SU1738722A1 - Tank for collecting and storing oil and oil products with vapor buoyancy exceeding air pressure - Google Patents

Abstract

Usage: oil producing, oil refining, petrochemical industry, collecting and storing sour crude oil and petroleum products. Summary of the invention: the reservoir comprises a housing, a roof with pressure and vacuum breathing valves, a separator (P) and a means for suction (CD) of the vapor-air mixture. The tank is equipped with a chamber (K) with a membrane (M) installed in it for air separation into nitrogen and oxygen, an additional venting tube (DHT). K has pipes for communication with the atmosphere, connection via the M and oxygen pipe to the steam-air mixture and through the nitrogen line to the vacuum breathing valve. DHT is installed parallel to the main pressure valve on the breather valve and connected to the CO mix. P is located above the level of oil or oil product. 1 il. (Ls

Description

The invention relates to the technical means for collecting and storing high-sulfur petroleum and petroleum products and can be used in the oil-producing, oil-refining, petrochemical, chemical and other industries (vegetable stores, etc.).

The purpose of the invention is to increase explosion safety.

The goal is achieved by the fact that a tank for collecting and storing oil and petroleum products with saturated vapor pressure exceeding the atmospheric pressure, comprising a housing, a roof with pressure and vacuum breathing valves, a separator installed horizontally in the housing with overlapping tank sections and having an exhaust pipe and means for suction of steam-air mixture, pipes for supplying and discharging oil, equipped with an oxygen pipe, a nitrogen pipe, an additional venting pipe, installed parallel to the main pipe and a pressure breathing valve and a vapor-air mixture connected to the suction unit, a chamber with a membrane installed in it to separate air into nitrogen and oxygen provided by the inlet to the atmosphere, and an outlet through the membrane and an oxygen duct using the suction device of the vapor-air mixture, and the chamber is connected through a nitrogen line to the vacuum breather valve and the separator is located so that its level of placement is located above the level of oil or oil product.

The supply of a tank with a nitrogen line, an additional venting pipe, installed parallel to the main pressure valve and connected to the vapor-air mixture suction means, allows suctioning and utilizing vapors of explosive volatile components when exceeding the limitX CJ 00 VJ N) TH

pressure value of the breather valve (200 mm water column).

The supply of the tank with an oxygen pipe, a chamber with a membrane installed in it for separating air into nitrogen and oxygen, communicated with the inlet nozzle with the atmosphere, and the outlet through the membrane and oxygen pipe with a means for suction of an air-steam mixture, the chamber being connected by nitrogen to the respiratory circuit. the vacuum valve, and the separator is located so that its level of placement is located above the level of the oil or oil product, allows you to completely prevent the formation of an explosive vapor-air mixture on separator tank when it's big breath.

The drawing shows the reservoir design.

A tank for collecting and storing petroleum products with a saturated vapor pressure exceeding atmospheric pressure includes a housing 1, a roof 2 with breathing valves of pressure 3 and a vacuum 4, nozzles for feeding 5 and a drain 6 of oil, a separator 7 installed horizontally in the housing with overlapping tank sections and having a main flue pipe 8 and means for suctioning a vapor-air mixture (not shown), an additional flue pipe 9 installed parallel to the main pressure valve on the breather valve and connected to the means d Vapor extraction. Vacuum breather valve 4 is connected to chamber 10 with membrane 14 installed in it and inlet nozzle 12 with atmosphere, and outlet 13 through membrane 14 and oxygen line 15 with means for steam-air mixture suction.

Chamber 10 is connected via a nitrogen pipe 11 to a vacuum breather valve 4. The separator 7 is located so that its level of placement is located above the level of the oil or oil product,

The tank works as follows.

Air through the inlet 12 enters the chamber 10 due to the pressure drop created by a continuously operating means for suctioning the vapor-air mixture. At the outlet of the chamber 10, the oxygen of the air, freely flowing through the membrane 14, is sucked off by the oxygen supply 15. At this time, nitrogen accumulates in the chamber 10 until an emergency situation is created in the tank, i.e. when emptying the tank. In this case, the membrane 14 is not in contact with hydrocarbons.

- vapors of oil evaporation. When the pressure under the membrane reaches almost half of the partial pressure of oxygen (the intrinsic partial pressure of oxygen in the air is less than that of nitrogen), the gas begins to pass through the membrane 14. From the bottom, air enriched with oxygen up to 35-40% is removed, almost pure nitrogen remains on top.

Thus, nitrogen (instead of air) constantly gets into the tank, which helps to prevent explosion and fire hazard during storage of oil and oil products, especially those containing high-sulfur explosive compounds (hydrogen sulfide, etc.). Due to the absence of contact of the gas cleaning membrane with vapor evaporation of the tank gas, the operability of the gas cleaning membrane is not impaired and it is practically durable.

When the tank is emptied in the housing 1, the pressure decreases. When the pressure drops below the limit (vacuum 25 mm water column), the respiratory valve 4 of the vacuum is activated and suction starts instead of inert nitrogen air through the nitrogen pipeline 11 from chamber 10. Thus, air from the atmosphere is prevented from entering the gas space of the reservoir and, consequently, increases its explosion proof.

When the tank body 1 is filled with oil or petroleum products, an increase in pressure occurs in it. When the pressure rises above the limiting (200 mm water column) excess above atmospheric, the respiratory valve 3 is activated and the vapor-nitrogen mixture is sucked through the vapor pipe 9 (not only through the vapor pipe 8) with suction means for burning into the furnace or flame.

Thus, complete prevention of the formation of an explosive vapor-air mixture in the gas space of the reservoir is achieved by preventing air from entering the atmosphere.

At the same time, corrosion of the tank is prevented without additional energy costs and its reconstruction.

Claims (1)

Invention Formula A tank for collecting and storing oil and oil products with a saturated vapor pressure exceeding the atmospheric pressure, comprising a housing, a roof with pressure and vacuum breathing valves, a horizontal separator installed in the housing with a cross-section of the tank overlapping and having a vapor pipe and means for suctioning the vapor-air mixture, nozzles for the supply and removal of oil, characterized in that, in order to increase the explosive risk, it is equipped with a chamber with a membrane installed in it to separate air into nitrogen and acid having a nozzle for communication with the atmosphere, connecting through the membrane and the oxygen line to the means 0 for suction of the vapor-air mixture and through the nitrogen line to the breathing valve of the vacuum pump, respectively, an additional gas exhaust pipe installed parallel to the main pressure valve on the breathing valve and connected to the vapor-air mixture suction device, the separator is located so that its level of placement is above the level of oil or oil product.  I 1 C Gas 8 L - // - Н Ht РГ -Ю $. t dJbH / mPEG / j u ///////////////////, | , 7 air p 1 compressed - (Jz Q2 Bamffocpepi / / j