KR19990013562U - Oxygen gas concentration measuring device in boiler flue gas - Google Patents

Abstract

The present invention relates to an oxygen gas concentration measuring device in a boiler flue gas for accurately and quickly measuring the oxygen concentration in the flue gas generated in a large industrial boiler used for power generation and steam facilities. An oxygen gas measuring device is installed to be connected to the inlet of the installed waste gas duct to measure the concentration of oxygen gas in the waste gas.Inlet of the waste gas duct is provided with an inflow control valve at the front end and a wide union at the rear and a narrow outlet at the rear. In this connection, the entrance side is narrow and the exit side is connected to a wide union to install the induction pipe, and the union located in the rear to connect the union to buffer the incoming waste gas and the cylinder by installing an oxygen gas detector inside the rear Sieve, which is installed at the rear upper one side of the cylindrical body, and the exit side is located after the waste gas duct. Installation and connection of the inlet and to one side of the pressure gage is installed and in a yirueojyeoseo hayeoseo install emission control valve side exhaust pipe Ex.

Description

Oxygen gas concentration measuring device in boiler flue gas

The present invention relates to an oxygen gas concentration measuring apparatus in boiler waste gas for accurately and quickly measuring the oxygen concentration in the combustion gas (hereinafter referred to as waste gas) generated in a large industrial boiler used for power generation and steam facilities. When the waste gas burned in the boiler flows to the waste gas duct, the waste gas is safely guided to the oxygen gas detector at the inlet of the waste gas duct so that the oxygen gas concentration is measured and then discharged to the rear of the waste gas duct to be discharged to the year.

As a typical oxygen gas detection method, a user selects an arbitrary place in a waste gas duct (DUCT) 11 that simply discharges waste gas of the boiler 10 as shown in FIG. 1 and inserts a waste gas induction pipe 12 therein. After the installation, the oxygen gas detector 13 provided in the waste gas induction pipe 12 detects oxygen in the waste gas.

In this way, however, the positive pressure (boiler combustion chamber pressure plus pressure) is not a big problem in the boiler 10, but in the boiler 10 of negative pressure (pressure inside the boiler combustion chamber is negative pressure), it is still included in the waste gas until now. It was not possible to accurately detect the oxygen concentration. The reason for this is that the forced circulation fan (FAN) 15 is operated at the waste gas outlet, that is, the flue 14, for the production of steam at high temperature and high pressure and the complete combustion of the fuel, so that a negative pressure (negative pressure) is formed inside the combustion chamber of the boiler 10. and the pressure is usually in the furnace 15~30mmH ₂ O, and the stack 14 side 300~400H ₂ O.

Waste gas having such a pressure is discharged into the atmosphere through the waste gas duct 11 and the stack 14. Therefore, the amount of gas flowing into the waste gas induction pipe 12 in which the oxygen gas detector 13 is installed is very small and is discharged to the atmosphere through the waste gas duct 11 and the stack 14 at the position where oxygen is to be detected.

Therefore, the amount of gas flowing into the waste gas induction pipe 12 in which the oxygen gas detector 13 is installed is very small, and the pressure inside the waste gas duct 11 at the position where oxygen is to be detected is negative. Phenomenon), the outside air is sucked into the oxygen gas detector 13 at the portion where the oxygen gas detector 13 is installed, so that accurate oxygen gas concentration cannot be detected.

The present invention was devised to solve this problem in consideration of the above-mentioned problems, and a waste gas induction pipe was installed at the inlet of the waste gas duct in which the waste gas generated by combustion in the boiler flows, and the oxygen gas in the waste gas induced therein is oxygen gas detector. It is an object of the present invention to provide an oxygen gas concentration measuring device in a combustion gas of a boiler which can quickly and accurately measure the oxygen gas concentration in the waste gas by discharging it to the rear of the waste gas duct through the discharge pipe.

The present invention having such a purpose is provided with an oxygen gas measuring device which is connected to the inlet of the waste gas duct connected to the boiler to measure the oxygen gas concentration in the waste gas, but an inflow control valve is installed at the inlet of the waste gas duct. And, the rear entrance side is wide and the exit side is to install a narrow union, followed by the narrow side and the exit side is installed by connecting the union and the union located in the rear, and the union located in the rear to cushion the incoming waste gas and the rear A cylindrical body formed by installing an oxygen gas detector on the inner side, and is installed at the inlet side of the rear upper portion of the cylinder, the outlet side is connected to the rear of the waste gas duct, the pressure gauge is installed at one side of the inlet side and the discharge control valve on the outlet side Characterized in that the configuration consisting of the discharge pipe by installing the.

1 is a state diagram showing a method for detecting oxygen gas in a conventional boiler waste gas

Figure 2 is a state diagram showing a state in which the oxygen gas detection apparatus of the present invention installed in the waste gas duct of the boiler

3 is an exploded perspective view of the oxygen gas detector of the present invention

4 is a perspective view of the oxygen gas detection device of the present invention combined

* Explanation of symbols for main parts of the drawings

20: induction pipe 21: flow control valve

22, 23: Union 30: cylindrical body

31: oxygen gas detector 40: discharge pipe

41: pressure gauge 42: discharge control valve

In the present invention, a waste gas induction pipe 20 having a flow control valve 21 is installed at the inlet of the waste gas duct 11, and the rear end of the waste gas induction pipe 20 is introduced into the induction pipe 20. In order to control the speed of the incoming waste gas, the entrance side is wide and the exit side is provided with a narrow union 22, which is subsequently connected to the narrow side and the exit side is installed another union 23.

However, the inlet (a) point of the waste gas duct 11 has a pressure of 100 to ₂₀₀ mmH ₂ O and a temperature of about 270 ° C., a pressure of the exit point (b) is 300 to 400 mmH ₂ O and a temperature of about 180 ° C.

In addition, the entrance side is narrow and the exit side is provided with a cylindrical body 30 having a larger diameter than the induction pipe 20 in order to buffer the speed of the incoming waste gas and the union 23 installed at the end of the wide end, this cylindrical body ( At the rear inner side of 30), an oxygen gas detector 13 for measuring the concentration of oxygen gas in the waste gas was built in.

In addition, the discharge pipe 40 is connected to and installed at the rear upper portion of the cylindrical body 30 so that the outlet side of the discharge tube 40 is connected to the outlet side (b) of the waste gas duct 11 and installed at the inlet side of the discharge tube 40. A pressure gauge 41 was provided and a discharge control valve 42 was installed in the exit direction.

Referring to the operation of the present invention configured as described above are as follows.

The present invention introduces the waste gas at the point (A) where the waste gas duct 11 starts after passing through the rear end of the combustion chamber of the boiler 10, and the waste gas passes through the waste gas flow control valve 21 to the induction pipe 20. In the union 22 to reduce the flow rate of the gas and another union 23 to reduce the flow rate, the flow rate and the flow rate are primarily reduced, which in turn is reduced to the oxygen flow rate and pressure in the cylinder 30. Oxygen gas is detected by the gas detection 13. After the detection of the oxygen gas, the waste gas exits the cylindrical body 30 and passes through the gas discharge pipe 40 and the discharge control valve 42 to the point (b) of the waste gas duct 11 again, which passes through the stack 14. Emissions to the atmosphere.

The waste gas passing through the apparatus of the subject innovation is present by the difference between the inlet point ((a) point) pressure (100~200mmH ₂ O) and the discharge point ((b) spot) Pressure (300~400mmH ₂ O) of the It flows quickly through the device of the present invention, which is monitored by the discharge pipe 40 through the cylindrical body 30 which buffers the waste gas, and the flow rate and pressure appropriate for the analysis of the oxygen gas flow rate control valve 21 and discharge amount. The control valve 42 regulates the flow rate and flow rate.

In addition, the temperature of the waste gas at the inlet point (a) is about 270 ° C., which is lowered to about 180 ° C. when the oxygen reaches the cylindrical body 30 through which the oxygen is detected through the waste gas induction pipe 20. This leads to an extension of the service life.

The present invention as described above can accurately detect the oxygen level in the waste gas in the boiler of the high temperature and high pressure for power generation, that is, the negative pressure inside the combustion chamber, thereby contributing to the prevention of air pollution by meeting the optimum combustion conditions of the boiler, In addition, by lowering the temperature of the waste gas (270 ℃ → 100 ℃) has the effect of extending the life of the oxygen gas detector.

Claims (1)

An oxygen gas measuring device is installed at the inlet side of the waste gas duct 11 connected to the boiler 10 to measure the oxygen gas concentration in the waste gas, and at the inlet side of the waste gas duct 11, an inflow control valve ( 21) is installed, the rear entrance side is wide and the exit side is provided with a narrow union 23, followed by the induction pipe 20 by connecting the union 23 is narrow and the entrance side is wide and the exit side is located in the rear It is installed in connection with the union 23 to buffer the introduced waste gas, the cylindrical body 30 by installing the oxygen gas detector 13 in the rear inner side, and is installed on one side of the rear upper portion of the cylindrical body 30 The outlet side is connected to the rear of the waste gas duct (11), the pressure gauge 41 is installed on one side of the inlet side, the outlet side is made of a configuration comprising a discharge pipe 40 by installing a discharge control valve 42. Characterized by An oxygen gas concentration measuring apparatus in the boiler flue gas