RU146061U1 - INSTALLATION OF GAS EXTINGUISHING - Google Patents

Abstract

1. A gas fire extinguishing installation, comprising a control unit and serially connected isothermal tank for liquid carbon dioxide with a carbon dioxide supply pipe and a locking and starting device located outside the tank, above the level of liquid carbon dioxide in the tank, characterized in that it is additionally equipped with a line for supplying nitrogen to the tank for liquid carbon dioxide from a nitrogen receiver, which is equipped with cooling elements and is connected to a nitrogen source. 2. Installation according to claim 1, characterized in that an automatic shutoff valve is installed on the nitrogen supply line. 3. Installation according to claim 1, characterized in that a temperature sensor is installed in the tank to monitor the temperature.

Description

The utility model relates to fire fighting equipment, and can be used for gas extinguishing of fires arising in rooms, on technological equipment, tanks with flammable liquids (LVF) and combustible liquids (GF).

A known installation of carbon dioxide fire extinguishing (AS USSR No. 1818108, publ. 05/30/93), including an isothermal tank for liquid carbon dioxide, connected through a valve to a manifold and pipelines supplying carbon dioxide to a tank with a burning liquid.

A known installation of gas fire extinguishing (utility model No. 75580, publ. 08/20/2008), containing a control unit and series-connected isothermal tank for liquid carbon dioxide with a carbon dioxide supply pipe and a locking and starting device located outside the tank, above the tank, distribution devices and distribution pipe with sprayers.

Known adopted for the prototype, the installation of gas fire extinguishing (RF patent No. 2474449, publ. 02/10/2013), containing a control unit and series-connected isothermal tank for liquid carbon dioxide with a carbon dioxide supply pipe and a locking and starting device located outside the tank above the level liquid carbon dioxide in the tank.

Known fire extinguishing installations have a common drawback: their designs allow the leakage of carbon dioxide.

Leaks occur due to:

- leaks of flange connections;

- etching of safety valves at a pressure close to the operating pressure of the valve;

- pressure increase in case of failure of the cooling elements or when the outside temperature changes rapidly (when pressure is exceeded, safety valves open to relieve pressure).

Due to constant leaks, the mass of stored carbon dioxide in liquid form is reduced, since in order to maintain the working pressure within the range of 1.95-2.05 MPa due to heating, part of the carbon dioxide passes from a liquid to a gaseous state.

In order to refuel carbon dioxide storage tanks and comply with fire safety requirements, especially in the Far North, where there are no capacities for the production of liquid carbon dioxide, it is necessary to deliver carbon dioxide for refueling the tanks, as a rule, from the central part of Russia, which requires corresponding material costs.

The constant leakage of carbon dioxide negatively affects the environment, since carbon dioxide is the main cause of the formation of the so-called “greenhouse effect”.

In addition, carbon dioxide in large concentrations has a harmful effect on humans, which negatively affects the safety of labor at oil and gas companies.

The task to which the utility model is directed is to eliminate leaks of liquid carbon dioxide during the entire period of its storage.

The solution to the problem is achieved by the fact that the gas fire extinguishing installation comprising a control unit and series-connected isothermal tank for liquid carbon dioxide with a carbon dioxide supply pipe and a locking and starting device located outside the tank, above the level of liquid carbon dioxide in the tank, is additionally equipped with a nitrogen supply line according to the utility model into the tank for liquid carbon dioxide from the nitrogen receiver, which is equipped with cooling elements and is connected to a nitrogen source, while on the feed line and nitrogen, an automatic shut-off valve is installed, and a temperature sensor is installed to monitor the temperature in the tank.

Between the distinguishing features and the solution of the task (technical result) there is the following causal relationship.

The equipment of the gas fire extinguishing installation with a nitrogen supply line to the liquid carbon dioxide tank allows eliminating the leakage of liquid carbon dioxide during the entire storage period.

The utility model is illustrated by a drawing, which shows a diagram of a gas fire extinguishing installation.

The installation contains a control unit (not shown), an isothermal tank (module) for liquid carbon dioxide (MIZhU), which is a complex unit and includes: a tank 1 for liquid carbon dioxide (ZhU), heating elements 2, cooling elements 3, weighing device 4, valve 5 for filling and draining liquid carbon dioxide, valve 6 for pressurizing and depressurizing the tank, refrigeration units 7. The tank 1 is connected in series with the carbon dioxide supply pipe 8 and with a locking and starting device 9. Locking and starting device 9 is located outside the reservoir 1 above the level of liquid carbon dioxide in the reservoir. The proposed gas fire extinguishing installation is equipped with a nitrogen supply line 10 from the nitrogen receiver 11. The receiver 11 is equipped with cooling elements 12 for cooling nitrogen. The receiver 11 is connected to a nitrogen source 13, which is used as a gas cylinder or a nitrogen production unit. An automatic shutoff valve 14 is installed on the nitrogen supply line 10. To monitor the temperature in the tank, a temperature sensor 15 is installed, and a pressure gauge 16 is used to control the pressure.

The operation of the gas fire extinguishing system is as follows.

Refuel the tank 1 with liquid carbon dioxide in the standard way, at a pressure of at least 1.00 MPa. After refueling, the pressure must be raised to 2.00 MPa. To do this, open the automatic shut-off valve 14. After raising the pressure to 2.00 MPa, a nitrogen “cap” is formed in the tank 1, after which the composition of the components in the tank is as follows: in the upper part - nitrogen “cap”, in the middle - carbon dioxide in gaseous state, carbon dioxide in the liquid state below. When creating a nitrogen “cap” in tank 1, all carbon dioxide leaks occur in nitrogen, which eliminates carbon dioxide leaks from tank 1. The temperature in the tank is controlled by a signal from the temperature sensor 15. If heating or cooling is necessary, heating elements 2 or cooling elements 3 from the refrigeration units 7, which allows you to maintain a constant temperature in the tank 1. Pressure control in the tank ZHU is carried out from manometer 16. When the pressure drops below the value established in the tank 1, the signal from the pressure gauge 16 is fed to the opening of the shut-off valve 14. After opening the shut-off valve 14, nitrogen from the receiver 11 enters the tank 1, as a result of which the nitrogen pressure in the tank 1 rises, thereby maintaining the conditions under which carbon dioxide is in a liquid state, which eliminates its leakage from the tank 1.

Claims (3)

1. A gas fire extinguishing installation, comprising a control unit and serially connected isothermal tank for liquid carbon dioxide with a carbon dioxide supply pipe and a locking and starting device located outside the tank, above the level of liquid carbon dioxide in the tank, characterized in that it is additionally equipped with a line for supplying nitrogen to the tank for liquid carbon dioxide from a nitrogen receiver, which is equipped with cooling elements and is connected to a nitrogen source. 2. Installation according to claim 1, characterized in that an automatic shutoff valve is installed on the nitrogen supply line. 3. Installation according to claim 1, characterized in that a temperature sensor is installed in the tank to monitor the temperature.