RU2689450C1 - Foam attack procedure for fire extinguishing in tank battery - Google Patents

Abstract

FIELD: fire-fighting equipment.

SUBSTANCE: present invention relates to fire safety, namely to foam attack during fire extinguishing in tank farm for storage of oil and oil products. Method of froth attack during fire extinguishing in tank farm, consisting in supply of solution from foaming agent AFFF through stationary installations of sub-layer fire extinguishing at initial stage of fire in reservoir, wherein supply of solution from foaming agent is carried out with intensity of 0.034–0.055 l/(m²⋅c), increasing it to 0.08–0.10 l/(m²⋅c) depending on the type of oil or oil product.

EFFECT: technical result achieved by the disclosed method is higher efficiency of extinguishing.

5 cl

Description

The present invention relates to the field of fire safety, namely, to the foam attack when extinguishing fires in a tank farm (RP) for the storage of oil and oil products.

It is known that fires in tanks with petroleum products most often begin with an explosion of the vapor-air mixture in the gas space of the tank and disrupting the roof or burning a vapor-air mixture in the gas space of the tank without disrupting the roof, but with a violation of its integrity in some of the weakest points. Partial or complete separation (collapse) of the roof and ignition of petroleum over the entire surface leads to the failure of the upper belt fire extinguishing equipment (low-expansion foam chambers, medium-sized foam generators and water cooling units). The strength of the explosion affects the nature of the subsequent development of the fire. Depending on this, various damage to the tank structures is observed.

The danger of RP fires is caused by the possibility of boiling up of oil in a burning reservoir with subsequent release and spreading, as well as explosion and destruction of the reservoir, spreading of the burning product outside the reservoir and / or embankment with a high flame spread rate.

RP fires are characterized by complex spasmodic development processes, are protracted in nature and require the destruction of a large number of forces and means.

Fire at the same time in two or more tanks of one group in the RP arise much less frequently than fires in separate tanks. However, their share in the total number of fires in the RP is quite large and amounts to about a quarter. Developed group fires cause great material damage, their extinguishing requires the involvement of considerable forces and means, both the fire brigade and nearby enterprises, and lasts a long time.

Extremely important for successful fire extinguishing is the supply of fire extinguishing substances in the initial stage of a fire. To fulfill this condition, RPs are equipped with automatic fire extinguishing systems (ASPT). In case of damage to the TSA from the explosion of the vapor-air mixture or the failure of the automation system for another reason, the extinguishing of the tanks is organized using mobile fire extinguishing agents (SMEs).

The average extinguishing time spent on the elimination of one fire of oil or oil product in the RP is 10.5 hours. A sufficient amount of forces and means to carry out a foam attack can most often be collected only 2 hours after the start of a fire. In a quarter of cases of fires, it is possible to start extinguishing only after 12 hours. The extinguishing of developed fires in tanks can last for several days.

Modern RPs are protected by subsurface fire extinguishing systems that allow stationary subsurface fire extinguishing systems to deliver low expansion foam directly to the oil product layer in the tank. In the systems of under-fire extinguishing, modern AFFF foam blowing agents are used according to GOST R 50588, capable of forming low-fold foam to form a protective water film on the surface of a burning oil product, which significantly increases the effectiveness of fire extinguishing (Quenching oil and oil products: Benefit / Bezrodny I.F., Giletich A. .N., Merkulov VA and others - M .: VNIIPO, 1996).

Stationary subsurface fire extinguishing installations are less susceptible to destruction during an explosion in a tank and can be used to conduct a foam attack using mobile fire extinguishing agents.

The currently used method of foam attack when extinguishing fires in tanks with oil and petroleum products in a tank farm, provides for a foam attack after the concentration of forces and means to supply the solution from the foaming agent with a standard intensity:

- for petroleum and petroleum products with a flash point of T _gf ≤28 ° C, the standard intensity is 0.10 l / (m ² s);

- for oil and petroleum products with a flash point of T _gf > 28 ° C, the standard intensity is 0.08 l / (m ² s).

At the same time, the foam attack is carried out after solving the primary task - supplying water trunks for cooling burning and neighboring tanks (“Guidelines for extinguishing oil and petroleum products in tanks and tank farms”, approved by the GUGPS Ministry of Internal Affairs of the Russian Federation on 12.12.1999).

The known method has a significant drawback: for the supply of fire extinguishing substances with a standard intensity and simultaneous cooling of tanks requires the concentration of significant forces and means of the fire guard garrison. In this case, the time of free development of fire increases significantly, creating a threat of destruction of the reservoir.

Thus, by the time the foam attack begins, in accordance with the above information and as a result of an increase in heat flow from the burning reservoir, a fire can spread to neighboring tanks and turn into a protracted fire with complex spasmodic development processes. The elimination of such fires requires the involvement of fire fighting forces and equipment from the neighboring fire protection garrisons and industrial enterprises.

In the context of the description of the claimed technical solution, the term "foam attack" should be understood - the supply of foam to the combustion zone with the standard intensity of the supply of fire extinguishing agent to stop burning.

The technical result achieved in the implementation of the proposed method is to increase the efficiency of extinguishing.

The technical result of the claimed invention is achieved due to the fact that in the method of foam attack when extinguishing fires in a tank farm for storing oil or petroleum products, the solution from the frother of the AFFF type is fed through stationary fire extinguishing installations at the initial stage of the fire in the tank, and the solution from the frother is supplied carried out with an intensity of 0.034 l / (m ² s) -0.055 l / (m ² s), increasing it to 0.08-0.10 l / (m ² s), depending on the type of oil or oil product.

Development and refinement of the claimed invention is that:

- for oil with a flash point of T _vsp ≤28 ° C, an increase in the intensity of the solution supply from the foaming agent is carried out up to 0.10 l / (m ² ⋅s);

- for petroleum products with a flashpoint T _vsp ≤28 ° C, an increase in the intensity of the supply of the solution from the foaming agent is carried out up to 0.10 l / (m ² s);

- for oil with a flash point of T _gf > 28 ° C, an increase in the intensity of the supply of the solution from the foaming agent is carried out to 0.08 l / (m ² s);

for petroleum products with a flash point of T _gf > 28 ° C, an increase in the intensity of the supply of the solution from the foaming agent is carried out to 0.08 l / (m ² s).

The main means of extinguishing a fire product is foam. Foam based on synthetic fluorine-containing film-forming foaming agent of the AFFF type according to GOST R 50588 is most effective for extinguishing the product and can be used, including, for under-layer fire extinguishing, since the use of other types of foaming agents is saturated with hydrocarbon vapors and passes the extinguishing ability .

The implementation of the supply solution from the foaming agent type AFFF with an intensity of 0.034 l / (m ² s) -0,055 l / (m ² s), and its further increase to 0.08-0.10 l / (m ² s) in Depending on the type of oil or oil product, it provides a significant reduction in the intensity of combustion, heat flux, flame height, temperature of heating of the walls of burning and adjacent tanks, thereby increasing the extinguishing efficiency.

The choice of the intensity of the supply of the solution from the foaming agent of the AFFF type through the stationary sublayer fire extinguishing installations is due to the fact that when the intensity is less than 0.034 l / (m ² ⋅s) a significant decrease in the intensity of combustion, heat flow, flame height, temperature of the burning walls of the burning and adjacent tanks does not occur when the intensity of the solution supply from the foaming agent (0.034 l / (m ² s) -0.055 l / (m ² s)) begins to form a protective film on the surface of the burning product, which prevents the development of the flame nor over the product's mirror, which significantly increases the fire extinguishing efficiency, and to effect the supply of a solution with an intensity higher than 0.055 l / (m ² ⋅s), it is necessary to attract additional forces and fire protection equipment to conduct a foam attack, as well as time for a firefighter’s deployment the guard.

When applying a solution with an intensity of 0.055 l / (m ² s), but below 0.10 l / (m ² s), the area of the burning product is covered with foam, which can significantly reduce the intensity of combustion in the tank and the degree of impact on neighboring tanks, and also to preserve the foam layer for a certain time, however, at this intensity fire extinguishing is not provided for the standard time of 15 minutes according to SP 155.13130.2014 “Warehouses of oil and oil products. Fire safety requirements.

The quenching effect can be achieved by feeding a solution from a foaming agent with a standard intensity of 0.10 l / (m ² s). The extinguishing of alcohol-containing fuel in a tank with an intensity below 0.10 l / (m ² s) and above 0.055 l / (m ² ⋅ s) is possible, while the quenching time exceeds the standard value and reaches 60 minutes.

The extinguishing of alcohol-containing fuel in a tank with an intensity higher than 0.10 l / (m ² s) is guaranteed, however, it will lead to the overrun of the foaming agent solution and the rapid elimination of the regulatory supply of the foaming agent, which will require the involvement of additional fire fighting forces and equipment.

The supply of the solution from the foaming agent with an intensity of 0.08-0.10 l / (m ² ⋅s) is due to the need for its compliance with the regulatory and is selected depending on the type of oil or oil product (SP 155.13130.2014 "Warehouses of oil and oil products. Fire safety requirements" ).

The method of foam attack when extinguishing fires in a tank farm for storing petroleum or petroleum products is carried out as follows (shown on the example of extinguishing a fire of a PBC-5000 tank with burning gasoline having a _Tsp ≤28 ° C).

The method of foam attack (a method of extinguishing a fire in a tank farm for storing petroleum or petroleum products) is described on the basis of field experiments conducted at the initial stage of a fire in a tank using forces and means of one guard of the fire brigade of an object from two compartments on tank trucks with a foaming agent. The foam attack of the RVS-5000 tank with burning gasoline (T _vs ≤28 ° C) begins immediately upon arrival at the fire site of the first guard of the fire brigade, which ensured a supply of the solution from the AFFF film-forming frother with an intensity of 0.034 L through the fixed fire extinguishing station (m ² ⋅s) and further, when performing combat deployment of the guard, it promptly increased it to the normative - 0.10 l / (m ² ⋅s).

According to the results of using the claimed method of foam attack, a significant decrease in the intensity of combustion, heat flux, flame height, temperature of heating of the walls of the burning and adjacent tanks was established.

Quenching using this method, taking into account an increase in the intensity of the solution supply from the foaming agent to 0.10 l / (m ² s), occurred after 4 min 50 s.

According to the results of field experiments, it was found that the quenching of gasoline in the RVS-5000 reservoir using a known method, when applying a solution from a foaming agent with an intensity of 0.068 l / (m ² ⋅s), occurred only at 32 minutes. This example proves the relevance of the application of the present invention.

Thus, it was established that when applying a solution from a foaming agent with an intensity of 0.034 l / (m ² s) -0.055 l / (m ² s), and successive increase to 0.08-0.10 l / (m ² c) depending on the type of oil or oil product, the achievement of a technical result is ensured.

This method may be a deterrent preventing the possibility of further development of a fire in a tank farm.

The method allows to increase the efficiency of extinguishing fires in the reservoir park by reducing the intensity of combustion, and, consequently, reducing the heat flux from the burning reservoir, which allows to prevent the development of fire not only on one reservoir, but also on neighboring ones.

In addition, it allows you to optimize the number of forces and means to extinguish a fire, which is especially important for fuel and energy facilities with tank farms located at a considerable distance from large fire guard garrisons.

Claims (5)

1. The method of foam attack when extinguishing fires in a tank farm for storing petroleum or petroleum products, consisting in supplying a solution from an AFFF foam former through stationary fire extinguishing sublayer installations at the initial stage of a fire in the tank, whereby the solution from the frother is supplied with an intensity of 0.034-0.055 L / (m ² ⋅s), increasing it to 0.08-0.10 l / (m ² ⋅s) depending on the type of oil or oil product. 2. The method according to p. 1, characterized in that for oil with a flashpoint T _vsp ≤ 28 ° C an increase in the intensity of the supply of the solution from the foaming agent is carried out to 0.10 l / (m ² ⋅s). 3. The method according to p. 1, characterized in that for petroleum products with a flashpoint T _vsp ≤ 28 ° C, an increase in the intensity of the supply of the solution from the foaming agent is carried out to 0.10 l / (m ² ⋅s). 4. The method according to p. 1, characterized in that for oil with a flash point of T _gf > 28 ° C, an increase in the intensity of the supply of the solution from the foaming agent is carried out to 0.08 l / (m ² · s). 5. The method according to p. 1, characterized in that for petroleum products with a flash point of T _gf > 28 ° C, an increase in the intensity of the supply of the solution from the foaming agent is carried out to 0.08 l / (m ² · s).