KR102291922B1 - Flng making heavy hydrocarbon out of natural gasand method of making heavy hydrocarbon out of natural gas in flng - Google Patents

Abstract

The present invention provides a gas inlet device for introducing natural gas from a gas field, a pretreatment device for pretreating the natural gas introduced by the gas inlet device, and heavy hydrocarbon separation for separating heavy hydrocarbons contained in the natural gas pretreated by the pretreatment device As an FLNG including a heavy hydrocarbon module for converting methane, which is the main component of natural gas that has passed through the apparatus and the heavy hydrocarbon separation device, to heavy hydrocarbons, according to the FLNG of the present invention, it is a FLNG of higher added value than methane using natural gas. It enables the production of heavy hydrocarbons such as ethane and butane in FLNG.

Description

FLNG MAKING HEAVY HYDROCARBON OUT OF NATURAL GASAND METHOD OF MAKING HEAVY OUT OF NATURAL GASAND METHOD OF MAKING HEAVY OUT OF NATURAL GASAND METHOD OF MAKING HEAVY OUT OF NATURAL GAS

The present invention relates to FLNG, which produces heavy hydrocarbons using natural gas mined in FLNG, and a method for producing heavy hydrocarbons using natural gas in FLNG.

Liquefied natural gas (hereinafter referred to as 'LNG') is an eco-friendly fuel that emits less air pollutants during combustion, and its consumption is rapidly increasing worldwide. In general, liquefied gas is liquefied at a cryogenic temperature at the production site and then transported to the destination by a transport ship (LNGC, LNG Carrier). It has the advantage of facilitating transport.

Recently, LNG-FPSO (LNG Floating Production, Storage and Offloading, FLNG) has been developed and used as a structure manufactured to produce, store, and unload LNG from a single vessel.

In other words, FLNG is anchored in a natural gas storage area, draws in natural gas from a gas field using a gas inlet device, pre-treats the incoming natural gas, liquefies it by a liquefaction device, and stores it, and unloads it to a customer or an LNG carrier. do it for a purpose

Natural gas is a flammable gas mainly composed of hydrocarbons. Most of the hydrocarbons are methane (CH ₄ ), and ethane (C ₂ H ₆ ), butane (C ₃ H ₈ ), protein (C ₄ H ₁₀ ), etc. are partially contained depending on the gas field.

Methane is liquefied in the form of LNG and is mainly used as a fuel, and among these heavy hydrocarbons with a large number of carbons other than methane, ethane can be a raw material for ethylene, and butane and protein can be used for LP gas production, so methane to create greater added value than

Therefore, FLNG extracts and separates these heavy hydrocarbons from mined natural gas, and commercializes them for each use.

Korean Patent Publication No. 10-2014-0123401 Korean Patent Publication No. 10-2010-0027135

The present invention has been devised to solve the above problems, and the present invention provides a method of producing FLNG and heavy hydrocarbons using natural gas to produce heavy hydrocarbons such as ethane and butane of higher added value than methane it has its purpose

FLNG according to an aspect of the present invention, a gas intake device for introducing natural gas from a gas field, a pre-treatment device for pre-processing the natural gas introduced by the gas introduction device, and heavy contained in the natural gas pre-treated by the pre-treatment device It includes a heavy hydrocarbon separation device for separating hydrocarbons and a heavy hydrocarbon module for converting methane, a main component of natural gas that has passed through the heavy hydrocarbon separation device, to heavy hydrocarbons.

And, it may further include a liquefaction device for liquefying the natural gas that has passed through the heavy hydrocarbon separation device.

The pretreatment device includes an acid gas removal module for removing the acid gas contained in the natural gas introduced by the gas introduction device, and moisture for removing moisture contained in the natural gas from which the acid gas has been removed by the acid gas removal module. It is characterized in that it comprises a mercury removal module for removing the mercury contained in the natural gas from which moisture has been removed by the removal module and the moisture removal module.

FLNG according to another aspect of the present invention, a gas inlet device for introducing natural gas from a gas field, a pretreatment device for pretreating the natural gas introduced by the gas introduction device, and methane from the natural gas pretreated by the pretreatment device It includes a methane extraction device for extracting, a heavy hydrocarbon module for heavy hydrocarbons to the methane extracted by the methane extraction device.

And, it may further include a heavy hydrocarbon separation device for separating heavy hydrocarbons from the natural gas from which methane is extracted by the methane extraction device.

In addition, it may further include a liquefaction device for liquefying the natural gas pretreated by the pretreatment device.

The pretreatment device includes an acid gas removal module for removing the acid gas contained in the natural gas introduced by the gas introduction device, and moisture for removing moisture contained in the natural gas from which the acid gas has been removed by the acid gas removal module. It is characterized in that it comprises a mercury removal module for removing the mercury contained in the natural gas from which moisture has been removed by the removal module and the moisture removal module.

A method for producing heavy hydrocarbons using natural gas according to an aspect of the present invention includes a gas inlet step of introducing natural gas from a gas field, a pretreatment step of pretreating the natural gas introduced by the gas inlet step, the pretreatment step A heavy hydrocarbon separation step of separating the heavy hydrocarbons contained in the natural gas pretreated by

And, it may further include a natural gas liquefaction step of liquefying the natural gas that has passed through the heavy hydrocarbon separation step.

The pre-treatment step includes an acidic gas removal step of removing the acidic gas contained in the natural gas introduced by the gas introduction step, and moisture removing moisture contained in the natural gas from which the acidic gas has been removed by the acidic gas removal step. It characterized in that it comprises a mercury removal step of removing the mercury contained in the natural gas from which moisture has been removed by the removing step and the water removing step.

The method for producing heavy hydrocarbons using natural gas according to another aspect of the present invention includes a gas inlet step of introducing natural gas from a gas field, a pretreatment step of pretreating the natural gas introduced by the gas inlet step, the pretreatment step A methane extraction step of extracting methane from the natural gas pretreated by

And, it may further include a heavy hydrocarbon separation step of separating the heavy hydrocarbons from the natural gas from which methane is extracted by the methane extraction step.

In addition, it may further include a natural gas liquefaction step of liquefying the natural gas pretreated by the pretreatment step.

The pretreatment step includes an acidic gas removal step of removing the acidic gas contained in the natural gas introduced by the gas introduction step, and moisture removing moisture contained in the natural gas from which the acidic gas has been removed by the acidic gas removal step. It characterized in that it comprises a mercury removal step of removing the mercury contained in the natural gas from which moisture has been removed by the removing step and the water removing step.

According to the method of producing heavy hydrocarbons using natural gas in FLNG and FLNG that produce heavy hydrocarbons using natural gas of the present invention,

By converting methane, the main component of natural gas mined from gas fields, into heavy hydrocarbons such as ethane and butane, and producing them, higher added value can be created compared to methane production.

Compared to the separation and recovery of a small amount of ethane and butane contained in natural gas mined from the existing FLNG, large amounts of ethane and butane can be produced and supplied.

In addition, since heavy hydrocarbons are produced immediately from natural gas in FLNG, it is advantageous in production, and it is also advantageous in terms of supply because it is easy to transport.

The ethane and butane produced by liquefying the mined natural gas and storing it as LNG, then providing it to heavy hydrocarbons as needed at the provider, using the mined natural gas to directly produce ethane and butane etc. can be more economical than the existing ones, so they can have a higher edge in the market competition.

Depending on the market situation or various circumstances, it can be applied by selectively operating natural gas to liquefy or heavy hydrocarbon.

1 schematically shows the configuration of an FLNG for producing heavy hydrocarbons using natural gas according to the present invention.
Figure 2 schematically shows the configuration of another example of FLNG for producing heavy hydrocarbons using natural gas according to the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

In addition, well-known techniques necessary to describe a preferred embodiment of the present invention are omitted or reduced as necessary.

1 schematically shows the configuration of a FLNG for producing heavy hydrocarbons using natural gas according to the present invention, and FIG. 2 shows the configuration of another example of an FLNG for producing heavy hydrocarbons using natural gas according to the present invention. schematically shown.

1, FLNG for producing heavy hydrocarbons using natural gas according to the present invention is a gas inlet device 110, a pretreatment device, a heavy hydrocarbon separation device 130, a heavy hydrocarbon module 140, and liquefaction. device 150 .

FLNG is a structure that develops natural gas from a gas field by anchoring it in the sea, liquefies it on board, stores it, and unloads the stored liquefied natural gas to customers or liquefied natural gas carriers.

To this end, the FLNG is provided with a gas inlet device 110 for introducing gas from a gas field, a pretreatment device for removing impurities in the natural gas introduced by the gas introducing device 110, and liquefying the pretreated natural gas. After being liquefied by the device, it is stored in a liquefied natural gas storage tank.

The gas inlet device 110 is a device for drawing in natural gas from a subsea gas field and pulling it up to a ship by including means for drawing in gas from the seabed.

In addition, the pretreatment device is a device that performs a process of refining and pretreating the natural gas introduced by the gas introduction device 110 before going through the liquefaction process, and the liquefaction device 150 is used to store the natural gas as liquefied natural gas. It is a device for the liquefaction cycle such as compression, condensation, expansion, and heat exchange.

The pretreatment device includes an acid gas removal module 121 , a moisture removal module 122 , and a mercury removal module 123 to remove impurities in natural gas.

The acid gas removal module 121 removes acid gases (CO2, H2S) contained in natural gas that may be solidified in the liquefaction process.

The water removal module 122 removes water (H 2 O) contained in natural gas, and the mercury removal module 123 removes mercury (Hg) contained in natural gas.

In this way, the pre-treated natural gas has a main component of methane (Methane, CH ₄ ), and in addition to heavy hydrocarbons, ethane (Ethane, C ₂ H ₆ ), butane (Butane, C ₃ H ₈ ), etc. .

Methane is liquefied in the form of LNG and is mainly used as a fuel, ethane can be a raw material for ethylene, and butane and protein can be used for LP gas production, so it is a raw material with high added value compared to methane.

Therefore, the pretreated natural gas is separated by the heavy hydrocarbon separator 130 before liquefying the heavy hydrocarbons, and is stored as LNG, naphtha, etc. through a necessary process according to the separated components, respectively.

The heavy hydrocarbon separation device 130 is to separate and use the heavy hydrocarbons contained in natural gas by fractionation treatment, and the heavy hydrocarbon module 140 is used by the heavy hydrocarbon separation device 130 . It is a module to directly convert methane remaining in natural gas to heavy hydrocarbons by separating heavy components.

The reaction of converting methane to ethane by dehydrogenation and oligomerization is a thermodynamically unfavorable reaction because it involves a relatively high value of positive free energy.

However, when methane is condensed using oxygen as an oxidizing agent, the free energy becomes negative and is thermodynamically advantageous. Theoretically, by oxidative condensation of methane, it is possible to produce hydrocarbons of C2 or higher, but the actual reaction product is limited to C2. A catalyst is added to increase this selectivity, and catalysts such as Li/MgO, Sm2O3, La2O3, PbO/MgO may be used. (Oxidative coupling of methane)

In addition, acetylene, ethylene, etc. can be obtained by directly converting methane to C2 hydrocarbons at high temperatures through pyrolysis.

And, it is possible to proceed with the oxidation dimerization or thermal decomposition reaction in a plasma state, in this case, the conversion rate is possible more than 90%.

Heavy hydrocarbons such as ethane or butane produced in this way are stored through a separate storage tank 141 and can be supplied to the demanding party.

In addition, the natural gas passing through the heavy hydrocarbon separation device 130 may be liquefied in the form of LNG by the liquefier 150 instead of producing heavy hydrocarbons by the heavy hydrocarbon module 140 .

That is, by selectively operating the liquefaction of mined natural gas or converting heavy hydrocarbons according to the ship's operation plan, changing operating conditions and market conditions, or by converting or operating the process at the same time and classifying and controlling the amount It can be operated in various ways to determine the product.

The liquefied natural gas produced by the liquefaction apparatus 150 may be stored in a liquefied natural gas storage tank, and may be used as fuel or may be unloaded.

On the other hand, as shown in FIG. 2 , before separating heavy hydrocarbons from natural gas, methane is preferentially extracted by the methane extraction device 230, and it can be converted into heavy hydrocarbons in the heavy hydrocarbon module 231, and other configurations may be applied similarly to that described above.

And, the selection of heavy hydrocarbons or liquefied natural gas may also be equally employed.

As described above, according to the method for producing heavy hydrocarbons using natural gas in FLNG and FLNG for producing heavy hydrocarbons using natural gas according to the present invention, from methane, the main component of natural gas mined in FLNG, It enables direct production of heavy hydrocarbons such as ethane and butane.

As described above, the method for producing heavy hydrocarbons using natural gas in FLNG and FLNG for producing heavy hydrocarbons using natural gas according to the present invention has been described with reference to the illustrated drawings, but the present invention has been described above It is of course not limited by the embodiments and drawings, and various modifications and variations may be made by those skilled in the art within the scope of the claims.

110, 210: gas inlet device
121, 221: acid gas removal module
122, 222: moisture removal module
123, 223: mercury removal module
130, 240: heavy hydrocarbon separation device
140, 231: heavy hydrocarbon module
230: methane extraction device
150: 250: liquefaction device

Claims (14)

a gas inlet device for introducing natural gas from a gas field;
a pre-treatment device for pre-treating the natural gas introduced by the gas introduction device;
a heavy hydrocarbon separation device for separating heavy hydrocarbons contained in the natural gas pretreated by the pretreatment device;
a heavy hydrocarbon module for converting _{methane (CH 4} ), which is a main component of natural gas that has passed through the heavy hydrocarbon separation device, into heavy hydrocarbons; and
A liquefaction device for liquefying the natural gas that has passed through the heavy hydrocarbon separation device: includes,
FLNG, characterized in that it is possible to selectively produce LNG and heavy hydrocarbons from the mined natural gas by determining the product according to the operation plan of the ship, market conditions, etc. delete The method according to claim 1,
The preprocessor is
an acid gas removal module for removing the acid gas contained in the natural gas introduced by the gas introduction device;
a water removal module for removing moisture contained in the natural gas from which the acid gas has been removed by the acid gas removal module; and
FLNG including a mercury removal module for removing mercury contained in the natural gas from which moisture has been removed by the water removal module. a gas inlet device for introducing natural gas from a gas field;
a pre-treatment device for pre-treating the natural gas introduced by the gas introduction device;
a methane extraction device for extracting methane _{(CH 4} ) from the natural gas pretreated by the pretreatment device;
a heavy hydrocarbon module for heavy hydrocarbonizing the methane extracted by the methane extraction device; and
A liquefaction device for liquefying the natural gas pretreated by the pretreatment device:
FLNG, characterized in that it is possible to selectively produce LNG and heavy hydrocarbons from the mined natural gas by determining the product according to the operation plan of the ship, market conditions, etc. 5. The method according to claim 4,
FLNG further comprising a heavy hydrocarbon separation device for separating heavy hydrocarbons from the natural gas from which methane was extracted by the methane extraction device. delete 6. The method of claim 5,
The preprocessor is
an acid gas removal module for removing the acid gas contained in the natural gas introduced by the gas introduction device;
a water removal module for removing moisture contained in the natural gas from which the acid gas has been removed by the acid gas removal module; and
FLNG including a mercury removal module for removing mercury contained in the natural gas from which moisture has been removed by the water removal module. a gas inlet step of introducing natural gas from a gas field;
a pre-treatment step of pre-treating the natural gas introduced by the gas introduction step;
a heavy hydrocarbon separation step of separating the heavy hydrocarbons contained in the natural gas pretreated by the pretreatment step;
_{A heavy hydrocarbon step of converting methane (CH 4} ), which is a main component of natural gas that has passed through the heavy hydrocarbon separation step, to heavy hydrocarbons; and
A natural gas liquefaction step of liquefying the natural gas that has passed through the heavy hydrocarbon separation step includes:
Characterized in that it is possible to selectively produce LNG and heavy hydrocarbons from the mined natural gas by determining the product according to the operation plan of the ship, market conditions, etc.
A method for producing heavy hydrocarbons using natural gas. 9. The method of claim 8,
A methane extraction step of extracting methane _{(CH 4} ) from the natural gas pretreated by the pretreatment step: further comprising,
In the heavy hydrocarbon separation step, heavy hydrocarbons are separated from the natural gas from which methane is extracted by the methane extraction step,
In the heavy hydrocarbon step, characterized in that the methane extracted by the methane extraction step is subjected to heavy hydrocarbon.
A method for producing heavy hydrocarbons using natural gas. 10. The method according to claim 8 or 9,
The pre-processing step is
an acid gas removal step of removing the acid gas contained in the natural gas introduced by the gas introduction step;
a water removal step of removing moisture contained in the natural gas from which the acid gas has been removed by the acid gas removal step; and
including a mercury removal step of removing mercury contained in the natural gas from which moisture has been removed by the water removal step,
A method for producing heavy hydrocarbons using natural gas. delete delete delete delete

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