KR100878976B1 - Apparatus and method for cycling condensate using venturi effect - Google Patents

Abstract

The present invention is to provide a condensate circulator and a circulation method that can efficiently circulate the condensate of the mist separator to the storage tank by using the Venturi effect without the need of a pump or the like, which takes up a lot of space, according to the present invention, storage A condensate circulator installed in an LNG carrier having a pump for discharging LNG contained in a tank, an evaporator for forcibly evaporating the discharged LNG, and a mist separator provided to supply only vaporized natural gas to the compressor. There is provided a condensate circulator using the venturi effect, wherein the condensate in the mist separator is circulated to the storage tank by a venturi device using the venturi effect.

Venturi, LNG, Storage Tanks, Mist Separator, Condensate

Description

Condensate Circulation System and Circulation Method Using Venturi Effect {APPARATUS AND METHOD FOR CYCLING CONDENSATE USING VENTURI EFFECT}

1 is a view schematically showing a condensate circulation device according to the prior art,

2 is a view schematically showing a condensate circulator using the Venturi effect according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: storage tank 2: fuel pump

3 stripping pump 5 evaporator

9: mist separator

21: opening and closing valve 23: orifice

25 venturi nozzle L1 stripping main line

L2: Boiler Gas Main Line L3: Circulation Line

The present invention relates to a condensate circulation device and a circulation method installed inside an LNG carrier, and more particularly, to a condensate circulation device and a circulation method for efficiently circulating a condensate of a mist separator to a storage tank using a Venturi effect. will be.

In recent years, the consumption of natural gas is rapidly increasing worldwide. Natural gas is transported in a gaseous state through onshore or offshore gas piping, or to a remote consumer while stored in an LNG carrier (especially an LNG carrier) in the form of liquefied liquefied natural gas (LNG). Liquefied natural gas is obtained by cooling natural gas to cryogenic temperature (approximately -163 ℃), and its volume is reduced to about 1/600 than natural gas in gas state, so it is very suitable for long distance transportation through sea.

The LNG Carrier is designed to unload liquefied natural gas to land requirements by loading the liquefied natural gas into the sea, and for this purpose, an LNG storage tank (commonly referred to as a 'cargo') that can withstand the cryogenic temperature of the liquefied natural gas. It includes.

Conventionally, LNG carriers have vaporized LNG in storage tanks or used naturally generated boil-off gas as fuel. Referring to the drawings again, as shown in FIG. 1 schematically showing a condensate circulator according to the prior art, in order to use LNG as fuel, the fuel pump 2 installed in the storage tank 1 is first used. After the LNG is supplied to the evaporator 5 and evaporated, only the vaporized natural gas is supplied to the compressor (not shown) through the precooler 7 and the mist separator 9 to pressurize the transport ship. It was used as engine fuel.

Reference numeral 3, which is not described, supplies LNG in the storage tank 1 to the stripping main line L1 as a stripping pump.

In addition, boil off gas (BOG) naturally generated due to cold heat loss in the storage tank is re-liquefied through a separate boil-off gas main line (L2) to return to the storage tank or evaporated in the evaporator (5). It can be combined with gas and used as fuel.

At this time, when the natural gas in the liquid state is supplied to the compressor, the compressor may be damaged and the performance may be deteriorated. Therefore, only the vaporized natural gas should be supplied to the compressor. Therefore, condensate that has not evaporated, such as mist in the form of droplets, of natural gas supplied to the compressor, must be separated in the mist separator 9 and recovered back to the storage tank 1.

However, in the case of a conventional LNG carrier, since sufficient potential energy cannot be secured between the mist separator 9 and the storage tank 1 due to space limitation, the condensed liquid in the mist separator 9 is transferred to the storage tank 1. A separate device, such as pump 10, was needed to circulate. 1 illustrates the use of the circulation pump 10 for the circulation of the condensate, but in addition to the pump 10, an apparatus such as an N ₂ purging system (not shown) may be used.

As described above, since a separate device is used for the circulation of the condensate, there is a problem that the space utilization efficiency in the LNG carrier is reduced and energy is consumed.

SUMMARY OF THE INVENTION The present invention has been made to solve these conventional problems, and an object of the present invention is to condense the condensate of the mist separator to efficiently circulate the condensate of the mist separator into the storage tank without using a device such as a pump, which takes up a lot of installation space. It is to provide an apparatus and a circulation method.

According to one aspect of the present invention for achieving the above object, a pump for discharging LNG contained in a storage tank, an evaporator for forcibly evaporating the discharged LNG, and a mist installed to supply only vaporized natural gas to the compressor A condensate circulation device installed in an LNG carrier provided with a separator, and a condensate circulation device using the venturi effect is provided, wherein the condensate in the mist separator is circulated to the storage tank by a venturi device using the Venturi effect.

Here, the venturi device is preferably any one of a venturi nozzle, an eductor, and an ejector.

In addition, in order to generate the venturi effect in the venturi device, it is preferable to include a circulation line for supplying some of the LNG discharged by the pump to the venturi device.

In addition, the circulation line is preferably provided with an on-off valve for controlling the supply of LNG.

In addition, the circulation line is preferably provided with an orifice for reducing the pressure of the LNG supplied to the venturi device.

According to another aspect of the present invention, an LNG having a pump for discharging LNG contained in a storage tank, an evaporator for forcibly evaporating the discharged LNG, and a mist separator provided to supply only vaporized natural gas to the compressor A circulation method for circulating a condensate in the mist separator in a transport vessel, comprising: supplying a portion of LNG conveyed by using a discharge pressure of the pump to a circulation line; Reducing the pressure of the LNG supplied to the circulation line by the orifice; Generating the Venturi effect while the depressurized LNG passes through the Venturi apparatus using the Venturi effect; And circulating the condensate in the mist separator to the storage tank by the generated Venturi effect. There is provided a condensate circulation method using a Venturi effect, comprising a.

Here, the venturi device is preferably any one of a venturi nozzle, an eductor, and an ejector.

In addition, it is preferable that the circulation valve is installed in the circulation line to control the supply of LNG.

Hereinafter, a condensate circulation device and a circulation method using the Venturi effect according to a preferred embodiment of the present invention will be described in detail with reference to FIG.

2 is a view schematically showing a condensate circulator using the Venturi effect according to the present invention. For convenience, in FIG. 2, the same components as those in FIG. 1 are assigned the same member numbers, and detailed description thereof will be omitted.

As shown in FIG. 2, according to the present invention, in order to use LNG as a fuel, first, LNG is supplied to the evaporator 5 side by the fuel pump 2 installed in the storage tank 1 to be evaporated, and then the precooler is used. Only natural gas vaporized through a precooler (7) and a mist separator (9) is supplied to a compressor (not shown) and pressurized to be used as fuel for a ship propulsion engine.

On the other hand, the stripping pump 3 supplies the LNG in the storage tank 1 to the stripping main line L1.

In addition, boil off gas (BOG) naturally generated due to cold heat loss in the storage tank is re-liquefied through a separate boil-off gas main line (L2) to be returned to the storage tank or vaporized in the evaporator (5). It is combined with natural gas and used as fuel.

In this case, when liquid natural gas is supplied to the compressor, the compressor may be damaged and its performance may deteriorate. Therefore, the natural gas supplied to the compressor may be supplied with only vaporized water, and mist of natural gas supplied to the compressor may be misty. Condensate that has not evaporated, is separated in the mist separator 9 and is recovered to the storage tank 1 again.

According to the present invention, the Venturi effect is applied to circulate the condensate from the mist separator 9 to the storage tank 1, so that both ends of the tube have a wide and narrow center of venturi nozzle 25 or eductor. One of the devices using the Venturi effect, such as an eductor (not shown) or an ejector (not shown), is installed in a pipe connecting the mist separator 9 and the storage tank 1.

In FIG. 2, a state in which the venturi nozzle 25 is installed is illustrated. In the following description, the venturi nozzle 25 is illustrated as an example, but the eductor or ejector may be used.

According to the present invention, in order to generate a venturi effect and circulate the condensate in the mist separator 9, a portion of the LNG delivered by the fuel pump 2 or the LNG delivered by the stripping pump 3 is circulated in a circulation line ( It is supplied to the venturi nozzle 25 through L3). To this end, the on-off valve 21 and the orifice 23 are installed in the circulation line L3.

By opening or closing the on / off valve 21, the LNG in the storage tank 1 is supplied to the venturi nozzle 25 through the circulation line L3 by using the discharge pressure of the fuel pump 2 or the stripping pump 3. do. At this time, the LNG passing through the on-off valve 21 is decompressed to the required pressure by the orifice 23.

As described above, the condensate circulation and removal in the mist separator 9 may be performed continuously or periodically using the Venturi effect.

According to the present invention made as described above, the condensate circulating method by the condensate circulator using the Venturi effect is as follows.

First, a part of LNG transferred using the discharge pressure of a pump (fuel pump 2 or stripping pump 3) for conveying LNG contained in the storage tank 1 is supplied to the circulation line L3. . At this time, the on-off valve 21 is installed in the circulation line L3 and configured to control the supply of LNG.

The pressure of the LNG supplied to the circulation line L3 is reduced in pressure by the orifice 23 and then supplied to the venturi nozzle 25. Subsequently, LNG generates a Venturi effect while passing through the Venturi nozzle 25 to circulate the condensate in the mist separator 9 to the storage tank 1 to remove the condensate remaining in the mist separator 9.

As described above, according to the present invention, the venturi effect is generated by using a small amount of LNG circulated to the storage tank 1 through the circulation line L3 by the discharge pressure of the conventionally installed pump. The condensate in the mist separator 9 can be circulated to the storage tank 1 and removed efficiently without the need for installing a purge system.

As described above, the condensate circulating device and the circulation method according to the present invention have been described with reference to the illustrated drawings, but the present invention is not limited to the embodiments and drawings described above, and the present invention belongs to the claims. Of course, various modifications and variations can be made by those skilled in the art.

According to the present invention as described above, there is provided a condensate circulation device and a circulation method that can efficiently circulate the condensate of the mist separator to the storage tank by using the Venturi effect without a device such as a pump that takes up a lot of installation space.

Claims (8)

A condensate circulator installed in an LNG carrier having a pump for discharging LNG contained in a storage tank, an evaporator for forcibly evaporating the discharged LNG, and a mist separator provided to supply only vaporized natural gas to the compressor. The condensate in the mist separator is circulated to the storage tank by a venturi device utilizing a Venturi effect, The condensate circulator includes a circulation line for supplying a part of LNG discharged by the pump to the venturi device in order to generate a venturi effect in the venturi device. The method according to claim 1, The venturi device is any one of a venturi nozzle (venturi nozzle), an eductor and an ejector (ejector) condensate circulator using the Venturi effect. delete The method according to claim 1, Condensate circulation system using a venturi effect, characterized in that the on-off valve for controlling the supply of LNG is installed in the circulation line. The method according to claim 1, Condensate circulator using the venturi effect, characterized in that the circulation line is provided with an orifice for reducing the pressure of the LNG supplied to the venturi device. The condensate in the mist separator is circulated in an LNG carrier having a pump for discharging LNG contained in a storage tank, an evaporator for forcibly evaporating the discharged LNG, and a mist separator installed to supply only vaporized natural gas to the compressor. As a circulation method to make Supplying some of the LNG transferred to the circulation line by using the discharge pressure of the pump; Reducing the pressure of the LNG supplied to the circulation line by the orifice; Generating the Venturi effect while the depressurized LNG passes through the Venturi apparatus using the Venturi effect; And Circulating the condensate in the mist separator to the storage tank by the generated Venturi effect; Condensate circulation method using a venturi effect, characterized in that it comprises a. The method according to claim 6, The venturi device is a venturi nozzle (venturi nozzle), an eductor (eductor) and the ejector (ejector) any one of the condensate circulating method using the venturi effect. The method according to claim 6, Condensate circulation method using a venturi effect, characterized in that the on-off valve is installed in the circulation line to control the supply of LNG.

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