KR20180020447A - High Pressure Pump Pressurizing Apparatus for LNG Regasification System - Google Patents

Abstract

The present invention relates to a high-pressure pump pressurizing device of an LNG regasification system, and more particularly, to a high-pressure pump pressurizing device of an LNG regasification system which is configured to pressurize a downstream side of a high-pressure pump so as to prevent application of overload to a motor of the high-pressure pump, and which includes a small-diameter branch line and a pressure adjusting orifice on a downstream side of a high-pressure pump. The high-pressure pump pressurizing device of an LNG regasification system according to the present invention is provided with a pressure adjusting means on a downstream side of the high-pressure pump for pressurizing LNG so as to prevent application of overload to the motor of the high-pressure pump when the high-pressure pump is initially operated.

Description

TECHNICAL FIELD [0001] The present invention relates to a high pressure pump pressurizing apparatus for an LNG regasification system,

The present invention relates to a high-pressure pump pressurizing device of an LNG regasification system, and more particularly, to a high-pressure pump pressurizing device that includes a small-diameter branch line and a pressure regulating orifice on the downstream side of a high-pressure pump, To a high-pressure pump pressurizing device of an LNG regeneration system that prevents an overload from being applied to a motor of a high-pressure pump.

In recent years, consumption of natural gas has been rapidly increasing worldwide. Natural gas is transported in a gaseous state via land or sea gas piping, or is transported to a distant consumer where it is stored in an LNG carrier (particularly an LNG carrier) in the state of liquefied natural gas. Liquefied natural gas is obtained by cooling natural gas at cryogenic temperatures (approximately -163 ° C), and its volume is reduced to approximately 1/600 of that of natural gas, making it well suited for long-distance transport through the sea.

LNG carriers are used to transport liquefied natural gas to the sea by carrying liquefied natural gas. For this purpose, LNG storage tanks (often referred to as 'cargo holds') capable of withstanding cryogenic temperatures of liquefied natural gas, . Generally, such LNG carrier cargoes liquefied natural gas in the LNG storage tank in the liquefied state on land, and the unloaded LNG is regenerated by the LNG regeneration facility installed on the land, and then transported through the gas pipeline to the consuming place of natural gas do.

These LNG regasification facilities on the land are known to be advantageous economically when the natural gas market is well established and it is installed in a stable natural gas demand place. However, it is economically disadvantageous to install LNG regasification facilities on land because of the high installation and maintenance costs, in the case of natural gas demand where natural gas demand is seasonal, short-term or periodic.

Especially, when the LNG carrier is destroyed by natural disasters, even if the LNG carriers arrive at the destination with LNG, it is impossible to regenerate the LNG. It is holding.

Accordingly, for example, an offshore LNG regasification system, in which an LNG regeneration facility is provided on a marine plant or an LNG carrier, regenerates liquefied natural gas at sea, and supplies the natural gas obtained from the regeneration to the land Developed.

Examples of a storage tank capable of storing liquefied gas at a cryogenic temperature and a rescue facility equipped with a regeneration facility for re-liquefying the liquefied gas include ships such as LNG RV (Regasification Vessel), LNG FSRU (Floating Storage and Regasification Unit) And the like.

LNG RV is a LNG regeneration facility installed on a liquefied gas carrier capable of self-sailing and floating, and LNG FSRU stores liquefied natural gas unloaded from an LNG carrier in the sea off the sea, stored in a storage tank, It is an offshore structure that supplies natural gas to the demand of the land. In this specification, a marine structure is a concept including a liquefied gas carrier, a ship such as an LNG RV, and a plant such as an LNG FSRU.

It is necessary to pressurize the system when starting the high pressure pump of the FSRU liquefied natural gas regasification system. However, when the high-pressure pump is started, when the flow control valve is opened while the downstream side of the pump is not pressurized, a differential pressure larger than the design differential pressure is generated and a very large flow rate instantaneously flows. There was a problem that occurred.

Korean Patent Publication No. 10-1599312 (Feb.

In order to solve these problems, the present invention provides a small-diameter branch line and a pressure regulating orifice on the downstream side of the high-pressure pump to pressurize the downstream side of the high-pressure pump during operation of the high-pressure pump to prevent overloading of the motor of the high- It has its purpose.

According to an aspect of the present invention, there is provided a high pressure pump comprising: a pressure regulating means provided downstream of a high pressure pump for pressurizing an LNG to prevent an overload applied to a motor of the high pressure pump during an initial operation of the high pressure pump; A high pressure pump pressurization device of a regasification system is provided.

A vaporizer for supplying heat to the pressurized LNG in the high-pressure pump to vaporize the LNG; And a supply line connected from the high-pressure pump to the customer via the vaporizer, wherein the pressure regulating means includes: a branch line branched from the supply line, the branch line branching from the downstream side of the high-pressure pump; A shutoff valve installed in the branch line; And an orifice disposed downstream of the shutoff valve, wherein the orifice is adjusted such that the supply line between the high pressure pump and the orifice is pressurized.

The supply line is preferably provided with a flow control valve for regulating the flow rate of the LNG.

A check valve installed to prevent reverse flow of the LNG on the downstream side of the high-pressure pump; A second branch line branching from a downstream side of the high-pressure pump; A second flow control valve installed in the second branch line for securing a flow rate of the high-pressure pump; And a third check valve installed in the second branch line for preventing reverse flow of the LNG.

The branch line is branched at the upstream side of the flow regulating valve and merged at the downstream side of the flow regulating valve.

A second shutoff valve for shutting off the regasification system on the downstream side of the vaporizer; And a second check valve installed on the downstream side of the vaporizer to prevent reverse flow of NG.

According to the present invention, by providing the small-diameter branch line and the pressure regulating orifice on the downstream side of the high-pressure pump, the connection pipe between the high-pressure pump and the pressure regulating orifice is pressurized when the high-pressure pump is pressurized to prevent the motor of the high- .

In addition, it is possible to simplify the construction for pressurizing LNG in an offshore structure that operates LNG, and it is possible to satisfy the pressurization conditions and it is possible to reduce the initial investment cost and the maintenance cost since it is not necessary to install a separate inverter for preventing pump overload There is an effect.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram illustrating a high pressure pump pressurizer of an LNG regasification system in accordance with one embodiment of the present invention.

The high pressure pump pressurizing device of the LNG regeneration system according to the present invention can be applied to any plant, ship or offshore structure that needs to vaporize or pressurize the cargo of the liquid cargo as well as the LNG carrier.

With reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted for the sake of clarity and conciseness.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a high pressure pump press apparatus of an LNG regeneration system according to a preferred embodiment of the present invention will be described.

1, the high pressure pump pressurizing apparatus 100 of the LNG regeneration system includes a pressure regulating means 120 on the downstream side of the high pressure pump 110 for pressurizing the LNG, so that the initial operation of the high pressure pump 110 Overload applied to the motor of the high-pressure pump 110 can be prevented.

Generally, the LNG regasification system includes an LNG storage tank for storing LNG and an LNG supply line for supplying LNG from the LNG storage tank to a customer, a vaporizer installed on the LNG supply line, and an LNG supply line And a recondenser for re-condensing the evaporated gas (BOG) of the LNG storage tank.

The LNG discharged from the LNG storage tank and the recondensated LNG can be supplied to the high pressure pump 110. The high pressure pump 110 supplies the heated LNG to the vaporizer 130 for vaporizing the LNG And a supply line 115 connected from the high-pressure pump 110 to the consumer through the vaporizer 130.

However, when the flow regulating valve installed in the supply line is opened while the high pressure pump is not pressurized at the downstream side of the high pressure pump, a differential pressure greater than the design differential pressure is generated and a very large flow rate instantaneously flows. May occur.

In order to solve such a problem, in the present invention, the pressure regulating means 120 is provided on the downstream side of the high-pressure pump 110 to prevent an overload applied to the motor of the high-pressure pump. That is, the pressure regulating means 120 includes a branch line 116 branched on the downstream side of the high-pressure pump 110 provided on the supply line 115, a shutoff valve 121 provided on the branch line 116, And an orifice 122 installed on the downstream side of the exhaust pipe 121.

The branch line 116 branches at the upstream side of the flow control valve 140 installed in the supply line 115 and can merge at the downstream side of the flow control valve 140. [

It is preferable that the shutoff valve 121 be employed in such a manner that the shutoff valve 121 can be fully opened and fully closed to supplement the orifice 122 that can not completely shut off the flow rate, and is preferably provided on the upstream side of the orifice 122.

The high-pressure pump 110 is preferably operated at an operating pressure of 100 bar or more, and the supply line 115 is preferably made of a material capable of withstanding high pressure.

The flow control valve 140 installed in the supply line 115 is closed and the shutoff valve 121 of the branch line 116 is opened during the initial operation of the high pressure pump 110 operated at 100 bar or more, The supply line 115 between the high-pressure pump 110 and the orifice 122 can be pressurized. As a result, the downstream side of the high-pressure pump 110 is pressurized, so that the motor of the high-pressure pump 110 can be prevented from being damaged under the design differential pressure.

When the discharge side pressure of the high pressure pump reaches the operating pressure at the time of the initial operation, the normal operation step is performed. To this end, the shutoff valve 121 is closed and the flow rate control valve 140 is controlled, The LNG is supplied to the vaporizer 130. [

The shut-off valve 121 may be an automatic shut-off valve that is manually or remotely controlled by the control unit, and is not limited thereto as long as it can perform opening and closing operations.

In other words, when the high pressure pump 110 is started, the shutoff valve 121 provided in the branch line 115 is opened and the opening / closing degree of the orifice 122 is controlled to adjust the flow rate, The control valve 121 and the orifice 122 may be closed and the flow control valve 140 may be opened to control the flow rate of the LNG.

The shutoff valve 121 and the orifice 122 are closed at the same time or the orifice 122 is closed first and then the shutoff valve 121 is closed when the LNG flow in the branch line 115 is stopped.

As described above, the high-pressure pump pressurizing apparatus of the LNG regeneration system of the present invention is provided with the branch line 115 on the downstream side of the high-pressure pump 110, and the branch line 115 is provided with an orifice 122 And a shutoff valve 121 that can completely close the path, the discharge side pressure of the high-pressure pump 110 is regulated to the operating pressure and the flow rate control valve 140 is closed without further installing an expensive small- The high-pressure pump 110 can be normally operated.

That is, since the piping connected to the discharge side of the high-pressure pump 110 is generally large in diameter, it is difficult to adjust the back pressure and thus the size of the valve is too large to control. However, according to the present invention, It is possible to easily pressurize the discharge side pressure of the high-pressure pump 110 and to employ a valve of a small size by providing the branch line 115 that can be formed of a pipe having a relatively small diameter size as compared with the discharge side, It can be facilitated.

A check valve 141 may be provided on the downstream side of the high pressure pump 110 to prevent the reverse flow of the LNG, a second branch line 117 may be branched downstream of the high pressure pump 110, A second flow control valve 144 for securing the flow rate of the high pressure pump 110 on the branch line 117 and a third check valve 145 for preventing the reverse flow of the LNG.

Further, a second shut-off valve 142 may be provided on the downstream side of the vaporizer 130 of the supply line 115 for shutting off the re-ignition system in an emergency, and it is possible to prevent the reverse flow of NG on the downstream side of the vaporizer 130 And may include a second check valve 143.

As described above, the high-pressure pump pressurizing apparatus of the LNG regeneration system according to the present invention has a small-diameter branch line and a pressure regulating orifice on the downstream side of the high-pressure pump, so that the pressure difference between the high-pressure pump and the pressure regulating orifice It is possible to prevent the connecting pipe from being pressurized and overloading the motor of the high-pressure pump.

Further, instead of providing a small high-pressure pump, it is possible to reduce the installation cost, the maintenance / repair cost, and the energy consumption by constructing the branch line.

In addition, it is possible to simplify the construction for pressurizing LNG in an offshore structure that operates LNG, and it is possible to satisfy the pressurization conditions and it is possible to reduce the initial investment cost and the maintenance cost since it is not necessary to install a separate inverter for preventing pump overload have.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is.

110: high-pressure pump 115: supply line
116: branch line 117: second branch line
120: pressure regulating means 121: shut-off valve
122: Orifice 130: Vaporizer
140: Flow control valve 141: Check valve
142: second shutoff valve 143: second check valve
144: second flow control valve 145: third check valve

Claims (6)

Pressure pump for pressurizing the LNG is provided with a pressure regulating means on the downstream side of the high-pressure pump for preventing an overload applied to the motor of the high-pressure pump at the time of starting the high-pressure pump. The method according to claim 1,
A vaporizer for supplying heat to the pressurized LNG in the high-pressure pump to vaporize the LNG; And
And a supply line connected from the high-pressure pump to the customer via the vaporizer,
The pressure regulating means,
A branch line branched at the supply line, the branch line branched at the downstream side of the high-pressure pump;
A shutoff valve installed in the branch line; And
And an orifice provided on the downstream side of the shutoff valve,
Wherein the orifice is adjusted such that the supply line between the high-pressure pump and the orifice is pressurized. The method of claim 2,
Wherein the supply line is provided with a flow control valve for regulating the flow rate of the LNG. The method of claim 2,
A check valve installed to prevent reverse flow of the LNG on the downstream side of the high-pressure pump;
A second branch line branching from a downstream side of the high-pressure pump;
A second flow control valve installed in the second branch line for securing a flow rate of the high-pressure pump; And
And a third check valve installed in the second branch line for preventing reverse flow of the LNG. The method of claim 3,
Wherein the branching line branches at an upstream side of the flow regulating valve and merges at a downstream side of the flow regulating valve. The method of claim 2,
A second shutoff valve for shutting off the regasification system on the downstream side of the vaporizer; And
And a second check valve installed to prevent reverse flow of NG on the downstream side of the vaporizer.

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