SU1745624A1 - Tank for storing liquid or gas - Google Patents

Abstract

Usage: storage of liquid or gas. SUMMARY OF THE INVENTION: A container for a liquid or gas contains a cylindrical body horizontally mounted on the cradles in the earth pan with a bump. Under the impact of a shock wave of explosive and seismic shock loads, its energy is absorbed by each lodgement formed by curved plates placed one under the other, interconnected by at least two C-common energy absorption elements arranged by the convex side in the direction of the vertical plane of symmetry of the body at the radius ratio curvature of each element of energy absorption to the radius of the cylindrical body of 0.2-0.3, on the outer surface of each element of energy absorption throughout it the length of the dihedron formed with a ratio of minimum to maximum thickness of the element in the range of 0.15-0.2. 1 hp f-ly, 3 ill. yo

Description

The invention relates to devices for storing liquids or gases in chemical, petroleum, metallurgical, automotive, woodworking, textile and other industries of national economy and can be used to improve the reliability of operation of ground tanks with corrosive and flammable liquids or compressed gas. when exposed to explosive and earthquake loads as a result of accidents, earthquakes and other extreme situations.

A device for fastening containers and reservoirs is known, which make it possible to reduce damage to production assets in emergency situations.

Structures and devices are also known to reduce the effects of seismic shock loads in extreme situations.

The closest to the technical essence of the invention is a land tank containing a horizontally mounted cylindrical body mounted on the cradles in the earth pan with an embankment.

The known capacitance has a rigid structure for fastening the cylindrical body to the supports and provides the perception of the design loads from the weight of the body and the liquid or gas stored in it. Earthwalk with a dumping designed to hold from spill fluid flowing from the body in case of damage.

However, in extreme situations in case of accidents or earthquakes, the known capacity has insufficient performance.

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reliable reliability. As a result of explosive or seismic impact loads, the cylindrical body may be torn off from the supports, its destruction and leakage into the earth pallet contained in the container of poisonous or combustible fluid. This, in turn, may entail the occurrence of fires, contamination of the territory of the object with poisonous substances and other consequences.

The main reason for these drawbacks of the known container for liquid or gas is the rigid attachment of the cylindrical body to the cradles with an arbitrary (destructive) force on the body when exposed to explosive and seismic shock loads.

The purpose of the invention is to increase the operational reliability of ground capacity under the impact of a shock wave of explosive and earthquake loads as a result of accidents, catastrophes, earthquakes and other extreme situations.

This goal is achieved by absorbing energy due to the fact that each lodgement is formed by curved plates placed one above the other, which are interconnected by at least two C-shaped energy absorption elements (EPE), the EPE is arranged by the convex side in the direction of the vertical plane of symmetry of the cylindrical body Each EPE is designed so that the ratio of its radius of curvature to the radius of the cylindrical body is 0.2-0.3. On the outer surface along the entire length of each EPE, flats are made in such a way that the ratio of the minimum element thickness to the maximum is 0.15-0.2.

Figure 1 shows the capacity, front view; in fig. 2 - the same, side view; Fig 3 - EPE, cross section.

The cylindrical body 1 with a collar 2 is fastened with a lodgement, which is mounted on supports 5 in the pallet 6. The lodgement is formed by curved plates 3 placed one below the other. The plates 3 are connected with C-shaped elements 4 energy absorption. The EPE 4 is arranged with the convex side in the direction of the vertical plane of symmetry of the housing 1. The ratio of the radius of curvature of each element 4 to the radius of the cylindrical housing 1 is 0.2-0.3.

On the outer surface along the entire length of each element 4, flats 7 are made so that the ratio of the minimum thickness of the element 4 to the maximum is 0.15-0.2.

The proposed tank for a liquid or gas in extreme situations caused by the impact of a shock wave of explosive and seismic loads, works as follows.

When a shock wave is applied, it almost immediately flows around the cylindrical body 1. High-speed forces begin to act on body 1.

head forces that cause movement of the housing 1 and result in kinetic energy. The kinetic energy of the body 1 is transmitted through the collar 2 to the curved plates 3 and bonded to them.

EPE 4, which begin to plastically deform. As a result, the body 1 pliable moves in the direction of the forces of the velocity head and the kinetic energy of the body 1 is expended on

plastic deformation of curved plates 3 and EPE 4.

The selected ratio of the radii of curvature of EPE 4 to the radius of the cylindrical body 1 in the range of 0.2-0.3 eliminates it

stalling of the supports 5 and providing the housing 1 stopping at the times when the force of the velocity head acting on the capacitance decreases to safe values. Run on the outside surface by

the entire length of each EPE 4 flats, so that the ratio of the minimum thickness of the element 4 to the maximum is in the range of 0.15-0.2, provides the optimal characteristics of the kinetic energy absorption by the elements 4.

In this process, the kineic energy of the housing 1 under the action of the shock wave is spent on the plastic deformation of the reservoir lodgments formed

placed one below the other by curved plates 3 and fastened together with a C-shaped EPE 4, which increases the reliability of operation of the vessel when exposed to a shock wave of explosive and seismic shock loads.

The proposed container for a liquid or gas is simple and cheap in the manufacture and operation, the economic effect of increasing its reliability

operation is determined by the magnitude of the prevented damage depending on the cost of the substance stored in it and the cost of eliminating the consequences of the destruction of containers in emergency situations

Claims (1)

1. A container for liquid or gas, comprising a horizontally mounted cylindrical body on lodgings in the earth pan with bunding, characterized in that, in order to increase operational reliability when exposed to shock waves of explosive and seismic loads, each lodgment is formed placed one under other curved plates interconnected by at least two C-circumscribed energy absorption elements placed with the convex side in the direction of the vertical plane of symmetr This means that the ratio of the radius of curvature of each energy absorption element to the radius of the cylindrical body is 0.2-0.3 2 A container according to claim 1, characterized in that flats are made on the outer convex surface of each energy absorption element along its entire length so that the ratio of the minimum thickness of the element to the maximum is 0.15-0.2. Tse. srig /  , $ ig.2 Mr. 3