KR0153406B1 - Method and apparatus for incinerator - Google Patents

Abstract

The present invention can maintain the amount of oxygen supplied to the incinerator and the combustion chamber higher than the amount of oxygen in the air, improve the thermal insulation effect of the incinerator and the combustion chamber, and collect the heat of combustion with the heat collecting plate in the combustion chamber and at the same time maintain the combustion gas remaining time 3 seconds In addition to increasing the combustion temperature of the combustion chamber to 1100 ~ 1300 ° C, this allows the complete combustion of the waste, and waste incineration method to maintain the content of harmful substances contained in the combustion exhaust gas less than the specified value and It is related to the apparatus, which stacks fireproof bricks, supplies water from the water supply tank to the space provided between the inner wall and the outer wall, preheats the air to high temperature, and heats the water to 400 ~ 500 ° C to make water vapor. The steam generated from the steam heating tube and the steam generating section by the preheated air, steam and exhaust gas is It is injected into the combustion chamber to increase the oxygen ratio in the incinerator and the combustion chamber, and the heat of combustion in the combustion chamber collects in the combustion chamber and maintains the combustion gas remaining time for 3 seconds, so that the combustion temperature of the combustion chamber is maintained to 1100 ~ 1300 ° C without using a burner burner. It is an invention that can prevent the generation of harmful gases by allowing to increase.

Description

Waste incineration method and apparatus

1 is a longitudinal sectional view of a waste incinerator according to the present invention.

2 is a perspective view showing one embodiment of the steam generator shown in FIG.

3 a, b, c, d are plan views showing other embodiments of the steam generator.

* Explanation of symbols for main parts of the drawings

10: incinerator 12: combustion chamber

14: cyclone dust collector 16: space part

18: inner wall 20: outer wall

22: water supply tank 24: water pipe

26: exhaust gas passage 28: steam heat pipe

30: steam generating tube 32: air heating tube

34: water vapor, supply pipe 36: blowing motor

38: air outlet 40: heat collecting plate

The present invention relates to a waste incineration method and apparatus for incineration of various wastes, and more specifically, to construct a incinerator with a double wall having a space portion between an inner wall and an outer wall by stacking refractory bricks, and having a plurality of heat collecting plates in the combustion chamber. Waste incineration method to maintain the temperature of the combustion chamber and at the same time supply water into the heated space to spray the heated steam into the combustion chamber to increase the oxygen ratio in the combustion chamber and minimize the emission of harmful gases and Relates to a device.

In general, when the waste is incinerated, the calorific value is increased due to the increase of plastics and papers in the waste, and the low calorific value from 1100 to 1400 kcal / kg in 1972 is 1500 to 2000 kcal / kg in 1986 and today is 2500 to 3000 kcal / kg. As it occurs frequently, the internal temperature of the combustion chamber should be kept high at 1100 ~ 1300 ° C, and a large amount of oxygen should be supplied to ensure good combustion and complete combustion of waste, and minimize the generation of harmful substances such as dioxins. The fact that it can be done is widely known.

However, the conventional incinerator has no configuration that can collect the heat of combustion generated in the combustion chamber even when the incinerator and the combustion chamber wall are made of refractory bricks, and the incinerator and the combustion chamber emit a large amount of heat into the atmosphere, and are supplied to the incinerator and the combustion chamber. Nitrogen and oxygen are distributed at a ratio of about 8: 2 in the atmosphere of the atmosphere, so that even if air is supplied to the incinerator and the combustion chamber by means of forced air supply such as a blower fan, sufficient oxygen is required for complete combustion of waste. Not only could not be expected to be ideally perfect combustion, it was due to this, there is a problem that large amounts of air pollution and toxic substances including dioxin in the exhaust gas discharged into the atmosphere is released as such.

In addition, the conventional small incinerator consisting of a double iron plate has a lot of shrinkage and expansion of the iron in accordance with the temperature change, so the cracks and corrosion is severe, and the water between the iron plate to prevent melting or deformation of the iron plate by the heat of combustion Since it is necessary to circulate the furnace, the temperature in the furnace cannot be raised by more than 700 to 800 ° C., the combustion time is delayed, and there is a problem of generating a lot of harmful gases.

In case of a foreign incinerator, use the supporting burner, fire the lining of the secondary combustion chamber with the start temperature of the supporting burner at 875 ° C, increase the preheating temperature of the supplied air, and set the residence time in the secondary combustion chamber. Increasing the temperature in the furnace by increasing it to about 2 seconds, but such foreign incinerators cannot raise the temperature of the secondary combustion chamber by more than 950 ° C, and the concentration of dioxins that cannot be decomposed at low temperatures of emitted harmful gas is about 1ng / N㎥ Had problems to be satisfied with.

In addition, the air pollution prevention facility is installed on the exhaust gas outlet side to remove pollutants from the discharged gas, but there was a problem that the effect is insufficient because the large amount of air pollutants contained in the combustion gas.

Accordingly, an object of the present invention is to prevent the combustion heat of the incinerator and the combustion chamber from being conducted to the outside of the incinerator, to collect the heat of combustion in a plurality of heat collecting plates in the combustion chamber, and to heat and vaporize the waste heat of the exhaust gas and a large amount of oxygen. By injecting high temperature water vapor, which is contained in the incinerator and the combustion chamber, the internal temperature can be raised to about 1100 to 1300 ° C without using the combustion temperature of the waste, that is, without using the burning incinerator and combustion chamber. It is to provide a waste incineration method and apparatus for increasing combustion efficiency in the combustion chamber to about 3 seconds to increase combustion efficiency and minimize the emission of harmful substances such as dioxins to maximize air pollution prevention performance.

The object of the present invention is to stack the refractory brick to the space provided between the inner wall and the outer wall so that the water in the water supply tank falls along the water pipe to preheat the air to high temperature and at the same time to heat the dropped water to 400 ~ 500 ° C After making high pressure steam, the preheated air and high pressure steam are injected into the incinerator and combustion chamber to increase the oxygen ratio in the incinerator and combustion chamber, and the heat of combustion in the combustion chamber is collected in the combustion chamber to increase the combustion temperature of the combustion chamber to 1100 ~ 1300 ° C. Can be achieved.

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

In the present invention, as illustrated in FIG. 1, the incinerator 10, the combustion chamber 12, and the cyclone dust collector 14 have a space portion 16 in which the incinerator 10 and the fireproof walls of the combustion chamber 12 are disposed. It is formed of a double fireproof wall consisting of the inner wall 18 and the outer wall 20, the upper portion of the combustion chamber 12 is installed with a water supply tank 22, the inside of the combustion chamber 12 to collect the heat of combustion A plurality of heat collecting plates 40 are installed, and a water pipe 24 connected to the water supply tank 22 is connected to the space part 16, and the waste gas contained in the exhaust gas is absorbed into the exhaust gas passage 26 to supply water. After the steam heating tube 28 to be heated, the steam generating tube 30 and the air heating tube 32 are installed in this order, a high temperature steam supply pipe 34 between the exhaust gas passage 26 and the combustion chamber 12 is provided. ), A blower motor 36 is installed between the air heating tube 32 and the space 16, the space 16 and the incinerator 10 and A plurality of heating air ejection openings 38 are formed between the combustion chambers 12.

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

The present invention utilizes waste heat from the incinerator 10, the combustion chamber 12, and the exhaust gas passage 26 to incinerate the waste introduced into the incinerator 10, and forms a fireproof wall of the incinerator 10 and the combustion chamber 12. The heated air in the space 16 between the inner wall 18 and the outer wall 20 and the air heated in the air heating tube 32 toward the exhaust gas passage 26 are incinerator 10 and combustion chamber 12. Is supplied.

At this time, the high temperature steam generated from the steam heating tube 28 and the steam generating tube 30 is supplied to the combustion chamber 12 through the steam supply pipe 34, and the water supply tank is dropped into the space 16 ( The water of 22 is vaporized into steam of high temperature and high pressure and is supplied to the incinerator 10 and the combustion chamber 12 through the air outlet 38 together with the heated air.

The high pressure steam supplied to the incinerator 10 and the combustion chamber 12 is made into a supersaturated vapor state having a high temperature of about 400 to 500 ° C. by heated air in the incinerator 10 and the combustion chamber 12. Participating in incineration and combustion, the incinerator 10 and the combustion chamber 12 are supplied with a much larger amount of oxygen than when the air in the atmosphere is directly supplied or simply heated.

In other words, the air in the atmosphere supplied to the incinerator 10 and the combustion chamber 12 is limited to a nitrogen and oxygen ratio of about 8: 2, but vaporized water is supplied to the incineration chamber 10 and the combustion chamber 12 together with the air. After the waste is completely incinerated in the incineration chamber 10 and the combustion chamber 12, the amount of residual oxygen discharged is increased to about 12-13%, and the oxygen concentration in the air after rain increases and the oxygen concentration in the dryer decreases. In view of the fact that the amount of oxygen supplied to the incinerator 10 and the combustion chamber 12 is not only increased due to water vapor, but also waste combustion in the incinerator 10 and the combustion chamber 12 supplied with sufficient oxygen. Is almost completely done.

In the present invention, the vaporized and introduced steam is discharged together with the exhaust gas, the temperature drops to about 500 ° C passing through the steam generating tube 30, and when passing through the air heating tube 34 falls to about 350 ° C The released steam is liquefied again, recovered and reused.

In particular, the incineration apparatus according to the present invention includes a plurality of heat collecting plates 40 in the combustion chamber 12 through which air and steam are supplied, so that the heat of combustion generated in the combustion chamber 12 by the heat collecting plates 40 can be collected. At the same time, it is possible to raise the combustion temperature of the combustion chamber 12 up to 1100 ~ 1300 ° C without using the supporting burner by increasing the effect of double insulation of the refractory bricks, thereby completely burning the waste. In addition, by increasing the remaining time of combustion gas in the combustion chamber to about 3 seconds, it is possible to minimize the content of harmful substances such as dioxins contained in the combustion exhaust gas to 0.01Ng / Nm3 or less, which is much lower than the specified value or foreign generated value. The occurrence itself can be prevented.

The present invention as described above, by stacking the refractory brick and supplying the water of the water supply tank to the space provided between the inner wall and the outer wall to preheat the air to high temperature and at the same time to make the water with high temperature and high pressure steam of 400 ~ 500 ° C By the preheated air, high temperature steam, and high temperature exhaust gas, the steam generated from the steam heating tube and the steam generating tube is injected into the incinerator and the combustion chamber, so that the amount of oxygen supplied to the incinerator and the combustion chamber can be kept higher than the amount of oxygen in the air. It improves the thermal insulation effect of incinerator and combustion chamber and can collect the heat of combustion with the heat collecting plate in the combustion chamber, so that the combustion temperature of the combustion chamber can be increased up to 1100 ~ 1300 ° C without using a burning burner. In addition, the effect of maintaining the content of harmful substances contained in the combustion exhaust gas far below the prescribed value is provided. Will.

Claims (2)

In the waste incineration apparatus having the incinerator 10, the combustion chamber 12, the cyclone dust collector 14, etc., the inner wall 18 and the outer wall 20 of the incinerator 10 and the combustion chamber 12 are stacked with firebrick. An air heating space portion 16 is provided between the inner wall 18 and a plurality of air ejection openings 38 communicating with the space portion 16, and the combustion heat is collected inside the combustion chamber 12. Installs a plurality of heat collecting plates 40, and in the exhaust gas passage 26, a plurality of steam heating tubes 28, a steam generating tube 30 and an air heating tube 32 are sequentially installed, and a steam generating tube 30 Steam supply pipe 34 is connected between the combustion chamber 12 and the air heating tube 32 and the space 16, and a blower motor 36 is installed between the air heating tube 32 and the space part 16 to obtain the waste heat generated during waste incineration. Waste incineration unit, characterized in that the circulation of air and supersaturated water. By dropping water from the water supply tank into the space provided between the inner wall and the outer wall, the high-temperature air and the high-temperature inner wall heat are dropped into 400 ~ 500 ° C high pressure steam, and the high temperature air and high pressure steam are incinerated. To increase the oxygen ratio in the incinerator and combustion chamber, and the heat of combustion in the combustion chamber collects in the combustion chamber and maintains combustion gas residence time for more than 3 seconds to increase the combustion temperature of the combustion chamber to 1100 ~ 1300 ° C. Waste incineration method characterized in that