RU2491111C2 - Formulation composition for degassing volatile toxic organophosphorus substances on surfaces and in air indoors - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to safe use of chemically hazardous objects and specifically a formulation composition which enables to degas volatile toxic organophosphorus substances inside process facilities not only on surfaces but in air in form of a vapour phase. Described is a formulation composition for degassing volatile toxic organophosphorus substances formed during accidents at chemically hazardous objects, not only on surfaces of internal finishing of facilities but also in the air for further safe use thereof without protective means. The set task is solved by using the disclosed formulation, having the following components (wt %): monoethanolamine - 14.1-17.4; hydrogen peroxide - 5.8-23.6; water - the balance. The formulation, which contains said components, forms a vapour-gas mixture owing to an exothermic reaction between monoethanolamine and hydrogen peroxide.

EFFECT: vapour-gas mixture spontaneously fills the room and contains gaseous chemically active substances capable of degassing volatile toxic organophosphorus substances not only on the surface but also in the air.

2 tbl, 1 ex

Description

The technical field to which the invention relates. The invention relates to the field of safe operation of chemically hazardous objects (XOO), and in particular to the development of a formulation for the degassing of volatile toxic organophosphorus substances inside technological rooms not only on surfaces, but also in air as a vapor phase.

The level of technology. In case of possible emergency situations, the technological premises of KhOO may be infected with volatile toxic organophosphorus substances such as sarin or soman, which are well sorbed by interior materials and create dangerous concentrations in the air volume. Therefore, for the safe operation of infected rooms, it is necessary to degass not only the surface, but also the air.

In accordance with the current “Special Processing Guide”, the following formulations and solutions can be used for the degassing of toxic organophosphorus substances:

- degassing solution No. 1;

- polydegassing formulations of RD, RD-2, RD-A;

- bifunctional oxidation-nucleophilic formulation;

- 1.5% (mass.) An aqueous solution of calcium hypochlorite;

- solutions No. 2-ash and No. 2-bsch.

Degassing solution No. 1 is a 2% (by weight) solution of dichloramine DTX-2 (DT-2) in dichloroethane and provides degassing of the outer surfaces of weapons and military equipment (IWT) infected with V-gas and mustard gas, but it is not suitable for neutralization of vapors of toxic organophosphorus substances in the air.

The polydegassing formulations of RD, RD-2, RD-A are used to treat weapons and military equipment infected with V-gas, soman and mustard gas. The main components that make up the formulations are alkali metal alkoxides, a surfactant, aprotic and protic solvents, which affects the aggressive effect on coatings and rubber products, and also leads to a decrease in insulation resistance of electrical wires.

A bifunctional oxidation-nucleophilic formulation based on a solution of potassium fluoride peroxosolvate, high molecular weight cellulose ether compounds with the addition of a surfactant, is intended for treating the external and internal surfaces of weapons and military equipment contaminated with small drops and aerosol of V-gases, soman and mustard gas, with a consumption rate 0.3 l / m ² (Patent No. 2248234), which is not acceptable for the degassing of vapors of toxic organophosphorus substances in indoor air. In addition, it only prevents the desorption of toxic substances (TB) from the surface due to the formation of an impermeable film after the evaporation of water from the applied formulation.

An aqueous solution containing 1.5% (by weight) of HAs degasses the outer surfaces of weapons and military equipment contaminated with V-gas, mustard gas and soman. The absence of solvents in it, ensuring the extraction of TV from absorbent materials, allows only surface degassing to be achieved and does not exclude secondary air contamination.

Solutions No. 2-ash and No. 2-bsch based on caustic soda, monoethanolamine and water (ammonia water) are used to degass external and internal surfaces of weapons and military equipment infected with sarin and soman, by irrigation, rubbing with brushes or rags.

The closest in purpose and composition to the claimed invention is solution No. 2-bsch, which includes 10% sodium hydroxide, 25% monoethanolamine and water, which is used to render objects harmless when infected with sarin and soman. Its main drawback, as in the cases with the above formulations, is that it provides only surface degassing of interior materials of military and military equipment.

The objective of the present invention is to develop a formulation for the degassing of volatile toxic organophosphorus substances generated during accidental emergencies at XOO, not only on the surfaces of the interior decoration, but also in the air volume for the purpose of their further safe operation without protective equipment.

The problem can be solved by applying the formulation developed by us, having the composition of the components (wt.%):

Monoethanol amine (MEA) - 14.1-17.4;

hydrogen peroxide (PV) - 23.6-5.8;

Water is the rest.

A formulation containing these components forms a vapor-gas mixture (ASG) due to an exothermic reaction between monoethanolamine and hydrogen peroxide. ASG spontaneously fills the room volume and contains gaseous chemically active substances capable of degassing volatile toxic organophosphorus substances not only on the surface, but also in the air.

To confirm the possibility of carrying out the invention, studies were conducted on the effectiveness of degassing, the above composition for producing ASG, vapors of toxic organophosphorus substances in the air in simulated technological rooms of KhOO. Assessment of the degassing efficiency of a gas-vapor mixture was carried out in accordance with approved methods. The research results are presented in tables 1-2.

Table 1 Efficiency of degassing of internal volumes infected with vapors of toxic organophosphorus substances using a vapor-gas mixture obtained by the interaction of MEA with PV The concentration of TV in the chamber, mg / l Source ... minutes after exposure to ASG 5 10 fifteen thirty (4.7 ± 0.5) · 10 ^-3 (2.2 ± 0.9) · 10 ^-6 (7.6 ± 0.7) · 10 ^-6 (3.9 ± 0.5) · 10 ^-6 (8.0 ± 1.7) 10 ^-7 (5.2 ± 0.7) · 10 ^-3 (2.1 ± 0.3) · 10 ^-5 (6.0 ± 0.6) · 10 ^-6 (1.6 ± 0.3) · 10 ^-6 (3.4 ± 0.2) · 10 ^-7

An analysis of the experimental data presented in Table 1 shows that 30 minutes after exposure to a gas-vapor mixture, the concentration of toxic organophosphorus vapors in the air in a hermetically sealed chamber decreases several thousand times.

table 2 Efficiency of degassing of internal volumes with conventional interior decoration objects (tarpaulin, rubber, dermatin, plates painted with PF-115 enamel) infected with vapors of toxic organophosphorus substances, using a vapor-gas mixture obtained by the interaction of MEA with PV The concentration of TV in the chamber, mg / l Source ... minutes after exposure to ASG fifteen thirty 60 120 (1.8 ± 0.5) · 10 ^-3 (2.8 ± 0.4) · 10 ^-5 (1.7 ± 0.1) · 10 ^-5 (3.1 ± 1.5) · 10 ^-6 (2.6 ± 1.1) · 10 ^-6

An analysis of the experimental data shown in Table 2 shows that 30 minutes after exposure to a gas-vapor mixture, the concentration of TB vapor in air decreases by about 100 times. In addition, the presented results show that the concentration of vapors of toxic organophosphorus substances in the air decreases with time, and this indicates that there is a partial degassing of the sorbing vapors of FOV materials.

Example 1. Degassing of objects with a gas-vapor mixture obtained by mixing and interaction of a component composition, including MEA and PV, is carried out in the following sequence:

One or several containers with MEA are placed in the processed object at the rate of 0.1 kg per one cubic meter of degassed volume. To monoethanolamine add a 30% aqueous solution of hydrogen peroxide in a ratio by weight of 1: 2.

Personnel carrying out the degassing of the ASG facility should be in personal protective equipment for skin and respiratory organs.

Thus, the above data indicate that the proposed composition of the formulation provides the degassing of volatile toxic organophosphorus substances in the air and on indoor surfaces.

Claims (1)

The recipe for the degassing of technological rooms of chemically hazardous objects infected with volatile toxic organophosphorus substances, containing an aqueous solution of monoethanolamine, characterized in that it contains hydrogen peroxide, the addition of which to monoethanolamine leads to the formation of a vapor-gas mixture that decomposes toxic organophosphorus substances not only on surfaces, but and in the air to safe quantities, with the following ratios of components, wt.%:
monoethanolamine 14.1-17.4 hydrogen peroxide 5.8-23.6 water rest