SU1174346A1 - Reservoir for easily vaporable fluids - Google Patents

Abstract

1. RESERVOIR FOR EASY-FLUID LIQUIDS, including a roof mounted device for reducing fluid loss, containing a vertically installed housing, a device for irrigating it with nozzles and a nozzle, characterized in that, in order to improve reliability, the housing has a petal-shaped form in horizontal section, forming channels, and the nozzle attached to the base of the case and is a bag of gas-permeable material. 2. The tank according to claim 1, characterized in that the device (L to reduce the loss of liquids is provided with a casing mounted concentrically to the casing, and the nozzles of the irrigation device of the latter are mounted in the space between the outer surface of the petals and the casing. 4ib 00 4i O )

Description

The invention relates to devices for reducing the losses of easily-evaporated liquids and can be used, for example, in the oil production and chemical industry. The purpose of the invention is to increase the reliability of the reservoir by reducing the losses of stored liquids. At the same time, the operational reliability of the device is also achieved to reduce losses due to frost prevention; in the cold season, when substances with low freezing point are present in liquid vapors. Fig. 1 illustrates the krysha of a tank with a device placed thereon to reduce fluid loss; figure 2 - section aa in figure 1; on fig.Z - section bb in figure 1; figure 4 - section-b y figure 2; Fig. 3 shows a loss reduction device with a removable casing. The tank for easily evaporating liquids contains a roof 1 on which a device for reducing losses of stored liquids has a housing 2, the vertical channels of which in the horizontal section have the form of petals 3. The length of the petals is 0.4-0.5 of the diameter of the case. The housing 2 can be equipped with a removable housing 4 installed concentrically to it to obtain an airtight cavity between the inner surface of the housing and the outer surface of the petals 3. The shell made of tin can be used as an interchangeable housing 4, or the case of rubber-fabric material fixed on the housing 2 using clamps 5. To connect and circulate a coolant (for example, water) the hull is equipped with nozzles 6 and nozzles 7 connected to manifolds 8 and 9. At the bottom of the hull 2 an attached nozzle is attached 10 with a load of tension II, and the upper part of the body is equipped with a valve 12, which encloses the plate 13, is fixed on the guide rod 14 and the closing hole of the seat 15. The device is mounted on the nozzle 16, which is welded to the tank 1 above the pipe and on the roof of the light hatch), the device can be equipped with racks 17 to increase stability under wind load. The device is based on the fact that the differential pressure of valve 12 is 10-15% less than the specified differential pressure on the breathing valve p reservoir of. This leads to the fact that when the pressure in the tank increases as a result of liquid evaporation, the plate 13 rises by the guide rod 14 and opens the hole in the saddle 15. At the same time, the gas mixture passes through the nozzle 10 and channels of the housing 2. The device without a casing is based on the use of a natural temperature difference between the walls of the housing 2 and the surrounding atmosphere. When the ambient air temperature rises, through the collector 8, water is supplied to the nozzle 6, forming spray plumes, which are directed to the walls of the device body 2 to reduce losses. Sprayed water stacks on the outer surface of the housing 2 is collected in fittings 7 and discharged through the manifold 9. When the device is equipped with a casing 4 (high ambient air temperature for this type of stored liquid), the housing 2 is completely isolated from contact with the external environment and the amount of refrigerant supplied through the collector 8 should be sufficient to completely fill the volume of the cavities formed between the outer surface of the housing 2 and the inner cavity of the housing 4. In this case, heat removal from the housing 2 takes place It is only due to the difference of its wall temperature and the coolant temperature. When gas coming out of the reservoir comes into contact with the walls of the housing 2, condensate forms, flowing through the vertical channels 3 into the nozzle 10, the material of which swells as a result of capillary forces and creates an effective absorption surface, with the passage of which the partial absorption of the components of the gas mixture occurs. The absorption efficiency of the nozzle is determined by its total surface (number of layers), the characteristics of the selected material (the material is desirable to choose a fleecy type of bike, waste wool; and the established temperature difference on the nozzle due to partial evaporation of condensate from its surface (condensate has a much higher the concentration of the absorbed components of the evaporated liquid, than their concentration in the gas just 1 of the reservoir, which leads to evaporation of the condensate). The nozzle is condensed in the channels of the housing 2 and flows, irrigating the nozzle into the reservoir.

1174346

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Fig.: 5

Claims (2)

1. A RESERVOIR FOR EASY EVAPORATING LIQUIDS, including a roof mounted device for reducing fluid loss, comprising a vertically mounted housing, an irrigation device with nozzles and a nozzle, characterized in that, in order to increase reliability, the housing has a petal shape in horizontal section, forming channels, and the nozzle is attached to the base of the housing and is a bag of gas-permeable material. ABOUT 2. The tank on π. 1, with the fact that the device for reducing the loss of liquids is provided with a casing mounted concentrically to the housing, and the nozzles of the irrigation device of the latter are mounted in the space between the outer surface of the petals and the casing. SU ... 1174346