CN204227028U - A kind of system of liquid nitrogen LNG Liquefied natural gas - Google Patents

A kind of system of liquid nitrogen LNG Liquefied natural gas Download PDF

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Publication number
CN204227028U
CN204227028U CN201420647460.9U CN201420647460U CN204227028U CN 204227028 U CN204227028 U CN 204227028U CN 201420647460 U CN201420647460 U CN 201420647460U CN 204227028 U CN204227028 U CN 204227028U
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China
Prior art keywords
valve
storage tank
gas
heat exchanger
vaporizer
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Withdrawn - After Issue
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CN201420647460.9U
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Chinese (zh)
Inventor
邵斌
程章展
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JIANGSU CRYOTE CRYOGENIC TECHNOLOGY Co Ltd
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JIANGSU CRYOTE CRYOGENIC TECHNOLOGY Co Ltd
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Abstract

The utility model discloses a kind of system of liquid nitrogen LNG Liquefied natural gas.It comprises the first storage tank, the first vaporizer, the first valve, the 3rd valve, main heat exchanger, the 7th valve, the 4th valve, the second storage tank, the second valve, the second vaporizer, the 5th valve, the 6th valve, the 3rd storage tank; First storage tank first liquid outlet is connected with the first reservoir gas entrance through the first valve, the first vaporizer, first storage tank second liquid outlet is connected with main heat exchanger through the 3rd valve, second storage tank liquid outlet is connected with the second reservoir gas entrance through the second valve, the second vaporizer, second tank gas outlet is connected with the 3rd storage tank through main heat exchanger, the 4th valve, the 6th valve, second tank gas outlet is connected with the 7th valve, second storage tank indusion tube is connected with the 5th valve, is connected with the connecting tube of the 4th valve with the 6th valve simultaneously.The utility model liquid nitrogen exchanges LNG Liquefied natural gas for, and avoids the wastes and pollution of boil-off gas discharge.

Description

A kind of system of liquid nitrogen LNG Liquefied natural gas
Technical field
The utility model relates to energy field, particularly relates to a kind of system of liquid nitrogen LNG Liquefied natural gas.
Background technique
Rock gas is the fastest a kind of energy of current whole world growth rate, and its development trend is rapid, will the progressively petroleum replacing energy.Under normal conditions, natural gas density is little, and volume is large, not easily shipping storage.Current shipping storage mode is mainly compressed natural gas and LNG Liquefied natural gas.Compared to compressed natural gas, LNG Liquefied natural gas can reach higher energy storage density, and volume is less, and efficiency of storage is higher.Along with LNG Liquefied natural gas increases in world's production capacity, demand and application increase, the demand also corresponding increase of liquefied natural gas (LNG) tank.
For liquefied natural gas (LNG) tank, leak heat and be difficult to stop completely, cause the liquid natural gas in storage tank to be evaporated again, the pressure in storage tank progressively rises, and then approaches the vessel strength limit and jeopardize safety.Existing processing mode for boil-off gas is directly drained in air, to reduce the pressure of storage tank.This way had both wasted high-quality natural gas energy resource, also had potential potential safety hazard.Liquid nitrogen is the by-product of air separating technological.Because the main purpose of air separation is for obtaining pure oxygen, liquid nitrogen is comparatively cheap as by-product price, possesses again lower temperature simultaneously, can provide cheap cold, thus become the excellent medium that cold energy of liquefied natural gas provides for the liquefaction of rock gas.
Summary of the invention
The purpose of this utility model is the deficiency overcoming prior art flow process, provides a kind of system of liquid nitrogen LNG Liquefied natural gas.
A system for liquid nitrogen LNG Liquefied natural gas, comprises the first storage tank, the first vaporizer, the first valve, the 3rd valve, main heat exchanger, the 3rd storage tank, the 7th valve, the 4th valve, the second storage tank, the second valve, the second vaporizer, the 5th valve, the 6th valve; First storage tank first liquid outlet is connected with the first reservoir gas entrance through the first valve, the first vaporizer, first storage tank second liquid outlet is connected with main heat exchanger through the 3rd valve, second storage tank liquid outlet is connected with the second reservoir gas entrance through the second valve, the second vaporizer, second tank gas outlet is connected with the 3rd storage tank through main heat exchanger, the 4th valve, the 6th valve, second tank gas outlet is connected with the 7th valve, second storage tank indusion tube is connected with the 5th valve, is connected with the connecting tube of the 4th valve with the 6th valve simultaneously.
The system of described liquid nitrogen LNG Liquefied natural gas, also comprises rewarming heat exchanger, silencing apparatus; Described main heat exchanger, rewarming heat exchanger are connected successively with silencing apparatus.
The system of described liquid nitrogen LNG Liquefied natural gas, also comprises refrigerator, the 8th valve, the 4th storage tank, the 9th valve, the tenth valve, the 3rd vaporizer; Described main heat exchanger, refrigerator, the 8th valve, the 4th storage tank, the 9th valve are connected successively with described first liquid in storage tank entrance, and the 4th storage tank liquid outlet is connected with the 4th reservoir gas entrance through the tenth valve, the 3rd vaporizer.
The utility model, for liquefying the boil-off gas reclaimed in natural gas storage tank, utilizes comparatively cheap liquid nitrogen to exchange high quality energy gas for, avoids energy waste and environmental pollution that boil-off gas directly discharges simultaneously.
Accompanying drawing explanation
Fig. 1 is liquid nitrogen LNG Liquefied natural gas system architecture schematic diagram;
Fig. 2 is the liquid nitrogen LNG Liquefied natural gas system architecture schematic diagram of band rewarming heat exchanger and silencing apparatus;
Fig. 3 is the system architecture schematic diagram that refrigerator reclaims the liquid nitrogen LNG Liquefied natural gas of liquid nitrogen.
Embodiment
As shown in Figure 1, a system for liquid nitrogen LNG Liquefied natural gas, comprises the first storage tank 1, first vaporizer 2, first valve 3, the 3rd valve 4, main heat exchanger 5, the 3rd storage tank 6, the 7th valve 7, the 4th valve 8, second storage tank 9, second valve 10, second vaporizer 11, the 5th valve 12, the 6th valve 13; First storage tank 1 first liquid outlet is connected with the first storage tank 1 gas access through the first valve 3, first vaporizer 2, first storage tank 1 second liquid outlet is connected with main heat exchanger 5 through the 3rd valve 4, second storage tank 9 liquid outlet is connected with the second storage tank 9 gas access through the second valve 10, second vaporizer 11, second storage tank 9 gas outlet is connected with the 3rd storage tank 6 through main heat exchanger 5, the 4th valve 8, the 6th valve 13, second storage tank 9 gas outlet is connected with the 7th valve 7, second storage tank 9 indusion tube is connected with the 5th valve 12, is connected with the connecting tube of the 4th valve 8 with the 6th valve 13 simultaneously.
A kind of liquid nitrogen Liquified Natural Gas Method, comprises the steps:
1), during the gas of condensation second storage tank 9, the first valve 3, the 3rd valve 4 are opened, and the second valve 10, the 4th valve 8, the 5th valve 12, the 6th valve 13, the 7th valve 7 are closed; The liquid of the first storage tank 1 flows into the first vaporizer 2 by the first valve 3 and is evaporated to gas, flows into the gas zones of the first storage tank 1, and the pressure in the first storage tank 1 is increased; The liquid pressurized of the first storage tank 1 flows out from the 3rd valve 4, discharges after entering main heat exchanger 5 heat exchange; Gas in second storage tank 9 enters main heat exchanger 5, is condensed into liquid and flows back to the second storage tank 9 after heat exchange;
2), during the gas of condensation the 3rd storage tank 6, the first valve 3, the 3rd valve 4, the 4th valve 8, the 6th valve 13 are opened, and the second valve 10, the 5th valve 12, the 7th valve 7 are closed; The liquid of the first storage tank 1 flows into the first vaporizer 2 by the first valve 3 and is evaporated to gas, flows into the gas zones of the first storage tank 1, and the pressure in the first storage tank 1 is increased; The liquid pressurized of the first storage tank 1 flows out from the 3rd valve 4, discharges after entering main heat exchanger 5 heat exchange; Gas in 3rd storage tank 6 enters main heat exchanger 5 through the 6th valve 13, the 4th valve 8, is condensed into liquid after heat exchange, flows into the second storage tank 9;
3), during natural gas condensates backflow operating mode, the first valve 3, the 3rd valve 4, the 4th valve 8, the 5th valve 12, the 7th valve 7 are closed, and the second valve 10, the 6th valve 13 are opened; Liquid in second storage tank 9 enters the second vaporizer 11 by the second valve 10 and becomes gas and flow into the second storage tank 9 again, makes the pressure increase in the second storage tank 9; Liquid pressurized in second storage tank 9 flows into the 3rd storage tank 6 through the 6th valve 13.
As shown in Figure 2, a kind of system of liquid nitrogen LNG Liquefied natural gas, also comprises rewarming heat exchanger 14, silencing apparatus 15; Described main heat exchanger 5, rewarming heat exchanger 14 are connected successively with silencing apparatus 15.
A kind of liquid nitrogen Liquified Natural Gas Method, comprises the steps:
1), during the gas of condensation second storage tank 9, the first valve 3, the 3rd valve 4 are opened, and the second valve 10, the 4th valve 8, the 5th valve 12, the 6th valve 13, the 7th valve 7 are closed; The liquid of the first storage tank 1 flows into the first vaporizer 2 by the first valve 3 and is evaporated to gas, flows into the gas zones of the first storage tank 1, and the pressure in the first storage tank 1 is increased; The liquid pressurized of the first storage tank 1 flows out from the 3rd valve 4, discharges after entering main heat exchanger 5 heat exchange through rewarming heat exchanger 14, silencing apparatus 15; Gas in second storage tank 9 enters main heat exchanger 5, is condensed into liquid and flows back to the second storage tank 9 after heat exchange;
2), during the gas of condensation the 3rd storage tank 6, the first valve 3, the 3rd valve 4, the 4th valve 8, the 6th valve 13 are opened, and the second valve 10, the 5th valve 12, the 7th valve 7 are closed; The liquid of the first storage tank 1 flows into the first vaporizer 2 by the first valve 3 and is evaporated to gas, flows into the gas zones of the first storage tank 1, and the pressure in the first storage tank 1 is increased; The liquid pressurized of the first storage tank 1 flows out from the 3rd valve 4, enters main heat exchanger 5 heat exchange, then is discharged by rewarming heat exchanger 14, silencing apparatus 15 successively; Gas in 3rd storage tank 6 enters main heat exchanger 5 through the 6th valve 13, the 4th valve 8, is condensed into liquid after heat exchange, flows into the second storage tank 9;
3), during natural gas condensates backflow operating mode, the first valve 3, the 3rd valve 4, the 4th valve 8, the 5th valve 12, the 7th valve 7 are closed, and the second valve 10, the 6th valve 13 are opened; Liquid in second storage tank 9 enters the second vaporizer 11 by the second valve 10 and becomes gas and flow into the second storage tank 9 again, makes the pressure increase in the second storage tank 9; Liquid pressurized in second storage tank 9 flows into the 3rd storage tank 6 through the 6th valve 13.
As shown in Figure 3, a kind of system of liquid nitrogen LNG Liquefied natural gas, also comprises refrigerator 16, the 8th valve 17, the 4th storage tank 18, the 9th valve 19, the tenth valve 20, the 3rd vaporizer 21; Described main heat exchanger 5, refrigerator 16, the 8th valve 17, the 4th storage tank 18, the 9th valve 19 are connected successively with described first storage tank 1 liquid inlet, and the 4th storage tank 18 liquid outlet is connected with the 4th storage tank 18 gas access through the tenth valve 20, the 3rd vaporizer 21.
A kind of liquid nitrogen Liquified Natural Gas Method, comprises the steps:
1), during the gas of condensation second storage tank 9, the first valve 3, the 3rd valve 4, the 8th valve 17 are opened, and the second valve 10, the 4th valve 8, the 5th valve 12, the 6th valve 13, the 7th valve 7, the 9th valve 19, the tenth valve 20 are closed; The liquid of the first storage tank 1 flows into the first vaporizer 2 by the first valve 3 and is evaporated to gas, flows into the gas zones of the first storage tank 1, and the pressure in the first storage tank 1 is increased; The liquid pressurized of the first storage tank 1 flows out from the 3rd valve 4, is cooled after entering main heat exchanger 5 heat exchange by refrigerator 16, flows into the 4th storage tank 18 through the 8th valve 17; Gas in second storage tank 9 enters main heat exchanger 5, is condensed into liquid and flows back to the second storage tank 9 after heat exchange;
2), during the gas of condensation the 3rd storage tank 6, the first valve 3, the 3rd valve 4, the 4th valve 8, the 6th valve 13, the 8th valve 17 are opened, and the second valve 10, the 5th valve 12, the 7th valve 7, the 9th valve 19, the tenth valve 20 are closed; The liquid of the first storage tank 1 flows into the first vaporizer 2 by the first valve 3 and is evaporated to gas, flows into the gas zones of the first storage tank 1, and the pressure in the first storage tank 1 is increased; The liquid pressurized of the first storage tank 1 flows out from the 3rd valve 4, is cooled after entering main heat exchanger 5 heat exchange by refrigerator 16, flows into the 4th storage tank 18 through the 8th valve 17; Gas in 3rd storage tank 6 enters main heat exchanger 5 through the 6th valve 13, the 4th valve 8, is condensed into liquid after heat exchange, flows into the second storage tank 9;
3), during natural gas condensates backflow operating mode, the first valve 3, the 3rd valve 4, the 4th valve 8, the 5th valve 12, the 7th valve 7 are closed, and the second valve 10, the 6th valve 13 are opened; Liquid in second storage tank 9 enters the second vaporizer 11 by the second valve 10 and becomes gas and flow into the second storage tank 9 again, makes the pressure increase in the second storage tank 9; Liquid pressurized in second storage tank 9 flows into the 3rd storage tank 6 through the 6th valve 13;
4) during liquid nitrogen reflux operating mode, the first valve 3, the 3rd valve 4, the 8th valve 17 are closed, and the 9th valve 19, the tenth valve 20 are opened; Liquid in 4th storage tank 18 enters the 3rd vaporizer 21 by the tenth valve 20 and becomes gas and flow into the 4th storage tank 18 again, makes the pressure increase in the 4th storage tank 18; Liquid pressurized in 4th storage tank 18 flows into the first storage tank 1 through the 9th valve 19.

Claims (3)

1. a system for liquid nitrogen LNG Liquefied natural gas, is characterized in that comprising the first storage tank (1), the first vaporizer (2), the first valve (3), the 3rd valve (4), main heat exchanger (5), the 3rd storage tank (6), the 7th valve (7), the 4th valve (8), the second storage tank (9), the second valve (10), the second vaporizer (11), the 5th valve (12), the 6th valve (13), first storage tank (1) first liquid outlet is through the first valve (3), first vaporizer (2) is connected with the first storage tank (1) gas access, first storage tank (1) second liquid outlet is connected with main heat exchanger (5) through the 3rd valve (4), second storage tank (9) liquid outlet is through the second valve (10), second vaporizer (11) is connected with the second storage tank (9) gas access, second storage tank (9) gas outlet is through main heat exchanger (5), 4th valve (8), 6th valve (13) is connected with the 3rd storage tank (6), second storage tank (9) gas outlet is connected with the 7th valve (7), second storage tank (9) indusion tube is connected with the 5th valve (12), be connected with the connecting tube of the 4th valve (8) with the 6th valve (13) simultaneously.
2. the system of a kind of liquid nitrogen LNG Liquefied natural gas according to claim 1, characterized by further comprising rewarming heat exchanger (14), silencing apparatus (15); Described main heat exchanger (5), rewarming heat exchanger (14) are connected successively with silencing apparatus (15).
3. the system of a kind of liquid nitrogen LNG Liquefied natural gas according to claim 1, characterized by further comprising refrigerator (16), the 8th valve (17), the 4th storage tank (18), the 9th valve (19), the tenth valve (20), the 3rd vaporizer (21); Described main heat exchanger (5), refrigerator (16), the 8th valve (17), the 4th storage tank (18), the 9th valve (19) are connected successively with described first storage tank (1) liquid inlet, and the 4th storage tank (18) liquid outlet is connected with the 4th storage tank (18) gas access through the tenth valve (20), the 3rd vaporizer (21).
CN201420647460.9U 2014-11-03 2014-11-03 A kind of system of liquid nitrogen LNG Liquefied natural gas Withdrawn - After Issue CN204227028U (en)

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Application Number Priority Date Filing Date Title
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104329561A (en) * 2014-11-03 2015-02-04 江苏克劳特低温技术有限公司 System and method for producing liquefied natural gas by virtue of liquid nitrogen

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104329561A (en) * 2014-11-03 2015-02-04 江苏克劳特低温技术有限公司 System and method for producing liquefied natural gas by virtue of liquid nitrogen
CN104329561B (en) * 2014-11-03 2016-03-23 江苏克劳特低温技术有限公司 A kind of system of liquid nitrogen LNG Liquefied natural gas and method thereof

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AV01 Patent right actively abandoned

Granted publication date: 20150325

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C25 Abandonment of patent right or utility model to avoid double patenting