KR20030035718A - A burner for burning brown-gas - Google Patents

Abstract

PURPOSE: A burner for burning the brown gas is provided to improve economical efficiency in the application of the brown gas by excluding a backfire preventing unit, to cut off the transfer of the radiant heat to a burner body from a burner tile, to avoid the overheating of the burner tile, and to prevent the generation of noise during ignition and extinguishment. CONSTITUTION: A burner for burning the brown gas comprises a burner body(10), a backfire preventing unit(20), and a burner tile(30). The burner tile has a brown gas flow path(13) communicating a brown gas inlet(11) and a brown gas eject hole(12). The backfire preventing unit is made of a porous material having small holes. The burner tile has an ignition burner(31) for igniting the brown gas injected through the brown gas eject hole and guides flames.

Description

Brown gas combustion burner {A BURNER FOR BURNING BROWN-GAS}

The present invention relates to a burner for brown gas combustion, and more particularly, by providing means for preventing flame backfire inside the burner, so that no separate flashback prevention means is installed between the brown generator and the burner generating the brown gas. Therefore, it is possible to reduce the economic burden on the actual application of brown gas in industry, and additionally to prevent the radiant heat from the burner tile from being transferred to the burner body, to control the temperature of the flame formed in the burner tile, It is possible to prevent overheating, to prevent the occurrence of noise during ignition and extinguishing of the flame, and to sense and warn in case of an emergency in which the flame is backfired. It relates to a burner for burning brown gas.

Brown gas refers to a mixed gas of hydrogen and oxygen produced by the electrolysis method of water in a ratio of 2: 1, and is characterized by four major characteristics of brown gas, that is, completely pollution-free, complete combustion, and implosion. It is a very ideal fuel that has characteristics, such as thermonuclear reaction characteristics, and has been spotlighted as a new age clean fuel.

Such Brown gas has a complete combustion condition of a chemical equivalence ratio of 2: 1 of hydrogen and oxygen, and thus does not require a separate air supply device and a chimney for oxygen supply as in the conventional combustion method.

In the case of using the brown gas for heating, the energy saving effect is large because there is no need to ventilate specially, and the brown gas has a humidification effect because it is reduced to the steam state after combustion, thereby providing a comfortable heating.

However, it is true that brown gas was not used as a fuel because it was not possible to secure economic feasibility in the related art.

For this reason, because Brown gas is a gas with a high combustion speed, back-fire phenomenon is more likely to occur.

Recently, the brown gas flashback prevention device is used to block the flames from the burner when using brown gas produced in large quantities in the brown gas generator as an industrial fuel such as a furnace and a boiler. Korean Patent Laid-Open Publication No. 2001-37336 has been developed.

The prior art mentioned in the foregoing has a curse coupler for collecting Brown gas produced in several Brown Gas generators; A fresh bag arrestor for passing brown gas collected in the gas coupler; A drain catch for removing moisture contained in the gas conveyed from the fresh bag arrester; Two frame modifiers for selectively receiving the gas passing through the drain ket and mixing the appropriate amount of nucleic acid into the gas and supplying the gas to the burner, and a burner for burning the gas supplied from the frame modifier and the gas according to the above-described components. It consists of a system for integrated control of the start and stop of the supply Browns gas generator by means of a preview control loop.

In the prior art having the above configuration, by using nucleic acids in the first and second frame modifiers that organically operate the flames that are backfired during the combustion of Brown Gas, the flameback speed of the flames is significantly delayed to prevent backfire, The flame that was not blocked by the frame modifier was configured to block again in the fresh back arrester, effectively blocking the backflowing flames, thereby enabling the safe use of Brown Gas.

However, the prior art is provided with a separate flashback prevention means such as the first and second frame modifiers and fresh bag arrester between the brown generator and the burner, the economic burden for the actual application of brown gas not only in homes but also in industry. There was a problem brought about.

The present invention was devised to solve the above problems, and by having means for preventing the backfire of the flame inside the burner, there is no separate backfire prevention means between the brown generator and the burner generating the brown gas. It is possible to reduce the economic burden on the actual application of brown gas in industry, and additionally to prevent the radiant heat from the burner tile from being transferred to the burner body, to control the temperature of the flame formed in the burner tile and to overheat the burner tile. It is possible to prevent the occurrence of noise generated during the ignition and extinguishing of the flame, and to sense and warn in case of an emergency where the flame is backfired, so that it can be used semi-permanently for industrial use. It is an object to provide a burner for gas combustion.

1 is an overall cross-sectional view showing the internal configuration of the burner for burning brown gas according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: burner body

11: Brown gas inlet

12: Brown gas nozzle

13: Brown gas flow path

20: flashback prevention means

30: burner tile

31: Ignition Burner

40: protection body

41: cooling water flow path

50: air spray nozzle

60: air supply unit 70: flashback detection means

71: temperature sensor

72: pressure sensor

Brown gas combustion burner according to the present invention for achieving the above object, the burner body having a brown gas flow path in which the brown gas inlet and the brown gas injection port communicate with each other; At least one flashback prevention means installed in the brown gas flow path of the burner body; An ignition burner is provided to ignite the flame so that a flame is generated in the brown gas injected through the brown gas injection port. The burner tile is installed outside the burner body to guide the flame.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the burner for burning brown gas according to the present invention will be described in detail.

1 is an overall cross-sectional view showing the internal configuration of the burner for burning brown gas according to the present invention.

As shown, the burner according to the present invention includes a burner body 10, a flashback prevention means 20, and a burner tile 30.

The burner body 10 has a brown gas flow path 13 in which the brown gas inlet 11 and the brown gas injection port 12 communicate with each other.

At least one flashback preventing means 20 is installed in the brown gas flow path 13 of the burner body 10.

In the exemplary embodiment of the present invention, the flashback preventing means 20 is installed at the Brown gas inlet 11 side of the Brown gas flow path 13 and one at the Brown gas injection port 12 side.

The flashback prevention means 20 is made of a porous body having micropores.

The burner tile 30 is provided with an ignition burner 31 for ignition so that a flame is generated in the brown gas injected through the brown gas injection hole 12, and is installed outside the burner body 10 to prevent the flame. It serves as a guide.

The present invention is a protective body having a cooling water flow path 41 in which cooling water is introduced into and discharged from the outer surface of the burner body 10 between the burner body 10 and the burner tile 30 in the embodiment configured as described above. An additional installation (41) may be configured to block the radiant heat from the burner tile (30) from being transferred to the burner body (10).

In addition, the present invention in the configuration having the burner body 10, the flashback prevention means 20 and the burner tile 30, or even the protective body 41 as described above, the burner body 10 and the Between the burner tiles 30, an air injection nozzle part 51 for controlling the flame temperature and injecting an appropriate amount of air into the burner tile 30 to prevent overheating of the burner tile 30 is further included. It is provided.

In the configuration of the present invention having the air injection nozzle unit 51 as described above, the burner body 10 is inserted into the brown gas flow path 13 to prevent generation of noise during ignition and extinguishing of the flame. It further includes an air supply unit 60 for supplying a small amount of air.

And, in the configuration of the present invention having the air supply unit 60, the burner body 10 is further provided with a backfire detection means for sensing that the flame is backfired through the backfire prevention means 20.

The flashback detecting means 70 is composed of a temperature sensor 71 for sensing the current temperature of the brown gas, and a pressure sensor 72 for detecting the flow pressure of the brown gas.

Referring to the operation of the burner for burning brown gas according to the present invention configured as described above are as follows. Here, the operation description of the present invention will be described with a state in which all embodiments of the present invention are provided.

First, the operation of igniting the ignition burner 31 provided in the burner tile 30 is preceded.

Thereafter, several brown gas generators (not shown) are operated to generate brown gas.

Brown gas generated as described above is introduced into the brown gas inlet 11 of the burner body 10 along the transfer line (not shown), and then through the brown gas injection port 12 along the brown gas flow path 13. It is injected to the outside of the burner body (10).

Here, the backfire prevention means 20 is provided on the flow path of the brown gas, and since the backfire prevention means 20 is made of a porous body having micropores, the brown gas can pass through the micropores. .

Meanwhile, as described above, a small amount of air is supplied into the brown gas flow path 13 through the air supply unit 60 separately at the time of ignition of the brown gas, so that a small amount of air is contained in the brown gas. When ignited by the spark ignited in the ignition burner 31, no noise is generated, and a flame of a predetermined area is formed in the burner tile 30.

Here, in the case of extinguishing the complexed brown gas, as described above, a small amount of air is supplied into the brown gas flow path 13 through the air supply unit 60. In this case, a small amount of air is contained in the brown gas. Because of this condition, no fussing noise is generated when extinguishing Brown Gas.

Then, when the brown gas is ignited, the air injection nozzle unit 51 formed between the burner body 10 and the burner tile 30 allows a predetermined amount of air to be injected into the burner tile 30.

As described above, when air is injected into the burner tile 30, it is possible to control the flame temperature and prevent overheating of the burner tile 30.

Meanwhile, radiant heat from the burner tile is transferred to the burner body 10 by allowing the coolant to be circulated along the cooling water flow path 41 of the protective body 41 in the process of ignition combustion of the brown gas by the burner of the present invention. It is possible to protect the burner body 10 by blocking it from being.

As described so far, there is always a concern that the flame will backfire into the Brown gas flow path 13 while the flame is formed in the burner tile 30 in the process of continuously operating the present invention. do.

However, since the flashback preventing means 20 is a porous body having micropores, the flame is prevented from flashing back through the micropores by the flow rate of Brown gas being injected at a predetermined speed through the micropores.

Therefore, Brown Gas can be used in a safe state.

On the other hand, in case of construction or manufacture of the present invention, when the flashback prevention means 20 is partially damaged or defective, the emergency situation in which the flame may be backfired into the brown gas flow path 13 through the flashback prevention means 20 is considered. You should.

In view of such an emergency, the present invention is provided with an emergency means.

For example, a plurality of flashback prevention means 20 are installed in a plurality of Brown gas flow paths 13 at regular intervals, and the frontmost flashback prevention means 20 is provided between the plurality of flashback prevention means 20. When the flame is lost due to the loss of function, the temperature and pressure in the current Brown gas flow path 13 are sensed using the temperature sensor 71 and the pressure sensor 72, respectively.

As described above, when the temperature and pressure in the Brown gas flow path 13 is exceeded as a result of setting the threshold value, a separate warning sound is issued to block the inflow of Brown gas.

As described above, according to the brown gas combustion burner according to the present invention, by providing a means for preventing backfire of the flame inside the burner, a separate flashback prevention means is not installed between the brown generator and the burner generating the brown gas. As a result, it is possible to reduce the economic burden on the actual application of brown gas in the industry, and additionally to prevent radiant heat from the burner tile from being transferred to the burner body, and to control the temperature of the flame formed in the burner tile, as well as to burner tile. It is possible to prevent overheating of the fire, to prevent the occurrence of noise during ignition and extinguishing of the flame, and to sense and warn in case of an emergency in which the flame is backfired. Will be.

Claims (7)

A burner body 10 having a brown gas flow path 13 in which the brown gas inlet 11 and the brown gas injection port 12 communicate with each other; Flashback prevention means 20 is installed at least one inside the brown gas flow path 13 of the burner body (10); An ignition burner 31 is provided to ignite the flame so that a flame is generated in the brown gas injected through the brown gas injection hole 12, and a burner tile 30 installed outside the burner body 10 to guide the flame. Brown gas combustion burner, characterized in that consisting of. The method of claim 1, The flashback prevention means 20, Brown gas combustion burner, characterized in that the porous body having a fine hole. The method of claim 1, The burner tile is further installed on the outer surface of the burner body 10 between the burner body 10 and the burner tile 30 by installing a protection body 41 having a coolant flow path 41 through which coolant flows in and out. Brown gas combustion burner, characterized in that to prevent the radiant heat from being transmitted to the burner body (10). The method according to claim 1 or 3, Air for injecting an appropriate amount of air into the burner tile 30 to control the flame temperature and to prevent overheating of the burner tile 30 between the burner body 10 and the burner tile 30. Brown gas combustion burner, characterized in that the injection nozzle unit 51 is further provided. The method of claim 4, wherein The burner body 10 further includes an air supply unit 60 for supplying a small amount of air into the Brown gas flow path 13 to prevent generation of noise during ignition and extinguishing the flame. Brown gas combustion burners. The method of claim 5, Burner body burner for burner, characterized in that the burner body 10 is further provided with a backfire detection means for sensing that the flame is backfired through the backfire prevention means (20). The method of claim 6, The backfire detection means 70, Brown gas combustion burner, characterized in that consisting of a temperature sensor (71) for detecting the current temperature of the brown gas, and a pressure sensor (72) for detecting the flow pressure of the brown gas.