JP2006307936A - Lng shipping method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an LNG shipping method for expelling oxygen intruded into a pipe before LNG loading work in a short time and returning natural gas stored in the pipe after LNG loading work into an LNG storage tank in a short time without diffusing the natural gas into the atmosphere. <P>SOLUTION: An LNG receiving pipe 19 and a gas exhaust pipe 23 are mutually connected by a connection pipe 70 provided with a gate valve 69 in advance. Upon completion of transfer of LNG into a transportation tank 16, a shipment side LNG shutting-off valve 13, a cargo receiving side LNG shutting-off valve 18, and a gas exhaust valve 22 are closed, respectively, and the gate valve 69 is opened to supply inactive gas into an LNG delivery pipe 14 and let it flow into an LNG delivery pipe 14, the LNG receiving pipe 19, the connection pipe 70, the gas exhaust pipe 23, and a gas receiving pipe 28 until concentration of the natural gas in the gas receiving pipe 28 reaches a fixed concentration or less so that the natural gas stored in respective pipes 14, 19, 70, 23, 28 is expelled and recovered all at once. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to a method for shipping LNG when LNG is loaded from a LNG storage tank into, for example, a tank tanker or a transport tank of a coastal ship.

Conventionally, as shown in FIG. 3, in the manual LNG shipping method of loading LNG into the lorry tank 100, the LNG storage tank is connected to the shipping line 102 of the shipping main 101 of the LNG storage tank via the shipping LNG cutoff valve 103. An LNG receiving port connected to an LNG outlet side flange 105 provided at the tip of the loading arm mechanism 104 a connected to the LNG discharging pipe 104 and an LNG filling line 106 provided to the lorry tank 100 via a cargo receiving side LNG cutoff valve 107. A gas outlet side flange 113 of a gas discharge pipe 112 connected to the gas discharge line 110 of the lorry tank 100 via a gas discharge valve 111 to connect the LNG receiving side flange 109 of the pipe 108 to form an LNG transport line; Gas shut off to gas recovery line 115 of gas recovery main 114 of LNG storage tank And it connects the gas receiving side flange 118 provided at the tip of a connected loading arm mechanism 117a 116 the gas receiving pipe 117 which connects through to form a gas recovery line. The state at this time is shown in FIG. 3 and 4, the white valve symbol indicates an open state, and the black valve symbol indicates a closed state.

In this manual LNG shipping method, the LNG side nitrogen inlet provided in the nitrogen gas supply line 119 is used to confirm that the flanges 105, 109, 113, 118 are securely connected after the connection is completed. The valve 120 and the gas side nitrogen inlet valve 121 are opened, and nitrogen gas is introduced into the LNG discharge pipe 104 and the LNG receiving pipe 108, and the gas discharge pipe 112 and the gas receiving pipe 117, which are in communication with each other, for example, about Sealing is performed until the pressure reaches about 0.5 MPa, and a hermetic test is performed to check the presence or absence of leakage of nitrogen gas by, for example, applying soapy water to the connecting portions of the flanges 105, 109, 113, and 118.

Further, when the flanges 105, 109, 113, and 118 are connected to each other, air enters the loading arm mechanism 104a, the LNG receiving pipe 108, the gas discharge pipe 112, and the loading arm mechanism 117a. It is necessary to expel oxygen gas in the air that has entered. For this reason, after the airtight test is completed, the LNG side nitrogen inlet valve 120 and the gas side nitrogen inlet valve 121 are closed, and first, the low LNG side purge valve 122 provided in the LNG receiving pipe 108 is opened, and the LNG discharge pipe in the communication state is opened. 104 and the nitrogen gas enclosed in the LNG receiving pipe 108 are released, so that the oxygen gas in the air that has entered is released to the outside together with the nitrogen gas. At this time, the oxygen concentration in the released nitrogen gas is measured. For example, if the oxygen concentration is 1% or less, it is determined that the oxygen in the air that has entered is expelled, and the nitrogen gas pressure in the tubes 104 and 108 is high. When the pressure returns to about the atmospheric pressure, the low LNG side purge valve 122 is closed so that the tubes 104 and 108 are filled with nitrogen gas.

When the expulsion of the oxygen gas in the pipes 104 and 108 is completed, the low gas purge valve 123 provided in the gas discharge pipe 112 is opened, and the nitrogen sealed in the gas discharge pipe 112 and the gas receiving pipe 117 in communication with each other. The gas is discharged to the outside together with the oxygen gas in the air that has entered, and after confirming that the oxygen concentration in the nitrogen gas is 1% or less, the pressure in the pipes 112 and 117 is returned to about atmospheric pressure and the lorry gas The side purge valve 123 is closed so that the tubes 112 and 117 are filled with nitrogen gas. When the oxygen concentration in the nitrogen gas exceeds 1%, the nitrogen gas is repeatedly sealed and released until the oxygen concentration becomes 1% or less. And after performing the above operation, the load receiving side LNG cutoff valve 107, the lorry upper filling valve 125, and the shipping side LNG cutoff valve 103 are opened in order, and the opening degree of the shipping line flow rate adjustment valve 127 is set to, for example, 10%. A small amount of LNG is poured into the lorry tank 100 to cool down, and then the LNG is loaded into the lorry tank 100.

Also, when the LNG loading operation is completed and the LNG removal operation for returning the LNG remaining in the LNG discharge pipe 104, the LNG receiving pipe 108, and the LNG filling line 106 to the lorry tank 100 and the LNG storage tank with nitrogen gas is completed. Then, as shown in FIG. 4, the shipping side LNG cutoff valve 103, the gas discharge valve 111, the LNG side nitrogen inlet valve 120, the gas side nitrogen inlet valve 121, the lorry lower filling valve 124 of the LNG filling line 106, and the lorry upper filling valve 125, the lorry LNG side purge valve 122, and the lorry gas side purge valve 123 are all closed, and the load receiving LNG cutoff valve 107 and the gas cutoff valve 116 are open. The LNG discharge pipe 104, the LNG receiving pipe 108, and the LNG filling line 106 are filled with natural gas and nitrogen gas, and the gas exhaust pipe 112, the gas receiving pipe 117, and the gas recovery line 115 are filled with natural gas. Therefore, when releasing the connection between the flanges 105, 109, 113, 118, it is necessary to expel natural gas.

Therefore, the natural gas is released from the low LNG side purge valve 122 together with the nitrogen gas while the LNG side purge valve 122 is opened and then the LNG side nitrogen inlet valve 120 is opened to supply the nitrogen gas, and the methane gas concentration in the nitrogen gas is released. When the pressure becomes 1% or less, the load receiving side LNG cutoff valve 107 and the LNG side nitrogen inlet valve 120 are closed, and when the nitrogen gas pressure in the pipes 104 and 108 returns to about atmospheric pressure, the low LNG side purge valve 122 is returned. Is closed so that the tubes 104 and 108 are filled with nitrogen gas.

When the expulsion of the natural gas in the pipes 104 and 108 is finished, the gas shutoff valve 116 is closed, the lorry gas side purge valve 123 is opened, the gas side nitrogen inlet valve 121 is opened, and nitrogen gas is supplied while supplying the nitrogen gas. Natural gas is released together with nitrogen gas from the purge valve 123, and when the methane gas concentration in the nitrogen gas becomes 1% or less, the gas side nitrogen inlet valve 121 is closed, and the pressure in the pipes 112 and 117 reaches about atmospheric pressure. At the time of return, the lorry gas side purge valve 123 is closed so that the tubes 112 and 117 are filled with nitrogen gas. And after performing the above operation, it transfers to cancellation | release of connection of each flange 105,109,113,118.
Reference numerals 126 and 128 denote a shipping line original valve and a gas line outlet valve, respectively. Reference numerals 129 and 130 denote an LNG side pressure gauge and a gas side pressure gauge, respectively.

On the other hand, a remote controllable control valve and a shutoff valve are provided on the LNG transport line and the gas recovery line, respectively, and a nitrogen gas supply valve and a drain valve that can be remotely operated to supply and release nitrogen gas to the LNG transport line and the gas recovery line. Connected to a pipe with a pressure supply, nitrogen gas is supplied to the area partitioned by the control valve and shut-off valve or the main valve of the tank truck, and then the drain valve, control valve or shut-off valve is opened and the LNG transport line is opened. The LNG, natural gas, and natural gas in the gas recovery line are each automatically replaced by releasing the LNG, natural gas, and natural gas in the gas recovery line by opening and closing each valve based on a preset program. It has been proposed (see, for example, Patent Document 1).

JP 2001-324093 A

However, in the manual LNG shipping method, when the oxygen gas or natural gas in each pipe 104, 108, 112, 117 is purged with nitrogen gas, it is purged separately for each LNG transport line and gas recovery line. There is a problem that work is required and time is required. In addition, since nitrogen gas containing natural gas is diffused into the atmosphere, a tall diffuser tube must be prepared to maintain the working environment, which increases equipment costs and contributes to global warming. The problem of becoming.

On the other hand, in the invention described in Patent Document 1, in the case where a pipe having a nitrogen gas supply valve and a drain valve that can be remotely operated is provided, the configuration of the LNG transport line and the gas recovery line becomes complicated, and There is a problem that the production cost becomes high. In addition, when using a pipe with a nitrogen gas supply valve and a drain valve that can be operated remotely as a common facility, the pipe must be reconnected every time LNG is loaded, making the pipe switching work complicated. Problem arises. Furthermore, when oxygen gas and natural gas in the LNG transport line and gas recovery line are purged with nitrogen gas, it is necessary to separate the LNG transport line and gas recovery line separately and it takes time. There is.

The present invention has been made in view of such circumstances, and expells oxygen that has entered the pipe before the loading operation of LNG in a short time, and does not dissipate the natural gas accumulated in the pipe after the loading operation of LNG into the atmosphere. An object of the present invention is to provide a shipping method of LNG that can be returned to the LNG storage tank in a short time.

The LNG shipping method according to the present invention that meets the above-mentioned object is the LNG delivery pipe connected to the shipping line connected to the shipping main of the LNG storage tank via the shipping LNG shutoff valve. A gas discharge pipe connected to a gas discharge line connected to the transport tank via a gas discharge valve is connected to the LNG storage tank, connected to an LNG receiving pipe connected to the filling line via a LNG cutoff valve on the receiving side. In the LNG shipping method performed by connecting to a gas receiving pipe connected to a gas recovery line connected to a connected gas recovery main line via a gas shut-off valve,
The LNG receiving pipe and the gas discharge pipe are connected in advance with a connecting pipe having a partition valve,
After the connection between the LNG discharge pipe and the LNG receiving pipe and the connection between the gas discharge pipe and the gas receiving pipe are completed, the partition valve is opened, the shipping side LNG cutoff valve, the cargo receiving side LNG cutoff valve, An inert gas is supplied and sealed in the communication region partitioned by the gas discharge valve and the gas shut-off valve, a connection portion between the LNG discharge pipe and the LNG receiving pipe, and the gas discharge pipe and the gas receiving pipe. Perform an airtight test to confirm leakage of the inert gas at the connection with
When the gas blow valve provided in the communication area is opened after the airtight test is completed, the LNG discharge pipe is connected to the LNG discharge pipe and the LNG reception pipe, and the gas discharge pipe and the gas reception pipe are connected. Oxygen in the air that has entered through the opening of each end of the pipe, the LNG receiving pipe, the gas discharge pipe, and the gas receiving pipe is discharged together with the inert gas sealed in the communication area. The oxygen gas concentration in the active gas is reduced to a certain value or less, and then the LNG is transferred to the transport tank.
Before the transfer operation of LNG to the transport tank is completed and the respective connection portions are disconnected, the shipping side LNG cutoff valve, the cargo receiving side LNG cutoff valve, and the gas discharge valve are closed to open the partition valve. The LNG discharge pipe, the LNG reception pipe, the connection pipe, the gas discharge pipe, and the gas are supplied until an inert gas is supplied into the LNG discharge pipe and the natural gas in the gas reception pipe becomes a predetermined concentration or less. The natural gas accumulated in each of the pipes is expelled and collected in a batch.
Here, the constant concentration means that the concentration of methane gas (the main component of natural gas) in the inert gas discharged from the gas blow valve is, for example, 1/5 of the explosion limit concentration in air. Point to.

In the LNG shipping method according to the present invention, a gas recovery bypass line having a gas inflow valve and a gas outflow valve is provided between the gas recovery line and the gas receiving pipe so as to bypass the gas cutoff valve. The gas blow valve may be provided between the inflow valve and the gas outflow valve.

In the LNG shipping method according to claims 1 and 2, the gate valve is opened, and the inert gas is supplied to the communication area partitioned by the shipping side LNG cutoff valve, the cargo receiving side LNG cutoff valve, the gas discharge valve, and the gas cutoff valve. By supplying and sealing, leakage of the inert gas from the connection part of the LNG discharge pipe and the LNG receiving pipe and the connection part of the gas discharge pipe and the gas receiving pipe can be confirmed at the same time. It is possible to perform an airtight test at the same time. As a result, the airtight test can be completed in a short time.
In addition, by opening the gas blow valve provided in the communication area, oxygen gas in the air that entered the pipes when the LNG discharge pipe and the LNG receiving pipe are connected and when the gas discharge pipe and the gas receiving pipe are connected together with the inert gas. It is possible to expel it in a batch, and it is possible to expel oxygen gas from each tube in a short time. As a result, it is possible to shift to the transfer operation of LNG to the transport tank in a short time.
Open the gate valve after closing the LNG cutoff valve on the shipping side, the LNG cutoff valve on the receiving side, and the gas discharge valve, and supply an inert gas into the LNG discharge pipe, LNG discharge pipe, LNG receiving pipe, connecting pipe, gas The exhaust (natural gas purge) and recovery of the natural gas in the discharge pipe and the gas receiving pipe can be performed in a lump, and the natural gas can be driven out and recovered in a short time. In addition, since the natural gas in each pipe is pushed by the inert gas and flows into the gas recovery main pipe, the expelled natural gas is not released into the atmosphere, so it has a high height for natural gas emission. It is not necessary to prepare a pipe, the equipment cost is reduced, and it can contribute to the prevention of global warming.

Particularly, in the LNG shipping method according to claim 2, the inert gas supplied by opening the gas inflow valve and the gas blow valve can be discharged to the outside, and an oxygen concentration meter is provided at the discharge port of the gas blow valve, for example. Thus, it is possible to easily confirm that the oxygen gas in the air that has entered each pipe is expelled when the LNG discharge pipe and the LNG receiving pipe are connected and when the gas discharge pipe and the gas receiving pipe are connected. Further, for example, by providing a methane gas concentration meter at the discharge port of the gas blow valve, it is possible to easily confirm that the natural gas in the gas receiving pipe has become a certain concentration or less.

Next, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention.
Here, FIG. 1 is an explanatory view of an LNG shipping apparatus to which the LNG shipping method according to an embodiment of the present invention is applied, and FIG. 2 is an explanatory view showing a valve state when the LNG removal operation of the LNG shipping apparatus is completed. FIG.

As shown in FIG. 1, an LNG shipping facility 10 to which an LNG shipping method according to an embodiment of the present invention is applied includes a shipping line 12 connected to a shipping main 11 of an LNG storage tank (not shown), It is an example of the LNG filling line provided in the shipping apparatus 15 provided with the LNG delivery pipe | tube 14 connected with the line 12 via the shipping side LNG cutoff valve 13 which can be opened and closed automatically, and the lorry tank 16 which is an example of a transport tank. An LNG receiving device 20 having a LNG receiving pipe 19 connected to a lorry LNG filling line 17 and a LNG receiving pipe 19 connected to the lorry LNG filling line 17 via a lorry LNG emergency shut-off valve 18 which is an example of a load receiving side LNG shut-off valve that can be automatically opened and closed. Have.

The LNG shipping facility 10 includes a lorry gas discharge line 21 which is an example of a gas discharge line connected to the lorry tank 16, and a gas discharge pipe 23 connected to the lorry gas discharge line 21 via a gas discharge valve 22. The gas discharge device 24 provided, the gas recovery line 26 connected to the gas recovery main pipe 25 connected to the LNG storage tank, and the gas receiving pipe connected to the gas recovery line 26 via a gas shut-off valve 27 that can be automatically opened and closed. A gas return device 29 having 28 is provided.

Here, the shipping device 15 and the gas return device 29 are fixedly arranged on the LNG storage tank side, and the LNG receiving device 20 and the gas discharge device 24 are movable together with the lorry tank 16. Then, while connecting the LNG discharge pipe 14 and the LNG receiving pipe 19 and connecting the gas receiving pipe 28 and the gas discharge pipe 23, the LNG in the LNG storage tank is being loaded into the lorry tank 16 while the LNG is being loaded. The natural gas that has been vaporized and filled in the lorry tank 16 can be returned to the LNG storage tank.

A shipping line main valve 30 is provided in the shipping line 12, and a shipping line flow rate adjusting valve 31 is provided between the shipping line main valve 30 and the shipping side LNG cutoff valve 13. The LNG payout pipe 14 is provided at the distal end portion of the LNG loading arm mechanism 34, the LNG side fixing pipe 33 connected to the shipping side LNG cutoff valve 13, the LNG side loading arm mechanism 34 connected to the LNG side fixing pipe 33. The LNG side front end flange 39 is provided. Furthermore, a nitrogen supply line 41 for supplying nitrogen gas, which is an example of an inert gas, is connected to the LNG side fixed pipe 33 via an LNG side nitrogen inlet valve 42 and an LNG side pressure gauge 44 is provided. Yes.

The gas recovery line 26 has a gas line outlet valve 45 and is connected to the gas recovery main pipe 25, and the gas receiving pipe 28 is connected to the gas side fixed pipe 47 connected to the gas cutoff valve 27 and the gas side fixed pipe 47. It has a gas side loading arm mechanism 46, a gas side tip flange 53 provided at the tip of the gas side loading arm mechanism 46, and a gas side pressure gauge 57. The gas shut-off valve 27 is provided with a gas recovery bypass line 60 having a gas inlet valve 58 and a gas outlet valve 59 in the middle, and a gas blow valve 61 is attached between the gas inlet valve 58 and the gas outlet valve 59. ing.

The lorry LNG filling line 17 includes a lorry lower filling line 63 provided with a lorry lower filling valve 62 and connected to the lower part of the lorry tank 16, and a lorry upper filling line provided with a lorry upper filling valve 64 and connected to the upper part of the lorry tank 16. 65. The LNG receiving pipe 19 connected to the lorry LNG filling line 17 via the lorry LNG emergency shut-off valve 18 is provided with a lorry LNG side purge valve 66 communicating with the outside, and at the tip of the LNG receiving pipe 19, A lorry LNG filling port flange 67 which is paired with the LNG side front end flange 39 is provided. In addition, a lorry gas recovery port flange 68 that is paired with the gas-side tip flange 53 is provided at the tip of the gas discharge pipe 23. Further, the LNG receiving pipe 19 and the gas discharge pipe 23 are connected by a connecting pipe 70 provided with a gate valve 69, and a region of the connecting pipe 70 closer to the gas exhaust pipe 23 than the gate valve 69 communicates with the outside. A gas side purge valve 71 is provided.

Next, a method for shipping LNG according to an embodiment of the present invention will be described.
First, the tank lorry vehicle enters the tank lorry vehicle shipping yard in which the shipping device 15 and the gas return device 29 are installed, and stops at a predetermined position. Next, as shown in FIG. 1, the LNG side loading arm mechanism 34 provided on the LNG delivery pipe 14 of the shipping device 15 is operated to adjust the position of the LNG side tip flange 39, and the LNG receiving pipe 19 is filled with the lorry LNG. It connects with the mouth flange 67. Further, the gas side loading arm mechanism 46 provided in the gas receiving pipe 28 of the gas return device 29 is operated to adjust the position of the gas side leading end flange 53 and to be connected to the lorry gas recovery port flange 68 of the gas exhaust pipe 23. . At this time, since air enters from the openings of the flanges 39, 67, 53, and 68, the shipping device 15, the LNG receiving device 20, the gas returning device 29, and the gas discharging device 24 are in a state where air has entered. Connected. The state at this time is shown in FIG. Here, in FIGS. 1 and 2, the white valve symbol indicates an open state, and the black valve symbol indicates a closed state.

Next, the LNG side nitrogen inlet valve 42 and the gate valve 69 are opened to allow nitrogen gas to flow into the LNG side fixed pipe 33. By opening the gate valve 69, the LNG side fixed pipe 33, the LNG side loading arm mechanism 34, the LNG receiving pipe 19, the connection pipe 70, the gas discharge pipe 23, the gas side loading arm 46, and the gas side fixed pipe 47 are in communication. (That is, a communication area partitioned by the shipping side LNG cutoff valve 13, the low LNG emergency cutoff valve 18, the gas discharge valve 22, and the gas cutoff valve 27 is formed) and flows into the LNG side fixed pipe 33 Since the nitrogen gas reaches the gas side fixed pipe 47 via the LNG side fixed pipe 33, the LNG side loading arm mechanism 34, the LNG receiving pipe 19, the connecting pipe 70, the gas discharge pipe 23, and the gas side loading arm 46, The pressure of the nitrogen gas in each pipe 33, 34, 19, 70, 23, 46, 47 can be simultaneously set to, for example, about 0.5 MPa. . The pressure of the nitrogen gas can be confirmed with the LNG side pressure gauge 44 or the gas side pressure gauge 57. As a result, a connecting portion (connecting portion between the LNG discharge pipe 14 and the LNG receiving pipe 19) of the LNG side leading end flange 39 and the lorry LNG filling port flange 67, and a connecting portion of the gas side leading end flange 53 and the lorry gas recovery port flange 68 ( By applying soapy water to each of the gas receiving pipe 28 and the gas discharge pipe 23), the airtight test of each connecting portion can be performed simultaneously.

When it is confirmed that there is no leakage at the connecting portions of the flanges 39, 67, 53, 68, the LNG side nitrogen inlet valve 42 is closed and the gas inflow valve 58 and the gas blow valve 61 are opened. As a result, the nitrogen gas sealed in the tubes 33, 34, 19, 70, 23, 46, 47 can be released to the outside, and the tubes 33, 34, 19, 70, 23, 46, 47 Oxygen gas can be released to the outside together with nitrogen gas. Then, an oxygen concentration meter is attached to the gas blow valve 61 to measure the oxygen concentration in the nitrogen gas. For example, when it is confirmed that the oxygen concentration is 1% or less, it is determined that the oxygen in the air that has entered is expelled. When the nitrogen gas pressure in the pipes 33, 34, 19, 70, 23, 46, 47 returns to about atmospheric pressure, the gas blow valve 61 and the gas inflow valve 58 are closed, and then the gate valve 69 is closed. . As a result, the pipes 33, 34, 19, 70, 23, 46, 47 can be filled with nitrogen gas, and the operation of transferring LNG into the lorry tank 16 (transfer operation) can be made.

At the time when the LNG loading operation is completed and the LNG removal operation for returning the LNG remaining in the LNG discharge pipe 14, the LNG receiving pipe 19, and the lorry LNG filling line 17 to the lorry tank 16 and the LNG storage tank with nitrogen gas is completed. 2, the shipping side LNG shut-off valve 13, the gas discharge valve 22, the LNG side nitrogen inlet valve 42, the gas inflow valve 58, the gas outflow valve, the gas blow valve 61, and the lorry lower filling valve of the lorry LNG filling line 17. 62, the lorry upper filling valve 64, the lorry LNG side purge valve 66, the gate valve 69, and the lorry gas side purge valve 71 are all closed, and the lorry LNG emergency cutoff valve 18 and the gas cutoff valve 27 are open. It has become. Natural gas and nitrogen gas are contained in the LNG discharge pipe 14, LNG receiving pipe 19, and lorry LNG filling line 17, and natural gas is contained in the gas discharge pipe 23, gas receiving pipe 28, and gas recovery line 26, respectively. The state is full. Here, although the lorry lower filling valve 62 and the lorry upper filling valve 64 are closed and the lorry LNG emergency shut-off valve 18 is opened, the lorry LNG emergency shut-off valve 18 may be closed.

Therefore, after closing the gas shut-off valve 27 and opening the gas inflow valve 58, gas outflow valve 59, and gate valve 69 of the gas recovery bypass line 60, the LNG side nitrogen inlet valve 42 is opened to enter the LNG discharge pipe 14. Nitrogen gas was introduced and flowed into the LNG discharge pipe 14, the LNG receiving pipe 19, the connecting pipe 70, the gas discharge pipe 23, and the gas receiving pipe 28, and accumulated in each pipe 14, 19, 70, 23, 28. The natural gas is driven out by nitrogen gas having a pressure of about 0.2 MPa, for example, and flows into the gas recovery main pipe 25 through the gas recovery bypass line 60 and the gas recovery line 26. As a result, the natural gas accumulated in the pipes 14, 19, 70, 23, and 28 can be expelled in a lump, and the expelled natural gas is collected together with nitrogen gas in the LNG storage tank. Then, after a lapse of a certain time from the start of the supply of nitrogen gas, the gas blow valve 61 is opened and the methane gas concentration in the nitrogen gas is measured with a methane gas concentration meter. If the measured methane gas concentration is 1% or less, it is determined that the expulsion of natural gas has been completed.

When the purge of the natural gas is completed, the LNG side nitrogen inlet valve 42, the gas blow valve 61, the gas inflow valve 58, the gas outflow valve 59, and the gate valve 69 are closed, and then the lorry LNG side purge valve 66 and the lorry gas side purge valve are closed. 71 is opened to release nitrogen gas in the tubes 14, 19, 70, 23, and 28, and when the nitrogen gas pressure in the tubes 14, 19, 70, 23, and 28 returns to about atmospheric pressure, the lorry LNG side The purge valve 66 and the lorry gas side purge valve 71 are closed so that the tubes 14, 19, 70, 23, and 28 are filled with nitrogen gas. As a result, the flanges 39, 67, 53, 68 can be disconnected. Then, by separating the shipping device 15 and the LNG receiving device 20 and the gas returning device 29 and the gas discharging device 24 from each other, the tank lorry vehicle can be detached from the lorry shipping yard.

As mentioned above, although embodiment of this invention was described, this invention is not limited to this embodiment, The change in the range which does not change the summary of invention is possible, Each above-mentioned embodiment is possible. The case where the LNG shipping method of the present invention is configured by combining some or all of the forms and modifications is also included in the scope of the right of the present invention.
For example, although nitrogen gas is used as the inert gas, a gas having nonflammability against natural gas such as argon gas may be used. Although the loading arm mechanism is provided in each of the LNG discharge pipe and the gas receiving pipe, for example, a flexible hose provided with a flange as an example of a connecting means at the tip can also be used. Further, although the case where the tanker truck is loaded on the tank truck is described, the LNG can be shipped in a substantially similar manner when the tanker truck is loaded on the coastal ship.
In addition, each valve is an automatic valve that can be remotely operated, and either or both of the LNG side pressure gauge and the gas side pressure gauge can be externally output, and both are externally output to the discharge port side of the gas blow valve. By installing a possible oxygen concentration meter and methane gas concentration meter, each valve can be operated remotely based on the detection signal of each pressure meter and each concentration meter, and the shipping operation of LNG can be automated. .

It is explanatory drawing of the LNG shipping apparatus to which the LNG shipping method which concerns on one embodiment of this invention is applied. It is explanatory drawing which shows the valve state at the time of completion of the LNG extraction operation | work of the shipping apparatus of the same LNG. It is explanatory drawing of the LNG shipping apparatus to which the LNG shipping method which concerns on a prior art example is applied. It is explanatory drawing which shows the valve state at the time of completion of the LNG extraction operation | work of the shipping apparatus of the same LNG.

Explanation of symbols

10: LNG shipping equipment, 11: shipping main, 12: shipping line, 13: shipping side LNG shut-off valve, 14: LNG discharge pipe, 15: shipping device, 16: lorry tank, 17: lorry LNG filling line, 18 : Lorry LNG emergency shutoff valve, 19: LNG receiving pipe, 20: LNG receiving apparatus, 21: Lowry gas discharge line, 22: Gas discharge valve, 23: Gas discharge pipe, 24: Gas discharge apparatus, 25: Gas recovery main pipe , 26: gas recovery line, 27: gas shutoff valve, 28: gas receiving pipe, 29: gas return device, 30: shipping line original valve, 31: shipping line flow control valve, 33: LNG side fixed pipe, 34: LNG Side loading arm mechanism, 39: LNG side tip flange, 41: Nitrogen supply line, 42: LNG side nitrogen inlet valve, 44: LNG side pressure gauge, 45: Gas IN outlet valve, 46: gas side loading arm mechanism, 47: gas side fixed pipe, 53: gas side tip flange, 57: gas side pressure gauge, 58: gas inlet valve, 59: gas outlet valve, 60: gas recovery bypass Line: 61: Gas blow valve, 62: Raleigh lower filling valve, 63: Raleigh lower filling line, 64: Raleigh upper filling valve, 65: Raleigh upper filling line, 66: Raleigh LNG side purge valve, 67: Raleigh LNG filling port flange 68: Lowry gas recovery port flange, 69: Gate valve, 70: Connecting pipe, 71: Lowry gas side purge valve

Claims (2)

The LNG discharge pipe connected to the shipping line connected to the shipping main of the LNG storage tank via the shipping LNG cutoff valve is connected to the LNG filling line provided in the transport tank via the cargo receiving LNG cutoff valve. Connect the LNG receiving pipe to the gas recovery line connected to the gas recovery line connected to the LNG storage tank by connecting the gas discharge pipe connected to the gas discharge line connected to the transport tank via the gas discharge valve. In the shipping method of LNG performed by connecting to a gas receiving pipe connected through a gas shut-off valve,
The LNG receiving pipe and the gas discharge pipe are connected in advance with a connecting pipe having a partition valve,
After the connection between the LNG discharge pipe and the LNG receiving pipe and the connection between the gas discharge pipe and the gas receiving pipe are completed, the partition valve is opened, the shipping side LNG cutoff valve, the cargo receiving side LNG cutoff valve, An inert gas is supplied and sealed in the communication region partitioned by the gas discharge valve and the gas shut-off valve, a connection portion between the LNG discharge pipe and the LNG receiving pipe, and the gas discharge pipe and the gas receiving pipe. Perform an airtight test to confirm leakage of the inert gas at the connection with
When the gas blow valve provided in the communication area is opened after the airtight test is completed, the LNG discharge pipe is connected to the LNG discharge pipe and the LNG reception pipe, and the gas discharge pipe and the gas reception pipe are connected. Oxygen in the air that has entered through the opening of each end of the pipe, the LNG receiving pipe, the gas discharge pipe, and the gas receiving pipe is discharged together with the inert gas sealed in the communication area. The oxygen gas concentration in the active gas is reduced to a certain value or less, and then the LNG is transferred to the transport tank.
Before the transfer operation of LNG to the transport tank is completed and the respective connection portions are disconnected, the shipping side LNG cutoff valve, the cargo receiving side LNG cutoff valve, and the gas discharge valve are closed to open the partition valve. The LNG discharge pipe, the LNG reception pipe, the connection pipe, the gas discharge pipe, and the gas are supplied until an inert gas is supplied into the LNG discharge pipe and the natural gas in the gas reception pipe becomes a predetermined concentration or less. A method for shipping LNG, characterized in that the natural gas accumulated in each of the pipes is expelled and collected in a batch by flowing into the receiving pipes. The LNG shipping method according to claim 1, wherein a gas recovery bypass line that bypasses the gas shut-off valve and has a gas inflow valve and a gas outflow valve is provided between the gas recovery line and the gas receiving pipe, A method for shipping LNG, wherein the gas blow valve is provided between a gas inflow valve and the gas outflow valve.

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