RU2695611C1 - Method of changing concentration of explosive gas medium to a safe container inside - Google Patents

Abstract

FIELD: technological processes.SUBSTANCE: invention relates to investigation of materials, namely to methods for decontamination of explosive gas medium inside transport container, and can be used at works on opening of containers with unknown gas medium, which are in operation for a long period of time. Method includes creation of inert atmosphere in container using inert gas and container maintenance till safe concentration of gas medium is established. Container is exposed by force to striker installed in guide located along contour of container inspection window. Into formed hole through hole in striker inert gas is supplied to achieve safe concentration of explosive gas mixture. At the same time guide and striker are made of material excluding spark at their interaction with container.EFFECT: achieving safety by preventing the risk of fire or explosion when opening the container; enabling remote control of the process of releasing an explosive gas mixture from a container and filling it with an inert gas to the required volume and achieving safe concentration of the gaseous medium.1 cl, 2 dwg

Description

The invention relates to the study of materials, and in particular, to methods for changing the concentration of an explosive gas medium inside a transport container, and can be used when opening containers with an unknown gas medium that have been in operation for a long time.

The urgency of the problem to be solved is based on the creation of safe working conditions when opening containers with explosive gas atmospheres for the purpose of disassembling, ventilating, replacing the moisture absorber or disposal. Explosive toxic substances accumulated during operation above the maximum permissible concentrations can lead, due to the occurrence of a spark during opening under normal conditions, to a fire, explosion and environmental disturbance.

A known method of discharging and eliminating explosive and toxic gases used in mechanical engineering. With this method, the entire volume of explosive and toxic gases from process plants through the check valve enters the line of the main gas pipeline with the aim of burning them. (RF patent No. 2422177, IPC A 62C 3/04, publ. 06/27/2011)

A disadvantage of this method is the fact that a check valve device for relieving excess pressure is not provided on transport containers. Also, not all transport containers have a valve for sampling the gaseous medium through which it would be possible to discharge hydrogen and other light gaseous substances in order to relieve excess pressure and ventilate the transport container.

A known method of displacing an inert gas of a toxic mixture in order to control the atmosphere of the afterburner after purging it with hydrogen. (RF patent No. 2035809, IPC H01M 8/04, publ. 05.20.1995)

The disadvantage of using this method is the inability to use it to open the transport container and release hydrogen, the inability, under normal conditions, to ensure a safe and stable atmosphere and environmental safety due to the risk of fire, explosion or toxic products to the environment.

As a prototype of the claimed invention, the selected "Method of regulating the gas environment in a container containing combustible gaseous substances" (RF Patent No. 2530448, IPC G01N 7/00, publ. 10.10.2014)

According to a known method, a container provided with a removable lid is placed in a sealed vessel. A ball filled with helium and provided with a load, the mass of which is selected so that the ball filled with helium, with the load was in suspension in argon, is immersed in the free space formed between the walls of the sealed vessel and the container. An intermediate volume is filled between the container wall and the wall of the vessel with an inert gas (argon) to displace air until the ball filled with helium and supplied with cargo rises to the border of the removable lid and the neck of the container. The argon supply is then continued and at the same time, the removable lid of the container is opened to a height sufficient to discharge excess combustible or toxic gaseous products from the container into a sealed vessel with argon. Then fix the removable cover over the neck of the container using gaskets.

The disadvantages of the prototype include the following factors: 1) the application of the method is possible only after determining the concentration of the combustible component of the gas medium inside the container;

2) when unscrewing the bolts securing the cover, there is a danger of it breaking off, because the magnitude of the overpressure inside the transport container is unknown;

3) provides a “manual” method of unscrewing the bolts of the lid of the transport container, the presence of at least two people during especially hazardous work;

4) a large number of containers of various types of sizes and designs are in operation, which leads to the need to manufacture a similar number of sets of technological equipment for opening containers.

The objective of the invention is to change the concentration of explosive gas environment to a safe inside the transport container and increase the safety of work.

The technical result provided by using the proposed method is

- in ensuring safety when opening the container by preventing the risk of fire or explosion when opening the container,

- the ability to remotely control the process of releasing an explosive gas mixture from a container and filling it with inert gas to the desired volume and achieve a safe concentration of the gas mixture.

- to ensure the possibility of continuing the study of the process of storing products in containers by replacing the explosive gas atmosphere in the container with a safe one, - in reducing labor costs for work.

To solve this problem and achieve a technical result, a method for changing the concentration of an explosive gas environment to a safe one inside the container by opening it is claimed. This method involves creating an inert atmosphere in the container using an inert gas, keeping the container until a safe concentration of the gaseous medium is established. At the same time, the container is opened by force acting on the striker installed in a guide located along the contour of the container inspection window, after which inert gas is supplied through the channel in the striker to a safe concentration of the explosive gas mixture. At the same time, the guide and the hammer are made of material that excludes the occurrence of sparks when they interact with the container.

The specified task and result is achieved due to the fact that:

1) the excess pressure is not released when the container lid is opened, but through the opened inspection window of the container with the lid closed, which increases the safety of the process;

2) the material of the striker and the guide exclude the occurrence of a spark when extruding the glass inspection window of the container;

3) inert gas is supplied through the destroyed inspection window of the container until a certain volume is filled and a safe concentration of the gaseous medium is reached; then the cover is removed.

4) inspection windows of the same type of sizes are available on all types of containers. The location of the inspection windows is possible only in two places: on the upper end part of the lid and on the side surface of the container lid. Therefore, only 2 types of devices for opening containers are required (universal equipment is used), which significantly reduces the cost of the work.

5) the devices necessary for carrying out the operations of the method allow both manual opening of the container and remote, which positively affects the safety of work.

The figure 1 shows the mounting scheme of the device for opening the container, in which the viewing window is located on the upper end surface of the lid.

The figure 2 shows the mounting scheme of the device for opening the container, in which the viewing window is on the side surface

In FIG. 1 and FIG. 2 shows the following notation:

1 - container

2 - viewing window

3 - a directing glass

4 - firing pin

5 - power drive

6 - a persistent level

7 - moving heel

8 - threaded rod

9 - capture

10 - bandage

Opening a container with an inspection window located on the upper end surface of the lid is shown in FIG. one.

A universal stop bracket is attached to the container 1, consisting of a stop bar 6 with a movable stop heel 7, in which there is a guide cup 3 with a striker 4 made of a material that excludes the appearance of a spark during friction (for example, bronze, aluminum, etc.), threaded rods 8 and grips 9. In the striker, through axial channels are made. The load from the power drive 5 is transmitted to the end surface of the striker 4, or the striker 4 is loaded directly at the workplace. You can use a hydraulic or electric drive, if the loading of the striker 4 is carried out remotely, from an adjacent room, building or casemate.

When mounting on the container 1 a universal stop bracket with a movable stop heel 7 included in it, you can change the height of the threaded rods 8 and center distances in the stop bar 6, providing the required height and diameter depending on the design of the container. In addition, the movable thrust heel 7 is installed coaxially with the vertical axis of the striker 4.

Tightening the nuts of the threaded rods 8 (until the force increases sharply) provides (without gaps) a tight assembly of the entire structure.

The striker 4 is loaded using the power drive 5 until the viewing window 2 is destroyed.

The inventive method involves the following basic operations.

A stop bar 6 is mounted on the container 1 with a movable stop heel 7. into which a guide cup 3 with a striker 4 is inserted, while the guide cup 3 is oriented along the contour of the inspection window 2 of the container 1.

The force impact on the firing pin 4 push through the viewing window 2 of the container. The firing pin 4 falls below the surface of the lid of the container 1.

Hydrogen and volatile toxic compounds formed during storage of products exit into the hole through the channels in striker 4 through the channels.

After 30 minutes of airing the container through the hammer 4, inert gas is supplied until the container 1 is filled with 100% free volume. Inert gas sinks to the bottom of the container and displaces the hydrogen-air mixture.

After filling the container with inert gas, the container cover bolts are unscrewed and the container cover is removed. A moisture indicator and a moisture absorber are removed from the container, and the condition of parts of the product is visually evaluated. In each case, a decision is made on the further use of the product.

Similar operations are carried out for containers in which a viewing window 2 is located on the side surface of the container (Fig. 2) and the technological operations described above are carried out. The only difference is that the universal stop bracket is attached to the container 1 through the bandage 10.

Claims (1)

A method of changing the concentration of an explosive gas environment to a safe one inside the container by opening it, including creating an inert atmosphere in it using inert gas, keeping the container until a safe concentration of the gas medium is established, characterized in that the container is opened by force acting on the hammer installed in the guide, located along the contour of the inspection window of the container, after which inert gas is fed into the hole through the channel in the striker until a safe nd concentration of the explosive gas mixture, the guide and the striker are made of a material that excludes the occurrence of sparks during their interaction with the container.

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