JP3145306U - Waste incineration heat utilization equipment - Google Patents

Abstract

Disclosed is a waste incineration heat utilization device that reduces the cost of melting aluminum by using incineration heat and efficiently recycles aluminum by reducing CO ₂ .
A waste incineration heat utilization apparatus (1) includes an incinerator (2), an aluminum melting furnace (3) downstream thereof, a recombustion chamber (4) disposed between the incinerator (2) and the aluminum melting furnace (3), an aluminum melting furnace. A cyclone dust collector 5 disposed on the downstream side of the furnace 3, a water-cooled heat exchanger 6, a temperature reducing tower 7 disposed further downstream thereof, and a bag filter disposed further downstream thereof 8 is the main component.
[Selection] Figure 1

Description

  The present invention relates to a waste incineration heat utilization device that dissolves aluminum using incineration heat generated by incineration of waste.

Conventionally, as disclosed in Patent Document 1, there is a power generation system using waste incineration heat configured to generate power using waste incineration exhaust heat.
JP-A-9-203305

In the system disclosed in Patent Document 1, power generation is performed using waste incineration heat, and heat is generated by introducing heat from the incinerator into a steam turbine.
By the way, in recent years, aluminum is used in many fields such as engine parts, and scraps such as aluminum engine parts are collected by an aluminum recycler, melted, and reused as an aluminum ingot. However, in the aluminum recycling process, a lot of energy is used to dissolve the aluminum, and it is expensive to recycle the aluminum. Moreover, a large amount of CO ₂ is generated. was there.

The present invention aims to provide a waste incineration heat utilization device that can reduce the melting cost of aluminum, efficiently recycle aluminum, and reduce the generation of CO ₂ , and achieves at least a part of this object. The following measures were taken for this purpose.
The gist of the waste incineration heat utilization apparatus of the present invention is a combination of an incinerator for incinerating waste and an aluminum melting furnace for melting aluminum using the incineration heat generated in the incinerator. .

In the waste incineration heat utilization device of the present invention, waste can be incinerated in an incinerator and aluminum can be melted in the aluminum melting furnace using the generated incineration heat, and aluminum is melted using the incineration heat. Therefore, aluminum can be efficiently recycled by reducing the melting cost of aluminum and reducing the generation of CO ₂ .

Moreover, the waste incineration heat utilization apparatus of this invention can also be set as the structure which provided the recombustion chamber between the said incinerator and the said aluminum melting furnace.
If it carries out like this, the incineration heat from an incinerator can be heated up in a recombustion chamber, and it can supply to an aluminum melting furnace.

Moreover, the waste incineration heat utilization apparatus of this invention can also be comprised so that high temperature of 850 degreeC or more may be obtained in the said recombustion chamber.
If it carries out like this, a thermal decomposition process can be performed in a recombustion chamber at high temperature of 850 degreeC or more, and dioxins can be suppressed.

In the waste incineration heat utilization apparatus of the present invention, the waste to be incinerated in the incinerator may be mainly waste plastic.
If it carries out like this, waste plastic can be incinerated favorably, and high-temperature incineration heat can be obtained continuously by incineration of waste plastic.

Moreover, the waste incineration heat utilization apparatus of this invention WHEREIN: The said incinerator can also be set as the structure provided with the waste oil spraying part which can spray waste oil inside.
If it carries out like this, waste oil is collect | recovered separately, waste oil can be sprayed from a waste oil spraying part in an incinerator, and waste oil can be burned favorably in an incinerator.

Moreover, in the waste incineration heat utilization apparatus of the present invention, the aluminum melting furnace is an aluminum melting spiral furnace, and it is also possible to mainly melt aluminum scrap inside.
By doing so, it is possible to efficiently dissolve aluminum scrap in an aluminum melting spiral furnace.

Moreover, the waste incineration heat utilization apparatus of this invention can also be set as the structure by which the dust collector is arrange | positioned in the downstream of the said aluminum melting furnace.
By doing so, the exhaust gas becomes clean and environmental pollution can be suppressed.

Next, the best mode for carrying out the present invention will be described with reference to examples.
FIG. 1 is a schematic arrangement configuration diagram of a waste incineration heat utilization device, and FIG. 2 is a block configuration diagram of a main part.

  The waste incineration heat utilization apparatus 1 includes an incinerator 2, an aluminum melting furnace 3 downstream thereof, a recombustion chamber 4 disposed between the incinerator 2 and the aluminum melting furnace 3, and a downstream of the aluminum melting furnace 3. Mainly a cyclone dust collector 5 disposed on the side, a water-cooled heat exchanger 6, a temperature reducing tower 7 disposed further downstream thereof, and a bag filter 8 disposed further downstream thereof. It is configured.

The incinerator 2 is provided with a solid material input device 9, and waste plastics, wood waste, paper waste, rubber waste and other waste materials are input into the solid material input device 9 from a pit (not shown). Waste is sequentially put into the incinerator 2 from the machine 9 and incinerated.
The incinerator 2 includes an ignition burner 10 for ignition, a pushing fan 11 for introducing air into the interior, and a waste oil spray that can introduce waste oil stored in a waste oil tank (not shown) and spray the waste oil into the incinerator 2. A reburning burner 13 is provided on the upper end side of the heat port 2a.

A discharge port 2b is provided on the lower end side of the incinerator 2, and the burning husk is configured to be discharged from the discharge port 2b.
In the incinerator 2, waste plastics are mainly incinerated, so that high-temperature incineration heat is continuously introduced into the recombustion chamber 4 from the upper heat port 2a. In the recombustion chamber 4, a thermal decomposition process can be performed at a high temperature of 850 ° C. or higher to suppress dioxins.
The high-temperature incineration heat of 850 ° C. or more coming out of the recombustion chamber 4 is introduced into the aluminum melting furnace 3, and the aluminum scrap such as aluminum processing scrap, aluminum cans, and aluminum engine parts is hot in the aluminum melting furnace 3. It is melted using the heat of incineration.

The aluminum melting furnace 3 can be constituted by an efficient aluminum melting spiral furnace, for example.
In addition, in order to maintain the high temperature in the aluminum melting furnace 3, the auxiliary burner 3a can also be provided.
Aluminum scrap or the like melted in the aluminum melting furnace 3 is taken out as an aluminum ingot and reused as an aluminum raw material for use in the production of aluminum products again.

  A cyclone dust collector 5 is provided on the downstream side of the aluminum melting furnace 3, a water-cooled heat exchanger 6 is further provided on the downstream side, and a fan 14 is further provided on the downstream side. Can be made clean.

In addition, the exhaust gas from the recombustion chamber 4 and the exhaust gas that has passed through the fan 14 merge and flow into a temperature reducing tower 7 provided on the downstream side. The temperature reducing tower 7 is provided with a temperature reducing water tank 7a, and is configured to rapidly cool the exhaust gas to 200 ° C. or lower in the temperature reducing tower 7 to prevent resynthesis of dioxins in the exhaust gas. Yes.
Further, the bag filter 8 on the downstream side of the temperature reducing tower 7 is equipped with a high-performance filter and can remove submicron dust well. The exhaust gas passing through the bag filter 8 is extremely clean. And is discharged into the atmosphere through a chimney (not shown).

  In the waste incineration heat utilization apparatus 1 of this example, wastes that mainly generate high temperatures of waste plastics are combusted in the incinerator 2 to generate high temperature incineration heat, and this incineration heat is introduced into the aluminum melting furnace 3. Then, aluminum scrap such as engine parts can be melted in the aluminum melting furnace 3 to produce an aluminum ingot, which can be reused as an aluminum raw material, greatly reducing the cost for melting aluminum. Aluminum can be recycled efficiently.

In this way, waste can be treated well and it can be efficiently performed by reducing the recycling cost of aluminum, and the waste intermediate treatment industry and aluminum recycling industry can be carried out simultaneously and efficiently, Can contribute to CO ₂ reduction.

It is a schematic arrangement block diagram of a waste incineration heat utilization apparatus. It is a block block diagram of the principal part of a waste incineration heat utilization apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Waste incineration heat utilization apparatus 2 Incinerator 2a Heat port 2b Discharge port 3 Aluminum melting furnace 3a Auxiliary burner 4 Recombustion chamber 5 Dust collector 6 Heat exchanger 7 Heat-reduction tower 7a Temperature-reduction water tank 8 Bag filter 9 Solid substance input Machine 10 Ignition burner 11 Pushing fan 12 Waste oil spraying part 13 Reburning burner 14 Fan

Claims (7)

  A waste incineration heat utilization device comprising a combination of an incinerator for incinerating waste and an aluminum melting furnace for melting aluminum using incineration heat generated in the incinerator.   The waste incineration heat utilization apparatus according to claim 1, wherein a recombustion chamber is provided between the incinerator and the aluminum melting furnace.   The waste incineration heat utilization apparatus according to claim 2, configured to obtain a high temperature of 850 ° C. or higher in the recombustion chamber.   The waste incineration heat utilization apparatus according to claim 1, wherein the waste to be incinerated in the incinerator is mainly waste plastic.   The waste incineration heat utilization apparatus according to claim 1, claim 2, claim 3, or claim 4, wherein the incinerator is provided with a waste oil spraying section capable of spraying waste oil inside.   The said aluminum melting furnace is an aluminum melting spiral furnace, and mainly melts aluminum scrap inside, The Claim 1 or Claim 2 or Claim 3 or Claim 4 or Claim 5 characterized by the above-mentioned. Waste incineration heat utilization equipment.   The dust collector is arrange | positioned in the downstream of the said aluminum melting furnace, The claim 1, 2 or 3, The claim 4, or the claim 5 or 6 Waste incineration heat utilization equipment.

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