KR100834277B1 - Temperature sensor system for cargo tank of mark iii lng carrier - Google Patents

Abstract

A temperature sensor system for a LNG cargo tank of a LNG carrier is provided to prevent damage to a signal wire due to damage to a membrane metal panel in order to implement a more stable temperature sensor system. A temperature sensor system for a LNG cargo tank of a LNG carrier includes an LNG tank(100), a temperature sensor(110), and a controller. The temperature sensor is installed at an outer side of a second wall, except a first wall and a first insulating layer. A signal wire(111) connects the controller to the temperature sensor. The temperature sensor detects variation of a temperature in the LNG tank through the second wall to detect leakage of LNG through the first and second walls. The signal wire extracted to the exterior of the LNG tank is connected to the controller.

Description

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

1 is a perspective view showing a state in which a temperature sensor is installed in a conventional LNG storage tank,

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

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

4 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;

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

6 is a cross-sectional view showing a state in which the auxiliary 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: angle 60: pump

100: LNG tank 110: temperature sensor

120: auxiliary 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, in which a membrane metal panel, which is a first barrier to which LNG directly contacts, is provided on the inside thereof, and on the outside thereof, a first fly, a first heat insulating layer, a second barrier, and a first barrier. 2 heat insulation layers are arrange | positioned sequentially. In the LNG storage tank having such a double barrier structure, the temperature sensor is installed to be located on the outside of the first barrier and the outside of the second barrier.

On the other hand, the temperature sensor installed inside 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.

1 is a perspective view illustrating a state in which a temperature sensor is installed in a conventional LNG storage tank, and FIG. 2 is a cross-sectional view illustrating a state in which a temperature sensor is installed inside the first barrier, and FIG. The cross section which shows the state in which a signal line is arrange | positioned is shown. 1 to 3, in the case of the temperature sensor S1 installed on the outside of the first barrier 10 as described above, in the arrangement of the signal line L for signal transmission with the control unit, not shown, In order to be connected to the control unit without damaging the first barrier 10 or 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. In the figure, reference numeral S2 denotes a temperature sensor provided outside the second barrier.

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 it is difficult to control accurately because it does not receive an accurate signal from the temperature sensor, There was a problem with many difficulties.

The present invention has been made in consideration 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 to achieve the object as described above and to solve the conventional drawbacks is to provide 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 having a corrugation. In the temperature sensing device of the LNG tank having a double barrier structure provided,

A plurality of temperature sensors are installed on the ceiling, bottom, and sidewalls of the LNG tank, and the temperature sensors are installed only on the outside of the second barrier to detect LNG load by detecting a temperature change inside the LNG tank through the second barrier. And an LNG tank temperature sensing device configured to detect leakage of LNG through the first and second barriers.

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.

4 is a perspective view showing a state in which a temperature sensing apparatus according to a preferred embodiment of the present invention is installed in an LNG tank, and FIG. 5 is a sectional view showing a state in which a temperature sensor according to the present invention is installed. 4 and 5, the temperature sensing device according to the preferred embodiment of the present invention includes a first heat insulating layer 20 and a first heat insulating layer formed on the outer side of the first barrier 10 made of a membrane metal panel and a plywood having a corrugation. A temperature sensing device for sensing a temperature in the LNG tank 100 having a double barrier structure having a second barrier 30 and a second heat insulating layer 40, except for the first barrier 10 and the first heat insulating layer 20. The temperature sensor 110 is installed only on the outer side of the second barrier 30 to facilitate the installation of the signal line 111 and the temperature sensor 110 for connecting the control unit and the temperature sensor 110, which are not shown. 111) It is configured to prevent the malfunction of the temperature sensing system due to damage.

The temperature sensors 110 detect the temperature change in the LNG tank 100 through the second barrier 30 to detect whether the LNG cargo is loaded and the leakage of LNG through the first and second barriers 10 and 30. It is provided in the 2nd heat insulation layer 40 so that it may be located in the outer side of the 2nd barrier 30. As shown in FIG. Preferably, the temperature sensors 110 are installed to be in close contact with the second barrier 30 so as to be able to detect temperature changes more sensitively, and are installed to be located on the ceiling, bottom, and sidewalls of the LNG tank 100. As such, the temperature sensors 110 installed at each portion of the LNG tank 100 may be electrically connected to each other and 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 temperature sensor 110 penetrates the first and second barriers 10 and 30 or is installed without direct contact, so it is correlated with the damage of the first and second barriers 10 and 30. Stable transmission of signals and electricity is possible without

6 is a sectional view showing a state in which the auxiliary temperature sensor according to the present invention is installed. Referring to FIG. 6, a pump 60 for discharging LNG is provided in the LNG tank 100, and at this time, the pump 60 includes an auxiliary temperature sensor for detecting an internal temperature of the LNG tank 100. 120 may be further installed and used to sense the temperature of the LNG tank 100 together with the temperature sensor 110 installed on the second barrier 30. It is located inside the LNG tank 100 of the auxiliary temperature sensor 120 can be more sensitive to the temperature change.

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

As described above, the temperature sensor 110 installed on the outside of the second barrier 30 detects the temperature change of the LNG tank 100 through the second barrier 30.

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 the temperature detected by the temperature sensor 110 depending on whether the LNG cargo is loaded, in consideration of this, it is possible to detect whether the LNG cargo is loaded by analyzing the temperature change detected by the temperature sensor 110. .

In addition, even when the first barrier 10 or the second barrier 30 is damaged and the LNG leaks, a change occurs in the temperature detected by the temperature sensor 110, and in this case, the temperature change range is whether the LNG cargo is loaded or not. It is larger than the temperature change range. In other words, when LNG leaks due to damage of the first barrier 10 and the second barrier 30, the temperature sensor 110 will detect a low temperature close to a maximum of -162 ° C, and the first barrier 10 If the LNG leaks due to damage of the bay, a higher temperature will be detected than when the first and second barriers 10 and 30 are damaged. Then, when the LNG cargo is normally loaded without abnormality, a higher normal temperature is detected. Will be detected. Therefore, by analyzing the temperature detected by the temperature sensor 110, it is possible to check whether the LNG cargo is loaded or whether the first and second barriers 10 and 30 are damaged.

On the other hand, since the auxiliary sensor installed in the pump 60 senses the temperature directly inside the LNG tank 100, it is possible to provide more rapid and accurate temperature information.

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 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 (3)

LNG tank 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 a corrugated membrane metal panel ( In the temperature sensing device of 100), A plurality of temperature sensors 110 are installed on the ceiling, the bottom, and the sidewalls of the LNG tank 100, and the temperature sensors 110 are installed to be located only outside the second barrier 30 so that the second barrier 30 is located. LNG tank temperature sensing device, characterized in that by detecting the temperature change in the LNG tank 100 through the LNG cargo loading and the leakage of LNG through the first and second barriers (10,30). The method of claim 1, The temperature sensor 110 is LNG tank temperature sensing device, characterized in that installed in close contact with the second barrier (30). The method of claim 1, The auxiliary temperature sensor 120 is further installed in the pump 60 installed inside the LNG tank 100 to discharge the LNG cargo, so that the auxiliary temperature sensor 120 and the second barrier 30 side temperature sensor 110 are provided. LNG tank temperature sensing device, characterized in that configured to detect the temperature of the LNG tank (100) by.

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