JP2000070895A - Sludge/waste plastic processing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To recycle waste plastics and sludge through processing as a tile material for sidewalk, a building material drainage ditch, a solid fuel and the like. SOLUTION: A sludge 2 having a solid content concentration of 1-3%, which is produced when public sewerage water, industrial waste liquor, waste water discharged from food industries and the like are processed, is taken in and dried until a water content of 40-60% and a particle size of 3-10 mm are attained so as to produce a dried sludge 2b, which is then packed into a center part of a sludge/waste plastics packing container constituted of a basket or a network structured container. Further, waste plastics containing chlorine such as poly vinyl chloride or the like is taken in and dechlorination treatment and heating-and-melting treatment are carried out. The melted waste plastics 5a which have undergone dechlorination treatment are lacked in an inner circumferential part of the sludge/waste plastics-packing container so as to make a packaged solid matter 8.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a sludge for treating waste water generated when treating waste liquid discharged from public sewage, industrial effluent, food industry, etc., and a waste plastic such as vinyl chloride, rubber, styrene foam and the like. / Regarding waste plastic processing system.

[0002]

2. Description of the Related Art When waste plastics containing chlorine are incinerated, chlorine gas is generated during combustion, which not only damages the incinerator but also generates harmful organic chlorine compounds. Waste plastics are often disposed of in landfills.

[0003] However, in recent years, from the viewpoint of reusing resources, the following oiling methods have been proposed, and chlorine-containing plastics are thermally decomposed by using these oiling methods. It is being studied to reuse the used oil as fuel.

(A) A method for recovering fuel from waste plastics (JP-A-2-25951) (B) A method for decomposing organic chlorides (JP-A-4-2616)
No. 74) (C) Method for producing liquid fuel or the like using waste plastic (Japanese Patent Laid-Open No. Hei 4-270793) (D) Method for obtaining hydrocarbon oil from waste plastic or rubber material and apparatus used for carrying out the method (JP-A-6-228
Further, there has been proposed a method in which chlorine-containing waste plastic is oiled or dechlorinated by these oiling methods, and the remaining hydrocarbons are used as a solid fuel.

On the other hand, sludge generated when treating wastewater discharged from public sewage, industrial wastewater, food industry, etc., is subjected to dehydration treatment by a belt press type dehydrator or the like to reduce the water content. It is landfilled,
In recent years, after dehydration, dry treatment is performed,
They are also incinerated.

Further, as for a method for preventing sludge at the disposal site, such a sludge is disclosed in Japanese Patent Application No. 5-23 / 1993.
Japanese Patent No. 7501 proposes a "method of preventing organic substances from being eluted from sewage sludge and an asphalt film-formed granule".

[0007]

However, the above-mentioned conventional methods for treating sludge and waste plastic have the following problems.

First, in each of the oiling methods proposed in the above (A) to (D), when the waste plastic containing chlorine is oiled, the apparatus for refining the generated oil becomes huge. At the same time, since an enormous amount of energy is required as energy for operating this apparatus, there is a problem that the processing cost increases and the cost of the regenerated oil increases.

On the other hand, in the above-mentioned method for treating sludge, the uniaxial compressive strength of the sludge obtained after dewatering or drying the sludge is only 1 kg / cm ² or less. It is difficult to use and almost all the land must be landfilled.

[0010] Furthermore, even if the sludge obtained after dewatering or drying the sludge is buried in the disposal site, the buried sludge absorbs rainfall at the disposal site, moisture in the air, etc., and the weight ratio is reduced. 80% or more weight increase
There was a problem of returning to a sludge shape again.

[0011] In the "method of preventing the elution of organic substances from sewage sludge and granulation with asphalt film" disclosed in Japanese Patent Application No. 5-237501, the mechanical strength of asphalt itself is small, so that the disposal site is not treated. There is a problem that the asphalt film is damaged by the load due to the earth pressure or the like, the sludge is exposed, and the water resistance is reduced.

Therefore, as a method of efficiently disposing of these waste plastics and sludge, a conventional method has been disclosed in Japanese Patent Application Laid-Open No.
No. 0899 proposes a "method of manufacturing a molded article using a sludge component".

In the method of manufacturing a molded product using this sludge component, 60 to 90 wt% of the sludge component discharged in the course of industrial wastewater treatment, sewage treatment, etc., and thermoplastic resin such as polyethylene resin, polystyrene resin, vinyl chloride resin, etc. When 10 to 40 wt% of the waste plastic powder and granules are kneaded and pressurized in a kneading machine and softened into a rice cake shape, this is put into a molding machine and molded into a product such as a slab stone, thereby making it a landfill. Dispose of sludge and waste plastic without any treatment.

However, in the method for producing a molded article using the sludge component, since the vinyl chloride is used as it is, not only can the finished product not be used as a solid fuel or the like, but also a slab There is a problem that when incinerated again, it cannot be incinerated.

In the method for producing a molded product using this sludge component, first, granulated polystyrene resin or the like is mixed with the sludge to reduce the friction coefficient between the sludge and the waste plastic. If you do not mix the granulated vinyl chloride later, when the sludge and the waste plastic are kneaded, toxic gas will be generated from the vinyl chloride due to the frictional heat generated between the sludge and the waste plastic.
There was a problem that only vinyl chloride could not be mixed with sludge.

In view of the above circumstances, the present invention is directed to claim 1 in which waste plastic subjected to desalination treatment and dry sludge are packaged and reused as a tile material for a sidewalk, a building material such as a drain, a solid fuel, and the like. It is possible to form a solidified body that is strong and has high water resistance, which is suitable for
The main object of the present invention is to provide a sludge / waste plastic processing system capable of efficiently processing.

[0017]

In order to achieve the above object, according to the present invention, in a sludge / waste plastic treatment system for treating sludge and waste plastic, sludge containing water is taken in. A dryer for drying the water content and the particle size to a predetermined value to generate dried sludge, a melting device for heating and melting the waste plastic to generate a molten waste plastic, and a melting device for the melting device. A solidification device for packaging the obtained molten waste plastic and the dried sludge obtained by the dryer to produce a solidified body is provided.

According to a second aspect, in the sludge / waste plastic treatment system according to the first aspect, the solidifying device includes:
After the dried sludge obtained by the dryer is filled, the molten waste plastic obtained by the melting device is constituted by a container filled around the dried sludge.

According to a third aspect, in the sludge / waste plastic treatment system according to the first aspect, the solidifying device includes:
A container filled with the dried sludge obtained by the dryer and the molten waste plastic obtained by the melting device; and an in-drum for mixing the dried sludge and the molten waste plastic filled in the container. And a mixer.

According to a fourth aspect of the present invention, in the sludge / waste plastic treatment system according to the first aspect, the solidifying device converts the dried sludge obtained by the dryer and the molten waste plastic obtained by the melting device. It is characterized by having an outdrum mixing tank for mixing and a container filled with dry sludge and molten waste plastic mixed by the outdrum mixing tank.

According to a fifth aspect of the present invention, in the sludge / waste plastic treatment system according to any one of the first, second, third, and fourth aspects, when the melting device melts the chlorine-containing waste plastic, it is desalinated. It is characterized by executing a treatment and a treatment for melting the desalted waste plastic.

According to the first aspect of the present invention, in the first aspect, the sludge containing moisture is taken in by the drier, and the sludge is dried until the water content and the particle size become predetermined values, thereby producing dried sludge. By the melting device, the waste plastic is heated and melted to produce a molten waste plastic, and further, by the solidifying device, the molten waste plastic obtained by the melting device and the dried sludge obtained by the dryer are packaged. By producing solidified products, the desalination-treated waste plastic and dried sludge are packaged, and they are strong, suitable for reuse as building materials such as sidewalk tiles, drains, solid fuels, etc. Further, a solidified body having high water resistance is formed, whereby the sludge and the waste plastic are simultaneously and efficiently treated.

According to a second aspect of the present invention, as the solidifying device, a container is used in which after the dried sludge obtained by the dryer is filled, the molten waste plastic obtained by the melting device is filled around the dried sludge. The desalted waste plastic is used to package the dried sludge so that it wraps around it, producing a solidified body with sufficient mechanical strength, which can damage the solidified body even if earth pressure or impact is applied. In addition to preventing such accidents from occurring, the dry sludge hardly comes into contact with water, thereby greatly improving the water resistance.

According to a third aspect of the present invention, as the solidifying device, a container filled with the dried sludge obtained by the dryer and the molten waste plastic obtained by the melting device, a dry sludge filled in the container, By using an in-drum mixer for mixing molten waste plastic, dry sludge and desalinated waste plastic are mixed in a container, whereby the container, dry sludge, and desalinated waste plastic are mixed. Are packaged to greatly improve the mechanical strength of the solidified body.

According to a fourth aspect of the present invention, as the solidifying device, an outdrum mixing tank for mixing the dried sludge obtained by the dryer and the molten waste plastic obtained by the melting device is mixed by the outdrum mixing tank. By using a container filled with dried sludge and molten waste plastic, the dried sludge and the waste plastic subjected to the desalination treatment are mixed in a mixing tank, and then mixed into a container. In addition, by uniformly mixing the waste plastic with the desalination treatment, the mechanical strength of the solidified material is greatly improved, and by increasing the mixing ratio of the waste plastic with the desalination treatment, it can be used as a solid fuel. I do.

According to a fifth aspect of the present invention, when the waste plastic containing chlorine is melted by the melting device, the chlorine-containing waste plastic is subjected to a treatment for dechlorination and a treatment for melting the waste plastic after the desalination treatment. Processing vinyl chloride etc., so that any waste plastic,
It is mixed with dry sludge to produce a solidified body.

[0027]

DESCRIPTION OF THE PREFERRED EMBODIMENTS << Description of First Embodiment >> FIG.
FIG. 1 is a block diagram showing a first embodiment of a sludge / waste plastic treatment system according to claims 1, 2 and 5 of the sludge / waste plastic treatment system according to the present invention.

The sludge / waste plastic treatment system 1a shown in this figure is a sludge 2 having a solid concentration of 1% to 3%, which is generated when treating wastewater discharged from public sewage, industrial wastewater, food industry and the like. And the solid content concentration is 2
Centrifugal dehydrator 3 for dehydrating and concentrating until 0% to 30%
And the sludge 2 obtained by the dehydration and concentration treatment of the centrifugal dehydrator 3.
a, the water content is 40% to 60%, and the particle size is 3 m.
m to 10 mm, take in a thin film dryer 4 that produces dried sludge 2b and waste plastics 5 containing chlorine, for example, vinyl chloride, etc., and perform dechlorination treatment, and heat and melt to waste waste. And a waste plastic dechlorination device 6 for producing the plastic 5a.

This sludge / waste plastic treatment system 1
In a, the solid content concentration generated when treating wastewater discharged from public sewage, industrial wastewater, food industry, etc. is 1%.
% To 3% of sludge 2 and solid content concentration of 20% to
Dehydrate and concentrate to 30%. After that, the moisture content becomes 4
The dried sludge 2b is produced by drying until the particle size becomes 0% to 60% and the particle size becomes 3 mm to 10 mm, and the dried sludge 2b is filled in the central part of the sludge / waste plastic filling container 7 constituted by a mesh-structured container or basket. I do. In addition, waste plastics 5 containing chlorine, such as vinyl chloride, are taken in, and subjected to dechlorination treatment and heat melting treatment. Filling the surface portion produces a packaged solid body 8.

At this time, the sludge / waste plastic filling container 7
The molten waste plastic 5a is filled with the molten waste plastic 5a, and the molten waste plastic 5a is filled between the particles of the dried sludge 2b to function as a binder. When solidified, these solidified waste plastics, the sludge / waste plastic filling container 7, and the dried sludge 2b are integrated to have sufficient mechanical strength and sufficient water resistance.

Example 1 The weight ratio of the dried sludge 2b obtained under the drying conditions shown in FIG. 4 and the molten waste plastic 5a obtained under the dechlorination conditions shown in FIG. 5 is "1: 1". As described above, the desalted molten waste plastic 5a and the dried sludge 2b are filled in the sludge / waste plastic filling container 7 to generate a solidified body 8, and a pressure is applied to the solidified body 8, and the solidified body 8 is subjected to a uniaxial process. When the compressive strength was measured, as shown in FIG.
A uniaxial compressive strength of kg / cm ² could be secured.

The solidified body 8 obtained by filling the desalted molten waste plastic 5a and the dried sludge 2b into the sludge / waste plastic filling container 7 is immersed in pure water at room temperature for one month. The change in weight was measured, and the water absorption was measured. As a result, the change in weight could be reduced to 0.001% or less, and it was confirmed that the composition had sufficient water resistance.

As described above, in the first embodiment,
Solids concentration of 1% to 3% generated when treating wastewater discharged from public sewage, industrial wastewater, food industry, etc.
The sludge 2 is taken up and dewatered and concentrated until the solid content concentration becomes 20% to 30%, and the water content is 40% to 60%.
Drying is performed until the particle size becomes 3 mm to 10 mm to produce dried sludge 2b, which is filled into a central portion of a sludge / waste plastic filling container 7 constituted by a mesh-structured container or a basket, and Waste plastics 5 containing chlorine, such as vinyl, are taken in and subjected to dechlorination treatment and heat melting treatment, and the resulting dechlorinated molten waste plastics 5a obtained on the inner peripheral surface portion of the sludge / waste plastic filling container 7 is obtained. Filling is performed to produce a packaged solid body 8. For this reason, the desalination-processed molten waste plastic 5a and the dried sludge 2b are packaged, and are strong and suitable for reuse as building materials such as sidewalk tiles, drains, solid fuels, and the like. The solidified body 8 having high water resistance can be formed, whereby the sludge 2 and the waste plastic 5 can be simultaneously and efficiently treated.

Further, even if the solidified body 8 is disposed of in a landfill as a waste, even if the solidified body 8 comes into contact with water after the landfill, the dried sludge 2b does not return to a sludge shape again. And a stable form can be maintained as disposal waste.

In the first embodiment, the dried sludge 2 is formed by the molten waste plastic 5a subjected to the desalination treatment.
b is packaged so as to enclose it, and the solidified body 8 is generated, so that sufficient mechanical strength can be provided, and even if earth pressure or impact is applied, an accident such as breakage occurs. It is possible to prevent the dried sludge 2b from coming into contact with water and to greatly improve the water resistance.

Further, in the first embodiment, chlorine plastic containing vinyl chloride or the like can be treated as the waste plastic 5, so that not only the waste plastic such as rubber and styrene foam but also vinyl chloride alone can be treated. This can be mixed with the dried sludge to produce the solidified body 8.

<< Description of Second Embodiment >> FIG. 2 shows a second embodiment of the sludge / waste plastic treatment system according to the first, third and fifth aspects of the sludge / waste plastic treatment system according to the present invention. It is a block diagram showing a form. In this figure, the same parts as those in FIG. 1 are denoted by the same reference numerals.

The sludge / waste plastic treatment system 1b shown in FIG. 2 is a sludge 2 having a solid concentration of 1% to 3%, which is generated when treating waste liquid discharged from public sewage, industrial wastewater, food industry and the like. And the solid content concentration is 2
Centrifugal dehydrator 3 for dehydrating and concentrating until 0% to 30%
And the sludge 2 obtained by the dehydration and concentration treatment of the centrifugal dehydrator 3.
a, the water content is 40% to 60%, and the particle size is 3 m.
m to 10 mm, and a thin film dryer 4 for filling the dried sludge 2b obtained in the container 10 into a container 10 and a waste plastic 5 containing chlorine, for example, vinyl chloride. A waste plastic dechlorination device 6 that heats and melts the molten waste plastic 5a and fills the container 10 with the melted waste plastic 5a.
A stirrer 11 for stirring the molten waste plastic 5a and the dried sludge 2b filled in the container 10,
Of the molten waste plastic 5a and the dry sludge 2
and an in-drum mixer 13 that agitates and mixes them and then solidifies to produce a solidified body 14.

This sludge / waste plastic treatment system 1
In b, the solid content concentration generated when treating wastewater discharged from public sewage, industrial wastewater, the food industry, etc. is 1%.
% To 3% of the sludge 2 is taken in, dehydrated and concentrated, and dehydrated and concentrated until the solid content concentration becomes 20% to 30%. afterwards,
Drying is performed until the water content becomes 40% to 60% and the particle size becomes 3 mm to 10 mm to produce dry sludge 2 b, which is filled in the container 10. In addition, waste plastics 5 containing chlorine, such as vinyl chloride, are taken in, subjected to dechlorination treatment and heat melting treatment, and the resulting dechlorinated molten waste plastics 5a are filled in a container 10. Thereafter, the molten waste plastic 5a and the dried sludge 2b filled in the container 10 are stirred and uniformly mixed by the in-drum mixer 13, and then the container 10 is removed from the in-drum mixer 13, The molten waste plastic 5a uniformly dispersed in the container 10 is cooled and the packaged solidified body 1 is cooled.
4 is generated.

At this time, the molten waste plastic 5a filled in the container 10 and the dry sludge 2b are uniformly mixed,
The molten waste plastic 5a is filled between the particles of the dried sludge 2b and functions as a binder. When the molten waste plastic 5a is cooled and solidified, the solidified waste plastic, the container 10, and the dried sludge 2b are separated. Integrate to provide sufficient mechanical strength and sufficient water resistance.

<Example 2> The mixing ratio of the dried sludge 2b obtained under the drying conditions shown in FIG. 4 and the molten waste plastic 5a obtained under the dechlorination conditions shown in FIG. Each time, while changing, the molten waste plastic 5a having been subjected to the desalination treatment and the dry sludge 2b are filled in the container 10, a plurality of solidified bodies 14 are generated, and pressure is applied to each solidified body 14, When the uniaxial compressive strength was measured, FIG.
As shown in the figure, 300 kg / cm ² , 250 kg / cm ² , 230 k
g / cm ² uniaxial compressive strength could be secured.

Each solid 14 obtained by mixing the desalted molten waste plastic 5a filled in the container 10 and the dried sludge 2b is immersed in pure water at room temperature for one month. When the weight change was measured and the water absorption was measured, the weight change could be reduced to 0.02% or less, 0.04% or less, and 0.05% or less, and it had sufficient water resistance. I was able to confirm that.

From these measurement results, it was found that as the content of the molten waste plastic 5a subjected to the desalination treatment was increased, the mechanical strength and the water resistance could be increased.

As described above, in the second embodiment,
Solids concentration of 1% to 3% generated when treating wastewater discharged from public sewage, industrial wastewater, food industry, etc.
The sludge 2 is taken up, dehydrated and concentrated, and the solid content concentration is 20
% To 30% after dehydrating and concentrating, the water content is 40%
Drying is performed until the particle size becomes 3 mm to 10 mm to produce dried sludge 2 b, which is filled in the container 10, and the waste plastic 5 containing chlorine, such as vinyl chloride, is taken in. Chloride treatment, heat melting treatment,
The demineralized molten waste plastic 5a thus obtained is filled in the container 10, and the in-drum mixer 13 stirs the molten waste plastic 5a filled in the container 10 and the dried sludge 2b. After mixing uniformly, the container 10 is removed from the in-drum mixer 13 and the molten waste plastic 5a uniformly dispersed in the container 10 is cooled, and the packaged solidified body 1 is cooled.
4 is generated. For this reason, the molten waste plastic 5a subjected to the desalination treatment and the dried sludge 2b are packaged and used as building materials such as sidewalk tiles and drains.
A solid and highly water-resistant solid body 8 suitable for reuse as a solid fuel or the like can be formed, whereby the sludge 2 and the waste plastic 5 can be simultaneously and efficiently treated. Can be.

Further, even if the solidified body 14 is disposed of in a landfill or the like as a waste, the solidified body
Even if 4 comes into contact with water, the dried sludge 2b can be prevented from returning to a sludge state again, and a stable form can be maintained as disposal waste.

Further, in the second embodiment, the dried sludge 2b and the desalted molten waste plastic 5a can be mixed in the container 10, whereby the container 1
0, the dried sludge 2b and the desalted molten waste plastic 5a can be packaged to greatly improve the mechanical strength of the solidified body 14 (the effect of claim 3).

Further, in the second embodiment, the waste plastic 5 can be treated with chlorine-containing vinyl chloride or the like, so that not only waste plastic such as rubber and styrene foam but also vinyl chloride alone can be used. This is mixed with the dried sludge 2b,
Can be generated.

<< Description of Third Embodiment >> FIG. 3 shows a third embodiment of a sludge / waste plastic treatment system according to claims 1, 4 and 5 of the sludge / waste plastic treatment system according to the present invention. It is a block diagram showing a form. In this figure, the same parts as those in FIG. 1 are denoted by the same reference numerals.

The sludge / waste plastic treatment system 1c shown in this figure is a sludge 2 having a solid concentration of 1% to 3% which is generated when treating wastewater discharged from public sewage, industrial wastewater, food industry, and the like. And the solid content concentration is 2
Centrifugal dehydrator 3 for dehydrating and concentrating until 0% to 30%
And the sludge 2 obtained by the dehydration and concentration treatment of the centrifugal dehydrator 3.
a, the water content is 40% to 60%, and the particle size is 3 m.
m to 10 mm, the thin film dryer 4 for producing the dried sludge 2b and the waste plastic 5 containing chlorine, for example, vinyl chloride, are taken in, dechlorinated, heated and melted, and removed. A molten waste plastic dechlorination apparatus 6 for producing a molten waste plastic 5a that has been subjected to a chlorination treatment, and a molten waste plastic 5a obtained by the waste plastic dechlorination apparatus 6 and a dry sludge 2b obtained by the thin film dryer 4 are outdrum-typed. And an out-drum mixing tank 16 that fills the container 17 to form a packaged solidified body 18 after uniformly mixing the mixture.

This sludge / waste plastic treatment system 1
In (c), dehydration and concentration are performed when a waste liquid discharged from public sewage, industrial wastewater, food industry, or the like is processed, and dehydration and concentration is performed until the solid content concentration becomes 20% to 30%. Thereafter, the water content is 40% to 60%, and the particle size is 3 mm to 10 m.
m to produce dried sludge 2b.
In addition, waste plastics 5 containing chlorine, such as vinyl chloride, are taken in, subjected to a dechlorination treatment, and heated and melted.
a, and the dried sludge 2b are uniformly mixed by an out-drum method, and then filled in a container 17 to produce a packaged solidified body 18.

At this time, the molten waste plastic 5a filled in the container 17 and the dried sludge 2b are mixed more uniformly by the out-drum method as compared with the second embodiment described above. To dry sludge 2b
When the molten waste plastic 5a is cooled and solidified when cooled, the solidified waste plastic, the container 17, and the dried sludge 2b are integrated to provide sufficient mechanical strength. To have sufficient water resistance.

<Example 3> The mixing ratio of the dried sludge 2b obtained under the drying conditions shown in FIG. 4 and the molten waste plastic 5a obtained under the dechlorination conditions shown in FIG. Each time, while changing, the molten waste plastic 5a having been subjected to the desalination treatment and the dry sludge 2b are mixed, and then the mixture is filled in a container 17 to generate a plurality of solidified bodies 18,
When pressure was applied to each solidified body 18 and its uniaxial compressive strength was measured, as shown in FIG. 6, 200 kg / cm ² , 350 kg /
The uniaxial compressive strength of cm ² and 450 kg / cm ² could be secured.

Further, the molten waste plastic 5a having been subjected to the desalination treatment and the dry sludge 2b are mixed, and each solid 18 obtained by filling the container 17 is immersed in pure water at room temperature for one month. When the weight change was measured and the water absorption was measured, the weight change was 0.07% or less, 0.05% or less, and 0.1% or less.
02% or less, and it was confirmed that the film had sufficient water resistance.

From these measurement results, it was found that as the content of the desalted molten waste plastic 5a was increased, the mechanical strength and the water resistance could be increased.

As described above, in the third embodiment,
Dewatering and concentration generated when treating wastewater discharged from public sewage, industrial effluent, food industry, and the like. After dehydrating and concentrating until the solid concentration becomes 20% to 30%, the water content is 40% to 60%. %, Until the particle size becomes 3 mm to 10 mm,
The dried waste sludge 2b is produced by drying, and the waste plastics 5 containing chlorine, such as vinyl chloride, are taken in, and subjected to a desalination treatment and a heating and melting treatment. And the dried sludge 2b are uniformly mixed by an out-drum method, and then filled in a container 17 to produce a packaged solidified body 18. For this reason, the desalination-processed molten waste plastic 5a and the dried sludge 2b are packaged, and are strong and suitable for reuse as building materials such as sidewalk tiles, drains, solid fuels, and the like. The solidified body 18 having high water resistance can be formed, whereby the sludge 2 and the waste plastic 5 can be simultaneously and efficiently treated.

Further, even if the solidified body 18 is disposed of in a landfill site as waste, the solidified body
Even if 8 comes into contact with water, the dried sludge 2b can be prevented from returning to a sludge state again, and a stable form can be maintained as disposal waste.

Further, in the third embodiment, the molten waste plastic 5 which has been subjected to the desalination treatment by the out-drum method is used.
a and the dried sludge 2b are uniformly mixed and then filled into the container 17, so that the dried sludge 2b and the dechlorinated molten waste plastic 5a are uniformly mixed to form the solidified body 18. The mechanical strength can be greatly improved and the desalted molten waste plastic 5
By increasing the mixing ratio of a, it can be used as a solid fuel.

Further, in the third embodiment, as the waste plastics 5, chlorine-containing vinyl chloride or the like can be treated, so that not only waste plastics such as rubber and styrene foam but also vinyl chloride alone can be used. This is mixed with the dried sludge 2b to obtain the solidified body 18
Can be generated.

<< Description of Other Embodiments >> In the above-described first to third embodiments, the molten waste plastic 5a obtained by heating and melting the waste plastic dechlorination apparatus 6 is used. Although the sludge / waste plastic container 7 and the containers 10 and 17 are filled as they are, the molten waste plastic 5a obtained by the heating and melting treatment of the waste plastic dechlorination apparatus 6 is once solidified, and then solidified again. After melting, sludge / waste plastic container 7, each container 10, 1
7 may be filled.

By doing so, the waste plastic dechlorination apparatus 6 can be installed independently of the sludge / waste plastic processing system 1a to 1c, and can be installed in another place. By dispersing the respective devices constituting the sludge / waste plastic processing system 1a to 1c, the land can be easily secured, and the gas or the like emitted from the waste plastic dechlorination device 6 does not affect the surroundings. Can be

In the first to third embodiments described above, the sludge 2a dewatered by the centrifugal dehydrator 3 is dried by the indirect heating method using the thin film dryer 4, and the dried sludge 2b is dried. The centrifugal dehydrator 3 is produced using a direct heating method using a rotary kiln or a vacuum dehydration heating method using a vacuum dehydrator.
The dried sludge 2a is dried by the
b may be generated.

Further, the first to third embodiments described above
In the embodiment, waste plastics 5 containing chlorine, such as vinyl chloride, are treated. However, such waste plastics containing no chlorine, such as polyethylene and polystyrene, have thermoplasticity. When processing plastics, an ordinary melting device may be used instead of the waste plastic dechlorination device 6 described above.

Further, the first to third embodiments described above
In the embodiment, the sludge / waste plastic container 7 and each of the containers 10 and 17 are filled with the dried sludge 2b obtained by the thin film dryer 4 and the molten waste plastic 5a obtained by the waste plastic dechlorination device 6. However, after mixing the dried sludge 2b and the molten waste plastic 5a, the mixture may be injected into a mold or the like to generate a solidified body having a predetermined shape.

[0064]

As described above, according to the present invention, in the sludge / waste plastic treatment system according to the first aspect, the waste plastic subjected to the desalination treatment and the dried sludge are packaged to form a tile material and a drain ditch for a sidewalk. Strong and water-resistant solidified material suitable for reuse as building materials, solid fuels, etc. can be formed, thereby simultaneously and efficiently treating sludge and waste plastic. can do.

In the sludge / waste plastic treatment system according to the second aspect, the desalted waste plastic can be packaged so as to wrap dry sludge, thereby producing a solidified body having sufficient mechanical strength. Even if earth pressure or impact is applied, accidents such as breakage of solidified body can be prevented, and dry sludge hardly comes into contact with water, greatly improving water resistance. it can.

In the sludge / waste plastic treatment system according to the third aspect, the dried sludge and the desalted waste plastic can be mixed in a container, whereby the container, the dried sludge, and the desalted waste waste can be mixed. By packaging with plastic, the mechanical strength of the solidified body can be greatly improved.

In the sludge / waste plastic treatment system according to the fourth aspect, the dry sludge and the waste plastic subjected to the desalination treatment can be mixed in a mixing tank and then filled in a container, whereby the dry sludge and the waste plastic can be removed. Uniform mixing with chlorinated waste plastic can greatly improve the mechanical strength of the solidified material, and can be used as a solid fuel by increasing the mixing ratio of dechlorinated waste plastic Can be

In the sludge / waste plastic treatment system according to the fifth aspect, it is possible to treat chlorine-containing vinyl chloride and the like, whereby any waste plastic is mixed with dry sludge to produce a solidified body. be able to.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a first embodiment of a sludge / waste plastic treatment system according to claims 1, 2 and 5 of the sludge / waste plastic treatment system according to the present invention.

FIG. 2 is a block diagram showing a second embodiment of the sludge / waste plastic treatment system according to the first, third and fifth aspects of the sludge / waste plastic treatment system according to the present invention.

FIG. 3 is a block diagram showing a second embodiment of a sludge / waste plastic treatment system according to claims 1, 4, and 5 of the sludge / waste plastic treatment system according to the present invention.

FIG. 4 is a table showing an example of conditions when dry sludge is obtained by the sludge / waste plastic treatment system according to the present invention.

FIG. 5 is a table showing an example of conditions for obtaining molten waste plastic by the sludge / waste plastic treatment system according to the present invention.

FIG. 6 is a table showing uniaxial compressive strength characteristics and water absorption characteristics of each solid obtained by the sludge / waste plastic treatment system according to the present invention.

[Explanation of symbols]

 1a, 1b, 1c: Sludge / Waste Plastic Treatment System 2: Sludge 2b: Dry Sludge 3: Centrifugal Dehydrator 4: Thin Film Dryer (Dryer) 5: Waste Plastic 5a: Molten Waste Plastic 6: Waste Plastic Dechlorination Device ( Melting device) 7: Sludge / waste plastic filling container (solidifying device) 8, 14, 18: Solidified body 10, 17: Container (solidifying device) 11: Stirrer 12: Motor 13: In-drum mixer (solidifying device) 16: Out drum mixing tank (solidifying device)

Continued on the front page F term (reference) 4D059 AA03 BD11 BD19 BE38 BG02 CC03 CC04 EB01 EB07 4F201 AA15 AB28 AC01 AD01 BA05 BC01 BC12 BC25 BC37 BN21 BP15 BP25 BP31

Claims (5)

[Claims] 1. A sludge / waste plastic treatment system for treating sludge and waste plastics, wherein the sludge containing water is taken in and dried until the water content and the particle size become predetermined values to produce dry sludge. A dryer, a melting device that heats and melts the waste plastic to produce a molten waste plastic, and packages the molten waste plastic obtained by the melting device and the dried sludge obtained by the dryer. A sludge / waste plastic processing system, comprising: a solidifying device that generates a solidified body. 2. The sludge / waste plastic processing system according to claim 1, wherein the solidifying device is filled with the dried sludge obtained by the dryer and then melted waste plastic obtained by the melting device. Is constituted by a container filled around the dried sludge. 3. The sludge / waste plastic treatment system according to claim 1, wherein the solidifying device is filled with dried sludge obtained by the dryer and molten waste plastic obtained by the melting device. A sludge / waste plastics treatment system, comprising: a container that mixes the dried sludge and the molten waste plastic filled in the container. 4. The sludge / waste plastic treatment system according to claim 1, wherein the solidifying device mixes the dried sludge obtained by the dryer with the molten waste plastic obtained by the melting device. A sludge / waste plastic treatment system, comprising: an outdrum mixing tank; and a container filled with dry sludge and molten waste plastic mixed by the outdrum mixing tank. 5. The sludge / waste plastic treatment system according to claim 1, wherein the melting device is configured to perform a desalination treatment when melting the waste plastic containing chlorine. Sludge / waste plastic processing system for melting waste plastic that has been subjected to desalination.