KR102387674B1 - Fluid leak response training system - Google Patents

Abstract

A fluid leak response training system is provided. The fluid leak response training system comprises: a training facility in which a fluid discharging kit for fluid leak response training is arranged; and a training control room arranged adjacent to the training facility to control the fluid discharging kit for fluid leak response training. The fluid discharging kit for fluid leak response training is remotely controlled in the training control room to realize a fluid leak according to a training scenario.

Description

FLUID LEAK RESPONSE TRAINING SYSTEM

The present invention relates to a fluid leak response training system.

Hundreds of chemical accidents, including leaks, explosions, and fires, have occurred in recent years. In particular, chemical accidents due to leakage occur most frequently, and the proportion of chemical accidents among chemical accidents is over 70%. In a chemical accident caused by a leak, the damage range is greatly expanded by the diffusion of harmful gases or liquids.

Japanese Patent Laid-Open No. 2012-215820 (published on November 1, 2012) China Utility Model Registration Publication No. 203433733 (2014.2.12. Announcement)

The present invention provides a training system that can effectively perform fluid leak response training.

Other objects of the present invention will become apparent from the following detailed description and accompanying drawings.

A training system for responding to a fluid leak according to embodiments of the present invention is a training facility in which a fluid release kit for training against a fluid leak is disposed and a training facility disposed adjacent to the training facility to control the fluid release kit for training for responding to a fluid leak Includes control room.

The fluid release kit for training in response to a fluid leak may be remotely controlled from the training control room to implement a fluid leak according to a training scenario.

The fluid release kit for training in response to a fluid leak may be installed inside the training container disposed in the training facility. The training vessel may take the form of a chemical plant, a storage tank, or a transport vehicle.

The fluid discharge kit for training in response to a fluid leak includes a fluid discharge chamber having a fluid discharge hole, a first supply pipe connected to the fluid discharge chamber to supply a first fluid to the fluid discharge chamber, and the fluid discharge chamber connected to the A second supply pipe for supplying a second fluid to the fluid discharge chamber, a third supply pipe connected to the fluid discharge chamber to supply a third fluid to the fluid discharge chamber, between the fluid discharge chamber and the first supply pipe and for discharging the fluid It may include a first nozzle disposed between the chamber and the second supply pipe, and a second nozzle disposed between the fluid discharge chamber and the third supply pipe.

The first fluid and the second fluid may be mixed in the first nozzle and supplied to the fluid discharge chamber. The first nozzle and the second nozzle may be spray nozzles.

The first fluid may be compressed air, and the second fluid and the third fluid may be water.

According to the embodiments of the present invention, it is possible to effectively perform the training for responding to a fluid leak. Accordingly, it is possible to effectively respond to the occurrence of a leak accident and prevent or reduce damage caused by the leak accident.

1 shows a fluid release kit for training in response to a fluid leak according to an embodiment of the present invention.
2 shows a fluid discharge device for training in response to a fluid leak according to an embodiment of the present invention.
3 is a view for explaining a fluid discharge method for training in response to a fluid leak according to an embodiment of the present invention.
4 shows a design diagram of a training container and a fluid release kit for training in response to a fluid leak according to an embodiment of the present invention.
5 shows a fluid leak response training system according to an embodiment of the present invention.
6 shows a chemical equipment training facility in the fluid leak response training system of FIG. 5 .
7 shows a storage tank training facility in the fluid leak response training system of FIG. 5 .
8 shows a transport vehicle training facility in the fluid leak response training system of FIG. 5 .
9 shows a training scenario for explaining a training method for responding to a fluid leak according to an embodiment of the present invention.
10 shows a training flow for a chemical plant training facility according to a training scenario.
11 shows a training flow for a storage tank training facility according to a training scenario.
12 shows a training flow for a transport vehicle training facility according to a training scenario.

Hereinafter, the present invention will be described in detail through examples. Objects, features, and advantages of the present invention will be readily understood through the following examples. The present invention is not limited to the embodiments described herein, and may be embodied in other forms. The embodiments introduced herein are provided so that the disclosed content can be thorough and complete, and so that the spirit of the present invention can be sufficiently conveyed to those of ordinary skill in the art to which the present invention pertains. Therefore, the present invention should not be limited by the following examples.

In this specification, terms such as first, second, etc. are used to describe various elements, but the elements should not be limited by these terms. These terms are only used to distinguish the elements from each other. Also, when an element is referred to as being connected (or coupled) to another element, it means that it may be directly connected (or coupled) to the other element or a third element may be interposed therebetween.

In the drawings, the size of the elements or the relative sizes between the elements may be exaggerated for a clearer understanding of the present invention. Accordingly, the embodiments disclosed in the present specification should not be limited to the shapes shown in the drawings unless otherwise noted, and should be understood to include modifications to a certain extent.

[Fluid release for training in response to fluid leaks] kit ]

A fluid discharge kit for training in response to a fluid leak according to an embodiment of the present invention includes a fluid discharge chamber having a fluid discharge hole, a first supply pipe connected to the fluid discharge chamber to supply a first fluid to the fluid discharge chamber, the A second supply pipe connected to the fluid discharge chamber to supply a second fluid to the fluid discharge chamber, a first supply control valve disposed in the first supply pipe to control the flow of the first fluid, and disposed in the second supply pipe and a second supply control valve for regulating the flow of the second fluid.

The fluid release kit for training in response to fluid leakage includes a third supply pipe connected to the fluid discharge chamber and supplying a third fluid to the fluid discharge chamber, and a third supply pipe disposed in the third supply pipe to control the flow of the third fluid 3 It may further include a supply control valve.

The fluid discharge kit for training in response to fluid leakage includes a first nozzle disposed between the fluid discharge chamber and the first supply pipe and between the fluid discharge chamber and the second supply pipe, and between the fluid discharge chamber and the third supply pipe. It may further include a second nozzle disposed. The first fluid and the second fluid may be mixed in the first nozzle and supplied to the fluid discharge chamber. The first nozzle and the second nozzle may be spray nozzles.

The first fluid may be compressed air, and the second fluid and the third fluid may be water.

A fluid discharge kit for training in response to a fluid leak according to another embodiment of the present invention includes a fluid discharge chamber having a fluid discharge hole, a first supply pipe connected to the fluid discharge chamber and supplying a first fluid to the fluid discharge chamber, the A second supply pipe connected to the fluid discharge chamber to supply a second fluid to the fluid discharge chamber, a third supply pipe connected to the fluid discharge chamber to supply a third fluid to the fluid discharge chamber, the fluid discharge chamber and the second supply pipe a first nozzle disposed between the first supply pipe and between the fluid discharge chamber and the second supply pipe; and a second nozzle disposed between the fluid discharge chamber and the third supply pipe.

The fluid release kit for training in response to fluid leakage includes a first supply control valve disposed in the first supply pipe to control the flow of the first fluid, a first supply control valve disposed in the second supply pipe to control the flow of the second fluid It may further include a second supply control valve, and a third supply control valve disposed on the third supply pipe to control the flow of the third fluid.

The first fluid and the second fluid may be mixed in the first nozzle and supplied to the fluid discharge chamber. The first nozzle and the second nozzle may be spray nozzles. The first fluid may be compressed air, and the second fluid and the third fluid may be water.

1 shows a fluid release kit for training in response to a fluid leak according to an embodiment of the present invention.

Referring to FIG. 1 , the fluid discharge kit 100 for training in response to fluid leakage includes a fluid discharge chamber 110 , a first supply pipe 121 , a second supply pipe 122 , a third supply pipe 123 , and a first supply control. It may include a valve 131 , a second supply control valve 132 , a third supply control valve 133 , a first nozzle 141 , and a second nozzle 142 .

The fluid discharge chamber 110 may receive the fluid and then discharge it in a predetermined direction. The fluid discharge chamber 110 may receive a first fluid, for example, compressed air from the first supply pipe 121 , and may receive a second fluid, for example, water from the second supply pipe 122 . and a third fluid, for example, water, may be supplied from the third supply pipe 123 . The fluid discharge chamber 110 may discharge the first fluid, the second fluid, and/or the third fluid through the fluid discharge hole 110 formed at one side. As such, the fluid discharging chamber 110 may prevent a chemical accident by discharging the first fluid, the second fluid, the third fluid, and two or more of the first to third fluids simultaneously, continuously, and/or staggeredly. Various types of fluid leaks that occur can be implemented.

The first supply pipe 121 may be connected to the fluid discharge chamber 110 to supply the first fluid to the fluid discharge chamber 110 . The first fluid may include a gaseous material capable of implementing gas leakage, for example, compressed air. The second supply pipe 122 may be connected to the fluid discharge chamber 110 to supply the second fluid to the fluid discharge chamber 110 . The second fluid may include a liquid-state material capable of implementing liquid leakage, for example, water. The third supply pipe 123 may be connected to the fluid discharge chamber 110 to supply the third fluid to the fluid discharge chamber 110 . The third fluid may include a liquid state material capable of implementing liquid leakage, for example, water. In addition, the first supply pipe 121 and the second supply pipe 122 are coupled by the first nozzle 141 and connected to the fluid discharge chamber 110 to prevent various fluid leakage due to the combination of the first fluid and the second fluid. can be implemented For example, compressed air supplied by the first supply pipe 121 and water supplied by the second supply pipe 122 are mixed in the first nozzle 141 and supplied together, thereby implementing a high-pressure gas leak. .

The first supply control valve 131 is disposed in the first supply pipe 121 to control the flow of the first fluid, and the second supply control valve 132 is disposed in the second supply pipe 122 to control the flow of the second fluid. The flow may be controlled, and the third supply control valve 133 may be disposed on the third supply pipe 123 to control the flow of the third fluid. The first to third supply control valves 131 , 132 , and 133 may be remotely controlled from the outside. The first to third supply control valves 131 , 132 , 133 may be, for example, solenoid valves.

The first nozzle 141 is disposed between the fluid discharging chamber 110 and the first supply pipe 131 and between the fluid discharging chamber 110 and the second supply pipe 132 so that the fluid discharging chamber ( The first fluid is supplied to 110 , and the second fluid is supplied from the second supply pipe 132 to the fluid discharge chamber 110 . In addition, the first supply pipe 131 and the second supply pipe 132 are coupled by the first nozzle 141 and connected to the fluid discharge chamber 110, so that the first fluid and the second fluid are each individually separated into the fluid discharge chamber ( 110 , or a mixture of the first fluid and the second fluid may be supplied to the fluid discharge chamber 110 together. The first nozzle 141 may be, for example, a spray nozzle, and the first fluid and the second fluid may be supplied to the fluid discharge chamber 110 in a sprayed form. The second nozzle 142 is disposed between the fluid discharge chamber 110 and the third supply pipe 123 to supply the third fluid from the third supply pipe 133 to the fluid discharge chamber 110 . The second nozzle may be, for example, a spray nozzle, and the third fluid may be supplied to the fluid discharge chamber 110 in a sprayed form. The first nozzle 141 and the second nozzle 142 may be remotely controlled from the outside.

The first nozzle 141 may implement a high-pressure gas leak. The compressed air supplied by the first supply pipe 121 and the water supplied by the second supply pipe 122 are mixed and sprayed in the first nozzle 141, and the compressed air is supplied at a pressure of 4 to 10 kg/cm 2 . Therefore, it can be mixed with water and sprayed in the form of high-pressure gas.

The second nozzle 142 may implement a small amount of liquid leakage. Water supplied by the third supply pipe 123 is supplied at a pressure (gauge pressure) of 0.1 to 0.5 kg/cm 2 slightly higher than atmospheric pressure, so that it can be sprayed in a small amount of liquid.

Leakage may be realized by combining the first nozzle 141 and the second nozzle 142 . For example, the high-pressure gas may be ejected through the first nozzle 141 within 5 minutes after the start of leakage, and a small amount of liquid may be ejected through the second nozzle 142 after 5 minutes. Accordingly, it is possible to implement the actual high-pressure gas leakage as it is.

As such, the fluid discharge kit 100 for training in response to a fluid leak can implement various types of leaks as it is, so that training in response to a leak accident can be effectively performed. In addition, without replacing the fluid discharge kit 100 , it is possible to repeatedly implement fluid leakage according to the supply of the first to third fluids for a long period of time, so that it is possible to easily perform leakage accident response training.

[Fluid discharge device for training in response to fluid leakage]

A fluid discharge device for training in response to a fluid leak according to embodiments of the present invention includes a fluid discharge kit, a first fluid supply pipe connected to the fluid discharge kit to supply a first fluid to the fluid discharge kit, and the fluid discharge kit. A second fluid supply pipe connected to supply a second fluid to the fluid discharge kit, a first pressure control valve disposed on the first fluid supply pipe to adjust the pressure of the first fluid, and disposed on the second fluid supply pipe and a second pressure regulating valve for regulating the pressure of the second fluid.

The fluid discharge device for training in response to a fluid leak is connected to the first fluid supply pipe, a first fluid supply source for supplying the first fluid, is disposed adjacent to the first fluid supply source, and provides the first fluid with the fluid A first fluid transfer unit for transferring to the release kit, a second fluid supply source connected to the second fluid supply pipe and supplying the second fluid, and disposed adjacent to the second fluid supply source, the second fluid is transferred to the fluid It may further include a second fluid transfer unit for transferring to the release kit.

The first pressure regulating valve is disposed in the first fluid supply pipe, a first shear pressure regulating valve for reducing the pressure of the first fluid and disposed between the first shear pressure regulating valve and the fluid discharge kit, and a first rear end pressure control valve for adjusting the pressure of the first fluid to a first pressure, wherein the second pressure control valve is disposed in the second fluid supply pipe and reduces the pressure of the second fluid It may include a second shear pressure regulating valve and a second rear end pressure regulating valve disposed between the second shear pressure regulating valve and the fluid discharge kit to adjust the pressure of the second fluid to a second pressure.

The fluid discharging kit may include a fluid discharging chamber having a fluid discharging hole, a first supply pipe connected to the fluid discharging chamber to supply the first fluid to the fluid discharging chamber, and a fluid discharging chamber connected to the fluid discharging chamber. a second supply pipe for supplying the second fluid; a third supply pipe connected to the fluid discharge chamber to supply the second fluid to the fluid discharge chamber; and between the fluid discharge chamber and the first supply pipe and the fluid discharge chamber; It may include a first nozzle disposed between the second supply pipe, and a second nozzle disposed between the fluid discharge chamber and the third supply pipe.

The first fluid supply pipe may be connected to the first supply pipe, and the second fluid supply pipe may be divided into two supply pipes between the second pressure control valve and the fluid discharge kit, and the two supply pipes are each It may be connected to the second supply pipe and the third supply pipe.

The first fluid may be compressed air, and the second fluid may be water.

2 shows a fluid discharge device for training in response to a fluid leak according to an embodiment of the present invention.

Referring to FIG. 2 , the fluid discharge device 10 for training in response to a fluid leak includes a fluid discharge kit 100 , a first fluid source 211 , a second fluid source 212 , a first fluid supply pipe 221 , and a first 2 fluid supply pipe 222 , first shear pressure regulating valve 231 , second shear pressure regulating valve 232 , first post pressure regulating valve 241 , second rear end pressure regulating valve 242 , first fluid a pump 251 , and a second fluid pump.

The fluid discharging kit 100 may be a fluid discharging kit for training in response to a fluid leak according to embodiments of the present invention, and since it has been described in detail with reference to FIG. 1 , a description thereof will be omitted herein.

The first fluid supply source 211 may supply the first fluid to the fluid discharge kit 100 through the first fluid supply pipe 221 . The first fluid may be, for example, compressed air.

The second fluid supply source 212 may supply the second fluid to the fluid discharge kit 100 through the second fluid supply pipe 222 . The second fluid may be, for example, water.

The first fluid supply source 211 and the second fluid supply source 212 may have the form of a storage container or storage tank having an internal space capable of receiving and storing the fluid. It may be an external source that supplies

The first fluid supply pipe 221 may connect the first fluid supply source 211 and the fluid discharge kit 100 to each other, and may supply a first fluid from the first fluid supply source 211 to the fluid discharge kit 100 . The first fluid supply pipe 221 may be connected to the first supply pipe 121 of FIG. 1 of the fluid discharge kit 100 .

The second fluid supply pipe 222 may connect the second fluid supply source 212 and the fluid discharge kit 100 to each other, and may supply a second fluid from the second fluid supply source 212 to the fluid discharge kit 100 . The second fluid supply pipe 222 may be divided into two supply pipes 222a and 222b after passing through the second rear end pressure control valve 242 . One of the two second fluid supply pipes 222a may be connected to the second supply pipe 122 in FIG. 1 of the fluid discharge kit 100, and the other 222b is the third supply pipe of the fluid discharge kit 100 ( 123 of FIG. 1) may be connected.

The first shear pressure control valve 231 may be disposed between the first fluid transfer unit 251 and the first rear end pressure control valve 241 to adjust the pressure of the first fluid transferred from the first fluid transfer unit 251 . . The first rear end pressure control valve 241 may be disposed between the first front end pressure control valve 231 and the fluid discharge kit 100 to control the pressure of the first fluid supplied to the fluid discharge kit 100 . The first rear end pressure control valve 241 may adjust the pressure of the first fluid to a pressure required for the training scenario. That is, the first fluid transferred by the first fluid transfer unit 251 is first decompressed in the first shear pressure regulating valve 231 , and is secondarily decompressed by the first rear end pressure regulating valve 241 , which is set in the training scenario. It can be controlled by pressure. Thereby, the first fluid may be supplied to the fluid discharge kit 100 at the set pressure of the training scenario. The first front end pressure control valve 231 and the first rear end pressure control valve 241 may be remotely controlled from the outside.

The second shear pressure control valve 232 is disposed between the second fluid transfer unit 252 and the second rear end pressure control valve 242 to adjust the pressure of the second fluid transferred from the second fluid transfer unit 252 . . The second rear end pressure control valve 242 may be disposed between the second front end pressure control valve 232 and the fluid discharge kit 100 to control the pressure of the second fluid supplied to the fluid discharge kit 100 . The second rear end pressure control valve 242 may adjust the pressure of the second fluid to a pressure required for the training scenario. That is, the second fluid transferred by the second fluid transfer unit 252 is first decompressed in the second shear pressure control valve 232 , and is secondarily decompressed by the second rear end pressure control valve 242 , which is set in the training scenario. It can be controlled by pressure. Thereby, the second fluid may be supplied to the fluid discharge kit 100 at the set pressure of the training scenario. The second front end pressure control valve 232 and the second rear end pressure control valve 242 may be remotely controlled from the outside.

The first fluid transfer unit 251 is disposed adjacent to the first fluid supply source 211 to transfer the first fluid supplied from the first fluid supply source 211 to the fluid discharge kit 100 . For example, the first fluid transfer unit 251 may be an air compressor, and the operating pressure may be 7.5 to 9.9 kg/cm 2 G. The first fluid transfer unit 251 may be remotely controlled from the outside.

The second fluid transfer unit 252 is disposed adjacent to the second fluid source 212 to transfer the second fluid supplied from the second fluid source 212 to the fluid discharge kit 100 . For example, the second fluid transfer unit 252 may be a water pump, and the operating pressure may be about 5 kg/cm 2 G. The second fluid transfer unit 252 may be controlled by a power source from the outside.

The fluid discharge device 10 for training in response to fluid leakage can implement various types of leakage as it is by using the fluid discharge kit 100 , so that training in response to a leakage accident can be effectively performed. In addition, without replacing the fluid discharge kit 100, the leakage of the fluid according to the supply of the first and second fluids can be repeatedly implemented for a long period of time, so that the training for responding to the leakage accident can be easily performed.

[Fluid discharge method for training in response to fluid leakage]

The fluid discharge method for training in response to a fluid leak according to embodiments of the present invention is a method of discharging a fluid using a fluid discharge kit for training in response to a fluid leak, wherein the fluid discharge kit for training in response to a fluid leak includes a fluid discharge hole a fluid discharge chamber having a fluid discharge chamber, a first supply pipe connected to the fluid discharge chamber to supply a first fluid to the fluid discharge chamber, a second supply pipe connected to the fluid discharge chamber to supply a second fluid to the fluid discharge chamber; a third supply pipe connected to the fluid discharge chamber for supplying a third fluid to the fluid discharge chamber, a first nozzle disposed between the fluid discharge chamber and the first supply pipe and between the fluid discharge chamber and the second supply pipe, and and a second nozzle disposed between the fluid discharge chamber and the third supply pipe, wherein the method for discharging fluid for training in response to a fluid leak includes the first fluid and the second nozzle using the first nozzle and the second nozzle. and discharging the fluid and at least one of the third fluid.

The discharging of the fluid may include discharging at least two of the first fluid, the second fluid, and the third fluid at the same time.

The discharging of the fluid may include continuously discharging at least two of the first fluid, the second fluid, and the third fluid.

The discharging of the fluid may include discharging at least two of the first fluid, the second fluid, and the third fluid with a time difference.

The discharging of the fluid may include discharging the first fluid and the second fluid using the first nozzle and discharging the third fluid using the second nozzle. The first fluid and the second fluid may be simultaneously discharged. The third fluid may be released later than the first fluid and the second fluid.

The first fluid may be compressed air, and the second fluid and the third fluid may be water.

3 is a view for explaining a method for discharging a fluid for training in response to a fluid leak according to an embodiment of the present invention, and FIG. 4 is a training container and a fluid release kit for training in response to a fluid leak according to an embodiment of the present invention. Design drawings are shown.

3 and 4 , the fluid release kit 100 is disposed in the training container 20 . The fluid discharging kit 100 may be a fluid discharging kit for training in response to a fluid leak according to embodiments of the present invention, and since it has been described in detail with reference to FIG. 1 , a description thereof will be omitted herein.

Training container 20 has a wall 21 formed with a leak hole 21h (or crack), so that the fluid discharge hole 110h of the fluid discharge chamber 110 corresponds to the leak hole 21b. A fluid release kit 110 is disposed within the training vessel 20 . The training container 20 may have the shape of a chemical facility, a storage tank, a transport vehicle (tank lorry), and the like. In this way, it is possible to increase the training effect by having the training container 20 has the same or similar shape as the facility in which the actual leakage accident occurs.

The fluid is leaked through the leak hole 21h of the training container 20 using the fluid release kit 100 . The fluid discharge chamber 110 may receive the fluid and then discharge it to the leak hole 21h through the fluid discharge hole 110h.

Using the first nozzle 141 and the second nozzle 142 of the fluid discharge kit 100, the first fluid, the second fluid, the third fluid, and two or more of the first to third fluids are simultaneously and continuously , and/or release with a time difference to implement various types of fluid leaks that occur in chemical accidents. For example, the first nozzle 141 may implement a high-pressure gas type of leakage, and the second nozzle 142 may implement a small amount of liquid leakage. The high-pressure gas may be ejected through the first nozzle 141 within 5 minutes after the start of leakage, and a small amount of liquid may be ejected through the second nozzle 142 after 5 minutes. Accordingly, it is possible to implement the actual high-pressure gas leakage as it is.

In this way, various types of leaks can be implemented as it is by using the fluid release kit 100 for training for responding to fluid leaks, so that training in response to a leak accident can be effectively performed.

[Fluid Leak Response Training System]

A training system for responding to a fluid leak according to embodiments of the present invention is a training facility in which a fluid release kit for training against a fluid leak is disposed and a training facility disposed adjacent to the training facility to control the fluid release kit for training for responding to a fluid leak Includes control room.

The fluid release kit for training in response to a fluid leak may be remotely controlled from the training control room to implement a fluid leak according to a training scenario.

The fluid release kit for training in response to a fluid leak may be installed inside the training container disposed in the training facility. The training vessel may take the form of a chemical plant, a storage tank, or a transport vehicle.

The fluid discharge kit for training in response to a fluid leak includes a fluid discharge chamber having a fluid discharge hole, a first supply pipe connected to the fluid discharge chamber to supply a first fluid to the fluid discharge chamber, and the fluid discharge chamber connected to the A second supply pipe for supplying a second fluid to the fluid discharge chamber, a third supply pipe connected to the fluid discharge chamber to supply a third fluid to the fluid discharge chamber, between the fluid discharge chamber and the first supply pipe and for discharging the fluid It may include a first nozzle disposed between the chamber and the second supply pipe, and a second nozzle disposed between the fluid discharge chamber and the third supply pipe.

The first fluid and the second fluid may be mixed in the first nozzle and supplied to the fluid discharge chamber. The first nozzle and the second nozzle may be spray nozzles.

The first fluid may be compressed air, and the second fluid and the third fluid may be water.

5 shows a training system for responding to a fluid leak according to an embodiment of the present invention, FIG. 6 shows a chemical facility training facility among the training system for responding to a fluid leak of FIG. 5, and FIG. 7 is a training system for responding to a fluid leak of FIG. 5 It shows a storage tank training facility, and FIG. 8 shows a transport vehicle training facility in the fluid leak response training system of FIG. 5 .

5 to 8 , the fluid leak response training system includes a training facility, a training control room, and a training control room.

The training facility may include a chemical facility training facility, a storage tank training facility, and a transport vehicle training facility. The training facility may include a training container installed with a fluid release kit for training in response to a leak and/or a fluid release device for training in response to a leak (see FIGS. 1 to 4 ). The training container may have the shape of a chemical facility, a storage tank, a transport vehicle (tank lorry), and the like. In this way, it is possible to increase the training effect by having the training container has the same or similar shape as the equipment in which the actual leakage accident occurs.

The chemical equipment training facility may include a tank lorry, a storage tank, a reactor, a reboiler, a condenser, a reflux drum, a drum, a day tank, a pump, and a training control room, and 21 kinds of chemical equipment and accessories such as piping and flanges Leaks can be implemented. The storage tank training facility may include a tank lorry, a storage tank, a carburetor, a cylinder (high pressure vessel), a ton cylinder, a centrifugal pump, an air compressor, and a training control room, and 34 kinds of tank lorries, storage tanks, containers, piping, flanges, etc. of leakage can be realized. The transport vehicle training facility may include a tank lorry, a storage tank, a pump, and a training control room, and may implement 15 types of leaks in the storage tank, pump, transport pipe, valve, and the like.

The training control room may be disposed adjacent to the training facility to remotely control a fluid release kit and/or a fluid release device for training in response to a fluid leak, such that the training in response to a leak is performed according to a training scenario. You can control your training. The training control room may monitor the training site situation of the training facility, generate an alarm in an emergency or emergency situation, and stop or control the training. The training control room may be wirelessly connected to the training supervisor's wireless device (smartphone, tablet PC, etc.) to control training or receive training status reports.

The training control room controls the training control room and the training site of the training facility to overall control the fluid leak response training. The training control room may monitor the training site situation of the training facility, generate an alarm in an emergency or emergency situation, and stop or control the training. The training control room may be connected to the training control room and the training supervisor's wireless device wirelessly and/or wiredly to control training.

[Fluid leak response training method]

A fluid leak response training method according to embodiments of the present invention is a method of performing fluid leak response training using a fluid leak response training system, wherein the fluid leak response training system includes a fluid release kit for training in response to a fluid leak a training facility disposed adjacent to the training facility, and a training control room configured to control the fluid release kit for training in response to a fluid leak, wherein the method for training in response to a fluid leak includes the training facility according to a training scenario set in the training control room. Including the step of performing the training.

The training scenario may include a leak accident scenario, a directing effect for implementing a leak, and a response training scenario. The leak accident scenario may include a training facility type, a facility type, a breakage type, a fluid type, and a pressure type, and the directing effect may include a sound effect, a spray effect, and a smoke effect, and the response training scenario may include a corresponding type. The training scenario may include a trainee's training flow to the training facility.

The fluid release kit for training in response to a fluid leak may be remotely controlled from the training control room to implement a fluid leak according to the training scenario.

The fluid discharge kit for training in response to a fluid leak includes a fluid discharge chamber having a fluid discharge hole, a first supply pipe connected to the fluid discharge chamber to supply a first fluid to the fluid discharge chamber, and the fluid discharge chamber connected to the A second supply pipe for supplying a second fluid to the fluid discharge chamber, a third supply pipe connected to the fluid discharge chamber to supply a third fluid to the fluid discharge chamber, between the fluid discharge chamber and the first supply pipe and for discharging the fluid It may include a first nozzle disposed between the chamber and the second supply pipe, and a second nozzle disposed between the fluid discharge chamber and the third supply pipe.

The first fluid and the second fluid may be mixed in the first nozzle and supplied to the fluid discharge chamber. The first nozzle and the second nozzle may be spray nozzles.

The first fluid may be compressed air, and the second fluid and the third fluid may be water.

9 shows a training scenario for explaining a training method for responding to a fluid leak according to an embodiment of the present invention, FIG. 10 shows a training flow for a chemical facility training facility according to the training scenario, and FIG. 11 shows a training scenario according to the training scenario It shows the training flow for the storage tank training facility, and FIG. 12 shows the training flow for the transport vehicle training facility according to the training scenario.

9 to 12 , the fluid leak response training method performs fluid leak response training using a fluid leak response training system.

The fluid leak response training system includes a training facility in which the fluid leak response training kit is disposed and a training control room disposed adjacent to the training facility to control the fluid leak response training kit (FIG. 5). to FIG. 8). The training facility may include a training container installed with a fluid release kit for training in response to a leak and/or a fluid release device for training in response to a leak (see FIGS. 1 to 4 ). The fluid release kit for training in response to a fluid leak may be remotely controlled from the training control room to implement a fluid leak according to the training scenario.

The fluid leak response training method includes performing training in the training facility according to a training scenario set in the training control room. The training scenario may include a leak accident scenario, a directing effect for implementing a leak, and a response training scenario.

The leak scenario may include a training facility type, a facility type, a failure type, a fluid type, and a pressure type. The training facility types may include storage tanks, chemical plants, and transport vehicles. The equipment types may include tank lorries, storage tanks, tower algae, drums, heat exchangers, pumps, compressors, pipes, flanges, valves, movable drums, cylinders, measuring instruments, and manholes. The failure types may include cracks, holes, tears, ruptures, and looseness. The fluid types may include liquid, heavy vapor, light vapor, and liquid+vapor. The pressure type may include less than 1.0KG, 1.0-2.0KG, 2.0-3.0KG, 3.0-4.0KG, and 4.0KG or more.

The directing effect may include a sound effect, a spray effect, and a smoke effect. The sound effects may include liquid, vapor, and plosive sounds. The spraying effect may include water, water+spray, spray (water+air), spray (water), spray+jacket, and mist. Smoke effects can include white and colorless.

The response training scenario may include a response type. The response types may include emergency measures, leak containment, and spread containment.

The training scenario may include a trainee's training flow to the training facility. Preferably, the training facility is designed similarly to an actual chemical plant in order to provide a training program like the actual training to trainees. In addition, a barrier (15 cm) and a breakwater (0.5 m) are installed according to the installation standards for hazardous chemical handling facilities, and a stairway crossing the breakwater can be additionally installed in consideration of the training situation in chemical protective clothing. The facilities of the training facility may be appropriately arranged in consideration of handling material characteristics, facility characteristics, ease of training, and training flow. You can check the training movement by displaying the leak accident scenario corresponding to each training facility on the 3D modeling drawing. In addition, in the case of using stairs or bypassing chemical facilities due to obstacles in the training movement, the training program can be configured by classifying the training difficulty into high.

So far, specific embodiments of the present invention have been described. Those of ordinary skill in the art to which the present invention pertains will understand that the present invention can be implemented in a modified form without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments are to be considered in an illustrative rather than a restrictive sense. The scope of the present invention is indicated in the claims rather than the foregoing description, and all differences within the scope equivalent thereto should be construed as being included in the present invention.

Claims (8)

a training facility equipped with a fluid release kit for training in response to a leak; and
and a training control room disposed adjacent to the training facility to control the fluid release kit for training in response to a fluid leak,
The fluid release kit for training in response to fluid leaks,
a fluid discharge chamber having a fluid discharge hole;
a first supply pipe connected to the fluid discharge chamber to supply a first fluid to the fluid discharge chamber;
a second supply pipe connected to the fluid discharge chamber to supply a second fluid to the fluid discharge chamber;
a third supply pipe connected to the fluid discharge chamber to supply a third fluid to the fluid discharge chamber;
a first nozzle disposed between the fluid discharge chamber and the first supply tube and between the fluid discharge chamber and the second supply tube; and
a second nozzle disposed between the fluid discharge chamber and the third supply pipe;
the first fluid is compressed air, the second fluid and the third fluid are water;
A fluid leak response training system, characterized in that the compressed air and the water are mixed and sprayed by the first nozzle to implement a high-pressure gas leak, and the liquid leak is implemented by the second nozzle. The method of claim 1,
The fluid leak response training system, characterized in that the fluid release kit is remotely controlled from the training control room to implement a fluid leak according to a training scenario. The method of claim 1,
The fluid release kit for training in response to a fluid leak is a fluid leak response training system, characterized in that it is installed inside the training container disposed in the training facility. 4. The method of claim 3,
The training vessel is a fluid leak response training system, characterized in that it has the form of a chemical plant, a storage tank, or a transport vehicle. delete The method of claim 1,
The first fluid and the second fluid are mixed in the first nozzle and supplied to the fluid discharge chamber. The method of claim 1,
The fluid leak response training system, characterized in that the first nozzle and the second nozzle are spray nozzles. delete

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