KR101996276B1 - Gas Line System For Preventing Low Temperature Effect And Method For Preventing Low Temperature Effect Using Gas Line System - Google Patents

Abstract

Disclosed is a gas piping system for preventing a low temperature phenomenon and a method for preventing a low temperature shape through a gas piping system. The gas piping system for preventing the low temperature phenomenon of the present invention is a gas piping system comprising: a main line through which compressed gas is delivered; A compressed gas introduction facility for receiving a compressed gas transferred to the main line; And a low-temperature phenomenon prevention unit for interrupting supply of the compressed gas and pre-pressurizing the compressed gas according to an internal pressure of the compressed gas introduction equipment and a differential pressure of the compressed gas.

Description

TECHNICAL FIELD [0001] The present invention relates to a gas piping system for preventing a low temperature phenomenon and a low temperature phenomenon prevention method using a gas piping system.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas piping system for preventing a low temperature phenomenon and a method for preventing a low temperature phenomenon through a gas piping system. More particularly, The present invention relates to a gas piping system for preventing a low temperature phenomenon.

When performing the process of compressing and transferring the gas, the gas can be introduced into the process system through the piping. In the case of an initial start-up of such a process system or a re-start after shut-down of the system, the process gas is introduced into the process system at a low pressure.

When the compressed gas enters the low-pressure process system, a sudden pressure drop causes a Joule-Thomson effect. This is an extreme low temperature phenomenon in which the gas is cooled as the temperature is lowered due to the interaction between the molecules when the compressed gas is rapidly passed through the narrowed passage through the low-pressure state.

In order to prevent a low-temperature phenomenon in which a compressed gas is cooled by a pressure difference between an internal pressure and a compressed gas in the case of an initial operation or a restart after a shutdown in an installation where a compressed gas is introduced, The supply of the compressed gas is blocked according to the pressure and the differential pressure of the compressed gas, and pre-pressurization is performed to prevent the low temperature phenomenon.

According to an aspect of the present invention, in a gas piping system,

A main line through which compressed gas is delivered;

A compressed gas introduction facility for receiving the compressed gas transferred to the main line; And

There is provided a gas piping system for preventing a low temperature phenomenon including a low temperature phenomenon prevention unit for preventing supply of the compressed gas and pre-pressurizing the compressed gas according to the internal pressure of the compressed gas introduction equipment and the differential pressure of the compressed gas.

Wherein the low-temperature development prevention unit measures the internal pressure of the compressed gas introduction equipment, blocks the introduction of the compressed gas into the compressed gas introduction equipment, and pre-compresses the compressed gas introduction equipment with an inert gas, The low temperature phenomenon due to the Thompson effect can be prevented.

The low-temperature development prevention unit includes a first shut-down valve provided in the main line, a line pressure unit for applying an inert gas to the compressed gas introduction facility to pressurize the line, And a pressure controller for controlling the introduction of the compressed gas and the introduction of the inert gas into the introduction facility.

The low temperature improvement prevention portion includes a bypass line provided in the main line so that the compressed gas is introduced into the main line bypassing at least a part of the section of the main line and a second shutdown valve provided in the bypass line .

Wherein the pressure control unit comprises: a pressure sensor for measuring and transmitting the internal pressure of the compressed gas introduction equipment; and a control unit for receiving the internal pressure value of the compressed gas introduction equipment from the pressure sensor, And a controller for controlling the introduction of the inert gas.

The pre-pressurizing portion may include a line pressurizing line for supplying the inert gas to the pressurized gas introducing facility, and a ball valve provided on the line pressurizing line to block the supply of the inert gas.

The pre-pressurizing portion may further include a check valve provided on the line pressurizing line to prevent the reverse flow of the inert gas.

The inert gas may include nitrogen (N ₂ ).

According to another aspect of the present invention, there is provided a method of preventing a low-

1) measuring the pressure of the equipment to which the compressed gas is introduced;

2) transferring the pressure of the measured facility and closing the valve provided in the piping in which the compressed gas is introduced according to the set safety logic to block introduction of the compressed gas; And

3) supplying an inert gas to the facility to increase the pressure of the facility; and a method of preventing the low temperature phenomenon through the gas piping system.

In the gas piping system for preventing the low temperature phenomenon of the present invention, the compressed gas is prevented from being supplied in accordance with the internal pressure of the compressed gas introducing unit and the differential pressure of the compressed gas in the low temperature phenomenon prevention unit and pre- It is possible to prevent a low temperature phenomenon due to the Row Thompson effect.

FIG. 1 schematically shows a concept of a gas piping system for preventing a low temperature phenomenon 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.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings.

FIG. 1 schematically shows a concept of a gas piping system for preventing a low temperature phenomenon according to an embodiment of the present invention.

1, a gas piping system for preventing a low temperature phenomenon according to an embodiment of the present invention is a gas piping system including a main line ML through which compressed gas is delivered and a main line ML And a low-temperature phenomenon in which compressed gas is prevented from being supplied and pre-pressurized in accordance with the internal pressure of the compressed gas introducing apparatus 100 and the pressure difference of the compressed gas, (200).

The low temperature phenomenon prevention unit 200 measures the internal pressure of the compressed gas introducing apparatus 100 to block the introduction of the compressed gas into the compressed gas introducing apparatus 100 and presses the compressed gas introducing apparatus 100 with the inert gas It is possible to prevent the low-temperature phenomenon due to the Row Thompson effect in the compressed gas introducing apparatus 100. [

The Row Thompson effect means that the temperature changes with the pressure drop when expanding the gas by passing through an insulated narrow pipe (pore) where the heat is exchanged with the outside. At this time, the enthalpy before and after passing through the tube is the same, but the temperature changes due to intermolecular interaction. The temperature of other gases except hydrogen is generally lowered. The cooling of the gas by the Row Thompson effect may be used for cooling of the refrigerant such as an air conditioner or a refrigerator, and air liquefaction.

However, since the compressed gas introducing apparatus 100 to which the present embodiment is applied does not intend to cool the gas, when the compressed gas introducing apparatus 100 is initially operated or after the shutdown, It is necessary to prevent a low-temperature phenomenon due to the Row Thompson effect which may be caused by the differential pressure with the compressed gas introduced.

If the compressed gas is excessively cooled due to the low-temperature phenomenon, the durability of the compressed gas introducing apparatus 100 may be lowered due to the low temperature. To prevent this problem, the compressed gas introducing apparatus 100 and the piping are formed of stainless steel, titanium It must be made of materials that are durable to low temperatures, which in turn leads to increased system installation and management costs.

In the present embodiment, since the low temperature phenomenon prevention unit 200 is configured to prevent the low temperature phenomenon that causes such a problem, it is not necessary to apply the expensive low temperature material to reduce the cost, Thereby preventing deformation or breakage of the piping and the equipment.

The compressed gas introducing apparatus 100 to which the present embodiment is applied includes, for example, a facility for collecting and separating crude oil from offshore or onshore and transferring the separated gas to a primary gas storage via a multi-stage gas compressor Lt; / RTI >

The low temperature phenomenon prevention unit 200 of the present embodiment includes a first shutdown valve 210 provided in the main line ML and a line pressure unit 220 for supplying line pressure to the compressed gas introduction equipment 100, And a pressure control unit 230 for measuring the internal pressure of the compressed gas introducing apparatus 100 and adjusting the introduction of the compressed gas into the compressed gas introducing apparatus 100 and the introduction of the inert gas.

First, it is calculated how much the temperature can be tolerated depending on the material of the system components such as the compressed gas introduction equipment 100 and piping. The internal pressure of the compressed gas introducing equipment 100 at this time, Set the pressure difference to the set point.

When the differential pressure exceeding the set point is generated, the main shutoff valve 210 cuts off the main line ML under the control of the pressure control unit 230, and the inert gas is supplied to the compressed gas introduction facility 100 And presses the wire. Line pressurization occurs until the set point is reached.

The low temperature improvement preventing portion includes a bypass line 240 provided in the main line ML so that compressed gas is introduced into the main line ML while bypassing at least a part of the main line ML, And a second shut-down valve 250 provided in the second shut-off valve 250.

It is possible to prevent the compressed gas from being introduced into the compressed gas introduction equipment 100 rapidly abruptly by bypassing a part of the main line ML through the bypass line 240, Slowly pressurize.

The pressure control unit 230 includes a pressure sensor 231 for measuring and transmitting the internal pressure of the compressed gas introducing apparatus 100 and a pressure sensor 231 for receiving the internal pressure value of the compressed gas introducing apparatus 100 from the pressure sensor 231, And a controller 232 for controlling the introduction of the compressed gas and the inert gas according to safety logic.

The controller 232 receives the internal pressure value of the compressed gas introducing apparatus 100 measured by the pressure sensor 231, and when the pressure difference with the compressed gas exceeds the set point set by the pressure gas sensor 231, The shutdown valve 210 and the second shutdown valve 250 are closed to shut off the main line ML and the bypass line 240 and the inert gas is supplied to the compressed gas introduction facility 100 ).

The line pressure section 220 includes a line pressure line 221 for supplying an inert gas to the compressed gas introducing apparatus 100 and a ball valve 222 provided in the line pressure line 221 to block the supply of the inert gas .

The inert gas is supplied to the compressed gas introducing apparatus 100 until the set point is reached through the line pressure line 221 while continuously measuring the internal pressure by the pressure sensor 231. [ When it is detected that the internal pressure of the compressed gas introducing apparatus 100 has risen to reach the set point by the inert gas, the controller 232 interrupts the ball valve 222 to stop the supply of the inert gas, And the bypass line 240 into the compressed gas introducing apparatus 100. The compressed gas introducing apparatus 100 is provided with a pressurized gas supply line (not shown).

The pre-pressurizing portion 220 may further include a check valve 223 provided on the line pressurizing line 221 to prevent reverse flow of the inert gas.

The inert gas of this embodiment may include nitrogen (N ₂ ).

According to another aspect of the present invention, there is provided a method of preventing a low-

1) measuring the pressure of the equipment to which the compressed gas is to be introduced;

2) transferring the pressure of the measured facility and closing the valve provided in the piping in which the compressed gas is introduced according to the set safety logic to block the introduction of the compressed gas; And

3) supplying an inert gas to the facility to increase the pressure of the facility; and a method of preventing a low temperature phenomenon through the gas piping system.

As described above, in the gas piping system for preventing the low temperature phenomenon of the present embodiment, the set point is set, and the internal pressure of the compressed gas introducing apparatus 100 is measured to prevent the compressed gas from being supplied in accordance with the differential pressure of the compressed gas And pre-pressurization with an inert gas, it is possible to prevent a low-temperature phenomenon due to the Row Thompson effect.

By constructing the gas piping system so as to prevent the low temperature phenomenon, it is not necessary to apply the expensive low-temperature material to the system, which is economical because the cost can be reduced. In addition, it is possible to prevent deformation and breakage of equipment and piping due to the rapid decrease in temperature, thereby reducing the cost of the system.

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. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

ML: Main Line
100: Compressed gas introduction facility
200: Low temperature phenomenon prevention part
210: first shutdown valve
220:
221: Line pressure line
222: Ball valve
223: Check valve
230:
231: Pressure sensor
232: controller
240: Bypass line
250: 2nd shutdown valve

Claims (9)

In a gas piping system,
A main line through which compressed gas is delivered;
A compressed gas introduction facility for receiving the compressed gas transferred to the main line; And
And a low-temperature phenomenon prevention unit for preventing supply of the compressed gas and pre-pressurizing the compressed gas according to an internal pressure of the compressed gas introduction unit and a differential pressure of the compressed gas,
The low temperature development prevention unit may include: a first shutdown valve provided in the main line; A line pressurizing unit for supplying an inert gas to the compressed gas introducing unit to pressurize the line; And a pressure control unit for measuring the internal pressure of the compressed gas introduction equipment and regulating introduction of the compressed gas and introduction of the inert gas into the compressed gas introduction equipment,
Wherein the pressure control unit cuts off the main line to the first shutdown valve when a pressure difference exceeding the set point occurs and supplies the inert gas to the compressed gas introduction equipment. The method according to claim 1,
Wherein the low-temperature development prevention unit measures the internal pressure of the compressed gas introduction equipment, blocks the introduction of the compressed gas into the compressed gas introduction equipment, and pre-compresses the compressed gas introduction equipment with an inert gas, A gas piping system for preventing a low temperature phenomenon, characterized by preventing a low temperature phenomenon due to the Thompson effect. The method according to claim 1,
Wherein a pressure difference between the internal pressure of the compressed gas introduction equipment and the introduced compressed gas calculated as a temperature drop that can be tolerated by the compressed gas introduction equipment is set to a set point of the pressure control unit. Gas piping system. 4. The apparatus according to claim 3, wherein the low temperature phenomenon prevention unit
A bypass line provided in the main line so that the compressed gas is introduced into the main line by bypassing at least a part of the main line section; And
And a second shutdown valve provided on the bypass line. 4. The apparatus of claim 3, wherein the pressure control unit
A pressure sensor for measuring and transmitting the internal pressure of the compressed gas introduction equipment; And
And a controller for receiving the internal pressure value of the compressed gas introduction equipment from the pressure sensor and controlling the introduction of the compressed gas and the inert gas according to a set safety logic, . 4. The linear compressor according to claim 3,
A line pressure line for supplying the inert gas to the compressed gas introduction equipment; And
And a ball valve provided on the line pressurizing line for shutting off supply of the inert gas. 7. The apparatus according to claim 6, wherein the pre-
And a check valve provided on the line pressurizing line to prevent the reverse flow of the inert gas. The method of claim 3,
Wherein the inert gas comprises nitrogen (N ₂ ). delete

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