KR20150003954A - Leak detection system and method of lng tank using thermal conductivity - Google Patents

Abstract

The present invention relates to an LNG tank leak detection system using thermal conductivity, and more specifically, to an LNG tank (10) leak detection system (100) having a first insulating film (11), a first insulator (12) assembled to be a unit block having a certain size, a second insulating film (13), a second insulator (14) assembled to be a unit block having a certain size, and an outer wall (15), which are successively laminated. The LNG tank leak detection system comprises a first leak detection band (110) arranged in a shape for wrapping each unit block formed as the first insulator (12) between the first insulator (12) and the second insulating film (13) by crossing the unit block by being made of a material such as copper or aluminum alloy whose thermal conductivity is changed according to temperature changes; a second leak detection band (120) arranged in a shape for wrapping each unit block forming a second insulator (14) between the second insulator (14) and the outer wall (15) by crossing the unit block by being made of a material whose thermal conductivity is changed according to temperature changes; and a leak detection panel (130) which outputs information on the LNG leak and the detected location when thermal conductivity is changed by monitoring the changes in thermal conductivity of the first and second leak detection bands (110, 120). According to the present invention, the LNG tank leak detection system can accurately detect the location of LNG leak at the insulating film of an LNG tank without detecting the leak location with a gas detector by injecting a tracer gas while the tank is being emptied after being moved to a shipyard for repair, thereby greatly saving time and costs required for detecting the leak location.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a leak detection system and a method for detecting leakage of LNG tanks using thermal conductivity,

The present invention relates to a system and method for detecting leakage of an LNG tank, and more particularly, to a system and method for detecting leakage of an LNG tank using thermal conductivity capable of detecting leakage of LNG due to defects or damages of the LNG tank insulating film using thermal conductivity .

The main component of natural gas is under 80-85% methane (CH ₄₎ is a gas, and appreciate the utility value as an energy source because the advantage that the amount of pollutants extremely small. Further removal of dust from the process for liquefying natural gas, talyu, decarboxylation, less occurrence of without the acid gas sub at the time of combustion due to the pre-treatment such as dehydration nitrogen carbide is also much CO ₂ generation amount is compared with other fossil fuels, It is called clean energy.

As such, natural gas has emerged as an energy resource, and domestic demand for LNG has steadily increased. However, in order to use natural gas as energy, it is necessary to have an efficient means of transporting large quantities from the production base to the demand site and the acquisition site.

LNG can be transported by pipeline or by LNG carrier. In the case of LNG carriers, it is designed to store LNG in a high-pressure vessel, ie, an LNG tank at an extremely low temperature below -163 ° C.

1, a LNG tank 10 of a membrane type typically has a first heat insulating film 11, a first heat insulating material 12, a second heat insulating film 13, a second heat insulating material 14 And the outer wall 15 are sequentially laminated, and it is necessary to detect the leakage of the first and second heat insulating films 11 and 13 from time to time.

In the case of the conventional LNG leakage detection system, the gas sampling system for detecting the leakage of the first and second thermal insulation films 11 and 13 at regular intervals, It is impossible to confirm at which position the LNG leakage occurs. Therefore, when LNG leakage occurs in the LNG tank 10 of the LNG carrier, the LNG tank 10 is moved to the repair shipyard, and the LNG tank 10 is filled with various kinds of procedures to inject the tracer gas into the LNG tank 10, I find the leak location and repair it. As the LNG leakage location is difficult to locate perfectly, it takes a lot of time and cost, resulting in large economic damage.

      Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a thermal conduction type sensor that can accurately detect the LNG leakage at any position of the heat insulating film by using the thermal conductivity when the LNG in the LNG tank leaks due to defect or damage of the heat insulating film The present invention is directed to a system and method for detecting leakage of an LNG tank.

In order to achieve the above object, there is provided an LNG tank leakage detection system using thermal conductivity according to the present invention, including a first insulation film, a first insulation material assembled in a unit block shape of a predetermined size, a second insulation film, A system for detecting leakage of an LNG tank comprising a second insulating material assembled in a block form and an outer wall sequentially stacked, the system comprising: a material having a thermal conductivity varying with a temperature change, the first insulating material and the second insulating film A first leakage detection band arranged in such a manner that each of the unit blocks constituting the first heat insulating material is arranged so as to enclose the unit blocks orthogonally in the transverse direction; A second leakage detection band which is composed of a material whose thermal conductivity changes according to a temperature change and which is arranged so as to enclose each unit block constituting a second thermal insulation material between the second thermal insulation material and the outer wall in an orthogonal manner; And a leakage detection panel for monitoring a change in thermal conductivity of the first and second leakage detection bands and outputting LNG leakage and corresponding position information when the thermal conductivity is changed.

According to another aspect of the present invention, there is provided a method of detecting leakage of an LNG tank using thermal conductivity, comprising the steps of: forming a first insulating film, a first insulating material, a second insulating film, Wherein the first and second thermal insulation films are disposed between the first and second thermal insulation materials and the outer wall of the LNG tank, After arranging the leak detection bands composed of materials whose thermal conductivity changes according to the temperature change, the LNG stored in the LNG tank is defective or defective in the first and second insulation films. It detects leakage of LNG tank by outputting LNG leakage and corresponding position information by monitoring when thermal conductivity of band is changed by contact with leakage detection band due to damage. The features.

Here, the leakage detection band may be composed of copper or an aluminum alloy.

According to the present invention, unlike the conventional method in which the LNG carrier is moved to the repair shipyard and the LNG tank is empty, the tracer gas is injected into the LNG tank to detect the LNG leakage position by the gas detector. It is possible to accurately detect whether the LNG is leaking from the LNG outlet, thereby greatly reducing the time and cost for locating the LNG leakage position. Therefore, it is possible to manage LNG tanks efficiently even during the operation of the LNG carrier.

1 is a sectional view of an LNG tank of an LNG carrier.
2 is a schematic view showing the installation of the LNG tank leakage detection system using the thermal conductivity according to the present invention.
3 is a conceptual diagram showing an arrangement of leak detecting bands according to the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the same parts as those of the prior art will be described with reference to the conventional drawings.

FIG. 2 is a conceptual view of the installation of the LNG tank leakage detection system using the thermal conductivity according to the present invention, and FIG. 3 is a conceptual diagram showing the arrangement of the leakage detection bands according to the present invention.

The system and method for detecting leakage of LNG tanks using thermal conductivity according to the present invention is characterized in that when cryogenic LNG below -163 ° C in the LNG tank leaks due to defects or damage of the heat insulating film, And that it is possible to accurately detect whether or not the

2, the LNG tank leakage detection system 100 using the thermal conductivity according to the present invention includes a first heat insulating film 11, a first heat insulating material 12 assembled in a unit block shape having a predetermined size, A system for detecting leakage of an LNG tank (10) comprising a second insulating film (13), a second thermal insulating material (14) assembled in a unit block shape of a predetermined size, and an outer wall (15) A second detection band 120, and a leakage detection panel 130. The first detection band 120 includes a first detection band 120, a second detection band 120, At this time, each of the parts is preferably explosion-proof.

The first leakage detecting band 110 is made of a material such as copper or an aluminum alloy whose thermal conductivity changes according to a temperature change so that a first heat insulating material 12 is interposed between the first heat insulating material 12 and the second heat insulating film 13, (12) are arranged in such a manner as to enclose each unit block orthogonally and horizontally. That is, it is arranged in a lattice form so as to detect the position of the LNG leakage from the first heat insulating film 11.

The second leakage detecting band 120 is made of a material such as copper or an aluminum alloy whose thermal conductivity changes according to a temperature change as in the first leakage detecting band 110, 15) of the second heat insulating material (14) in a transverse direction. That is, it is arranged in a lattice shape so as to detect the position of the LNG leakage from the second heat insulating film 13. [

The leakage detection panel 130 may be installed in a local or a CCR (Cargo Control Room). When the change in the thermal conductivity is monitored while monitoring the change in the thermal conductivity of the first and second leakage detection bands 110 and 120 in real time, And the corresponding location information. That is, the LNG is notified of the leakage of the LNG at the corresponding position or displayed as an image.

Hereinafter, the operation of the LNG tank leakage detection system 100 using the thermal conductivity according to the present invention will be described with reference to FIG. The first and second heat insulating materials 12 and 14 are assembled into a unit block having a predetermined size and the first and second leakage detecting bands 110 and 130 are positioned below the first and second heat insulating materials 12 and 14, The first and second heat insulating materials 12 and 14 are arranged in a manner to enclose the first and second heat insulating materials 12 and 14 in the longitudinal and transverse directions. Each of the first and second leakage detection bands 110 and 130 disposed horizontally has an English alphabet horizontal row NO for convenience of description, and each of the first and second leakage detection bands 110 and 130, NO. ≪ / RTI >

Accordingly, the first and second leakage detection bands 110 and 120, to which the position No. of the longitudinal and the longitudinal length are given, are positioned below the first and second heat insulating materials 12 and 14 of a predetermined size, ) So that the LNG is leaked through the first and second heat insulating films 11 and 13 through the first and second heat insulating materials 12 and 14 to the first and second leakage detecting bands 110 and 120, It can be easily seen at which position of the first and second heat insulating films 11 and 13 the leakage occurs.

For example, when the LNG leaks due to damage to the first and second heat insulating films 11 and 13 at a shown in FIG. 3, the first and second leakage detecting bands 110 and 120 located at a contact with the leaked LNG, The LNG leakage signal is generated by monitoring the change in the thermal conductivity in the leakage detection panel 130 and the leakage position is displayed as coordinate information like (B, 2) to easily confirm the LNG leakage position.

As described above, according to the present invention, the first and second heat insulating materials 12 and 14 are disposed between the first heat insulating material 12 and the second heat insulating film 13, between the second heat insulating material 14 and the outer wall 15, And a leakage detection band composed of a material such as copper or an aluminum alloy whose thermal conductivity changes in accordance with a temperature change so as to enclose each unit block constituting the LNG tank 10 orthogonally horizontally and vertically, When the thermal conductivity of the band changes due to the contact with the leakage detection band due to the defect or damage of the first and second thermal insulation films 11 and 13, the LNG leakage and the corresponding position information are output by monitoring the LNG leakage, The leakage of the LNG tank can be detected by detecting the leakage.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not to be limited to the details thereof, And various modifications, alterations, and changes may be made without departing from the scope of the present invention.

Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: LNG tank 11: First insulating film
12: first insulation 13: second insulation
14: secondary insulation 15: outer wall
100: Leak detection system 110: First leakage detection band
120: second leakage detection band 130: leakage detection panel

Claims (4)

The first heat insulating film 11, the first heat insulating material 12, the second heat insulating film 13, the second heat insulating material 14 assembled in a unit block shape of a predetermined size, 15. A system (100) for detecting leakage of an LNG tank (10) comprising:
(12) and the second heat insulating film (13), each of the unit blocks constituting the first heat insulating material (12) is surrounded by the unit block A first leakage detection band 110 arranged in a shape of a circle;
(14) and the outer wall (15) are arranged in a form such that each of the unit blocks constituting the second heat insulating material (14) is orthogonally and horizontally wrapped A second leakage detection band 120 which is formed on the first leakage detection band 120;
And a leakage detection panel (130) for monitoring the change in thermal conductivity of the first and second leakage detection bands (110,120) and outputting LNG leakage and corresponding position information when the thermal conductivity is changed. Tank leak detection system. The method according to claim 1,
Wherein the first and second leakage detection bands (110, 120) are made of copper or an aluminum alloy. The first heat insulating film 11, the first heat insulating material 12, the second heat insulating film 13, the second heat insulating material 14 assembled in a unit block shape of a predetermined size, 15) are stacked in this order, the leakage of the LNG tank (10)
Each unit block constituting the first and second heat insulating materials 12 and 14 is disposed between the first heat insulating material 12 and the second heat insulating film 13, between the second heat insulating material 14 and the outer wall 15, The LNG stored in the LNG tank 10 is defective or damaged by the first and second thermal insulation films 11 and 13. In this case, And detecting the leakage of the LNG tank by monitoring the change in the thermal conductivity of the band due to the contact with the leakage detection band and outputting the LNG leakage and the corresponding position information. The method of claim 3,
Wherein the leakage detection band is made of copper or an aluminum alloy.

Images