JP6888965B2 - How to process recycled materials - Google Patents

Description

The present invention relates to a method for treating recycled raw materials such as incinerator ash of general household waste, parts scraps of electronic and electrical products, and shredder dust.

Recycled raw materials generally include copper, zinc, and valuable metals such as gold, silver, platinum, and palladium. The recovery of these metals is also important from the viewpoint of resource saving by recycling resources.
Various studies and developments have been made in the past as methods for recovering valuable metals such as copper from recycled raw materials. For example, Patent Document 1 is characterized in that scraps containing valuable metals are charged into a flash smelting furnace for copper ore smelting from the shaft ceiling, and the valuable metals are collected in a mat staying in the furnace. A method for recycling valuable metals from scraps is disclosed. According to such a configuration, since scrap processing is combined with copper smelting in a copper smelting flash smelting furnace, valuable metals can be recovered at low cost even from scraps having a low valuable metal content. Are listed.

Japanese Unexamined Patent Publication No. 9-78151 Japanese Unexamined Patent Publication No. 2003-320311

However, when the recycled raw material contains a large amount of aluminum, there are problems that the processing load by the flash smelting furnace becomes large due to the presence of aluminum and the recovery efficiency of valuable metals such as copper deteriorates.
Specifically, when recovering valuable metals by a self-melting furnace, the valuable metals are taken into a mat held in the furnace, and iron and aluminum are slagged and separated, but recycled raw materials containing a large amount of aluminum are processed. In this case, aluminum is oxidized and exists in the slag as a melt of aluminum oxide, which may adversely affect the viscosity of the slag and the like. If the slag does not have a predetermined viscosity, it will be difficult to separate the slag from the mat, which will reduce the recovery rate of valuable metals.

Therefore, it is considered preferable to separate and remove the aluminum contained in the recycled raw material prior to recovering the valuable metal from the recycled raw material.

Therefore, the recycled raw material is crushed to a certain size, and then aluminum is separated and removed through sorting steps such as eddy current sorting and sorting by an air table (Patent Document 2). The separated and removed recycled raw materials are disposed of as recycled raw materials with a high concentration of aluminum. However, recycled materials with a high concentration of aluminum often contain valuable metals, especially precious metals. For example, some capacitors and heat sinks that are separated as parts with a high concentration of aluminum are plated with precious metals, and some parts are crushed and the precious metal bites into the scraps of parts. These are physical. It cannot be separated by sorting. In addition, although efforts are made to separate only aluminum from crushed recycled raw materials, precious metals may be contained in the separated aluminum. These recycled raw materials with a high concentration of aluminum are conventionally treated as recycled raw materials for aluminum, but when precious metals are contained, it is important to recover the precious metals. And aluminum needs to be treated, but no concrete measures have been found.
An object of the present invention is to provide a treatment method for separating and recovering a noble metal from aluminum from a recycled raw material containing a noble metal and having a high concentration of aluminum, and at the same time treating aluminum.

The inventor of the present invention processes a recycled raw material containing a noble metal and having a high concentration of aluminum in a melting furnace, oxidizes the aluminum and makes it a component of a molten slag layer to remove it from the system, and at the same time melts the noble metal. It was found that precious metals can be recovered from the mat by using a normal recovery technique by blending it into the metal layer or mat layer.
That is, it is a method for treating a recycled raw material containing a noble metal and containing 6% by mass or more of aluminum in a melting furnace to separate and remove aluminum and the noble metal. It is a method for treating a recycled raw material, which comprises having a mat layer or a metal layer and a slag layer.
Further, the noble metal in the recycled raw material is dissolved in the mat layer or the metal layer, and the aluminum in the recycled raw material is taken into the slag layer.
Further, in the treatment method of the present invention, it is preferable that the metal component of the mat layer or the metal layer is copper.
Further, in the treatment method of the present invention, it is preferable to recover the noble metal from the mat obtained by cooling the mat layer after melting.
Further, it is preferable that the recycled raw material containing a noble metal and containing 6% by mass or more of aluminum is a raw material in which aluminum is concentrated through a crushing step and a sorting step.

According to the treatment method of the present invention, aluminum contained in a recycled raw material can be removed from the system by slagging, and valuable metals such as precious metals can be efficiently recovered.

It is sectional drawing of the melting furnace which melts and forms a slag layer and a mat layer.

Subsequently, the best embodiment of the processing method of the present invention will be described.
FIG. 1 is a cross-sectional view of a melting furnace 1 that melts to form a slag layer and a mat layer.
In the figure, 10 is a melting part maintained at a temperature of 1300 to 1400 ° C., 11 is a raw material input port, 13 is a mat layer, 14 is a slag layer, 15 is a burner tile, 16 is a combustion flame, and 18 is a hot water pool. Is.
In the melting furnace in FIG. 1, raw materials 30 are appropriately charged from two rows on both sides of the ceiling portion, for a total of four input ports 11, and the deposited raw materials (deposits 40) are heated by a burner using heavy oil or the like as fuel. It is melted.
In FIG. 1, when melted, it flows as a melt 41 to the pool portion, and the oxide is separated as the slag layer 14 and the sulfide is separated as the mat layer 13 in the pool portion.
The raw material can be heated as a deposit 40 to form a melt 41, or can be directly charged into the slag layer from the raw material input port 20.
The melting furnace used in the present invention may melt the recycled raw material to form a slag layer and a mat layer, and does not necessarily have the structure shown in FIG. For example, a melting furnace such as a tilting reverberatory furnace capable of directly refining blister copper (black copper or the like), a shaft furnace with a hearth, an oval furnace, a drum furnace, an upper blowing type converter, etc. is also used in the present invention. Can be done.
Further, the melting furnace may be a melting furnace in which a metal layer is formed instead of the mat layer.
It is desirable that the melting furnace as described above is a furnace intended to process only recycled raw materials.

The present invention is to put a recycled raw material containing a noble metal and having a high concentration of aluminum into a melting furnace having a slag layer and a mat layer or a metal layer (hereinafter, referred to as "mat layer or the like") for processing. As for charging, as shown in FIG. 1, the raw material once deposited is heated and melted by a burner and then flows into the slag layer and the mat layer, and the raw material is directly charged into the molten slag layer and the mat layer. There are cases.
The aluminum contained in the charged recycled raw material is melted and then oxidized to aluminum oxide, which is incorporated into the slag layer as a component constituting the slag. Therefore, it is preferable to keep the temperature of the melting furnace at 1300 to 1400 ° C. When Fe is contained in the raw material, the formation of _{magnetite (Fe 3} O _{4), which deteriorates the slag viscosity, can be suppressed by lowering the oxygen potential in the furnace.} Further, treatment with other raw materials containing a large amount of components that lower the melting point of slag, such as asbestos, SiO ₂ , sludge, CaO, etc., is also effective as a method for suppressing deterioration of slag viscosity due to aluminum. The grade of aluminum oxide (Al ₂ O ₃ ) in the slag may be 5% by mass or more. On the other hand, valuable metals such as precious metals are either melted and incorporated into the mat layer or the like, or melted in the mat layer or the like and incorporated into the mat layer 13. Sulfur may be added to form a matte layer in the melting furnace for the convenience of subsequent treatment. The quality of the mat layer is preferably 20 to 60% by mass (as the mass of sulfide).
A typical matte layer in the process of processing recycled materials is copper sulfide.

The mat layer and the like are discharged from the melting furnace in a molten state and then cooled. The cooled mat layer or the like is crushed as necessary and brought into the smelting process of the metal components constituting the mat layer or the like to recover the target metal and in the valuable metal recovery step accompanying the process. , Precious metals are recovered. For example, if the mat layer or the like is copper or copper sulfide, it is brought into the copper smelting process. Specifically, the mat of the present invention is put into a flash smelting furnace, and when copper is produced in the electrolytic step, the noble metal becomes an electrolytic precipitate and is recovered in the noble metal recovery step.
On the other hand, the slag layer is discharged and then cooled. The cooled slag is crushed as needed and sold outside or disposed of as it is, and as a result, the aluminum contained in the recycled raw material can be removed from the system as slag.

The "recycled raw material" in the present invention is a raw material for the purpose of recycling industrial waste such as incineration ash, asbestos and sludge of general household waste, parts waste of electronic and electrical products, shredder dust of automobiles and the like. Then, for the purpose of removing aluminum from these, a recycled raw material containing a large amount of removed aluminum (high concentration of aluminum) obtained by appropriately performing treatments such as drying, magnetic force sorting, sieving, pulverization, and eddy current sorting is the present invention. It is a "recycled raw material with a high concentration of aluminum containing precious metals". The amount of aluminum contained in the recycled raw material is preferably 6% by mass or more, more preferably 15% by mass or more, still more preferably 30% by mass or more. In particular, in the present invention, a crushed recycled raw material is selected and has a high aluminum concentration and contains a noble metal, and further, a raw material that should be processed as a recycled aluminum raw material and contains a precious metal It is effective for. Therefore, in the present invention, prior to processing the recycled raw material in the melting furnace, it is preferable to go through a step of selecting the crushed recycled raw material to obtain a raw material having a high aluminum concentration and containing a noble metal. When undergoing such a sorting step, the raw material having a high aluminum concentration and containing a noble metal is preferably one containing 95% by mass or more of aluminum, which is conventionally treated as a raw material for recycling aluminum as it is.

10 Melting part 11 Raw material input port 13 Matte layer or metal layer 14 Slag layer 15 Burner tile 16 Combustion flame 18 Hot water pool part 20 Raw material input port 30 Raw material 40 Sediment 41 Melt 50 Gas

Claims (5)

It is a recycled raw material obtained by eddy current sorting , and is a furnace for processing only recycled raw materials containing recycled raw materials containing noble metals and containing 15% by mass or more of aluminum, and the melt is a mat layer. Alternatively, a method for treating a recycled raw material, which comprises separating aluminum and a noble metal by keeping the temperature of the furnace at 1300 to 1400 ° C. in a melting furnace having a metal layer and a slag layer. The method for treating a recycled raw material according to claim 1, wherein in the melting furnace, the noble metal in the recycled raw material is melted into the mat layer or the metal layer, and aluminum in the recycled raw material is taken into the slag layer. The method for treating a recycled raw material according to claim 1 or 2, wherein the metal component of the mat layer or the metal layer is copper. The method for treating a recycled raw material according to any one of claims 1 to 3, wherein the noble metal is recovered from the mat obtained by cooling the mat layer after melting. The invention according to any one of claims 1 to 4, wherein the recycled raw material containing a noble metal and containing 15 % by mass or more of aluminum is a raw material in which aluminum is concentrated through a crushing step and an eddy current sorting step. How to process recycled raw materials.

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