UA25399U - Unit for localizing and mitigating emergency leakage of heavy gas from technologic container - Google Patents

Abstract

The unit for localizing and mitigating the emergency leakage of heavy gas from the technologic container relates to the means for localizing and mitigating the emergency leakage of the gas in the chemical enterprises, nuclear power stations, railway transport, etc.

Description

Description of the invention

The useful model refers to the means of localization and neutralization of emergency gas leaks, mainly 2 highly effective poisonous substances heavier than air, from technological containers and equipment and can be used at enterprises of chemical heat power and other sectors of the economy, at nuclear power plants, railway transport, communal economy, etc.

A well-known installation for the localization of an emergency leak of gas heavier than air from technological containers and equipment of I.I. Brezhnev, V.M. Treskunov - Occupational safety during the operation of water supply and 70 sewerage systems M.: Stroizdat, 1983 |), which includes ventilation units, the intake devices of which are located at floor level.

The disadvantage of this installation is that the gas from the ventilation system is released into the atmosphere, which leads to environmental pollution.

A well-known installation for the localization and neutralization of an emergency gas leak of highly toxic substances from 72 technological containers

B.Yu. Yagud et al., M.: Khimiya, 1990), which includes an open container with a depth of at least 1.5 m with a degassing solution for placing emergency containers in it.

The disadvantage of this installation is that it does not provide effective gas absorption in the bath. This is explained by the fact that gas leakage from the process container occurs under a pressure of 0.6...0.7 MPa, which leads to the release of gas bubbles on the surface of the solution. In addition, the process of gas dissolution in a liquid without active mixing of the liquid leads to inhibition of the gas dissolution process in connection with local saturation, which leads to the reverse process of desorption, i.e., the release of gas from the liquid into the room. Operations related to the transportation and placement of emergency containers in a container with a degassing solution are particularly dangerous.

The closest to the proposed one is the installation for localization and neutralization of an emergency leak of gas that is heavier than air, from technological containers and equipment (A.F. Mazenko, B.Yu. Yagud et al. Safety technology in the storage, transportation and use of chlorine, M .: Chemistry, 1990), which contains ventilation units, the intake devices of which are installed at floor level, and the floor itself has a corresponding slope in the direction of the intake devices, with the subsequent passage of polluted air through the scrubber unit.

The disadvantage of this installation is its high energy consumption and high water consumption. In addition, the installation allows Me. introduction of water droplets saturated with gas into the atmosphere, which leads to pollution of the surrounding environment.

The useful model is based on the task of improving the installation for the localization and neutralization of an emergency gas leak that is heavier than air from a technological container and equipment by effectively capturing and removing the emergency gas leak outside the room with its subsequent dissolution in a liquid that moves along the internal the surface of a closed space with reduced energy and fluid consumption and by increasing labor safety.

The task is solved by the fact that in the installation for localization and neutralization of an emergency leak of gas heavier than air, from a technological container and equipment, which includes a device for collecting gas, a device for introducing gas into a liquid, a container for a liquid, an automation system, respectively of a useful model, the device for collecting gas is made in the form of channels laid in the floor of the production room, or with the storage of the technological container or on the production equipment, which are covered with grates within the room with" and sealed outside, and the channels have a slope towards the sealed part for the movement of gas under the action of gravitational forces, and the device for introducing gas into the liquid includes a chamber in the bottom of which coaxially installed upper and lower tubes in such a way that the upper tube concentrically enters the lower tube for a small distance, forming an annular gap, while the upper tube is connected by a pipeline to the sealed part of the channel, and the chamber - through a pipeline with a pumping unit.

The specified structural differences of the installation make it possible to effectively collect the emergency gas release from the technological packaging and equipment, to remove it outside the production premises or warehouse with the subsequent

Te) 20 by its disposal with negligible energy consumption and without environmental pollution.

The proposed installation for the localization of neutralization of an emergency leak of gas, which is heavier than air, from a technological container and equipment is explained by diagrams.

The diagrams show: in Fig. 1 - installation, general view, in Fig. 2 section AA in Fig. 1.

The installation includes a device for collecting gas, a device for introducing gas into a liquid, capacity 1, 29 automation system (not shown in the drawings). The device for collecting gas includes a number of channels 2, which are laid in the floor of the production movement or in the premises of the storage of technological containers or technological equipment. Each channel within the room is covered by a grid C (section of the channel "a") is sealed outside the room (section of the channel "B"), channel 2 has a slope in the direction of the sealed part (section of the channel "b" is sufficient for the movement of gas under the influence of gravitational forces. Fitting 4 is installed on the sealing section "b" of channel 2 60.

The device for introducing gas into the liquid contains a chamber 5, in the bottoms "v" and "g" of which coaxially installed tubes - the upper 6 and the lower 7, while the upper tube 6 concentrically enters the lower tube 7 for a small distance, forming an annular gap. The upper tube 6 is connected to the fitting 4 through the pipeline 8. The chamber 5 is connected through the pipeline 9 to the pumping unit 10, which is connected through the pipeline 11 to the container 1, in which the liquid is placed. A sensor 12 of the alarm system is installed on the tube 7, which responds to changes in the electrical conductivity of the liquid with gas.

The installation works like this.

In the event of an emergency gas leak from a process container or equipment, the gas falls to the floor (gas is heavier than air), which has a slope. The gas moves along the floor to the channels 2 and enters them through the grate З. Through channels 2, which have a slope, the gas moves outside the premises into the sealed parts. The automation system, which includes gas analyzers installed in the premises, automatically includes the pumping unit 10, which supplies liquid through pipelines 9 and 11 from container 1 to chamber 5. From chamber 5 under pressure, the liquid passes through the annular gap forming tubes 6 and 7 , ejecting air from the tube 6, creating a vacuum in the tube 6, under the influence of which the gas 70 that entered the sealed section of the channel 2 through the fitting 4, the pipeline 8 and the tube 6 enters the tube 7, where it is captured by the annular flow of liquid, in which absorption takes place of gas, which excludes local oversaturation of the liquid with gas, since the dissolution of the gas occurs in the liquid moving along the tube 7. The liquid flows from the tube 7 into the container 1. When gas appears in the tube 7, the electrical conductivity of the liquid changes, which is responded to by the sensor 12 of the alarm system Sound signals about an emergency gas leak are given.

In the absence of an automation system, workers manually turn on the pump unit when entering the premises, checking the absence of emergency gas leakage from the process container. If there is an emergency gas leak, the process of its localization and neutralization in the future takes place in the same way as when it is turned on automatically.

The liquid with gas dissolved in it can be used in the future, for example, if the gas is chlorine, then for chlorination of waste water. Thus, the proposed installation for the localization and neutralization of an emergency leak makes it possible to eliminate the emergency situation, prevent the release of gas into the atmosphere and prevent poisoning of workers, as well as reduce the energy consumption of water.

Claims (1)

The formula of the invention is that 2 Installation for localization and neutralization of an emergency leak of gas heavier than air from a technological container, containing a device for collecting gas, a device for introducing gas into a liquid, a container for liquid and an automation system, which differs in that the device for gas collection is made in the form of channels that are laid in the floor of the production room or the room of the storage of technological containers or on the production equipment, which are covered by grates within the room, and sealed outside these rooms (2), and the channels have an inclination towards the sealed part , sufficient for the movement of gas under the action of gravitational forces, and the device for introducing gas into the liquid contains a chamber, in the bottoms of which the upper and lower tubes are coaxially installed in such a way that the upper tube concentrically enters the LOWER tube at a small distance M from 5, forming an annular gap, and the upper tube is connected by a pipeline to the sealed part of the channel, and the camera through the pipeline - with a pumping unit. - and? ime) 1 (95) se) 3e) 60 b5