of the turbid solution with the formation of solid and liquid phases. The solid phase is a suspension of solid in a liquid. For testing in a standard cylinder of 250 cm ³ of pre-mixed solution was poured in an amount of 200 cm ^3, fixed time the test was measured and the height of the slurry solids in centimeters after 30 minutes. The spent solution with the smallest suspension of the solid phase has the best delaminating ability, which is favorable for reuse of the working solution of the washing composition.

The residual phosphate content in the clarified part of the spent washing solution was determined according to the PND method F 14.1: 2.112-97 “Methodology for measuring the mass concentration of phosphate ions in samples of natural and treated wastewater using the photometric method of ascorbic acid reduction”. The analysis result was converted to the content of P ₂ O ₅ in mg / DM ³ .

The results are presented in table 2. When the selected ratio of the components, the washing ability and wettability of all samples is at the level of the prototype. The greatest foaming ability is observed in the sample corresponding to the washing ability of the prototype, which may adversely affect the processing of the inner surfaces of closed volumes.

The time of separation of the spent washing solution and the phosphate content in the clarified part has the best performance for solutions based on the claimed composition, which is convenient when dumping the spent solutions for cleaning or reuse.

Currently, the production of technical detergent has been organized on the territory of the enterprise, the composition of which corresponds to the claimed patent formula with an annual output of up to 1000 tons of product. The washing composition is sold and used in all industries, including domestic needs and car service.

Table 1 No. p / p Components The composition, wt.% one 2 3 four 5 6 * one Soda ash (Na ₂ CO ₃ ) 25 thirty 25 thirty 27 twenty 2 Pentate sodium metasilicate Na ₂ SiO ₃ × 5H ₂ O (or sodium metasilicate Na ₂ SiO ₃ ) 26 (15) 30 (20) 35 (20) 26 (15) 30 (17) 26 (15) 3 Sodium tripolyphosphate Na ₂ P ₃ O ₁₀ 10 fifteen 10 fifteen 12 28 four Caustic Soda (NaOH) 10 fifteen fifteen 10 12 12 5 Nonionic surfactant - neonol AF _9-12 2.0 5,0 5,0 2.0 3,5 2.5 syntamide 3.0 6 Cationic surfactant - catamine 2.0 2.0 2.0 2.0 2.0 - 7 Na - Carboxymethyl Cellulose 2.0 2.0 2.0 2.0 2.0 - 8 Sodium Sulfate (Na ₂ SO ₄ ) 23.0 1,0 6.0 13.0 11.5 8.2 9 Antifoam agent - - - - - 0.3

When calculating the amount of Na ₂ SO ₄ , the composition of the composition took into account sodium silicate in the form of crystalline hydrate Na ₂ SiO ₃ · 5H ₂ O, phosphates in the form of sodium tripolyphosphate Na ₅ P ₃ O ₁₀ .

table 2 The composition of the detergent p / p Washing ability Wettability in 30 sec Foaming ability, mm Suspension Height, mm Content Ost. P ₂ O ₅ in the clarified solution, mg / DM ³ Industrial oil Organ pollution. origin one 96.5 99,4 Chorus. 28 130 205 2 95.8 98.0 beats 25 130 210 3 96.8 98.6 Chorus. 22 one hundred 308 four 98.0 97.8 Chorus. 22 one hundred 315 5 97.3 99.0 Chorus. thirty 120 240 6 * 96.7 98.5 Chorus. 35 150 560 * according to the prototype.

Claims (1)

Detergent for cleaning the surface of organic contaminants, including surface-active substances (surfactants), phosphate-containing reagent, sodium metasilicate, sodium sulfate, caustic and soda ash, characterized in that catamine is used as an ionic surfactant, and is introduced as an adsorbent-demulsifier sodium salt of carboxymethyl cellulose in the following ratio of components, wt.%:
sodium metasilicate (Na ₂ SiO ₃ ) 15-20 sodium tripolyphosphate (Na ₅ P ₃ O ₁₀ ) 10-15 caustic soda (NaOH) 10-15 soda ash (Na ₂ CO ₃ ) 25-30 Neonol AF _9-12 2-5 catamine 2 Na-carboxymethyl cellulose 2 sodium sulfate (Na ₂ SO ₄ ) up to 100