KR20080072387A - Temperature sensor system for cargo tank of mark iii lng carrier - Google Patents

Abstract

A temperature sensor system for a cargo tank of a LNG(Liquefied Natural Gas) carrier is provided to thoroughly prevent a signal line from being damaged due to damage to a membrane metal panel. A temperature sensor system for a cargo tank(100) of a LNG carrier includes a plurality of first temperature sensors(110) and at least one second temperature sensor(120). The first temperature sensors are installed outside a second barrier and sense loading of LNG cargo in the cargo tank of the LNG carrier and leakage of LNG by sensing variation of temperature in the cargo tank of the LNG carrier through the second barrier. The second temperature sensor is installed adjacent to a pump tower support installed at the cargo tank of the LNG carrier and senses the variation of temperature in the cargo tank of the LNG carrier through the pump tower support.

Description

Temperature sensor system for tanks {Temperature sensor system for Cargo Tank of Mark Ⅲ LNG Carrier}

1 is a cross-sectional view showing a state in which a temperature sensor is installed outside the first barrier;

2 is a cross-sectional view showing a state in which signal lines are arranged through corrugation;

3 is a perspective view showing a state in which a temperature sensing device according to a preferred embodiment of the present invention is installed in an LNG tank;

4 is a cross-sectional view showing a state in which the first temperature sensor of the present invention is installed;

5 is a cross-sectional view showing a state in which the second temperature sensor of the present invention is installed.

<Description of the symbols for the main parts of the drawings>

10: first barrier 20: first heat insulating layer

30: second barrier 40: second heat insulating layer

(50): Hull angle (60): Pump Tower

70: pump tower support 100: LNG tank

110: first temperature sensor 120: second temperature sensor

The present invention relates to a temperature sensing device, and more particularly to an LNG tank temperature sensing device for measuring the temperature inside the LNG tank of the LNG carrier.

At present, demand for liquefied natural gas (Liquefied Natural Gas or LNG) is increasing worldwide due to a sharp rise in crude oil prices and a sharp increase in demand for clean energy.

The LNG is to use a variety of transport means, largely using a pipeline and a method using an LNG carrier.

The LNG carrier is designed to store and transport LNG in a high pressure vessel, and the high pressure vessel has a risk of explosion even in a small crack, and as a result, it is possible to secure a thorough safety device due to its characteristics, which can lead to a large economic loss. It is required.

At this time, the LNG is to be stored and stored in an ultra-low temperature state, it is very important for the real-time analysis of the maintenance and temperature distribution of LNG for this purpose.

Therefore, the LNG tank of the LNG carrier is provided with a temperature sensing device for measuring the temperature, wherein a large number of temperature sensors are used as the temperature sensing device.

On the other hand, the wall structure of the LNG storage tank is a double barrier structure, and the membrane metal panel, which is the first barrier to which LNG directly contacts, is provided on the inside thereof, and the first fly, the first heat insulating layer, the second barrier, 2 heat insulation layers are arrange | positioned sequentially. In the LNG storage tank having a double barrier structure as described above, the temperature sensor is installed to be located outside the first barrier and inside the second barrier.

On the other hand, the temperature sensor installed on the outside of the first barrier is installed to be located at the bottom of the LNG tank to provide a function of detecting the amount of storage of LNG left inside the LNG tank and detecting the leakage of LNG due to damage of the first barrier. do.

FIG. 1 is a cross-sectional view illustrating a state in which a temperature sensor is installed outside the first barrier, and FIG. 2 is a cross-sectional view illustrating a state in which signal lines are arranged through corrugation. 1 and 2, in the case of the temperature sensor S1 installed on the outer side of the first barrier 10 as described above, in the arrangement of the signal line L for signal transmission with the controller (not shown) In order to be connected to the control unit without damaging the second barrier, the wiring is routed through a space formed by the corrugation 11 of the membrane metal panel as the first barrier 10.

However, when the signal line is arranged through the corrugation as described above, if the coration is deformed by the internal pressure of the tank, direct damage is caused to the signal line, so that the accurate signal cannot be transmitted from the temperature sensor. There was a problem with many difficulties.

The present invention has been made in view of the above problems, and an object of the present invention is to simplify the structure by installing a temperature sensor only on the outside of the second barrier without arranging signal lines using the corrugation of the membrane metal panel, and at a more stable temperature. The present invention provides an LNG tank temperature sensing device capable of constructing a control system.

The present invention, which achieves the object as described above and the problem to eliminate the conventional drawbacks is a double barrier having a first heat insulating layer, a second barrier and a second heat insulating layer on the outside of the first barrier having a membrane metal panel In the LNG tank temperature sensing device having a structure,

A plurality of first temperature sensors installed on the outside of the second barrier and detecting the temperature change in the LNG tank through the second barrier to detect whether LNG cargo is loaded in the tank and the leakage of LNG through the first and second barriers. field; And

LNG tank temperature provided with at least one second temperature sensor installed near the pump tower support installed in the LNG tank outside the second barrier to sense a temperature change in the LNG tank through a metallic pump tower support. It features a sensing device.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is a perspective view showing a state in which a temperature sensing device according to a preferred embodiment of the present invention is installed in an LNG tank. Referring to FIG. 3, the temperature sensing device according to an exemplary embodiment of the present invention may include a first heat insulating layer 20, a second barrier 30, and a first outside of the first barrier 10 formed of a membrane metal panel and a plywood. 2 is a temperature sensing device in a LNG tank having a double barrier structure having a heat insulating layer 40, comprising a first temperature sensor 110 and a second temperature sensor 120, the first and second temperature sensors (110, 120) They are installed on the outside of the second barrier 30 to facilitate the installation of the signal line and the temperature sensor for connecting the first and second temperature sensors 110 and 120 and the control unit (not shown), and also prevent the malfunction due to damage of the signal line. It is configured so that each component will be described in detail as follows.

4 is a sectional view showing a state in which the first temperature sensor of the present invention is installed. Referring to FIG. 4, the first temperature sensors 110 detect the temperature change in the LNG tank 100 through the second barrier 30 to determine whether the LNG cargo is loaded and the first and second barriers 10 and 30. By detecting the leakage of LNG through, it is installed in the second heat insulating layer 40 to be located outside the second barrier (30). Preferably, the first temperature sensors 110 are installed to be in close contact with the second barrier 30 so as to be more sensitive to temperature changes, and are installed on the ceiling, the floor, and the sidewalls of the LNG tank 100. do. As described above, the first temperature sensors 110 installed on the respective portions of the LNG tank 100 may be electrically connected to each other, and may be connected to a controller (not shown), or may be independently connected to the controller.

Meanwhile, the signal line 111 drawn out of the LNG tank 100 is drawn out of the LNG tank 100 through the second heat insulation layer 40 and the hull 50 and connected to the controller. As such, the signal line 111 drawn out from the first temperature sensor 110 penetrates the first and second barriers 10 and 30 or is installed without direct contact, thus preventing the first and second barriers 10 and 30 from being damaged. It enables stable transmission of signals and electricity regardless.

5 is a sectional view showing a state in which the second temperature sensor of the present invention is installed. Referring to FIG. 5, the second temperature sensor 120 detects a temperature change through the pump tower support 70 provided at the bottom of the LNG tank 100 to support the pump tower 60. It is installed close to the support 70. In general, the pump tower support 70 is made of stainless steel to firmly support the pump tower 60, which is a heavy material, and to have high corrosion resistance. Thus, in the case of the pump tower support 70 made of metal, the temperature change can be transmitted more sensitively than the heat insulation layer, so that the second temperature sensor 120 is installed close to or in close contact with the pump tower support 70 so as to have a first temperature. It is possible to detect the leakage of LNG more quickly than the sensors 110.

The second temperature sensor 120 as described above may be connected to the control unit while being connected to the first temperature sensor 110, or may be connected to the control unit by wiring a signal line through the inside of the pump tower 60.

The operation of the temperature sensing device of the present invention configured as described above will be described.

As described above, the first temperature sensors 110 and the second temperature sensor 120 according to the present invention are installed outside the second barrier 30 to support the second barrier 30 or the pump tower support 70. The change in temperature of the LNG tank 100 is detected.

In the case of loading LNG cargo in the LNG tank 100 in general, it is stored in a cryogenic state reduced in volume to 1/600 by compression, cooling, and liquefaction at -162 ℃ for convenience of transportation and storage. Therefore, there is a difference in temperature detected by the first temperature sensor 110 and the second temperature sensor 120 according to the loading of the LNG cargo, in consideration of this, the first temperature sensor 110 and the second temperature sensor 120. By analyzing the temperature change detected in the LNG cargo can be detected whether or not.

In addition, even when damage occurs to the first barrier 10 or the second barrier 30 and the LNG leaks, a change occurs in the temperature detected by the first temperature sensor 110 and the second temperature sensor 120, In this case, the change in temperature is greater than the change in temperature depending on the loading of LNG cargo. In other words, when LNG is leaked due to damage of the first barrier 10 and the second barrier 30, the first and second temperature sensors 110 and 120 will detect a low temperature close to a maximum of -163 ° C. If LNG leaks due to damage to the barrier 10 alone, a higher temperature will be detected than when the first and second barriers are damaged. Next, if the LNG cargo is normally loaded without abnormality, a higher normal range temperature will be detected. Will be detected. Therefore, by analyzing the temperature detected by the first and second temperature sensors 110 and 120, it is possible to check whether the LNG cargo is loaded or whether the first and second barriers are damaged.

On the other hand, the second temperature sensors 120 are installed in close proximity or in close contact with the metallic pump tower support 70, and thus have an advantage of more sensitively detecting a temperature change than the first temperature sensor 110.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

According to the present invention, by installing the first and second temperature sensors on the outside of the second barrier as described above, the temperature sensor can be installed and the signal lines can be arranged in a simpler structure than in the related art. In addition, it is possible to implement a more stable temperature sensing system by preventing the damage to the signal line due to damage to the membrane metal panel.

Claims (4)

Temperature of the LNG tank 100 having a double barrier structure having a first heat insulating layer 20, a second barrier 30, and a second heat insulating layer 40 on the outside of the first barrier 10 having the membrane metal panel. In the sensing device, Installed outside the second barrier 30, the second barrier 30 detects the temperature change inside the LNG tank 100, the LNG cargo loading in the tank and the leakage of LNG through the first and second barriers A plurality of first temperature sensor 110 for detecting the; And Installed outside of the second barrier 30 to the pump tower support 70 installed in the LNG tank 100 to detect the temperature change in the LNG tank 100 through the metallic pump tower support 70 LNG tank temperature sensing apparatus comprising: at least one second temperature sensor (120). The method of claim 1, The second temperature sensor 120 is LNG tank temperature sensing device, characterized in that installed in close contact with the pump tower support (70). The method of claim 1, The first temperature sensor (110) LNG tank temperature sensing device, characterized in that installed in close contact with the second barrier (30). The method of claim 1, The second temperature sensor 120 is connected to a signal line wired into the pump tower 60, LNG tank temperature sensing device, characterized in that connected to the control unit.

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