JP3117793U - Combustible gasification burner device - Google Patents

Abstract

When a combustible gas is completely combusted at a constant temperature, the combustible gas obtained by dry distillation of the waste can be combusted automatically by an electric valve and combustible gas by supplying oxygen, thereby reducing environmental pollution. Provided is a two-stage gas burner furnace capable of incineration of waste that does not occur. [Solution] A combustion temperature of a combustible gas introduced into a first-stage burner furnace chamber having a certain volume is naturally combusted. An ignition combustion flame is supplied until a temperature to be obtained is reached, a combustion temperature in a specific temperature range of the combustible gas in the second stage combustion burner furnace is detected, and a supply amount of the oxygen-containing gas is determined Ignition in a two-stage burner furnace chamber in which the combustion temperature is controlled by the amount of oxygen-containing gas supplied to the first stage ignition means and the second stage burner furnace while automatically adjusting in the burner furnace chamber・ Controlling combustion Figure 1

Description

The present invention relates to a combustible gasification burner device for incineration treatment of waste containing a resin component.
The present invention is a combustion gasification burner furnace that burns combustible gas that is burned in dry distillation in a closed room by heating at the vaporization point of waste materials such as plastic and rubber, and organic industrial waste and supplying air. Further, the present invention relates to a two-stage combustion burner furnace that controls ignition combustion and adjusts the supply amount of oxygen-containing gas with an electric valve.

As a method for incinerating wastes such as waste tires, a method using a dry distillation gasification incineration apparatus is known (see Patent Document 7).

This dry distillation gasification incineration apparatus burns a part of the waste stored in the gasification furnace, and dry distillation (pyrolysis) of the remainder of the waste by the heat of combustion. At this time, combustible gas generated by dry distillation of the waste is introduced from the gasification furnace into the burner chamber through the gas passage, and in the burner chamber, the combustible gas and carbonized Waste is gasified without causing environmental pollution by mixing with oxygen (air) and burning it completely.

According to the dry distillation gasification incineration apparatus, the combustion of a part of the waste in the gasification furnace, the dry distillation of the remainder, and the combustion of the combustible gas generated by the dry distillation in the burner chamber are performed as follows. The combustible gas generated in the gasification furnace is introduced into the combustion furnace from the burner chamber through a gas passage, and further mixed with oxygen in the air necessary for the combustion in the burner chamber. It is ignited and burned by an ignition device attached to the conversion chamber. At this time, the combustion temperature of the combustible gas in the gasification chamber rises with an increase in the amount of combustible gas generated in the gasification furnace and introduced into the combustion furnace after ignition of the waste. . As described above, when combustion of the combustible gas in the combustion furnace is started, the combustion is naturally continued, and the oxygen supply device in the air connected to the gasification furnace follows the temperature change in the burner chamber. The gasification furnace is supplied with oxygen in the air necessary for the combustion of a part of the waste and the carbonization of the remainder. At the same time, the oxygen supply device in the air captures the temperature in the burner chamber as the combustion temperature of the combustible gas, and the temperature in the combustion furnace is sufficiently generated by the combustion of the combustible gas. Oxygen in the air is supplied while adjusting with an electric valve so as to maintain a constant temperature at a predetermined temperature as a low combustion temperature. Depending on the type of waste, when the end stage of carbonization of the waste approaches, black smoke is generated in the burner chamber due to incomplete combustion of the combustible gas, which may cause environmental pollution. . (This is solved by an afterburner.)

Many conventional devices for incineration of resin and other waste heat the incinerated material put into an inclined combustion shelf provided in an iron outer frame with heavy oil or fuel oil burner and supply air Incineration is performed (see Patent Document 1). Incinerators have been developed to generate combustible gas by dry distillation of resin, tire waste, etc., and burn it, but always have a combustion ignition burner (see Patent Document 2 and Patent Document 3). , See Patent Document 4). Furthermore, although the combustion furnace is large and a two-stage burner combustion furnace exists, an ignition device is also provided and fuel is always required (see Patent Document 5 and Patent Document 6).

When the temperature in the combustion furnace falls below the temperature at which it should be maintained substantially constant, the amount of oxygen supplied in the air to the gasification furnace is increased to promote the combustion of the waste and the waste generated by the combustion heat This promotes dry distillation, thereby increasing the amount of combustible gas generated and increasing the temperature in the combustion furnace, that is, the combustion temperature of the combustible gas. On the other hand, when the combustion of the combustible gas in the combustion furnace is started, the oxygen supply device in the air connected to the burner chamber causes the combustible gas to completely enter the burner chamber according to the temperature change in the combustion furnace. Supply oxygen necessary for combustion. Specifically, when the temperature in the combustion furnace decreases, the amount of flammable gas introduced into the burner chamber is reduced, and the amount of oxygen supplied to the combustion furnace is reduced. When the internal temperature rises, it is assumed that the amount of combustible gas introduced into the burner chamber is increasing, the oxygen supply amount in the air to the combustion furnace is increased, and the combustible gas is always completely burned. Supply an amount of oxygen commensurate with the amount to be used. By controlling the oxygen supply amount in the air to the gasification furnace and the burner chamber as described above, the combustion temperature of the combustible gas in the burner chamber measured as the temperature in the combustion furnace is such as nitrogen oxides. The generation of environmental pollutants is kept substantially constant at a sufficiently low combustion temperature, so that the combustible gas is completely burned without causing environmental pollution, and a part of the waste in the gasification furnace Combustion and the remaining carbonization will proceed smoothly. At this time, the partial combustion of the waste in the gasification furnace is performed by gradually shifting to the site where the generation of the combustible gas by dry distillation is performed. Is carried out almost without generating nitrogen oxides.
JP-A-8-68521 JP-A-5-1416639 JP-A-8-278014 JP-A-9-14623 JP-A-9-170732 JP 2003-83523 A JP-A-2-135280

The present invention eliminates such inconvenience, and while burning a part of the waste, the remainder is dry distilled to produce a combustible gas, and when combustible gas is completely burned at a constant temperature by an electric valve, A combustible gasification burner capable of incinerating waste without causing environmental pollution, capable of completely combusting the combustible gas obtained by carbonization of the waste by automatic combustion and oxygen supply in the air. The purpose is to provide.

An ignition burner is installed to burn the gas obtained from the gasification furnace that produces the combustible gas by carbonizing the undistilled portion of the waste, and the combustion flame of the combustible gas is initially set within a predetermined time. A first stage burner furnace chamber that is maintained at a high temperature by achieving a specific temperature, and further, a second stage ignition combustible gas is introduced through a gas passage. A two-stage combustion burner in which the combustible gas introduced from the first-stage burner furnace chamber is completely burned in the second-stage burner furnace chamber by supplying a gas containing oxygen in the air It consists of a furnace chamber. An ignition combustion flame by a burner is supplied toward the combustible gas until the combustion temperature of the combustible gas introduced into the first stage burner furnace chamber reaches a temperature at which it can spontaneously combust. As a second-stage ignition means for stopping and shifting to automatic combustion, the combustion temperature of the combustible gas in the second-stage combustion burner furnace is detected, and the supply amount of oxygen-containing gas in the air is determined. A two-stage type in which the combustion temperature is controlled by the supply amount of oxygen-containing gas in the air to the first-stage ignition means and the second-stage burner furnace while automatically adjusting in the second-stage burner furnace chamber With means to automatically control ignition and combustion in the burner furnace chamber

In order to burn the gas obtained from the gasification furnace that produces the flammable gas by carbonizing the undistilled portion of the waste, an ignition burner is installed in the combustion first stage burner furnace chamber, and 80 ° C to 400 ° C First, a combustible gas heated to a temperature of 600 ° C. to 800 ° C. within a predetermined time is initially supplied by an ignition burner and can be maintained at a high temperature. In the case of 50L or less having a stage burner furnace chamber, the temperature rises and it is difficult to control. Moreover, when it becomes 100 L or more, auxiliary combustion by an ignition combustion burner is always required. Furthermore, the first stage burnable combustible gas is introduced through the gas passage. The second stage burner furnace chamber contains oxygen in the flammable gas introduced from the first stage burner furnace chamber. When the gas is supplied, it is difficult to control with the oxygen-containing gas in a temperature range of 600 ° C. to 1140 ° C. outside this range. In order to completely burn the combustible gas from the first-stage burner furnace chamber, an automatic supply device using an electric valve for oxygen-containing gas in the air by measuring the temperature in the furnace is provided. The combustion temperature can be controlled by a device capable of automatically supplying oxygen-containing gas to the first stage ignition means and the second stage burner furnace. The present invention is provided with means for controlling ignition and combustion in a two-stage burner furnace chamber.

As described above, the inventor combusts a part of the waste and dry-distills the remainder to produce a combustible gas. When combusting the combustible gas at a substantially constant temperature, As a result of various studies on the reason why incomplete combustion of the combustible gas occurs in the combustion furnace at the end of dry distillation, the following knowledge was obtained.
When the waste is carbonized as described above, the amount of combustible gas in the gasifier is maintained so that the combustion temperature of the combustible gas, which is regarded as the temperature in the burner chamber, is kept constant. It cannot be generated.

The incombustible gas is heated by the combustion heat of the combustible gas when the combustible gas is sufficiently present, and thus does not cause a problem. However, if the amount of combustible gas becomes insufficient to maintain a predetermined combustion temperature at the end stage of the carbonization of the waste, the incombustible gas does not burn itself and does not generate heat. The combustion heat of the combustible gas is absorbed, and the temperature in the burner chamber is further lowered. When the temperature in the burner chamber decreases in this way, the temperature change in the combustion furnace is regarded as the combustion temperature of the combustible gas, and the oxygen supply amount to the combustion furnace adjusted by the temperature change is actually the burner. It is considered that the amount of the combustible gas existing in the chamber is less than the amount for complete combustion, and the complete combustion of the combustible gas cannot be maintained. (At this time, the auxiliary burner in the burner room operates with an after banner)

In the incineration method for waste of the present invention, the burner chamber is provided with an air supply nozzle that passes through a portion where the combustible gas burns and supplies oxygen necessary for combustion of the combustible gas. Oxygen is supplied into the combustion furnace through the supply nozzle heated by gas combustion. At this time, the air supply nozzle is provided along the flow direction of the combustible gas at the center of the portion where the combustible gas burns, and jets the heated oxygen crossing the flow of the combustible gas. It is characterized by.
In the incineration processing method for waste according to the present invention, an ignition means for assisting combustion by igniting the combustible gas is provided in a portion where the combustible gas is combusted in the burner chamber, and the end of the dry distillation by the ignition means. The combustion of the combustible gas in the stage is assisted by a burner (action)

According to the waste incineration method of the present invention, the burner chamber is disposed at the end of the dry distillation in which the combustible gas introduced into the burner chamber is reduced and the absorption of combustion heat by the noncombustible gas is increased. By supplying oxygen in the heated air, the absorption of combustion heat by the non-combustible gas is compensated, and a decrease in temperature in the combustion furnace is avoided, and an oxygen supply amount for completely combusting the combustible gas is secured. To do. An air supply nozzle that supplies oxygen necessary for combustion of combustible gas to the combustion furnace is provided by penetrating a portion where the combustible gas burns, and is thus heated by combustion of the combustible gas. Yes. The oxygen supplies oxygen heated by the heat of the air supply nozzle. The air supply nozzle is provided along the flow direction of the combustible gas at a central portion of the portion where the combustible gas burns, and jets the heated oxygen crossing the flow of the combustible gas. The heated oxygen is uniformly diffused into the combustion furnace and mixed with the combustible gas to promote combustion of the combustible gas.

As apparent from the above, according to the waste incineration treatment method of the present invention, even when the waste contains a large amount of incombustible components in addition to the resin component, In addition to being able to prevent incomplete combustion, efficient combustion can be achieved and heat recovery can be effectively performed.

(1) Put plastic waste and tires into the gasification chamber. 4 Close the inlet cover.
The ignition burner 6 is ignited to raise the interior of the ignition chamber 15 to 600 ° C. or higher.
The ignition burner 3 is ignited from the bottom of the gasification chamber, and the electric valves 9-1 and 9-2 are finely adjusted to generate combustible gas. The adjustment time is 3 to 60 minutes.
The combustible gas 5 flows from the gasification chamber 1 through the duct to the ignition chamber 15 and ignites.
After ignition, it goes to the burner chamber 16 and the air (mixing pipe) 7 mixes and fires.
The electric valves 14-1 and 14-2 are opened by the temperature sensor 18 when the gas generation is large, and are closed when the gas generation is small.
If the amount of gas generated is large, close the motorized valves 8, 9-1 and 9-2 with fine adjustment. (Fill in less air)
If the amount of gas generated is small, close the motorized valves 8, 9-1 and 9-2 with fine adjustment. (Fill a lot of air)
The valve adjustment is electrically controlled by the temperature sensor 18.
Depending on the amount of gas generated in the gasification chamber 1, a burner of about 5 hours 30 minutes to 6 hours 30 minutes works.
When the amount of gas generation decreases, the temperature of the temperature sensor 17 decreases, so the 6 ignition burner is operated (ON, OFF) to suppress CO generation. (Afterburner) Operates for about 1 to 2 hours.
At the same time as the afterburner is activated, the electric valve 10-2 is slightly opened, and air is supplied from the side of the air nozzle 10-1 after carbonization. It ends in 10-12 hours.

Gasification room diagram Ejector diagram Gasification burner temperature curve data

Explanation of symbols

1 Gasification room
2 Gasification burner
3 Ignition burner (propane and electricity)
4 Upper cover lid
5 Combustible gas
6 Ignition burner
7 Air (mixing pipe)
8 Electric valve
9-1, 9-2 Electric valve
10-1 Air nozzle after carbonization (fire)
10-2 Electric valve
11 Gasification chamber sensor
12 Air supply fan
13 Gas nozzle air nozzle
14 Electric valve
15 Ignition chamber
16 Burner room
17 RTD temperature sensor
18 temperature sensor

Claims (2)

An ignition burner is installed to burn the gas obtained from the gasification furnace that produces the combustible gas by carbonizing the undistilled portion of the waste, and the combustion flame of the combustible gas is initially set within a predetermined time. A first stage burner furnace chamber that is maintained at an intermediate temperature, and a second stage ignition combustible gas is introduced through the gas passage. The combustible gas introduced from the first stage burner furnace chamber is completely burned in the second stage burner furnace chamber by supplying a gas containing oxygen. When the combustion temperature of the combustible gas introduced into the first stage burner furnace chamber reaches a temperature at which it can be spontaneously combusted, the ignition combustion flame is supplied toward the combustible gas, and the temperature is reached. Second stage to stop ignition combustion flame and shift to automatic combustion As ignition means, the combustion temperature of the combustible gas in the second-stage combustion burner furnace is detected, and the supply amount of oxygen-containing gas is automatically adjusted in the second-stage burner furnace chamber, A means for controlling ignition and combustion in a two-stage burner furnace chamber in which 4 to 8 air mixing nozzles are attached to the first stage ignition means and the second stage burner furnace to control the combustion temperature of the air. Combustible gasification burner device characterized by comprising In order to burn the gas obtained from the gasification furnace that produces the flammable gas by carbonizing the undistilled portion of the waste, an ignition burner is installed in the combustion first stage burner furnace chamber, and 80 ° C to 400 ° C First, a combustible gas heated to a temperature of 600 ° C. to 800 ° C. within a predetermined period of time by an ignition burner and maintained at a high temperature can be maintained at a high temperature. A second-stage burner furnace chamber having a first-stage burner furnace chamber, in which the first-stage ignition combustible gas is introduced through the gas passage, is combustible introduced from the first-stage burner furnace chamber. Adjusting by temperature measurement for complete combustion in the temperature range of 700 ° C to 1140 ° C by supplying gas containing oxygen, equipped with automatic supply device of electric valve, the first stage ignition means and the second stage burner Combustion with a device that can automatically supply air-containing gas to the furnace Combustible gasification burner apparatus characterized by comprising means for controlling the ignition and combustion in the two-stage burner furnace chamber for controlling the temperature

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