SU1564061A1 - Gas diversion system of reservoir for storage of easily evaporating liquid - Google Patents

Abstract

The invention relates to the equipment of storage tanks for easily evaporating liquids, such as petroleum products. The goal is to increase the convenience of operation while simplifying the design. The invention significantly reduces the number of nozzles and valves, as well as extends the life of the sorbent granules. The cavity of the capacitor communicated with the atmosphere through a pipe with a check valve, which is passed through the adsorber. A spout is installed in the adsorber, which connects it to a condenser and is equipped with its own check valve. 1 il.

Description

The invention relates to the equipment of storage tanks for evaporation of liquid liquids, for example petroleum products.

The purpose of the invention is to increase ease of operation while simplifying the design.

Equipping the vapor system with a nozzle for communicating the condenser with the adsorber and non-return valves allows the condensate to be continuously discharged into the tank, reducing the number of by-pass pipes and valves, and extending the service life.

The drawing shows schematically the proposed vapor system of a reservoir for the storage of a highly evaporating liquid.

The vapor system consists of a reservoir 2 installed on the neck 1 and a condenser 2 communicated with it, covered outside with thermal insulating material 3. On the condenser 2 through the flanges 4 an adsorber 5 is installed, the outer part of which is ribbed with metal plates 6. In the upper part of the adsorber 5 there is an opening 7, closed protective removable cap 8 from precipitation and large items. In the working cavity of the adsorber 5 there are granules of the sorbent substance (sorbent) 9 for absorption of water vapor and corrosive gases (for example, silica gel), and above the granules of the sorbent substance 9 the filter 10 is strengthened, which is made in the form of finely meshed mesh and is simultaneously a filter that captures dust particles of contaminants, and a fire safety device that protects the stored fluid from open fire.

Between the condenser 2 and the adsorber 5 there is a heat exchanger 11, made in the form of a flat battery of thermoelements. The upper (hot junctions) of semiconductor thermoelements are facing the adsorber 5 and connected to the DC source 12, and the lower (cold) junctions are facing the condenser 2. Under heat O.O. 4o with:

The exchanger 11 in the condenser 2 is fixed to a conical gas collector 13. The nozzle 14 removes air from the condenser 2 and is fixed on the filter 10 and the heat exchanger 11 and is positioned so that its outlet (upper section) is above the filter 10, the lower (inlet) is in the condenser 2, and the middle one is in the cavity of the adsorber 5, where the granules of the sorbent substance 9 are located. A pipe 15 for communicating the condenser 2 with the adsorber 5 is also installed in the adsorber 5 and communicates with the middle part of the pipe 14 for removing air from the condenser 2.

The outlet portion of the nozzle 14 and the inlet portion of the nozzle 15 are equipped with check valves 16 and 17, and the valve

16 works only on exhaust and valve

17- only at the inlet. The pipe 15 is closed by a protective grid 18 from sorbent 9 falling into it, and the upper part of the pipe 14 is protected by the same grid 19 from dust particles entering it.

Gas tank system works as follows.

When the tank is filled with an easily evaporated liquid or when its temperature rises, the pressure in the tank begins to increase, as a result of which the gas-air mixture through the neck 1 intensively flows into the condenser 2 and is directed by a conical gas collector 13 to the cold junctions of the heat exchanger 11, where it is cooled by the Pelt effect, when This vapor of volatile liquid is condensed and in the form of droplets under the action of its own mass or falls through the neck 1, or flows along the inner walls of the capacitor 2 into the tank.

The vapor-free air through the nozzle 14 and the valve 16 is vented to the atmosphere through the plates 6 of the radiator is convected to the atmosphere.

The installation of the vapor system on the neck 1 of the tank makes it an autonomous device that can be used on separately located tanks, in particular on mobile means of refueling self-propelled equipment with oil products.

Simplified design of nozzles 14

S and 15 with valves 16 and 17 significantly increase the ease of operation, maintenance and repair of the device. Such placement of the pipes 14 and 15 excludes "parasitic sorption of water vapor,

15 contained in the air exhaled from the reservoir, which leads to an increase in the efficiency of the granules of the sorbent 9 and eliminates the possibility of "poisoning them with hydrocarbon deposits. Through the nozzle 15, atmospheric air, which is completely cleaned of dust, moisture and corrosive gases, enters the air-space of the rezperauar by installing a filter 10 and protective nets 18 and 19.

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Claims (1)

Invention Formula The vapor system of the storage tank for a highly evaporating liquid, including a condenser communicated with the tank, an adsorber mounted on 30 a condenser, a heat exchanger located between the condenser and the adsorber and made in the form of a flat battery of thermoelements connected to a direct current source, the cold junctions of each of which face the condenser, a conical gas collector mounted on the condenser, one above the other in the adsorber filter and granules sorbent substance, the pipe outlet of air from the condenser, characterized in that the scope. In the process of operation, the heat is intended to increase ease of operation. heat exchanger 11 Joule, released at its hot (upper) spaces due to heat conduction and convection, transferred to the contents of adsorber 5, i.e. sorbent granules 9, which in the process of draining the liquid from the tank or lowering its temperature during daily heat exchange sorb air moisture when it is sucked through the filter 7 opening 10 of the nozzle 15 and the valve 17 when the valve is closed 16. As a result of heating the sorbent granules 9 while simplifying the design, it is provided with a nozzle for communicating the condenser with the adsorber and non-return valves, the nozzle for exhausting air from the condenser is fixed on the filter and battery 45, its middle part is located in the adsorber, and the outlet section is above the filter. the message of the condenser with the adsorber is installed in the middle part of the air outlet pipe from the condenser, one of the reverse the latter is desorbing moisture and 50 valves are installed in the outlet section active gases (works reversibly), while the vapor-gas mixture is emitted into the atmosphere through the opening 7. Excess heat pipe for exhausting air from the condenser, and the other in the inlet section of the pipe to communicate the condenser with the adsorber. lot through the plate 6 of the radiator is convected into the atmosphere. The installation of the vapor system on the neck 1 of the tank makes it an autonomous device that can be used on separately located tanks, in particular on mobile means of refueling self-propelled equipment with oil products. Simplified design of nozzles 14 and 15 with valves 16 and 17 significantly increases the ease of operation, maintenance and repair of the device. Such placement of the pipes 14 and 15 excludes "parasitic sorption of water vapor, contained in the air exhaled from the reservoir, which leads to an increase in the efficiency of the granules of sorbent 9 and eliminates the possibility of "poisoning them with hydrocarbon deposits. Through the nozzle 15, the atmospheric air, which is completely cleaned of dust, moisture and corrosive gases, enters the air-space of the rezperauar by installing a filter 10 and protective nets 18 and 19. 25 Invention Formula The vapor system of the storage tank for a highly evaporating liquid, including a condenser communicated with the tank, an adsorber mounted on 0 a condenser, a heat exchanger located between the condenser and the adsorber and made in the form of a flat battery of thermoelements connected to a direct current source, the cold junctions of each of which are facing the condenser, a conical gas collector mounted on the condenser, one above the other in the adsorber filter and granules substances, the pipe outlet of air from the condenser, characterized in that, with while simplifying the design, it is provided with a pipe for communicating the condenser with the adsorber and non-return valves, the air outlet pipe from the condenser is fixed on the filter and battery, that its middle part is located in the adsorber, and the outlet section is above the filter; the message of the condenser with the adsorber is installed in the middle part of the air outlet pipe from the condenser, one of the reverse an air inlet pipe from the condenser, and another in the inlet area of the pipe to communicate the condenser with the adsorber.