SU1602803A1 - Installation for storing oil and petroleum products - Google Patents

Abstract

The invention relates to the storage of volatile oil products and can be used in the oil producing, petroleum refining and chemical industries, as well as in other branches associated with the storage of volatile products. The purpose of the invention is to reduce energy costs to prevent the loss of petroleum products, simplify the design and increase operational reliability. New is the fact that the chambers of the condensation device and the evaporation-condensation device are placed coaxially one above the other and are interconnected by means of bypass pipelines with valves of multidirectional operation arranged in pairs, which allows to simplify the design of the installation, and by using drainage energy and loading the product to trap and dispose of its vapors results in a reduction in energy costs to prevent the loss of petroleum products. 1 il.

Description

The invention relates to the storage of volatile oil products and can be used in the oil producing, petroleum refining and chemical industries, as well as in other branches associated with the storage of volatile products.

The purpose of the invention is to reduce energy costs to prevent the loss of petroleum products, simplify the design and increase operational reliability,

The drawing shows schematically the installation, the overall appearance.

The installation contains an oil product tank 1, a gas distribution pipeline 2 connecting the upper part of the tank 1 to a device 3 for utilizing oil product vapors containing a vessel 4 for condensate condensate stored on which vertical chambers 5 and b are located, one above the other, vertical chambers 5 and b, respectively, condensation devices and evaporative condensation. The upper chamber 6 is connected to the condensate tank 4 by means of the nozzle 7 coaxially} to the front chamber 5. The nozzle is provided in the lower section with a swirler 8 with lorats. Above the upper cross section of the nozzle 7 in the upper chamber 6 is placed the droplet separator 9.

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The upper 6 and lower 5 chambers are interconnected by means of bypass pipelines 10 and 11, in which valves 12, 13 and 14 are arranged in pairs, with 15 multidirectional actions. The bypass pipeline 10 is connected to the gas distribution pipeline 2, and the bypass pipeline 11 to the atmosphere through a 16 ° 10 pipeline.

The installation works as follows.

When the oil product is poured into the reservoir 1, the filling volume of the steam-15 air mixture is displaced through the gas distribution pipeline 2, creating an overpressure in the bypass pipeline 10, under the influence of which it opens normally. 20 close the valve 12 and the mixture enters the lower 4 devices for the utilization of oil product vapors. The vapor-air mixture entering the chamber 5 simultaneously enters a container 4 communicating with it 25, filled with working fluid (for example, diesel fuel) above the mark of the lower section of the pipe 7. The vapor of the working fluid is expelled into pipe 7, the air-vapor Q passes between the blades curling - the receiver 8 and, having acquired a rotational motion, intensively bubbling through the displaced fluid with the formation of a foam layer. As a result, intensive absorption of oil product vapors from the vapor-air mixture and saturation of the working fluid with them is carried out. Therefore, its volume and the volume of the container 4 are taken in view of the displaced mixture Q, on the basis of the condition for the effective implementation of the process of absorption. vapors in the mixture within the whole period of filling the product into the tank 1. The air cleared from the vapors of the duct 45 enters the upper chamber. 6, where it is released from the droplet-moisture in the droplet separator 9. At the same time, it creates an overpressure, under the influence of which the normally closed valve opens, while the valve 13 remains closed, since it is closed from the bypass side. pipeline 10 is affected by a higher overpressure. Through the valve 15, the cleaned air enters the bypass pipeline 11, and then through the pipeline 16 to the atmosphere.

When the oil product is drained from the reservoir 1 in it, as well as in the bypass pipe 10 connected to it, a vacuum is created with the pressure value below atmospheric. Under its influence, the valve 13 opens, causing a decrease in pressure in the upper chamber 6 and a drawdown of the working fluid in the pipe 7, which causes a decrease in its level in the tank 4. As a result, the pressure in the lower chamber 5 decreases, under the influence of which the kiapan 14 opens and into the chamber through pipeline 16 and bypass pipeline 11 enters atmospheric air. The passage between the vanes of the swirler 8, it acquires a rotational motion and, intensively barboring through the working fluid, produces an intense blowout of oil vapor product with the formation of saturated vapor mixture. Through the gas distribution pipe 2, the formed mixture enters the tank 1, where the partial pressure of the vapor in the free space of the tank and above the product surface is created and, preventing its evaporation, prevents losses. By utilizing the energy of draining and loading the product to trap and recycle its vapor, a significant reduction in energy costs to prevent losses is achieved.

The constructive implementation of the device elements and their mutual placement allows not only to simplify the installation design, but also to increase the operational reliability.

Claims (1)

Invention Formula A device for storing oil and petroleum products, comprising a reservoir and a device for utilizing the vapors of petroleum products connected to it by the gas distribution Pipeline, containing a container for condensate and a device for condensation connected to it and an evaporation-condensation device made in the form of chambers, characterized in that , in order to simplify the design, reduce energy costs to prevent the loss of petroleum products and increase operational reliability, the chamber of the condensation device and evaporative -condensation are arranged coaxially one above the other, with the top being connected to the condensate tank via a pipe with a swirler, while the chambers are connected to each other via bypass pipes, in which valves of multidirectional operation are arranged in pairs, one of the bypass pipelines connected to the gas distribution pipe, and the other with the atmosphere. . 1B -5