RU41002U1 - STORAGE FOR OIL AND OIL PRODUCTS - Google Patents

Abstract

The utility model relates to the storage of volatile liquids and can be used in the chemical and oil refining industries. An installation comprising a reservoir, a condensate collector, a gas pipeline, a pipeline for supplying oil products to a reservoir, an ejector, the first inlet of which is connected to a gas pipeline, and an outlet with a condensate collector, equipped with a circulation pump and a heat exchanger mounted on a gas pipeline, the outlet of which is connected to the second inlet of the ejector located above the cylindrical part of the tank, and the inlet is through a shut-off valve with the outlet of the circulation pump, the inlet of the latter is connected to the condensate collector in which the bubbler is located an important comb fixed at the end of the gas pipeline, and oil level sensors and adsorbed vapors coming from the tank are installed.

Description

The installation relates to the storage of volatile liquids and can be used in the chemical and oil refining industries.

A known installation for storing oil and oil products, including a tank with pressure detectors with actuators, pipelines and a device for condensing oil vapor containing a condensate tank, a refrigerator is a pipe vertically installed in the ground, the unearthly part of which is connected to the outlet of the ejector and the gas space of the tank and underground - with a condensate tank. [A.S. USSR No. 1004213, class B 65 D 90/30, 1980].

The disadvantages of the known installation is the location of the battery cooler and the process pipe in the ground, causing corrosion damage to the equipment, difficulty in manufacturing and operation, and works only in the "big breath" mode, when oil is received and continuous condensate circulation leads to a gradual heating of the circulating liquid, which reduces the efficiency of condensation and gas saturation of the circulating liquid. As a result, the operating conditions of the pump in the circulation circuit are worsened.

Also known installation for storing volatile liquids, comprising at least one tank with a vertical pipe installed with a gap relative to the bottom of the tank, and the cross section of the pipe section located above the level

the maximum filling of the tank, less than the cross section of the pipe section located below the specified level, gas pipeline, oil supply pipeline, ejector, the inlet of which is connected to the gas pipeline [A.S. USSR No. 874496, class B 65 D 90/30; In 65 D 88/08, 1981].

The disadvantages of the installation are the design complexity, it works only with “big” breaths, the insignificant contact time of the vapor with the oil does not allow the vapor in the liquid column to be completely sorbed, while the liquid column in the tank is not constant, the presence of metal structures inside the tank makes it difficult to clean and repair the tank.

The objective of the solution is to reduce the loss of oil and oil products from evaporation.

The problem is solved in that the installation for storing oil and oil products containing a tank, a condensate collector, a gas pipeline, a pipeline for supplying oil products to a tank, an ejector, the first inlet of which is connected to a gas pipeline, and the outlet with a condensate collector, according to the invention, is equipped with a circulation pump and a heat exchanger installed on the gas pipeline, the outlet of which is connected to the second inlet of the ejector located above the cylindrical part of the tank, and the inlet is through a shut-off valve with an outlet pump, the inlet of the latter is connected to a condensate collector, in which there is a bubbler comb mounted on the end of the gas pipeline, and oil level sensors and adsorbed vapors coming from the tank are installed.

The drawing shows a diagram of an installation for storing oil and oil products.

The installation for storing oil and oil products contains a tank 1 with a gas pipeline 2, a pipeline 3 for supplying oil products from a tank 1 to a condensate tank 4, an ejector 5 mounted on a gas pipeline 2, the first inlet of which is connected by a gas equalizer

pipeline 6 through a shut-off valve 7 with a pressure switch 8 installed on the tank 1, and the output with a capacity 4 for condensate. In the condensate tank 4 there is a bubbler comb 9 connected to the end of the gas pipe 2, the condensate tank 4 is connected through a shut-off valve 10 to the inlet of the circulation pump 11 for pumping the collected condensate from the tank 4, and the pump outlet 11 is connected through a shut-off valve 12 to a heat exchanger 13, installed on the gas pipeline 2, connected to the second input of the ejector 5, on the condensate tank 4 there is a bypass valve 14 provided for emergency situations, in the condensate tank 4 there are sensors ki 15 level (h ₁ - the level of oil pumped from the reservoir 1) and 16 (h ₂ -level adsorbed vapors from the tank 1), a conduit 17 for supplying oil to the tank 1 through the shutoff valve 18 takes the condensed liquid from the container 4 exceeds the allowable condensate level h ₂ using a circulation pump 11 back to the tank 1, on the tank 1 is installed a breathing valve 19, provided for emergency situations and the inlet pipe 20 for pumping petroleum products.

Installation works as follows.

The oil from the tank 1 through the valve 3 is fed into the tank 4 until the sensor 15 (h ₁ ), after which the shut-off valve 3 closes. When the vapor pressure in the tank 1 increases to a vapor pressure of 0.1-0.15 kg / cm ^2, the pressure switch 8 activates, the shut-off valves 7, 10, 12 open, the circulation pump 11 and the oil product from the tank 4 turn on after cooling in the heat exchanger 13, it is fed into the ejector 5. As a result of the ejection process, oil and air vapors are sucked in by the ejector 5 and enter through the gas pipeline 2. When the gas-liquid flow moves downward, the hydrocarbon vapors are absorbed with the liquid fraction of hydrocarbon fuel through a bubbler comb 9 and comes into the container 4. The air vapors collected insolubles in fuel

in the gas space of the tank 4 and periodically vented to the atmosphere through the bypass valve 14. To increase the contact time of the vapor with liquid fuel, the ejector 5 is mounted above the cylindrical part of the tank 1 (the difference between the ejector 5 and the bubbler of the tank 4) is 10-12 meters. It is sufficient for the implementation of the process of absorption of oil vapor. As the reservoir 4 accumulates due to the volume of absorbed vapors, the level sensor 16 (h ₂ ) is activated, the circulation pump 11 is turned off, the shut-off valve 12 is closed and the shut-off valve 18 is opened, and with the help of the pump 11, the reservoir 4 is emptied through the oil supply pipe 17 into the tank 1, after which the tank 4 is filled with a fresh portion of fuel from the tank 1 to the level (h ₁ ).

The proposed technical solution allows to reduce the loss of oil products from evaporation and increase the efficiency of the installation due to condensation of oil vapor and a more complete separation of the gas-liquid mixture and air removal into the atmosphere, eliminates equipment inside the tank space, reduces capital and operating costs due to the simplification of the design, provides a high degree utilization of oil vapor with "small and large" breaths.

Claims (1)

An installation for storing oil and oil products containing a reservoir, a condensate collector, a gas pipeline, a pipeline for supplying oil products to the tank, an ejector, the first inlet of which is connected to a gas pipeline, and the outlet is with a condensate collector, characterized in that the installation is equipped with a circulation pump and a heat exchanger mounted on gas pipeline, the outlet of which is connected to the second inlet of the ejector located above the cylindrical part of the tank, and the inlet is through a shut-off valve with the outlet of the circulation pump, inlet the last one is connected to a condensate collector, in which there is a bubbling comb fixed at the end of the gas pipeline, and oil level sensors and adsorbed vapors coming from the tank are installed.