JP2008238038A - Treatment method for asbestos-containing waste material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a treatment method for completely and safely detoxifying an asbestos-containing waste material in an optional form. <P>SOLUTION: The treatment method of the asbestos-containing waste material is performed by the physical treatment of making asbestos in the waste material nonasbestos and turning it to a detoxification treated object by finely pulverizing the asbestos-containing waste material and the mechanochemical treatment of making the asbestos in the waste material nonasbestos and turning it to the detoxification treated object by impregnating the asbestos-containing waste material with an alkaline aqueous solution and then pulverizing the waste material. Especially by adopting a mechanochemical reaction process, the structure destruction of the asbestos is accelerated. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a method for treating waste material containing asbestos, and more particularly to a method for treating asbestos-containing waste material capable of completely and safely treating waste material containing asbestos.

  Conventionally, asbestos has been widely used in various fields because strength does not decrease over a long period of time. Slate plates, water pipes, fireproof coating materials, brake pads, gaskets, heat insulation plates, ropes, packing, acetylene Although it has been used for many parts such as cylinder filling materials, in recent years it has become clear that asbestos causes many health problems such as cotton lung, lung cancer, malignant mesothelioma, and its use is prohibited. ing.

In particular, as a member containing asbestos, a slate member, a fireproof covering material, and the like are often used, and these slate members and the like are often used for a ceiling, a wall material, and the like.
However, these asbestos-containing parts that have been used in large quantities are dangerous to continue to use as they are for the environmental reasons described above, and must be disposed of or made harmless immediately. It has become.

  Asbestos-containing members such as slate materials produced in large quantities so far are handled as general waste and are currently disposed of as industrial waste, but the scattering and release of asbestos has become a problem. Urgent safety measures are required.

  In particular, the demolition of buildings using asbestos-containing building materials such as fireproof covering materials and collapsed ceiling panels has peaked, but the problems of asbestos exposure and treatment of asbestos have become serious.

Such asbestos is a naturally occurring mineral fiber, for example, serpentinite chrysotile (3MgO.2SiO ₂ .2H ₂ O) amphibole-based amosite ((Mg, Fe) ₇ Si ₈ O ₂₂ (OH) ₂ ), crocidolite (Na ₂ Fe ₃ ²⁺ Fe ₂ ³⁺ Si ₈ O ₂₂ (OH) ₂ ), anthophyllite (Mg ₇ Si ₈ O ₂₂ (OH) ₂ ), tremolite (Ca ₂ Mg ₅ Si ₈ O ₂₂ ( _OH) 2), actinolite _{(Ca 2 (Mg, Fe)} 5 Si 8 O 22 (OH) 2) can be mentioned.
Such serpentine chrysotile is known to dehydrate and transform at about 700 ° C when heated and become harmless forestlite (2MgO · SiO ₂ ) at about 900 ° C. It is difficult to make them harmless.

  Since the harmfulness of such asbestos is derived from the fiber, Patent 3680958 (Patent Document 1) discloses a method of detoxifying the fiber by modification and melting of cement using a rotary kiln. A manufacturing method, characterized in that asbestos waste material is supplied into the rotary kiln from the vicinity of the combustion means provided on the discharge port side of the rotary kiln, and the supplied asbestos waste material and cement raw material are processed by the combustion means. A cement manufacturing method is described.

  JP-A-2005-279589 (Patent Document 2) discloses a melting agent comprising borax, a mixture of boric acid and sodium carbonate, or a mixture of borax and sodium carbonate without pulverizing slate waste containing asbestos. In a melting furnace filled with a melting agent, the pretreated slate waste is pretreated by placing it in an aqueous solution of the slate and impregnating it with a melting agent from the surface of the slate waste into the voids inside the slate. A method for treating slate waste is characterized in that asbestos in the slate waste is melted and vitrified by being immersed in 780 ° C to 1000 ° C.

  Further, JP-A-2006-52177 (Patent Document 3) converts an inorganic material waste material into a cement manufacturing kiln together with a cement manufacturing raw material, and converts it into cement by heat treatment. In the method for treating waste materials of inorganic materials, the size of the waste material is the minimum value of 1 mm or more, the maximum value is 1/10 or less of the inner diameter of the cement manufacturing kiln and the surface of the waste material is at any location inside the waste material. Adjust the dimensions so that the shortest distance is within the range of 30 mm or less, and the ratio of the waste material to the total amount of the waste material and the cement raw material is in the range of 1 to 20% in terms of mass ratio in the dry state. In addition, it is put into the kiln for cement production from the kiln bottom of the kiln, heat-treated at 1000 to 1500 ° C. for 20 to 60 minutes to obtain a sintered body, and the obtained sintered body is pulverized. Method of processing scrap mineral-based material, wherein bets are described.

In the conventional methods described in each of the above patent documents, asbestos-containing waste is put into a melting furnace or cement kiln to make it harmless.
However, when asbestos-containing waste is supplied to a melting furnace or a cement kiln, it is not possible to prevent the asbestos from being scattered or released. In the process of asbestos eventually scatters and dissipates and supplies to melting furnaces and cement kilns, such as using heavy machinery to destroy asbestos-containing waste materials to decompose, form fine cracks, etc. The health impact problem has not been fully resolved.
In particular, with respect to the melting process, a high-temperature process must be performed, and there is a problem that it is considerably costly.
Further, in the conventional detoxification method by acid treatment, since it is dissolved in an acid and liquefied, treatment after the acid treatment is difficult, and inorganic substances other than highly reactive asbestos dissolve in the acid. In order to dissolve, there is a problem that a large amount of acid is required.
Patent No. 3680958 JP 2005-279589 A JP 2006-52177 A

The objective of this invention is providing the processing method of the asbestos containing waste material which can make the asbestos containing waste material of arbitrary forms harmless completely and safely.
In particular, even when the waste material containing asbestos has a large size or is a slate plate, it can prevent the asbestos dust from scattering and diffusing and can be completely and safely detoxified. An object of the present invention is to provide a method for treating an asbestos-containing waste material that does not depend on treatment with an acid.

  The present inventors have found that asbestos-containing waste materials can be completely and safely detoxified by finely pulverizing the asbestos-containing waste materials, more particularly by using mechanochemical means for pulverizing and pulverizing the asbestos-containing waste materials, The present invention has been reached.

  The method for treating asbestos-containing waste material according to claim 1 of the present invention is characterized in that asbestos in the waste material is made non-asbestos to be detoxified by pulverizing the waste material containing asbestos. This is a method for treating asbestos-containing waste materials.

The processing method of the asbestos-containing waste material according to claim 2 of the present invention is the processing method of the asbestos-containing waste material according to claim 1, wherein the waste material containing asbestos is wet pulverized under an alkaline solution, An asbestos-containing waste material processing method characterized in that asbestos is made non-asbestos into a detoxified product.
Preferably, the asbestos-containing waste material treatment method according to claim 3 is the asbestos-containing waste material treatment method according to claim 2, wherein the asbestos-containing waste material is heated and / or pressurized during the pulverization. It is a processing method.

  Here, asbestos detoxification or non-asbestos formation means that asbestos is finely pulverized to have a particle shape with an aspect ratio of less than 3, or asbestos undergoes a mechanochemical reaction in an alkaline aqueous solution to produce chrysotile, crocidolite, It represents a state in which needle-like crystals such as amosite are converted into other substances, and such a state is harmless to the human body.

The processing method of the asbestos-containing waste material of the present invention can safely and completely detoxify the asbestos-containing waste material.
By finely pulverizing the asbestos-containing waste material, harmful needle-like crystals can be destroyed, and the aspect ratio can be reduced to reduce the harmfulness due to physical shape change.
In particular, wet milling of asbestos-containing waste materials in an alkaline solution is effective in reducing the toxicity due to physical shape change due to the reduction of the aspect ratio due to grinding, and also by the mechanochemical reaction by grinding energy in the presence of alkali. In addition, since the structural destruction of asbestos is promoted, the processed material can be rendered harmless in a short time.
Moreover, regardless of the properties of the asbestos-containing waste material, waste materials of any shape and size, such as slate plates and sprayed waste materials, can be treated without melting or treatment with a large amount of acid.

The present invention will be described with reference to the following best mode examples, but is not limited thereto.
The method for treating asbestos according to the present invention is a method for treating asbestos in which asbestos in the waste material is made non-asbestos to be detoxified by pulverizing the waste material containing asbestos.
Asbestos is not harmful if the needle crystal is destroyed because the needle crystal is harmful. Therefore, the asbestos-containing waste material is pulverized, particularly pulverized, to reduce the aspect ratio of asbestos and destroy the acicular crystals.

  The processing method of the asbestos-containing waste material of the present invention pulverizes the asbestos-containing waste material until the needle-like crystals are broken.

Moreover, this invention is a processing method of asbestos which makes the asbestos in a waste material non-asbestos by making the asbestos in this waste material non-asbestos by wet-grinding the waste material containing asbestos in an alkaline solution.
In this way, by combining the alkali treatment and the pulverization treatment, the mechanochemical treatment can be performed, and any form of asbestos can be safely and completely rendered harmless.
When used as a cement raw material, the asbestos that has been treated with alkali is neutralized with acid before being subjected to cement kiln treatment, so that the handling becomes safe and the impact on health can be greatly reduced. Become.

  The asbestos-containing waste material to which the method for treating asbestos-containing waste material of the present invention can be applied is not particularly limited, and for example, as long as it is a member containing asbestos, such as sprayed waste material, slate plate, etc. All can be targeted.

In the method for treating asbestos-containing waste material according to the present invention, in order to treat the asbestos-containing waste material with an alkaline solution, specifically, for example, the asbestos-containing waste material may be impregnated with an alkaline solution.
Examples of the alkaline solution that can be used include aqueous caustic solutions such as sodium hydroxide, potassium hydroxide and calcium hydroxide, and aqueous alkali carbonates such as sodium carbonate and potassium carbonate. The reaction is not particularly limited as long as the reaction occurs, but the higher the concentration, the more harmless treatment can be performed in a short time and in a large amount.
Moreover, what is necessary is just to set the density | concentration of an alkaline solution suitably according to the condition on the spot.

By such alkali treatment, the structure forming the Si—O or FeO skeleton of asbestos can be destroyed, and therefore the acicular crystals can be broken.
Further, the aspect ratio of the asbestos needle crystal can be reduced, and the needle crystal structure can be made a structure close to a cubic structure.

The pulverization process in the present invention is roughly divided into two processes, a crushing process and a pulverizing process.
In the crushing process, first, the asbestos-containing waste material is crushed by a crusher after impregnating the asbestos-containing waste material with water or an aqueous alkaline solution in order to prevent dust scattering during crushing. The crushing is preferably performed by a wet method.
Examples of the crusher include a jaw crusher, a hammer mill, an impact crusher, a rotary crusher, and a shredder, and these can be used alone or in combination.
The particle size after crushing is preferably 3 mm or less, more preferably 1 mm or less in order to prevent clogging when the crushed material is conveyed by pumping or to promote efficient crushing with a fine crusher.

The crushed material after the pulverization treatment is conveyed to the pulverization treatment step by, for example, pumping as a slurry.
In the pulverization process, the asbestos-containing waste material crushed in the crushing process is pulverized by a pulverizer.
The pulverization is preferably performed in a wet manner, and more preferably wet pulverization in an alkaline aqueous solution.
In other words, structural destruction of asbestos is promoted by the structural destruction of asbestos due to alkali, the reduction of aspect ratio due to grinding, the reduction of toxicity due to physical shape change, and the mechanochemical reaction by grinding energy in the presence of alkali. The processed product can be rendered harmless in a short time.

Examples of the pulverizer include a medium stirring mill, a tower mill, a vibration mill, a ball mill, and a planetary mill.
By grinding using such means, the specific surface area of the waste material can be increased, the contact area between the asbestos-containing waste material and the alkaline aqueous solution can be increased, and detoxification can be effectively performed.
Moreover, the temperature of alkaline aqueous solution rises to about 70-80 degreeC by carrying out the fine grinding process.
Therefore, the temperature rise can be made more harmless more efficiently.

In the pulverizing step, it is possible to heat and pressurize as necessary, whereby the detoxification treatment of the waste material can be carried out in a shorter time.
The pulverized product pulverized by the pulverizer is classified by a classifier such as a wet cyclone.
Of the classified particles, the coarse particles are returned to the pulverizer, and the fine particles are discharged out of the system as a detoxified product.
The operating conditions such as pulverization time, pulverized ball diameter, slurry concentration in the case of wet pulverization, and classification conditions are determined by performing a test operation in advance for each equipment to be used.
In the test operation, fine particles after classification are sampled and the content of chrysotile, crocidolite, amosite, etc. is less than 0.1% as measured by X-ray diffraction, or a phase contrast microscope, polarizing microscope, scanning type The operating conditions are determined so that the aspect ratio is less than 3 as measured by any of the electron microscopes.

The detoxified product treated as described above can be further subjected to neutralization treatment and / or dehydration treatment.
Neutralization treatment is performed when wet pulverization is performed in an aqueous alkali solution. The detoxified product obtained in the pulverization treatment step is charged into an agitator and neutralized with an acid, and this acid is removed with a decanter. You should make it rinse.
The dehydration process may be performed by a decanter, a filter press or the like, and a cake-like processed product is obtained by such a process.

Such a cake-like processed product can be used as a cement raw material as it is or after being dried and put into a cement kiln.
Specifically, the non-asbestos-detoxified detoxified product is supplied to a melting furnace and melted.

  Such a cement kiln is preferably a cement kiln of a cement clinker firing plant, particularly a cement rotary kiln. By using such a cement kiln, it becomes possible to uniformly melt a large amount at a time. It becomes possible to produce cement clinker by firing together with other raw materials, and it is also possible to effectively recycle asbestos-containing waste materials.

The asbestos-containing treatment method of the present invention can be applied not only to slate waste materials but also to treatment of many other asbestos-use materials, and enables safe disposal.
Moreover, it becomes possible to apply also to manufacturing cement which reused this waste material.

Claims (3)

A method for treating an asbestos-containing waste material, characterized in that asbestos in the waste material is made non-asbestos into a detoxified product by pulverizing the waste material containing asbestos. The method for treating asbestos-containing waste material according to claim 1, characterized in that the asbestos in the waste material is made non-asbestos to be detoxified by wet-grinding the waste material containing asbestos in an alkaline solution. A method for treating waste material containing asbestos. The method for treating asbestos-containing waste material according to claim 2, wherein the asbestos-containing waste material is heated and / or pressurized during the pulverization.