KR19980015041U - Sample collection tube for oxygen analyzer of waste gas - Google Patents

Abstract

The present invention relates to a sampling tube for an oxygen measuring device for measuring the concentration of oxygen contained in waste gas in a furnace equipment. More specifically, it is easy to remove condensate from a sample and prevent invasion of outside air into the sample. The present invention relates to a sample collection tube for an oxygen (O 2) analyzer for waste gas, which enables accurate measurement of oxygen concentration.

The present invention, one side end is connected to the upstream side of the year and the other end is connected to the wake side of the year, the induction pipe formed in the middle portion; A conduit to which an oxygen meter is connected to an upper side of the induction pipe, wherein the conduit includes a first connection pipe connected to a purge air pipe through an automatic opening / closing valve; And a U-pipe connected to the discharge pipe extending downward from the middle portion of the induction pipe and having a hollow casing, and having a U-tube connected to the discharge pipe inside the casing, while a through hole is formed at one side of the U-tube. A condensate remover configured to discharge at one side of the casing to discharge condensed water in the induction pipe to the outside, and to block backflow of outside air from the condensed water in the U-shaped pipe; It provides a sample collection tube for oxygen (O2) analysis device of the waste gas, characterized in that it comprises a.

Description

Sample collection tube for oxygen (O2) analyzer of waste gas

The present invention relates to a sampling tube for an oxygen measuring device for measuring the concentration of oxygen contained in waste gas in a furnace equipment. More specifically, it is easy to remove condensate from a sample and prevent invasion of outside air into the sample. The present invention relates to a sample collection tube for an oxygen (O 2) analyzer of waste gas, which enables accurate measurement of oxygen concentration.

In general, in the furnace 100 of a steel mill, as illustrated in FIG. 5, a flue 120 for allowing waste gas discharged from a furnace (or a cracker) 110 to be released into the atmosphere, and a heat exchanger ( 130), stack 140, and the like. The furnace equipment is equipped with various analyzers for detecting components of the waste gas and optimally maintaining operating conditions. The analyzer is equipped with an oxygen measuring instrument 150 for measuring the oxygen concentration in the waste gas.

As shown in FIG. 6, the oxygen measuring device 150 according to the related art is provided with a sampling pipe 152 penetrating through a furnace wall of the heating furnace 110, and such a linear sampling pipe 152 is provided. The oxygen measuring device 150 measures the waste gas sucked through the gas to detect the concentration of oxygen. In addition, the oxygen measuring device 150 is provided with a standard gas inlet 154 for supplying a standard gas (nitrogen: oxygen = 96: 4) for initially setting an oxygen reference concentration therein, and an oxygen measuring device 150. A purge air supply port 156 is provided for supplying a purge air for removing various dusts and the like attached to the waste gas pipeline in the air, and the air at a high speed to suck the waste gas into the internal pipe of the oxygen analyzer 150. The jet air inlet 158 is provided with a jet air is supplied to pass through. Therefore, the oxygen measuring device 150 continuously measures the oxygen concentration in the waste gas discharged from the furnace 110 to the stack 14, but a large amount of dust and condensed water due to a change in temperature exist in the waste gas. Therefore, the sampling tube 152 has a problem that is clogged repeatedly.

When the sampling tube 152 is blocked in this way, the conductivity of the oxygen measuring device 150 is greatly reduced, and thus, the oxygen measuring device 150 has to be taken out and repaired immediately. By increasing the maintenance work load was not able to achieve efficient furnace 110 operation.

The present invention is to solve the conventional problems as described above, the purpose of which is to remove the dust and condensate in the sample is easy to improve the operation rate of the device to improve the operation rate, the accurate oxygen concentration by preventing the intrusion of outside air into the measurement sample To provide a sampling tube for oxygen (O2) analysis device of the waste gas that can be measured.

1 is a configuration diagram in which a sampling tube for oxygen (O2) analysis device of waste gas according to the present invention is installed in a furnace facility,

2 is an overall configuration diagram of a sampling tube for oxygen (O2) analysis device of the waste gas according to the present invention,

3 is a cross-sectional view of a condensate remover equipped with a sampling tube for oxygen (O2) analysis device of the waste gas according to the present invention,

4 is an explanatory diagram for explaining stepwise operation of preventing backflow of air after condensate is removed in the condensate remover shown in FIG. 3;

5 is a configuration diagram mounted on a heating furnace oxygen analyzer according to the prior art,

6 is a block diagram of a typical oxygen analyzer.

* Description of the symbols for the main parts of the drawings *

10: guide pipe 20: first connecting pipe

22: conduit 25: automatic opening and closing valve

30 discharge pipe 35 condensate remover

40: U tube 42: through hole

45 outlet 110: heating furnace

150: oxygen measuring instrument

The present invention for achieving the above object, in the sampling tube for the oxygen measuring device (Sampling Tube) for measuring the concentration of oxygen contained in the waste gas in the furnace equipment, one end is connected to the upstream side of the flue The other end is connected to the wake side of the year, the induction pipe inclined to the middle portion; A conduit to which an oxygen meter is connected to an upper side of the induction pipe, wherein the conduit includes a first connection pipe connected to a purge air pipe through an automatic opening / closing valve; And a U-pipe connected to the discharge pipe extending downward from the middle portion of the induction pipe and having a hollow casing, and having a U-tube connected to the discharge pipe inside the casing, while a through hole is formed at one side of the U-tube. A condensate remover configured to discharge at one side of the casing to discharge condensed water in the induction pipe to the outside, and to block backflow of outside air from the condensed water in the U-shaped pipe; By providing a sample collection tube for oxygen (O2) analysis device of the waste gas, characterized in that it comprises a.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

As illustrated in FIGS. 1 and 2, the sampling tube 1 for oxygen (O 2) analysis of waste gas according to the present invention has one side end 10a of the induction tube 10 upstream of the flue 120. It is connected to the other end 10b is connected to the wake side of the flue 120, the middle portion (10c) is formed in the inclined ∨. Therefore, the induction pipe 10 forms the lowest point of the middle portion 10c, and the upstream end 10a of the induction pipe 10 has a pressure higher than the downstream end 10b of the induction pipe 10. Since the gas is in a high state, the waste gas flowing in the flue 120 flows from the upstream end 10a of the induction pipe 10 to the downstream end 10b. In addition, the condensate and dust introduced into the induction pipe 10 together with the waste gas are collected in the middle portion 10c which is the lowest point. On the other hand, the upper side of the induction pipe 10 is the first connecting pipe 20 is branched, which is provided with a conduit 22 to which the oxygen meter 150 is connected, the conduit 22 has an automatic opening and closing valve ( The purge air pipe 27 is connected through the 25. Here, the purge air pipe 27 is connected to the purge air inlet 156 of the oxygen meter 150 to supply the purge air periodically, the automatic opening and closing valve 25 is periodically opened to the It can supply high pressure purge air inside. In addition, the discharge pipe 30 is extended downward in the middle portion of the induction pipe 10, the discharge pipe 30 is equipped with a condensate water remover 35, the condensate water remover 35 in cross section in FIG. As shown in detail, the hollow casing 37 and the inside of the casing 37 is provided with a U-tube 40 connected to the discharge pipe 30, while the end 40a of the U-tube 40 It will remain closed. In addition, a through hole 42 is formed at one side of the U tube 40, and an outlet 45 is formed at a position higher than the height of the through hole 42 at one side of the casing 37. The condensed water in the 40 flows out into the inner space of the casing 37 at the position of the through hole 42, and when the condensed water in the casing 37 is filled up to the outlet 45, the outside through the outlet 45. It has a structure that can flow out.

Sample collection pipe (1) for oxygen (O2) analyzer of the present invention is configured as described above is the waste gas flowing in the flue 120 is introduced into the induction pipe 10, the condensate and dust contained in the waste gas Flowing into the discharge pipe 30 through the middle portion of the guide pipe 10, it is contained in the U-shaped pipe (40). And the waste gas in the induction pipe 10 is supplied to the oxygen meter 150 through the conduit 22 of the first connecting pipe 20 due to the suction force of the oxygen meter 150 is supplied to the oxygen measuring instrument 150. And continuously the concentration of oxygen is detected. On the other hand, when the oxygen concentration detection operation for a predetermined time, the automatic opening and closing valve 25 of the first connecting pipe 20 is opened to supply the high-pressure purge air to the first connecting pipe 20 and the induction pipe 10 side. The purge air removes the dust and condensate in the induction pipe 10 toward the flue and the discharge pipe 30, so that the induction pipe 10 is kept clean and can be introduced into the oxygen measuring device 150 without clogging the waste gas. will be.

On the other hand, the condensate remover 35 is connected to the induction pipe 10 through the discharge pipe 30, as shown in FIG. 4 step by step, condensate and dust of the waste gas introduced into the induction pipe 10 first It is gradually filled by being contained in the U-tube 40 through the discharge pipe 30 (see also a), and when a certain time reaches the through-hole 42 of the U-tube 40, the condensed water passes through the through-hole ( 42 is discharged to the inside of the casing 37 (see also b and c), and when the inside of the casing 37 gradually rises and reaches the outlet 45 of the casing 37, the outlet 45 is opened. It will flow out of the casing 37 through (see also d). In this state, when the automatic opening / closing valve 25 of the first connecting pipe 20 is opened and the high-pressure purge air is supplied into the induction pipe 10 through the first connecting pipe 20, the induction pipe ( 10) The pressure in the gas rises, and this increased pressure presses the condensed water and the dust in the induction pipe 10 toward the U-shaped tube 40, and passes through the through-hole 42 from the U-shaped tube 40 to the inside of the casing 37. The condensate and dust are discharged through the outlet 45 of the casing 37 and thus discharged (see also e). In addition, in the above state, the automatic opening and closing valve 25 of the first connecting pipe 20 is closed and the blowing air is supplied to the inside of the oxygen measuring instrument 150 so that the oxygen measuring instrument 150 is purged in the induction pipe 10. When the air and the waste gas are sucked to the oxygen measuring device 150 side, a small negative pressure is formed in the induction pipe 10, and the condensed water inside the casing 37 through the through hole 42 of the U-shaped pipe 40. It will be allowed to flow back into the U-tube (40). In this case, since the height of the outlet 45 of the casing 37 is formed somewhat higher than the height of the through hole 42 of the U-tube 40, a sufficient amount of condensed water is introduced into the U-tube 40. In this way, the condensed water introduced into the U-tube 40 is sealed by the U-tube 40 so that air flows into the U-tube 40, the discharge pipe 30, and the induction pipe 10. (See also f). Therefore, after the purge air is removed together with the waste gas without invading outside air in the induction pipe 10, the oxygen measuring device 150 performs the normal oxygen concentration measurement of the waste gas.

As described above, according to the present invention, an automatic opening / closing valve (25) installed at an induction pipe (10) for supplying waste gas to the oxygen measuring device (150) and supplying a high pressure purge air to the induction pipe (10) ) And the condensate remover 35 connected to the induction pipe 10 through the discharge pipe 30 effectively discharges condensate and dust generated inside the induction pipe 10 to the outside and prevents intrusion of outside air. It can be prevented. Therefore, according to the present invention, it is easy to remove dust and condensate in the waste gas sample, thereby improving the durability of the apparatus to improve the operation rate of the oxygen measuring instrument 150, and preventing the intrusion of outside air into the measurement sample, thereby making it possible to accurately measure the oxygen concentration. In addition, it is possible to significantly reduce the maintenance load and to obtain an improved effect of achieving efficient furnace operation.

Claims (1)

In the sampling tube for the oxygen measuring instrument 150 for measuring the concentration of oxygen contained in the waste gas in the furnace equipment, one end 10a is connected to the upstream side of the flue 120 and the other end ( 10b) is connected to the downstream side of the flue 120, the induction pipe 10 is inclined to the middle portion (10c); The upper side of the induction pipe 10 is provided with a conduit 22 to which the oxygen meter 150 is connected, the first conduit 22 is connected to the purge air pipe 27 through the automatic opening and closing valve 25 Tube 20; And a discharge casing 30 extending downward from the middle portion 10c of the induction pipe 10, and having a hollow casing 37, and having a discharge tube 30 inside the casing 37. While having a U-tube 40 connected to the through-hole 42 is formed on one side of the U-tube 40, the outlet 45 is formed on one side of the casing 37 to guide pipe 10 A condensate remover 35 for discharging condensed water to the outside and blocking back flow of condensed water in the U-shaped tube 40; Sampling tube for oxygen (O2) analysis device of the waste gas, characterized in that it comprises a.