RU16728U1 - LIQUID STORAGE TANK - Google Patents

Abstract

A reservoir for storing liquids, comprising a rigid body in which is sealed relative to the neck and with a gap relative to its walls, which is connected with the atmosphere, a flexible, impermeable shell with a variable volume, converting the tank into a double-walled one, having pipelines for filling and dispensing liquids, characterized in that the tank is equipped with at least two additional necks, while the filling pipeline is installed in one of the necks, and the liquid delivery pipelines are installed separately apart from each other in additional necks, the gap between the walls is connected to the atmosphere through a pipe of the respiratory system with a filter and is equipped with a fluid control sensor installed in this part and a gas control sensor installed in the neck of the tank interstitial space.

Description

LIQUID STORAGE TANK

The invention relates to the field of storage, transportation and delivery of volatile toxic, toxic, flammable and alcohol-containing liquids (hereinafter referred to as liquids) under atmospheric pressure in stationary (ground and underground), mobile vessels, barrels, containers, tanks, tanks, tanks and containers ( further tanks) closed type.

Tank designs are known according to GOST-17032-71, PCT RSFSR 654-81, GOST 8.380-80 (ST SEV 1053-78, ST SEV 1972-79), GOST 8.346-79 (ST SEV 1972-79), GOST 17032-71 .

The disadvantages of the known reservoir designs include their explosiveness and fire hazard, fluid loss and environmental hazard due to the release of vapor-air mixtures formed above the surface of the liquids into the atmosphere, leaks and leaks of liquids into the soil and groundwater, the need for special measures and special equipment for tank cleaning and repair, as well as large fluid losses when filling the tank.

A known construction of using a flexible, impermeable membrane in shape and size corresponding to the internal geometric shape of a reservoir for storing liquid petroleum products with walls of small thickness, designed for positive or negative pressure (vacuum) of small size and providing minimal resistance to mechanical deformation, but resisting chemical corrosion caused by liquid oil product enclosed in a reservoir (PCT, B65D 90/38, WO 93/18989 ISM 34

The principle of operation of this design is as follows (Fig. 1.) Oo, 95 g.)

When the level of the liquid product 1 entering through the inlet nozzle 2 into the reservoir 4 and discharged through the exhaust nozzle 3 changes, the breathing balloon 5 located above the liquid product 1 and attached to the ventilation nozzle 6 changes in volume in proportion to the change in the volume of liquid product 1. In connection with the fact that the liquid product 1 is enclosed in a confined space between the breathing balloon 5 and the walls of the tank 4, the release of vapors into the atmosphere 7 and the ingress of moisture and foreign objects from the atmospheric air into the liquid product 1 are excluded.

However, the known design has drawbacks, since the possibility of groundwater entering the tank with liquid is not excluded, and if the integrity of the tank is disturbed, there is the possibility of liquid entering the soil and groundwater, and when cleaning and repairing the tanks, it becomes necessary to use special equipment and special measures .

2000117679

SHMISHP

1 1 7 4 7

MKI: V65D 90/38

The technical result:. of the claimed invention is: elimination of pollution of the atmosphere, soil, water basin, explosion and fire safety, ease of operation and repair, increase in the service life of single-walled tanks by converting them into double-walled.

This goal is achieved due to the fact that the flexible, flexible, tight, liquid-neutral shell is a movable wall and converts the tank into a double-walled tank with a variable volume, it is installed with the possibility of filling it with liquid, the inter-wall space is connected to the atmosphere through a pipe of the respiratory system with a filter, and the tank itself is equipped with a removable cover, in which the pipelines for filling and dispensing liquids are hermetically mounted, a fluid control sensor installed in the bottom nd part and gas monitoring sensor installed in the neck portion interwall space. In this case, the neck of the shell is rigidly and hermetically attached to the neck of the tank by means of a removable mounting device, for example, made in the form of an expandable collar or the shell is attached to the neck of the tank by pressing the neck of the shell with a removable cover of the tank.

PA figure 2 presents a diagram of the proposed device.

Flexible, flexible, airtight shell I, neutral to the effects of liquids installed inside the tank 2, repeats its internal geometric shape and size. Between the shell 1 and the walls of the tank 2 there is an interstitial space 3. The neck 4 of the shell 1 is hermetically fixed to the neck 5 of the tank 2. The interstitial space 3 of the tank 2 is connected to the atmosphere through a pipe 6 of the respiratory system equipped with an air filter 7. A removable cover 8 hermetically closes the neck 5 of the tank 2 and the filling line 9 and the liquid delivery line 10 are hermetically mounted in it. A liquid sensor 11 is mounted in the interwall space 3 in the bottom part, and a gas sensor 12 in the throat part 4.

The installation of the shell 1 in the tank 2 is carried out as follows;

Through the cover 8 of the neck 5 of the tank 2, lower the shell 1 and straighten it inside the tank 2, bring the neck part 4 of the shell 1 to the neck 5 of the tank 2 Through the neck part 4, the fan injects atmospheric air into the shell 1, while straightening and laying it along the bottom of the tank 2 .. The neck portion 4 of the shell 1 is attached to the neck 5 of the tank 2 by a tightly and hermetically expandable clamp 13 through the ring seal 14 (FIG. 3) or the neck part 4 of the shell 1 is inserted under the cover 8 of the tank 2 through the ring seal 15 and hermetically rizhimaetsya kr5 on lid 8 by bolting (Figure 4).

The shell 1 with the liquid 16 is completely sealed, so the exit of the vapor-air mixture 17 into the atmosphere is excluded. Above the liquid 16 and in the inter-wall space 3, the pressure is equal to atmospheric pressure, since the inter-wall space communicates with atmospheric air. When filling with a liquid 16 of the shell 1, air escapes from the interwall space 3 through the pipeline of the respiratory system 6 with a filter. With the flow of fluid 16 in the shell 1 above its surface, a vacuum forms, which is compensated by the entry of atmospheric air into the interwall space 3 through the filter 7 of the pipeline of the respiratory system 6. As a result, folding occurs when the fluid 16 decreases and swells when the fluid 16 enters the shell 1, i.e. . "The breathing of the shell 1 in the tank 2. Thus, the shell 1 serves as a movable wall, and in General, the tank 2 with the shell 1 is a double-walled tank with a changing internal volume with a change in the liquid level 16.

To control the tightness of the reservoir 2 and the shell 1, a fluid control sensor 11 is mounted in the interstitial space 3 in the bottom part, and a gas sensor 12 is installed in the neck of the interstitial space to control the tightness of the upper part of the shell 1.

The present invention can be used regardless of the method of supplying and dispensing liquid. For example, in the case of separate filling and dispensing of liquid from the working volume of the shell (Fig. 6), separate liquid filling and dispensing inlets are provided, made in the form of additional, independent necks with covers. Hermetically sealed pipelines for filling and dispensing liquids are installed in these covers.

The present invention makes it possible to convert single-walled, in operation, reservoirs without dismantling them into double-walled ones, eliminates the loss of liquid in the form of steam and air pollution, controls the possibility of liquid from the tank entering the soil and groundwater. Due to the lack of liquid contact with the tank body, repair work in and around it is facilitated.

The material for the shell is made of fluoroplastic in the form of a film or on the basis of varnish. Fluoroplastic is a durable, flexible and fluid-neutral material. The shell is made by welding strips between each other according to the size of the pattern previously removed from the inner surface of the tank.

Claims (1)

A reservoir for storing liquids, comprising a rigid body in which is sealed relative to the neck and with a gap relative to its walls, which is connected with the atmosphere, a flexible, impermeable shell with a variable volume, converting the tank into a double-walled one, having pipelines for filling and dispensing liquids, characterized in that the tank is equipped with at least two additional necks, while the filling pipeline is installed in one of the necks, and the liquid delivery pipelines are installed separately apart from each other in additional necks, the gap between the walls is connected to the atmosphere through a pipe of the respiratory system with a filter and is equipped with a fluid control sensor installed in this part and a gas control sensor installed in the neck of the tank interstitial space.