KR20160013396A - Apparatus for detecting leak of switching valve in regenerative burner - Google Patents

Abstract

A leakage sensing device of a switching valve comprises: a first combustion air switching valve supplying combustion air to a combustion unit operated in a combustion mode among a pair of combustion units, and a second combustion air switching valve blocking the combustion air supplied to the combustion unit operated in a heat storage mode installed in combustion air supply pipe connected to a pair of combustion units; a second exhaust gas switching valve discharging exhaust gas generated by the combustion unit operated in the heat storage mode among the pair of combustion units, and a first exhaust gas switching valve blocking the discharge of the exhaust gas generated by the combustion unit operated in a combustion mode which are installed in an exhaust gas discharge pipe connected to the pair of combustion units; a wind speed measurement unit installed in the exhaust gas discharging pipe connected to the combustion unit operated in the combustion mode, and measuring a wind speed of the combustion gas leaked through the first exhaust gas switching valve; and a first determination unit which determines the leakage of the first exhaust gas switching valve based on the size of the measured wind speeds. The present invention prevents energy loss by decreasing an amount of power consumption, and increasing a total efficiency.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a leakage detection device for a switching valve used in a regenerative burner,

The present application relates to leakage detection of a switching valve used in a regenerative burner.

In general, regenerative burners are widely used in heating furnaces and other industrial furnaces to recover the waste heat contained in the combustion gases to raise the temperature of the combustion air.

In the above-described regenerative burner, two burners are disposed on both sides of a heating furnace, and when one of the first burners is in a combustion (combustion mode), the sensible heat of the exhaust gas generated by combustion in the second burner on the opposite side is stored (Heat storage mode). When the second burner is burned, the combustion air is preheated by using the sensible heat stored in the heat storage ball, thereby improving the overall thermal efficiency.

Various types of switching valves are used for the regenerative burner, for example, a fuel switching valve provided in a fuel supply pipe for supplying fuel supplied to a burner, a combustion air switching valve for supplying or shutting off combustion air with a burner, And an exhaust gas switching valve for discharging or shutting off the exhaust gas generated by the exhaust gas switching valve.

Such a switching valve, especially a combustion air switching valve and an exhaust gas switching valve, will lose its role in case of corrosion damage due to exhaust gas at a high temperature of 800 degrees or higher. If such state continues, Problems can arise.

Particularly, when the combustion air switching valve and / or the exhaust gas switching valve is damaged, a part of the combustion air supplied to the burner in the combustion mode leaks to the damaged combustion air switching valve and / or the exhaust gas switching valve, Resulting in shortages. In this case, since the load of the suction fan needs to be increased by the shortage, the power consumption is increased. At the same time, the efficiency of the burner due to the lack of combustion air is also reduced.

Related prior arts are Korean Patent Publication No. 2000-0041627 ('Method and apparatus for supplying oxygen for regenerative burner', published on July 15, 2000).

Korean Patent Publication No. 2000-0041627 ('Method and apparatus for supplying oxygen for regenerative burner', published on July 15, 2000)

According to one embodiment of the present invention, there is provided a leakage detection device of a switching valve used in a regenerative burner that can reduce power consumption and increase overall efficiency to prevent energy loss.

According to a first aspect of the present invention, there is provided a combustion control system comprising: a first combustion air switching valve which is provided in a combustion air supply pipe connected to a pair of combustion sections and supplies combustion air to a combustion section operating in a combustion mode among the pair of combustion sections A second combustion air switching valve for blocking combustion air supplied to a combustion section operating in a heat storage mode; A second exhaust gas switching valve provided in an exhaust gas discharge pipe connected to the pair of combustion units and discharging the exhaust gas generated by the combustion unit operating in the heat accumulation mode among the pair of combustion units, A first exhaust gas switching valve for shutting off the exhaust of the exhaust gas generated by the operating combustion unit; An air flow rate measuring unit provided in an exhaust gas discharge pipe connected to the combustion unit operating in the combustion mode and measuring an air velocity of the combustion gas leaking through the first exhaust gas switching valve; And a first judging section for judging whether or not the first exhaust gas switching valve has leaked based on the measured magnitude of the wind speed.

According to an embodiment of the present invention, the switching valve leakage detecting apparatus of the regenerative burner may further include: a first oxygen measuring unit for measuring an oxygen concentration in a body of the combustion unit operating in the heat accumulation mode; A second oxygen measuring unit provided in an exhaust gas discharge pipe connected to the combustion unit operating in the heat storage mode to measure an oxygen concentration of exhaust gas containing combustion gas leaking through the second combustion air changeover valve; And a second determination unit for determining whether the second combustion air change-over valve has leaked from the oxygen concentration measured by the first oxygen measurement unit and the second oxygen measurement unit.

According to an embodiment of the present invention, the wind speed measuring unit includes a quartz tube having a predetermined length and an air velocity measuring sensor attached to an end of the quartz tube, wherein the first oxygen measuring unit and the second oxygen measuring unit have a constant length And an oxygen measuring sensor attached to an end of the quartz tube.

According to an embodiment of the present invention, a hole having a predetermined diameter is formed in the exhaust gas discharge pipe and the body of the combustion unit, and the wind speed measuring unit and the second oxygen measuring unit are inserted into holes formed in the exhaust gas discharge pipe, The first oxygen measuring unit is inserted into a hole formed in the body of the combustion unit, and a gap is formed between the hole and the wind speed measuring unit, the hole and the first oxygen measuring unit, It can be sealed with wool.

According to the embodiment of the present invention, the first judging section can judge that the first exhaust gas switching valve leaks when the measured wind speed is 1 m / s or more.

According to the embodiment of the present invention, the second judging unit is configured such that when the error of the oxygen concentration measured by the first oxygen measuring unit and the second oxygen measuring unit is 1% or more, the second combustion air switching valve is leaked It can be judged.

According to a second aspect of the present invention, there is provided a combustion apparatus comprising: a combustion air switching valve provided in a combustion air supply pipe connected to a combustion section and supplying combustion air to a combustion section when the combustion section operates in a combustion mode; An exhaust gas switching valve that is provided in an exhaust gas discharge pipe connected to the combustion unit and blocks the exhaust gas generated by the combustion unit when the combustion unit operates in the combustion mode; An air flow rate measuring unit provided in the exhaust gas discharge pipe to measure an air velocity of the combustion gas leaking through the exhaust gas switching valve when the combustion unit operates in the combustion mode; And a first judging section for judging whether or not the exhaust gas switching valve is leaking based on the measured magnitude of the wind speed.

According to one embodiment of the present invention, the combustion air changeover valve blocks the combustion air supplied to the combustion section when the combustion section operates in the heat accumulation mode, and the exhaust gas switching valve operates the combustion section in the heat accumulation mode The exhaust gas can be discharged.

According to an embodiment of the present invention, the switching valve leakage detecting apparatus of the burner may further include: a first oxygen measuring unit for measuring the oxygen concentration in the body of the combustion unit; A second oxygen measurement unit provided in an exhaust gas discharge pipe connected to the combustion unit to measure an oxygen concentration of the exhaust gas; And a second judging unit for judging whether or not the combustion air switching valve leaks from the oxygen concentration measured by the first oxygen measuring unit and the second oxygen measuring unit when the combustion unit operates in the heat accumulation mode have.

According to one embodiment of the present invention, by monitoring the state of the switching valve periodically, it is possible to reduce the power consumption and increase the overall efficiency, thereby preventing energy loss.

1 is a view showing a leakage detection device of a switching valve used in a regenerative burner according to an embodiment of the present invention.
Fig. 2 is a diagram showing an example of the installation of a sensor unit such as a wind speed measuring unit and an oxygen measuring unit according to an embodiment of the present invention.
Fig. 3 is a diagram showing the installation positions of the wind speed measuring part and the oxygen measuring part in the regenerative burner actually used according to the embodiment of the present invention.
4 is a flowchart illustrating a leakage detection method of an exhaust gas switching valve according to an embodiment of the present invention.
5 is a flowchart illustrating a leakage detection method of a combustion air changeover valve according to an embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

1 is a view showing a leakage detection device of a switching valve used in a regenerative burner according to an embodiment of the present invention. FIG. 3 is a schematic view showing a configuration of a wind speed measuring unit in a regenerative burner in actual use according to an embodiment of the present invention. FIG. And an installation position of the oxygen measuring unit.

1 to 3, a pair of combustion sections BN1 and BN2 are provided on both sides of the heating furnace 10 and the fuel is supplied to the combustion sections BN1 and BN2 through fuel supply pipes 11, 11a and 11b, BN2. The fuel supply pipes 11a, 11b are provided with fuel supply switching valves V11, V12 for supplying or blocking fuel.

Each of the pair of combustion sections BN1 and BN2 is constituted by burners 21a and 21b and bodies 22a and 22b having heat storage balls 23a and 23b therein and a pair of combustion sections BN1, BN2 may be connected to combustion air supply pipes 31, 31a, 31b for receiving combustion air and exhaust gas discharge pipes 32, 32a, 32b for discharging exhaust gas generated by combustion.

The combustion air supply pipes 31, 31a and 31b are connected to the suction fan P1 for sucking the combustion air as the suction fan P1 is driven, BN1, and BN2. At this time, the first combustion air switching valve V31 for supplying or blocking the combustion air is connected to the combustion air supply pipe 31a on the first combustion portion BN1 side, 31b may be provided with a second combustion air switching valve V32 for supplying or blocking the combustion air.

Likewise, for the forced circulation of the exhaust gas, the exhaust gas discharge pipes 32, 32a and 32b are connected to the exhaust fan P2, and as the exhaust fan P2 is driven, the exhaust gas generated by the combustion is sucked, . At this time, a first exhaust gas switching valve V21 for discharging or shutting off exhaust gas is connected to the exhaust gas discharge pipe 32a on the first combustion portion BN1 side, and an exhaust gas discharge pipe 32b on the second combustion portion BN2 side May be provided with a second exhaust gas switching valve V22 for exhausting or shutting off the exhaust gas.

The apparatus for detecting leakage of a switching valve according to an embodiment of the present invention includes a first oxygen measuring unit 111a and a second oxygen measuring unit 112b, And may include a determination section 120 and a second determination section 130.

Specifically, the wind speed measuring units 113a and 113b are provided in the exhaust gas discharge pipes 32a and 32b connected to the pair of combustion units BN1 and BN2 to detect the combustion gas leaked through the exhaust gas switching valves V21 and V22 And the measured wind velocity of the combustion gas can be transmitted to the first judging unit 120. [

The first oxygen measuring units 111a and 111b are provided in the bodies 22a and 22b of the pair of combustion units BN1 and BN2 to measure the oxygen concentration therein. And BN2 may be transmitted to the second determining unit 130. The second determining unit 130 may determine the concentration of oxygen in the bodies 22a and 22b.

The second oxygen measuring units 112a and 112b measure the oxygen concentration of the exhaust gas including the combustion gas leaked through the combustion air switching valves V31 and V32 provided in the exhaust gas discharge pipes 32a and 32b And the measured oxygen concentration of the exhaust gas can also be transmitted to the second determining unit 130. [

2 is a diagram showing an example of the installation of a sensor unit such as a wind speed measuring unit and an oxygen measuring unit according to an embodiment of the present invention. The sensor unit such as the above-described wind speed measuring units 113a and 113b, the first oxygen measuring units 111a and 111b and the second oxygen measuring units 112a and 112b may have a structure as shown in FIG.

2, the sensor unit 220 may include a quartz tube 222 having a predetermined length and a sensor 221 attached to the end of the quartz tube 222. Here, the sensor 221 May be an air velocity measuring sensor of the wind speed measuring units 113a and 113b or an oxygen measuring sensor of the oxygen measuring units 111a, 111b, 112a and 112b.

2, reference numeral 210 denotes an object to which the sensor unit 220 is installed, and may be the exhaust gas discharge pipes 32a and 32b or the bodies 22a and 22b of the combustion units BN1 and BN2. That is, when the sensor unit 220 is the wind speed measurement units 113a and 113b, the reference numeral 210 may be the exhaust gas discharge pipes 32a and 32b, and the sensor unit 220 may include the oxygen measurement units 111a, 111b and 112a And 112b, it may be the bodies 22a and 22b of the combustion units BN1 and BN2.

A hole H is formed on one side of the object for mounting the sensor unit 220 and the sensor unit 220 can be inserted into the hole H formed therein and the sensor unit 220 And the holes H may be filled with the ceramic wool 230 to be sealed.

On the other hand, the first judging unit 120 can judge whether or not the exhaust gas switching valve has leaked based on the magnitude of the wind speed measured by the wind speed measuring units 113a and 113b.

Specifically, the first judging unit 120 can judge that the exhaust gas switching valve is leaking when the measured wind speed is 1 m / s or more.

The second judging unit 130 can judge whether the combustion air switching valve has leaked or not based on the oxygen concentration measured by the first oxygen measuring units 111a and 111b and the second oxygen measuring units 112a and 112b.

Specifically, when the error of the oxygen concentration measured by the first oxygen measurement units 111a and 111b and the second oxygen measurement units 112a and 112b is 1% or more, the second determination unit 130 determines that the combustion air change- .

As described above, according to the embodiment of the present invention, it is possible to prevent the energy loss by reducing the power consumption and increasing the overall efficiency by periodically monitoring the state of the switching valve.

4 is a flowchart illustrating a leakage detection method of an exhaust gas switching valve according to an embodiment of the present invention. 5 is a flowchart illustrating a leakage detection method of a combustion air changeover valve according to an embodiment of the present invention.

Hereinafter, a leakage detection method of the switching valve according to the embodiment of the present invention will be described with reference to Figs. 1 to 5. Fig. However, for the sake of simplicity of the present invention, the description of the overlapping parts with those already described with reference to Figs. 1 to 3 will be omitted.

First, a leakage detection method of an exhaust gas switching valve according to an embodiment of the present invention will be described with reference to Figs. 1 to 4. Fig.

The first combustion unit BN1 and the second combustion unit BN2 alternately operate in the combustion mode and the heat storage mode. In order to facilitate understanding of the present invention, as shown in FIG. 1, the first combustion unit BN1 operate in the combustion mode, and the second combustion section BN2 operates in the heat storage mode. 1, the switching valves V11, V31 and V22 of the plurality of switching valves are opened (indicated by white), and the switching valves V12, V21 and V32 are closed (closed) (Indicated in black). Conversely, when the first combustion section BN1 is in the heat storage mode and the second combustion section BN2 is in the combustion mode, the same principle is used, so that the description thereof will be omitted.

As shown in Fig. 1, the fuel is supplied to the first combustion section BN1 through the fuel supply pipes 11 and 11a, and the supplied fuel is supplied together with the combustion air supplied through the combustion air supply pipes 31 and 31a And is burned in the first combustion section BN1. Accordingly, the inside of the heating furnace 10 is heated, and the high-temperature exhaust gas generated by the combustion is discharged to the exhaust gas discharge pipes 32 and 32b through the second combustion unit BN2. At this time, And can be stored in the heat storage balls 23b inside the body 22b of the combustion section BN2. The sensible heat of the exhaust gas stored in the heat storage ball 23b of the second combustion section BN2 is used to preheat the combustion air when the second combustion section BN2 operates in the combustion mode as described later, The efficiency can be increased.

The air velocity measuring unit 113a provided in the exhaust gas discharge pipe 32a connected to the combustion unit BN1 operating in the combustion mode measures the air velocity of the combustion gas leaking through the exhaust gas switching valve V21, The wind speed of the air can be transmitted to the first judging unit 120 (S401). That is, when the exhaust gas switching valve V21 is damaged, a part of the combustion air leaks through the exhaust gas switching valve V21 provided in the exhaust gas discharge pipe 32a, so that the wind speed of a certain magnitude can be measured. On the other hand, if the exhaust gas switching valve V21 is normal, the wind speed measured by the wind speed measuring unit 113a may be close to "0".

Next, the first determining unit 120 can determine whether the exhaust gas switching valve V21 is leaking based on the magnitude of the air velocity measured by the wind speed measuring unit 113a (S402).

Specifically, the first judging unit 120 can judge that the exhaust gas switching valve V21 is leaking when the measured wind speed is 1 m / s or more.

Next, a leakage detection method of a combustion air changeover valve according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3 and 5. FIG.

The first oxygen measuring unit 111b can measure the oxygen concentration inside the body 22b of the combustion unit BN2 operating in the heat storage mode and the measured oxygen concentration can be transmitted to the second determining unit 130 (S501).

Next, the second oxygen measurement unit 112b can measure the oxygen concentration of the exhaust gas, which is provided in the exhaust gas discharge pipe 32b and contains the combustion gas leaked through the combustion air changeover valve V32, The oxygen concentration of the exhaust gas may also be transmitted to the second determining unit 130 (S502). That is, when the combustion air change-over valve V32 is damaged, a part of the combustion air leaks to the exhaust gas discharge pipe 32b through the combustion air changeover valve V32, so that the oxygen concentration of the exhaust gas discharge pipe 32b is lower than the oxygen concentration in the combustion part BN2 The oxygen concentration in the body 22b is higher than that in the body 22b. Conversely, if the combustion air changeover valve V32 is normal, the oxygen concentration measured by the second oxygen measurement unit 112b is substantially equal to the oxygen concentration measured by the first oxygen measurement unit 111b.

Lastly, the second determining unit 130 can determine whether the combustion air changeover valve V32 is leaking from the oxygen concentration measured by the first oxygen measuring unit 111b and the second oxygen measuring unit 112b.

Specifically, when the error of the oxygen concentration measured by the first oxygen measuring unit 111b and the second oxygen measuring unit 112b is 1% or more, the second determining unit 130 determines that the combustion air switching valve is leaking .

As described above, according to the embodiment of the present invention, it is possible to prevent the energy loss by reducing the power consumption and increasing the overall efficiency by periodically monitoring the state of the switching valve.

The present invention is not limited to the above-described embodiments and the accompanying drawings. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be self-evident.

10: heating furnace 11, 11a, 11b: fuel supply pipe
21a, 21b: burners 22a, 22b: body
23a, 23b: heat storage balls 31, 31a, 31b: combustion air supply pipe
32, 32a, 32b: exhaust gas discharge pipes 111a, 111b:
112a, 112b: second oxygen measuring unit 113a, 113b:
120: first judgment section 130: second judgment section
210: combustion body or exhaust gas discharge pipe
230: ceramic wool 220: sensor part
221: Sensor
BN1: first combustion section BN2: second combustion section
H: Hole V11, V12: Fuel switching valve
V21, V22: Exhaust gas switching valve V31, V32: Combustion air switching valve

Claims (9)

A first combustion air switching valve which is provided in a combustion air supply pipe connected to a pair of combustion sections and supplies combustion air to a combustion section operating in a combustion mode among the pair of combustion sections, A second combustion air switching valve for blocking air;
A second exhaust gas switching valve provided in an exhaust gas discharge pipe connected to the pair of combustion units and discharging the exhaust gas generated by the combustion unit operating in the heat accumulation mode among the pair of combustion units, A first exhaust gas switching valve for shutting off exhaust gas discharged from an operating combustion unit;
An air flow rate measuring unit provided in an exhaust gas discharge pipe connected to the combustion unit operating in the combustion mode and measuring an air velocity of the combustion gas leaking through the first exhaust gas switching valve; And
And a first judging section for judging whether or not the first exhaust gas switching valve has leaked based on the measured magnitude of the wind speed.
The method according to claim 1,
The switching valve leakage detection device of the regenerative burner includes:
A first oxygen measuring unit for measuring an oxygen concentration in a body of the combustion unit operating in the heat accumulation mode;
A second oxygen measuring unit provided in an exhaust gas discharge pipe connected to the combustion unit operating in the heat storage mode to measure an oxygen concentration of exhaust gas containing combustion gas leaking through the second combustion air changeover valve; And
And a second judging unit for judging whether or not the second combustion air switching valve has leaked out from the oxygen concentration measured by the first oxygen measuring unit and the second oxygen measuring unit.
3. The method of claim 2,
Wherein the wind speed measuring unit includes a quartz tube having a predetermined length and a wind speed sensor attached to an end of the quartz tube,
Wherein the first oxygen measuring unit and the second oxygen measuring unit include a quartz tube having a predetermined length and an oxygen measuring sensor attached to an end of the quartz tube.
The method of claim 3,
A hole having a predetermined diameter is formed in the exhaust gas discharge pipe and the body of the combustion unit,
Wherein the wind speed measuring unit and the second oxygen measuring unit are inserted into holes formed in the exhaust gas discharge pipe,
The first oxygen measuring unit is inserted into a hole formed in a body of the combustion unit,
Wherein the gap between the hole and the wind speed measuring unit, the hole and the first oxygen measuring unit, and the gap between the hole and the second oxygen measuring unit are sealed with a ceramic wool.
The method according to claim 1,
Wherein the first determination unit
And judges that the first exhaust gas switching valve leaks when the measured wind speed is 1 m / s or more.
3. The method of claim 2,
The second judging section judges,
And determines that the second combustion air changeover valve leaks when the error of the oxygen concentration measured by the first oxygen measurement unit and the second oxygen measurement unit is 1% or more.
A combustion air switching valve which is provided in a combustion air supply pipe connected to the combustion section and supplies combustion air to the combustion section when the combustion section operates in the combustion mode;
An exhaust gas switching valve that is provided in an exhaust gas discharge pipe connected to the combustion unit and blocks the exhaust gas generated by the combustion unit when the combustion unit operates in the combustion mode;
An air flow rate measuring unit provided in the exhaust gas discharge pipe to measure an air velocity of the combustion gas leaking through the exhaust gas switching valve when the combustion unit operates in the combustion mode; And
And a first judging section for judging whether or not the exhaust gas switching valve has leaked based on the measured magnitude of the wind speed.
8. The method of claim 7,
Wherein the combustion air switching valve blocks the combustion air supplied to the combustion section when the combustion section operates in the heat accumulation mode,
Wherein the exhaust gas switching valve discharges the exhaust gas when the combustion section operates in the heat accumulation mode.
9. The method of claim 8,
The switching valve leakage detection device of the burner,
A first oxygen measuring unit for measuring an oxygen concentration in the body of the combustion unit;
A second oxygen measurement unit provided in an exhaust gas discharge pipe connected to the combustion unit to measure an oxygen concentration of the exhaust gas; And
Further comprising a second judging section for judging whether or not the combustion air switching valve has leaked from the oxygen concentration measured by the first oxygen measuring section and the second oxygen measuring section when the combustion section operates in the heat accumulation mode, Leakage detection device.

Images