SU1757969A1 - Method of storing oil products with vapor utilization - Google Patents

Abstract

Use: The invention relates to the storage of petroleum products and can be used in the petrochemical and petroleum refining industries, as well as in other areas associated with the storage of highly evaporated products. SUMMARY OF THE INVENTION: The method consists in removing the vapor-air mixture (PVA) from the gas space (GP) of the tank by a liquid-ring compressor, passing it through bubbling through the layer of the same oil cooled to a temperature below the bottom layers of the stored oil in the tank and above the temperature corresponding to zero partial vapor pressure, and the return of air after bubbling back to the reservoir SE. A new method is to cool the working fluid of a liquid ring compressor to a temperature below the temperature of stored oil in the tank and above the tempo of the tour, corresponding to zero partial vapor pressure of the oil product, by feeding the liquid ring of the compressor with oil from the bartered layer, 1 h. p, f-ly, 1 silt, (L S

Description

The invention relates to the storage of petroleum products and can be used in the petrochemical and refining industries, as well as in other areas associated with the storage of highly evaporating products.

There is a known method of storing petroleum products with the utilization of the vapors of the latter in a reservoir with a floating coating, including the selection of the vapor-air mixture (PVA) and passing it in bubbling mode through a layer of petroleum product cooled by a low-temperature refrigerant and thermostatted by embedding into the ground to a temperature below the bottom layer. stored petroleum product and above the temperature of the corresponding zero

partial pressure Ttarz oil, followed by cooling of the gas space (GP) of the reservoir.

The disadvantage of this method is the inefficient use of the energy of the cooled oil product and the low intensity of condensation in the compressor, namely, firstly, because of the relatively high temperature in the compressor, a relatively small number of vapors condenses, and, secondly, when the vapor condenses on the surface of the cold liquid in the boundary 8m1: the concentration of the inert non-condensable component of the mixture (air) increases, which leads to an increase in resistance to heat transfer and a decrease in sys tep.

heat exchange, and therefore deterioration of the condensation of the inner layers of the vapor-air mixture,

The purpose of the invention is to increase the efficiency of utilization of oil product vapors by improving the conditions of heat removal.

In the method of storing petroleum products with the utilization of the vapors of the latter in a tank with a floating coating, including the selection of the steam-air mixture and passing it in bubbling mode through a layer of petroleum product cooled by a low-temperature refrigerant and thermostatted by plunging into the ground to a temperature below the temperature of the bottom layers of the stored petroleum and higher temperature corresponding to the zero partial vapor pressure of the oil product, followed by cooling the gas space of the tank according to the invention the working fluid is a liquid ring compressor is cooled to a temperature below the temperature of the bottom layers of the stored oil product and above the temperature corresponding to zero partial pressure of oil product vapor. ,

Cooling the working fluid of a liquid-ring compressor to a temperature below the temperature of the bottom layers of the stored oil product and above the temperature corresponding to zero partial vapor pressure of the oil product allows to significantly reduce the temperature of the liquid ring of the compressor and directly dispose of the bulk vapor. The passage through the compressor of the internal combustion engine drags a part of the working fluid from the compressor and transfers it to the condenser tank. Thus, the cooling of the liquid ring ensures the contacting of the PVA and the cooled fluid not only in the compressor and the condenser tank, but also in the pipeline connecting the compressor outlet with capacitor capacitor input. An increase in the time and the way of contacting the PVA and the cooled liquid in the two-phase flow contributes to the intensive renewal of the contact surface of the phases, which ensures the supply of all new portions of vapor from the internal cavities of the bubbles to the surface of the liquid phase. All of the above associated achieves the goal of improving vapor recovery efficiency.

Cooling the working fluid of a liquid-ring compressor by feeding chilled oil from a bubbling bed reduces the temperature of the liquid-ring and thereby dispose of the vapor partially in the compressor. In addition, feeding the liquid ring with cooled oil provides contacting and condensation of vapors not only in the compressor and capacitor capacitance, but also in the pipeline connecting the compressor output to the capacitor-capacitor inlet. Increasing the contact time and intensifying the condensation process all the way due to mixing Updating the contact surface of the phases improves the efficiency of utilization of the vapor of the oil product.

A device is known in which the liquid ring of water 5 of the ring compressor is refilled with oil from the bottom of the tank. However, according to the invention, the cooling of the working liquid of the compressor’s liquid ring to a temperature below the bottom temperature

0 layers of stored oil product and a higher temperature corresponding to zero partial pressure of oil product vapor, by feeding the liquid ring with oil product from a bubbling layer,

5 the temperature of which is always lower than the temperature of the bottom layers of the stored oil product allows to achieve lower temperatures in the compressor and, therefore, to extract more from the vapor-air mixture

0 vapor. Thus, the use of petroleum products from the bottom of the tank to feed the compressor does not improve the efficiency of vapor utilization. To implement the proposed method for storing petroleum products with vapor recovery, an installation is proposed comprising a tank with a floating protective coating, a breathing valve, a liquid ring compressor,

0 capacitor-condenser with coil for the passage of refrigerant thermostating in the ground, heat-insulated pipeline and condensate collector, in which according to the invention the lower part of the capacitor-condenser

5 is connected by pipeline with a pipe for supplying liquid to the liquid ring of the compressor.

The connection of the lower part of the condenser tank with a pipeline with a liquid ring of the compressor provides a liquid-cooled oil product with zero steam content, as the bubbles rush upward and there is no vapor phase in the lower part of the condenser tank. So

In this way, the temperature of the working fluid in the compressor drops to almost the temperature of the oil being sparged. Direct contact of hot PVA and cooled oil in the compressor, as well as in the pipeline connecting the outlet

the compressor with the input of the capacitor-condenser allows you to extract the bulk of the vapors in the compressor and in the pipeline and all the way through the condensation by intensive mixing and renewing the contact surface of the phases to bring new and new portions of the vapor from the internal cavities of the bubbles.

Thus, an increase in the efficiency of utilization of oil product vapors is achieved.

A known installation, in which the liquid ring of the water ring compressor is connected by pipeline to the bottom of the tank. Due to the fact that, in a known installation, the temperature of the feed liquid is always higher. The temperature of the oil being sparged in the proposed installation, the use of the known installation does not allow for an increase in the efficiency of condensation.

In addition, the connection of the bottom of the capacitor-condenser with the liquid ring of the compressor allows to simplify the design of the installation, i.e., exclude from the compressor a separator separating the working fluid carried from the compressor from the pumped mixture. In the proposed installation, the capacitor-condenser, along with the main functional purpose of vapor condensation, plays the role of a separator, that is, separates the vapor-air mixture from the condensate and entrained oil from the liquid ring of the compressor.

The drawing shows a schematic diagram of the installation for the implementation of the proposed method

The installation for storing petroleum products with vapor utilization includes a tank 1 with a floating protective coating 2, which reduces the rate of heat and mass transfer between the liquid and gas phases, the breathing valve 3 the capacitor-condenser 4 with a coil 5 for the refrigerant passage, the inlet of which is connected by pipeline 6 to the outlet of the liquid- ring compressor 7, and the lower part through a pipeline 8 and an adjustable valve 9 is connected to the pipe 10 for supplying the working fluid to the liquid ring 11 of the compressor, as well as the condensate collector 12 and the heat insulator connected pipeline 13.

The method of storing petroleum products with vapor utilization in a floating coating tank is carried out as follows.

 The PVA from the HP of tank 1 is sampled by a liquid ring compressor 7, where it contacts oil in the liquid ring 11, the temperature of which is maintained below the temperature of the bottom layers of stored oil in tank 1 and above the temperature corresponding to zero partial vapor pressure of the oil. When hot PVA comes in direct contact with cold oil of liquid ring 11 of compressor 7, the mixture is cooled, and the vapors are condensed to a concentration corresponding to liquid ring 111 temperature. The output from the compressor, PVA with a residual concentration of vapor, entrains a portion of the working fluid of the compressor 7 and as a two-phase mixture is fed capacitor-condenser 4, where in bubbling mode it occurs through a layer of oil product, the temperature of which is maintained below the temperature of the bottom layers of oil product in tank 1 and above the temperature corresponding to the zero-phase partial vapor pressure of the oil by cooling with a low-temperature refrigerant supplied through the coil 5. Intensive mixing of the two-phase mixture while moving through the pipeline from the compressor 7 to the capacity-condenser 4 and when sparging in the capacity-condenser 4 intensifies the condensation formation, by mixing and updating the phase contact surface. In the capacitor-condenser 4, the vapors are completely condensed, and the condensate i: the petroleum product entrained from compressor 7 is mixed with sparging liquid, which is fed to the liquid ring 11 of compressor 7. Excess oil from the condenser-4 is transferred to tank 1. The cooled air after bubbling returns to the tank GP, where, mixing with hot PVA, it lowers the temperature of the HP, as a result of which the vapors partially condense and the pressure in the HP drops. After termination of the expiration of the reservoir, the removal of PVA from the HP of reservoir 1 is terminated.

In order to reduce the power of the refrigeration unit, which is necessary for the complete utilization of PVA vapor during high breathing, the proposed method is carried out as follows.

Immediately before filling the reservoir 1, the PVA located in the HP of the reservoir is selected by the compressor 7, in which the PVA contacting the cooled oil product of the liquid ring 11 is cooled and the vapors partially condense. PVA with a residual concentration of vapors entrains part of the working fluid from compressor 7, as a two-phase mixture through the pipeline enters the capacitor 4. Intensive mixing and renewal of the contact surface of the phases during the movement of PVA from compressor 7 into the capacitor-condenser 4 intensifies condensate formation. In the capacitor-condenser 4, the vapors are completely condensed, the condensate and the oil carried away from the liquid ring 11 are mixed with the sparged oil product and fed to the compressor 7 feed, and the surplus to the condensate collector 12, the cooled air is returned to the HP of tank 1.

The cold air mixed with PVA lowers the temperature of the HP, as a result of which the vapors partially condenses and the pressure in the HP drops. When the pressure in tank 1 decreases to the lower limit of operation of the safety valve 3, atmospheric air begins to flow into tank 1, dilute the PVA and thereby lowering the volume concentration of vapor.

Thus, due to condensation of vapors all the way from the compressor to the capacitor-capacitor inclusively and directly in the reservoir HP when interacting with cooled air, as well as due to the dilution of the mixture with atmospheric air, the vapor concentration in the HP decreases.

The movable protective coating, reducing the evaporation rate of the oil product, significantly reduces the growth rate of vapor concentration in the HP, facilitating a more rapid achievement in the tank of a concentration corresponding to the upper concentration limit of the explosive vapor of the oil product in the air. When the tank’s concentration is not lower than the upper explosive limit, well defined for a particular oil product, the selection of PVA by the compressor is stopped.

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Claims (2)

1. A method of storing petroleum products with the utilization of the vapors of the latter in a tank with a floating coating, including the selection of the vapor-air mixture, and its cooling, characterized in that, in order to increase efficiency by improving the conditions of the heat sink, the vapor-air mixture is cooled in a liquid ring-liquid compressor to a temperature below the bottom layers of the stored oil product and higher than the temperature corresponding to zero partial vapor pressure of the oil product up to the moment of equilibrium concentration, after which the gas-liquid mixture is fed in the bubbling mode through the layer of oil products cooled to the bottom layers temperature and above the temperature corresponding to zero partial vapor pressure oil product. 2. A method according to claim 1, characterized in that the cooling liquid of the liquid compressor is cooled by feeding it with cooled oil from the bubbling bed. 7 "You J8 eleven