KR102098686B1 - Device for checking gas pressure of pipe - Google Patents

Abstract

Provides a gas pressure checking device for piping. The gas pressure checking device of the pipe according to the present invention includes a first gas inlet box for introducing a first gas into a supply object, a second gas inlet box for introducing a second gas into a supply object, a first gas and a second gas It includes a pressure check unit for checking whether the pressure of the match.

Description

DEVICE FOR CHECKING GAS PRESSURE OF PIPE}

The present invention relates to a gas pressure checking device for a pipe.

In general, the combustion gas supplied to the coke oven combustion chamber is a combustion chamber through an orifice blocking cock, a reversing cock, a floor flue (SOLE FLUE) and a heat storage chamber through a gas distribution pipe maintained at a constant pressure. Is supplied to.

Then, the combustion air is supplied to the combustion chamber through an air inlet box (AIB: AIR INLET BOX), a floor flue (SOLE FLUE), and a heat storage chamber for combustion.

When the pressure of the bottom flue connected to the flue is adjusted to adjust the waste gas oxygen (0 ₂ ) during the combustion operation, the air supply amount through the air inflow box (AIB) is sensitively changed according to the pressure adjustment amount.

However, the gas supply amount does not increase significantly due to the pressure drop caused by the gas distribution pipe orifice and the pressure loss caused by the blocking cock and the reversing cock.

For this reason, since the pressures of the gas and air supplied to the combustion chamber are not kept constant, there are problems such as non-combustion and increased heat consumption.

The present invention is to provide a gas pressure checking device of a pipe that can adjust the pressure of the gas and air in an optimal ratio by allowing the pressure of the combustion gas supplied to the combustion chamber of the coke oven to match the pressure of the combustion air. do.

Gas pressure checking device of the pipe according to an embodiment of the present invention, the first gas inlet box for introducing the first gas to the supply object, the first gas inlet box is spaced apart and the first gas to the supply object And a second gas inlet box for introducing a different second gas.

In addition, the gas pressure checking device of the pipe may be connected between the first gas inlet box and the second gas inlet box, and may include a pressure checking unit for confirming whether the pressures of the first gas and the second gas match.

The first gas inlet box is disposed in a plurality of spaced intervals in the gas supply pipe supplying the first gas to the supply object, and is installed to communicate with the gas supply pipe, and the second gas inlet box is provided in plural to the gas supply pipe It may be alternately arranged with the first gas inlet box.

The pressure checking unit may include a first gas introduction pipe connected to the first gas inlet box to introduce the first gas, and a second gas introduction pipe connected to the second gas inlet box to introduce the second gas. .

The pressure confirmation unit may include a pressure confirmation tube for connecting the first gas introduction pipe and the second gas introduction pipe to each other and confirming whether the pressures of the first gas and the second gas match.

The pressure check tube may be filled with a pressure check material capable of flowing according to a pressure difference between the first gas and the second gas.

The pressure check tube may be formed in a U shape.

The pressure check material may be made of liquid mercury.

The pressure check tube may be made of a transparent material or a translucent material.

A blocking stopper for controlling the supply of the first gas through a gas supply pipe may be installed in the first gas inflow box, and an adjustment damper for adjusting the opening degree may be installed in the blocking stopper.

A gate for controlling supply of the second gas into the second gas inlet box may be installed at the second gas inlet box.

The first gas may be a combustion gas supplied to the combustion chamber as a supply target or a waste gas discharged from the combustion chamber, and the second gas may be combustion air supplied to the combustion chamber or air discharged from the combustion chamber.

According to the embodiment of the present invention, since it is possible to check whether the pressure of the combustion gas and the pressure of the combustion air supplied to the coke oven combustion chamber coincide, it is possible to adjust the pressure of the combustion gas and air in an optimal ratio.

In addition, the pressure change of the entire combustion process of the coke oven combustion chamber can be observed, and when the bottom flue pressure is adjusted, the pressure change between the combustion gas and the combustion air can be checked to adjust the actual amount of gas supplied.

In addition, when the combustion chamber is completely burned, the pressure of the combustion gas and the combustion air on the floor flue side can be operated as a standard, and the pressure checking device installed on the waste gas side can be used as a device to determine whether the combustion system is abnormal.

1 is a schematic configuration diagram illustrating a combustion method of a coke oven according to an embodiment of the present invention.
2 is a schematic perspective view of a gas pressure checking device of a pipe according to an embodiment of the present invention.
3 is a schematic partial perspective view of a gas pressure checking device of a pipe according to an embodiment of the present invention.
4 is a schematic front view for showing a schematic application state of a gas pressure checking device of a pipe according to an embodiment of the present invention.
5 is a schematic partial front view of a combustion pressure part of a gas pressure checking device of a pipe according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. As those of ordinary skill in the art to which the present invention pertains can readily understand, the embodiments described below may be modified in various forms without departing from the concept and scope of the present invention. Where possible, the same or similar parts are indicated by the same reference numerals in the drawings.

The terminology used hereinafter is for reference only to specific embodiments and is not intended to limit the invention. The singular forms used herein include plural forms unless the phrases clearly indicate the opposite. As used herein, the meaning of “comprising” embodies certain properties, regions, integers, steps, actions, elements and / or components, and other specific properties, regions, integers, steps, actions, elements, components and / or groups It does not exclude the existence or addition of.

All terms including technical terms and scientific terms used hereinafter have the same meaning as those generally understood by those of ordinary skill in the art. Terms defined in the dictionary are additionally interpreted as having a meaning consistent with the related technical literature and the presently disclosed content, and are not interpreted in an ideal or very formal sense unless defined.

1 is a schematic configuration diagram for explaining a combustion method of a coke oven according to an embodiment of the present invention, and FIG. 2 is a schematic perspective view of a gas pressure checking device of a pipe according to an embodiment of the present invention.

3 is a schematic partial perspective view of a gas pressure checking device of a pipe according to an embodiment of the present invention, and FIG. 4 is a view showing a schematic application state of a gas pressure checking device of a pipe according to an embodiment of the present invention It is a schematic front view.

5 is a schematic partial front view of a combustion pressure part of a gas pressure checking device of a pipe according to an embodiment of the present invention.

1 to 5, a gas pressure checking device of a pipe according to an embodiment of the present invention may include a first gas inflow box 100 for introducing a first gas into a supply object.

In addition, the gas pressure checking device of the pipe is disposed at a predetermined distance from the first gas inlet box 100, and the second gas inlet box 200 for introducing a second gas different from the first gas into the supply object It can contain.

The gas pressure checking device of the pipe is connected between the first gas inlet box 100 and the second gas inlet box 200, and a pressure checking unit for confirming whether the pressures of the first gas and the second gas match. 300).

The supply object may include a coke oven combustion chamber 10 and the like.

The first gas inflow box 100 may be installed in communication with the gas supply pipe 400 at a plurality of intervals set in the gas supply pipe 400 for supplying the first gas to the combustion chamber 10 of the supply object. have.

The second gas inlet pipe 200 may be provided in plural.

As illustrated in FIG. 3, a plurality of first gas inflow boxes 100 and second gas inflow boxes 200 may be alternately arranged in pairs in the gas supply pipe 400.

The first gas inflow box 100 may supply the first gas to the combustion chamber 10 through the bottom flue 30 installed at the lower end of the heat storage chamber 20.

The first gas is a combustion gas for combustion supplied to the combustion chamber 10, and may include Coke Oven Gas (COG) and / or Blast Furnace Gas (BFG).

In addition, the first gas may include waste gas discharged from the combustion chamber 10.

The second gas may include combustion air for combustion supplied to the combustion chamber 10, air discharged from the combustion chamber 10, and the like.

In addition, the pressure checking unit 300 may be connected to the first gas inlet box 100 and include a first gas inlet pipe 310 for introducing the first gas in the first gas inlet box.

In addition, the pressure checking unit 300 may be connected to the second gas inlet box 200 and may include a second gas introduction pipe 320 for introducing the second gas in the second gas inlet box 200.

The pressure check unit 300 is also provided between the first and first waste gas discharge pipes 500 for discharging waste gas as first gas and the air discharge pipes 600 for discharging air as second gas from the combustion chamber 10 as a supply object. 2 It can be applied as in the gas inlet box (100, 200).

The waste gas discharge pipe 500 and the air discharge pipe 600 may be alternately disposed in pairs, alternately along the coke pipe 700, like the first and second gas inflow boxes 100 and 200.

The pressure checking unit 300 connects the first gas introduction pipe 310 and the second gas introduction pipe 320 to each other, and a pressure confirmation pipe 330 for confirming whether the pressures of the first gas and the second gas match. ).

A pressure check material 340 that can flow according to a pressure difference between the first gas and the second gas may be filled in the pressure check tube 330.

The first gas introduction pipe 310 may be coupled to the first flange portion 110 formed at one end of the first gas inflow box 100 by the first fitting port 120.

Also, the second gas introduction pipe 320 may be coupled to the second flange portion 210 formed at one end of the second gas inflow box 200 by the second coupling port 220.

The pressure check tube 330 may be formed in a U-shape or the like to easily check the flow state of the pressure check material 340 according to the pressure difference between the first gas and the second gas.

A reference point P1 where the pressures of the first gas and the second gas coincide may be displayed on the pressure check tube 330 to facilitate whether the pressures of the first gas and the second gas coincide.

The reference point P1 may point to an intermediate portion of the U-shaped pressure check tube 330 so as to easily check whether the pressure matches.

The pressure check material 340 may include liquid mercury or the like that can be easily moved without being attached inside the pressure check tube 330.

Since the mercury of the pressure confirmation material 340 is not attached to the inner surface of the pressure confirmation tube 330, the pressure scale displayed on the pressure confirmation tube 330 can be easily read.

In addition, since the mercury has a boiling point of 350 ° C. or higher, the physical properties do not change even when exposed to a temperature of the first gas introduced into the first gas introduction tube 310, for example, 100 ° C.

In addition, since the specific gravity of mercury is high and the height of the U-shaped pressure check tube 330 is low, the pressure difference between the first gas and the second gas can be easily confirmed.

The pressure check tube 330 may be made of a transparent material or a translucent material to easily check the inside of the pressure check tube 330.

In addition, a first connection pipe 130 for connecting to the gas supply pipe 400 may be connected to a lower end of the first gas inflow box 100.

A blocking stopper 140 for controlling the supply of the first gas through the gas supply pipe 400 may be installed in the first connection pipe 130.

In addition, an adjustment damper 150 for adjusting the opening rate of the blocking stopper 140 may be installed at the blocking stopper 140.

The adjustment damper 150 may be connected to one side of the first gas inflow box 100 and an adjustment lever 160 for adjusting the adjustment damper 150 may be respectively installed.

In addition, a gate 201 for controlling the supply of the second gas into the second gas inlet box 200 may be installed on one end surface of the second gas inlet box 200.

Hereinafter, the operation of the gas pressure checking device of the pipe according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

Hereinafter, the supply object is the combustion chamber 10, the pressure of the first gas inlet box 100 supplying the first gas to the combustion chamber 10 and the pressure of the second gas inlet box 200 supplying the second gas The case of confirming the match will be described as an example.

Of course, if the supply object is the combustion chamber 10 and the pressure of the waste gas discharge pipe 500 for discharging waste gas from the combustion chamber 10 and the pressure of the air discharge pipe 600 for discharging air are checked, the same method is used. Can be applied.

First, combustion gas is introduced as a first gas into the first gas inlet box 100 through the gas supply pipe 400, and combustion air is used as a second gas from the outside into the second gas inlet box 200. Is introduced.

As described above, the combustion gas introduced into the first gas inflow box 100 is introduced into the first gas introduction pipe 310 of the pressure checking unit 300 and introduced into the second gas inflow box 200. The combustion air is introduced into the second gas introduction pipe 320.

Combustion gas introduced into the first gas introduction pipe 310 and combustion air introduced into the second gas introduction pipe 320 are examples of the pressure confirmation material 340 according to the pressure difference. It flows along the inside of the tube 330.

At this time, since the pressure check tube 330 is formed of a transparent material or a translucent material, the pressure difference between the combustion gas and the air for combustion is confirmed by checking the position of the pressure check material 340 inside the pressure check tube 330 from the outside. You can check

That is, according to the pressure difference between the pressure of the combustion gas introduced into the first gas introduction pipe 310 and the pressure of the combustion air introduced into the second gas introduction pipe 320, the pressure confirmation material 340 is the pressure confirmation tube 330 ), So the pressure difference can be checked depending on whether it flows or not.

When the middle portion of the pressure check material 340 is located at the reference point P1 of the pressure check tube 330, it can be confirmed that the pressures of the combustion gas of the first gas and the combustion air of the second gas match.

For example, when the middle portion of the pressure check material 340 flows to the right as shown in FIG. 2 at the reference point P1 of the U-shaped pressure check tube 330 and is located toward the first gas introduction pipe 310 , The pressure of the combustion gas is lower than that of the combustion air.

As described above, when the pressure of the combustion gas is lower than the pressure of the combustion air, the opening rate of the blocking stopper 140 is adjusted to increase the pressure of the combustion gas or the opening amount of the gate 201 is adjusted. The pressure of the combustion air can be reduced.

That is, by operating the adjustment lever 160 to control the adjustment damper 150 to adjust the opening rate of the blocking stopper 140 to increase the pressure of the gas for combustion to a set pressure.

In addition, the opening amount of the gate 201 may be adjusted to reduce the pressure of the combustion air to a set pressure.

When the pressure of the combustion gas is increased to the set pressure, or when the pressure of the combustion air is reduced to the set pressure by adjusting the opening amount of the gate 201, the middle portion of the pressure confirmation material 340 is the pressure check tube 330 It may be located at the reference point (P1) of.

As described above, when the middle portion of the pressure confirmation substance 340 is located at the reference point P1 of the pressure confirmation tube 330, the pressure of the combustion gas of the first gas and the combustion air of the second gas coincide, and thus is blocked. It is enough to stop the opening degree adjustment of the stopper 140 and the opening amount adjustment of the gate 201.

On the contrary, when the middle portion of the pressure confirmation material 340 flows to the left from the intermediate reference point P1 of the U-shaped pressure confirmation pipe 330 and is located toward the second gas introduction pipe 320, the combustion gas It can be confirmed that the pressure is higher than that of the combustion air.

As described above, when the pressure of the combustion gas is higher than the pressure of the combustion air, the opening rate of the blocking stopper 140 is adjusted to reduce the pressure of the combustion gas, or the opening amount of the gate 201 is adjusted. The pressure of the combustion air can be increased.

That is, it is possible to reduce the pressure of the combustion gas to a set pressure by controlling the opening degree of the blocking stopper 140 by controlling the adjustment damper 150 by operating the adjustment lever 160.

In addition, the opening amount of the gate 201 may be adjusted to increase the pressure of the combustion air to a set pressure.

The pressure of the combustion gas is reduced to a set pressure or the opening amount of the gate 201 is adjusted to increase the pressure of the combustion air to a set pressure so that the middle portion of the pressure confirmation material 340 is a reference point of the pressure check tube 330 It may be located at (P1).

When the middle portion of the pressure check material 340 is located at the reference point P1 of the pressure check tube 330, since the pressure of the combustion gas of the first gas and the combustion air of the second gas coincide, the blocking stopper 140 It is enough to stop adjusting the opening degree of) or adjusting the opening amount of the gate 201.

Accordingly, it is possible to check whether the pressure of the combustion gas and the pressure of the combustion air supplied to the combustion chamber of the coke oven coincide, so that the pressure of the combustion gas and air can be adjusted to an optimum ratio.

10: combustion chamber
20: heat storage room
100: first gas inlet box
200: second gas inlet box
300: pressure check unit
310: first gas introduction pipe
320: second gas introduction pipe
330: pressure check tube
340: pressure check material

Claims (10)

A first gas inlet box for introducing a first gas to the supply object,
A second gas inlet box which is disposed at a distance from the first gas inlet box, and for introducing a second gas different from the first gas into the supply object, and
A pressure check unit connected between the first gas inlet box and the second gas inlet box and configured to check whether the pressures of the first gas and the second gas match.
Including,
The first gas inflow box is disposed at a plurality of intervals set at a gas supply pipe supplying the first gas to the supply object, and installed to communicate with the gas supply pipe,
The second gas inflow box is provided with a plurality of gas pressure checking device of the pipe alternately arranged with the first gas inlet box along the longitudinal direction of the gas supply pipe to the gas supply pipe. delete According to claim 1,
The pressure check unit is connected to the first gas inlet box, a first gas introduction pipe for introducing the first gas,
A second gas introduction pipe connected to the second gas inflow box and for introducing the second gas, and
And a pressure check tube for connecting the first gas introduction tube and the second gas introduction tube to each other and checking whether the pressures of the first gas and the second gas match. According to claim 3,
A gas pressure checking device in a pipe in which a pressure check material capable of flowing according to a pressure difference between the first gas and the second gas is filled in the pressure check tube. According to claim 4,
The pressure check tube is formed in a U-shape, the gas pressure checking device of the pipe. The method of claim 5,
The pressure checking material is made of liquid mercury, gas pressure checking device of the pipe. According to claim 3,
The pressure check tube is made of a transparent material or a translucent material, gas pressure checking device of the pipe. According to claim 1,
A blocking stopper for controlling the supply of the first gas through the gas supply pipe is installed in the first gas inflow box,
The blocking stopper is provided with an adjustment damper for adjusting the opening degree, Gas pressure checking device for piping. The method of claim 8,
The second gas inlet box is a gate for controlling the supply of the second gas into the second gas inlet box is installed, the gas pressure checking device of the pipe. The method according to any one of claims 1 and 3 to 9,
The first gas is a combustion gas supplied to the combustion chamber as the supply object or a waste gas discharged from the combustion chamber,
The second gas is the combustion air supplied to the combustion chamber or the air discharged from the combustion chamber, the gas pressure checking device of the pipe.

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