SU874496A1 - Plant for storing oil and oil products - Google Patents

Description

(54) INSTALLATION FOR STORAGE OF OIL AND PETROLEUM PRODUCTS

one

The invention relates to the storage of oil and petroleum products and can be used in the oil production and refining industries.

A known installation for storing oil and petroleum products, comprising a tank with a gas pipeline, a heat exchanger installed above the tank and communicating with it in the gas phase, and a pump, the suction pipe of which is connected to the bottom of the tank, and the discharge pipeline to the heat exchanger 1.

To seal these installations, a method is used to reduce the temperature of the gas space by supplying the gas mixture to the heat exchanger - and cooling there with oil products taken by the pump from the bottom of the tank.

However, such plants have low efficiency, since they lack cold sources, which leads to a gradual equalization of the temperature of gas sieve and petroleum products in the tank, and a small temperature difference between the gas mixture and the cooled oil product leads to insufficient cooling of the gas;

the mixture through the walls of the heat exchanger tubes.

Also known are storage tanks for liquefied gases containing gas and inlet pipelines, a device for liquefying gas generated from evaporation, and a compressor 2 and 3.

However, such tanks are designed for the storage of petroleum products, for the condensation of vapors of which it is sufficient to effect the direct contact of the vapors with cold petroleum products.

It is also known a device for disposing of vapors contained in tanks for volatile liquids, including a tank with inlet and gas pipelines, a pump, an ejector installed on the pump’s discharge pipe and connected J5 to a gas pipeline, and a condensate trap 4.

However, this device also has drawbacks, which consist in the complexity of the design due to the need to use a pump and the inefficiency of increasing the pressure of the moving fluid with a subsequent decrease in this pressure in the ejector.

The closest in technical essence and the achieved effect is an installation for storing petroleum and petroleum products, containing at least one tank with a vertical pipe, a gas pipeline, pipelines for supplying petroleum products, an ejector, the inlet of which is connected to a gas pipeline. The outlet of the ejector is connected to the lower end of the inner vertical pipe. In addition, the installation contains a circulation pump, a coolant tank and a distributor connected to the upper end of the inner vertical pipe. The lower end of the outer vertical pipe is connected in parallel with the inputs of the ejector and the capacitor for the condenser, and the pump through the bypass line - with the inner vertical pipe 5.

The disadvantage of this installation is the complexity of the design (the presence of a pump, a separate container for the refrigerant, a distributor, a divider and the associated automation equipment) and the significant operating costs associated with the use of the pump and the refrigerant.

The purpose of the invention is to simplify the design, which entails a reduction in capital and operating costs and the use of cold temperature and kinetic energy of the petroleum product injected into the reservoir.

This is achieved by the fact that in a storage facility for oil and oil products containing at least one tank with a vertical pipe, a gas pipeline, a pipeline for supplying oil products, an ejector whose inlet is connected to a gas pipeline, a vertical pipe is installed with a gap relative to the bottom of the tank, moreover, the cross section of the pipe section located above the level of the maximum filling of the tank is less than the section of the pipe section located below the specified level, and the ejector outlet is connected to the vertical ny pipe.

In this case, the vertical pipe can be made with teeth in the lower part and / or brought out.

FIG. 1 shows schematically an installation for storing petroleum and petroleum products, a general view; in fig. 2 — node I in FIG. one; FIG. 3 - node II in FIG. 1;. 4 — an installation for storing petroleum and petroleum products in the presence of several tanks; general view.

I

The installation consists of a tank 1 with a vertical pipe 2 (condensate collector), a gas pipeline 3, a pipeline 4 for supplying petroleum products, an ejector 5, the inlet of which is connected to the gas pipeline 3, and an outlet through a bypass pipeline 6 for feeding petroleum products 4 with a vertical pipe 2, and breathing valve 7, designed for emergency situations (Fig. 1).

The vertical pipe 2 is installed with a gap relative to the bottom of the tank, and the cross-section of the pipe section located above the maximum filling level (3/4 of the tank height) is smaller

the cross section of the pipe located below the specified level is a exhaust pipe. The upper part of the pipe 2 is brought out of the tank, and the lower part is made, for example, with teeth 8 (Fig. 2) in order to release oil product vapors from the liquid shell. To prevent precipitation from entering the pipe, a visor 9 is installed on it (Fig. 1). The ratio of the diameters of the lower and upper sections of the vertical pipe

Depending on the amount of oil vapors, the rate at which oil is introduced into the tank, the amount of exhaust air, the pressure difference between the atmosphere and the internal cavity of the pipe, and should be approximately 2: 1. For example, with a tank volume of 5000 m (tank diameter 20 m), the diameter of the lower part of the pipe must be at least 0.3 m and the upper part at least 0.15 m. The total height of the pipe is comparable with the height of the tank.

The fastening of the vertical pipe to the tank can be, for example, using a flange 10 welded to the top of the pipe, fitting 11 attached to the roof of the reservoir, and bolts with nuts (Fig. 3).

0 The lower part of the pipe is inserted into the welded bottom surface welded to the bottom of the tank and the cup 12, on the side surface of which there are openings for the passage of petroleum products from the tube to the tank (Fig. 2).

The installation works as follows. When filling the tank 1 through the pipeline 4 of the supply of petroleum products, part of the oil passes through the bypass pipeline 6 through the ejector 5, as a result

In this case, a vacuum is created in the gas pipeline 3, and the vapors of petroleum products together with air from the upper part of the tank are sucked to the inlet of the ejector and mixed with the incoming cold oil. Upon contact with cold oil in the ejector, most of the petroleum product vapors condense and the mixture enters the lower part of the vertical pipe 2. Non-condensing vapors of oil products and vapors released from the liquid shell when the oil passes into the tank through the teeth on the lower part of the vertical pipe, lift along the vertical pipe, in contact with oil along the height of the tank, and due to the temperature difference between the upper and lower layers of oil, which reaches 15 ° С, finally condenses, and the air through the chimney given to the atmosphere.

Claims (5)

A plant may contain several tanks, including underground ones, almost a typical case for oilfield parks or oil transshipment bases, usually some tanks being filled, others empty, and thirdly oil products are stored. In this case, all tanks 1 should be connected in gas phase by gas equalization pipe 13 (Fig. 4), bypass pipe 6 with ejector 5 should be installed on the oil supply pipelines 4 of each tank, and condensate tanks 2 and 14 should be installed inside tanks The horizontal sealed chamber 14 (a pipe closed at both ends) is out of itself, and a vertical pipe 2 of the same construction as for the installation of FIG. 1. The outlets from the condensate collector 14 and the ejector 5 of the underground tanks should be connected to the lower part of the vertical tubing 2, respectively, by pipelines 15 and b, and the outlet of the ground reservoir ejector to the inlet of the condensate collector 14. its length is close to the diameter of the tank. By switching valves installed on the tank connecting pipes, it is possible to suck hot oil vapors from any tank to the ejector inlet of the tank to be filled. Suppose, for example, that the leftmost reservoir is filled, the middle reservoir is emptied, and oil is stored in the extreme underground. In this case, the valve is fully closed at the tank being filled, and on the others it is closed. When part of the petroleum products passes through the bypass conduit 6 and the ejector 5 of the filled tank, a pair of petroleum products together with air from the filled tank and the tank in which the petroleum products are stored, through the gas 3 and gas equalizer 13 pipelines enter the ejector, where it partially condenses and enters the condensate trap 14 and further along the pipeline 15 - into the lower part of the condensate trap 2 of the Underground tank. The passage through the condensate traps 2 and 14, the vapors of oil products due to the previously indicated temperature difference along the height of the equipment, are finally condensed and the air through the exhaust pipe of the condensate trap 2 is removed to the atmosphere. In a tank that is empty, the pressure is restored through the gas equalization pipe 13. In this installation, when the ground tank is filled, the process of suctioning hot vapors takes place, because as the tank is filled, the resistance at the inlet pipe is increased (by increasing the liquid column) and the bypass pipeline will receive more oil, and therefore the discharge in the gas pipeline will increase and the suction will increase to the ejector. The invention makes it possible to reduce in comparison with the known capital and operating costs by simplifying the design: eliminating the circulating pump of the refrigerant tank, distributor and automation equipment associated with the use of this equipment. Claims. Installation for storing oil and petroleum products, containing at least one tank with a vertical pipe, a gas pipeline, a pipeline for supplying oil products, an ejector whose inlet is connected to a gas pipeline, characterized in that, in order to simplify the design, a vertical pipe is installed with a gap relative to the bottom of the tank, the cross section of the pipe section located above the level of the maximum tank filling is less than the section of the pipe section below the specified level, and the output of the ejector and connected to a vertical pipe. 2. Installation under item 1, characterized in that the vertical pipe is made with teeth in the lower part and / or brought out. Sources of information taken into account in the examination 1.Basore S.А. Gut evaporation losses from storage tanks - The Oil and Gas Journal, 1960, vol. 58, No. 32, p.p. 99-100. 2. US patent number 2512308, cl. 220-15, published. 1950. 3. US patent number 2386958, cl. 62-45, published. 1945. 4. US patent number 3778969, cl. 55-55, published 1971.I 5. USSR author's certificate number 574362, cl. In 65 D 87/26, published. 1974 (prototype).