RU2458706C1 - Method of disinfecting vehicles and containers after transporting livestock cargo - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to disinfection of freight compartments of vehicles and containers after transporting animals, materials and animal products, as well as other veterinary inspection items. The method of disinfecting vehicles and containers after transporting livestock cargo involves treatment a disinfectant containing the following components in wt %: propylene glycol 0.9-7.5; sodium nitrite - 0.27×10^-3-16.5×10^-3; sodium benzoate - 1.35×10^-3-82.5×10^-3; products of reacting glycerine with formic acid - 0.18×10^-3-11.0×10^-3; a solution of oxidants synthesised from 10.0-20.0% sodium chloride solution subjected to direct current with intensity which ensures pH 7-8, active chlorine concentration 0.7-0.9% and redox potential +1000±50 mV - the balance. Treatment is carried out once with consumption of the disinfectant equal to 0.26-0.35 l/m² with exposure of 55-65 minutes.

EFFECT: invention cuts the duration of the disinfecting process and consumption of the disinfectant while maintaining quality of disinfection, and also reduces the corrosive effect of the disinfectant.

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Description

The invention relates to agriculture, in particular to veterinary medicine, and can be used to disinfect the cargo compartments of vehicles (cars, refrigerated and covered railway cars, ships, aircraft) and containers after transporting animals, raw materials and animal products, as well as other objects veterinary supervision.

A known method of disinfection of vehicles and containers after transportation of livestock cargo, including their processing with a disinfectant containing active chlorine, followed by exposure (RF patent No. 2403916. IPC A61L 2/16, Bull. No. 32) [prototype]. A known method of disinfection involves treatment with a disinfectant containing active chlorine, synthesized from a 10-20% sodium chloride solution, subjected to direct electric current with an intensity that ensures the achievement of pH values of 7-8, the concentration of active chlorine of 0.7-0.9 % and the redox potential + 1000 ± 50 mV, and the treatment is carried out twice at 15-20 ° C at the rate of 0.5-1.0 l / m ² with an interval of 90-95 min followed by an exposure of 90-95 min

However, this preparation is not sufficiently effective and corrosive in relation to the structural materials of vehicles and containers made all-metal (a corrosion inhibitor is required). In addition, to ensure 100% disinfection of the surfaces of objects, two-time application of the drug is required with an interval of 90-95 minutes with an exposure of 90-95 minutes, which in total is 180-190 minutes and increases the duration of the veterinary-sanitary treatment. The dose of the drug solution is 0.5-1.0 l / m ² , and a double application increases the consumption of the disinfectant and, accordingly, increases the energy consumption for its production in the Aquahlor installation, as well as increases the labor costs.

The technical task of the invention is to simplify the method and increase its effectiveness.

The technical effect is achieved in the method of disinfection of vehicles and containers after transportation of livestock cargo, including their processing with a disinfectant containing a solution of oxidants synthesized from a 10.0-20.0% sodium chloride solution subjected to direct electric current with an intensity providing the achievement of pH values of 7-8, the concentration of active chlorine of 0.7-0.9% and the redox potential + 1000 ± 50 mV, followed by exposure, characterized in that it disinfects e means further comprises propylene glycol, sodium nitrite, sodium benzoate, reaction products of glycerol with formic acid in the following ratio, wt.%:

Propylene glycol - 0.9-7.5 Sodium nitrite - 0.27 × 10 ^-3 -16.5 × 10 ^-3 Sodium benzoate - 1.35 × 10 ^-3 -82.5 × 10 ^-3 The products of the interaction of glycerol with formic acid - 0.18 × 10 ^-3 -11.0 × 10 ^-3 A solution of oxidants synthesized from 10.0-20.0% sodium chloride solution, exposed to constant electric current with intensity ensuring the achievement of pH values of 7-8, active chlorine concentration 0.7-0.9% and redox potential + 1000 ± 50 mV - the rest,

moreover, the treatment is carried out once with a flow of disinfectant 0.25-0.35 l / m ² with an exposure of 55-65 minutes

The products of the interaction of glycerol with formic acid are known (RF patent No. 2296790, IPC C09K 5/10, bull. No. 3, 2007).

The method of applying oxidant solution to objects can be different (wet or aerosol treatment, etc.) and is determined by the conditions of the problem being solved - the amount of pollution, their nature.

No technical solutions similar to the claimed were found in the patent and scientific and technical literature, therefore, the presented technical solution meets the criterion of "novelty."

To obtain a solution of oxidants, the Aquahlor plant is used with an oxidant productivity of 30 g / h, which implements a fundamentally new technological process - ion selective electrolysis with a diaphragm, which ensures complete separation of the initial salt solution with a concentration of 800 to 250 g / l in PEM-modular reactors 7 for one working cycle (without returning to regeneration of anolyte, without freezing salt from catholyte and without returning salt to the process, without adding acid to the anode circuit, without high-quality salt treatment of solution) on a wet mixture of gaseous oxidant (chlorine, chlorine dioxide, ozone) and a solution of sodium hydroxide (NaOH) at a concentration of 150-170 g / l of sodium chloride at a degree of conversion of from 98 to 99.5%. A gaseous mixture of oxidants is mixed in a mixer with water, giving a solution of oxidants (1.0-1.5 g / l), which is used to disinfect various objects (including vehicles).

The required area of the premises for the operation of the installation is at least 3.0 m ² (taking into account the space for maintenance).

Therefore, the proposal meets the criterion of "inventive step".

In addition, all components and a corrosion inhibitor used in the manufacture of the installation are manufactured by the domestic industry, and therefore the proposal is “industrially feasible”.

The invention is illustrated by the following examples.

Example 1. Mix 0.9 g of propylene glycol, 0.27 × 10 ^-3 g of sodium nitrite, 1.35 × 10 ^-3 g of sodium benzoate, 0.18 × 10 ^-3 g of the products of the interaction of glycerol with formic acid and add up to 100 g solution of oxidants, receiving composition 1 in the following ratio of components, wt.%:

Propylene glycol - 0.9 Sodium nitrite - 0.27 × 10 ^-3 Sodium benzoate - 1.35 × 10 ^-3 The products of the interaction of glycerol with formic acid - 0.18 × 10 ^-3 A solution of oxidants synthesized from 10.0% sodium chloride solution, exposed to constant electric current with intensity ensuring the achievement of pH 7, active chlorine concentration a solution of oxidants of 0.7% and redox potential +950 mV - the rest.

The oxidant solution is obtained on the installation of "Aquachlor".

The disinfectant was sprayed on the surface of the object using an AO-1 atomizer, the treatment being carried out once at 15 ° C at a rate of 0.25 l / m ² with an exposure of 55 minutes.

The results of bacteriological quality control of disinfection are shown in table 1. The effectiveness of the known method when applied twice at 15-20 ° C at the rate of 0.5 l / m ² with an interval of 90 minutes with a subsequent exposure of 90 minutes was 99.75%.

Example 2. Mix 4.2 g of propylene glycol, 8.39 × 10 ^-3 g of sodium nitrite, 41.93 × 10 ^-3 g of sodium benzoate, 5.59 × 10 ^-3 g of the products of the interaction of glycerol with formic acid and add up to 100 g solution of oxidants, obtaining composition 2 in the following ratio of components, wt.%:

Propylene glycol - 4.2 Sodium nitrite - 8.39 × 10 ^-3 Sodium benzoate - 41.93 × 10 ^-3 The products of the interaction of glycerol with formic acid - 5.59 × 10 ^-3 A solution of oxidants synthesized from 15.0% sodium chloride solution, exposed to constant electric current with intensity achieving a pH value of 7.5 active chlorine concentration a solution of oxidants of 0.8% and redox potential +1000 mV  - the rest.

The oxidant solution is obtained on the installation of "Aquachlor".

The disinfectant was sprayed on the surface of the object using an AO-1 atomizer, the treatment being carried out once at 20 ° C at a rate of 0.3 l / m ² with an exposure of 60 minutes

The results of bacteriological quality control of disinfection are shown in table 2. The effectiveness of the known method when applied twice at 20 ° C at the rate of 0.75 l / m ² with an interval of 92.5 minutes with a subsequent exposure of 92.5 minutes was 100.0%.

Example 3. Mix 7.5 g of propylene glycol, 16.5 × 10 ^-3 g of sodium nitrite, 82.5 × 10 ^-3 g of sodium benzoate, 11.0 × 10 ^-3 g of the products of the interaction of glycerol with formic acid and add up to 100 g solution of oxidants, receiving composition 3 in the following ratio of components, wt.%:

Propylene glycol - 7.5 Sodium nitrite - 16.5 × 10 ^-3 Sodium benzoate - 82.5 × 10 ^-3 The products of the interaction of glycerol with formic acid - 11.0 × 10 ^-3 A solution of oxidants synthesized from 20.0% sodium chloride solution, exposed to constant electric current with intensity achieving pH 8 active chlorine concentration a solution of oxidants of 0.9% and redox potential +1050 mV - the rest.

The oxidant solution is obtained on the installation of "Aquachlor".

The disinfectant was sprayed on the surface of the object using an AO-1 atomizer, the treatment being carried out once at 25 ° C at the rate of 0.35 l / m ² with an exposure of 65 minutes.

The results of bacteriological quality control of disinfection are shown in table 3. The effectiveness of the known method when applied twice at 25 ° C at the rate of 1.0 l / m ² with an interval of 95 minutes followed by an exposure of 95 minutes was 100.0%.

Thus, the proposed drug allows, in comparison with the prototype, to increase the effectiveness of disinfection by reducing exposure and reducing the consumption of the drug in comparison with the known method by 2 times, while reducing energy and labor costs by 2 times. Loss from corrosion is reduced by 100%. Salt consumption is reduced by 2.5 times.

To obtain solutions of oxidants does not require factory conditions, because Domestic installation "Aquahlor" can be installed without design and installation work, using the hydraulic and electrical networks available at the facility, i.e. the proposal is “industrially applicable”. The installation requires a minimum consumption of NaCl - 50-100 g / l, electricity - 0.9-1.75 kW · h / kg.

Table 4 presents the data for the determination of corrosion losses for various metals using the known and proposed methods of disinfection. As can be seen from its results, the present invention can significantly reduce corrosion losses when using a solution of oxidants or completely prevent them.

Thus, the proposed technical solution allows to simplify the method (processing is carried out once instead of twice according to the known method), increases its effectiveness (the consumption of disinfectant is reduced by 60-400%). In addition, the proposed technical solution prevents the corrosive effect of the applied disinfectant by 98-100%).

Claims (1)

A method of disinfecting vehicles and containers after transporting livestock cargo, including treating them with a disinfectant containing an oxidant solution, synthesized from a 10.0-20.0% sodium chloride solution, subjected to direct electric current with an intensity that ensures pH values of 7 -8, the concentration of active chlorine 0.7-0.9% and the redox potential + 1000 ± 50 mV with subsequent exposure, characterized in that the disinfectant further comprises propylene glycol, sodium nitrite, sodium benzoate, the products of the interaction of glycerol with formic acid in the following ratio of components, wt.%:
Propylene glycol - 0.9-7.5 Sodium nitrite - 0.27 × 10 ^-3 -16.5 × 10 ^-3 Sodium benzoate - 1.35 × 10 ^-3 -82.5 × 10 ^-3 The products of the interaction of glycerol with formic acid -0.18 × 10 ^-3 -11.0 × 10 ^-3 A solution of oxidants synthesized from 10.0-20.0% sodium chloride solution, exposed to constant electric current with intensity ensuring the achievement of pH values of 7-8, active chlorine concentrations of 0.7-0.9% and redox potential + 1000 ± 150 mV rest,
moreover, the treatment is carried out once with a flow of disinfectant 0.25-0.35 l / m ² with an exposure of 55-65 minutes