JPH1110117A - How to treat shredder dust - Google Patents

Abstract

(57) [Summary] [Problem] Shredder for plastics, glass, etc. generated when crushing waste such as automobiles and electric products and collecting iron scraps, which has been conventionally dumped as it is at a waste disposal site Provided is a method for treating shredder dust, which enables dust to be safely reused as a resource at low cost. SOLUTION: Shredder dust 3 is charged into an electric furnace for melting metal together with iron scrap and limestone and, if necessary, at least one of metal silicon and scale, and combustible materials such as plastics contained in shredder dust. As well as melting incombustible substances such as glass and discharging as slag.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for treating shredder dust such as plastics and glass generated when crushing waste such as automobiles and electric products and collecting iron scraps, and more particularly to shredder dust. The present invention relates to a method for treating shredder dust, which can be reused as a resource.

[0002]

2. Description of the Related Art Conventionally, wastes such as automobiles, washing machines, refrigerators, electric appliances such as televisions, etc. are composed of various types of materials. Therefore, in order to reuse them as resources, they are first crushed and separated for each material. And try to process it.

[0003]

Incidentally, in order to separate the crushed waste into materials, a sorting device utilizing the action of magnetic force such as a lifting magnet is usually used. Iron and aluminum are separated from objects and separated. However, in order to further separate plastics, glass, and the like, which cannot be separated by a separation device utilizing the action of magnetic force, for each material, it takes enormous amount of work and cost. , And were dumped as shredder dust at landfills and other waste disposal sites.

[0004] In view of the recent shortage of waste disposal sites and the demand for recycling, the present invention crushes wastes such as automobiles and electric products that have been dumped directly into waste disposal sites, and collects iron scraps. It is an object of the present invention to provide a method for treating shredder dust that enables safe and low-cost reuse of shredder dust such as plastics and glass generated at the time of the recycling.

[0005]

In order to achieve the above object, a method for treating shredder dust according to the present invention is characterized in that plastics generated when crushing waste such as automobiles and electric products and collecting iron scraps, Shredder dust such as glass is charged into an electric furnace for melting metal together with iron chips and limestone to burn inflammable materials such as plastics contained in shredder dust and to melt incombustible materials such as glass to form slag. It is characterized by being discharged as.

In this method for treating shredder dust, the shredder dust is charged into an electric furnace for melting metals together with iron swarf and limestone to incinerate combustible materials such as plastics contained in the shredder dust and to remove glass and the like. By melting incombustibles and discharging as slag,
The heat generated when incinerating combustible materials such as plastics can be used for heating the electric furnace, and incombustible materials such as glass can be reused as slag.

In this case, when charging the shredder dust into the electric furnace for melting metal, at least one of metal silicon particles and scale can be added together with iron chips and limestone. Here, "metal silicon grains"
Ferrisilicon FeSi and "scale"
Iron oxide FeO, diiron trioxide Fe ₂ O ₃ or triiron tetroxide Fe
One or more types of ₃ O ₄ are used.

[0008] Thus, the shredder dust having a small specific gravity is prevented from continuing to float on the molten steel, and the incombustible substances such as glass can be efficiently melted and turned into slag.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the method for treating shredder dust according to the present invention will be described below with reference to the drawings.

FIG. 1 shows an embodiment of the steps of the method for treating shredder dust of the present invention. In order to reuse the waste 1 such as a discarded automobile made of various materials, a discarded washing machine, a refrigerator, an electric product such as a television, etc. as a resource, it is crushed by a crusher into a size that can be easily processed.
Then, the crushed waste 1 is separated from the crushed waste 1 with iron scrap 2 and, if necessary, aluminum scrap by using a sorting device utilizing the action of a magnetic force such as a lifting magnet. Try to separate. This allows
Residues such as plastics and glass are left as the shredder dust 3 without being separated.

The shredder dust 3 left without being separated is separated from the previously separated iron scrap 2 or other iron scrap and limestone 5 and the shredder dust 3 having a small specific gravity on the molten steel 9 in a later step described later. If necessary, metal silicon particles (ferrisilicon FeSi) 6, scale ( iron oxide FeO, diiron trioxide Fe ₂ O ₃ or triiron tetraoxide Fe ₃ O ₄
Together with at least one of the above) (or one or more of them) 7. In this case, when the above materials are put into the charging basket 4, although not particularly limited, for example, iron chips, shredder dust, limestone, metal silicon particles, scale, and iron chips are stacked in this order. It is desirable to put in The amount of limestone, metal silicon particles and scale to be charged into the charging basket 4 is determined according to the amount of iron chips or shredder dust.

Next, when each of the above-mentioned materials charged into the charging basket 4 is charged into the metal melting electric furnace 8 by operating the charging basket 4, the shredder dust 3
In addition, combustibles such as plastics contained in the shredder dust 3 are incinerated in a high-temperature atmosphere in the electric furnace 8 by the action of a high-temperature arc generated from the electrodes of the electric furnace 8, and glass and the like are burned. The incombustibles are melted in the molten steel 9 at a high temperature of 1500 ° C. or higher and discharged as slag. At this time, metal silicon particles (ferrisilicon FeSi) charged into the electric furnace 8 together with the shredder dust 3
6 and scale (iron oxide FeO (melting point: 1377, specific gravity:
5.7), diiron trioxide Fe ₂ O ₃ (melting point: 1550, specific gravity: 5.1) or triiron tetroxide Fe ₃ O ₄ (melting point: 153)
8, one or more of specific gravity: 5.2)) 7 is shredder dust 3 (specific gravity of glass: 2) having a smaller specific gravity than iron (specific gravity: 7.8 (6.9 in a molten state)). .5-
Since 2.8) has an effect of preventing floating on the molten steel 9, the incombustible substances such as glass can be melted and slagged efficiently. Thereby, the heat generated when inflammable materials such as plastics are incinerated is used for heating the electric furnace 8, and incombustible materials such as glass can be reused as slag.

The combustion gas generated by incinerating combustible materials such as plastics contained in the shredder dust 3 in a high-temperature atmosphere in the electric furnace 8 passes from the electric furnace 8 through the back filter dust collector 10. It is released into the atmosphere in a detoxified state. Dust discharged together with the combustion gas from the electric furnace 8 is captured by the back filter dust collector 10. Further, metals such as lead Pb, chromium Cr, and zinc Zn contained in the shredder dust 3 and the like are oxidized and made harmless.

[0014]

According to the method for treating shredder dust of the present invention, shredder dust is charged into an electric furnace for melting metals together with iron chips and limestone, and combustible materials such as plastics contained in the shredder dust are incinerated. At the same time, the following effects can be obtained by melting non-combustible substances such as glass and discharging them as slag. (1) Shredder dust consisting of combustible materials such as plastics and incombustible materials such as glass can be processed as is with iron scraps without separating them for each material.
Shredder dust can be easily and safely processed, and the shredder dust processing cost can be reduced. (2) The heat generated when incinerating combustible materials such as plastics contained in shredder dust can be used for heating the electric furnace. (3) Non-combustible substances such as glass contained in shredder dust are melted, discharged as slag, and can be reused for various uses. (4) Combustible materials such as plastics contained in shredder dust are incinerated, and incombustible materials such as glass are melted and discharged and reused as slag. Only the dust discharged together with the dust collected by the back filter dust collector, and the volume of shredder dust can be reduced.

Further, when charging the shredder dust into the electric furnace for melting metal, by adding at least one of metal silicon particles and scale along with iron chips and limestone, the shredder dust having a small specific gravity floats on the molten steel. By preventing continuation, melting and slagging of incombustibles such as glass can be performed efficiently. It will be.

[Brief description of the drawings]

FIG. 1 is a flowchart showing one embodiment of a method for treating shredder dust of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Waste 2 Iron scrap 3 Shredder dust 4 Charging basket 5 Limestone 6 Silicon metal particles 7 Scale 8 Electric furnace for melting metal 9 Molten steel 10 Back filter dust collector

Claims (2)

[Claims] 1. Shredder dust, such as plastics and glass, generated when crushing waste such as automobiles and electric products and collecting iron chips together with iron chips and limestone is charged into an electric furnace for melting metals. A method for treating shredder dust, comprising incinerating combustible materials such as plastics contained in shredder dust and melting and discharging incombustible materials such as glass as slag. 2. The shredder dust treatment according to claim 1, wherein when charging the shredder dust into the electric furnace for melting metal, at least one of metal silicon particles and scale is added together with iron chips and limestone. Method.