JP2012187459A - Method for utilizing sewage sludge incineration ash - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a method for utilizing sewage sludge incineration ash capable of effectively and safely utilizing incineration ash obtained by incinerating sludge including heavy metal ion-containing waste.SOLUTION: The sewage sludge incineration ash is mixed with epoxy resin to prepare a main agent and a curing agent is mixed with the main agent to cure the main agent to thereby mold a molded object having a predetermined shape.

Description

  The present invention relates to a method for using incinerated ash obtained by incinerating sludge discharged in a sewage treatment process.

  Research has been actively conducted on the effective use of incinerated ash produced by incinerating sludge discharged from the sewage treatment process, including horticultural soil, soil conditioners, roadbed roadbed materials, lightweight aggregates, tiles, and bricks. It has been proposed to use concrete secondary products such as blocks, asphalt fillers, cement raw materials, and the like (for example, see Patent Document 1).

JP-A-6-114365

  However, wastes containing heavy metal ions are often mixed with sewage sludge, and incineration ash obtained by incineration of sludge mixed with wastes containing heavy metal ions is used as horticultural soil and soil conditioner. Can not be used at all, and in the case of secondary concrete products such as tiles, bricks and blocks, when the tiles, bricks and blocks are destroyed, the incineration ash is exposed and heavy metal ions may be eluted. There is a problem, and the use of sewage sludge incineration ash is still not enough.

  As a result of repeated research to solve the above problems, the present inventors focused on mixing sewage sludge incineration ash with epoxy resin, and further, mixing sewage sludge incineration ash with epoxy resin was excellent. The present inventors have found that adhesiveness can be obtained and have completed the present invention.

  The objective of this invention is providing the utilization method of the sewage sludge incineration ash which can use the incineration ash obtained by incinerating the sludge containing the waste containing a heavy metal ion effectively and safely.

  In order to achieve the above-mentioned object, the method for using the sewage sludge incineration ash according to claim 1 comprises mixing the sewage sludge incineration ash with an epoxy resin as a main agent, and mixing the main agent with a curing agent and curing it. It is characterized by molding a molded product of the shape.

  The method of using the sewage sludge incineration ash according to claim 2 is to mix the sewage sludge incineration ash as a filler with an epoxy resin as a main agent, and mix the main agent with a curing agent to form an adhesive or a coating type lining material. It is characterized by.

  The method for using the sewage sludge incineration ash according to claim 3 is characterized in that the sewage sludge incineration ash according to claim 1 or 2 is mixed with an epoxy resin together with ceramic and / or talc powder, It is characterized by that.

According to the method for using the sewage sludge incineration ash according to claim 1, the sewage sludge incineration ash is mixed with an epoxy resin as a main agent, and a curing agent is mixed with the main agent and cured to form a molded product of a predetermined shape. Because the incineration ash has many irregular corners on the surface, the numerous irregular corners on this surface will increase the binding property with the epoxy resin, compressive strength, A molded article having high bending strength and high tensile strength can be obtained.
And even if the molded product is destroyed, the incineration ash is covered with epoxy resin, the incineration ash is not exposed from the destruction surface, and even if the incineration ash is exposed, there is little incineration ash. Even if it contains waste containing heavy metal ions, the elution of heavy metal ions is minimal.

According to the method of using sewage sludge incineration ash according to claim 2, sewage sludge incineration ash is mixed with incineration ash as a filler in epoxy resin as a main agent, and a curing agent is mixed with this main agent to form an adhesive or coating type. Because it is a lining material, the incineration ash has a large number of irregular corners on the surface, and the numerous irregular corners on this surface will strengthen the binding with the chemical-resistant epoxy resin, When used as an adhesive, excellent adhesive strength can be obtained, and when applied as a coating type lining material, there is no sagging during coating, and a lining that does not float the coating layer from the coating surface can be obtained, and the compressive strength A lining with high bending strength and tensile strength can be obtained.
Even if the adhesive layer breaks or the lining breaks, the incineration ash is covered with a chemical-resistant epoxy resin, so that the incineration ash is not exposed from the destruction surface and the incineration ash is exposed. However, even if the incineration ash contains waste containing heavy metal ions, the elution of heavy metal ions is small.

  According to the method for using sewage sludge incineration ash according to claim 3, the incineration ash according to claim 1 or 2 is mixed with ceramic and / or talc powder to form a main agent. Molded articles and linings with higher compressive strength, bending strength, and tensile strength can be obtained.

Hereinafter, the form for enforcing the utilization method of the sewage sludge incineration ash which concerns on this invention is demonstrated in detail.
First, the 1st example of the form for enforcing the utilization method of the sewage sludge incineration ash which concerns on this invention is demonstrated.
In this example, the sludge discharged in the sewage treatment process is dehydrated and incinerated to obtain incinerated ash. The particle size of the incinerated ash is not particularly limited, but is preferably a maximum particle size of 500 microns or less and an average particle size of 80 microns or less.
This incinerated ash is mixed with an epoxy resin to form a main agent, and a mixture in which the main agent is mixed with a curing agent is obtained.

  As the above-described epoxy resin, an epoxy resin having chemical resistance is used in this example. A diluent is added to this epoxy resin to form an emulsion, and incinerated ash is mixed with the epoxy resin emulsion. The mixture is used as a main agent, and an amine is mixed with the main agent as a curing agent. Moreover, incineration ash can be mixed not only with an epoxy resin but also with a curing agent. In this example, the incineration ash is mixed with both the epoxy resin and the curing agent.

The content of the incinerated ash in the mixture of the incinerated ash, the epoxy resin, and the curing agent is not particularly limited, but preferably does not exceed 50% by weight. If it exceeds 50%, the viscosity of the mixture increases and the moldability deteriorates. In addition, when the epoxy resin has chemical resistance, the chemical resistance decreases due to incineration ash.
A mixture of the epoxy resin, the incinerated ash, and the curing agent thus obtained is poured into a mold and cured to form a molded product having a predetermined shape.

In the molded product thus formed, the incineration ash has a large number of irregular corners on its surface, and the numerous irregular corners on this surface have a binding property with the epoxy resin. Since it will be strengthened, it will have high compressive strength, bending strength, and tensile strength.
The incineration ash is covered with epoxy resin. Even if the molded product is destroyed, the incineration ash is not exposed from the fracture surface, and even if the incineration ash is exposed, the incineration ash is heavy metal. Even if it contains waste containing ions, the elution of heavy metal ions is minimal.

In particular, if the incineration ash has a maximum particle size of 500 microns or less and an average particle size of 80 microns or less, the incineration ash is hardly exposed from the destruction surface even if the molded product is destroyed, and the incineration ash is also assumed. Even if the ash is exposed, there is very little elution, and even if the incinerated ash contains waste containing heavy metal ions, the elution of heavy metal ions is negligible.
In addition, when the incinerated ash particle size increases, the exposure of the incinerated ash increases when the molded product breaks, and the elution of heavy metal ions slightly increases. In the case of a molded product, it is preferable to use a molded product used in a sewage facility for the precautions when it is destroyed.
In this example, since the epoxy resin has chemical resistance, it does not erode even when it comes into contact with sulfides or other corrosive substances produced from sulfide salts, for example.

  In this example, the incinerated ash is mixed with the epoxy resin to form the main agent. However, the incinerated ash can be mixed with the epoxy resin together with the ceramic or talc powder to form the main agent. In this case, the mixing ratio of incineration ash and ceramics and / or talc is not particularly limited. In addition, the content of incinerated ash, ceramics and / or talc in the mixture of incinerated ash, ceramics and / or talc, epoxy resin and curing agent is not particularly limited, but preferably does not exceed 50% by weight. . If it exceeds 50%, the viscosity of the mixture increases and the moldability deteriorates. Further, when the epoxy resin has chemical resistance, the chemical resistance decreases due to incineration ash, ceramics and / or talc.

Next, a second example of a mode for carrying out the method of using sewage sludge incineration ash according to the present invention will be described.
In this example, as in the first example, the sludge discharged in the sewage treatment process is dewatered and incinerated to obtain incinerated ash. The particle size of the incinerated ash is not particularly limited, but is preferably a maximum particle size of 500 microns or less and an average particle size of 80 microns or less.
This incinerated ash is mixed with an epoxy resin as a filler to form a main agent, and a curing agent is mixed with the main agent to form a mixture.

  In this example, an epoxy resin having chemical resistance is used as the epoxy resin. A diluent is added to this epoxy resin to form an emulsion, and incinerated ash is mixed with the epoxy resin emulsion. The mixture is used as a main agent, and an amine is mixed with the main agent as a curing agent. Moreover, incineration ash can be mixed not only with an epoxy resin but also with a curing agent. In this example, as in the first example, the incineration ash is mixed with both the epoxy resin and the curing agent.

  The content of incinerated ash in the mixture of incinerated ash, epoxy resin, and curing agent is preferably 30% by weight to 50% by weight. When the content of incinerated ash is less than 30% by weight, the viscosity decreases, and for example, workability on a vertical surface or a ceiling is deteriorated. On the other hand, if it exceeds 50% by weight, the viscosity of the mixture of epoxy resin and incineration ash will be high and workability will be poor, and if the epoxy resin has chemical resistance, the chemical resistance of the bonded part will be caused by incineration ash. Decreases.

In the adhesive molded in this way, the incineration ash has a large number of irregular corners on its surface, and the numerous irregular corners on this surface have a binding property with the epoxy resin. Since it strengthens, it becomes a thing with high compressive strength, bending strength, and tensile strength, and is effective, for example, as an adhesive for bonding steel plates such as PVC plates and stainless steel.
And the incineration ash is in a state covered with an epoxy resin, and even if the adhesive layer constituting the bonded portion is destroyed, the incineration ash is not exposed from the destruction surface, and even if the incineration ash is exposed, it is slight. There is little elution of heavy metal ions even if the incineration ash contains waste containing heavy metal ions.

In particular, if the particle size of the incineration ash is a maximum particle size of 500 microns or less and an average particle size of 80 microns or less, the incineration ash is almost exposed from the fracture surface even if the adhesive layer constituting the bonded portion is destroyed. In addition, even if the incineration ash is exposed, it is negligible, and even if the incineration ash contains waste containing heavy metal ions, the elution of heavy metal ions is negligible.
In addition, when the particle size of the incinerated ash increases, the exposure of the incinerated ash increases when the adhesive layer constituting the bonded portion breaks, and the elution of heavy metal ions slightly increases. In the case of an adhesive using incinerated ash of a diameter, it is preferable to use an adhesive used in a sewage facility for precaution when it is destroyed.
In this example, since the epoxy resin has chemical resistance, it does not erode even when it comes into contact with sulfides or other corrosive substances produced from sulfide salts, for example.

In this example, incineration ash is mixed with epoxy resin as the main agent, but as in the first example, incineration ash is mixed with epoxy resin together with ceramics or talc powder to be the main agent. You can also.
In this case, the mixing ratio of incineration ash and ceramics and / or talc is not particularly limited. In addition, the content of incinerated ash, ceramics and / or talc in the mixture of incinerated ash, ceramics and / or talc, epoxy resin and curing agent is preferably 30% by weight to 50% by weight. When the content of incinerated ash is less than 30% by weight, the viscosity is lowered, and for example, workability on a vertical surface or a ceiling is deteriorated. On the other hand, if it exceeds 50% by weight, the viscosity of the mixture of epoxy resin and incineration ash will be high and workability will be poor, and if the epoxy resin has chemical resistance, the chemical resistance of the bonded part will be caused by incineration ash. Decreases.

Next, a third example of a mode for carrying out the method of using sewage sludge incineration ash according to the present invention will be described.
In this example, as in the first example, the sludge discharged in the sewage treatment process is dewatered and incinerated to obtain incinerated ash. The particle size of the incinerated ash is not particularly limited, but is preferably a maximum particle size of 500 microns or less and an average particle size of 80 microns or less.
This incineration ash is mixed with an epoxy resin as a filler to form a main agent, and a curing agent is mixed with this main agent to form a mixture as a coating type lining material.

  In this example, an epoxy resin having chemical resistance is used as the epoxy resin. A diluent is added to this epoxy resin to form an emulsion, and incinerated ash is mixed with the epoxy resin emulsion. The mixture is used as a main agent, and an amine is mixed with the main agent as a curing agent. Moreover, incineration ash can be mixed not only with an epoxy resin but also with a curing agent. In this example, as in the first example, the incineration ash is mixed with both the epoxy resin and the curing agent.

  The content of incinerated ash in the mixture of incinerated ash, epoxy resin, and curing agent is preferably 30% by weight to 50% by weight. If the content of incinerated ash is less than 30% by weight, sagging tends to occur. On the other hand, if it exceeds 50% by weight, the viscosity of the mixture of epoxy resin and incineration ash will be high and workability will be poor, and if the epoxy resin has chemical resistance, the chemical resistance of the bonded part will be caused by incineration ash. Decreases.

In the coating type lining material obtained in this way, the incineration ash has many irregular corners on its surface, and many irregular corners on this surface are binding properties with epoxy resin. Therefore, it is possible to obtain a lining which is free from sagging during coating and does not float on the coating surface, and which has a high compressive strength, bending strength and tensile strength.
The incineration ash is covered with an epoxy resin. Even if the lining is destroyed, the incineration ash is not exposed from the fracture surface, and even if the incineration ash is exposed, the incineration ash is heavy metal ions. Even if the waste contains waste, the elution of heavy metal ions is minimal.

In particular, if the incinerated ash has a maximum particle size of 500 microns or less and an average particle size of 80 microns or less, even if the lining breaks, the incinerated ash is hardly exposed from the fracture surface, and the incinerated ash is Even if exposed, there is very little elution, and even if the incineration ash contains waste containing heavy metal ions, the elution of heavy metal ions is very small.
In addition, when the particle size of the incineration ash becomes larger, the exposure of the incineration ash becomes larger when the lining breaks, and the elution of heavy metal ions slightly increases. In the case of a coating type lining material, it is preferable to use a coating type lining material used in a sewage facility in order to be careful when it is destroyed.
In this example, since the epoxy resin has chemical resistance, it does not erode even when it comes into contact with sulfides or other corrosive substances produced from sulfide salts, for example.

In this example, incineration ash is mixed with epoxy resin as the main agent, but as in the first example, incineration ash is mixed with epoxy resin together with ceramics or talc powder to be the main agent. You can also.
In this case, the mixing ratio of incineration ash and ceramics and / or talc is not particularly limited. In addition, the content of incinerated ash, ceramics and / or talc in the mixture of incinerated ash, ceramics and / or talc, epoxy resin and curing agent is preferably 30% by weight to 50% by weight. If the content of incinerated ash is less than 30% by weight, sagging tends to occur. On the other hand, if it exceeds 50% by weight, the viscosity of the mixture of epoxy resin and incineration ash will be high and workability will be poor, and if the epoxy resin has chemical resistance, the chemical resistance of the bonded part will be caused by incineration ash. Decreases.

However, wastewater containing heavy metal ions is often mixed with sewage sludge, and incineration ash exceeding the environmental standard value obtained by incineration of sludge mixed with waste containing heavy metal ions is not It cannot be used as horticultural soil or soil conditioner, and when it is made into concrete secondary products such as tiles, bricks and blocks, heavy metals exceeding the environmental standard value when tiles, bricks and blocks are destroyed. If the ions will be eluted problem is there Ru. Therefore, the use of sewage sludge incineration ash is limited to secondary products that satisfy the environmental standard value produced by sufficient management, and its use is not necessarily sufficient .

Claims (3)

  A method for using sewage sludge incinerated ash, characterized in that sewage sludge incinerated ash is mixed with an epoxy resin to form a main agent, and a curing agent is mixed with the main agent and cured to form a molded product having a predetermined shape.   A method for using sewage sludge incineration ash, characterized in that sewage sludge incineration ash is mixed with an epoxy resin as a filler to form a main agent, and a curing agent is mixed with the main agent to form an adhesive or a coating lining material.   The method for using sewage sludge incineration ash according to claim 1 or 2, wherein the incineration ash is mixed with an epoxy resin together with ceramics and / or talc powder to form a main agent.