KR101341794B1 - Export equipment to pressurize low-temperature liquid - Google Patents

Abstract

The present invention relates to a low temperature liquid liquefied pressure sending device, and more particularly, the present invention can convert the low temperature liquid liquefied to a high pressure gas and can be easily discharged, and in this process it is possible to prevent a composition change phenomenon and a flashing phenomenon. It is related with the low temperature liquefaction pressurized sending apparatus which can be used.

Description

Export equipment to pressurize low-temperature liquid

The present invention relates to a low temperature liquid liquefied pressure sending device, and more particularly, the present invention can convert the low temperature liquid liquefied to a high pressure gas and can be easily discharged, and in this process it is possible to prevent a composition change phenomenon and a flashing phenomenon. It is related with the low temperature liquefaction pressurized sending apparatus which can be used.

Generally, in order to supply low temperature liquefied liquids such as LNG and LPG to high pressure gas users, a low temperature liquid liquefied pressurized discharge is required to pressurize or heat the liquid to a higher pressure and temperature liquid or gas.

As an example of a conventional low temperature low pressure liquid liquefied pressurized delivery device, Korean Patent Publication No. 2004-0023658 (name of the invention: a system and method for storing pressurized liquefied natural gas in a liquefied natural gas storage facility) has been proposed. have.

The above example includes an LNG container, means for removing and depressurizing at least a portion of the pressurized liquefied natural gas, a separation device suitable for separating the substantial gas phase portion and the substantial liquid phase portion, and the substantial gas phase portion to a desired pressure. A pressurization device suitable for pressurization and a gas delivery device suitable for delivering said pressurized substantial gaseous portion to the gaseous-phase portion collector.

That is, the stored liquefaction is delivered by separating and pressurizing the gaseous portion.

Conventional low temperature liquid liquefied pressure sending device may change the composition ratio of the gas supplied to the consumption source by repeating the process of sending the high pressure gas by heating to the consumption source, the gas of high boiling point composition is pressurized delivery There is a problem that can build up inside.

In particular, while methane gas having a relatively low boiling point of LNG is easily supplied to a high pressure gas consumption source, butane having a relatively high boiling point is difficult to transport and remains.

In addition, the change in the composition ratio changes the methane number of the high pressure gas, and may cause knocking on the consumption source, which may impair the durability of the high pressure gas user.

On the other hand, another conventional low temperature liquefied pressure sending device is shown in FIG.

In the low temperature liquefied pressure sending device 1 shown in FIG. 1, the liquefied pressure is increased by the low pressure pump 21 and the high pressure pump 22, and the temperature is increased through the evaporator heater 30. The fuel consumption source 40 is supplied.

The low temperature liquid liquefied pressurized delivery unit 1 shown in FIG. 1 is provided with a low pressure pump 21 to secure a sufficient discharge flow rate for the high pressure pump to operate stably, and a high pressure for boosting the liquid to high pressure. The pump 22 is a structure connected in series.

At this time, the low temperature liquefied pressure sending device (1) due to the low temperature of the liquefaction may be a heat penetration in the pipe 50 between the low pressure liquefied tank 10 and the low pressure pump 21, such heat Part of the low temperature liquefaction is evaporated in the pipe 50 due to the penetration, bubbles are generated in the liquefaction, and mechanical breakage of the low pressure pump 21 may occur.

Also, in general, the low pressure pump may be a immersion type of a liquid immersion type, if the low pressure pump is not immersed in liquid, bubbles may be generated in the pipe 50, the low pressure pump 21 It is easy to cause damage.

Accordingly, it is possible to solve the problems of durability as described above, while pressing or heating the low temperature liquefied liquid to supply the high pressure gas destination to make the liquid or gas of a higher pressure and temperature to pressurized delivery The development of the situation is necessary.

Republic of Korea Patent Publication No. 2004-0023658 (2004.03.18)

The present invention has been made to solve the problems as described above, the object of the present invention is to convert the low temperature liquefied gas into high pressure gas using a first pressurizing unit and a high pressure pump and can be easily sent out, in this process It is to provide a low temperature liquid liquefied pressurized sending device which can prevent a composition change phenomenon and a flashing phenomenon.

In particular, it is an object of the present invention to provide a low-temperature liquefied pressurized delivery apparatus which does not need to pressurize the liquefied tank itself, and can prevent the change of the composition of the liquefied liquid during the pressurized and discharged process.

In addition, an object of the present invention is further provided with a supercooler to prevent mechanical damage of the high-pressure pump due to the bubble generation and flashing phenomenon due to heat penetration, and to provide a low temperature liquefied pressure sending device that can further improve the overall durability To provide.

Particularly, an object of the present invention is to provide a low-temperature liquefied pressure sending device having a simple configuration without waste of energy by being used as a cooling source for subcooling the low-temperature low-pressure liquefied liquid stored in the liquefied tank by the subcooler. To provide.

In addition, an object of the present invention is to provide a low-temperature liquefied pressure sending device that can supply a high-pressure high-temperature gas continuously to the gas fuel consumption source by being provided with a plurality of the first pressurizing unit.

In addition, an object of the present invention is provided by the second connection pipe and the third connection pipe, the high-temperature high-pressure liquefied through the high-pressure pump or the heat exchanger is used as the pressurization source of the first pressure unit to the high-temperature high-pressure liquefaction It is to provide a low temperature liquid liquefied pressurized delivery device that can reduce the total energy required to change.

The low temperature liquid liquefied pressure sending device 1 of the present invention converts the low temperature liquid liquefied into a gas form, and supplies the low temperature liquid liquefied pressure sending device 1 to supply a gas fuel consuming source G. The delivery device 1 includes a liquefaction tank 10 in which liquefaction of low temperature and low pressure is stored; A first pressurizing part 20 for pressurizing the low-temperature and low-pressure liquefied liquid supplied from the liquefaction tank 10 firstly; A high pressure pump 30 for pressurizing the liquefied second liquid having passed through the first pressurizing part 20; A heat exchanger 40 in which a liquefied liquid of high temperature and high pressure passing through the high pressure pump 30 is heated and changed into a high pressure gas; A first connection pipe 50 connecting the liquefied tank 10, the first pressurizing part 20, the high pressure pump 30, and the heat exchanger part 40; A first control valve 51 formed on a first connection pipe 50 connecting the liquefied tank 10 and the first pressurizing part 20 to control the flow of the liquefied liquid; A second control valve 52 formed in a first connection pipe 50 connecting the first pressure unit 20 and the high pressure pump 30 to control the flow of liquefied liquid; And a balance pipe 61 connecting the liquefied tank 10 and the first pressure unit 20, and a pressure balance valve provided on the balance pipe 61 to control pressure to balance pressure with each other ( A pressure adjusting unit 60 including 62; And a control unit.

In addition, the first pressurizing unit 20 is a circulating heating method for heating a liquefied circulated through the external heat source 21, or a heat source is directly inserted into the first pressurizing unit 20 to heat the liquefied liquid. It is characterized by a heating method.

In addition, the low temperature liquefied pressure sending device 1 is provided between the liquefied tank 10 and the high pressure pump 30 in parallel with the first pressure unit 20, the high pressure for supplying a high-pressure inert gas A gas supply unit 91 is formed to further include a second pressurizing unit 90 for pressurizing the low-temperature and low-pressure liquefaction supplied from the liquefaction tank 10, and the first connection pipe 50 branches. The liquefied tank 10 and the second pressurizing unit 90 are connected to each other, and a plurality of first control valves 51 are formed so that the low and low pressure liquefied liquid transferred from the liquefied tank 10 is It is characterized in that it is selectively supplied to one of the first pressing unit 20 and the second pressing unit (90).

In addition, the second pressing unit 90 is spaced in the height direction therein, a plurality of baffles (93) extending alternately on both left and right sides are provided with the liquefaction introduced into the zigzag flow It is characterized by.

In addition, the low temperature liquid liquefied pressure sending device (1) is characterized in that the plurality of first pressure unit 20 is provided in parallel between the liquefaction tank 10 and the high pressure pump (30).

In addition, the low-temperature liquefied pressure sending device 1 is a subcooling unit 70 for supercooling the liquefied liquid passed through the first or second pressing unit 20 or 90 in the front of the high-pressure pump (30). It is characterized in that the further provided.

In addition, the subcooling unit 70 is connected to the inside of the liquefaction tank 10 by the circulation line 71, the liquefaction supplied through the first connecting pipe 50 is the circulation line 71 It is characterized in that the supercooled by heat exchange with the low temperature low pressure liquefied supplied.

In addition, the low temperature liquid liquefied pressure sending device (1) and the second connecting pipe 81 branched from the first connecting pipe 50 for connecting the high pressure pump 30 and the heat exchange unit 40, and the second Characterized in that the third control valve 82 is provided on the connection pipe (81).

In addition, the low temperature liquid liquefied pressure sending device 1 is a third connecting pipe 83 branched from the first connecting pipe 50 for connecting the heat exchange unit 40 and the gas fuel consumption source (G), and It is characterized in that the fourth control valve 84 is provided on the second connection pipe (81).

Accordingly, the low temperature liquid liquefied pressure sending apparatus of the present invention can convert the low temperature liquid liquefied into a high pressure gas by using the first pressurizing unit and the high pressure pump, and can be easily discharged. In this process, the composition change phenomenon and flashing are performed. There is an advantage that can prevent the phenomenon.

In particular, the low temperature liquefied pressure sending device of the present invention does not need to pressurize the liquefied tank itself, there is an advantage that can prevent the change of the composition of the liquefied during the pressurization and delivery process.

In addition, the low-temperature liquefied pressure sending device of the present invention is further provided with a supercooler to prevent mechanical damage of the high-pressure pump due to the bubble generation and flashing phenomenon due to thermal penetration, and has the advantage of improving the overall durability more have.

In particular, the low temperature liquid liquefied pressure sending device of the present invention has the advantage that the sub-cooler is used as a cooling source for supercooling the liquid liquefied by the low temperature low pressure stored in the liquid liquefaction tank is circulated, has a simple configuration without waste of energy .

In addition, the low temperature liquid liquefied pressure sending device of the present invention is provided with a plurality of the first pressurizing unit can continuously supply a high-pressure high-temperature gas to the gas fuel consumption source, there is an advantage that the amount of easy delivery.

In addition, the low-temperature liquefied pressure sending device of the present invention is provided with a second connection pipe and the third connection pipe, the high-temperature high-pressure liquefied through the high-pressure pump or heat exchange unit 40 is the pressure source of the first pressure unit By using it as an advantage it is possible to reduce the total energy required to change to a high temperature and high pressure liquefaction.

1 is a schematic diagram showing a conventional low temperature liquefaction pressurized delivery.
2 is a view showing a low temperature liquid liquefied pressure sending device according to the present invention.
Figure 3 is another view showing a low temperature liquefied pressure sending apparatus according to the present invention.
4A and 4B are views showing an example of the first pressurizing unit of the low temperature liquefied pressure sending device according to the present invention;
5 is yet another view showing a low temperature liquefied pressure sending device according to the present invention.
6 to 8 are each another view showing a low temperature liquefied pressure sending device according to the present invention.

Hereinafter, the low temperature liquefied pressure sending device 1 of the present invention having the features as described above will be described in detail with reference to the accompanying drawings.

The low temperature liquefied liquid discharging device of the present invention relates to a low temperature liquid liquefied pressure discharging device (1) for converting low temperature liquefied liquid into gas form and supplying it to a gas fuel consumption source. 20, the high pressure pump 30, the heat exchanger 40, the first connection pipe 50, the first control valve 51, the second control valve 52, and the pressure regulator 60 Is formed.

The liquefied tank 10 is a tank for storing liquefied liquid of low temperature and low pressure, and the liquefied liquid stored in the liquefied tank 10 is sequentially pressurized through the first connection pipe 50. ), The high pressure pump 30, the heat exchange unit 40 passes.

The first control valve 51 is formed in the first connecting pipe 50 connecting the liquefied tank 10 and the first pressure unit 20 to regulate the flow of the liquefied liquid, the second control valve ( 52 is formed in the first connection pipe 50 connecting the first pressure unit 20 and the high pressure pump 30 to control the flow of the liquefied liquid.

The first pressurization unit 20 is a means for primarily pressurizing the low temperature and low pressure liquefied supplied from the liquefaction tank 10, a predetermined space for storing the liquefaction is formed, the low temperature low pressure through various methods To heat the liquefied.

In this case, the first pressurizing unit 20 may use various methods of heating, and the form shown in FIG. 2 will be described first.

The first pressure unit 20 illustrated in FIG. 2 illustrates a cyclic heating method for heating a liquefied liquid circulated through the external heat source 21 as an example.

When the circulation heating method is described in more detail, an external heat source 21 is connected to the inside of the first pressurizing part 20 by a pipe, and the first opening / closing valve 22 is provided in the pipe, so that the first pressurizing part ( 20) The liquefied inside is supplied to the first pressurizing unit 20 while being heated by the external heat source 21 and mixed with the remaining liquefied and heated.

3 illustrates a configuration in which the plurality of first pressurization units 20 are provided in parallel between the liquefaction tank 10 and the high pressure pump 30.

The low temperature liquid liquefied pressure sending device 1 of the present invention may be formed in various numbers depending on the formation capacity of the first pressure unit 20 and the degree of gas consumption of the fuel gas consumption source.

At this time, it is preferable that the first pressurizing unit 20 adjusts the operation order and the like to continuously send the gas of high temperature and high pressure to the fuel gas consumption source.

In addition, the low temperature liquid liquefied pressure sending apparatus 1 of the present invention may be formed in a variety of forms of the first pressure unit 20, more various embodiments are shown in Figures 4a to 4c.

The shape of the first pressurizing part 20 shown in FIG. 4A is a method of pressurizing by heating using a heat source. In more detail, the heat source 21 is inserted into the first pressurizing part 20 to allow the liquid. Direct heating method to heat cargo.

In addition, the first pressurizing unit 20 illustrated in FIG. 4B illustrates a circulating heating method for heating a liquefied liquid circulated in a manner using the external heat source 21.

The low temperature liquefied pressure sending device 1 of the present invention shown in FIG. 5 shows an example in which the second pressurizing unit 90 is further provided, and the second pressurizing unit 90 includes the first pressurizing unit 20. ) Is provided in parallel form to supply liquid liquefaction of low temperature and low pressure selectively.

The second pressure unit 90 is provided between the liquefaction tank 10 and the high pressure pump 30, the high pressure gas supply unit 91 for supplying a high pressure inert gas is formed to the liquefaction tank 10 The low temperature and low pressure liquefied from the pressurized.

The inert gas may be nitrogen gas, and the high pressure gas supply part 91 may include a second opening / closing valve 92 for controlling the flow of the high pressure gas.

The high pressure gas supply unit 91 supplies a high pressure inert gas to pressurize and transport the liquid liquefied therein.

In this case, a baffle 93 may be provided inside the second pressing unit 90, and the baffle 93 may prevent the nitrogen gas and the liquefaction from being mixed with the high pressure, and by the high pressure nitrogen gas. There is an effect that the liquefaction is pressurized and transported sequentially.

Accordingly, the low temperature liquid liquefied pressure sending device (1) of the present invention is provided with a plurality of baffles (93) which are spaced apart in the height direction in the second pressing part (90) and are alternately extended on both left and right sides thereof, respectively. It is preferable that the liquefied liquid introduced through the first connection pipe 50 and the second connection pipe 81 flow in a zigzag form.

As illustrated in the drawing, the baffles 93 are formed in left and right directions on both inner wall surfaces of the second pressing part 90, and are provided in plural to be spaced apart in the height direction. Alternating from

In addition, the baffle 93 may be formed in a planar shape to divide the inside of the pressurizer in a height direction, and may be formed in a plurality of divided surfaces.

The low temperature liquid liquefied pressure sending device 1 of the present invention may be provided with a plurality of the first pressure unit 20, the second pressure unit 90 is further formed, it is possible to continuously send low temperature liquefaction, In particular, when preparing the delivery of the first pressure unit 20, it is possible to pressurize and transport the low-temperature and low-pressure liquefied through the second pressure unit 90, the reverse operation is possible as the drive can be reversed There are possible advantages.

The pressure regulator 60 is configured to include a balance pipe 61 and a pressure balance valve 62, and is configured to smooth the flow of liquefaction by adjusting the pressure in the first pressure unit (20). .

More specifically, the balance pipe 61 is a configuration for connecting the liquefied tank 10 and the first pressure unit 20, the pressure balance valve 62 is provided on the balance pipe (61). The pressure is adjusted so that the pressure equalization of the liquefaction room tank and the first pressurizing part 20 is achieved.

When adjusting the pressure balance of the liquefied tank 10 and the first pressurizing part 20 by the operation of the pressure balance valve 62, the first control valve 51 is opened, the liquefied tank 10 And the second control valve 52 which is another pipe connected to the first pressure unit 20 is kept closed.

That is, the low temperature liquid liquefied pressure sending device 1 of the present invention is easy to transfer the liquefied by the control of the first control valve 51 and the second control valve 52, the pressure control unit 60 There is an advantage that the pressure control of the first pressing unit 20 is easy.

The high pressure pump 30 pressurizes second the liquefied liquid that has passed through the first pressurizing part 20.

The heat exchange part 40 is a configuration in which the high-temperature high-pressure liquefied through the high-pressure pump 30 is heated to change the state to a high-pressure gas, the high-temperature high-pressure gas passed through the heat exchanger 40 consumes fuel gas Supplied in a circle.

That is, the low temperature liquid liquefied pressure sending apparatus 1 of the present invention converts the low temperature liquid liquefied into a high pressure gas by primary pressure through the first pressurizing unit 20 and secondary pressurization of the liquefied liquid through the high pressure pump. Easily sent out, there is an advantage that can prevent the composition change and flashing phenomenon in this process.

The flashing phenomenon means that steam is generated while the pressure of the saturated liquefied liquid is injected below the saturation pressure in the pump, and the steam may cause mechanical damage to the high pressure pump 30 which operates at a high speed.

In particular, the low-temperature liquefied pressure sending device 1 of the present invention does not need to pressurize the liquefied tank 10 itself, and has an advantage of preventing the change of composition of the liquefied liquid in the pressurizing and discharging process.

6 is another view showing the low-temperature liquefied pressure sending device 1 of the present invention, wherein the low-temperature liquefied pressure sending device 1 shown in FIG. 6 has the first pressurizing part in front of the high-pressure pump 30. An example in which the subcooling part 70 for subcooling the liquefied liquid having passed through the 20 or the second pressing part 90 is shown.

The subcooling unit 70 is a configuration for supercooling the liquefied liquid before being supplied to the high pressure pump 30 by a cooling source, and mechanical damage of the high pressure pump 30 due to bubble generation and flashing phenomenon due to thermal penetration. It can be prevented, there is an advantage that can improve the overall durability more.

In particular, the low-temperature liquefied pressure sending device 1 of the present invention may be used a low-temperature low-pressure liquefied stored in the liquefaction tank 10 as the cooling source of the subcooler.

To this end, the subcooling unit 70 is connected to the inside of the liquefaction tank 10 by the circulation line 71, the liquefaction is supplied through the first connecting pipe 50 is the circulation line 71 It may be supercooled by heat exchange with the low temperature low pressure liquefied supplied through.

In other words, the low temperature liquid liquefied pressure sending device (1) of the present invention is a simple configuration without waste of energy because the sub-cooler is used as a cooling source for the subcooled low-temperature liquid liquefied stored in the liquefaction tank 10 to supercool the liquefied liquid There is an advantage to having.

7 and 8 are still another view showing the low-temperature liquefied pressure sending device 1 of the present invention, first, the example shown in Figure 7 is the first connecting the high-pressure pump 30 and the heat exchanger 40 The second connection pipe 81 branched from the first connection pipe 50 and the third control valve 82 provided on the second connection pipe 81 is shown an example further formed.

In more detail, in the form shown in FIG. 7, the high temperature and high pressure liquefied liquid having passed through the high pressure pump 30 is supplied to the first pressurizing part 20 through the second connection pipe 81. An example used as is shown.

8 is a third branch from the first connection pipe 50 connecting the heat exchange part 40 and the gas fuel consumption source G in addition to the shape shown in FIG. 7. An example in which the connection pipe 83 and the fourth control valve 84 provided on the second connection pipe 81 is further formed.

7 and 8, except that the first pressurizing unit 20 serves as an initial source of pressure for heating the first pressurizing unit 20, a liquefied gas or a gas having a high temperature and high pressure is formed in the first pressurizing unit 20. Can be used as a source of pressurization can reduce the operating cost of the device, it can be further prevented from changing the gas composition ratio.

Accordingly, the low temperature liquefied pressure sending apparatus 1 of the present invention can convert the low temperature low pressure liquefied to a high pressure gas and can be easily discharged, and in this process, durability through prevention of composition change and flashing phenomenon It can be improved, there is an advantage that can improve the efficiency by reducing the driving energy.

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. It goes without saying that various modifications can be made.

1: low temperature liquefied pressure sending device
10: liquefaction tank
20: first pressing unit
21: external heat source 22: first opening and closing valve
23: internal heat source
30: high pressure pump
40: heat exchanger
50: first connection piping
51: first control valve 52: second control valve
60: pressure regulator 61: balanced piping
62: pressure balance valve
70: supercooling unit 71: circulation line
81: second connection piping 82: third control valve
83: third connection piping 84: fourth control valve
G: Gas fuel consumption source
90: second pressing unit
91: high pressure gas supply unit 92: second opening and closing valve
93: baffle

Claims (9)

In the low temperature liquefied pressure sending device 1 for converting the low temperature liquefied gas into a gas fuel consumption source G,
The low temperature liquefied pressure sending device (1)
A liquefaction tank 10 in which low and low pressure liquefaction are stored;
A first pressurizing part 20 for pressurizing the low-temperature and low-pressure liquefied liquid supplied from the liquefaction tank 10 firstly;
A high pressure pump 30 for pressurizing the liquefied second liquid having passed through the first pressurizing part 20;
A heat exchanger 40 in which a liquefied liquid of high temperature and high pressure passing through the high pressure pump 30 is heated and changed into a high pressure gas;
A first connection pipe 50 connecting the liquefied tank 10, the first pressurizing part 20, the high pressure pump 30, and the heat exchanger part 40;
A first control valve 51 formed on a first connection pipe 50 connecting the liquefied tank 10 and the first pressurizing part 20 to control the flow of the liquefied liquid;
A second control valve 52 formed in a first connection pipe 50 connecting the first pressure unit 20 and the high pressure pump 30 to control the flow of liquefied liquid; And
A balance pipe 61 connecting the liquefied tank 10 and the first pressure unit 20 and a pressure balance valve 62 provided on the balance pipe 61 to adjust pressure to balance pressure with each other. Pressure control unit 60 including; Lt; / RTI >
Circulation line for connecting the subcooling part 70 and the subcooling part 70 and the liquefaction tank 10 inside the high pressure pump 30 to supercool the liquefied liquid passing through the first pressurizing part 20. More (71)
Liquid liquefied pressure sending device characterized in that the liquid liquefied supplied through the first connecting pipe 50 is heat-exchanged with the low-temperature low-pressure liquefied supplied through the circulation line (71).
The method of claim 1,
The first pressurizing unit 20 is a cyclic heating method for heating a liquefied circulated through the external heat source 21, or a direct heating method in which a heat source is inserted into the first pressurizing unit 20 to heat the liquefied liquid. Low temperature liquefied pressure sending device characterized in that.
The method of claim 1,
The low temperature liquefied pressure sending device (1)
The high pressure gas supply unit 91 is provided between the liquefied tank 10 and the high pressure pump 30 in parallel with the first pressure unit 20, and supplies a high pressure inert gas to the liquefied tank ( A second pressing unit 90 for pressing the low-temperature and low-pressure liquefied supplied from 10) is further provided,
The first connection pipe 50 is branched to connect the liquefied tank 10 and the second pressurizing unit 90, but a plurality of the first control valve 51 is formed to the liquefied tank 10 Low-temperature and low-pressure liquefied conveyed from the low-temperature liquefied pressure sending device, characterized in that selectively supplied to one of the first pressure unit (20) and the second pressure unit (90).
The method of claim 3,
The second pressing unit 90 is spaced in the height direction therein, a plurality of baffles (93) extending alternately on both left and right sides are provided, respectively, characterized in that the liquefaction introduced into the flow in a zigzag form Low temperature liquefied pressure sending device.
The method according to claim 2 or 3,
The low temperature liquid liquefied pressure sending device (1) is the low pressure liquid liquefied pressure sending characterized in that the plurality of first pressure unit 20 is provided in parallel between the liquefied tank 10 and the high pressure pump (30). Device.
delete delete The method according to claim 2 or 3,
The low temperature liquid liquefied pressure sending device (1) and the second connection pipe (81) branched from the first connection pipe 50 for connecting the high pressure pump 30 and the heat exchange unit 40, and the second connection pipe A low temperature liquid liquefied pressure sending device, characterized in that a third control valve (82) provided on the (81) is formed.
9. The method of claim 8,
The low temperature liquid liquefied pressure sending device (1) is a third connecting pipe (83) branched from the first connecting pipe (50) connecting the heat exchange part (40) and the gas fuel consumption source (G), and the second Low temperature liquid liquefied pressure sending device characterized in that the fourth control valve (84) provided on the connection pipe (81) is formed.

Images