JP4562673B2 - Liquefied natural gas filling equipment - Google Patents

Description

  The present invention relates to a storage tank for storing liquefied natural gas supplied from a tank lorry, and a liquefied natural gas filling pipe connected to the storage tank and connected to the tank lorry so as to be separable from the tank lorry to supply liquefied natural gas to the storage tank. And liquefied natural gas filling equipment.

The following are generally known as liquefied natural gas satellite bases that need to be filled with liquefied natural gas.
That is, liquefied natural gas is stored in a liquefied natural gas storage tank (storage tank), the stored liquefied natural gas is vaporized by supplying it to a vaporizer, and the vaporized natural gas is supplied to a calorific value adjusting device. The pressure is adjusted to the set pressure and stored in the holder, and the natural gas in the holder is adjusted to the set pressure by the supply gas pressure regulator and supplied to the consumer. A pipe provided with a tank lorry receiving port is connected to the liquefied natural gas storage tank (storage tank), and the liquefied natural gas is filled through the pipe. (See Patent Document 1).

In the conventional example as described above, the liquefied natural gas storage tank (storage tank) is filled with the liquefied natural gas by a tank lorry equipped with a pressurizer.
That is, as shown in the overall schematic configuration diagram of the conventional example of FIG. 3A, one end side of the liquefied natural gas filling pipe 11 is connected to the lower side of the storage tank 1 for storing liquefied natural gas, and the liquefied natural gas A first flange 13 is attached to the other end side of the filling pipe 11. On the other hand, a first lorry-side pipe 01 with an on-off valve is attached to the tank lorry TL, and a first lorry-side flange 02 is attached to the tip of the first lorry-side pipe 01. A pressure evaporator 03 is mounted.

With the above configuration, the first flange 13 and the first lorry side flange 02 are connected by a bolt (not shown) or the like to connect the first lorry side pipe 01 and the liquefied natural gas filling pipe 11, The liquefied natural gas in the tank lorry TL is supplied to the pressure evaporator 03 for the lorry and evaporated by the outside air temperature. The natural gas for pressurization obtained thereby is supplied into the tank lorry TL, and the inside of the tank lorry TL is pressurized to liquefy natural The storage tank 1 is filled with gas.
JP 2003-20294 A

However, when the lorry pressure evaporator 03 is mounted on the tank lorry TL as described above, for example, when the lorry pressure evaporator 03 is mounted on a 10-ton tank lorry TL, the weight of the lorry pressure evaporator 03 is about 300 to 500 kg. The load of liquefied natural gas is reduced by that amount.
In addition, since the pressure evaporator 03 for lorries is mounted on each tank lorry TL, there is a disadvantage that the initial cost is increased. In addition, since the lorry pressure evaporator 03 is a gas production facility, the tank lorry TL equipped with the lorry pressure evaporator 03 is handled by the production facility, and periodic inspection is required, resulting in increased inspection costs. During the inspection, the tank lorry TL cannot be used, and there is a disadvantage that the operation rate is lowered.

As to avoid the above problems, there is another conventional example as shown in overall schematic configuration diagram in FIG. 3 (b).
That is, in addition to the same liquefied natural gas filling pipe 11 as in the above-described conventional example, an air temperature type lorry pressure evaporator 011 that is heated by the outside air temperature is installed on the base side. The liquid pipe 012 and the gas pipe 013 are connected, and second and third flanges 014 and 015 are attached to the respective ends of the pipes 012 and 013. On the other hand, on the tank lorry TL side, first, second and third lorry side pipes 016, 017, 018 with open / close valves are respectively attached, and the first, second and third lorry side pipes 016 are provided. , 017, 018 have first, second, and third lorry side flanges 019, 020, 021 attached thereto, respectively.

  With the above configuration, the first flange 13 attached to the liquefied natural gas filling pipe 11, and the second and third flanges 014 and 015 respectively, and the first, second and third lorry side flanges 019, 020, 021 are connected to each other by bolts (not shown) or the like to connect the first lorry side pipe 016 and the liquefied natural gas filling pipe 11, and the second and third lorry side pipes 017, 018 The liquid pipe 012 and the gas pipe 013 are connected, the liquefied natural gas in the tank lorry TL is supplied to the lorry pressurized evaporator 011 to evaporate and vaporize by the outside temperature, and the pressurized natural gas obtained thereby is put into the tank lorry TL. The tank 1 is supplied and pressurized in the tank lorry TL to fill the storage tank 1 with liquefied natural gas.

  However, in the case of another conventional example, there are three connection points with the tank lorry TL side, and there is a disadvantage that a great deal of labor is required for the connection operation and the opening / closing operation of the on-off valve. Further, since the supply of liquefied natural gas from the tank lorry TL to the lorry pressurized evaporator 011 is performed using a difference in height, the lorry pressurized evaporator 011 must be installed at a position lower than the tank of the tank lorry TL. Don't be. On the other hand, the base equipment is often installed at a position higher than the road surface for reasons such as foundations and drainage, and there is a drawback that the installation location of the pressurized evaporator 011 for the lorries is often restricted.

Further, as shown in FIG. 3B, after filling the storage tank 1, the nitrogen cylinder 24 is connected to the gas pipe 013, and the gas pipe 012 → the lorry pressure evaporator 011 → the liquid pipe 013 and the nitrogen gas. It is necessary to carry out a purge operation to replace the remaining liquefied natural gas and natural gas with nitrogen gas, but since the reverse operation is performed from the low pressure pressurized vaporizer 011, the liquefied natural gas is completely discharged. There was a drawback that it took time to replace.

  The present invention has been made in view of such circumstances, and the invention according to claim 1 does not include a tanker lorry with a lorry pressurized evaporator, but the lorry pressurized evaporator is positioned. The purpose of the invention according to claim 2 is to make it possible to install the liquefied natural gas from the tank lorry into the storage tank with less trouble and to be satisfactorily filled. An object of the invention according to claim 3 is to reduce the space sufficiently and sufficiently pressurize the tank so as to satisfactorily fill the storage tank with the liquefied natural gas.

In order to achieve the above-described object, the invention according to claim 1
A storage tank for storing liquefied natural gas supplied from a tank lorry and supplied to a consumption facility; and connected to the storage tank and connected to the tank lorry so as to be separable from the tank lorry to supply liquefied natural gas from the tank lorry to the storage tank In liquefied natural gas filling equipment equipped with liquefied natural gas filling piping,
A vaporizer connected to the storage tank to vaporize liquefied natural gas supplied from the storage tank to supply natural gas to the consumption facility;
A pressurized evaporator for a tank that pressurizes the inside of the storage tank in order to supply liquefied natural gas from the storage tank to the vaporizer;
A reserve tank connected to the storage tank via a liquid pipe and storing liquefied natural gas supplied from the storage tank in an amount sufficient to increase the pressure in the tank lorry;
A pressure evaporator for a lorry connected to the reserve tank and evaporating and evaporating liquefied natural gas supplied from the reserve tank;
A pressure increasing pipe connected to the pressure evaporating evaporator for the lorry and connected to the tank lorry so as to be separable and supplying the natural gas for pressure to the tank lorry;
A backflow of liquefied natural gas from the reserve tank side to the storage tank side during pressurization in the valve closed state is interposed in the liquid piping, and liquefied from the storage tank to the reserve tank by opening the valve. A valve mechanism for supplying natural gas ;
It comprises and comprises.

(Action / Effect)
According to the configuration of the liquefied natural gas filling facility of the invention according to claim 1, the liquefied natural gas filling pipe and the boosting pipe are connected to the tank lorry, the liquefied natural gas from the storage tank is stored in the spare tank, and the spare tank is The liquefied natural gas can be vaporized by being supplied to a pressure evaporator for a lorry, the vaporized natural gas can be supplied to the tank lorry to pressurize the tank lorry, and the storage tank can be filled with the liquefied natural gas from the tank lorry.
Therefore, liquefied natural gas can be filled simply by connecting two pipes, the liquefied natural gas filling pipe and the pressure raising pipe, to the tank lorry side, and the tank lorry is not equipped with a pressure evaporator for lorries. In addition, it is possible to fill the storage tank with the liquefied natural gas from the tank lorry with less time for opening and closing the on-off valve.
Moreover, since the liquefied natural gas is supplied from the spare tank to the pressure evaporator for lorry and evaporated, the position of the spare tank is set at a relatively high position, and the pressure evaporator for lorry is relatively It can be installed at a high position, and the pressure evaporator for lorries can be installed with few positional restrictions, and it is not affected by the pressure change in the tank lorry compared to the case of evaporating by supplying liquefied natural gas from the tank lorry, Fully pressurized, the tank can be filled with liquefied natural gas from the tank tank.
In addition, since the pressure evaporator for lorries can also be installed at a relatively high position, even when nitrogen gas or the like is flown into the lorry pressure evaporator, the pressure increasing piping, the tank lorry, or the liquefied natural gas filling piping, The liquefied natural gas remaining in the pressure evaporator for lorries can be easily discharged, and the purge operation time can be shortened.

In order to achieve the above-described object, the invention according to claim 2
In the liquefied natural gas filling equipment according to claim 1,
The pressure evaporator for the tank and the upper part of the storage tank are connected via a gas pipe, the pressure increase pipe is connected to the pressure evaporator for the tank, and the lower side of the storage tank and the reserve tank are connected to the liquid pipe. The auxiliary tank and the tank pressurized evaporator are connected via a liquid pipe, and the tanker pressurized evaporator is also used as the tank pressurized evaporator.

(Action / Effect)
According to the configuration of the liquefied natural gas filling equipment of the invention according to claim 2, the lorry pressurized evaporator is also used as a tank pressurized evaporator for boosting the pressure in order to supply the liquefied natural gas in the storage tank to the vaporizer. Therefore, a dedicated lorry pressure evaporator can be dispensed with, and the installation space can be reduced to reduce the initial cost.

In order to achieve the above-described object, the invention according to claim 3
In the liquefied natural gas filling equipment according to claim 2,
The tank pressure evaporator is configured with a hot water heating type.

(Action / Effect)
According to the configuration of the liquefied natural gas filling facility of the invention according to claim 3, since the liquefied natural gas is heated and evaporated by warm water, the tank pressure evaporator is made compact compared to the case of heating by the outside air. In addition, the plane space can be reduced.
Moreover, even when the outside air temperature is low, such as in cold regions or in winter, the evaporation capacity can be reliably exerted by the prescribed heating regardless of the outside air temperature, and the inside of the tank lorry is fully pressurized and liquefied from the tank lorry to the storage tank Natural gas can be filled well.

As is apparent from the above description, according to the liquefied natural gas filling facility of the invention according to claim 1, the liquefied natural gas filling pipe and the pressure raising pipe are connected to the tank lorry, and the liquefied natural gas from the storage tank is stored in the reserve tank. The liquefied natural gas is evaporated from the spare tank to the lorry pressurized evaporator, the vaporized natural gas is evaporated to the tank lorry, the tank lorry is pressurized, and the liquefied natural gas is transferred from the tank lorry to the storage tank. Can be filled.
Therefore, liquefied natural gas can be filled simply by connecting two pipes, the liquefied natural gas filling pipe and the pressure raising pipe, to the tank lorry side, and the tank lorry is not equipped with a pressure evaporator for lorries. When the opening / closing operation of the opening / closing valve is small, the storage tank can be filled with liquefied natural gas from the tank lorry.
Moreover, since the liquefied natural gas is supplied from the spare tank to the pressure evaporator for lorry and evaporated, the position of the spare tank is set at a relatively high position, and the pressure evaporator for lorry is relatively It can be installed at a high position, and the pressure evaporator for lorries can be installed with few positional restrictions, and it is not affected by the pressure change in the tank lorry compared to the case where liquefied natural gas is supplied from the tank lorry and evaporated. Fully pressurized, the tank can be filled with liquefied natural gas from the tank tank.
In addition, since the pressure evaporator for lorries can also be installed at a relatively high position, even when nitrogen gas or the like is flown into the lorry pressure evaporator, the pressure increasing piping, the tank lorry, or the liquefied natural gas filling piping, The liquefied natural gas remaining in the pressure evaporator for lorries can be easily discharged, and the purge operation time can be shortened.

Next, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is an overall schematic configuration diagram showing Embodiment 1 of a liquefied natural gas filling facility according to the present invention, and a first on-off valve 2 or 2 is interposed below a storage tank 1 for storing liquefied natural gas. The air temperature type carburetors 4 and 4 that are heated by the outside air are connected through the first liquid pipe 3, and the carburetors 4 and 4 are respectively provided with the second on-off valves 5 and 5. A consumption facility (not shown) is connected via the gas supply pipe 6.

A hot water tank pressure evaporator 8 that is heated by warm water is connected to the middle portion of the first liquid pipe 3 via the second liquid pipe 7, and the tank pressure evaporator 8 and the upper part of the storage tank 1 are connected to each other. However, it is connected via a first gas pipe 10 provided with a first pressure regulator (for example, 0.70 MPa as the set pressure).
With the above configuration, the liquefied natural gas from the storage tank 1 is supplied to the tank pressure evaporator 8 to evaporate, and the evaporated natural gas is supplied to the upper part of the storage tank 1 to increase the pressure in the storage tank 1. The liquefied natural gas in the storage tank 1 is supplied to the vaporizer 4, vaporized by the vaporizer 4, and the vaporized natural gas can be supplied to the consumption facility.

  A liquefied natural gas filling pipe 11 for supplying liquefied natural gas from the tank lorry TL is connected to the lower part of the storage tank 1, and a third on-off valve 12 is interposed in the liquefied natural gas filling pipe 11. A first flange 13 is attached to the tip opposite to 1.

  A reserve tank 15 is connected to the lower side of the storage tank 1 via a third liquid pipe 14, and outside air is connected to the reserve tank 15 via a fourth liquid pipe 17 having a fourth on-off valve 16 interposed. An air temperature type pressure evaporating evaporator 18 for heating is connected, and a second gas pipe 19 as a pressure raising pipe is connected to the pressure evaporating evaporator 18 for lorry, and the pressure evaporating evaporator for lorry A second flange 20 is attached to the tip opposite to the end 18. The third liquid pipe 14 is provided with a closing valve 21 as a valve mechanism for preventing the backflow of liquefied natural gas from the reserve tank 15 to the storage tank 1 side.

A nitrogen cylinder 24 is connected between the fourth on-off valve 16 of the fourth liquid pipe 17 and the high pressure evaporator 18 for a lorry through a nitrogen gas pipe 23 having a fifth on-off valve 22 interposed therebetween. Yes.
A second pressure regulator 25 (for example, 0.70 MPa as a set pressure) and a sixth on-off valve 26 are provided at a location upstream of the third on-off valve 12 of the liquefied natural gas filling pipe 11. The first boil-off gas pipe 27 is connected to a third pressure regulator 28 (at a position between the second pressure regulator 25 and the sixth on-off valve 26 of the first boil-off gas pipe 27. As the set pressure, for example, the upper part of the storage tank 1 is connected via the second boil-off gas pipe 29 provided with 0.70 MPa), and the natural gas supply pipe 6 is connected via the pipe 30. Yes.

  The tank lorry TL is provided with a first lorry side opening / closing valve 31 and a first lorry side pipe 33 having a first lorry side flange 32 at the tip, and a second lorry side opening / closing valve 34. In addition, a second lorry side pipe 36 provided with a second lorry side flange 35 is attached to the tip.

With the above configuration, at the time of normal natural gas supply, as shown in FIG. 1A, only one of the first and second on-off valves 2 and 5 of both the carburetors 4 and 4 is opened, and the first 3, the fourth and sixth on-off valves 12, 16, and 26 are closed, and as described above, the liquefied natural gas from the storage tank 1 is supplied to the tank pressure evaporator 8 to be evaporated and evaporated. The natural gas is supplied to the upper part of the storage tank 1 to increase the pressure in the storage tank 1, the liquefied natural gas in the storage tank 1 is supplied to the vaporizer 4, vaporized by the vaporizer 4, and the vaporized natural gas is consumed. Supply to equipment. In the drawing, the open / close valve is shown in white. The same applies to the other drawings.
At this time, the shut-off valve 21 is opened, and the liquefied natural gas in the storage tank 1 is supplied and stored in the reserve tank 15. The stop valve 21 may be closed when it is accumulated. Although the tank lorry TL is shown in the figure, it is irrelevant during normal natural gas supply.

  On the other hand, when the storage tank 1 is filled with liquefied natural gas from the tank lorry TL, the first flange 13 and the first lorry side flange 32 are connected with a bolt (not shown) or the like, and the liquefied natural gas filling pipe 11 is connected. The first lorry side pipe 33 is connected, and the second flange 20 and the second lorry side flange 35 are connected by a bolt (not shown) or the like to connect the second gas pipe 19 and the second lorry. A side pipe 36 is connected.

  Thereafter, as shown in FIG. 1 (b), only the first and second on-off valves 2 and 5 of either of the carburetors 4 and 4 are opened, and the closing valve 21 and the sixth on-off valve 26 are opened. Is opened, and the third and fourth on-off valves 12, 16 and the first and second lorry side on-off valves 31, 34 are opened.

  As a result, the liquefied natural gas in the reserve tank 15 is supplied to the lorry pressurized evaporator 18 to evaporate, and the pressurized natural gas is supplied to the tank lorry TL, and the pressure in the tank lorry TL is set to a predetermined pressure ( For example, the pressure is raised to about 0.7 MPa), and the storage tank 1 is filled with liquefied natural gas in the tank truck TL. Even during this filling operation, natural gas can be supplied to the consuming equipment.

  After completion of filling, although not shown, the third on-off valve 12 is closed, the fifth and sixth on-off valves 22 and 26 are opened, and nitrogen gas is supplied from the nitrogen cylinder 24 to the high pressure evaporator 18 for the lorry and the first. 2 gas pipe 19, tank lorry TL, and liquefied natural gas filling pipe 11, and natural gas is allowed to flow through first boil-off gas pipe 27 and pipe 30, lorry pressurized evaporator 18, second gas pipe. 19. Remaining natural gas in the tank truck TL and the liquefied natural gas filling pipe 11 is replaced with nitrogen gas. After the purge operation is completed, the connection with the tank truck TL is disconnected, and the series of liquefied natural gas filling operations is completed.

FIG. 2 is an overall schematic configuration diagram showing a second embodiment of the liquefied natural gas filling facility according to the present invention. The difference from the first embodiment is that the tank pressure evaporator 8 is also used as a lorry pressure evaporator. The points are as follows.
That is, the second liquid pipe 7 is eliminated, and a reserve tank 42 is connected to the lower side of the storage tank 1 via a fifth liquid pipe 41, and the reserve tank 42 is connected via a sixth liquid pipe 43. A hot water tank pressure evaporator 8 (also used as a lorry pressure evaporator) for heating with hot water is connected. The fifth liquid pipe 41 is provided with a seventh on-off valve 44 as a valve mechanism for preventing the backflow of the liquefied natural gas from the reserve tank 42 to the storage tank 1 side.

A third gas pipe 45 serving as a boosting pipe is connected to a location upstream of the first pressure regulator 9 of the first gas pipe 10 connected to the tank pressure evaporator 8, and the third gas pipe 45 is connected to the third gas pipe 45. The gas pipe 45 is provided with an eighth on-off valve 46 and a third flange 47 is attached to the tip opposite to the tank pressure evaporator 8.
Instead of the air temperature type vaporizer 4 in the first embodiment, one hot water type vaporizer 48 that is heated by hot water is provided. Other configurations are the same as those of the first embodiment, and the description thereof is omitted by assigning the same reference numerals.

With the above configuration, during normal natural gas supply, as shown in FIG. 2A, the seventh on-off valve 44 is opened and the third, sixth and eighth on-off valves 12, 26, 46 are closed. Then, liquefied natural gas from the storage tank 1 is supplied to the tank pressure evaporator 8 through the auxiliary tank 42 to evaporate, and the vaporized natural gas is supplied to the upper part of the storage tank 1 to increase the pressure in the storage tank 1. The liquefied natural gas in the storage tank 1 is supplied to the vaporizer 48, vaporized by the vaporizer 48, and the vaporized natural gas is supplied to the consumption facility.
At this time, the liquefied natural gas in the storage tank 1 is supplied into the reserve tank 42 and stored naturally. Although the tank lorry TL is shown in the figure, it is irrelevant during normal natural gas supply.

  On the other hand, when the storage tank 1 is filled with liquefied natural gas from the tank lorry TL, the first flange 13 and the first lorry side flange 32 are connected by a bolt to liquefy natural gas filling pipe 11 and the first lorry side pipe. 33 and the third flange 47 and the second lorry side flange 35 are connected with a bolt to connect the third gas pipe 45 and the second lorry side pipe 36.

  After that, as shown in FIG. 2B, the seventh on-off valve 44 is closed, and the third and eighth on-off valves 12, 46 and the first and second lorry side on-off valves 31, 34 are turned on. Open and the sixth on-off valve 26 is closed.

  As a result, the liquefied natural gas in the reserve tank 42 is supplied to the tank pressurized evaporator 8 to be evaporated and vaporized, the vaporized natural gas is supplied to the tank truck TL, and the pressure in the tank truck TL is set to a predetermined pressure ( For example, the pressure is raised to about 0.7 MPa), and the storage tank 1 is filled with liquefied natural gas in the tank truck TL. Even during this filling operation, natural gas can be supplied to the consuming equipment.

  After completion of filling, although not shown, the third and eighth on-off valves 12 and 46 are closed, the fifth and sixth on-off valves 22 and 26 are opened, and nitrogen gas is introduced from the middle of the third gas pipe 45. While flowing through the tank lorry TL and the liquefied natural gas filling pipe 11, the natural gas is caused to flow through the first boil-off gas pipe 27 and the pipe 30, and remains in the third gas pipe 45, the tank lorry TL and the liquefied natural gas filling pipe 11. Replace natural gas with nitrogen gas. After the purge operation is completed, the connection with the tank truck TL is disconnected, and the series of liquefied natural gas filling operations is completed.

Next, a method of selecting the capacity of the spare tanks 15 and 42 according to the first and second embodiments will be described.
In the case of filling liquefied natural gas from one 10-ton tank truck TL, it is about 0.5 kl. As the storage tank 1, it is 50-100kl.
In addition, when liquefied natural gas is filled from two 10-ton tank trucks TL, it is about 0.8 kl, and when liquefied natural gas is filled from three 10-ton tank trucks TL, it is about 1.1 kl.

  The spare tanks 15 and 42 have a capacity of about 5 to 10 kl (about 10% by weight of the capacity of the storage tank 1), and can be used as an emergency when the amount of liquefied natural gas in the storage tank 1 is insufficient. May be.

  In the first embodiment and the second embodiment, the case where one tank lorry TL is connected is shown, but when filling from a plurality of tank lorries TL such as two or three, the second gas pipe 19 is used. Alternatively, a plurality of connecting portions each having an on-off valve and a flange are provided in parallel on the tank lorry TL side of each of the third gas pipe 45 and the liquefied natural gas filling pipe 11.

BRIEF DESCRIPTION OF THE DRAWINGS It is the whole schematic block diagram which shows Example 1 of the liquefied natural gas filling equipment which concerns on this invention, (a) is the state at the time of normal natural gas supply, (b) is at the time of liquefied natural gas filling from a tank lorry to a storage tank Each state is shown. It is a whole schematic block diagram which shows Example 2 of the liquefied natural gas filling equipment which concerns on this invention, (a) is the state at the time of normal natural gas supply, (b) is at the time of liquefied natural gas filling from a tank lorry to a storage tank Each state is shown. (A ) is the whole schematic block diagram of the liquefied natural gas filling equipment of a prior art example, (b) is the whole schematic block diagram of the liquefied natural gas filling equipment of another prior art example.

DESCRIPTION OF SYMBOLS 1 ... Storage tank 4 ... Vaporizer 8 ... Pressurized evaporator for tanks (also used as pressurized evaporator for lorries)
10 ... 1st gas piping (gas piping)
11 ... Pipe for filling liquefied natural gas 14 ... Third liquid pipe (liquid pipe)
DESCRIPTION OF SYMBOLS 15 ... Spare tank 18 ... Pressurized evaporator for lorries 19 ... 2nd gas piping (pressurization piping)
21 ... Shut-off valve (valve mechanism)
41 ... Fifth liquid piping (liquid piping)
42 ... Reserve tank
43 ... Sixth liquid pipe (liquid pipe)
44 ... Seventh on-off valve (valve mechanism)
45 ... Third gas pipe (pressure boosting pipe)
TL ... tank truck

Claims (3)

A storage tank for storing liquefied natural gas supplied from a tank lorry and supplied to a consumption facility; and connected to the storage tank and connected to the tank lorry so as to be separable from the tank lorry to supply liquefied natural gas from the tank lorry to the storage tank In liquefied natural gas filling equipment equipped with liquefied natural gas filling piping,
A vaporizer connected to the storage tank to vaporize liquefied natural gas supplied from the storage tank to supply natural gas to the consumption facility;
A pressurized evaporator for a tank that pressurizes the inside of the storage tank in order to supply liquefied natural gas from the storage tank to the vaporizer;
A reserve tank connected to the storage tank via a liquid pipe and storing liquefied natural gas supplied from the storage tank in an amount sufficient to increase the pressure in the tank lorry;
A pressure evaporator for a lorry connected to the reserve tank and evaporating and evaporating liquefied natural gas supplied from the reserve tank;
A pressure increasing pipe connected to the pressure evaporating evaporator for the lorry and connected to the tank lorry so as to be separable and supplying the natural gas for pressure to the tank lorry;
A backflow of liquefied natural gas from the reserve tank side to the storage tank side during pressurization in the valve closed state is interposed in the liquid piping, and liquefied from the storage tank to the reserve tank by opening the valve. A valve mechanism for supplying natural gas;
A liquefied natural gas filling facility characterized by comprising: In the liquefied natural gas filling equipment according to claim 1,
The pressure evaporator for the tank and the upper part of the storage tank are connected via a gas pipe, the pressure increase pipe is connected to the pressure evaporator for the tank, and the lower side of the storage tank and the reserve tank are connected to the liquid pipe. And the auxiliary tank and the pressurized evaporator for the tank are connected via a liquid pipe, and the pressurized evaporator for the lorry is also used as the pressurized evaporator for the tank. Liquefied natural gas filling equipment. In the liquefied natural gas filling equipment according to claim 2,
A liquefied natural gas filling facility in which the pressurized evaporator for the tank is a hot water heating type

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