JPH0612171B2 - High-speed processing cremation method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for rapid treatment cremation using liquid fuel or gas fuel.

[Conventional technology]

In the cremation method using a conventional cremation furnace, liquid fuel or gas fuel is usually supplied to a burner installed in the incinerator and burned, and the combustion flame is brought into direct contact with the object to be incinerated and pyrolyzed from the surface of the object to be incinerated. Is incinerated.

In the incineration, the secondary air and the tertiary air are supplied to raise the combustion temperature in the furnace to completely burn the incomplete combustion gas to improve the thermal efficiency (Japanese Patent Laid-Open No. 53-7986 and Japanese Utility Model Publication). Also, as disclosed in Japanese Patent Laid-Open No. 58-200920, the furnace wall has a circular cross section so that radiant heat is collected at the center of the casket.

[Problems to be Solved by the Invention]

However, no matter how completely the fuel supplied to the burner is burned and the temperature in the incinerator becomes high, this is not enough for burning the incineration object, and the unburned gas generated from the surface of the incineration object due to the high temperature. When the gas needs to come into contact with oxygen for complete combustion and the oxygen required for combustion is simply supplied by the inflow of natural air as secondary air or tertiary air, or a small amount of air is supplied. When mixed oxygen or pure oxygen is supplied by a spray pipe of about several hundred millimeters (underwater pressure), only the temperature inside the furnace rises and the unburned gas generated from the surface of the incinerator produces oxygen for combustion. Complete combustion was not possible because they did not come into complete contact. For this reason, it takes a long time to incinerate, and it takes about 90 minutes to incinerate the human body, which requires the longest time to incinerate, and the inflammable parts such as the lumbar vertebrae. ,
Since unburned gas containing black smoke and odor is generated, it is necessary to burn this harmful gas in the reburning furnace in order to clean it, and the amount of heat required for this must be large and the fuel consumption increases. there were. In addition, Japanese Patent Publication No. 55-28416 discloses that
A cremation method in which oxygen is blown is shown, but oxygen is expensive and expensive, and only when the temperature inside the furnace becomes high, the furnace burns, and the surface of the incinerator burns only for a long time. There was a drawback that took time.

In view of such a current situation, it is an object of the present invention to provide a high-speed cremation method in which combustion air is pierced to a difficult-to-burn portion of an incinerator to realize remarkable activation of combustion. It is a thing.

[Means for Solving the Problems]

The high-speed treatment cremation method according to the present invention, in order to achieve the above object, a fuel supply burner is arranged on the furnace wall facing the doorway of the truck on which the incinerator in the incineration chamber is mounted, and the burner of the truck is installed. A plurality of injection nozzles having an inner diameter of 1 to 5 mm for directly injecting into the flame-retardant portion of the object to be burned are arranged on both sides of the furnace wall and the ceiling in the traveling direction, and the fuel is supplied from the fuel supply burner and the injection is performed. The incineration object is incinerated while directly injecting high-pressure combustion air of 5 to 10 kg / cm ² from the nozzle toward the difficult-to-combustion part of the incineration object.

[Action]

A high-speed treatment cremation method according to the present invention is to supply fuel from a fuel supply burner arranged on a furnace wall facing an entrance of a truck on which an object to be incinerated in an incinerator is placed, and to provide a two-sided furnace in a traveling direction of the truck. A plurality of injection nozzles having an inner diameter of 1 to 5 mm for directly injecting into the flame-retardant part of the incinerator are provided on the wall and the floor, and the fuel is supplied from the burner to the flame-retardant part of the incinerator from the nozzle. Since the high-pressure combustion air of 5 to 10 kg / cm ² is directly and intensively injected, it is possible to inject the high-pressure fresh combustion air into the flame-retardant part of the incinerator in a perforated manner. By continuously peeling and renewing the carbide on the surface and continuously injecting the fresh air mentioned above, it became possible to realize remarkable activation of combustion, which is an incineration object with a long burning time. Revolutionary to maximize the difficulty of burning in the lumbar region of a human body Fast in which it can be easily processed.

Also, since almost no exhaust gas is smokeless and odorless only in the combustion chamber, the amount of heat used in the recombustion chamber can be extremely small.

〔Example〕

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

In the figure, 1 is a cremation furnace, and the cremation furnace 1 is provided with an incinerator chamber 2 and a reburn chamber 3 surrounded by an oven wall.
In the lower part of the, there is provided an entrance / exit for a dolly 4 on which an object to be incinerated (not shown) is placed, and at the entrance / exit a heat insulating door 5 is attached so that it can be raised and lowered. When the heat-insulating door 5 is lowered onto the trolley 4 when the incinerator 4 is stopped at a predetermined position in the incinerator 2, the incinerator 2 is sealed.

A burner 7 for supplying a liquid fuel or a gas fuel is arranged on the front side of the trolley 4 in the incineration chamber 2 as viewed from the traveling direction, that is, on the furnace wall facing the trolley doorway of the incineration chamber 2.
The burner 7 is arranged on the furnace wall portion above the carriage 4 so that the incinerated body can be sprayed in a concentrated manner.

On the furnace walls on both sides parallel to the traveling direction of the carriage 4 of the incineration chamber 2, a plurality of injection nozzles 8, 8 for directly injecting to the position corresponding to the lumbar vertebrae, which is a difficult combustion area of the incineration object. In addition, an injection nozzle 8'for directly injecting the above-mentioned difficult-to-burn portion is also provided in the roof of the incineration chamber 2. The injection nozzles 8, 8, ... And 8'are connected to a high pressure air supply source 10 through a pipe 9. The above-mentioned high pressure is 5 to 10 kg / cm ² , so that the high pressure air collides as a jet stream with the jet nozzles 8, 8, ... Can be obtained. Further, the inner diameter of the above-mentioned injection nozzles 8, 8, ..., And 8'is 1 to 5 mm. If the diameter is smaller than this, the incinerator will locally burn, and if it is larger than the above. Is less uneconomical because jet flow is less likely to occur.
The number of nozzles is preferably 2-10, especially 3-5.

As described above, by injecting high-pressure air to the difficult-to-burn portion of the incineration object, carbonization is prevented and combustion is promoted without damaging the incineration object, and the incineration time can be shortened significantly.

In addition, it is desirable that the ceiling of the incinerator 2 has an arch-shaped cross section in terms of the effect of heat concentration.
A passage 11 to the re-combustion chamber 3 is provided in a part of the ceiling of the furnace, and a burner 12 is provided on a furnace wall 6 of both combustion chambers 3, where unburned gas is completely combusted. . And
High pressure air may also be supplied here for complete combustion, but in the present case it is hardly necessary.

Ceramic materials such as ceramic fibers are attached to the inner peripheral surfaces of the incineration chamber 2 and the re-combustion chamber 3, so that heat conduction and heat dissipation from the inside of the furnace are extremely small compared to refractory bricks, and heat loss is very small. In addition, the temperature inside the furnace rises very quickly after the burner is ignited, and the heat retention is good, so a rapid rise in the furnace temperature immediately after ignition can be expected. , The cooling of the ashes is fast, and the bone-picking time is greatly shortened. In addition, the ceramic material has high fire resistance, strong resistance to expansion and contraction, and extremely strong resistance to thermal changes such as rapid heating and quenching, so it is extremely strong in spall resistance compared to conventional refractory bricks, etc. Significantly improved. Further, the furnace wall 6 can be repaired only by reattaching the ceramic material on the surface, and the repair cost is lower than that of refractory bricks. In addition, since the heat storage and heat conduction of ceramic materials are as low as 1/10 of those of refractory bricks, the thin walls have durability and heat insulation properties, and it is possible to save fuel.

Table 1 shows the results of using the cremation furnace shown in the drawings in comparison with the cremation furnace of the same structure made of refractory bricks (Comparative Example 1) and the cremation furnace using oxygen (Comparative Example 2). Shown in.

In the case of the cremation furnace made of refractory bricks (Comparative Example 1 and cremation furnace using oxygen (Comparative Example 2), the incineration time is long, a large amount of fuel is required, the thickness of the furnace wall and the weight of the furnace are large, While the repair cost is high, in the case of the present embodiment, these are remarkably improved also in the furnace.

[Effects of the Invention] As is clear from the above description, the high-speed treatment cremation method according to the present invention has an inner diameter of 1 to 1 which is directly injected to the incombustible portion of the incineration object.
A plurality of 5 mm injection nozzles were provided on the furnace wall, and high-pressure combustion air of 5 to 10 kg / cm ² was directly injected from the nozzles to the difficult-to-combustion part. The high-pressure fresh combustion air is supplied to the deep part of the difficult-to-combustion part of the incineration object, continuously peeling and renewing the carbide on the surface, and the fresh combustion air is directly supplied by perforation. It realizes remarkable activation of combustion, which can significantly shorten the incineration time, significantly reduce the fuel consumption, and make the furnace wall relatively thin to reduce the weight. In addition, the repair cost can be reduced, and further excellent effects such as complete incineration of black smoke and odorous gas can be obtained.

[Brief description of drawings]

The drawings show a cremation furnace for carrying out the high-speed treatment cremation method of the present invention. FIG. 1 is a sectional view, and FIG. 2 is A of FIG.
3 is a sectional view taken along line BB in FIG. 1. FIG. 1 ... Crematory furnace, 2 ... Incinerator room, 3 ... Reburning room, 4 ... Bogie, 5 ... Insulation door, 6 ... Oven wall, 7 ... Burner, 8,8 '... Injection nozzle, 9 ... Piping 10 ... Air supply source 11 ... Passage, 12 ... Burner

Claims (1)

[Claims] 1. A fuel supply burner is provided on a furnace wall facing an entrance of a truck on which an object to be incinerated in an incinerator is placed, and the object to be burned is provided on both sides of the oven wall in the traveling direction of the truck and a ceiling portion. A plurality of injection nozzles having an inner diameter of 1 to 5 mm for directly injecting into the flame-retardant portion, fuel is supplied from the above-mentioned burner for fuel supply, and the fuel is burned from the fuel injection nozzle toward the flame-retardant portion of the incinerator. A high-speed cremation method characterized by incinerating the incinerator while directly injecting 10 Kg / cm ² of high-pressure combustion air.