KR20160060841A - A Treatment System Of Oil - Google Patents

Abstract

The present invention relates to an oil treatment system comprising: an oil storage tank to store oil; a heater to supply a heat source to the oil and prevent wax from being generated; a gas discharge line wherein the gas existing in the oil storage tank flows and leads to a gas demanding place; a cooler placed on the gas discharge line to cool the gas; a gas-liquid separating unit placed on the gas discharge line and on the rear end of the cooler; and a returning line to connect the gas-liquid separating unit and oil storage tank. The gas liquefied by the gas-liquid separating unit is supplied to the oil storage tank through the returning line. The remaining gas other than the liquefied gas in the gas-liquid separating unit is supplied to the gas demanding place through the gas discharge line. According to the present invention, the oil treatment system returns the oil within the oil gas discharged to the outside of the oil storage tank to the oil storage tank and discharges the remaining substances to the outside through a re-liquefying unit placed outside the oil storage tank, and is able to efficiently control the internal pressure of the oil storage tank and to prevent the stored quantity of oil from being lost. In addition, since the present invention is able to set the surface temperature of the heater regardless of the quantity of oil gas generated in the oil storage tank, thereby compacting the heater.

Description

[0001] A Treatment System Of Oil [0002]

The present invention relates to an oil treatment system.

Cargo ships intended for the transportation of cargo are designed to simplify the residential facilities and to enlarge the docks to focus on the cargo handling facilities so that large quantities of cargo can be safely and quickly transported at one time.

In addition, the cargo ship can be classified into two types, a dry cargo ship which transports crude oil and petrochemicals, an oil tanker that transports iron ore and grain, and a cargo ship which can transport two cargoes at the same time, depending on the type of cargo .

An oil tanker is a ship that has oil tanks and carries mainly petroleum products. It is also called an oil tanker or an oil tanker. Here, the oil tank facility refers to a container for storing petroleum, and such a container is called a cargo tank. And petroleum is collectively referred to as liquid hydrocarbons produced naturally underground or refined.

Oil tankers are mainly used to transport refined petroleum, ie crude oil, from production sites to oil refineries or to refineries for refinery oil refinement.

The crude oil stored in the cargo tank is stored in the liquid state during transportation of the crude oil to the tanker to the destination or during storage in the cargo tank until the crude oil is supplied to the consumer. At this time, when the oil is cooled to a certain temperature (about 25 to 35 degrees) by external factors (seawater, etc.), the oil stored in the cargo tank solidifies and forms wax.

The wax formed in this manner forms a wax layer inside the piping or the cargo tank, thereby deteriorating the operation performance of the oil treatment system. Thus, there is a problem in that periodic wax removal work is required. Therefore, the inside of the cargo tank is continuously heated through a heating device to prevent the formation of wax in the cargo tank in order to raise the temperature of the oil to be higher than the temperature at which the wax is formed.

However, the heating apparatus sets the heating temperature at about 5 degrees higher than the wax forming temperature to increase the heat exchange amount per unit area. At this time, the surface of the heating device is locally higher than the vaporization temperature of the oil (depending on the composition of the material, but about 45 to 110 degrees), so that oil vapor is generated on the surface of the heating device.

The generated oil gas creates a risk of fire and explosion when staying inside the cargo tank and increases the internal pressure of the tank, so it is discharged through a separate blanketing system.

The oil gas is compressed through a compressor and sent to an incinerator to remove hydrocarbon components. The oil gas thus removed leads to a loss of the oil storage amount of the cargo tank. In recent years, a lot of research and development have been conducted to solve such a problem.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a method and apparatus for returning oil gas to an oil storage tank, To provide an oil treatment system.

It is also an object of the present invention to provide an oil treatment system which is provided with a liquefaction device to return liquefied oil to an oil storage tank so as to prevent a loss of stored oil and to reduce the size of the heater.

An oil treatment system according to one aspect of the present invention includes an oil storage tank for storing oil; A heater for supplying a heat source to the oil to prevent generation of wax; A gas discharge line through which gas present in the oil storage tank flows and is connected to a gas consumer; A cooler provided on the gas discharge line for cooling the gas; A gas-liquid separator provided on the gas discharge line and located at a downstream end of the cooler; And a return line connecting the gas-liquid separator and the oil storage tank, wherein the gas liquefied in the gas-liquid separator is supplied to the oil storage tank through the return line, and in the gas-liquid separator, And the gas is supplied to the gas consumer via the gas discharge line.

Specifically, the gas may be a vaporized oil.

Specifically, an oil consumer that consumes the oil; A pump for supplying the oil to the oil consumer; And a blanket gas storage tank connected to the gas discharge line and storing a blanket gas for controlling an internal pressure of the oil storage tank, The blanket gas and the remaining gas other than the liquefied gas, when the internal pressure is equal to or higher than a predetermined pressure value, are supplied to the oil storage tank, The liquefied gas discharged to the outside of the oil storage tank may return to the oil storage tank through the return line.

Specifically, the apparatus further comprises a compressor provided on the gas discharge line and compressing the gas, wherein the gas discharge line includes: a first gas discharge line connecting the compressor and the gas demanding unit; And a second gas discharge line branched from the downstream end of the compressor on the first gas discharge line and connected to the gas demanding entity and including the cooler and the gas-liquid separator.

Specifically, the blanket gas is an inert gas, and the gas consumer may be a GCU or a duct.

Specifically, the gas consumer is supplied with the gas in the oil storage tank so that the internal pressure of the oil storage tank is lower than the internal limit pressure of the oil storage tank when the gas consumer reaches an internal predetermined pressure of the oil storage tank And the cooler can be operated when the internal pressure of the oil storage tank is higher than the atmospheric pressure and lower than the internal pressure of the oil storage tank when the gas is started to be supplied to the gas consumer .

Specifically, when the internal pressure of the oil storage tank becomes equal to or higher than an internal preset pressure of the oil storage tank, the first gas discharge line can bypass the cooler and supply the gas to the gas consumer.

The oil treatment system according to the present invention can prevent the loss of stored oil by allowing the oil gas discharged to the outside of the oil storage tank to be re-liquefied in the oil storage tank, The surface temperature of the heater can be set high. This also has the advantage that the size of the heater can be reduced.

In the oil treatment system according to the present invention, the oil is discharged from the oil storage tank to the oil storage tank through the liquefaction device provided outside the oil storage tank, and the other components are discharged to the outside, The internal pressure of the oil storage tank can be efficiently controlled, and the loss of oil storage amount can be prevented. Further, it is possible to set the surface temperature of the heater irrespective of the amount of oil gas generated in the oil storage tank, thereby reducing the size of the heater.

1 is a perspective view of a ship having an oil treatment system.
2 is a conceptual diagram of a conventional oil treatment system.
3 is a conceptual diagram of an oil treatment system according to a first embodiment of the present invention.
4 is a conceptual diagram of an oil treatment system according to a second embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements have the same numerical numbers as much as possible even if they are displayed on different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of a ship having an oil treatment system, and Fig. 2 is a conceptual view of a conventional oil treatment system. Hereinafter, a conventional oil treatment system 1 will first be described with reference to Figs. 1 and 2. Fig. Here, the ship may be an oil tanker.

As shown in FIGS. 1 and 2, the oil treatment system 1 may be configured together with the oil storage tank 100 provided inside the ship 300. In this case, when a plurality of oil storage tanks 100 are provided, a header 50 is provided on the plurality of oil storage tanks 100 to uniformly supply the blanket gas and the gases contained in the oil storage tank 100 You can control.

The oil storage tank 100 is provided with a pump 20 for supplying oil to the oil demanding place 200 through the oil supply line 103. The oil storage tank 100 stores the oil until the pump 20 is operated. . At this time, the oil stored in the oil storage tank 100 can be cooled down to 20 degrees or less by external factors (seawater and external air temperature, etc.), and the cooled oil is lowered below the liquefaction point, .

The wax forms a layer in the pipe or oil storage tank 100 to limit the flow of the oil, thereby deteriorating the operating performance of the oil treatment system 1. [ In order to prevent such wax formation, in the conventional oil treatment system 1, the oil storage tank 100 (see FIG. 1) is connected to the oil storage tank 100 through the heating medium supply line 101 and the heating medium discharge line 102, And a heater 10 for supplying the heat source 11 to the oil storage tank 100 to prevent the wax from being formed in the oil storage tank 100.

The heater 10 continuously supplies the heat of the heat source 11 to the oil to raise the temperature of the oil inside the oil storage tank 100 to a temperature higher than the wax forming temperature. The surface temperature of the heater 10 is set to be 5 degrees higher than the wax forming temperature of the oil to increase the amount of heat exchange per unit area, thereby preventing the oil in the oil storage tank 100 from being deformed into the wax. At this time, the heat source 11 can be used as steam, hot water, various other heat sources (hot gas, hot oil, electricity, etc.).

As described above, the conventional oil treatment system 1 can prevent the oil from being deformed into wax through the heater 10. However, since the surface temperature of the heater 10 is locally higher than the vaporization temperature of the oil, Oil vapor, which is vaporized oil on the surface, is generated.

Oil gas causes a risk of fire and explosion when staying in the oil storage tank 100 and also increases the internal pressure of the oil storage tank 100, which is a big problem. Accordingly, in the conventional oil treatment system 1, a separate blanket gas storage tank 40 is provided to handle the blanket gas, and when the internal pressure of the oil storage tank 100 is reduced, The header 50 supplies the blanket gas stored in the blanket gas storage tank 40 through the first blanket gas supply line 104 to the oil storage tank 100 When the internal pressure of the oil storage tank 100 increases, the blanket gas and the gases existing in the oil storage tank 100 are discharged through the header 50 to the outside through the gas recovery line 105 .

The header 50 supplies the collected gases to the compressor 30 through the first gas discharge line 107. The compressor 30 compresses the gases to a predetermined pressure and supplies the gases to the gas consumer 201. [ The gas consumer 201 may be a gas combustion unit (GCU) or may be external to the vessel 300. Therefore, the gas discharged from the conventional oil treatment system 1 is all burnt or discharged outside the vessel 300.

Accordingly, the conventional oil treatment system 1 prevents the internal pressure of the oil storage tank 100 from rising and prevents the risk of fire and explosion due to the oil gas, but there is a problem in that loss of oil as a transportation object is caused .

Further, in the conventional oil treatment system 1, the surface temperature of the heater 10 is set to be lowered in order to prevent the loss of oil. However, since the amount of heat exchange per unit area is reduced to increase the heat transfer area of the heater 10 The size of the heater 10 was increased. However, this solution has a problem of reducing the oil storage space of the oil storage tank 100 again.

Accordingly, in order to solve such a problem, an oil treatment system (2, 3) according to an embodiment of the present invention has been developed. Hereinafter, referring to FIG. 3 and FIG. 4, an oil treatment system 2,3) will be described in detail.

3 is a conceptual diagram of an oil treatment system according to a first embodiment of the present invention.

3, the oil treatment system 2 of the present invention includes a heater 10, a pump 20, a compressor 30, a blanket gas storage tank 40, a header 50, (60), an oil storage tank (100), an oil demanding place (200), and a gas demanding place (201).

The oil treatment system 2 according to the first embodiment of the present invention uses the same reference numerals as those of the conventional oil treatment system 1 described in Figs. 1 and 2 for convenience and convenience in addition to the gas supply unit 60 However, it is not necessarily the same configuration.

The heater (10) supplies a heat source (11) to the oil to prevent the production of wax. The heater 10 may supply the heating medium supplied from the heat source 11 to the oil storage tank 100 to prevent the oil from being deformed into wax.

The heater 10 may be provided inside the oil storage tank 100 and may be formed in a coil shape to widen the heat exchange area. Specifically, the heater 10 can heat the oil to a temperature higher than the temperature at which the oil is deformed into wax to prevent the oil from being deformed into wax. The temperature at which the wax is deformed is about 25 to 35 degrees, and the heater 10 can continuously supply a predetermined amount of the heating medium supplied from the heat source 11 so that the temperature of the oil does not fall below 25 to 35 degrees.

The heater 10 can set the surface temperature of the heater 10 to about 5 degrees to about 15 degrees higher than the temperature at which the oil is deformed by the wax in order to increase the amount of heat exchange with the oil. That is, the temperature of the surface of the heater 10 on which heat exchange with the oil can be set to about 25 to 40 degrees.

Here, the heat source 11 can be used as steam, hot water, and various other heat sources (hot gas, hot oil, electricity, etc.) supplied from a boiler (not shown).

At least one heater 10 may be provided, and the predetermined position may be set according to the heat flow pattern of the oil storage tank 100. For example, when the heater 10 is provided on the left side of the oil storage tank 100, one heater 10 may be further provided on the right side of the oil storage tank 100 for smooth heat transfer, And may also be provided on the upper side and the lower side of the storage tank 100.

Also, since the cold source penetrating into the interior of the oil storage tank 10 is invaded from the outside, the heater 10 is provided inside the housing of the oil storage tank 10 so that the cold source can prevent the infiltration early.

As described above, in the first embodiment of the present invention, the surface temperature of the heater 10 is set to be higher than the wax deformation temperature of the oil, and the oil is evaporated locally on the surface of the heater 10. In addition, when the composition of the oil stored in the oil storage tank 100 is changed, the evaporation temperature of the oil also changes, so that the amount of the oil gas generated on the surface of the heater 10 increases as the evaporation temperature decreases due to the composition change .

For example, the temperature of oil evaporation is 60-70 degrees. When the oil is above the evaporation temperature, the oil evaporates and becomes oil gas. However, the evaporation temperature of the oil is not always 60 to 70 degrees, but it can be changed by 40 to 50 degrees depending on the composition of the oil.

Accordingly, when the evaporation temperature of the oil is in the range of 60 to 70 degrees, the amount of oil gas generated locally at the surface of the heater 10 is small. However, when the evaporation temperature of the oil is 40 to 50 degrees due to the change in the oil composition, A large amount of oil gas is generated from the surface of the honeycomb structure.

This oil gas may increase the internal pressure of the oil storage tank 100 and may cause a risk of weakening or breaking of the oil storage tank 100. Further, there is a problem that the oil gas has a risk of causing an explosion or a fire when staying in the oil storage tank 100.

Therefore, in the first embodiment of the present invention, a first return line 108 or a gas supply unit 60, which will be described later, may be provided to remove the above-described oil gas. The description of the first return line or the gas supply section 60 will be described later.

In the first embodiment of the present invention, the heating medium supply line 101 and the heating medium discharge line 102 may be further included. A heating medium supply valve (not shown) and a heating medium discharge valve (not shown) are provided in the heating medium supply line 101 and the heating medium discharge line 102 and connected to the oil storage tank 100 The supply amount of the heating medium supplied to the heat source 11 can be adjusted.

The pump 20 can supply oil to the oil demanding place 200 to be described later. The pump 20 may be provided inside the oil storage tank 100 in a locking manner. The pump 20 is operated only when required by the oil demanding place 200, and the oil demanding place 200 will be described later.

The pump 20 can be supplied to the oil consumer place 200 through an oil supply line 103 to be described later and is provided in the form of a tower inside the oil storage tank 100 and stored in the lower side of the oil storage tank 100 Oil can be supplied to the oil demanding place 200.

In the first embodiment of the present invention, an oil supply line 103 may be further included. An oil supply valve (not shown) is provided in the oil supply line 103 so that the supply amount of the oil supplied to the oil demander 200 can be adjusted in accordance with the opening degree of the oil supply valve.

The compressor 30 may be provided on a first gas discharge line 107 to be described later and compresses an oil gas or a blanket gas discharged from the oil storage tank 100. Specifically, the compressor 30 may be provided on the first gas discharge line 107 before the first return line 108, which will be described later, branches off from the first gas discharge line 107. [

The compressor 30 can supply a predetermined gas (oil gas or blanket gas) provided in the oil storage tank 100 to a gas demanding unit 201 provided outside the oil storage tank 100. At this time, the predetermined gas provided in the oil storage tank 100 may be pressurized by the compressor 30 without returning to the oil supply tank 201, and returned to the oil supply tank 100.

The compressor 30 can press the predetermined gas to the first return line 108 and the second return line 108 to pressurize the predetermined gas to pass through the first gas discharge line 107, Which is supplied to the inlet of the compressor 30 and the pressure at which the end of the first return line 108 is located (or the internal pressure of the oil storage tank 100) for supplying the oil to the oil storage tank 100 via the first return line 108, As shown in FIG.

For example, the compressor 30 may compress the predetermined gas by 1 to 3 bar (preferably 2 to 3 bar). The compressor 30 may also take the form of a blower.

The blanket gas storage tank 40 may store a blanket gas for regulating the pressure inside the oil storage tank 100. The blanket gas storage tank 40 may be a blanket gas storage tank, And may be connected to the gas supply line 106 to supply the blanket gas to the oil storage tank 100.

The blanket gas storage tank 40 is configured to store the blanket gas in the oil storage tank 100 when the oil is supplied to the oil demanding place 200 by the pump 20 or when the internal pressure of the oil storage tank 100 is reduced. ).

The blanket gas storage tank 40 may be configured such that when oil gas is generated in the oil storage tank 100 by the heater 10, that is, when the internal pressure of the oil storage tank 100 increases, The blanket gas may be discharged outside the oil storage tank 100 in order to maintain the internal pressure of the oil storage tank 100 at 1 bar to 1.5 bar (preferably 1.05 bar).

At this time, the blanket gas may be an inert gas, for example, nitrogen gas. The gas present in the oil storage tank 100 may be a vaporized oil, such as an oil gas or a blanket gas. Here, the blanket gas is discharged out of the oil storage tank 100, and the oil gas can return to the oil (that is, liquefied oil) in the oil storage tank 100 through the first return line 108.

The blanket gas storage tank 40 may supply the blanket gas to the header 50 to be described later via the second blanket gas supply line 106 and the blanket gas may be supplied to the header 50 via a plurality of oils And may be supplied to the storage tank 100.

In the first embodiment of the present invention, the first blanket gas supply line 104, the gas recovery line 105, and the second blanket gas supply line 106 may be further included. The first blanket gas supply line 104, the gas recovery line 105 and the second blanket gas supply line 106 are provided with a first blanket gas supply valve (not shown), a gas recovery valve And a second blanket gas supply valve (not shown) are provided, and the supply amount can be adjusted according to the opening degree control of the valve.

The blanket gas is supplied from the blanket storage tank 40 to the header 50 via the second blanket gas supply line 106 and is supplied to the header 50 via the header 50, And is supplied to the storage tank 100 through the first blanket gas supply line 104.

The blanket gas contained in the plurality of oil storage tanks 100 or the oil gas which is vaporized oil is supplied to the header 50 through the gas recovery line 105 and is supplied to the header 50 Or the vaporized oil gas is supplied to the compressor 30 through the first gas discharge line 107, compressed to about 1 to 3 bar, and supplied to the gas consumer 201.

The header 50 may be installed outside the plurality of oil storage tanks 100 and may be connected to each of the plurality of oil storage tanks 100.

Specifically, the header 50 can be connected to the plurality of oil storage tanks 100 through the first blanket gas supply line 104 and the gas recovery line 105, respectively, and the blanket gas storage tank 40, The first gas discharge line 107 and the second gas discharge line 107. The first gas discharge line 107 and the second gas discharge line 107 may be connected to each other through a second blanket gas supply line 106,

The header 50 can supply the blanket gas from the blanket gas storage tank 40 to the respective oil storage tanks 100 and supply the blanket gas from the oil storage tanks 100 to the oil storage tank 100. [ The oil gas or the blanket gas stored in the internal combustion engine 100 may be supplied to the gas consumer 201.

That is, the header 50 can regulate the supply of the oil gas or the blanket gas to the plurality of oil storage tanks 100 or the discharge of the oil gas or the blanket gas through the integrated line or the storage space.

The gas supply unit 60 is provided on the first return line 108 and supplies the oil gas to the oil. Specifically, the gas supply unit 60 may include at least one nozzle, may be positioned below the oil storage tank 100, and may be formed to face the upper portion of the oil storage tank 100.

The gas supplying unit 60 is composed of a nozzle and injects an oil gas to widen the contact area between the gaseous oil gas and the liquid oil so that the area where the gaseous oil gas and the liquid oil heat- You can spread it.

The gas supply unit 60 may include a plurality of nozzles spaced apart from each other by a predetermined distance so as to widen the contact area between the liquid oil and the gaseous phase oil gas so that the bubble of the gaseous phase oil gas is small. Can be formed small.

The gas supply unit 60 is provided in the form of a twist or a twist in the lower part of the oil storage tank 100 so that sufficient heat exchange is performed before discharging the gaseous oil gas into the liquid oil stored in the oil storage tank 100 . In this case, the gas supplier 60 can re-circulate the oil gas inside the gas supplier 60 to discharge the liquid oil rather than the gaseous oil gas into the oil stored in the oil storage tank 100.

The gas supply unit 60 may be installed at the distal end of the first return line 108 and may supply the oil gas stored in the oil storage tank 100 into the oil in the oil storage tank 100.

The gas supply unit 60 discharges the oil gas into the oil so that the oil gas comes into contact with the oil, so that the oil gas directly exchanges heat with the oil and the oil gas is re-liquefied.

That is, the oil gas returned to the oil storage tank 100 has a temperature of about 40 to 50 degrees in the vapor phase, and the oil stored in the oil storage tank 100 is in a liquid phase and has a temperature of about 20 to 25 degrees. Gas and liquid oil directly exchange heat.

Since the heat capacity of the liquid oil is relatively larger than the heat capacity of the imaginary oil gas, the liquid oil maintains the state of being in a liquid state due to little temperature change through heat exchange, and the gaseous oil gas is liquefied through heat exchange .

In the first embodiment of the present invention, the first gas discharge line 107 and the first return line 108 may be further included. A first gas discharge valve (not shown) and a first return valve (not shown) are provided in the first gas discharge line 107 and the first return line 108, Can be adjusted.

The first gas discharge line 107 is connected to the gas consumer 201 to supply the oil gas generated in the oil storage tank 100. The first gas discharge line 107 connects the oil storage tank 100 and the gas demanding unit 201 and may include a header 50 and a compressor 30.

The first return line 108 branches on the first gas discharge line 107 and is connected to the oil in the oil storage tank 100 and returns the gas to the oil storage tank 100. Specifically, the first return line 108 may be branched from the rear end of the compressor 30 on the first gas discharge line 107 and connected to the oil storage tank 100.

The first return line 108 is connected to the first return line 108 when the internal pressure of the oil storage tank 100 is higher than the atmospheric pressure and lower than the internal pressure of the oil storage tank 100 when the gas consumer 201 starts to consume gas Can be operated.

The first return line 108 may include a gas supply portion 60 and may take a twisted form in the interior of the oil storage tank 100.

The oil storage tank 100 stores the oil to be supplied to the oil demander 200 and can store the oil in a liquid state. At this time, the oil storage tank 100 may have a shape having a height of about 20 to 40 m in the vertical direction, but is not limited thereto. Further, the internal pressure of the oil storage tank 100 may be set to approximately 1 to 1.25 bar (preferably 1.03 bar).

The oil storage tank 100 may have a heater 10 or a pump 20 therein and may include a heat source 11 provided outside, a blanket gas storage tank 40, an oil demander 200, May be connected to the demander 201 through the lines 101, 102, 103, 104,

In addition, the oil storage tank 100 may be provided so that the first return line 108 passes through the wall surface and is connected to the oil stored therein, and the gaseous oil gas supplied through the first return line 108 So that the internal oil can be heat-exchanged and re-liquefied.

The oil demanding place (200) can consume oil. The oil demander 200 can supply and store the oil stored in the oil storage tank 100 from the pump 20 through the oil supply line 103.

The oil consumer site 200 may be an engine (not shown), a boiler (not shown), or an oil storage tank (not shown) provided on the land.

The gas consumer 201 may be a gas combustion unit GCU or a duct and the gas consumer 201 may communicate with the outside of the vessel 300 in the case of a duct and may be a gas existing in the interior of the oil storage tank 100 Only the blanket gas can be discharged to the outside of the ship 300.

However, in case of an emergency such as when the internal pressure of the oil storage tank 100 rises above the limit pressure, all the gas inside the oil storage tank 100 can be discharged to the outside or burned by the gas combustion apparatus .

The gas demanding unit 201 may be configured such that when the internal pressure of the oil storage tank 100 becomes equal to or higher than an internal preset pressure of the oil storage tank 100, The oil gas or the blanket gas in the oil storage tank 100 can be supplied and consumed to be lower than the pressure.

The internal limit pressure of the oil storage tank 100 may be 1.23 to 1.27 bar (preferably 1.25 bar) and the internal preset pressure of the oil storage tank 100 may be 1.18 to 1.22 bar (preferably 1.20 bar) Lt; / RTI >

As described above, the oil treatment system 2 according to the first embodiment of the present invention allows the oil gas discharged to the outside of the oil storage tank 100 to be re-liquefied in the oil storage tank 100, And the surface temperature of the heater 10 can be set high regardless of the amount of oil gas generated on the surface of the heater 10. [ This also has the advantage that the size of the heater 10 can be reduced.

4 is a conceptual diagram of an oil treatment system according to a second embodiment of the present invention.

4, the oil treatment system 3 of the present invention includes a heater 10, a pump 20, a compressor 30, a blanket gas storage tank 40, a header 50, a cooler (not shown) 70, a gas-liquid separator 80, an oil storage tank 100, an oil demanding station 200, and a gas demanding station 201.

The oil treatment system 3 according to the second embodiment of the present invention is different from the oil treatment system 2 according to the first embodiment of the present invention described in Fig. 3 in addition to the cooler 70 and the gas- The same reference numerals are used for the respective constructions and convenience, but they are not necessarily construed to refer to the same constructions.

In the second embodiment of the present invention, the first gas discharge line 108, the second gas discharge line 107, and the second return line 110 may be further included. A second gas discharge valve (not shown) and a second return valve (not shown) are installed in the first gas discharge line 108, the second gas discharge line 109 and the second return line 110 And the supply amount can be adjusted according to the valve opening adjustment.

The first gas discharge line 107 may be connected to the gas demanding unit 201 with the compressor 30 and may be connected to the first gas discharge line 107. The first gas discharge line 107 may be connected to the gas demanding unit 201, The gas stored in the oil storage tank 100 can be supplied to the gas consumer 201 by bypassing the cooler 70.

The second gas discharge line 109 may include a cooler 70 and a gas-liquid separator 80 that are branched from the downstream end of the compressor 30 on the first gas discharge line 107 and will be described later. Lt; / RTI >

The second return line (110) connects the gas-liquid separator (80) and the oil storage tank (100).

The cooler 70 is provided on the second gas discharge line 109 to cool the gas. Here, the gas may be a blanket gas or a vaporized oil, i.e., a gaseous oil gas.

The cooler 70 starts to supply the gas (gaseous oil gas or blanket gas) stored in the oil storage tank 100 to the gas demanding unit 201 when the internal pressure of the oil storage tank 100 is higher than the atmospheric pressure When the pressure in the oil storage tank 100 is lower than the pressure inside the oil storage tank 100 at the time when the pressure is lowered.

Here, the internal pressure of the oil storage tank 100 during operation of the cooler 70 may be 1.03 to 1.07 bar (preferably 1.05 bar). Further, the cooler 70 can cool the temperature of the oil gas to about 30 to 40 degrees.

The cooler 70 can cool the gas stored in the oil storage tank 100 and can cool the gas oil in the gas phase stored in the oil storage tank 100 to re-liquefy it. At this time, the cooler 70 adjusts the cooling temperature so that the gaseous phase oil gas becomes a liquid phase and the blanket gas does not undergo phase change.

The cooler 70 can cool the gas supplied from the compressor 30 and supply the cooled gas or the re-liquefied gas to the gas-liquid separator 80.

The gas-liquid separator 80 is provided on the second gas discharge line 109 and located at the rear end of the cooler 70. The gas-liquid separator 80 separates the gas (oil gas or blanket gas) supplied from the cooler 70 into a gas phase and a liquid phase, supplies the liquid phase oil in the gas to the oil storage tank 100, 2 gas discharge line 109 to the gas demanding unit 201.

The gas-liquid separator 80 can receive and temporarily store the gas cooled from the cooler 70 or the re-liquefied gas, and can separate the gas supplied from the cooler 70 into a gas phase and a liquid phase. The separated gas is supplied to the gas consumer 201 through the second gas discharge line 109 and the liquid oil is supplied to the oil storage tank 100 to reduce the oil storage amount loss of the oil storage tank 100 There is an effect that can be.

The gas-liquid separator 80 temporarily stores the re-liquefied or cooled gases when the internal pressure of the oil storage tank 100 increases due to the vaporized oil gas, The pressure can be controlled effectively.

As described above, the oil treatment system 3 according to the second embodiment of the present invention is configured such that the oil gas discharged to the outside of the oil storage tank 100 is supplied to the remelting device (cooler 70 ), The gas-liquid separator (80), etc.) to return the oil to the oil storage tank (100) and to discharge the other components to the outside, the internal pressure of the oil storage tank (100) There is an effect that loss can be prevented. Further, the surface temperature setting of the heater 10 can be set independently of the amount of the oil gas generated in the oil storage tank 100, and the size of the heater 10 can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification and the modification are possible.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: conventional oil treatment system 2: oil treatment system of the first embodiment
3: Oil treatment system 10 of the second embodiment: heater
11: heat source 20: pump
30: compressor 40: blanket gas storage tank
50: header 60: gas supply section
70: cooler 80: gas-liquid separator
100: Oil storage tank 101: Heat medium supply line
102: heating medium discharge line 103: oil supply line
104: first blanket gas supply line 105: gas recovery line
106: second blanket gas supply line 107: first gas discharge line
108: first return line 109: second gas discharge line
110: second return line 200: oil demand place
201: gas consumer 300: ship

Claims (7)

An oil storage tank for storing oil;
A heater for supplying a heat source to the oil to prevent generation of wax;
A gas discharge line through which gas present in the oil storage tank flows and is connected to a gas consumer;
A cooler provided on the gas discharge line for cooling the gas;
A gas-liquid separator provided on the gas discharge line and located at a downstream end of the cooler; And
And a return line connecting the gas-liquid separator and the oil storage tank,
The gas liquefied in the gas-
Supplying oil to the oil storage tank through the return line,
In the gas-liquid separator, the remaining gas, other than the liquefied gas,
And is supplied to the gas consumer via the gas discharge line. 2. The apparatus according to claim 1,
Characterized in that it is a vaporized oil. The method according to claim 1,
An oil consumer site consuming the oil;
A pump for supplying the oil to the oil consumer; And
Further comprising a blanket gas storage tank connected to the gas discharge line and storing a blanket gas for regulating the internal pressure of the oil storage tank,
When the oil is supplied to the oil demanding place by the pump
Wherein the oil storage tank comprises:
Receiving the blanket gas,
When the gas is generated by the heater and the internal pressure becomes equal to or higher than the preset pressure value
The remaining blanket gas and the remaining gas other than the liquefied gas,
And is discharged to the outside of the oil storage tank
The liquefied gas,
And return to the oil storage tank through the return line. The method according to claim 1,
Further comprising a compressor provided on the gas discharge line for compressing the gas,
The gas discharge line may include:
A first gas discharge line connecting the compressor and the gas consumer; And
And a second gas discharge line branched from the downstream end of the compressor on the first gas discharge line and connected to the gas consumer, the second gas discharge line including the cooler and the gas-liquid separator. 4. The method according to claim 3,
Inert gas,
The gas consumer,
GCU < / RTI > or duct. The gas consumer according to claim 1,
Wherein when the internal pressure of the oil storage tank becomes equal to or higher than an internal predetermined pressure of the oil storage tank, the internal pressure of the oil storage tank is lower than the internal limit pressure of the oil storage tank,
The cooler includes:
And when the internal pressure of the oil storage tank is higher than the atmospheric pressure and lower than the internal pressure of the oil storage tank when the gas is started to be supplied to the gas consumer. The liquid ejecting apparatus according to claim 4,
Wherein when the internal pressure of the oil storage tank becomes equal to or higher than an internal predetermined pressure of the oil storage tank, the gas bypasses the cooler and is supplied to the gas consumer.

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