JP2000119670A - Organic medium for immersion treatment of polymer- containing composite waste material and method for treatment of the waste material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an organic medium for treatment of a polymer-containing composite waste material and a method for treating the waste material that can recover a polymer at a high recovery by immersing a polymer-containing composite waste material in the organic medium comprising a hydrocarbon compound as the main component and removing a floating polymer. SOLUTION: Hydrocarbon compound of 100 pts.wt. is mixed with 5-60 pts.wt., preferably 10-50 pts.wt. solid particles having an average particle size of 10-1,000 μm, preferably 20-100 μm and a density of not less than 1.5 g/cm3 to produce an organic medium for treatment of a polymer-containing composite waste material having a density of not less than 1.2 g/cm3. The organic medium is heated and melted to a temperature of 200-400 deg.C, preferably 250-350 deg.C and thereafter a pulverized polymer-containing composite waste material is immersed in the organic medium for 0.5-30 min, preferably 1.5-15 min, whereby a polymer that is separated from the polymer-containing composite waste material and floats up on the liquid level of the organic medium is removed to recover the polymer. Besides, a metal or other inorganic materials that precipitate in the organic medium is also recovered.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an organic medium for immersion treatment of a polymer-containing composite waste and a method of treating a polymer-containing composite waste. According to the present invention, for example, waste plastic and polymer-containing composite waste in the form of intricate metals and various types of plastics, such as waste automobiles and waste home appliances,
Alternatively, shredder dust and the like, which are crushed materials, can be effectively treated.

[0002]

2. Description of the Related Art In recent years, synthetic resins such as plastics have been increasing as industrial wastes and general wastes, and their disposal has become a serious social or environmental problem. In particular, shredder dust generated from end-of-life vehicles and home appliances is a mixture of various substances,
In addition to plastic, metal, rubber, wood, paper, and / or glass are included, and the bulk density is low and it is very difficult to handle. There are various problems in the treatment of such polymer-containing composite wastes. For example, plastic as a component thereof has a high calorific value generated at the time of combustion, and damages the incinerator wall when incinerated. For this reason, a dedicated incineration facility was required, and a technology for collecting and fixing harmful metals such as zinc and lead contained in dust was also required. For these reasons, at present, it is common to dump the polymer-containing composite waste. However, dumping causes deterioration of the landfill and is environmentally unfavorable. In recent years, along with the rise in disposal costs, securing land for landfills has become a social problem. For this reason, there is a long-awaited need to develop a large-scale treatment method for polymer-containing composite waste (eg, shredder dust) without dumping. Have been.

As a method of treating a polymer-containing composite waste, a vegetable oil or a mineral oil is heated, a polymer-containing composite waste is charged and softened and dissolved, the floating plastic is taken out, and the waste oil is taken out of the taken-out molten plastic. In addition, a method for treating a polymer-containing composite waste which is liquefied and separated into a liquefied fuel and a solid fuel (JP-A-4-270793)
JP) or an edible oil waste liquid as a solvent to remove an adhesive resin (such as polyethylene) from a metal material,
Method for extracting metal (Japanese Patent Laid-Open No. 5-17041)
It has been known. Further, as a similar method, the polymer-containing composite waste is mixed with waste oil such as waste engine oil, waste lubricating oil, waste cleaning oil, and / or waste solvent, and then mixed with the waste oil for 100 to 20 times.
Heating at 0 ° C. for 30 to 120 minutes to extract polyethylene, polypropylene and polystyrene contained in the polymer-containing composite waste, and a method for treating the polymer-containing composite waste using the obtained extracted waste oil as a fuel (Japanese Patent Laid-Open No. 9-
268297) is also known.

[0004]

SUMMARY OF THE INVENTION These prior arts are:
A plastic is separated from a composite of a specific resin and a metal by a specific medium, and the plastic is reused.For example, a low recovery rate when floating plastic is separated or a separation time There are many problems such as an increase in Furthermore, in order to economically separate and recover metals, inorganic substances, plastics, and solvents, efficient separation and regeneration of metals, inorganic substances, or plastics and solvents are indispensable. The point is not considered.

More specifically, Japanese Patent Application Laid-Open Nos. Hei 4-270793, Hei 5-14741, and Hei 9-2
In each of the methods described in Japanese Patent No. 68297, in order to dissolve a plastic component (eg, polyethylene, polypropylene, or polystyrene) in a hydrocarbon oil such as waste oil at a temperature at which the plastic component does not decompose, the viscosity of the hydrocarbon oil is gradually increased. Or the viscosity of the solvent tends to gradually increase because of oxidation of the solvent. When the viscosity is increased, the separability from the insoluble polymer is deteriorated, or not only does the solid-liquid separation operation become difficult to perform, but also when used as a fuel oil, the treated oil itself becomes sticky, It may aggregate on the inner surface of the pipe, induce blockage, and cause problems in handling. In addition, hydrocarbon oil is unsuitable as a separation liquid in the first place because its specific gravity is almost the same as that of a polymer.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to solve the above-mentioned disadvantages of the prior art, and to treat a polymer-containing composite waste composed of various materials at a high recovery rate even from the waste. It is an object of the present invention to provide a method and an organic medium for immersion treatment of a polymer-containing composite waste which can be used for the method.

[0007]

The object of the present invention is to provide a fuel cell system comprising a hydrocarbon compound as a main component and a density of 1.2 g / c according to the present invention.
and characterized in that m ³ or more, it can be solved by the polymer-containing composite waste immersed for organic media.
Further, the present invention provides that the polymer-containing composite waste is immersed in the heat-melted organic medium to remove the polymer separated from the polymer-containing composite waste and floating on the liquid surface of the organic medium. The present invention relates to a method for treating polymer-containing composite waste, which is characterized by the following.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION In the present specification, "polymer-containing composite waste" means a waste containing a polymer and a material other than the polymer. The polymer includes, for example, plastics (eg, polyethylene, polypropylene,
Polystyrene, or polyvinyl chloride), synthetic rubber (eg, butadiene or isoprene rubber) or natural rubber, synthetic or natural fibers, paints, or adhesives. Materials other than polymers include inorganic materials, such as metal materials (eg, iron, copper, aluminum, zinc,
Lead, nickel, or chromium, or alloys thereof, or non-metallic inorganic materials (eg, carbon black, talc, calcium carbonate, silica, or glass). The state of each material contained in the polymer-containing composite waste is also not particularly limited, for example,
Each material can be a combined material, or each material can be a mixed material.

The type of the polymer-containing composite waste that can be treated according to the present invention is not limited. For example, the present invention can be applied to a waste car, a waste home appliance, a waste OA device, and the like. These polymer-containing composite wastes can be treated as they are, or can be applied in a state where they have been appropriately treated, for example, in the form of shredder dust. Shredder dust refers to scrapped vehicles, scrapped home appliances, scrapped OA equipment, etc.
For example, it is crushed waste with a shredder, a guillotine, a shear, or the like, after collecting metals that can be removed by a simple operation. Its main component is plastic, fiber, iron, copper, aluminum, rubber, glass or the like.

The organic medium for immersion treatment of a polymer-containing composite waste according to the present invention comprises, as a main component, a hydrocarbon compound (ie, a saturated or unsaturated aliphatic hydrocarbon compound, an aromatic hydrocarbon compound, an aromatic-aliphatic hydrocarbon). Compound, alicyclic hydrocarbon compound, or alicyclic-aliphatic hydrocarbon compound), or one or more of the hydrocarbon compound and one or more solid particles. The density of the organic medium for immersion treatment of the polymer-containing composite waste according to the present invention is 1.2 g / cm ³ or more, and preferably 1.25 g / cm ³ or more. The upper limit of the density is preferably 2 g / cm ³ or less from the viewpoint that glass and the like can be settled. As used herein, the term “main component” refers to 60% by weight in an organic medium for immersion treatment of a polymer-containing composite waste.
The above means that the content is preferably 80% by weight or more. The hydrocarbon compound used as a main component of the organic medium for immersion treatment of a polymer-containing composite waste according to the present invention, as an atom other than a carbon atom and a hydrogen atom, for example,
It may contain an oxygen atom, a nitrogen atom, a silicon atom, or a halogen atom.

The organic medium for immersion treatment of polymer-containing composite waste according to the present invention can be present as a liquid at (1) the immersion treatment temperature, and (2) the polymer separated by the immersion treatment can be used in blast furnace operation. No harmful components such as harmful alkali salts are mixed. (3) At the above-mentioned immersion treatment temperature, at least almost no decomposition other than dechlorination of vinyl chloride occurs, and physical properties such as viscosity thereof are not largely changed. ,
And (4) the polymer separated by the immersion treatment is dispersed as uniformly as possible without dissolving much in the organic medium. In addition, since the viscosity is low, the operation of separating the polymer is easy, and the polymer has a higher density than the polymer to be separated, so that the recovery rate of the polymer can be improved.

The organic medium for immersion treatment of a polymer-containing composite waste according to the present invention containing a hydrocarbon compound and solid particles as main components is, for example, a conventionally known organic medium generally used in a method of treating a polymer-containing composite waste. Hydrocarbon oils,
It can be prepared by mixing the solid particles with an appropriate ratio. Examples of the hydrocarbon oil include, for example, petroleum-based or coal-based heavy oil, and specifically, for example, reduced-pressure heavy oil, ethylene bottom oil, coal tar heavy oil, or coal liquefied oil heavy oil. it can.

Further, the solid particles exist as solids which are stable at the immersion treatment temperature, and are uniformly dispersed in the molten hydrocarbon compound to form a homogeneous system (in terms of density) of the hydrocarbon compound and the solid particles. The particles are not particularly limited, as long as they are particles capable of forming the particles. For example, inorganic solid particles such as ferrosilicon powder, magnetite powder, silica powder, and carbon black can be used. In the method of the present invention using the organic medium for immersion treatment of polymer-containing composite waste according to the present invention, the immersion treatment temperature refers to the method of mixing the polymer-containing composite waste in the organic medium for immersion treatment of polymer-containing composite waste that has been heated and melted. This is the temperature of the organic medium for immersion treatment of the polymer-containing composite waste during immersion.

The particle size of the solid particles is not particularly limited as long as it is a particle size that can be uniformly dispersed in the molten hydrocarbon compound, but the average particle size is preferably 10 μm to 1 μm.
000 μm, more preferably 20 μm to 100 μm. If the average particle size exceeds 1000 μm, it may be difficult to uniformly disperse the solid particles in the hydrocarbon compound. Further, the density of the solid particles is preferably 1.5 g / cm ³ or more. The density of the solid particles is 1.5 g /
If it is less than ³ cm ³ , it is difficult to increase the density to 1.2 g / cm ³ or more when preparing an organic medium for immersion treatment of polymer-containing composite waste by mixing solid particles and a hydrocarbon compound. May be.

When mixing the hydrocarbon compound and the solid particles, the content ratio of the solid particles is appropriately adjusted to prepare an organic medium for immersion treatment of the polymer-containing composite waste according to the present invention having a predetermined density. Can be. Regarding the content ratio of the solid particles, the solid particles were converted to hydrocarbon compound 10
It is preferably added in an amount of 5 to 60 parts by weight, particularly preferably 10 to 50 parts by weight, based on 0 part by weight. If the amount is less than 5 parts by weight, the density may not be adjusted to 1.2 g / cm ³ or more. When the amount exceeds 60 parts by weight, phase separation occurs or the viscosity at the immersion temperature increases,
This can be a problem for solid-liquid separation.

The organic medium for immersion treatment of a polymer-containing composite waste according to the present invention containing only a hydrocarbon compound as a main component has a density (when two or more kinds of hydrocarbons are contained, the density as a mixture thereof). It can be prepared by selecting a hydrocarbon compound of 1.2 g / cm ³ or more. Examples of such a hydrocarbon compound include coal tar pitch or petroleum-based residual oil, or a polymerized or gelled product thereof.

The organic medium for immersion treatment of a polymer-containing composite waste according to the present invention can be used, for example, in the method for treating a polymer-containing composite waste according to the present invention. In addition,
The method of the present invention is a method of treating a polymer-containing composite waste. However, in the object to be treated, the object to be treated other than the polymer-containing composite waste (for example, does not contain a plastic product consisting of only a polymer or a polymer) Even if waste is included, the method of the present invention can be applied as it is without removing it.

The method of the present invention can be directly applied to a conventionally known method of treating a polymer-containing composite waste, except that the organic medium for immersion treatment of the polymer-containing composite waste according to the present invention is used as the organic medium. For example, when the polymer-containing composite waste is immersed in the heated and melted organic medium according to the present invention, the polymer contained in the polymer-containing composite waste is melted and separated in the organic medium.

The immersion temperature in the method of the present invention can be appropriately determined according to the type of the polymer contained in the polymer-containing composite waste to be treated so that melting and separation of the polymer proceed sufficiently. Generally, about 200-400 ° C. is suitable, preferably about 250-400 ° C.
350 ° C.

The immersion treatment time in the method of the present invention is appropriately set so that melting and separation of the polymer proceed sufficiently depending on the type or treatment amount of the polymer contained in the polymer-containing composite waste to be treated. It can be determined, and usually about 0.5 to 30 minutes is suitable, preferably about 1.5 to 15 minutes. Further, in the method of the present invention, the immersion treatment is preferably performed in a non-oxidizing gas (eg, nitrogen gas) atmosphere. By performing the immersion treatment in a non-oxidizing gas atmosphere, generation of harmful organic chlorine compounds such as dioxin can be prevented.

As a result of the immersion treatment, the polymer contained in the polymer-containing composite waste exhibits various melt-separation behaviors depending on the type, but most of the polymer melts, and in some types of polymer, May cause gasification. For example, in the case of a polyvinyl chloride-based resin, almost all of the chlorine atoms can be removed as HCl gas. In the organic medium for immersion treatment of a polymer-containing composite waste according to the present invention, most of the polymer separated from the melt-separated polymer floats, so that the polymer separated by floatation can be easily recovered. Further, as compared with the conventional method, the separation time is also shortened, so that the entire processing time is shortened, and the polymer-containing composite waste can be rapidly processed. The recovered polymer, as it is, or after separating the organic medium attached to the recovered polymer,
For example, it can be used as a blast furnace reducing material. Further, the recovered polymer can be used after being crushed to a size of about 10 mm.

On the other hand, metals or other inorganic materials that have settled in the organic medium (for example, in an immersion tank) can also be removed from the organic medium and recovered. Normal,
Since the obtained main metal is iron, it is preferable to selectively collect and recover iron from the immersion tank using a magnetic separator. From the iron content taken out, the attached organic medium, for example,
It can be removed by hammering or removed by spraying with steam. If the empty volume of the recovered iron is large, it is preferable that the iron is compressed to an appropriate size by a press or the like so that a melting furnace for melting the recovered iron can be used efficiently. Metals such as copper and zinc that settle in the immersion tank can be recovered, for example, by extracting from the immersion tank. Further, since the non-ferrous inorganic material powder such as carbon black is dispersed and suspended in the organic medium, it can be collected by filtration, for example.

[0023]

EXAMPLES The present invention will be described below in more detail with reference to examples, but these examples do not limit the scope of the present invention.

Example 1 (1) Production of metal composite plastic A cylindrical steel bar (diameter = 20 mm, length = 20 mm) was made of polypropylene or polyethylene (outer diameter = 30 mm, side surface).
Metal composite plastics wrapped in (inner diameter = 20 mm, length = 20 mm) were produced by hot molding, and these were used as polymer-containing composite waste samples in this example and the following examples and comparative examples.

(2) Immersion treatment of metal composite plastic The immersion tank containing 1 liter of coal tar pitch (density = 1.2 g / cm ³ ) was heated to 280 ° C. under nitrogen flow, and the above Example 1 was used. One metal composite plastic produced in (1) was immersed in an immersion tank under a nitrogen atmosphere, and heat treatment was performed at the above temperature for 5 minutes. After the heat treatment, the plastic floated on the liquid surface, which was recovered, and subsequently the settling steel bar was pulled up.

The results of the recovery rate of the recovered plastic and the plastic separation rate from the steel bar (hereinafter, sometimes referred to as the steel bar separation rate) are shown together with the results of Examples 2 to 3 and Comparative Example 1 below. It is shown in Table 1. The plastic recovery rate and the steel bar separation rate were calculated by the following formulas: (Plastic recovery rate) = (F / P _C ) × 100.
(%) Wherein, F is a "floating product recovered amount", P _C denotes respectively the "plastic amount of polymer-containing composite waste sample"]; (steel bar separation factor) = {(C-S) / P _C ｝ × 100 (%) [where C is the amount of the polymer-containing composite waste sample]
The "steel bars collected amount" a means respectively, the P _C is the same as defined above equation. In the above calculation formula, the “float collection amount” is the weight after the organic medium has been washed and removed with a solvent, and the “rice husk amount” is assumed to be unchanged before and after the treatment.

[0026]

Example 2 Coal tar heavy oil (density = 1.1 g / c)
m ³ ), 10 parts by weight to 90 parts by weight of coal tar heavy oil
Parts by weight of magnetite powder (average particle size = 50 μm, density = 5.1)
g / cm ³ ), the organic medium for immersion treatment of the polymer-containing composite waste according to the present invention (density = 1.5
g / cm ³ ). The procedure described in Example 1 (2) was repeated, except that the heavy liquid for treatment was used instead of heavy oil for coal tar pitch. Table 1 shows the results.

[0027]

Example 3 Coal tar heavy oil (density = 1.1 g / c)
m ³ ), 20 parts by weight of coal tar heavy oil
Parts by weight of ferrosilicon (average particle size = 50 μm, density =
2.6 g / cm ³ ) by adding a polymer-containing composite waste immersion treatment organic medium (density =
1.4 g / cm ³ ). Except for using this processing heavy liquid instead of coal tar pitch heavy oil,
The procedure described in Example 1 (2) was repeated. Table 1 shows the results.

[0028]

Embodiment 4 In this embodiment, a door removed from a scrapped vehicle (weight = 7 kg, plastic content = 8.5% by weight)
Was processed. An immersion tank containing 100 liters of the organic medium for immersion treatment of the polymer-containing composite waste prepared in Example 2 was heated to 280 ° C. under a nitrogen flow, and the door was immersed in the immersion tank under a nitrogen atmosphere. Heat treatment was performed at 280 ° C. for 5 minutes. After the heat treatment, the plastic floated on the liquid surface and was collected. The recovery of plastic was as high as 96% by weight. Thereafter, the door was lifted, transferred to the cleaning chamber, and sprayed with water vapor in a sealed state to remove the heavy liquid for processing. The amount of carbon (after removal of the heavy liquid for processing) attached to this door was 0.1.
It was less than 1% by weight. .

[0029]

Embodiment 5 In this embodiment, shredder dust containing 40% by weight of plastic and 10% by weight of iron was treated. The immersion tank containing 50 liters of the organic medium for immersion treatment of the polymer-containing composite waste prepared in Example 2 was heated to 280 ° C. under a nitrogen flow, and the shredder dust 5 was heated.
kg was immersed in an immersion tank under a nitrogen atmosphere, and heat treatment was performed at 280 ° C. for 5 minutes. After the heat treatment, the plastic floated on the liquid surface, and was collected by a scraper. The recovered plastic had no tackiness at room temperature and was easily transportable by air flow. The recovery of plastic was as high as 96% by weight. Subsequently, the sedimented residue is collected on a chain conveyor,
The heavy liquid for treatment was removed with a vibrating sieve, and iron was recovered with a magnetic separator.
The iron recovery was 96% by weight.

[0030]

Comparative Example 1 The procedure described in Example 1 (2) was repeated, except that petroleum-based vacuum distillation residue (density = 1.1 g / cm ³ ) was used instead of coal tar pitch heavy oil. . Table 1 shows the results. The recovery rate of the plastic was worse than in the cases of Examples 1 to 3.

[0031]

Comparative Example 2 An edible oil (density = 0.0) was used in place of the organic medium for immersion treatment of the polymer-containing composite waste prepared in Example 2.
8 g / cm ³ ), except that the procedure described in Example 4 was used. When the slightly floating plastic was separated by filtration, the recovery was 20% of the plastic contained in the door.

[0032]

Comparative Example 3 In place of the organic medium for immersion treatment of the polymer-containing composite waste prepared in Example 2, edible oil (density = 0.
8 g / cm ³ ), except that the procedure described in Example 5 above was used. The amount of floating plastic was small, and metals were attached, making it difficult to separate the plastic.

[0033]

Table 1 Polypropylene polyethylene steel bar separation rate Resin recovery rate Steel bar separation rate Resin recovery rate Example 1 94 95 94 95 Example 2 91 98 90 96 Example 3 92 97 93 97 Comparative Example 1 75 70 80 74

[0034]

According to the present invention, a polymer can be recovered at a high recovery rate from a polymer-containing composite waste made of various kinds of materials. Also, the recovered polymer is
It can be effectively reused as a reducing material for blast furnaces.

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Minoru Asanuma 1-1-2 Marunouchi, Chiyoda-ku, Tokyo Inside Nihon Kokan Co., Ltd. (72) Inventor Tatsuro Ariyama 1-1-2 Marunouchi, Chiyoda-ku, Tokyo Within Nippon Kokan Co., Ltd. (72) Inventor Hidenori Yasuoka 1-2-1, Marunouchi, Chiyoda-ku, Tokyo F-term within Nippon Kokan Co., Ltd. 4D004 AA07 AA22 AA26 BA03 BA07 CA04 CA12 CA29 CA41 CC04 4F301 AA13 AA14 AA15 AA17 AD02 AD04 BA21 BE15 BE29 BE31 BF09 BF15 BF31 CA09 CA33 CA36 CA71 CA72 4H015 AA01 AA17 AB01 BA03 BA12 BB03 BB12 CB01

Claims (3)

[Claims] 1. An organic medium for immersion treatment of a polymer-containing composite waste, comprising a hydrocarbon compound as a main component and a density of 1.2 g / cm ³ or more. 2. The organic medium for immersion treatment of a polymer-containing composite waste according to claim 1, further comprising solid particles. 3. A polymer which is immersed in the organic medium according to claim 1 which has been heated and melted, and which is separated from the polymer-containing composite waste and floats on the liquid surface of the organic medium. A method for treating a polymer-containing composite waste, comprising: