KR101805495B1 - Air ventilation system through double wall pipe for supplying gas and air ventilating method by the same - Google Patents

Abstract

The present invention relates to a gas supply system for supplying a gas to a gas handling apparatus through a gas pipeline, a double piping connected to a gas handling device for supplying gas, a gas supply unit for supplying gas to the gas handling apparatus through an inner piping of the double piping, And a steam ejector for introducing high-pressure steam and sucking air supplied to the outer pipe by the air supply unit. According to the present invention, there is provided an air circulation system comprising: It is possible to circulate the air through the double piping for gas supply by a simple structure and an efficient construction without circulating the air through the external piping of the double piping by the same fan.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air circulation system for a gas pipeline,

The present invention relates to a system for circulating air through a double pipe for supplying a gas such as LNG having a risk of leakage from a ship and a method for circulating air by means of the system.

In ships and marine structures handling gas where safety is important, such as LNG, Double Wall Pipes are used to prevent the risk of leakage of LNG.

In the case of vessels and marine structures equipped with a high-pressure natural gas injection engine such as an evaporative gas remelting device or an ME-GI engine in an LNG carrier, LNG should not leak into a safe area such as an engine room equipped with the device For this purpose, the double pipe is installed and the LNG transported through the inner pipe is allowed to be double-blocked by the outer pipe even if the leakage occurs.

Through these external piping, the air circulation is always made when the engine is running, and the air that has been always dry can be exchanged 30 times per hour in order to detect corrosion of the corrosion due to condensed water or gas leakage.

The circulating air is then discharged to the off-shore area or to areas where there is no risk of fire.

Conventionally, in order to circulate air through the outer pipe of the double pipe, dry air is generated and supplied through the outer pipe of the double pipe, and a fan capable of sucking air in order to circulate the air is installed .

However, such a fan for air circulation is considerably expensive and consumes a large amount of electric power.

In addition, since it is an electric equipment, an explosion proof design must be constituted.

The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide an air conditioner which does not circulate air through an external pipe of a double pipe by a conventional fan, And an object of the present invention is to provide an air circulation system and an air circulation method therefor.

The air circulation system through the double piping for gas supply according to the present invention comprises a double piping connected to a gas handling device to supply gas, a gas supply part for supplying gas to the gas handling device through the inner piping of the double piping, An air supply unit for supplying air through the outer pipe of the double pipe, and a steam ejector for sucking the air supplied to the outer pipe by the high pressure steam into the air supply unit.

Further comprising an air supply line through which air is supplied by the air supply unit and an air discharge line connected to an outlet of the air supply line, the steam ejector being connected to the air discharge line to suck air supplied to the outer pipe, .

The steam introduced into the steam ejector is steam produced in a steam supply device provided in the ship.

In addition, the steam introduced into the steam ejector is converted into condensed water and re-supplied to the steam supply device

The steam injected into the steam ejector is converted into condensed water and temporarily stored in the cascade tank, and a venting line is formed in the cascade tank so that the leaking gas can be discharged through the venting line.

When gas leakage is detected by the gas sensor formed on the air outflow line, the steam introduced into the steam ejector is discharged through the discharge line, so that the leaked gas is discharged to the discharge line together with the condensed water And more specific features.

Further, a gas purging line connected to the double piping for discharging the gas leaking to the outside piping is further formed.

Further, the control unit controls the gas supplied by the gas supply unit, controls the air supplied by the air supply unit, detects the gas leaking from the double pipe, and controls the leaked gas to be discharged through the gas purging line And may further include a control unit.

The method for circulating air through a double pipe for gas supply according to the present invention includes the steps of supplying air to an outer pipe of a double pipe to which gas is supplied and introducing high pressure steam into a steam ejector, As the high-pressure steam flows into the steam ejector, the air supplied to the outer pipe is sucked and circulated.

The steam introduced into the steam ejector is steam produced in a steam supply device provided in the ship.

The method may further include converting steam introduced into the steam ejector into condensed water and supplying the converted condensed water to the steam supply device.

Further, the method further includes the step of temporarily storing the converted condensed water in the cascade tank, wherein a venting line for discharging the leaked gas is formed in the cascade tank.

The method may further include discharging steam flowing into the steam ejector through a discharge line when gas leakage is detected by the gas detector.

The method may further include the step of supplying air to the inner pipe of the double pipe by detecting that the air is continuously supplied by the air supplying step.

The method may further include discharging the leaked gas through the gas purging line connected to the double pipe when it is detected that the gas has leaked to the outside pipe.

The method may further include stopping supply of the gas to the inner pipe of the double pipe when it is detected that the gas has leaked to the outer pipe.

According to the air circulation system and the air circulation method thereof through the double piping for supplying gas according to the present invention, a simple system configuration can be achieved, and an expensive fan is not required to be used.

And because it uses the existing steam circulation system, it is resource efficient and easy to maintain.

Further, the steam is supplied to the steam supply device again to circulate the air, which flows into the steam ejector, thereby making the resource more efficiently available.

Further, the steam ejector is constituted by multi-stages, and the design change is flexible according to the desired capacity.

Furthermore, even if the gas leaks from the inner pipe of the double pipe, it can be safely monitored and controlled to discharge it safely. Especially, when the gas leaks, the risk of fire is reduced by the condensed water.

1 shows an air circulation system according to an embodiment of the present invention.

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

1 shows an air circulation system according to an embodiment of the present invention.

Hereinafter, an air circulation system according to an embodiment of the present invention will be described with reference to FIG.

The air circulation system according to an embodiment of the present invention is a system for circulating air through a double piping constituted of a ship handling an gas such as LNG and an offshore structure.

The air circulation system for this purpose includes a double piping 110, a gas supply unit 120, an air supply unit 130, and an air suction means.

The dual pipe 110 has a dual structure of an inner pipe 111 and an outer pipe 112 for safe transportation of gas or the like which may pose a risk of leakage and a safety zone S in which the gas handling device A is provided, Respectively.

The gas handling device A may be a re-liquefier or an ME-GI engine or the like for treating gas or using as fuel, ME-GI engine is shown as an example in the embodiment of the present invention, ME-GI The engine room provided with the engine becomes the safety zone S.

The gas supply unit 120 supplies gas to the gas handling apparatus A through the gas supply line 121 and the gas supply line 121 is connected to the dual piping 110 to connect the inside piping 111 of the dual piping. So that the gas can be supplied.

A master gas valve 122 is provided on the gas supply line 121 to control supply and stop of the gas under the control of the controller 190.

The inner pipe 111 is protected and air is circulated through the outer pipe 112 to sense the leakage of the gas. The air is supplied by the air supply unit 130.

The air supplied from the air supply unit 130 flows into the external piping 112 of the double piping through the air supply line 131.

The air flowing into the outer pipe 112 of the double pipe is dry air whose pressure has been reduced to about 5 bar near the atmosphere. A pressure control valve 132 is provided on the air supply line 131 to adjust the pressure.

A flow sensor 133 is provided on the air supply line 131 to sense the circulation of the air. When it is confirmed that air is continuously supplied to the outer pipe 112 by the flow sensor 133, The control unit 190 determines that the gas handling apparatus A is ready to be operated and controls the gas supply unit 120 and the master gas valve 122 to supply the gas.

The circulated air flows out through the air outlet line 141 and the air outlet line 141 is provided with the air suction means so that the high pressure fluid flows into the air outlet line 141 through the separate line, To be sucked into the air outlet line 141.

Further, on the air outlet line 141, a gas sensor 142 is provided to sense gas leakage from the inner pipe 111, and when gas leakage is detected, the gas purge valve 182 is controlled So that the gas can be safely discharged through the gas purge line 181 connected to the pipe 110.

In an embodiment of the present invention, a steam ejector 151 (a water ejector) for sucking air on the outer pipe 112 due to the introduction of high-pressure steam is applied to the air suction means, And is then switched to a fast pace, thereby sucking in air and causing a vacuum.

When the steam ejector 151 is employed, the high density of the high-pressure steam makes it possible to suck a large amount of air having a relatively low density.

The steam ejector 151 allows steam generated by a steam system installed in a ship or an offshore structure to be introduced.

Steam systems are essential for ships and offshore structures. Steam supply (152), such as an economizer, which uses the waste heat of the boiler and engine, is applied to supply the steam where the equipment is heated and the heat source is needed. To produce steam.

That is, the steam produced by the steam supply device 152 is adjusted to a pressure of about 6 bar suitable for the steam ejector 151, and then flows into the steam ejector 151, whereby the air of the outer pipe 112 can be circulated do.

The steam that has flowed into the steam ejector 151 passes through the steam ejector 151 and then is discharged to the outside through the discharge line 162 by the 3-way control valve 161 or the condensed water circulating line 163 To the steam supply device 152. The steam supply device 152 is a steam supply device.

That is, when an emergency such as gas leakage occurs in the outer pipe, the steam is discharged through the discharge line 162 to the outside by controlling the 3-way control valve 161. At this time, It may be discharged with steam or condensate, which may reduce the risk of fire.

The steam which has flown normally into the steam ejector 151 is circulated through the condensed water circulation line 163 and supplied again to the steam supply device 152 so that steam can be generated again in the steam supply device 152, Thereby enabling efficient system configuration.

The condensate circulation line 163 is branched to convert low-pressure steam to condensed water through a steam trap 171 or to condense steam through a dumping condenser 172 to be converted into high-temperature water, To be stored in a cascade tank 173 and condensed water stored in the cascade tank 173 is supplied to the steam supply device 152 so that the steam can be reproduced.

A venting line 174 is additionally provided in the cascade tank 173 so that the leaking gas entering the cascade tank 173 can be vented and the gas sensor 175 is provided on the venting line 174, Thereby allowing the user to immediately detect the leakage.

As described above, the air circulation system according to the embodiment of the present invention can reliably operate the system with a simple configuration through the steam generated by the steam system, which is essential to the ship and the offshore structure, And allows the steam used to be re-used to form a resource efficient system.

The air circulation system and the air circulation method through the double piping for gas supply according to the present invention are not limited to the embodiments described above and can be variously modified and modified without departing from the spirit and scope of the present invention. Will be apparent to those of ordinary skill in the art. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

110: Double piping
111: inner pipe
112: Outside piping
120: gas supply unit
121: gas supply line
130:
131: Air supply line
132: Pressure regulating valve
133: Flow detector
141: Air outlet line 142: Gas detector
151: Steam ejector
152: Steam supply device
161: 3-way control valve 162: Discharge line 163: Condensate circulation line
171: Steam trap 172: Dumping capacitor
173: Cascade tank 174: Venting line 175: Gas detector
181: gas purge line 182: gas purge valve
190:

Claims (16)

Double piping connected to a gas handling system and supplied with gas;
A gas supply part for supplying gas to the gas handling device through an inner pipe of the double pipe;
An air supply unit for supplying air through an external pipe of the double pipe; And
An air outlet line through which the circulated air flows out from the outer pipe;
A steam ejector provided in the air discharge line for drawing high pressure steam from the steam supply device and sucking air supplied to the outer pipe;
A condensate circulation line branched from a rear end of the steam ejector and connected to the steam supply device; And
A discharge line branched from a rear end of the steam ejector and discharging steam and gas out of the boiler; / RTI >
The steam introduced into the steam ejector is re-supplied to the steam supply device through the condensed water circulation line, and when the gas is leaked to the outside pipe, the discharged gas and steam are discharged together with the exhaust line Features,
Air circulation system through double piping for gas supply. The method according to claim 1,
Wherein the condensate circulation line and the discharge line are respectively branched at a rear end of the steam ejector by a three-way valve.
Air circulation system through double piping for gas supply. delete delete The method according to claim 1,
The steam introduced into the steam ejector is converted into condensed water and temporarily stored in the cascade tank,
A venting line is formed in the cascade tank,
Characterized in that the leaking gas can be discharged through the venting line.
Air circulation system through double piping for gas supply. The method according to claim 1,
A gas sensor installed on the air outflow line to detect a gas leakage; Lt; RTI ID = 0.0 > 1, < / RTI &
Air circulation system through double piping for gas supply. The method according to claim 1,
And a gas purging line connected to the double piping for discharging the gas leaking to the outside piping.
Air circulation system through double piping for gas supply. The method of claim 7,
Controls the gas supplied by the gas supply unit,
Controls the air supplied by the air supply unit,
Further comprising a control unit for sensing gas leaking from the double pipe and controlling the discharged gas to be discharged through the gas purging line,
Air circulation system through double piping for gas supply. (a) supplying air to an outer pipe of a double pipe to which a gas is supplied;
(b) introducing high pressure steam into the steam ejector to suck air supplied to the outer pipe to the air outlet line side; And
(c) discharging steam introduced into the steam ejector; Lt; / RTI >
And discharging the steam introduced into the steam ejector to the condensate circulation line in the step (c), and discharging the leaking gas and steam together with the exhaust line to the outside when the gas leaks to the outside pipeline doing,
A method of circulating air through a double piping for gas supply. The method of claim 9,
Wherein the steam introduced into the steam ejector is steam generated in a steam supply device provided in the ship.
A method of circulating air through a double piping for gas supply. The method of claim 10,
(d) converting steam discharged from the steam ejector into the condensate circulation line into condensed water; And
(e) re-supplying the converted condensed water to the steam supply device; ≪ / RTI >
A method of circulating air through a double piping for gas supply. The method of claim 11,
Further comprising the step of temporarily storing the converted condensed water in the cascade tank,
Wherein a venting line for discharging the leaked gas is formed in the cascade tank.
A method of circulating air through a double piping for gas supply. The method of claim 9,
Characterized in that a gas sensor is installed on the air outlet line to detect gas leakage.
A method of circulating air through a double piping for gas supply. delete 14. The method of claim 13,
If it is detected that gas has leaked to the outer pipe,
(f) discharging the leaked gas through a gas purging line connected to said dual pipe,
A method of circulating air through a double piping for gas supply. 14. The method of claim 13,
If it is detected that gas has leaked to the outer pipe,
(g) stopping supply of gas to the inner pipe of the double pipe.
A method of circulating air through a double piping for gas supply.

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