JP6765152B1 - Quality control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a quality control method capable of continuously shipping a reclaimed raw material of a certain quality to a specific shipping destination. A quality control method includes a regeneration process, a measurement process, and a control process. In the recycling process, recycled raw materials derived from waste are recycled from a waste group in which wastes of a plurality of materials are mixed. In the measuring step, the properties of the recycled raw material regenerated in the regenerating process are measured according to the required quality of the shipping destination of the recycled raw material. In the control process, the recycled raw material is managed for each measured value measured in the measurement process. In the recycling process, the recycled raw material is recycled in lot units. In the measuring process, the properties of the recycled raw material according to the required quality of the shipping destination are measured in lot units. In the management process, the first-class lot in which the recycled raw material whose measured value is included in the first range is recycled is managed for the first shipment, and the recycled raw material whose measured value is contained in the second range different from the first range is managed. The regenerated second-class lot is managed for the second shipment, which is different from the first shipment. [Selection diagram] Fig. 1

Description

The present invention relates to a quality control method for recycled raw materials derived from waste.

Patent Document 1 discloses a method for recycling used plastics. If the plastic material is a condensation polymer, this plastic material causes hydrolysis during use. Therefore, the molecular weight is reduced and the viscosity is lowered. By measuring the viscosity of a used plastic material, the level of deterioration can be known. As the viscosity decreases, the melt flow rate of the polymer increases. Therefore, the level of deterioration of the used plastic material can be known by measuring the melt flow rate. In this recycling method, after determining the degree of deterioration of the used plastic material, the means for recycling the used plastic material is determined based on the degree of deterioration. The recycling method includes a first step, a second step, and a third step to a seventh step. The first step is a step of disassembling and crushing the product recovered from the market to recover the used plastic material. The second step is a step of measuring the fluidity or melt flow rate of the recovered used plastic material and determining the degree of deterioration of the used plastic material. The third process is a thermal recycling process that utilizes the heat energy generated by supplying the used plastic material to combustion. The fourth process is a cascade utilization process in which used plastic materials are diverted as materials for products in other fields with lower quality . The fifth step is a step of blending and kneading a used plastic material with a virgin material of a plastic material or a raw material compound of a plastic material to restore physical properties and using it as a material of a product in the same field. The sixth step is a sandwich molding step in which the used plastic material is used as the inner core layer resin of the sandwich molded product. The seventh step is a two-layer molding step in which the used plastic material is used as the back layer resin of the two-layer molded product. For example, in the second step, the pulverized resin is sorted into the first group resin to the fifth group resin. The first group resin is a lot having a melt flow rate of 50 to 90 g / 10 min. The second group resin is a lot having a melt flow rate of 90 to 140 g / 10 min. The third group resin is a lot having a melt flow rate of 140 to 200 g / 10 min. The fifth group resin is a lot having a melt flow rate of 200 g / 10 min or more. The first group resin is reused in the seventh step. The second group resin is reused in the sixth step. The third group resin is reused in the fifth step. The fifth group resin is reused in the third step.

Japanese Unexamined Patent Publication No. 2006-123193

Recycled raw materials derived from waste are being recycled from the waste group. However, the waste group may contain a mixture of wastes of a plurality of materials. For example, household waste includes waste of multiple materials. In the waste group, the types and ratios of mixed wastes are not constant and constantly change. Therefore, when the recycled raw material derived from waste is recycled from a waste group in which wastes of a plurality of materials are mixed, the quality of the recycled raw material after regeneration tends to vary due to the variation of the waste as the material. In this case, it is not possible to continuously ship the recycled raw material of a certain quality to a specific shipping destination. In other words, certain shipping destinations cannot continue to accept constant quality recycled materials.

An object of the present invention is to provide a quality control method capable of continuously shipping a reclaimed raw material of a certain quality to a specific shipping destination.

One aspect of the present invention is a recycling step of regenerating a recycled raw material derived from the waste from a waste group in which wastes of a plurality of materials are mixed, and the recycled raw material of the recycled raw material regenerated in the recycling step. The recycling step includes a measuring step of measuring properties according to the required quality of the shipping destination and a management step of managing the recycled raw material for each measured value measured in the measuring step, and the recycling step includes the plurality of materials. From the waste plastic group in which the waste plastics of a plurality of materials including polyethylene, polypropylene and polyamide and a part or all of polystyrene, polyethylene terephthalate and vinyl chloride resin are mixed as the waste group in which the waste is mixed. , The polyethylene and polypropylene mixed material which is the recycled plastic raw material derived from the waste plastic as the recycled raw material derived from the waste is regenerated in lot units, and the measuring step is the polyethylene and polypropylene regenerated in the recycling step. For the mixed material , the fluidity, which is a property according to the required quality of the shipping destination of the polyethylene and polypropylene mixed material , is measured in units of one lot, and further, according to the required quality of the shipping destination of the polyethylene and polypropylene mixed material. Some or all of the above-mentioned properties, such as chlorine concentration, water content, content of predetermined components, foreign matter mixing ratio, color, shape, odor, mechanical properties, thermal properties, chemical properties and electrical properties. Measured in units of a plurality of predetermined lots less frequently than the measurement frequency of fluidity, and in the control step, the first-class lot in which the polyethylene and polypropylene mixed material whose fluidity is included in the first range is recycled is used for the first shipment. The second type lot in which the polyethylene and polypropylene mixed material contained in the second range whose fluidity is different from the first range is regenerated is managed as a second shipment different from the first shipment. It is a quality control method.

According to this quality control method, polyethylene and polypropylene mixed materials as raw materials for recycled plastics are mixed with chlorine concentration, moisture content, content of predetermined components, foreign matter mixing ratio, color, shape, odor, mechanical properties, and thermal properties. , Chemical and electrical properties can be managed in units of a plurality of lots according to some or all of them, and can be managed in units of one lot for the first shipment or the second shipment depending on the fluidity .

The regeneration step may include processing of sorting, crushing, washing, dehydrating, drying, melting and commercializing the waste plastic of the plurality of materials .

According to this configuration , a polyethylene and polypropylene mixed material is regenerated from a waste plastic group containing polyethylene, polypropylene and polyamide and a mixture of waste plastics of a plurality of materials including polystyrene, polyethylene terephthalate and a part or all of vinyl chloride resin. can do.

According to the present invention, it is possible to obtain a quality control method capable of continuously shipping a reclaimed raw material of a certain quality to a specific shipping destination.

It is a flowchart of a quality control method.

Embodiments for carrying out the present invention will be described with reference to the drawings. The present invention is not limited to the configurations described below, and various configurations can be adopted in the same technical idea. For example, some of the configurations shown below may be omitted or replaced with other configurations. The present invention may include other configurations.

<Quality control method>
The quality control method includes a regeneration step S1, a measurement step S2, and a control step S3 (see FIG. 1). In the quality control method, the regeneration step S1 is continuously carried out, and the measurement step S2 and the control step S3 are repeatedly carried out.

The recycling step S1 regenerates a recycled raw material derived from waste from a waste group in which wastes of a plurality of materials are mixed. Waste means waste as defined by the Waste Management and Public Cleansing Act. For example, waste is discharged from the home. In addition, waste is generated by business activities.

Embodiments will be described for waste plastics as waste. In this case, the above-mentioned waste group is a waste plastic group in which waste plastics of a plurality of materials are mixed. The recycling step S1 regenerates a recycled plastic raw material derived from waste plastic as a recycled raw material derived from waste from this waste plastic group. Waste plastic includes used plastic. Examples of waste plastics (used plastics) discharged from homes include plastic containers and packaging and PET bottles. For example, when plastic containers and packaging are discharged from home, a plurality of types of plastic containers and packaging made of different materials are mixed. Therefore, as described above, wastes of a plurality of materials (waste plastics of a plurality of materials) are mixed in the waste group.

Examples of materials of waste plastic discharged from households include polyethylene (PE), polypropylene (PP), polyamide (PA), polystyrene (PS), polyethylene terephthalate (PET) and vinyl chloride resin (PVC).

Polyethylene is classified into low density polyethylene and high density polyethylene. Examples of plastic products made of low density polyethylene include bags, wrap films and food tubes. Examples of high-density polyethylene plastic products include packaging films, bags, food containers, shampoo and conditioner containers. Examples of polypropylene plastic products include packaging films, food containers, caps, trays, and garbage containers. An example of a polyamide plastic product is a packaging film.

Polystyrene is classified into polystyrene and expanded polystyrene. Examples of polystyrene plastic products include food containers and CD cases, and examples of expanded polystyrene plastic products include food trays and cup noodle containers.

Polyethylene terephthalate is classified into bottles, stretched films and unstretched sheets. Examples of bottles made of polyethylene terephthalate include containers (PET bottles) for beverages, soy sauce, alcoholic beverages, teas, drinking water, and the like. Examples of stretched films made of polyethylene terephthalate include packaging films, and examples of non-stretched sheets made of polyethylene terephthalate include packaging of prepared foods, tsukudani, fruits, salads, cakes, and the like. An example of a plastic product made of vinyl chloride resin is a wrap film.

In the recycling step S1, each of the above-mentioned plastic products is recycled into the following recycled plastic raw materials derived from waste plastics. That is, polyethylene, polypropylene and polyamide are regenerated into PE / PP mixed pellets. Polyethylene may be regenerated into PE pellets and polypropylene may be regenerated into PP pellets. Polystyrene is regenerated into PS pellets. Bottles made of polyethylene terephthalate are recycled into compressed products or flakes. The stretched film / non-stretched sheet made of polyethylene terephthalate and the vinyl chloride resin are converted into solid fuel.

In addition, polyvinylidene chloride (PVDC) is mentioned as an example of the material of waste plastic. Examples of the shape of the recycled plastic raw material include pellets, compressed products and flakes described above, as well as fluffs, ingots and volume-reduced products. For example, the recycled plastic raw material having the above-mentioned shape is formed as follows. Pellets are formed by heating and melting waste plastic to form granules. The fluff is formed by crushing films of waste plastic. Flakes are formed by crushing bottles or solid containers of waste plastic. The ingot is formed by pouring waste plastic into a rectangular parallelepiped mold and solidifying it into a rod or plate. Volume-reduced products are formed by reducing the volume of waste plastic by frictional heat or compressive force to form granules or bales. Volume-reduced products are sometimes referred to as "mills" or "grushes" depending on their shape or size. The compressed product is formed by compressing waste plastic, packing it with a binding material, and forming it into a bale shape. Compressed products are sometimes referred to as "veils." The shape of the recycled plastic raw material is not particularly limited. The shape of the recycled plastic raw material is appropriately determined in consideration of various conditions.

The regeneration step S1 includes processing of sorting, crushing, washing, melting and commercialization. The recycled plastic raw material is produced through these treatments. For example, when the shape of the recycled plastic raw material is pelletized, the molten resin is granulated to produce the pellet-shaped recycled plastic raw material. For example, granulation is carried out by a pelletizer. The pelletizer is a known device. Therefore, the description of the pelletizer will be omitted.

The above-mentioned process in the regeneration step S1 is an example. The regeneration step S1 may include a process other than the above-mentioned process. For example, the regeneration step S1 may include dehydration and drying treatments.

The sorting process is preferably carried out a plurality of times. In this case, it is more preferable that the sorting process performed a plurality of times is a plurality of different sorting methods. Examples of the sorting method include wind power sorting, manual sorting, magnetic force sorting, sieving sorting, optical sorting and specific gravity sorting. Of the above-mentioned sorting methods, manual sorting is carried out by a person, and sorting methods other than hand sorting are carried out by a dedicated sorting machine. Sorters for wind power sorting, magnetic force sorting, sieving sorting, optical sorting and specific gravity sorting are known devices and have already been put into practical use. Therefore, the description thereof will be omitted.

When a plurality of sorting methods are adopted as the sorting process, the regeneration step S1 is carried out in the following order, for example. That is, the regeneration step S1 may be carried out in the order of wind power sorting, manual sorting, magnetic force sorting, optical sorting, crushing or crushing, washing, specific gravity sorting, centrifugation, dehydration, drying, melting and commercialization. In addition, the regeneration step S1 may be carried out in the order of wind power sorting, manual sorting, sieving sorting, crushing or crushing, washing, specific gravity sorting, centrifugation, dehydration, drying and commercialization.

The dehydration treatment dehydrates the raw material before melting. In the drying process, the raw material after dehydration is dried by hot air. After that, the raw material is melted by a melting process. For example, the dehydration process is carried out by a screw press and the drying process is carried out by a thermal dryer. Screw presses and thermal dryers are known devices. Therefore, the description of the screw press and the thermal dryer will be omitted.

Recycled plastic raw materials are commercialized by being packed in bags in units of units. For example, recycled plastic raw materials are packed in flexible containers of 500 kg each and commercialized. That is, in the regeneration step S1, the recycled plastic raw material as the recycled raw material is regenerated in lots (500 kg). The mass of the recycled raw material (recycled plastic raw material) per lot may be a value different from 500 kg. This mass is appropriately determined in consideration of various conditions.

The measurement step S2 measures the properties of the recycled raw material regenerated in the regenerating step S1 according to the required quality of the shipping destination of the recycled raw material. Further, the measurement step S2 measures this property in lot units. Therefore, in the embodiment, the measurement step S2 measures the properties of the recycled plastic raw material recycled in the recycling step S1 in lot units according to the required quality of the shipping destination of the recycled plastic raw material.

Examples of properties according to the required quality of the shipping destination of recycled plastic raw materials are fluidity, chlorine concentration, moisture content, content of predetermined components, foreign matter mixing ratio, color, shape, odor, mechanical properties, and thermal. Properties, chemical properties and electrical properties can be mentioned. Examples of mechanical properties include specific gravity, hardness, tensile strength, elongation, tensile modulus, compressive strength, bending strength and flexural modulus. An example of hardness is Rockwell hardness. Examples of thermal properties include deflection temperature under load, coefficient of linear expansion and heat resistant temperature. Examples of chemical properties include water absorption, acid resistance, alkali resistance and organic solvents. Examples of electrical properties include volume specific resistance and dielectric breakdown strength. Therefore, in the measurement step S2, as the properties according to the required quality of the shipping destination of the recycled plastic raw material, fluidity, chlorine concentration, moisture content, content rate of a predetermined component, foreign matter mixing ratio, color, shape, odor, mechanical At least one of the properties, thermal properties, chemical properties and electrical properties is measured.

However, in the measurement step S2, it is preferable to measure the fluidity as a property according to the required quality of the shipping destination of the recycled plastic raw material. Liquidity includes melt flow rate, and melt flow rate includes melt mass flow rate and melt volume flow rate. In the embodiment, it is assumed that the required quality of the shipping destination of the recycled plastic raw material is fluidity, and the measurement step S2 measures the melt mass flow rate of the recycled plastic raw material.

A melt flow rater (DM type) manufactured by Toyo Seiki Seisakusho Co., Ltd. can be used for the measurement. However, a device different from this may be used for the measurement. The measurement can be based on JIS K7210. For example, the measurement is performed by the method A (mass) of JIS K7210-1: 2014 (Plastic-How to determine melt mass flow rate (MFR) and melt volume flow rate (MVR) of thermoplastics-Part 1: Standard test method). Measurement method) can be followed. The measurement is carried out by collecting a predetermined amount of the recycled plastic raw material from one lot of the recycled plastic raw material and using this as a measurement sample. The measurement conditions may be the following first measurement conditions when the measurement sample is pellets other than PS pellets (for example, PE / PP mixed pellets), and the following second measurement conditions when the measurement sample is PS pellets. May be.
[First measurement condition]
Temperature (furnace temperature): 230 ° C
Weight: 2.16 kg
[Second measurement condition]
Temperature (furnace temperature): 200 ° C
Weight: 5.00 kg
The control step S3 manages the recycled raw material for each measured value measured in the measurement step S2. That is, in the control step S3, the first-class lot in which the recycled raw material whose measured value is included in the first range is recycled is managed for the first shipment. In the control step S3, the second type lot in which the recycled raw material whose measured value is included in the second range is recycled is managed for the second shipment. The second range is different from the first range. The second shipment is different from the first shipment. Therefore, in the embodiment, the control step S3 manages the first-class lot in which the recycled plastic raw material whose measured value is included in the first range is recycled for the first shipment, and the measured value is included in the second range. Class 2 lots made from recycled plastic raw materials are managed for second shipment.

The second range, which is different from the first range, may be further subdivided. For example, the second range may be subdivided into three evaluation ranges of a third range, a fourth range, and a fifth range. That is, the evaluation range of the measured value may be the first range, the third range as the second range, the fourth range, and the fifth range. Taking melt mass flow rate as an example, the first range, the third range, the fourth range, and the fifth range may be set as follows. That is, the first range is 3.5 g / 10 min or more. The third range is 2.5 g / 10 min or more (2.5 g / 10 min ≤ third range <3.5 g / 10 min). The fourth range is 2.0 g / 10 min or more (2.0 g / 10 min ≤ fourth range <2.5 g / 10 min). The fifth range is less than 2.0 g / 10 min. In this case, the second range can be said to be less than 3.5 g / 10 min.

In the embodiment, the second-class lot in which the recycled plastic raw material whose measured value is included in the third range is recycled is referred to as a "third-class lot", and the recycled plastic raw material whose measured value is included in the fourth range is recycled. The second type lot is called "fourth type lot", and the second type lot in which the recycled plastic raw material whose measured value is included in the fifth range is recycled is called "fifth type lot". In this case, the second-class lot is a lot different from the first-class lot, and corresponds to a part or all of the third-class lot, the fourth-class lot, and the fifth-class lot. It can also be said that the second-class lot is a lot in which a recycled plastic raw material weighing less than 3.5 g / 10 min is recycled.

The number of evaluation ranges of measured values and the set values are appropriately set according to the required quality of the shipping destination. In the embodiment, the evaluation range of the measured value is the first range, the third range as the second range, the fourth range and the fifth range, and the set values for these are also as described above.

The shipping destination may be a customer unit or a usage unit of a recycled plastic raw material. In addition, the shipping destination may be both the customer and the application. Examples of applications of recycled plastic raw materials include processing technology and products formed from recycled plastic raw materials. When the use of the recycled plastic raw material is used for setting the shipping destination, the use of the recycled plastic raw material may be one or both of the processing technology and the product formed from the recycled plastic raw material.

For example, companies A, B, and C are assumed as customers of recycled plastic raw materials. Company A manufactures general household goods and building materials (use: product) by injection molding (use: processing technology), and for that purpose, a recycled plastic raw material with a melt mass flow rate of 3.5 g / 10 min or more (first range). Suppose you are requesting. Examples of general household goods manufactured by Company A include hangers and planters. An example of a building material manufactured by Company A is a reinforcing bar spacer. In addition, Company A manufactures distribution pallets (use: product) by injection molding (use: processing technology), and for that purpose, a recycled plastic raw material with a melt mass flow rate of 2.5 g / 10 min or more (second range). Suppose you are requesting.

Company B manufactures building materials (use: product) different from Company A by extrusion molding (use: processing technology), and for that purpose, recycled plastic with melt mass flow rate of 2.0 g / 10 min or more (third range). Suppose you are requesting raw materials. Examples of building materials manufactured by Company B include piers and artificial trees.

Company C manufactures bags (use: product) by inflation molding (use: processing technology), and for that purpose, demands recycled plastic raw materials with melt mass flow rate of less than 2.0 g / 10 min (fourth range). Suppose you are. Examples of bags manufactured by Company C include plastic shopping bags and garbage bags.

As a result of the measurement in the measurement step S2, it is assumed that the measured value is 3.5 g / 10 min or more. In this case, the control step S3 manages the first-class lot in which the recycled plastic raw material whose measured value is included in the first range is recycled for "Company A, injection molding, general household goods and building materials".

As a result of the measurement in the measurement step S2, it is assumed that the measured value is 2.5 g / 10 min or more. In this case, the control step S3 manages the third-class lot in which the recycled plastic raw material whose measured value is included in the third range is recycled for "Company A, injection molding, distribution pallet".

As a result of the measurement in the measurement step S2, it is assumed that the measured value is 2.0 g / 10 min or more. In this case, the control step S3 manages the fourth-class lot in which the recycled plastic raw material whose measured value is included in the fourth range is recycled for "Company B, extrusion molding, building material".

As a result of the measurement in the measurement step S2, it is assumed that the measured value is less than 2.0 g / 10 min. In this case, the control step S3 manages the fifth-class lot in which the recycled plastic raw material whose measured value is included in the fifth range is recycled for "Company C, inflation molding, bags".

After that, the practitioner of the quality control method ships the first-class lot to the corresponding shipping destination, and ships the second-class lot to the corresponding shipping destination. That is, this practitioner ships the first-class lot to company A in response to the request from company A (injection molding, general household goods and building materials). In addition, this practitioner ships the second-class lot to company A in response to the request from company A (pallet for injection molding / distribution). Further, this practitioner ships the third-class lot to B company in response to the request (extrusion molding / building material) from B company. Furthermore, this practitioner ships the Type 4 lot to Company C in response to the request from Company C (inflation molding / bags).

<Effect of embodiment>
According to the embodiment, the following effects can be obtained.

(1) The quality control method includes a regeneration step S1, a measurement step S2, and a control step S3 (see FIG. 1). The recycling step S1 regenerates a recycled raw material derived from waste from a waste group in which wastes of a plurality of materials are mixed. The measurement step S2 measures the properties of the recycled raw material regenerated in the regenerating step S1 according to the required quality of the shipping destination of the recycled raw material. The control step S3 manages the recycled raw material for each measured value measured in the measurement step S2. In the regeneration step S1, the recycled raw material is recycled in lot units. In the measurement step S2, the properties of the recycled raw material according to the required quality of the shipping destination are measured in lot units. In the control step S3, the first-class lot in which the recycled raw material whose measured value is included in the first range is recycled is managed for the first shipment, and the recycled raw material whose measured value is included in the second range is recycled. Manage seed lots for second shipment.

The second range may be subdivided into three ranges, a third range, a fourth range and a fifth range. In this case, in the control step S3, the third type lot in which the recycled raw material whose measured value is included in the third range is recycled is managed for the third shipment, and the recycled raw material whose measured value is included in the fourth range is recycled. The 4th class lot is managed for the 4th shipment, and the 5th class lot in which the recycled raw material whose measured value is included in the 5th range is recycled is managed for the 5th shipment.

Therefore, the recycled raw material can be managed in lot units for the first shipment or the second shipment (for the first shipment, the third shipment, the fourth shipment, or the fifth shipment) according to the measured value. It is possible to continuously ship recycled raw materials of a certain quality to a specific shipping destination.

(2) It is assumed that the waste is waste plastic and the recycled raw material is the recycled plastic raw material. In this case, the recycling step S1 is derived from a waste plastic group in which waste plastics of a plurality of materials are mixed as a waste group in which wastes of a plurality of materials are mixed, and a waste plastic-derived material as a recycled raw material derived from the waste. Recycled plastic raw materials are recycled in lot units. In the measurement step S2, the properties of the recycled plastic raw material recycled in the recycling step S1 according to the required quality of the shipping destination of the recycled plastic raw material are measured in lot units. In the control step S3, the first-class lot in which the recycled plastic raw material whose measured value is included in the first range is recycled is managed for the first shipment, and the recycled plastic raw material whose measured value is included in the second range is recycled. The second type lot is managed for the second shipment.

When the waste is waste plastic and the recycled raw material is a recycled plastic raw material, the second range may be subdivided into three ranges, a third range, a fourth range, and a fifth range. In this case, in the control step S3, the third type lot in which the recycled plastic raw material whose measured value is included in the third range is recycled is managed for the third shipment, and the recycled plastic raw material whose measured value is included in the fourth range is managed. The recycled 4th class lot is managed for the 4th shipment, and the 5th class lot in which the recycled plastic raw material whose measured value is included in the 5th range is recycled is managed for the 5th shipment.

Therefore, the recycled plastic raw material can be managed in lot units for the first shipment or the second shipment (for the first shipment, the third shipment, the fourth shipment or the fifth shipment) according to the measured value. .. It is possible to continuously ship a certain quality of recycled plastic raw material to a specific shipping destination.

(3) It is assumed that the waste is waste plastic and the recycled raw material is the recycled plastic raw material. In this case, in the measurement step S2, as the properties according to the required quality of the shipping destination of the recycled plastic raw material, fluidity, chlorine concentration, moisture content, content rate of a predetermined component, foreign matter mixing ratio, color, shape, odor, machine At least one of the physical, thermal, chemical and electrical properties is measured.

Therefore, depending on at least one of fluidity, chlorine concentration, moisture content, content of a predetermined component, foreign matter mixing ratio, color, shape, odor, mechanical property, thermal property, chemical property and electrical property. It is possible to manage recycled plastic raw materials. However, in the measurement step S2, it is preferable to measure the fluidity as a property according to the required quality of the shipping destination of the recycled plastic raw material. As a result, the recycled plastic raw material can be controlled by the fluidity.

<Modification example>
The embodiment can also be as follows. Some of the configurations shown in the following modifications can be adopted in combination as appropriate. In the following, points different from the above will be described, and description of the same points will be omitted as appropriate.

(1) Although the description is omitted above, for example, it is assumed that the required quality of the shipping destination of the recycled plastic raw material is the chlorine concentration. In this case, the measurement step S2 measures the chlorine concentration of the recycled plastic raw material regenerated in the regeneration step S1 in lot units. A fluorescent X-ray apparatus (X-Supreme8000) manufactured by Oxford Instruments Co., Ltd. (currently Hitachi High-Tech Analytical Science Co., Ltd.) can be used for the measurement. However, a device different from this may be used for the measurement. The measurement can be based on JIS Z7302-6: 1999 (waste solidified fuel-Part 6: total chlorine content test method). Chlorine concentration is expressed as a mass fraction (%).

Regarding the chlorine concentration as the required quality of the shipping destination of the recycled plastic raw material, the evaluation range may be set according to JIS Z7311: 2010 (solidified fuel (RPF) such as waste-derived paper and plastic).

In addition, it is assumed that the required quality of the shipping destination of the recycled plastic raw material is the moisture content. In this case, the measurement step S2 measures the moisture content of the recycled plastic raw material regenerated in the regeneration step S1 in lot units. An infrared moisture meter (FD-720) manufactured by Kett Science Institute Headquarters can be used for the measurement. However, a device different from this may be used for the measurement. The measurement can be based on JIS Z7302-3: 1999 (waste solidified fuel-Part 3: Moisture test method). Moisture content is expressed in% by mass.

(2) In the measurement step S2, the properties of the recycled raw material according to the required quality of the shipping destination are measured in lot units. When the waste is waste plastic and the recycled raw material is a recycled plastic raw material, it is preferable to measure the fluidity in the measurement step S2. That is, in the measurement step S2, it is preferable to measure the fluidity in lot units. In addition, in the measurement step S2, the chlorine concentration may be measured in lot units. For example, in the measurement step S2, one or both of the fluidity and the chlorine concentration are measured in lot units, and the water content, the content of a predetermined component, the foreign matter mixing ratio, the color, the shape, the odor, the mechanical properties, and the heat are measured. For some or all of the physical, chemical and electrical properties, the measurement frequency may be less than in lot units. The frequency of measuring fluidity may be set in lot units, and the frequency of measuring chlorine concentration may be less than in units of lots. It is assumed that the amount of recycled plastic raw material recycled per week is a plurality of lots. In this case, for example, the frequency of measuring the water content may be one or more times / week.

(3) The measurement in the measurement step S2 may be performed by the following simple inspection. That is, in the above-mentioned simple inspection, a measured value having a correlation with the measured value obtained in accordance with the above-mentioned JIS can be obtained. In the control step S3, as in the above, the evaluation range is set according to the measured value obtained by the simple inspection adopted in the measurement step S2. The control step S3 manages the recycled raw material according to this evaluation range. By adopting the simple inspection, the measurement step S2 can be performed quickly.

S1 regeneration process, S2 measurement process, S3 management process

Claims (2)

A recycling process for regenerating recycled materials derived from the waste from a waste group in which wastes of multiple materials are mixed, and
A measurement step of measuring the properties of the recycled raw material regenerated in the regenerating step according to the required quality of the shipping destination of the recycled raw material, and
A control step of managing the recycled raw material for each measured value measured in the measurement step is included.
The regeneration step comprises a plurality of materials including polyethylene, polypropylene and polyamide as the waste group in which the wastes of the plurality of materials are mixed, and a part or all of polystyrene, polyethylene terephthalate and vinyl chloride resin. From the waste plastic group in which waste plastic is mixed, a mixed material of polyethylene and polypropylene, which is a recycled plastic raw material derived from the waste plastic, as the recycled raw material derived from the waste, is recycled in lot units.
In the measuring step , the fluidity of the polyethylene and polypropylene mixed material regenerated in the regenerated step is measured in units of one lot, which is a property according to the required quality of the shipping destination of the polyethylene and polypropylene mixed material . Further, the properties of the polyethylene and polypropylene mixed materials according to the required quality of the shipping destination, such as chlorine concentration, moisture content, content of predetermined components, foreign matter mixing ratio, color, shape, odor, mechanical properties, and thermal properties. Part or all of the properties, chemical properties and electrical properties are measured in predetermined multiple lot units less frequently than the measurement frequency of the fluidity.
The control process is
The first-class lot in which the polyethylene and polypropylene mixed material whose fluidity is included in the first range is recycled is managed for the first shipment.
Quality control in which the second-class lot in which the polyethylene and polypropylene mixed material contained in the second range in which the fluidity is different from the first range is recycled is managed for the second shipment different from the first shipment. Method. The quality control method according to claim 1, wherein the recycling step includes a process of sorting, crushing, washing, dehydrating, drying, melting and commercializing the waste plastic of the plurality of materials .

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