RU2747219C1 - Underground group of oil and oil product storage reservoirs - Google Patents

Abstract

FIELD: oil industry.SUBSTANCE: invention relates to the field of methods and means of oil and oil product storage. Within the group of underground reinforced concrete reservoirs, each of said reservoirs is made as a thin-walled hexagonal prism with vertical walls edged with a U-shaped embedded part (3) along the entire perimeter, wherein the lateral parts (4) of said part cover the wall and the bridge (5) between the lateral parts (4) overlaps the end part of the wall. On the vertical line of intersection of the theoretical placement planes of the three adjacent walls (2) forming the hexagonal shape of the reservoirs of the group, the axis of the three-edged element (6) is placed interconnects every three walls. The U-shaped embedded part (3) is welded to the strip embedded parts on the both sides with a sealing weld to the bottom. The reservoirs of the group are covered using self-supporting domed or conical frame roofs, and elements of the frame or edges of the self-supporting roof are fastened to the U-shaped embedded parts (3) in the upper part of the walls.EFFECT: invention increases efficiency of use of the park area, namely, increases storage volumes per unit of storage space within the group.1 cl, 7 dwg

Description

The invention relates to the field of methods and means for storing oil and oil products, namely to buried or underground parks.

Known methods of buried storage of environmentally hazardous materials [1] (patent RU No. 2180033 C2, z-ka 2000107054, "Earthquake-resistant monolithic concrete storage"). The reservoir is formed by the wall of the toroidal vessel of the inner side of the torus, the wall, cover and bottom of the store are made prestressed with internal and external metal skins, in the center of the store a prefabricated pipe-concrete support post is hingedly mounted. The invention is characterized by a great complexity of manufacture due to the need to make the walls with a curved surface.

It is also known an underground storage for gas, oil and products of their processing utility model [2] (patent No. RU 35323 U1 "Underground storage for gas, oil and products of their processing"), which is made in a mine and includes a tank equipped with all the necessary systems ... The scope of this model is limited, and can be used when performing work in mountainous areas. The disadvantage of this solution is the binding of the storage facility to areas with mountainous terrain in the presence of mine workings, which can be inconvenient from the point of view of logistics.

A similar disadvantage is even more clearly manifested in the solution for a method of storing oil in rock salt [3] (patent RU No. 2264965 C2 "Method for constructing an underground reservoir in rock salt"). The proposed technical solution relates to the construction of underground tanks through boreholes in rock salt by dissolving it. The scope of this model is limited, and can be used when performing work on the extraction of rock salt.

Closest to the proposed solution are rectangular reinforced concrete tanks [4] (see Fig. 1.13, 1.14 in the book. Designing reinforced concrete tanks: Textbook / V.A. Yarov, OP Medvedev - M .: publishing house AGB, 1997 .-- 160 pages). This technical solution provides vertical flat walls that delimit the storage area, a flat bottom, a cover with a grid of columns that provide distributed support of the cover.

The disadvantage of such tanks is that according to [5] SP 155.13130.2014 “Warehouses of oil and oil products. Fire Safety Requirements ", rectangular tanks are up to 4.8 m deep with a maximum area of the" mirror "of one tank of 7000 m ² , and the total area of the mirror of a group of underground tanks is 14000 m ² . The presence of the distances specified by the standards significantly increases the area of the park, leaving a significant part of the area for the location of the group of tanks unused in the technological process of storing oil products.

The objective of the present invention is to improve the efficiency of using the park area, namely, to increase the storage volume per unit of storage area in the group.

The specified technical effect is achieved by using groups of underground reinforced concrete tanks containing vertical flat walls limiting the storage area, flat bottom, coating, receiving and dispensing devices, technological pipes, characterized in that each tank of the group is made in the form of a thin-walled hexagonal prism with vertical walls, and each of the walls forming the hexagonal shape of one tank of the group, facing the adjacent tank of the group, is one of the walls forming the hexagonal shape of this adjacent tank, while each vertical wall forming the hexagonal shape of the tank of the group is edged around the entire perimeter with a U-shaped embedded part , the side parts of which cover the wall forming the hexagonal shape of the group tank, and the bridge between the side parts overlaps the end part of the wall forming the hexagonal shape of the group tank, and, on the vertical line of intersection of the theoretical planes the axis of the triangular element is placed, each face of which is made in the form of a strip, which is welded with one side along the entire height to the bridge between the side parts of the embedded U-shaped part, and the other is welded with the same sides of two other similar strips of adjoining three walls, forming a hexagonal shape of the group's tank; in the bottom of the group of tanks, strip embedded parts are made, located on the projection of the walls, forming the hexagonal shape of the tank of the group, and protruding beyond the contour of the projection of the walls, while the U-shaped embedded part is welded to the strip embedded parts on both sides with a sealing weld; the coating of the group's tanks is carried out with self-supporting dome or conical frame roofs, while the frame elements or edges of the self-supporting roof are fastened to the U-shaped embedded parts in the upper part of the walls that form the hexagonal shape of the group's tanks, while in the upper part of the triangular element there is a plug made flush with the upper surface of the lintels.

Figures 1-7 show the diagram and main elements of the tanks of the group.

The group of underground reinforced concrete tanks containing vertical flat walls limiting the storage area, a flat bottom, a coating, receiving and dispensing devices, technological pipes, differs in that each tank (1) of the group is made in the form of a thin-walled hexagonal prism with vertical walls (2), and each of the walls (2) forming the hexagonal shape of one tank of group 1 facing the adjacent tank of group 1 is one of the walls (2) forming the hexagonal shape of this adjacent tank (1), with each vertical wall (2), forming the hexagonal shape of the tank of group 1, edged around the entire perimeter with a U-shaped insert (3), the side parts (4) of which cover the wall (2), which forms the hexagonal shape of the tank of group 1, and the bridge (5) between the side parts (4) overlaps the end part of the wall (2), which forms the hexagonal shape of the tank of group 1, and on the vertical line of intersection of the theoretical planes is placed three adjacent walls (2), forming the hexagonal shape of the tanks of group 1, the axis of the triangular element (6) is located, each face (7) of which is made in the form of a strip, which is welded on one side along the entire height to the bridge (5) between the side parts ( 4) the embedded U-shaped part (3), and the other is welded with the same sides of two other similar strips of three adjacent walls (2), forming the hexagonal shape of the tank of group 1; in the bottom (8) of the group of tanks (1), strip embedded parts (9) are made, located on the projection of the walls (1), forming the hexagonal shape of the tank of group 1, and protruding beyond the contour of the projection of the walls (2), while the U-shaped embedded part ( 3) is welded to the strip embedded (9) on both sides with a sealing weld; the covering (10) of the tanks of the 1st group is carried out with self-supporting domed or conical frame roofs, while the fastening of the frame elements or the edges of the self-supporting roof is carried out to the U-shaped embedded parts (3) in the upper part of the walls (2), which form the hexagonal shape of the tanks of the 1st group, in this case, in the upper part of the triangular element (6) there is a plug (11), made flush with the upper surface of the bridges (5).

Figure 1 shows a schematic layout of tanks in a group.

The device operates in accordance with the technological regulations: through the inlet pipes the product is supplied to the tanks of the 1st group, where the product is stored. If necessary, the product is shipped to the consumer through the dispensing pipes. Control over the condition of the product, the level of the product in the tanks is carried out by standard means of measuring and controlling the tanks.

The construction of the group's tanks provides for the development of a pit to ensure the underground placement of tanks of group 1 In the pit, a foundation is laid under the bottom (8), which can be made as a grillage on a pile foundation. On the bottom (8), strip inserts (9) are made, on which the walls (2) are installed and welded to them through the inserts of the U-shaped part (3), forming a thin-walled hexagonal prism. Next, the walls of three adjacent tanks of group 1 are formed by welding the jumpers (5) of the walls (2) to the triangular element (6). The triangular element (6) is welded to the insert (9) of the bottom (8) - in the lower part, in the upper part, the plug (11) is welded, due to which the upper contour of the walls is formed in one level, ensuring the tightness of the connection zone of the walls (2) to the coating (10).

Below is a comparison of storage volumes in underground tanks of various configurations.

Figure 7 shows three options for the arrangement of groups of tanks: the first with rectangular tanks, the second with cylindrical, and the third with hexagonal ones. Cylindrical tanks are given for comparison as one of the most common buried tank designs, the usable area requirements are the same as for rectangular tanks. The maximum diameter of a group of rectangular tanks was taken as a comparison element, i.e. the total usable area of the group is the same and amounts to 14,000 m ² (in accordance with SP 155.13130), ineffective areas were compared.

The area formed by the maximum diameter of the group is highlighted in red; green - the area formed by a group of cylindrical tanks; blue - the area formed by a group of hexagonal tanks.

When comparing the options for the layout of tank farms (Figure 7) from cylindrical, rectangular and hexagonal tanks, the following conclusions can be drawn:

With the same useful area ("mirror") of the reservoir group, the ineffective area will be larger for the first two options;

The ineffective park area for the variant with regular hexagons is at least 3 times less than for the group of rectangular tanks;

For rectangular tanks, there is a depth limit (no more than 5 m) associated with the stability (strength) of the walls, and for hexagonal tanks, the depth can be made at least 10 m.As a result, the volume of hexagonal tanks is at least 2 times greater than the volume of a rectangular tank.

The shape of the honeycomb allows, with the minimum use of materials, to most efficiently arrange the tanks in the allotted area (Figure 1). In addition, the hexagonal shape makes the cell more robust.

The number of tanks in a group is seven, the number of tank farms is unlimited, the distance between the parks is at least 15 m.

Bibliography

1. Patent for z-ke 2000107054, RU No. 2180033 C2 "Earthquake-resistant monolithic concrete storage".

2. Patent RU No. 35323 U1 "Underground storage for gas, oil and products of their processing."

3. Patent RU No. 2264965 C2 "Method for constructing an underground reservoir in rock salt".

4. Design of reinforced concrete tanks; Textbook / V.A. Yarov, O. P. Medvedev - Moscow: ASV publishing house, 1997 .-- 160 p.

5. SP 155.13130.2014 “Warehouses of oil and oil products. Fire safety requirements ".

Claims (1)

A group of underground reinforced concrete tanks containing vertical flat walls limiting the storage area, a flat bottom, a coating, receiving and dispensing devices, technological pipes, characterized in that each tank of the group is made in the form of a thin-walled hexagonal prism with vertical walls, and each of the walls forming the hexagonal shape of one tank of the group, facing the adjacent tank of the group, is one of the walls that forms the hexagonal shape of this adjacent tank, while each vertical wall that forms the hexagonal shape of the tank of the group is edged around the entire perimeter with a U-shaped insert, the side parts of which cover the wall forming the hexagonal shape of the group's tank, and the bridge between the side parts overlaps the end part of the wall that forms the hexagonal shape of the group's tank, and on the vertical line of intersection of the theoretical planes for placing three adjacent walls forming the hexagonal shape tanks of the group, the axis of the triangular element is located, each face of which is made in the form of a strip, which is welded on one side along the entire height to the bridge between the side parts of the embedded U-shaped part, and the other is welded to the same sides of two other similar strips adjacent to each other three walls forming the hexagonal shape of the panel tank; in the bottom of the group of tanks, strip embedded parts are made, located on the projection of the walls, forming the hexagonal shape of the tank of the group, and protruding beyond the contour of the projection of the walls, while the U-shaped embedded part is welded to the strip embedded parts on both sides with a sealing weld; the coating of the group's tanks is carried out with self-supporting dome or conical frame roofs, while the frame elements or edges of the self-supporting roof are fastened to the U-shaped embedded parts in the upper part of the walls that form the hexagonal shape of the group's tanks, while a flush plug is placed in the upper part of the triangular element with the upper surface of the lintels.

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