KR102027491B1 - Systems for detecting cryogenic fluid spill - Google Patents

Abstract

A leak detection system of cryogenic fluid using bimetal is disclosed. According to an aspect of the present invention, there is provided a bimetal member disposed below a facility in which cryogenic fluid may be leaked; A first electrical terminal contacted when the bimetal member is in contact with the cryogenic fluid and deformed in one direction; And a leak detection system of cryogenic fluid using a bimetal including a second electric terminal contacted when the bimetal member is deformed in another direction by a fire.

Description

Cryogenic fluid leak detection system using bimetal {SYSTEMS FOR DETECTING CRYOGENIC FLUID SPILL}

The present invention relates to a leak detection system of cryogenic fluid using bimetal.

Liquefied natural gas (LNG) refers to a cryogenic fluid in a colorless transparent liquid state in which methane-based natural gas is cooled to minus 162 ° C. and its volume is reduced to 1/600. As liquefied natural gas is actively used as an energy resource in recent years, the construction of ships or offshore structures with facilities for producing, storing or transporting liquefied natural gas is being actively performed. However, liquefied natural gas leaks from ships or offshore structures that handle liquefied natural gas, and further develops into a fire accident, which may cause severe human and property damage.

Conventionally, a sensor such as a temperature sensor or a pressure sensor is used to detect the leakage of cryogenic fluid.

However, there was a problem in that it could not detect the leak situation due to a malfunction or malfunction of the detector, and in particular, a detector such as a smoke detector should be additionally installed in order to prepare for a fire caused by the leakage of cryogenic fluid or oil. There was a problem. The additional installation of these detectors or the need for a lot of maintenance work can add to the cost of shipowners in ships or offshore structures with many leak points, such as pipe joints.

Republic of Korea Patent Publication No. 10-0980269 (2010.09.06, cryogenic liquid leakage prevention system and method)

Embodiments of the present invention can provide a cryogenic fluid leak detection system using bimetal that can detect not only the cryogenic fluid leakage, but also fire.

According to an aspect of the present invention, there is provided a bimetal member disposed below a facility in which cryogenic fluid may be leaked; A first electrical terminal contacted when the bimetal member is in contact with the cryogenic fluid and deformed in one direction; And a leak detection system of cryogenic fluid using a bimetal including a second electric terminal contacted when the bimetal member is deformed in another direction by a fire.

The bimetal member may be formed in a plate shape having one end fixed and extending horizontally, and the other end may come into contact with the first electric terminal or the second electric terminal.

The first electrical terminal may be disposed above the bimetal member.

And a cover frame coupled to the first electrical terminal and closing the lower space of the bimetal member in cooperation with the bimetal member contacting the first electrical terminal, wherein the second electrical terminal is lower than the bimetal member. May be placed in the space.

According to the contact of the bimetal member may further include a control unit for blocking the supply of cryogenic fluid to the facility or to drive the fire suppression apparatus.

And a strain gauge attached to the bimetal member to detect deformation of the bimetal member, and wherein the control unit blocks the supply of cryogenic fluid to the facility according to whether the bimetal member is in contact or a result of the detection of the strain gauge. The fire suppression system can be driven.

According to embodiments of the present invention, the properties of the material itself, such as bimetal, can be used to detect a leak state of cryogenic fluid in a timely manner without failure or malfunction, and in particular, a system can detect whether a cryogenic fluid is leaked or not. It can detect up to the cost of additional costs incurred by using different detectors in different situations.

1 is a view showing a leak detection system of cryogenic fluid using a bimetal according to an embodiment of the present invention.
2 is a view showing a control unit as a simple leak situation of cryogenic fluid.
Figure 3 is a view showing a fire occurrence situation due to the leakage of the cryogenic fluid control unit.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In the present application, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components, unless specifically stated otherwise.

In addition, throughout the specification, "on" means to be located above or below the target portion, and does not necessarily mean to be located above the gravity direction.

In addition, the coupling does not only mean that the components are in direct contact with each other in the contact relationship between the components, but also other components are interposed between the components, The concept is to be used until the components are in contact with each other.

Since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to the illustrated.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

Hereinafter, a preferred embodiment of the cryogenic fluid leak detection system using a bimetal according to the present invention will be described in detail with reference to the accompanying drawings, in the description with reference to the accompanying drawings, the same or corresponding components are the same reference numerals. And duplicate description thereof will be omitted.

1 is a view showing a leak detection system of cryogenic fluid using a bimetal according to an embodiment of the present invention, Figure 2 is a view showing a simple leak of the cryogenic fluid control unit, Figure 3 is due to the leakage of cryogenic fluid control unit The figure which shows the fire occurrence situation.

1 to 3, the leak detection system of cryogenic fluid using a bimetal according to an embodiment of the present invention is a bimetal member 100, the first electrical terminal 200, the second electrical terminal 300, strain The gauge 400 and the controller 500 may be included.

The bimetal member 100 may be formed in a plate shape in which two thin metal plates having different thermal expansion coefficients are stacked.

The bimetal member 100 may be arranged to extend horizontally below the connection flange of the installation 10, for example, a liquefied natural gas transfer pipe, which may leak the cryogenic fluid. Specifically, one end of the bimetal member 100 may be fixed to the bottom surface 20, for example, a fixed frame 110 installed on the deck of the ship or offshore structure. As a result, the cryogenic fluid leaked from the facility 10, for example, liquefied natural gas, may fall to the upper surface of the bimetal member 100.

The first electrical terminal 200 may be disposed to contact the other end of the bimetal member 100 when the bimetal member 100 is bent and deformed in one direction, and the second electrical terminal 300 may be disposed on the bimetal member 100. When the bending deformation in the other direction may be disposed so as to contact the other end of the bimetal member (100). When the bimetal member 100 is horizontally extended, the first electrical terminal 200 may be disposed above the bimetal member 100, and the second electrical terminal 300 may be disposed below the bimetal member 100. Can be arranged. In this case, when the bimetal member 100 is bent upward and deformed, the other end of the bimetal member 100 may contact the first electric terminal 200. When the bimetal member 100 is bent downward, the bimetal member 100 may be deformed. The other end of) may contact the second electric terminal 300. As a result, when the cryogenic fluid leaks from the installation 10, the bimetal member 100 which comes into contact with the leaked cryogenic fluid is bent upward and deformed so that the leaked cryogenic fluid is along the upper surface of the bimetal member 100. By flowing to the fixed end side of the 100 to block the inflow into the lower space of the bimetal member 100 it can minimize the risk that the second electrical terminal 300 is exposed to the cryogenic fluid damage.

The first electrical terminal 200 may be coupled to the cover frame 120 installed on the bottom surface 20.

The cover frame 120 may close the lower space of the bimetal member 100 in cooperation with the bimetal member 100 in contact with the first electric terminal 200, and the second electric terminal may close the bimetal member 100. Can be arranged in the lower space. As a result, even if the cryogenic fluid is discharged from the facility 10 in a considerable amount, it is possible to block the flow into the lower space of the bimetal member 100.

The strain gauge 400 may be attached to one surface of the bimetal member 100, specifically, the bimetal member 100 to detect deformation of the bimetal member 100. When the bimetal member 100 is disposed to extend horizontally, the strain gauge 400 may be attached to the bottom of the bimetal member 100 to minimize the risk of damage by the leaked cryogenic fluid.

The control unit 500 may block the supply of cryogenic fluid to the facility 10 according to whether the bimetal member 100 is in contact or the detection result of the strain gauge 400, or the fire suppression device 520. ) Can be driven. The fluid supply blocking device 510 may include an on / off valve installed in the liquefied natural gas transfer pipe, and the fire suppression device 520 may include a fire extinguishing device.

Referring to FIG. 2, when the bimetal member 100 is in contact with the cryogenic fluid leaked from the installation 10 and is deformed upward to come into contact with the first electric terminal 200, the control unit 500 may include the bimetal member 100. And the bimetal member 100 may contact the first electric terminal 200 according to the electric signal generated by the contact between the first electric terminal 200 and the magnitude of the electric current measured by the ammeter. As a result, it may be determined as a simple leak situation of the cryogenic fluid, and the fluid supply blocking device 510 may be driven to block the supply of the cryogenic fluid to the facility 10 to prevent further leakage.

Referring to FIG. 3, when the bimetal member 100 is deformed downward by the fire due to the ignition of the cryogenic fluid leaked from the facility 10 and comes into contact with the second electric terminal 300, the control unit 500 may bimetal. The bimetal member 100 is in contact with the second electrical terminal 300 according to the electric signal generated by the contact between the member 100 and the second electrical terminal 300, for example, the magnitude of the current measured by the ammeter. It can be determined, and as a result, it can be determined as a fire occurrence situation due to the leakage of cryogenic fluid, it is possible to drive the fire suppression device 520 to suppress the fire. The magnitude of the current generated when the bimetal member 100 contacts the first electrical terminal 200 and the second electrical terminal 300, respectively, is coupled to the first electrical terminal 200 and the second electrical terminal 300, respectively. The size of the resistors R1 and R2 may vary.

The control unit 500 determines the reliability of the system by distinguishing between the simple leakage situation of the cryogenic fluid and the fire occurrence situation due to the cryogenic fluid leakage according to the detection result of the strain gauge 400 as well as the contact of the bimetal member 100. You can also improve.

When the strain gauge 400 is attached to the bottom surface of the bimetal member 100, for example, when a simple leakage state of the cryogenic fluid is present, the strain gauge 400 may detect the tensile strain according to the upward bending deformation of the bimetal member 100. When the fire occurs due to the leakage of the bimetal member 100 can detect the compressive deformation according to the downward bending deformation, the control unit 500 is cryogenic fluid in accordance with the tensile strain or compressive deformation detected by the strain gauge 400 This can be determined by distinguishing between a simple leak situation and a fire occurrence due to a cryogenic fluid leak.

The leak detection system of cryogenic fluid using bimetal according to an embodiment of the present invention may be used for the purpose of detecting a fire occurrence situation due to an oil leak even in a facility for handling flammable fluids, for example, oil.

As mentioned above, although preferred embodiment of this invention was described, the person of ordinary skill in the art should add, change, delete, add, etc. a component within the range which does not deviate from the idea of this invention described in a claim. The present invention may be modified and changed in various ways, which will also be included within the scope of the present invention.

10: installation 20: bottom surface
100: bimetal member 110: fixed frame
120: cover frame 200: first electric terminal
300: second electric terminal 400: strain gauge
500: control unit 510: fluid supply blocking device
520: fire suppression system

Claims (6)

A bimetal member disposed below the facility in which the cryogenic fluid may leak;
A first electrical terminal contacted when the bimetal member is in contact with the cryogenic fluid and deformed in one direction;
A second electric terminal contacting the bimetal member when the bimetal member is deformed in another direction due to a fire;
A control unit which blocks supply of cryogenic fluid to the facility or drives a fire suppression apparatus; And
A strain gauge attached to the bimetal member to sense deformation of the bimetal member;
The control unit is a cryogenic fluid leakage detection system using a bimetal to block the supply of cryogenic fluid to the facility or to drive the fire suppression device in accordance with the contact of the bimetal member or the detection result of the strain gauge. The method of claim 1,
It is further provided with a fixed frame disposed on the lower side of the installation fixed to the bottom surface,
The bimetal member is formed in a plate shape, one end of which is fixed to the fixed frame and horizontally extended, and the other end of the bimetal member contacts the first electric terminal or the second electric terminal by deformation.
Cryogenic fluid leaked from the facility falls to the upper surface of the bimetal member,
The strain gauge is leak detection system of cryogenic fluid using a bimetal attached to the lower surface of the bimetal member. The method of claim 2,
The first electrical terminal is a cryogenic fluid leakage detection system using a bimetal disposed on the upper side of the bimetal member. The method of claim 3,
And a cover frame coupled to the first electrical terminal and closing the lower space of the bimetal member in cooperation with the bimetal member contacting the first electrical terminal.
The second electrical terminal is a leak detection system of cryogenic fluid using a bimetal disposed in the lower space of the bimetal member. delete delete

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