KR20110012989A - Insulation structure of a liquified gas storage tank - Google Patents

Abstract

PURPOSE: An insulating structure of a liquefied-gas storage tank is provided to save parts required for installing an insulating panel and to reduce installation time. CONSTITUTION: An insulating structure of a liquefied-gas storage tank comprises a stud bolt(3) and a disc type pad(4). The stud bolt is installed outside a tank body(1). The stud bolt keeps interval between the insulating panel and the tank body constant. The disc type pad is arranged around the stud bolt. The stud bolt comprises a reinforcing member(2), which is installed on the inner surface of the tank body. The stud bolt is welding-fixed to a location, which faces another location, where the reinforcing member is installed. The disc type pad comprises a circular protrusion with an outer diameter, which is similar to the central hole(11a), which is formed on the center of an insulating panel(10).

Description

INSULATION STRUCTURE OF A LIQUIFIED GAS STORAGE TANK}

The present invention relates to an insulating structure of a standalone storage tank installed for storing liquefied gas such as LNG or LPG.

Natural gas is transported in a gaseous state through onshore or offshore gas piping, or transported to a distant consumer while being stored in an LNG carrier in the form of liquefied liquefied natural gas (LNG) or liquefied petroleum gas (LPG). Liquefied natural gas is obtained by cooling natural gas to cryogenic temperature (approximately -163 ℃), and its volume is reduced to about 1/600 than natural gas in gas state, so it is very suitable for long distance transportation through sea.

LNG transporter for loading and unloading LNG to land requirements by operating the sea with LNG The vessel includes a storage tank (commonly referred to as a "cargo hold") capable of withstanding cryogenic temperatures of liquefied natural gas.

These storage tanks can be classified into independent type and membrane type depending on whether the load directly affects the insulation material.Membrane type storage tanks are usually GT NO 96 type and TGZ Mark III type. Independent storage tanks are divided into MOSS type and SPB type. The structure of the MOSS type independent storage tank is described in Korean Patent No. 10-15063 and the like, and the structure of the SPB type independent storage tank is described in Korean Patent No. 10-305513 and the like.

In general, stand-alone storage tanks are made by attaching a relatively rigid insulation panel such as polyurethane to a tank body made of aluminum alloy, SUS, and 9% nickel, such as low temperature resistant alloy, and arranged on the inner bottom of the hull. Is placed on the support.

The insulation structure of a liquefied gas storage tank for installing a plurality of insulation panels made of polyurethane foam on the outside of the tank body is described in Korean Patent No. 10-166608.

By the way, the heat insulation structure of the liquefied gas storage tank according to the prior art, a large number of parts were required to install the heat insulation panel on the outside of the tank body, there was a problem that takes a long time and effort to assemble these parts.

That is, according to the prior art, the mounting member is first attached to the outside of the tank body by welding, and then the supporting member, the cylindrical member, the pad, etc. are installed on the mounting member, and then the insulation panel is installed to support the washer and the nut. Complex work such as fastening to the member was performed. Here, the supporting member is a rod-shaped rod with threads formed at both ends, the cylindrical member is a part interposed between the mounting member and the insulating panel to protect the insulating panel, the pad is a gap between the tank body and the insulating panel. It is a part installed on the outer circumference of the cylindrical member so as to be interposed between the tank body and the insulation panel to maintain.

Therefore, there is a need to continuously study the insulation structure of the liquefied gas storage tank that can further simplify the structure for attaching the insulation panel to the tank body and further reduce the time and effort required for the attachment work. have.

In addition, research on securing the ventilation space between the tank body and the insulation panel, securing the support structure of the stable insulation panel, securing the airtightness to prevent liquefied gas leakage through the gap between the adjacent insulation panels also need to be made continuously.

The present invention for solving these problems, can reduce the parts required for the installation of the insulation panel and reduce the time and effort required for the installation work, the liquefaction can ensure sufficient airtightness between adjacent insulation panels It is to provide an insulating structure of the gas storage tank.

According to the present invention for achieving the above object, a plurality of thermal insulation panel is a thermal insulation structure of the liquefied gas storage tank that is installed in succession to the outside of the tank body of the liquefied gas storage tank, the stud bolt is installed on the outside of the tank body; A disc-shaped pad disposed around the stud bolt to maintain a constant gap between the tank body and the insulation panel; It is provided with an insulating structure of the liquefied gas storage tank comprising a.

The stud bolt is preferably fixedly mounted by welding at a position corresponding to a position at which a reinforcing member is installed on the inner surface of the tank body to reinforce the strength of the tank body.

In the portion adjacent to the stud bolt in the center of the disk-shaped pad, it is preferable that a circular protrusion having an outer diameter corresponding to the inner diameter of the center hole formed in the center of the heat insulation panel so that the stud bolt can be inserted.

A central stepped portion is formed around the center hole to partially thin the thickness of the heat insulating panel, and the respective heat insulating panels are connected by inserting a washer at the end of the stud bolt protruding from the center stepped portion and tightening a nut. It is preferable to attach on the tank body.

An outer edge step part of which the thickness of the insulation panel is partially thinned is formed at an outer edge of the insulation panel, and a first insulation having elasticity even at low temperatures is interposed between neighboring insulation panels.

A sealing tape is attached to the outer edge step portions of the adjacent insulation panels, and the second insulation is filled in the space formed between the insulation panels due to the outer edge step portions.

It is preferable that the said 2nd heat insulating material is the same material as the said heat insulation panel.

A portion of the second heat insulating material and the heat insulating panel that is in contact with the third heat insulating material made of a heat insulating material different from the second heat insulating material is interposed, the third heat insulating material is preferably disposed symmetrically around the second heat insulating material. .

The height of the third heat insulating material is preferably greater than half of the height of the second heat insulating material.

In addition, according to another aspect of the present invention, a plurality of insulating panels are insulated structure of the liquefied gas storage tank is formed in succession to the outside of the tank body of the liquefied gas storage tank, each of the thermal insulation panel is an outer surface of the tank body A plurality of heat insulators, which are installed on the outside of the tank body through a stud bolt fixedly mounted to each other, are formed of a heat insulating material having a greater elasticity than the heat insulated panel in the space between the heat insulating panels adjacent to each other, from the end faces of the heat insulating panels. An adiabatic structure of a liquefied gas storage tank is provided, which is symmetrically arranged with respect to an imaginary central plane located at the same distance.

According to the present invention as described above, the liquefied gas storage tank that can reduce the parts required for the installation of the insulation panel, and the time and effort required for the installation work, and can sufficiently secure the airtightness between adjacent insulation panels Thermal insulation structure of can be provided.

Hereinafter, the thermal insulation structure of the liquefied gas storage tank according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

Figure 1 is a side cross-sectional view partially showing an insulating structure of the liquefied gas storage tank according to a preferred embodiment of the present invention, Figure 2 illustrates a coupling relationship between the tank body and the insulating panel in the insulating structure of Figure 1 An enlarged cross-sectional view of the main portion is shown. 3 is a plan view showing one heat insulation panel in the heat insulation structure of FIG. 1, and FIG. 4 is an enlarged cross-sectional view of an essential part for explaining a sealing relationship between the heat insulation panels in the heat insulation structure of FIG. 1. .

As shown in FIG. 1, the independent storage tank is formed by forming a heat insulating layer by attaching a relatively hard heat insulating panel 10 such as polyurethane foam to the outside of the tank body 1. The space between the tank body 1 and the heat insulation panel 10 is not closely contacted and spaced apart from each other so that a gap c is formed. The gap c between the tank body 1 and the heat insulation panel 10 can be utilized as a ventilation space and can also be used as a passage of the leaking liquid when a leak occurs due to damage of the tank body 1.

As shown in Figures 1 to 3, according to the heat insulation structure of the liquefied gas storage tank according to the present invention, a plurality of heat insulation panels 10 having a substantially rectangular shape in succession to each other on the tank body (1) of the storage tank Is installed.

On the inner surface of the tank body 1 and the surface facing the space where the side liquefied gas is stored, a reinforcing member 2 for reinforcing the strength of the tank body 1 is installed, and the outer surface of the tank body 1 is insulated. Stud bolts 3 for installing the panel 10 are installed. The stud bolt 3 is preferably installed at a position opposite to the position at which the reinforcing member 2 is installed around the tank body 1. The stud bolt 3 can be fixedly mounted on the outside of the tank body 1 by welding.

Around the stud bolt 3, a pad 4 having a disk shape having a constant thickness is disposed in close contact with the stud bolt 3. The disc-shaped pad 4 is installed around the stud bolt 3 so that the size of the gap c can be kept constant between the tank body 1 and the heat insulation panel 10.

Conventionally, the pad interposed between the tank body 1 and the heat insulation panel 10 had an elongated rectangular shape, and had to go through cumbersome work to fix the arrangement direction when installed. However, according to the present invention, the pad 4 has a shape. Since it has a disc shape, there is no need to orient it.

In addition, the center hole 11a formed at the center of the heat insulation panel 10 so that the stud bolt 3 can be inserted into the center of the disc-shaped pad 4, that is, the portion adjacent to the stud bolt 3 is provided. It is preferable that a circular protrusion 4a having an outer diameter corresponding to the inner diameter is formed. Since the circular protrusion 4a formed in the center of the pad 4 is fitted in the center hole 11a, the heat insulation panel 10 can be stably held about the stud bolt 3, and damage can be prevented.

In the center of each heat insulating panel 10, as described above, a center hole 11a into which the stud bolts 3 are inserted is formed, and the thickness of the heat insulating panel is partially thinned around the center hole 11a. The center step portion 11b is formed. As shown in FIG. 2, the distal end of the stud bolt 3 protrudes from this central step 11b, and each of the stud bolts 3 is fitted with a washer 5 at the distal end of the stud bolt 3 and tightened with a nut 6. The thermal insulation panel 10 can be attached on the tank body 1. If necessary, a separate heat insulating material may be filled in the space formed concave by the central step 11b.

As described above, according to the heat insulation structure of the present invention, since the preparation for installing the heat insulation panel 10 can be completed by fixing the stud bolts 3 by welding and inserting the disc-shaped pads 4, the heat insulation in comparison with the conventional art is possible. The panel can be stably supported while reducing the time and effort required for the installation of the insulation panel.

On the other hand, an outer edge step portion 11c of which the thickness of the thermal insulation panel is partially thinned is formed at the outer edge, that is, the outer edge of each insulation panel 10.

As shown in Figure 1 and 4, in order to cope with the deformation of the tank body 1 according to the temperature change, two adjacent insulating panels 10 are installed to be spaced apart from each other, between them having elasticity even at low temperatures It is preferable that the first heat insulating material 12 made of a heat insulating material such as glass wool be interposed.

In addition, it is preferable that the sealing tape 13 is attached to the outer edge step portions 11c of the two adjacent heat insulating panels 10 so as to be attached to the two outer edge step portions 11c at the same time. Due to these outer stepped portions 11c, the second heat insulating material 14 may be filled in the concave space formed between the two heat insulating panels 10, and the second material 14 may be the same material as the heat insulating panel 10. May be used or materials that are not identical may be used.

A portion of the second heat insulating material 14 and the heat insulating panel 10 that is in contact with each other is preferably interposed with a third heat insulating material 15 made of a heat insulating material having a larger elasticity than the heat insulating panel 10, for example, polyethylene foam. It is preferable that the height of the third heat insulating material 15 is set to be larger than half of the height of the second heat insulating material 14 because the gap can be effectively closed using elasticity. The third insulator 15 is arranged symmetrically on both sides about the second insulator 14 as shown in FIG. 4, ie symmetric about the imaginary central plane located at the same distance from the end faces of the insulation panels. Since they are arranged in an independent manner, expansion or contraction of the same size occurs when deformation due to temperature change, thereby forming a stable sealing structure and improving airtightness.

The insulation structure of the liquefied gas storage tank according to the present invention can be applied to any of the offshore structures used while floating in the sea where the flow is generated while the independent storage tank is installed, that is, liquefied natural gas (LNG) or liquefied Liquefied gas carriers that carry petroleum gas, etc. It can be applied to both plants and the like.

As described above, the heat insulation structure of the liquefied gas storage tank according to the present invention was described with reference to the illustrated drawings, but the present invention is not limited to the embodiments and drawings described above, and the present invention within the claims Of course, various modifications and variations can be made by those skilled in the art.

1 is a side cross-sectional view partially showing an insulating structure of a liquefied gas storage tank according to a preferred embodiment of the present invention;

2 is an enlarged cross-sectional view of an essential part for explaining a coupling relationship between a tank body and an insulation panel in the insulation structure of FIG. 1;

3 is a plan view showing one heat insulation panel in the heat insulation structure of FIG. 1, and

4 is an enlarged cross-sectional view of an essential part for explaining a sealing relationship between the insulating panels in the insulating structure of FIG.

Description of the Related Art

1 tank body 2 reinforcement member

3: stud bolt 4: disk pad

4a: circular protrusion 5: washer

6: nut 10: heat insulation panel

11a: center hole 11b: center step portion

11c: outer edge step portion 12: the first insulating material

13: tape 14: second insulating material

15: third insulation

Claims (10)

As a heat insulation structure of a liquefied gas storage tank in which a plurality of heat insulation panels are installed in succession outside the tank body of the liquefied gas storage tank, A stud bolt installed outside the tank body; A disc-shaped pad disposed around the stud bolt to maintain a constant gap between the tank body and the insulation panel; Insulating structure of the liquefied gas storage tank comprising a. The method according to claim 1, The stud bolt is fixed to the inner surface of the tank body corresponding to the position where the reinforcing member is installed to reinforce the strength of the tank body is fixed by welding, characterized in that of the liquefied gas storage tank Insulation structure. The method according to claim 1, In the portion adjacent to the stud bolt in the center of the disk-shaped pad, a circular protrusion having an outer diameter corresponding to the inner diameter of the center hole formed in the center of the heat insulation panel so that the stud bolt can be inserted is formed Insulation structure of liquefied gas storage tank. The method according to claim 3, A central stepped portion is formed around the center hole to partially thin the thickness of the heat insulating panel, and the respective heat insulating panels are connected to each other by inserting a washer at the end of the stud bolt protruding from the center stepped portion and tightening a nut. Insulating structure of the liquefied gas storage tank, characterized in that attached to the tank body. The method according to claim 1, The outer edge of the heat insulation panel is formed with an outer edge step part of which the thickness of the heat insulation panel is partially thin, and the liquefied gas storage tank, characterized in that the first heat insulating material which is elastic at low temperatures is interposed between the adjacent heat insulation panels. Thermal insulation structure. The method according to claim 5, A sealing tape is attached to the outer edge step portions of the adjacent insulation panels, and the second insulating material is filled in a space formed between the insulation panels due to the outer edge step portions. . The method according to claim 6, The second heat insulating material is a heat insulating structure of a liquefied gas storage tank, characterized in that the same material as the heat insulating panel. The method according to claim 6, A third heat insulating material made of a heat insulating material different from the second heat insulating material is interposed between the second heat insulating material and the heat insulating panel, and the third heat insulating material is symmetrically disposed about the second heat insulating material. Insulation structure of liquefied gas storage tank. The method according to claim 8, The height of the third heat insulating material is a heat insulating structure of the liquefied gas storage tank, characterized in that greater than half of the height of the second heat insulating material. As a heat insulation structure of a liquefied gas storage tank in which a plurality of heat insulation panels are installed in succession outside the tank body of the liquefied gas storage tank, Each of the insulation panels is installed on the outside of the tank body through a stud bolt fixedly mounted to the outer surface of the tank body, the space between the adjacent insulation panels with a heat insulating material having a greater elasticity than the insulation panel The heat insulating structure of the liquefied gas storage tank, characterized in that a plurality of heat insulating material is formed symmetrically with respect to the virtual center plane located at the same distance from the end surface of the heat insulating panels.

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