RU180590U1 - DEVICE FOR SUBLAYER EXTINGUISHING OF OIL PRODUCTS IN VERTICAL STEEL TANKS - Google Patents

Abstract

The utility model relates to a means of extinguishing oil products and can be used in the oil industry to extinguish fires of oil products in vertical steel tanks (PBC) of large capacity. The device contains a floating plate, foam nozzles, wiring, piping, metal flexible sleeve, check valve. At the same time, foam nozzles are located on the wiring parallel to the floating plate in pairs with a 180 ° turn in a concentric circle with an equal distance from the center and the walls of the horizontal section of the tank, the device is equipped with only one check valve, which is located in the wiring pipeline. The technical result consists in increasing the efficiency of extinguishing fires in vertical steel tanks intended for receiving, storing and dispensing petroleum products. 4 ill.

Description

The utility model relates to a means of extinguishing oil products and can be used in the oil industry to extinguish fires of oil products in vertical steel tanks (PBC) of large capacity.

The proposed utility model is most applicable for extinguishing oil products at oil depots and fuel depots.

Known vertical steel tank for oil and oil products with a volume of 5000 m ³ , equipped with a sub-layer extinguishing unit [Sharovarnikov AF, Molchanov VP, Voevoda SS, Sharovarnikov C.A. “Extinguishing Oil and Petroleum Fire Fires”: Second Edition, Fire Science, 2007].

The sublayer extinguishing installation of the tanks contains a foam conduit with a wiring, valves, a foam generator, a safety membrane, a check valve. The sublayer extinguishing method is associated with the use of special types of foaming agents, which form a foam, mixes little with oil and oil products, and form water films that spontaneously spread on the surface of the fuel. Foaming jet, getting into the oil, due to lower density floats to a burning surface. At the same time, the rise of the foam depends on the height of the level of oil and oil product. The height of the tank with a capacity of 5000 m ³ depending on the diameter is from 12 to 15 meters.

The disadvantages of installing a sublayer quenching of oil products in tanks are:

1. Deterioration of the quality of petroleum products when passing through their layer of foam jet.

2. The presence of a certain temporary period of foam rising to the surface of the oil product, which leads to an increase in the area of the fire and an increase in material damage.

A known installation for the stratification of oil and oil products in reservoirs containing water [Matveev Yu.A. and others. Patent for utility model No. 844544. Installation of sublayer quenching of oil and oil products in reservoirs containing water. M .: FIPS. 10.07. 2009 year].

The installation includes a foam pipe equipped with valves, a check valve, a safety membrane and a foam generator.

A set of telescopic telescopic tubes of various diameters mounted on a floating plate are vertically mounted at the end of the foam pipe. The upper tube of the kit is equipped with wiring and foam nozzles. In order to fix and tighten the pipes during extension, the kit is equipped with holders and o-rings, and a check valve is installed on the wiring to prevent oil from entering the pipes. The unit is equipped with a vertical steel tank, including internal sectional heaters.

Installation works as follows. Through the inlet pipe, pipeline and the corresponding valve, the oil enters the tank. Using internal heaters, hot steam is supplied to the PBC. A layer of water and a layer of oil are formed in the tank. When oil or petroleum products ignite, the foaming agent solution is supplied to the reservoir using a stationary source or a mobile tanker. In this case, the valves open, the foam check valve, the membrane is activated under pressure. The foaming solution passes through the foam generator and enters the set of pull-out pipes and wiring. After this, the check valve opens, and the foam stream through the foam nozzles enters the upper layer of oil (oil product). Then, due to the lower density, the foam jet enters the surface of the oil (oil product) and forms a foam layer. As a result of the formation of a foam layer and the cessation of access to air oxygen, the fire ceases.

The disadvantages of the installation for the stratification of oil and oil products in reservoirs containing water are:

1. A large number of telescopic pipes that can lose mobility during operation.

2. The presence of a safety membrane, which may lose its properties during operation and requires replacement after extinguishing or testing the installation.

3. The possibility of oil (oil product) entering the telescopic pipes through the sealing rings between the pipes.

4. The complexity of the installation repair.

Also known is the installation of sublayer quenching for oil and high-viscosity oil products [Matveev Yu.A. et al. Utility Model Patent No. 99716. Sublayer extinguishing unit for oil and high viscosity oil products. M .: FIPS. November 27, 2010].

The installation includes a foam pipe equipped with valves, a non-return valve, an electromagnetic valve with a starting device and a foam generator.

A support pipe is vertically installed at the end of the foam pipe, brought down behind the bottom of the tank, into which a movable pipe is mounted hermetically, mounted on a floating plate and equipped with wiring and foam nozzles. For the purpose of fixation and tightness when extending the pipes are equipped with holders and o-rings, and to prevent oil from entering the pipes, a check valve is installed on the wiring.

Installation of sublayer quenching for oil and high viscosity oil products works as follows. Through the inlet pipe, pipeline and the corresponding valve, the oil or oil product enters the tank. A layer of oil (oil product) is formed in the reservoir. In case of ignition of a fuel and lubricant, the foaming agent solution is supplied to the reservoir using a stationary source or a mobile tanker. At the same time, the valves, check valve, solenoid valve of the foam pipe open. The foaming solution passes through the foam generator and enters the movable pipe and wiring. After this, the check valve opens, and the foam stream through the foam nozzles enters the upper layer of oil (oil product). Then, due to the lower density, the foam jet enters the surface of the fuel and lubricant and forms a foam layer on the surface of the burning oil product. As a result of the formation of a foam layer and the cessation of access to air oxygen, the fire ceases.

In case of high temperature, smoke and the inability of the operator to work near the tank, the solenoid valve is opened using an electric motor. For this, the operator includes a starting device. After extinguishing the fire and carrying out preventive maintenance, the foam pipe will not require repair associated with the replacement of the membrane.

The disadvantages of the layered quenching installation for oil and high viscosity oil products are:

1. The presence of two pull-out pipes that can lose mobility during operation.

2. The exit of the lower pipe beyond the bottom of the tank, which leads to a change in the design of the bottom and additional welded joints.

3. The presence of holders and o-rings, which may lose operability and tightness as a result of operation.

4. The complexity of the installation repair.

The closest in technical essence of the proposed utility model is the installation of sublayer quenching of oil products with a floating plate moving vertically along the support pipe. [Matveev Yu.A. and others. Patent for utility model No. 120696. Installation of sublayer quenching of petroleum products with a floating plate moving vertically along the support pipe M .: FIPS. September 27, 2012].

A tank having a receiving pipe and pipe, a valve, a foam pipe equipped with valves, a non-return valve, an electromagnetic valve, with a manual opening and closing device, a communication line and a starting device, as well as a foam generator.

The foam conduit is rigidly connected with a flexible metal sleeve to the wiring conduit with check valves and foam nozzles. The wiring is connected to a floating plate, which is mounted by means of an internal hole on a stationary support pipe connected to the roof and bottom of the tank. Check valves are designed to prevent oil from entering the wiring, flexible metal sleeve and foam.

The floating plate moves vertically in the upper fuel layer through the pipe due to a change in the amount of oil in the tank.

In order to strengthen the design of the tank, the support pipe is rigidly connected by trusses to the side walls of the tank.

The utility model works as follows. In case of ignition of the fuel, the foaming agent solution is supplied to the reservoir using a stationary source or a mobile tanker. The foaming solution passes through the foam generator and enters the metal flexible sleeve, piping and wiring. After this, the check valves open and the foam stream through the foam nozzles enters the upper layer of the oil product. Then, due to the lower density, the foam jet enters the surface of the fuel and lubricant and forms a foam layer above the level of the burning oil product. As a result of the formation of a foam layer and the cessation of access to air oxygen, the fire ceases.

The disadvantages of installing a sublayer quenching of oil products with a floating plate moving vertically along the support pipe are:

1. Uneven spreading of foam on the surface of the oil.

2. Weak mixing of cold layers of oil with a high-temperature top layer.

3. A large number of check valves.

The proposed utility model allows us to solve the problem of increasing the efficiency of extinguishing fires in vertical steel tanks designed for receiving, storing and dispensing petroleum products.

The solution to this problem is achieved by the fact that the foam nozzles are arranged in parallel with the floating plate in pairs with a 180 ° turn in a concentric circle, with equal distance from the center and the walls of the horizontal section of the tank, and also because the device is equipped with only one check valve, which is located in the piping wiring.

These signs are essential for solving the utility model problem, since the efficiency of extinguishing oil products in high-temperature storage tanks is increased, the number of check valves decreases, the cooling of the high-temperature top layer is improved, and the foam consumption for extinguishing fires is also reduced.

The essence of the utility model is illustrated by drawings (Fig. 1, Fig. 2, Fig. 3, Fig. 4), which depict: a sectional view of the device in the initial and operating position, a top view section of the tank along the floating plate line, and a section of the piping layout with check valve and foam nozzles.

In the proposed model, the tank 1 has a receiving pipe 2, a pipeline for oil 3, a valve 4 and a foam 5. The foam 5 is rigidly connected with a flexible metal sleeve 6 to the pipe 7 of the pipe 8. The pipe 7 of the pipe 8 is equipped with a non-return valve 9. The pipe is equipped with eight foam nozzles 10 .

 The wiring 8 is connected to a floating plate 11, which is mounted on a stationary support pipe connected to the roof and bottom of the tank. The non-return valve is designed to prevent the ingress of oil into the piping, flexible metal sleeve and foam. The floating plate moves vertically in the upper layer of oil (fuel) 12.

It should be noted that the foam nozzles are arranged in pairs with a 180 ° turn and parallel to the floating plate and the upper layer of the oil product. This arrangement of foam nozzles allows to improve cooling and mixing with “cold” layers of combustible upper heated oil product layer. Foam nozzles are also located equidistant from the center and the walls of the horizontal section of the tank in a concentric circle centered on the axis of the PBC. This reduces the foam consumption due to the earlier formation of the necessary insulating layer of extinguishing agent.

The utility model works as follows. Through the intake pipe 2, the pipeline for oil 3 and the corresponding valve 4 fuel enters the tank. A layer of oil product 12 is formed in the reservoir. Upon ignition of the combustible foam 13, it is supplied to the reservoir. The extinguishing agent enters the metal flexible sleeve 6, the pipeline 7 and the wiring 8. This opens the check valve 9, and the foam 13 through the foam nozzles 10 enters the upper layer of the burning oil 12, which has an elevated temperature.

Due to the lower density of the foam, passing through the fuel layer, carries away the unheated oil product layer, as a result, the layers are mixed and the temperature of the surface fuel layer decreases. Foam comes to the surface of the burning oil product, spreading evenly throughout the entire upper level of fuel in the tank. As a result of the formation of a foam layer and the cessation of access of air oxygen to the combustion zone, the fire ceases. It should be noted that the proposed utility model is reliable in operation and allows you to extinguish the fire in a shorter time, to minimize both the loss of oil product quality and the amount of burned fuel, as well as reduce the consumption of fire extinguishing agents.

Claims (1)

Device for sublayer extinguishing of oil products in vertical steel tanks, containing a floating plate, foam nozzles, wiring, piping, metal flexible sleeve, characterized in that the foam nozzles are arranged on a parallel parallel to the floating plate wiring with a 180 ° turn in a concentric circle, with equal removal from the center and walls of the horizontal section of the tank, as well as the fact that the device is equipped with only one non-return valve, which is located in the wiring pipeline.

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