RU2264244C1 - Heat-resistant foam generator used with sea water - Google Patents

Abstract

FIELD: fire prevention and extinguishing.

SUBSTANCE: composition comprises triethanolamine salt of alkylsulphates having bio-degradability of not less than 90%, acetic ammonium, acetic acid, sodium sulfate, carbamide, primary aluminum chloride and water.

EFFECT: increased environmental safety.

1 tbl, 4 ex

Description

The invention relates to foam fire extinguishing agents and can be used to obtain heat-resistant foam with natural water of any degree of hardness and salt content, as well as cryogenic salt systems with up to 20% mineral salts.

Known foaming composition (US Pat. US No. 3554912, CL A 62 D 1/00, 1971) to obtain a low-temperature heat-resistant foam suitable for extinguishing fires. The composition includes: from 2 to 40% of the highly basic aluminum salt Al ₂ (OH) ₅ Cl, from 0.02 to 4% of an anionic surfactant containing from 6 to 18 carbon atoms per acid group, and water - the rest up to 100% .

The disadvantage of the composition is the need for separate storage of components and the inability to create a concentrated foaming agent for long-term storage.

Also known is the TEAS-Morpen foaming agent, manufactured according to TU 0258-001-01013393-94, designed to extinguish fires using outboard sea water. The foaming agent includes at least 27% by weight of triethanol-ammonium salts of alkyl sulfates, biodegradability of at least 90%, and other additives that increase the stability of the foam in the presence of electrolytes.

The recommended concentration of a foaming agent in seawater is 6% by volume. The stability of the foam of medium multiplicity, at least 20 minutes, high - 10 minutes. Hydrogen index (pH), in the range of 7.0-10.0. The disadvantage of this foaming agent is the relatively low resistance of the foam to half-life and high temperature effects.

The closest in composition and functional properties of the foaming agent adopted for the prototype is the foaming agent of heat-resistant foam (RF patent No. 2159650, class A 62 D 1/00, 1999).

The composition of the foaming agent includes, wt.%:

Surface-active substance sodium alkylaryl sulfonate 8.1-9.1 aluminum oxychloride Al ₂ (OH) ₅ Cl 11.0-12.3 ammonium acetate 36.6-40.6 acetic acid 1.5-3.0 water rest up to 100.

The disadvantage of the foaming agent of heat-resistant foam is the use of alkylaryl sulfonates in its composition, the biodegradability of which does not exceed 45%, which contradicts modern environmental protection requirements.

To overcome this disadvantage, the proposed composition of the foaming agent of heat-resistant foam for sea water includes surfactants with biodegradability of at least 90%, namely triethanolammonium salts of alkyl sulfates in the following ratio, wt.%:

Surface-active substance triethanolammonium salt of alkyl sulfates 8.0-9.0 Ammonium Acetate 25.0-30.0 Acetic acid 1.4-1.5 Sodium Sulfate 2.0-4.0 Urea 9.0-10.0 Basic aluminum chloride Al ₂ (OH) ₅ Cl 10.0-11.0 Water rest

To obtain the compositions according to the invention and their tests use the following substances:

Surfactants: TEAS TU 0258-002-01013393-96 or PO-6 TS (A) foaming agent TU 0258-147-05744685-95 (the properties of which coincide).

Anhydrous sodium sulfate GOST 4166-76.

Ammonium acetate GOST 3117-78.

Acetic acid GOST 13-00279-901-2-92 or any other.

Urea GOST 2081-92.

Basic aluminum chloride Al ₂ (OH) ₅ Cl (Bopak coagulant)

TU 216-350-002-39928758-02.

Drinking water.

Sea water is a part of Norwegian Veritas.

All tests of the compositions are carried out according to standard methods recommended when developing new foaming compositions GOST R 50588-93. Foaming agents for extinguishing fires. /General technical requirements and test methods/.

Example 1. To 34 ml of TEAS foaming agent containing 9.0 g of surfactant, 4.0 g of sodium sulfate is added and adjusted to complete dissolution. Then, 10 g of urea are added to the solution, and after its dissolution, 30.0 g of ammonium acetic acid acidified with 2.2 ml of 70% acetic acid.

To the resulting solution, 34 ml of basic aluminum chloride (OXA) was slowly added with stirring with a content of 11.0 g of Al ₂ (OH) ₅ Cl to obtain a clear solution.

Hydrogen index of the system, pH 7.

The stability of low-level foam 3% vol. working solution in sea water is 480 minutes.

Example 2. To 30 ml of a TEAS foaming agent containing 8.0 g of a surfactant, 2.0 g of sodium sulfate is added and adjusted to complete dissolution. Then, 25.0 g of ammonium acetic acid was added to the solution and acidified with 2 ml of 70% acetic acid.

To the resulting solution, 9.0 g of urea is slowly added with stirring, and after it is dissolved, 30 ml of OXA with a content of 10.0 g of Al ₂ (OH) ₅ Cl.

Hydrogen index of the system, pH 7.

The stability of low-level foam 3% vol. working solution in sea water is 180 minutes.

Example 3. It differs from example 1, only in the increased content of the main components of the surfactant and aluminum oxychloride, affecting the functional properties of the extinguishing foam and its resistance to half-life.

Other components create a buffer medium in the concentrate and prevent the interaction of the main components with each other and therefore are in proportion to them.

The composition includes, wt.%:

TEAS Surfactant 10.0 Ammonium Acetate 32,0 Acetic acid 2.0 Sodium Sulfate 5.2 Urea 12.0 Basic aluminum chloride 12.0 Water rest

Hydrogen indicator of the concentrate, pH 7.

The stability of low-level foam 3% (vol.) Solution in sea water for 480 minutes. However, the concentrate during storage is gelled and loses the necessary operational properties.

Example 4. It differs from example 2, only by lowering the content of key components of surfactants and OXA and in proportion to this, the components of the buffer medium.

The composition includes, wt.%:

TEAS Surfactant 7.0 Ammonium Acetate 24.0 Acetic acid 1.3 Sodium Sulfate 1.8 Urea 8.0 Basic aluminum chloride 9.0 Water rest

The hydrogen index of the concentrate, pH = 7. The stability of the low-level foam 3% (vol.) Solution in sea water for 90 minutes, which does not meet the requirements of the permissible dependence of the composition - property in relation to example 2.

The table shows the comparative indicators of the optimal compositions.

These tables show that the proposed composition of the foaming agent in terms of foam stability and fire extinguishing efficiency is not inferior to the composition adopted as a prototype, and meets the requirements of the task.

Unlike the known foaming agents of the analogues, the proposed composition contains 3 times less surfactant and is used in working solutions on sea water in 2 times lower concentrations, which can also contribute to less environmental pollution by surface-active substances.

Claims (1)

Foaming agent of heat-resistant foam for sea water used in the prevention and suppression of fires, including a surfactant, basic aluminum chloride, ammonium acetic acid, acetic acid and water, characterized in that it includes a surfactant with biodegradability of at least 90%, and namely the triethanolamine salt of alkyl sulfates, in the following ratio of components, wt.%: Surface-active substance triethanolamine salt of alkyl sulfates 8.0-9.0 Ammonium Acetate 25.0-30.0 Acetic acid 1.4-1.5 Sodium Sulfate 2.0-4.0 Urea 9.0-10.0 Basic aluminum chloride Al ₂ (OH) ₅ Cl 10.0-11.0 Water Rest