KR20170023689A - Burner burner system using pyrolysis - Google Patents

Abstract

The present invention is a burner combustor system using pyrolysis, which relates to a burner for generating a thermal power in a boiler, an incinerator, a furnace, a fireplace, a thermal power plant,
The present invention relates to a pyrolysis combustor which radiates a flame emitted from an air-blowing burner (1) which is selected and operated from diesel fuel, kerosene, kerosene, gasoline, bunker oil, refined oil or gas or biofuel which is fossil fuel
The heating tube 6 and the pyrolysis combustor heating tank 3 are heated by the heating tube side side air hole closing plate 17, the oil surface 8 and the water surface 13 in the direction of the water surface 13, By heating the oil surface 8 and the water surface 13 to pyrolyze the water on the water surface 13 while creating the conditions of anaerobic and hypoxic conditions in the interior space of the pyrolysis combustor heating tank 3 to generate brown gas, The oil is pyrolyzed and burned to rise to a high temperature of 900 ° C to 2500 ° C,
The thermal power radiated directly from the air blast burner 1 in the direction of the heat pipe side through-hole closing plate 17 collides with the one side air hole closing plate 17 of the heat pipe to generate turbulence inside the pyrolysis combustor heating tank 3 And
The airflow generated by constituting the through hole 7 in the direction perpendicular to the thermal power from which the flame emitted from the blowing burner 1 is blown out is extended for a long time to flow into the through hole 7, The combustible gas mixture 5 and the water vapor 4 generated from the water surface 13 are contacted with the high temperature for a longer time to dissociate the water and induce endothermic reaction to maximize the combustion efficiency
The pyrolysis combustor discharges the thermal power to the flame outlet 9, which is relatively lower than the internal pressure of the pyrolysis combustor heating tank 3 and has a pressure of about 1 kilometer atmospheric pressure, And burning the harmful gas with heat energy to reduce the amount of soot and to derive a high efficiency thermal power, and is a burner combustor system using pyrolysis,
Further, the present invention is characterized in that a blower attachment / detachment connection pipe (2) capable of attaching / detaching the blowing burner (1) and the blowing burner (1) horizontally or vertically is provided on one side of the thermal cracking burner heating tanker
A pyrolysis combustor is provided with a heating pipe (6) and a through hole (7) which are horizontally or vertically inserted and fixed in the inner space of the pyrolysis combustor heating tank (3) at one side of the heating tanker
A flame discharge pipe 10 is provided on one side surface of the pyrolysis combustor heating tank 3 so as to have a flame outlet 9
Further, it is provided with a water tower 14 connected to a ball tower device or a water supply device for supplying water by holding the water surface 13 on the back surface of the pyrolysis combustor heating tanker 3
A device having a fuel oil feed pipe 12 and an outlet port 16 connected to a ball tower device or a fuel supply control device for maintaining the oil level 8 at the backside of the pyrolysis combustor heating tank 3 and supplying the fuel oil, Characterized in that it is a burner combustor system using pyrolysis,
[Index]
The present invention relates to a burner burner system using pyrolysis, an air blowing burner (1), a pyrolysis combustor heating tanker (3), a water surface (8), a water surface (13), a heat pipe side side air hole closing plate (17) , Flammable gas mixture (5), water surface (13), water vapor (4), water dissociation and irrigation to derive an endothermic reaction to maximize combustion efficiency, a flame discharge pipe (10) (13) while forming an anaerobic and hypoxic condition in the inner space of the water tank (9), the water supply pipe (14), the fuel oil feed pipe (12) connected with the oil supply control device, the discharge port (16), and the pyrolysis combustor heating tank To generate brown gas, pyrolyze and burn the fuel oil on the oil surface (8) and raise it to a high temperature of 900 ° C to 2500 ° C,

Description

Burner Combustor System Using Pyrolysis {omitted}

The present invention is a burner combustor system using pyrolysis, which relates to a burner for generating a thermal power in a boiler, an incinerator, a furnace, a fireplace, a thermal power plant,

The present invention relates to a burner burner system using pyrolysis, which relates to a burner for generating a thermal power in a boiler, an incinerator, a furnace, a fireplace, a thermal power plant,

First, industrial burners usually have a large fuel consumption and a great disadvantage

Second, there is a great disadvantage that soot is generated so much as to cause environmental pollution

Third, conventional industrial burners have a disadvantage that water can not be pyrolyzed

SUMMARY OF THE INVENTION It is an object of the present invention to provide a burner combustor system using pyrolysis

The present invention achieves the object by providing a burner combustor system using pyrolysis

The present invention relates to a burner for generating thermal power in a boiler, an incinerator, a furnace, a fireplace, a thermal power plant, and a burner where pyrolysis is used, and is a burner combustor system using pyrolysis

First, the internal space of the pyrolysis combustor heating tank 3 is pyrolyzed by water of the water surface 13 while generating oxygen and hypoxic conditions, and the brown oil is generated, and the fuel oil of the oil surface 8 is pyrolyzed and burned at a temperature of 900 ° C. It has a merit of increasing the thermal power by burning up to a high temperature of 2500 degrees Celsius and greatly reducing the fuel consumption by coping with part of energy consumed by the fuel of water energy

In addition, the thermal power radiated directly from the blowing burner 1 in the direction of the heat pipe side side through-hole closing plate 17 collides against the heat pipe side side through-hole closing plate 17 to generate turbulence inside the pyrolysis combustor heating tank 3 And

The airflow generated by constituting the through hole 7 in the direction perpendicular to the thermal power from which the flame emitted from the blowing burner 1 is blown out is extended for a long time to flow into the through hole 7, The water vapor (4) generated from the mixed gas (5) and the water surface (13) is contacted with the high temperature for a longer time to dissociate the water and generate an endothermic reaction, thereby maximizing the combustion efficiency, There is an advantage

Second, the internal space of the pyrolysis combustor heating tank 3 is pyrolyzed by water of the water surface 13 while generating oxygen and hypoxic conditions, generating brown gas, pyrolyzing and burning the fuel oil of the oil surface 8 at a temperature of 900 ° C. It is advantageous to increase the thermal power by burning up to a high temperature of 2500 degrees Celsius and to greatly reduce environmental pollution by coping with part of energy consumed by clean water energy

In addition, the thermal power radiated directly from the blowing burner 1 in the direction of the heat pipe side side through-hole closing plate 17 collides against the heat pipe side side through-hole closing plate 17 to generate turbulence inside the pyrolysis combustor heating tank 3 And

The airflow generated by constituting the through hole 7 in the direction perpendicular to the thermal power from which the flame emitted from the blowing burner 1 is blown out is extended for a long time to flow into the through hole 7, It has an advantage of greatly reducing the environmental pollution by reducing the amount of soot by maximizing the combustion efficiency by contacting the water vapor 4 generated from the mixed gas 5 and the water surface 13 with the high temperature for a longer time

1 is a schematic diagram of a burner combustor system using pyrolysis, according to the present invention;
In the drawings,
1: blower 2: blower detachment connector 3: pyrolysis combustor heating tanker
4: steam 5: mixed gas 6: heating tube
7: through hole 8: oil level 9: flame outlet
10: Combustor flame discharge pipe
12: Fuel oil pipe connected with lubrication control device 13: Water surface
14: Water supply pipe connected with water supply device
16: Deposition hole 17: Heating tube side-side through-hole closing plate

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic view of a burner combustor system using pyrolysis, and FIG.

"Specifically, look at the following."

The present invention is a burner combustor system using pyrolysis, which relates to a burner for generating a thermal power in a boiler, an incinerator, a furnace, a fireplace, a thermal power plant,

The present invention relates to a pyrolysis combustor which radiates a flame emitted from an air-blowing burner (1) which is selected and operated from diesel fuel, kerosene, kerosene, gasoline, bunker oil, refined oil or gas or biofuel which is fossil fuel

The heating tube 6 and the pyrolysis combustor heating tank 3 are heated by the heating tube side side air hole closing plate 17, the oil surface 8 and the water surface 13 in the direction of the water surface 13, By heating the oil surface 8 and the water surface 13, the inner space of the pyrolysis combustor heating tank 3

The water of the water surface 13 is pyrolyzed to generate brown gas and the fuel oil of the oil surface 8 is pyrolyzed and burned to rise to a high temperature of 900 ° C to 2500 ° C,

The thermal power radiated directly from the air blast burner 1 in the direction of the heat pipe side through-hole closing plate 17 collides with the one side air hole closing plate 17 of the heat pipe to generate turbulence inside the pyrolysis combustor heating tank 3 And

The airflow generated by constituting the through hole 7 in the direction perpendicular to the thermal power from which the flame emitted from the blowing burner 1 is blown out is extended for a long time to flow into the through hole 7, The combustible gas mixture 5 and the water vapor 4 generated from the water surface 13 are contacted with the high temperature for a longer time to dissociate the water and induce endothermic reaction to maximize the combustion efficiency

The pyrolysis combustor discharges the thermal power to the flame outlet 9, which is relatively lower than the internal pressure of the pyrolysis combustor heating tank 3 and has a pressure of about 1 kilometer atmospheric pressure, And burning the harmful gas with heat energy to reduce the amount of soot and to derive a high efficiency thermal power, and is a burner combustor system using pyrolysis,

Further, the present invention is characterized in that a blower attachment / detachment connection pipe (2) capable of attaching / detaching the blowing burner (1) and the blowing burner (1) horizontally or vertically is provided on one side of the thermal cracking burner heating tanker

A pyrolysis combustor is provided with a heating pipe (6) and a through hole (7) which are horizontally or vertically inserted and fixed in the inner space of the pyrolysis combustor heating tank (3) at one side of the heating tanker

A flame discharge pipe 10 is provided on one side surface of the pyrolysis combustor heating tank 3 so as to have a flame outlet 9

Further, it is provided with a water tower 14 connected to a ball tower device or a water supply device for supplying water by holding the water surface 13 on the back surface of the pyrolysis combustor heating tanker 3

A device having a fuel oil feed pipe 12 and an outlet port 16 connected to a ball tower device or a fuel supply control device for maintaining the oil level 8 at the backside of the pyrolysis combustor heating tank 3 and supplying the fuel oil, Characterized in that it is a burner combustor system using pyrolysis,

The pyrolytic burner combustor system of the present invention may be modified in structure, shape, or additional structure, without departing from the spirit of the claims.

Claims (7)

The present invention relates to a burner for generating a thermal power in a boiler, an incinerator, a furnace, a fireplace, a thermal power plant, and a place where a heater is used, and is a burner combustor system using pyrolysis
The flame emitted from the blowing burner 1 to be operated is radiated inside the pyrolysis combustor heating tank 3
The heating tube 6 and the pyrolysis combustor heating tank 3 are heated by the heating tube side side air hole closing plate 17, the oil surface 8 and the water surface 13 in the direction of the water surface 13, By heating the oil surface 8 and the water surface 13, the inner space of the pyrolysis combustor heating tank 3
The water of the water surface 13 is pyrolyzed to generate brown gas and the fuel oil of the oil surface 8 is pyrolyzed and burned to rise to a high temperature of 900 ° C to 2500 ° C,
The thermal power radiated directly from the air blast burner 1 in the direction of the heat pipe side through-hole closing plate 17 collides with the one side air hole closing plate 17 of the heat pipe to generate turbulence inside the pyrolysis combustor heating tank 3 And
The airflow generated by constituting the through hole 7 in the direction perpendicular to the thermal power from which the flame emitted from the blowing burner 1 is blown out is extended for a long time to flow into the through hole 7, The water vapor (4) generated in the gas mixture (5) and the water surface (13) is contacted with the high temperature for more time to dissociate the water and induce endothermic reaction to maximize the combustion efficiency
The pyrolysis combustor discharges the thermal power to the flame outlet 9, which is relatively lower than the internal pressure of the pyrolysis combustor heating tank 3 and has a pressure of about 1 kilometer atmospheric pressure, And burning the harmful gas with thermal energy to reduce the amount of soot and to derive a high-efficiency thermal power. The burner burner system using pyrolysis, The method of claim 1, wherein
The pyrolysis combustor is installed at one side of the heating tanker (3) horizontally or vertically
There is provided a blower attachment / detachment pipe 2 capable of attaching / detaching the blowing burner 1 and the blowing burner 1
A pyrolysis combustor is provided with a heating pipe (6) and a through hole (7) which are horizontally or vertically inserted and fixed in the inner space of the pyrolysis combustor heating tank (3) at one side of the heating tanker
The pyrolysis combustor is characterized in that a flame discharge pipe (10) protrudes from the outer surface of one side of the heating tanker (3) and a flame outlet (9) is provided
Burner burner system using pyrolysis, The method of claim 1, wherein
A pyrolytic burner combustor system using a pyrolysis combustor, comprising: a pyrolysis burner combustor system using a pyrolysis combustor; a pyrolysis burner burner system using pyrolysis, The method of claim 1, wherein
The pyrolysis combustor is characterized by an apparatus equipped with a fuel feed oil pipe (12) and a water discharge port (16) connected to a ball tower device or a fuel supply control device which maintains the oil level (8) A burner combustor system using pyrolysis, The method of claim 1, wherein
(3) Pyrolysis combustor (3) Pyrolysis of the water on the water surface (13) while generating an oxygen free and hypoxic condition in the internal space generates brown gas and pyrolyzes the fuel oil on the oil surface (8) And simultaneously burning the vaporized water and the water vaporized to produce high-temperature energy. The burner combustor system using pyrolysis, The method of claim 1, wherein
The airflow generated by constituting the through hole 7 in the direction perpendicular to the thermal power from which the flame emitted from the blowing burner 1 is blown out is extended for a long time to flow into the through hole 7, Characterized in that the combustion gas efficiency is maximized by bringing the steam (4) generated from the mixed gas base (5) and the water surface (13) into contact with the high temperature for more time, The method of claim 1, wherein
The pyrolysis combustor is installed at one side of the heating tanker (3) horizontally or vertically
There is provided a blower attachment / detachment pipe 2 capable of attaching / detaching the blowing burner 1 and the blowing burner 1
A pyrolysis combustor is provided with a heating pipe (6) and a through hole (7) which are horizontally or vertically inserted and fixed in the inner space of the pyrolysis combustor heating tank (3) at one side of the heating tanker
The pyrolysis combustor heating tanker 3 is provided on one side surface thereof with a flame discharge pipe 10 and a flame discharge port 9
A pyrolysis combustor, a water supply pipe (14) connected to a ball tower device or a water supply device for supplying water by holding a water surface (13) on the back side of a heating tanker
The pyrolysis combustor is characterized by an apparatus equipped with a fuel feed oil pipe (12) and a water discharge port (16) connected to a ball tower device or a fuel supply control device which maintains the oil level (8) A burner combustor system using pyrolysis,

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