RU1789784C - High-pressure reservoir - Google Patents

Abstract

The invention relates to the construction, in particular, to the design of buried pressure vessels for storing petroleum products. The goal is to increase seismic resistance and to protect against external pressure. The pressure tank includes a dome-shaped housing in the form of a spherical segment, a conical bottom connected to it, mounted on a conical base, a filling and emptying system, and a service farm. The bottom with the base is buried in the ground with the top part brought to the surface of the ground in the form of an annular bandage rigidly connected to the body. 1 ill.

Description

The invention relates to the field of construction, in particular to the design of buried pressure vessels for storing petroleum products.

A pressure vessel is known including a cylindrical body with a spherical roof, a conical bottom resting on a rack base, a filling and emptying system.

A disadvantage of the known reservoir is its low seismic resistance and susceptibility to external pressure.

The purpose of the invention is to increase earthquake resistance and protection against external pressure.

This goal is achieved by the fact that the body is domed in the form of a spherical segment, and the bottom with the base is buried in the ground, while the base is conical with the upper part being brought to the surface of the soil in the form of a descending annular band tightly connected to the body.

The drawing shows a pressure tank.

The pressure tank consists of a metal casing 1, made dome-shaped in the form of a spherical segment connected to the casing 1, a conical bottom 2, buried in the ground and mounted on a conical base 3, the upper part of which extends to the ground surface to a height of 1.0-1, 5 m to the level of the collapse of the tank and is made in the form of a surrounding ring reinforced concrete band 4, rigidly connected with the housing 1.

The inner side faces of the bandage 4 are made with an inclination angle equal to the angle of inclination of the generatrix of the dome, and are fastened directly to the body by welding the reinforcement of the bandage 4 to the wall of the body, which provides high bond strength between the body 1 and the bottom 2. As a result, the force of separation of the body 1 from the bottom 2 at elevated pressure is perceived by the bandage 4, which pinches the lower

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part of the housing 1 along its perimeter. The housing 1 is made with ribs 5 stiffness. A product-resistant gasket 6 is placed between the bottom 2 and base 3. A waterproofing layer 7 is placed under the base 3 on the sand cushion 7. The liquid is poured into the tank through the drainage collector 8. To collect the fluid leakage, gasket 6, drain pipe 9 and collection well 10 are used leaks. On the bandage 4 there is a service truss 11, which, with its upper end, rests on the opening hatch 12, which is triggered if the permissible internal pressure in the tank is exceeded. The service farm 11 moves along the annular rail 13. Radial vanes 14 are mounted on the inlet pipe of the overflow manifold 8. Fire extinguishing system pipes 15 are introduced into the lower part of the housing 1 through the bandage 4.

The tank operates as follows.

Filling the reservoir with the stored liquid is carried out through the discharge manifold 8. When the pressure inside the reservoir rises above the permissible values, the manhole cover 12 opens under the influence of a gas-vapor mixture, which ensures the safety of the structure in the event of an internal explosion. Internal and external pressure within acceptable limits

norms are regulated by breathing valves 16 of the hatch 12.

If a fluid leak occurs, the last product-tight seal 6 enters through the drain pipe 9 into the leak collection well 10.

During installation and maintenance of the tank (welds, repairs, painting, coating), a service farm 11 is used.

In the event of a fire in the tank, the antifoam is supplied to the housing 1 through nozzles 15 from the fire extinguishing system.

The tank is designed for internal pressure up to 0.3 kg / cm and external up to 0.2 kg / cm2 with a capacity of up to 5000 m3.

An advantage of the reservoir is the absence of losses of stored fluids from

daily breathing, ease of use, increased seismic resistance and resistance to external pressure (shock wave).

Claims (1)

The claims A pressure tank including a body, a conical bottom connected to it, mounted on the base, a filling and emptying system, characterized in that, in order to increase seismic resistance and protect against external pressure, the body is made dome-shaped in the form of a spherical segment, and the bottom with a base it is buried in the ground, while the base is cone-shaped with the top part brought to the surface of the soil in the form of a descending annular band tightly connected to the body. V