JP5192649B2 - Asbestos processing method, recycled material derived from asbestos, and manufacturing method thereof - Google Patents

Description

  The present invention relates to a method for treating asbestos, a recycled material derived from asbestos, and a method for producing the same.

  Asbestos is a fibrillar silicate mineral that has been defibrated and is flexible, heat resistant and chemically inert, so it has been widely used as a heat-retaining and fire-resistant material. Use in buildings is prohibited because it can cause seed cancer. In recent years, the removal and recovery of asbestos present in a state where it can be scattered in a living environment or the like has been promoted. The collected asbestos is landfilled or melted and solidified after bagging to prevent its scattering. However, landfill disposal is limited on the land, and the melted and solidified material has a high temperature of 1000 ° C or higher. It was difficult in terms of cost because it was necessary.

Then, the processing method of asbestos is examined. For example, a method of mixing asbestos waste into cement and using it as a fiber reinforced cement (Patent Document 1), a method of melting and solidifying by arc melting or thermal plasma, or adding a glass component to melt and solidify to vitrify (Patent Documents 2 and 3) have been studied. Furthermore, attempts have been made to render it harmless by mixing with a CFC-decomposed product and heating at a low temperature (Patent Document 4).
JP 2000-271561 A JP-A-8-84969 JP-A-2005-279589 JP 2005-168632 A

  However, the above-mentioned Patent Document 1 merely postpones the treatment of asbestos, and the methods of Patent Documents 2 to 4 can detoxify asbestos, but Patent Documents 2 and 3 require about 1000 ° C., The method of Patent Document 4 also requires a high temperature of about 600 ° C. Therefore, until now, no method has been found for detoxifying asbestos at a lower temperature, for example, at a low temperature of 400 ° C. or lower. In addition, no method that can be reused at the same time has been found.

  Accordingly, an object of the present invention is to provide a method for treating asbestos that can render the asbestos harmless even at a low temperature of about 400 ° C. or lower. Another object of the present invention is to provide a method for treating asbestos, which can be made harmless by treatment at a temperature of 400 ° C. or lower, and can be converted into a reusable material, a recycled material, and a method for producing the same. To do.

  The present inventors focused on the composition of asbestos, which is an ore compound, and also focused on the use of hydrothermal reaction. And we found that by converting asbestos by hydrothermal reaction in the presence of an appropriate metal source for asbestos, the asbestos-specific acicular structure can be converted into another structure and made harmless under mild conditions. Completed the invention. That is, according to the present invention, the following means are provided.

  According to the present invention, there is provided a method for treating an asbestos-containing material, wherein asbestos contained in the asbestos-containing material and a metal source capable of supplying a metal other than an alkali metal to a hydrothermal reaction system are brought into contact with each other to perform a hydrothermal reaction. A treatment method is provided comprising a hydrothermal reaction step to be performed.

  In this treatment method, the metal of the metal source is (a) a metal contained in the asbestos and / or (b) a metal other than the metal of (a) and the metal contained in the asbestos and hydrothermal heat. It can be a metal capable of forming a reaction product. Moreover, the said metal source is good also as 1 type, or 2 or more types selected from the group which consists of an aluminum compound, a calcium compound, a magnesium compound, and a silicon compound. Furthermore, the asbestos-containing material may contain the metal source.

  In this treatment method, the hydrothermal reaction step may be a step of performing the hydrothermal reaction until no asbestos-derived peak is observed by X-ray diffraction. Furthermore, the hydrothermal reaction step may be a step of further using the asbestos dissolution accelerator. The dissolution accelerator may be one or more selected from alkali metal compounds or ammonium compounds. The hydrothermal reaction step may be a step of performing a hydrothermal reaction at 100 ° C. or higher and 250 ° C. or lower, 1 atm or higher and 30 atm or lower. Furthermore, the hydrothermal reaction step may be a step of performing a hydrothermal reaction using a templating agent.

  Moreover, according to this invention, it is a manufacturing method of recycled material, Comprising: The manufacturing method provided with the said hydrothermal reaction process in the processing method of the asbestos containing material in any one of the said is provided.

  Furthermore, according to this invention, the recycle material which can be manufactured with the manufacturing method of the said recycle material is provided.

  The method for treating an asbestos-containing material according to the present invention is a hydrothermal reaction in which an asbestos contained in the asbestos-containing material is brought into contact with a metal source capable of supplying a metal other than an alkali metal to a hydrothermal reaction system to perform a hydrothermal reaction. A process can be provided. According to this treatment method, asbestos contained in the asbestos-containing material is hydrothermally synthesized using a new metal source and transformed (composition change and / or crystal structure change), thereby eliminating the harmful needle-like structure. Can be rendered harmless. In addition, according to this treatment method, asbestos can be detoxified under mild conditions because the composition of asbestos is used as it is and asbestos is transformed using a new metal source. In addition, by using such a modification step, it is possible to adjust the composition after the modification, and it is also possible to adjust the pore diameter by using an appropriate pore diameter regulator (template agent). Therefore, according to this processing method, asbestos can be reused easily and effectively. Hereinafter, embodiments of the present invention will be described in detail.

(Method of processing asbestos-containing material)
(Asbestos-containing material)
The asbestos-containing material that is the starting material of the present invention may be composed of only asbestos, or may contain components other than asbestos. Asbestos includes not only chrysotile, which is a fibrous hydrous silicate mineral produced from serpentinite, but also various minerals such as crocidolite, amosite, anthophyllite, tremolite and actinolite. In addition to asbestos, minerals as impurities such as brucite, forsterite, enstatite, calcite and chromite, as well as risardite and antigolite, which are the main constituent minerals other than the serpentine mineral chrysotile, are included. Can be mentioned. Furthermore, other components that are used at the same time as asbestos or collected at the same time, for example, components other than asbestos of various building materials using asbestos such as cement.

  As the asbestos-containing material of the present invention, ore can be used, but building materials such as slate plates, roof tiles, fireproof coating materials, and heat insulating materials using asbestos, or industrial wastes thereof can also be used. By using such starting materials, exposure to asbestos in the living environment can be suppressed and efficient recycling can be achieved.

(Metal source)
In this invention, the metal source which can supply metals other than an alkali metal to a hydrothermal reaction system is used. Specifically, the metal to be supplied may be any component that can generate a new hydrothermal reaction composition by hydrothermal reaction with constituent metals of various asbestos minerals contained in the asbestos-containing material. Accordingly, the supplied metal may be a metal other than the asbestos ore constituent metal or an asbestos ore constituent metal. Examples of such metal species include aluminum, calcium, magnesium, and silicon. These various metal species can be used alone or in combination of two or more. Moreover, according to the composition of the mineral to be obtained, the metal species to be used can be selected and the blending thereof can be appropriately adjusted. For example, when obtaining a zeolite, typically, aluminum and tetrapropylammonium as a templating agent can be used.

  The metal source for supplying these various metal species to the hydrothermal reaction system is not particularly limited, and a metal compound that can be dissolved in the hydrothermal reaction system may be used. For example, various metal hydroxides, various metal oxide hydrates, various hydrolyzable organic or halogenated metal compounds such as metal alkoxides, and aluminum sources include aluminum hydroxide such as amorphous aluminum hydroxide gel, Examples include alumina monohydrate such as boehmite, various alumina hydrates such as alumina trihydrate such as vialite and gibbsite, sodium aluminate, and various aluminum alkoxides. Examples of the silicon source include sodium silicate, colloidal silica, and various alkoxides. Moreover, the silicate of various metal species can be used not only as a metal source of the metal species but also as a metal source of the metal species and silicon. Furthermore, as the metal source, not only such a compound but also clay containing various clay minerals containing two or more metal species may be used. For example, pyrophyllite, kaolinite, montmorillonite and the like can be mentioned.

  Such various metal sources may be contained in the asbestos-containing material that is the starting material of the present invention. This is because, for example, minerals and silicates in cement used for the matrix of artificial slate or refractory material may correspond to the metal source. Therefore, according to the treatment method of the present invention, waste-derived materials mixed with asbestos can also be used for the treatment of asbestos. Such cement can also be modified by hydrothermal treatment.

(Other ingredients)
In the treatment method of the present invention, an asbestos dissolution accelerator in the asbestos-containing material may be used in addition to the asbestos-containing material and the metal source. In the present invention, the dissolution accelerator may increase the solubility of the raw material and may reduce the crystal formation temperature. By using a dissolution accelerator during the hydrothermal reaction, it is possible to modify asbestos under milder conditions. Examples of such dissolution promoters include alkali metal hydroxides or fluorides, ammonium compounds, and the like. Specifically, hydroxides such as lithium, sodium, and potassium, fluorides, various quaternary ammonium compounds, and the like can be used. In the present invention, an alkali metal hydroxide is preferably used from the viewpoint of reaction rate. For example, it is known that a silica component is melted into an alkali metal hydroxide as represented by water glass, and this tendency is the same even under a hydrothermal reaction. Alkali metal hydroxides are preferred because they can be easily discharged by neutralization. In addition, when an alkali metal is included as a dissolution accelerator, the alkali metal may be contained in the hydrothermal reaction product. Ammonium compounds such as quaternary ammonium compounds can be preferably used because they can be used as fertilizer components after the reaction treatment.

  In the treatment method of the present invention, a templating agent such as a surfactant can be used. In the treatment method of the present invention, a new hydrothermal reaction product is generated between the component derived from asbestos and the metal supplied by the metal source. At this time, for example, a mesopore material having a pore diameter of about 2 to 50 nm can be synthesized by supplying a templating agent. As such a templating agent, various surfactants similar to those conventionally used for synthesizing mesopore materials can be used. The surfactant may be appropriately selected according to the size of the pore diameter and the kind of the reactive species.

(Hydrothermal reaction)
The hydrothermal reaction is a reaction in which substance synthesis or crystal formation is performed in the presence of high-temperature high-pressure water. Since the present invention utilizes such a hydrothermal reaction and reacts the asbestos-containing material in a wet and sealed container, the influence of scattering during processing can be effectively avoided or suppressed. Further, according to the treatment method of the present invention, even when a dissolution accelerator is not used, asbestos can be denatured and detoxified at a temperature of 250 ° C. or less and 30 atm or less. For this reason, compared with the conventional asbestos processing method which required about 600 degreeC or more, the processing method of this invention can process asbestos safely and at low cost. Furthermore, when using a dissolution promoter, the hydrothermal reaction can be carried out at a lower temperature and / or a lower pressure, for example, at 200 ° C. or lower and 15 atm or lower. Under such mild conditions, asbestos can be easily treated at low cost, and it can be easily treated at the collection site of the asbestos-containing material. For this reason, the secondary damage by scattering at the time of the operation | work at the time of collection | recovery can be avoided or suppressed effectively.

  The concentration of asbestos during the hydrothermal reaction is not particularly limited, but can be 3 kg / L or less. Preferably it is 1 kg / L or less. The concentration of the metal source is not particularly limited, but can be 1.6 kg / L or less. The concentration of the metal source is also determined taking into account the asbestos concentration. Furthermore, the concentration of the dissolution accelerator and the templating agent may be appropriately set so that the intended effect can be obtained.

  Moreover, since asbestos itself is in a defibrated state in the asbestos-containing material that is subjected to a hydrothermal reaction, it is not necessary to further subdivide it in order to detoxify the asbestos itself. When cement or the like is recovered at the same time, other materials such as cement may be subdivided as appropriate in consideration of separation or modification of the cement or the like.

  Such a hydrothermal reaction can be carried out as long as asbestos is detoxified or has reduced toxicity. For example, it is preferable to carry out until the asbestos-derived peak by X-ray diffraction is not observed in the reaction product. Such reaction conditions and reaction time can be set in advance.

  Such a hydrothermal reaction can be easily carried out by using a hydrothermal reactor. For example, in addition to high-temperature and high-pressure apparatuses used in various industrial fields, a general autoclave is also possible. After completion of the hydrothermal reaction, an appropriate solid-liquid separation treatment is performed to obtain an asbestos treated product (hydrothermal reaction product) as a solid. And if necessary, any one of washing, drying, pulverization, molding, etc., or two or more treatments can be performed.

(Characteristics of processed products)
The asbestos-treated product thus obtained does not have an asbestos-specific needle-like structure and does not contain the main ore crystals of asbestos. For this reason, it can be said that the processed asbestos obtained by this processing method is detoxified. Furthermore, the asbestos-treated product according to the present invention can be supplied with a new metal species so as to have a crystal having an unprecedented composition and structure by a hydrothermal reaction, and thus is suitable for reuse. . Moreover, when it becomes a porous material by hydrothermal reaction, it can be used also for various catalysts, a soil improvement agent, etc. Furthermore, when a templating agent or the like is contained, a pore material having mesopores can be obtained and used for adsorption / desorption of a large component and various uses.

(Method for manufacturing recycled materials)
According to this invention, the manufacturing method of a recycled material provided with the hydrothermal reaction process of an above-described processing method is also provided. According to this production method, asbestos can be detoxified easily and safely using the hydrothermal reaction and the composition of asbestos, and asbestos-derived recycled material can be provided safely and at low cost.

Hereinafter, the present invention will be specifically described by way of examples.
In this example, a pressure vessel with a Teflon (registered trademark) inner cylinder with an internal volume of 150 ml was used as the hydrothermal treatment apparatus. Chrysotile powder 0.5g, aluminum chloride 1g and 5N NaOH aqueous solution 50ml were put in an inner cylinder container and sealed in a pressure container. This container was allowed to stand in a thermostatic layer and treated at 200 ° C. and 15 atm for 24 hours. After the treatment, the reaction product in the inner cylinder container was filtered, washed and dried to obtain a reaction product. While measuring the X-ray diffraction spectrum about the obtained reaction product, it confirmed with the electron microscope. FIG. 1 shows an X diffraction spectrum.

  As shown in FIG. 1, in the treated product of this example, the crystal peak of asbestos chrysotile was not observed, but the crystal peak of lizardite or clinochlore was observed. Moreover, it was also observed from the observation result with an electron microscope that the needle-like structure peculiar to asbestos had disappeared. From the above results, it was found that asbestos can be easily transformed and rendered harmless under mild temperature conditions.

The figure which shows the X-ray-diffraction spectrum of the reactive organism after the hydrothermal reaction of an Example.

Claims (10)

A method for treating asbestos-containing material,
Against asbestos contained in the asbestos-containing material, wherein the containing aluminum, one or more metal sources and alkali metal capable of supplying metal other than alkali metal in the hydrothermal reaction system is selected from calcium and magnesium Hydrothermal reaction that changes the composition of minerals in the asbestos to a composition containing a metal other than the alkali metal by supplying a dissolution promoter that promotes dissolution of asbestos and bringing them into contact with each other to carry out a hydrothermal reaction. Comprising the steps,
Processing method.   The processing method according to claim 1, wherein the metal other than the alkali metal includes aluminum.   The processing method according to claim 1 or 2, wherein the dissolution accelerator is one or more selected from the group consisting of alkali metal hydroxides, fluorides, and ammonium compounds.   The processing method according to claim 1, wherein the metal source is selected from the group consisting of an aluminum compound, a calcium compound, and a magnesium compound.   The processing method in any one of Claims 1-4 which implements the said hydrothermal reaction process at 1 atmosphere or more and 30 atmospheres or less.   The processing method in any one of Claims 1-5 which implements the said hydrothermal reaction process at 100 degreeC or more and 250 degrees C or less.   The processing method according to claim 1, wherein the hydrothermal reaction step is a step of performing a hydrothermal reaction using a templating agent.   The said hydrothermal reaction process is a processing method in any one of Claims 1-7 which is a process of implementing the said hydrothermal reaction until the peak derived from asbestos by X-ray diffraction is no longer observed. A method for manufacturing recycled materials,
A manufacturing method provided with the said hydrothermal reaction process in the processing method of the asbestos containing material in any one of Claims 1-8.   A recycled material that can be produced by the method of claim 9.