JP2009115178A - Liquefied natural gas satellite facility - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To supply fuel gas (LNG) to a consumer or the like even during periodical inspections of an LNG satellite facility. <P>SOLUTION: In the LNG satellite facility 10, an LNG storage tank 13 receives LNG from a tanker 11, and the LNG stored in the LNG storage tank is taken out as the fuel gas and supplied to a fuel gas supply destination installation. At least a control valve arranged in a first delivery line 15 connecting the LNG storage tank and carburetors 16, 17 gasifying the LNG, a control valve provided in a vent line 18 connected to the LNG storage tank, and a control valve provided in a second delivery line 22 as an output line for the carburetors are respectively formed into a double structure. The control valves are selectively changed over during the inspections of the control valves. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an LNG satellite facility that includes a liquefied natural gas (LNG) storage tank (storage tank) and supplies LNG from the LNG storage tank to a consumer as a fuel gas.

  Generally, in local cities, so-called LNG satellite facilities (satellite bases) are arranged to supply LNG to consumers, and this LNG satellite facility has an LNG storage tank (LNG storage tank) for storing LNG. Is provided, and the LNG stored in the LNG storage tank is vaporized by a vaporizer and supplied to the consumer as fuel gas. The LNG satellite facility (that is, the LNG storage tank) is regularly replenished with a tank truck. Then, the LNG stored in the LNG storage tank is vaporized and supplied to a consumer or the like as fuel gas.

  In such an LNG satellite facility, liquefied natural gas is received from a lorry tank (tank lorry tank) via a receiving line into an LNG storage tank. A fuel discharge line communicates from the LNG storage tank to a customer facility such as a boiler or a gas turbine via a heat exchanger (vaporizer). Furthermore, the LNG satellite facility is branched from the receiving line and communicates with the upstream side of the heat exchanger of the fuel discharge line, and the LNG is supplied to the fuel discharge line in parallel with the supply of LNG to the LNG storage tank. And a line for delivering gas discharged from the lorry tank and the LNG storage tank to the fuel delivery line via a heat exchanger (see, for example, Patent Document 1).

  As described above, when LNG is received from the tank lorry to the LNG satellite facility, for example, the LNG satellite facility and the tank lorry are connected by a flexible hose, LNG is received from the tank lorry into the LNG storage tank, and fuel gas (LNG from the LNG storage tank). However, since the LNG satellite facility is equipped with various valves (valves), it is necessary to periodically check these valves.

Typical periodic inspections include legal inspections based on the Electricity Business Law and legal inspections based on the High Pressure Gas Safety Law. For each LNG satellite facility, regular inspections based on the Electricity Business Law or the High Pressure Gas Safety Law It is necessary to carry out regular inspection based on this. In addition, it is necessary to conduct legal inspections under the Electricity Business Act once every two years, especially various valves. In addition, legal inspections based on the High Pressure Gas Safety Law must be conducted once / yearly, and in particular, various valves and piping are inspected.
JP 2002-54796 A

  By the way, when performing the above-mentioned periodic inspection, it is generally necessary to stop the LNG satellite facility, and when the operation of the LNG satellite facility is stopped, it is natural that the fuel gas from the LNG satellite facility to the consumer etc. Supply is also stopped. The period required for periodic inspections varies depending on the size of the LNG satellite facility, etc., but is usually about one week to one month. During this period, customers cannot receive fuel gas, such as boilers, gas turbines, etc. It is necessary to stop the fuel gas supply destination facility or secure alternative fuel.

  As described above, it is often difficult to stop the fuel gas supply destination equipment, and if the fuel gas supply destination equipment is stopped, production will be hindered during that time. On the other hand, if the alternative fuel is secured, the facility for receiving the supply of the alternative fuel must be provided as a backup in spite of the stoppage of one week to one month during one year or two years. The burden will be excessive.

  In any case, during regular inspection of the LNG satellite facility, there is a problem that productivity of consumers and the like decreases.

  Accordingly, an object of the present invention is to provide an LNG satellite facility that can supply fuel gas (LNG) to consumers and the like even during regular inspection of the LNG satellite facility.

  (1) In the present invention, liquefied natural gas is received from a tank provided in a tank lorry into a liquefied natural gas storage tank, and the liquefied natural gas stored in the liquefied natural gas storage tank is discharged as fuel gas to a fuel gas supply destination facility. A liquefied natural gas satellite facility for providing at least a safety valve and a control valve arranged in a first discharge line connecting the liquefied natural gas storage tank and the vaporizer for gasifying the liquefied natural gas, and the output of the vaporizer The safety valve and the control valve provided in the second payout line, which is a line, are respectively duplicated, and the control valve is selectively switched when the control valve is inspected.

  In the liquefied natural gas satellite facility described in (1), the control valve provided in the first payout line, the vent line and the second payout line is duplicated. By switching, the control valve can be inspected while supplying the fuel gas to the consumer (fuel gas supply destination facility). That is, the control valve can be inspected without stopping the operation of the liquefied natural gas satellite facility.

  (2) The present invention is the liquefied natural gas satellite facility according to (1), characterized in that the duplicated control valves are arranged in parallel.

  In the liquefied natural gas satellite facility described in (2), since the control valves are arranged in parallel, there is an effect that when the control valves are selectively switched, the switching operation of the control valves is easy.

  (3) The present invention is the liquefied natural gas satellite facility according to (1) or (2), wherein the liquefied natural gas storage tank and a vaporizer that gasifies the liquefied natural gas are arranged in a first payout line. As a control valve, a shut-off valve and a safety valve are used, and as a control valve provided in a vent line connected to the liquefied natural gas storage tank, a safety valve is used, and a second discharge line that is an output line of the vaporizer is used. A safety valve and a pressure regulating valve are used as the control valves provided.

  In the liquefied natural gas satellite facility described in (3), since the safety valve, the shut-off valve, and the pressure regulating valve are doubled, the fuel gas can be supplied while performing a periodic inspection based on the Electricity Business Act.

  (4) The present invention provides the liquefied natural gas satellite facility according to (1), wherein the first payout line is duplicated with a first payout line and a second payout line arranged in parallel. The second payout line is selectively switched.

  In the liquefied natural gas satellite facility described in (4), the first payout line is doubled with the first and second payout lines arranged in parallel. The fuel gas can be supplied while performing the above.

  (5) In the liquefied natural gas satellite facility according to (4), the present invention provides a control valve disposed in a first discharge line that connects the liquefied natural gas storage tank and a vaporizer that gasifies the liquefied natural gas. The first and second shut-off valves and the second and third safety valves are used as safety valves as control valves provided in a vent line connected to the liquefied natural gas storage tank, and the output of the vaporizer A safety valve and a pressure regulating valve are used as control valves provided in a second payout line that is a line, and the first shutoff valve and the second safety valve are provided in the first payout line, The second payout line is provided with the second shut-off valve and the third safety valve.

  In the liquefied natural gas satellite facility described in (5), the first discharge is performed using the first and second shut-off valves and the second and third safety valves as the control valves disposed in the first discharge line. Since the first shutoff valve and the second safety valve are provided in the line, and the second shutoff valve and the third safety valve are provided in the second payout line, if the first and second payout lines are switched, The shutoff valve and the safety valve can be switched, and as a result, the inspection of the piping and the inspection of the shutoff valve and the safety valve can be performed simultaneously.

  As described above, according to the present invention, at least the control valve disposed in the first discharge line connecting the liquefied natural gas storage tank and the vaporizer for gasifying the liquefied natural gas was connected to the liquefied natural gas storage tank. Since the control valve provided in the vent line and the control valve provided in the second discharge line which is the output line of the vaporizer are respectively doubled, and the control valve is selectively switched when checking the control valve, There is an effect that regular inspections can be carried out while operating the liquefied natural gas satellite facility.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram partially showing an appearance of an example of an LNG satellite facility according to an embodiment of the present invention, and FIG. 2 is a system diagram showing a main part of a piping system of the LNG satellite facility shown in FIG.

  In FIG. 1, the LNG satellite facility 10 is generally provided with a building (garage) 12 into which a tank lorry 11 is received, and an LNG storage tank 13 is disposed behind the building 12. As shown in the drawing, a receiving line (piping) 14 is laid from the LNG storage tank 13 to the building 12, and when receiving LNG from the tank (lorry tank) 11 a of the tank lorry 11 into the LNG storage tank 13, a flexible hose 24 ( 2), the receiving line 14 and the lorry tank 11a are connected, and LNG is received from the lorry tank 11a to the LNG storage tank 13 as described later.

  Referring to FIG. 2, as described above, the LNG satellite facility 10 includes the LNG storage tank 13 that receives LNG from the lorry tank 11a and discharges the received LNG as fuel gas. The LNG storage tank 13 is connected to a receiving line 14 which is a pipe for receiving LNG from the lorry tank 11a, and the receiving line 14 is provided with a first safety valve 14a.

  The LNG satellite facility 10 of FIG. 2 includes first and second heat exchangers (vaporizers) 16 and 17, and the first heat exchanger 16 includes first to fourth heat exchange coils 16a to 16d. Have. Similarly, the 2nd heat exchanger 17 has the 5th-8th heat exchange coils 17a-17d. Note that the number of heat exchange coils included in the first and second heat exchangers is not limited to four, and may be three or less, or may be five or more.

  A discharge line 15 as a pipe is connected to the lower part of the LNG storage tank 13, and this discharge line 15 is connected to the first and second heat exchange coils 16a and 16b and the fifth and sixth heat exchange coils 17a and 17b. Has been. As shown in the figure, the payout line 15 is provided with a first shutoff valve 15a, and further, a second shutoff valve 15b is provided in parallel with the first shutoff valve 15a. In addition, second and third safety valves 15c and 15d are branched from the payout line 15 and arranged in parallel in the subsequent stage of the first and second shutoff valves 15a and 15b.

  Although not shown in FIG. 2, on-off valves are provided on the inlet side and the outlet side of the first and second shut-off valves 15a and 15b, respectively. Similarly, an opening / closing valve is provided on the inlet side of the second and third safety valves 15c and 15d.

  Further, as shown in the drawing, a vent line 18 as a pipe is connected to the upper part of the LNG storage tank 13, and the vent line 18 is connected to the third and seventh heat exchange coils 16c and 17c. The vent line 18 is provided with a first pressure regulating valve 18a, and further, fourth and fifth safety valves 18b and 18c are branched from the vent line 18 in a parallel state before the first pressure regulating valve 18a. Has been placed. On-off valves are provided on the inlet sides of the fourth and fifth safety valves 18b and 18c. The first and fifth heat exchange coils 16a and 17a are connected to the vent line 18 between the fourth and fifth safety valves 18b and 18c and the first pressure regulating valve 18a by a return line 19 which is a pipe. ing. The return line 19 is provided with a safety valve 19a and a pressure regulating valve 19b.

  The LNG satellite facility 10 has pressurization lines 20 and 21 which are pipes, and the pressurization line 20 is connected to the fourth and eighth heat exchange coils 16d and 17d, and the fourth and eighth heat exchange coils 16d and 17 d is connected to the pressure line 21. The pressurizing line 21 is provided with a second pressure regulating valve 21a, and sixth and seventh safety valves 21b and 21c are provided in the front and rear stages of the second pressure regulating valve 21a, respectively.

  As shown in the figure, the second and sixth heat exchange coils 16b and 17b are connected to a fuel gas supply destination facility (not shown) such as a boiler or a gas turbine by a discharge line 22, and fuel gas is supplied by the discharge line 22. Fuel gas is supplied to the previous equipment. On the other hand, the third and seventh heat exchange coils 16 c and 17 c are connected to the discharge line 22 and the vent stack by the vent line 23.

  Eighth and ninth safety valves 22a and 22b are branched from the discharge line 22 and arranged in parallel in the payout line 22 (open / close valves are provided on the inlet side of the eighth and ninth safety valves 22a and 22b). Is). Further, a third pressure regulating valve 22c is provided in the payout line 22 at the subsequent stage of the eighth and ninth safety valves 22a and 22b, and a fourth pressure regulating valve is provided in parallel with the third pressure regulating valve 22c. A valve 22d is provided.

  The first and fifth heat exchange coils 16a and 17a are connected to the vent line 18 between the fourth and fifth safety valves 18b and 18c and the first pressure regulating valve 18a by a return line 19 which is a pipe. ing. In addition, on-off valves are provided on the inlet side and the outlet side of the third and fourth pressure regulating valves 22c and 22d, respectively.

  The vent line 23 is provided with a tenth safety valve 23a, and the outlet side of the tenth safety valve 23a is returned to the vent line 23 as shown. The outlet sides of the first to ninth safety valves are also returned to the vent line 23 in the same manner. Further, the vent line 23 is connected to the discharge line 22 at the rear stage of the tenth safety valve 23a (connected to the discharge line 22 at the rear stage of the third and fourth pressure regulating valves 22c and 22d).

  When receiving LNG from the lorry tank 11 a into the LNG storage tank 13, the receiving line 14 and the pressurizing lines 20 and 21 are connected to the lorry tank 11 a by the flexible hose 24. Thereafter, although not shown, nitrogen gas is supplied from the nitrogen supply line to the receiving line 14 and the pressurizing lines 20 and 21, exhausted from the vent line 18, and the air in the receiving line 14 and pressurizing lines 20 and 21 is nitrogenated. Replace with gas.

  Subsequently, the nitrogen gas in the receiving line 14 and the pressurizing lines 20 and 21 is discharged from a line connected to a vent stack (not shown) to replace the nitrogen gas with natural gas. After opening the opening / closing valve (not shown) and bringing the lorry tank 11a and the LNG storage tank 13 into communication with each other by the receiving line 14, the lorry tank 11a and the first and second heat exchangers 16 and 17 are connected by the pressurization lines 20 and 21. To evaporate LNG and increase the pressure in the lorry tank 11a. Then, LNG is transferred from the lorry tank 11 a to the LNG storage tank 13 through the receiving line 14 in accordance with the pressure difference between the pressure in the lorry tank 11 a and the pressure in the LNG storage tank 13.

  When the transfer of LNG from the lorry tank 11a to the LNG storage tank 13 is completed, the inside of the lorry tank 11a is depressurized, and then nitrogen gas is supplied from the nitrogen gas supply line to the receiving line 14 and the pressurization lines 20 and 21. The natural gas in the receiving line 14 and the pressurizing lines 20 and 21 is discharged from a line connected to a vent stack (not shown) and replaced with nitrogen gas. In this manner, LNG is periodically replenished from the tank lorry 11 to the LNG storage tank 13 as described above.

  On the other hand, when supplying LNG as fuel from the LNG storage tank 13 to the fuel gas supply facility in the normal case, the first and second heat exchanges are performed via the discharge line 15 using the first shut-off valve 15a. The containers 16 and 17 are fed with LNG from the LNG storage tank 13. That is, the opening / closing valve on the inlet side and the outlet side of the first cutoff valve 15a is opened, and either one of the opening / closing valve on the inlet side and the outlet side of the second cutoff valve 15b is closed. Further, the on-off valve on the inlet side of the second safety valve 15c is opened, and the on-off valve on the inlet side of the third safety valve 15d is closed.

  Similarly, the on-off valve on the inlet side of the fourth safety valve 18b is opened, and the on-off valve on the inlet side of the fifth safety valve 18c is closed. Further, the on-off valve on the inlet side of the eighth safety valve 22a is opened, and the on-off valve on the inlet side of the ninth safety valve 22b is closed. Then, the opening / closing valve on the inlet side and the outlet side of the third pressure regulating valve 22c is opened, and either one of the opening / closing valve on the inlet side and the outlet side of the fourth pressure regulating valve 22d is closed.

  As a result, the LNG from the LNG storage tank 13 is vaporized and gasified by the first and second heat exchangers 16 and 17, and is discharged to the fuel gas supply destination facility via the third pressure regulating valve 22c. Become.

  FIG. 3 is a perspective view showing the arrangement of on-off valves 25a to 25d provided on the inlet side and the outlet side of the first shut-off valve 15a and the second shut-off valve 15b, and opens and closes the on-off valves 25a to 25d. At this time, the handles 26a to 26d are manually operated to open and close the on-off valves 25a to 25d. Other open / close valves are also manually operated in the same manner. However, the open / close valves may be electrically controlled to open / close in accordance with the operation of a local operation panel (not shown).

  By the way, the legally required inspection items in the LNG satellite facility according to the Electricity Business Law are the operation check of the safety valve and the operation check of the gas detector corresponding to the conditions stipulated by the law. 2 are the LNG storage tank 13, the LNG vaporizer (first and second heat exchangers 16 and 17), the LNG storage tank discharge cutoff valve and the combustion gas regulating valve. As mentioned above, the shut-off valve, pressure regulating valve, safety valve, etc. were duplicated to avoid stopping during regular inspections.

  That is, when checking the first shut-off valve 15a, the fourth safety valve 18b, the second safety valve 15c, the eighth safety valve 22a, and the third pressure regulating valve 22c in periodic inspections by the Electricity Business Law, The opening / closing operation of the opening / closing valve described above is performed to close the passage to the first cutoff valve 15a, bypass the first cutoff valve 15a, and open the passage to the second cutoff valve 15b.

  Similarly, the passage to the fourth safety valve 18b is closed, the passage to the fifth safety valve 18c is opened, the passage to the second safety valve 15c is closed, and the passage to the third safety valve 15d is opened. Then, the passage to the eighth safety valve 22a is closed, the passage to the ninth safety valve 22b is opened, the passage to the third pressure regulating valve 22c is closed to bypass the third pressure regulating valve 22c, and the fourth The passage to the pressure regulating valve 22d is opened.

  In this way, the valves to be inspected are substantially disconnected from the piping path, and spare valves for these valves to be inspected are connected to the piping system. The valve can be inspected without stopping the delivery of LNG from the LNG satellite facility. That is, fuel gas (LNG) can be supplied to consumers and the like even during regular inspection of the LNG satellite facility.

  If the amount of LNG stored in the LNG storage tank 13 is set to the peak usage amount and several days, there is no need to receive LNG from the tank lorry 11 to the LNG storage tank 13 during that time. You just have to do it. Note that the above-described safety valve, shutoff valve, and pressure regulating valve may be collectively referred to as a control valve.

  In the example shown in FIG. 2, the example in which the periodic inspection can be performed without stopping the operation of the LNG satellite facility in the periodic inspection according to the Electricity Business Law has been explained. However, the legally required inspection items for the LNG satellite facility according to the High Pressure Gas Safety Law are as follows. The operation check of the safety valve, the operation check of the gas detector, the wall thickness inspection of the pipe including the heat exchanger (LNG vaporizer) from the LNG storage tank 13, and the operation check of the LNG storage tank discharge cutoff valve.

  The main equipment in the LNG satellite facility 10 is the LNG storage tank 13, the LNG vaporizer (first and second heat exchangers 16 and 17), and the combustion gas regulating valve. Duplicating valves, pressure regulating valves, safety valves, etc. and piping from the LNG storage tank 13 to the heat exchanger (LNG vaporizer) will stop the operation of the LNG satellite facility during periodic inspections under the High Pressure Gas Safety Act. Avoided.

  FIG. 4 is a system diagram showing an example of an LNG satellite facility for avoiding the suspension of operations during periodic inspections by the High Pressure Gas Safety Law. In FIG. 4, the same components as those shown in FIG. The same reference numbers are assigned and the description is omitted. In the example shown in the figure, unlike the LNG satellite facility 10 shown in FIG. 2, three heat exchangers are provided (a new heat exchanger is called a third heat exchanger), and the LNG satellite facility Reference numeral 30 is attached.

  In FIG. 4, the receiving line 14 is connected to the upper part and the lower part of the LNG storage tank 13 via the 4th and 5th pressure regulation valves 32a and 32b. In the illustrated example, the LNG satellite facility 30 includes a third heat exchanger 31 in addition to the first and second heat exchangers 16 and 17, and the third heat exchanger 31 includes the ninth to twelfth heat exchangers 31 and 17. Heat exchange coils 31a to 31d are provided.

  The payout line 15 connected to the lower part of the LNG storage tank 13 is branched into first and second payout lines 33a and 33b, and the payout line 15 has a double piping path. The first payout line 33a is provided with the first shutoff valve 15a and the second safety valve 15c, and the second payout line 33b is provided with the second shutoff valve 15b and the third safety valve 15d. It has been. Here, on-off valves are provided on the inlet and outlet sides of the first and second payout lines 33a and 33b, respectively.

  The payout line 15, that is, the first and second payout lines 33a and 33b are connected to the first and second heat exchange coils 16a and 16b and the fifth and sixth heat exchange coils 17a and 17b, and The ninth and tenth heat exchange coils 31a and 31b are connected. Further, as shown in the figure, the vent line 18 is connected to the third and seventh heat exchange coils 16c and 17c, and is also connected to the eleventh heat exchange coil 31c.

  Further, the first and fifth heat exchange coils 16 a and 17 a are connected to the vent line 18 by the return line 19, and the ninth heat exchange coil 31 a is connected to the vent line 18. The pressure line 20 is connected to the fourth, eighth and twelfth heat exchange coils 16d, 17d and 31d, and the fourth, eighth and twelfth heat exchange coils 16d, 17d and 31d are connected to the pressure line 21. It is connected to the.

  As shown in the figure, the second, sixth and tenth heat exchange coils 16b, 17b and 31b are connected to a fuel gas supply facility (not shown) by a discharge line 22, and the fuel gas supply destination is connected by this discharge line 22. Fuel gas is supplied to the facility. On the other hand, the third, seventh and eleventh heat exchange coils 16c, 17c and 31c are connected to the fuel discharge line 22 and the vent stack by a vent line 23.

  In the LNG satellite facility 30 shown in FIG. 4, in the normal case, when supplying LNG as fuel from the LNG storage tank 13 to the fuel gas supply destination facility, the first payout line 33a is used using the first payout line 33a. LNG is supplied from the LNG storage tank 13 to the first, second and third heat exchangers 16, 17 and 31. That is, the on / off valve on the inlet side and the outlet side of the first payout line 33a is opened, and either the on / off valve on the inlet side or the outlet side of the second payout line 33b is closed.

  As a result, the LNG from the LNG storage tank 13 is vaporized and gasified by any one of the first, second, and third heat exchangers 16, 17, and 31, and is then passed through the third pressure regulating valve 22c. Will be paid to the fuel gas supply facility. The switching between the safety valve and the pressure regulating valve is as described in FIG.

  When performing a periodic inspection or the like by the High Pressure Gas Safety Law, a thickness inspection of a pipe including the first to third heat exchangers (LNG vaporizer) is newly added from the LNG storage tank 13. For this reason, as described in relation to FIG. 2, the safety valve and the pressure regulating valve are switched, the first discharge line 33a is closed by the on-off valve, and the second discharge line 33b is opened by the on-off valve. LNG is sent out from the LNG storage tank 13 to the LNG vaporizer through the second payout line 33b. Thus, the first payout line 33a is inspected, and the first shut-off valve 15a and the second safety valve 15c are inspected.

  In this way, the valves to be inspected are substantially separated from the piping path, and spare valves for these valves to be inspected are connected to the piping system, and are further reserved for the piping to be inspected. Since LNG is transferred through the piping, the carburetor, piping and valves are inspected without stopping the delivery of LNG from the LNG satellite facility during periodic inspection of the carburetor, piping and valves. be able to. That is, fuel gas (LNG) can be supplied to consumers and the like even during regular inspection of the LNG satellite facility. If the amount of LNG stored in the LNG storage tank 13 is set to the peak usage amount for several days, there is no need to receive LNG from the tank lorry 11 to the LNG storage tank 13 during that time. Should be implemented.

It is a figure which shows partially the external appearance of an example of the LNG satellite installation by embodiment of this invention. It is a systematic diagram which shows an example of the principal part of the piping system of the LNG satellite installation by embodiment of this invention. It is a perspective view which shows an example of arrangement | positioning of the on-off valve provided in the inlet side and outlet side of the cutoff valve in the LNG satellite installation by embodiment of this invention. It is a systematic diagram which shows the other example of the principal part of the piping system of the LNG satellite installation by embodiment of this invention.

Explanation of symbols

10, 30 LNG satellite facility 11 Tank truck 13 LNG storage tank 14 Receiving line 15 Dispensing line (first dispensing line)
16, 17, 31 Heat exchanger (vaporizer)
18, 23 Vent line 19 Return line 20, 21 Pressurization line 22 Dispensing line (second dispensing line)

Claims (5)

A liquefied natural gas satellite facility that receives liquefied natural gas from a tank provided in a tank lorry into a liquefied natural gas storage tank, discharges the liquefied natural gas stored in the liquefied natural gas storage tank as fuel gas, and supplies it to a fuel gas supply destination facility There,
At least a control valve and a safety valve arranged in a first discharge line that connects the liquefied natural gas storage tank and a vaporizer that gasifies the liquefied natural gas, and a vent line connected to the liquefied natural gas storage tank. The control valve and the safety valve provided in the LNG storage tank safety valve and the second discharge line which is the output line of the vaporizer are respectively duplicated, and the control valve is selectively switched when the control valve is inspected. A liquefied natural gas satellite facility characterized by   2. The liquefaction according to claim 1, wherein each of the duplicated first control valves is arranged in parallel, and each of the duplicated second control valves is arranged in parallel. Natural gas satellite equipment. A shut-off valve and a safety valve are used as control valves arranged in a first discharge line that connects the liquefied natural gas storage tank and a vaporizer that gasifies the liquefied natural gas,
A safety valve is used as a control valve provided in a vent line connected to the liquefied natural gas storage tank,
The liquefied natural gas satellite facility according to claim 1 or 2, wherein a safety valve and a pressure regulating valve are used as a control valve provided in a second discharge line which is an output line of the vaporizer.   The first payout line is duplicated with a first payout line and a second payout line arranged in parallel, and the first payout line and the second payout line are selectively switched. Item 2. A liquefied natural gas satellite facility according to item 1. A first shut-off valve, a second shut-off valve, a second safety valve, and a third control valve arranged on a first discharge line connecting the liquefied natural gas storage tank and a vaporizer that gasifies the liquefied natural gas. And safety valves are used,
Two safety valves are used as control valves provided in the vent line connected to the liquefied natural gas storage tank,
Two safety valves and two pressure regulating valves are used as control valves provided in a second discharge line that is an output line of the vaporizer,
The first payout line is provided with the first shutoff valve and the second safety valve, and the second payout line is provided with the second shutoff valve and the third safety valve. The liquefied natural gas satellite facility according to claim 4.

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