JP2009207999A - Asbestos decomposing system using polysulfide hot water - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an asbestos treating system and a method of manufacturing chemicals suitable for treating the asbestos. <P>SOLUTION: An asbestos-containing waste material, an alkaline metal body, sulfur and water or steam are heated to cause reaction and then solid-liquid separation is carried out to separate a solid product containing polysulfide produced by ionic bonding of the alkaline metal body and sulfur from its aqueous solution. Otherwise after the asbestos-containing waste material is immersed in an aqueous solution of the polysulfide produced by ionic bonding of the alkaline metal body and sulfur, alkaline metal body, sulfur and water or steam are mixed, an obtained mixture is heated to cause reaction and then solid-liquid separation is carried out to separate the solid product containing polysulfide produced by ionic bonding of the alkaline metal body and sulfur from its aqueous solution. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  TECHNICAL FIELD The present invention relates to a technology for decomposing asbestos using polysulfide hot water, and relates to a treatment system for asbestos and a method for producing a drug containing polysulfide produced by the system.

  Asbestos is used in a wide range of applications as a construction material because it is excellent in durability, heat resistance, chemical resistance, electrical insulation, and other properties and is inexpensive.

  However, if fiber bodies that are frequently used as construction materials are scattered and sucked into the human body, there is a risk of harm to health, so measures to prohibit use are taken and waste materials that have already been used as construction materials are taken. Processing is taken (for example, refer to Patent Document 1).

JP 2005-279589 A

  However, the conventional method for treating waste materials containing asbestos requires large-scale equipment and is expensive, and asbestos is scattered during the treatment, which may cause harm to workers and the environment. was there.

  Therefore, in the present invention according to claim 1, the waste material containing asbestos, the alkali metal body, sulfur, water, or water vapor are heated and reacted, and then solid-liquid separation is performed to ionically bond the alkali metal body and sulfur. The present invention provides an asbestos treatment system characterized by separation into a solid product containing polysulfide and an aqueous solution thereof.

  Moreover, in this invention which concerns on Claim 2, after immersing the waste material containing asbestos in the polysulfide aqueous solution which ion-bonded the alkali metal body and sulfur, mixing an alkali metal body, sulfur, water, or water vapor | steam Treatment with asbestos, characterized in that it is separated into a solid product containing polysulfide obtained by ion-bonding alkali metal and sulfur and an aqueous solution thereof by solid-liquid separation after heating and reaction. A system is provided.

  According to a third aspect of the present invention, there is provided an asbestos treatment system characterized in that the aqueous solution obtained by the solid-liquid separation is circulated and used as the polysulfide aqueous solution.

  Further, in the present invention according to claim 4, the waste material containing asbestos, the alkali metal body, sulfur and water or water vapor are heated and reacted, and then solid-liquid separation is performed to ionically bond the alkali metal body and sulfur. The present invention provides a method for producing a drug containing polysulfide, which comprises separating the drug containing polysulfide and an aqueous solution thereof.

  Moreover, in this invention which concerns on Claim 5, after immersing the waste material containing asbestos in the polysulfide aqueous solution which ion-bonded the alkali metal body and sulfur, mixing an alkali metal body, sulfur, water, or water vapor | steam Containing a polysulfide characterized in that it is separated into a solution containing an agent containing polysulfide in which alkali metal and sulfur are ion-bonded and an aqueous solution thereof. A method for producing a drug is provided.

  The present invention according to claim 6 provides a method for producing a drug containing polysulfide, characterized in that the aqueous solution obtained by solid-liquid separation is recycled as the polysulfide aqueous solution. It is.

  And in this invention, there exists an effect described below.

  That is, in the present invention, asbestos contained in the waste material can be decomposed and reformed from a fibrous state to a lump shape, and the waste material containing asbestos can be treated well, and at the same time, heavy metal solidification is performed. And drugs having effects such as asbestos degradation can be produced.

  Below, the processing method of the asbestos which concerns on this invention, and the manufacturing method of the chemical | medical agent containing the polysulfide manufactured by the system are demonstrated concretely.

  As shown in FIG. 1, in the asbestos treatment system according to the present invention, first, a waste material containing asbestos, an alkali metal body, sulfur and water or water vapor are heated and reacted (hot water reaction). Here, the waste material is crushed in advance.

  Thereafter, as shown in FIG. 1, the solid-liquid mixed product produced by the above reaction is subjected to solid-liquid separation, whereby a solid containing a polysulfide in which an alkali metal and sulfur are ion-bonded. The product is separated into its aqueous solution.

  The solid product containing polysulfide obtained by ion-bonding alkali metal and sulfur produced by the asbestos treatment system shown in FIG. 1 is a solid drug having effects such as heavy metal solidification and asbestos decomposition. Can be used effectively.

  An aqueous solution of a solid product containing a polysulfide in which sulfur is ion-bonded with an alkali metal produced in the above asbestos treatment system is also a liquid agent having effects such as heavy metal solidification and asbestos decomposition. Can be used effectively.

  Therefore, the asbestos treatment system is a system for treating waste materials containing asbestos, and at the same time, can be used as a method for producing a drug having effects such as heavy metal solidification and asbestos decomposition.

  In addition, a solid product containing polysulfide in which sulfur is ion-bonded with an alkali metal body produced by the asbestos treatment system shown in FIG. It is contained in a large amount, and this modifying substance is a bulking agent for a drug that is a solid product.

  In addition, the asbestos treatment system according to the present invention can use waste materials pretreated with the above-mentioned chemicals.

  That is, as shown in FIG. 2, in the asbestos treatment system according to the present invention, first, a polysulfide obtained by ion-bonding an alkali metal body and sulfur to a waste material containing asbestos (a drug that is a solid product) ) In an aqueous solution (polysulfide aqueous solution), followed by solid-liquid separation to extract a solid material (pretreatment). Here, the liquid extracted by solid-liquid separation is an aqueous solution of polysulfide in which an alkali metal body and sulfur are ion-bonded, and can be recycled as an aqueous solution used in the pretreatment. The waste material is crushed in advance.

  Then, as shown in FIG. 2, the solid substance, the alkali metal body, sulfur, water, or water vapor separated by the solid-liquid separation is heated and reacted (hot water reaction).

  Thereafter, as shown in FIG. 2, the solid-liquid mixed product produced by the above reaction is subjected to solid-liquid separation, whereby a solid state containing a polysulfide in which an alkali metal body and sulfur are ion-bonded is obtained. The product is separated into its aqueous solution.

  In the asbestos treatment system shown in FIG. 2 as well, the solid product containing polysulfide obtained by ion-bonding the generated alkali metal and sulfur is a solid state having effects such as heavy metal solidification and asbestos decomposition. It can be used effectively as a drug.

  Further, even in the above asbestos treatment system, an aqueous solution of a solid product containing polysulfide obtained by ion-bonding an alkali metal body and sulfur to be produced is a liquid state having effects such as heavy metal solidification and asbestos decomposition. It can be used effectively as a medicine.

  Therefore, the asbestos treatment system is also a system for treating waste materials containing asbestos, and at the same time, it can be used as a method for producing a drug having effects such as heavy metal solidification and asbestos decomposition.

  In addition, the aqueous solution finally produced | generated and isolate | separated is the aqueous solution of the polysulfide which ion-bonded the alkali metal body and sulfur, and can also be circulated and utilized as the aqueous solution used by pre-processing. Moreover, the solid product finally produced and separated is a polysulfide obtained by ion-bonding an alkali metal and sulfur, and the aqueous solution of this solid product is also used as an aqueous solution for pretreatment. It can be recycled.

  Moreover, the solid product containing polysulfide in which sulfur is ion-bonded with an alkali metal body and sulfur produced in the asbestos treatment system shown in FIG. It is contained in a large amount, and this modifying substance is a bulking agent for a drug that is a solid product.

  The above reaction shown in FIG. 1 or FIG. 2 is performed by stirring and mixing waste material containing asbestos (or a pretreated solid material), a crushing medium, an alkali metal body, and sulfur inside a sealed container. Do.

Here, as the alkali metal body, any one or a mixture of one or two kinds of metal bodies or other alkali metal bodies can be used. The first class of metal bodies refers to any one of lithium (Li), sodium (Na), potassium (K), rubidium (Rb), cesium (Cs), and francium (Fr). , Beryllium (Be), magnesium (Mg), calcium (Ca), strontium (Sr), barium (Ba), radium (Ra), other alkali metal bodies are slaked lime, quick lime and mixtures thereof Refers to substances that become alkali metallized by simple substances such as water or heat, and aqueous solutions of sulfur are lithium sulfide (Li ₂ S), sodium sulfide (Na ₂ S), potassium sulfide (K ₂ S), rubidium sulfide (Rb) ₂ S), cesium sulfide (Cs ₂ S), francium sulfide (Fr ₂ S), beryllium sulfide (BeS), magnesium sulfide (MgS), calcium sulfide (CaS), sulfide stolons Um (SrS), refers to an aqueous solution of barium sulphide (BaS), radium sulfide (RaS), and the aqueous solution of polysulfide, lithium sulfide (Li ₂ S _X), sodium sulfide (Na ₂ S _X), potassium sulfide ( K ₂ S _X ), rubidium sulfide (Rb ₂ S _X ), cesium sulfide (Cs ₂ S _X ), francium sulfide (Fr ₂ S _X ), beryllium sulfide (BeS _X ), magnesium sulfide (MgS _X ), calcium sulfide ( CaS _X ), strontium sulfide (SrS _X ), barium sulfide (BaS _X ), radium sulfide (RaS _X ) refers to an aqueous solution of x = 6 to 12, and the metal hydroxide is lithium hydroxide (Li ₂ OH), Sodium hydroxide (Na ₂ OH), potassium hydroxide (K ₂ OH), rubidium hydroxide (Rb ₂ OH), cesium hydroxide (Cs ₂ OH), francium hydroxide (Fr ₂ OH), beryllium hydroxide (BeOH) ), Magnesium hydroxide (MgOH), calcium hydroxide (CaOH), hydroxide It refers to trontium (SrOH), barium hydroxide (BaOH), and radium hydroxide (RaOH). These mixtures also include fly ash.

  Moreover, the polysulfide aqueous solution can utilize the aqueous solution of the polysulfide produced | generated using the well-known chemical reaction.

  In particular, as a method for stably and safely producing polysulfides (however, Sx (x = 6 to 12)), any one of potassium hydroxide, magnesium hydroxide, calcium hydroxide, sodium hydroxide or a mixture thereof is used. There is a method in which sulfur and sulfur are reacted in an airtight container while stirring and mixing under high pressure of 98 ° C to 345 ° C without discharging steam.

For example, when calcium hydroxide and sulfur are used, they can be produced by mixing slaked lime, sulfur and water,
^{_{Ca (OH) 2 → Ca ++}} + 2OH -
Ca ⁺⁺ + S → CaS
Reaction occurs.
This CaS is
_{^{2CaS + 4OH - → H 2 S}} + Ca (OH) 2 + S + Ca + O 2
It becomes.

  Here, in the conventional manufacturing method, a part of hydrogen sulfide and oxygen was released to the atmosphere as steam, but in the present invention, this reaction is performed in a sealed container so that the steam is not discharged. .

Therefore, the above reaction proceeds accurately,
H ₂ S + Ca (OH) ₂ + S + Ca → Ca (HS) ₂ + Ca (OH) ₂
It becomes.

CaS is
2CaS + 2H ₂ O → Ca (HS) ₂ + Ca (OH) ₂
It becomes.

In addition, CaS
CaS + (x-1) S → CaSx
Thus, CaSx (x = 6) is stably generated.

  This is not limited to when calcium hydroxide is used, and even when potassium hydroxide, magnesium hydroxide, sodium hydroxide or a mixture thereof is used, a polysulfide containing Sx (x = 6) Can be generated stably.

  In particular, potassium hydroxide, magnesium hydroxide, calcium hydroxide, sodium hydroxide, or a mixture thereof and sulfur and potassium, magnesium, calcium, or sodium adhering to the surface of the sulfur particles are crushed and peeled off. By reacting with stirring and mixing, polysulfide (however, Sx (x = 6)) can be generated more stably.

  In addition, when the reaction is performed at a temperature higher than the melting temperature of sulfur, polysulfide (however, Sx (x = 8)) can be stably generated.

  In addition, when a predetermined amount of potassium hydroxide, magnesium hydroxide, calcium hydroxide, sodium hydroxide or a mixture thereof is continuously mixed in a mixed solution of sulfur and hot water, polysulfide (However, Sx (x = 8 to 10)) can be generated stably.

  Moreover, slaked lime is mixed in a mixed solution of potassium hydroxide, magnesium hydroxide, calcium hydroxide, sodium hydroxide or a mixture thereof and sulfur and hot water in a low temperature environment (−20 ° C. to 0 ° C.). In this case, milky polysulfide (where Sx (x = 6 to 12)) can be stably produced.

  In addition, calcium is mixed in a mixed solution of potassium hydroxide, magnesium hydroxide, calcium hydroxide, sodium hydroxide or a mixture thereof and sulfur and hot water in a low temperature environment (-30 ° C to -25 ° C). In this case, polysulfide (however, Sx (x = 8)) can be stably generated.

  In addition, when sulfur pulverized to 100 μm or less (preferably 50 μm or less), potassium hydroxide, magnesium hydroxide, calcium hydroxide, sodium hydroxide or a mixture thereof is used in a powder or silt state Can stably produce polysulfides (however, Sx (x = 10 to 12)).

  Moreover, polysulfide can also produce | generate the alkali ash which is a waste as an alkali metal body (raw material). For example, fly ash (coal species; generated by co-firing 50% Musselburg and 50% Drayton, alkalinity PH13.5) as alkali ash, 20 parts by weight fly ash, 20 parts by weight sulfur, 100 parts by weight water First, 20 parts by weight of fly ash and 100 parts by weight of water are placed in a reaction can, the top lid is closed, and the mixer is operated to mix for about 10 minutes.

Next, a safety valve is set, the exhaust pressure is set to about 10 kg / cm ² as the upper limit reaction pressure, the furnace body cooling drain valve and the cooling valve are opened, and the cooling water inlet valve is opened to allow water to flow.

Next, in order to suppress evaporation during the reaction, a preload of about 2.5 kg / cm ² is applied by pressurization with an air compressor.

Next, the burner is ignited, the pressure gauge and the thermometer are confirmed, and the temperature is raised while mixing. At this time, the pressure is set to 10 kg / cm ² or less, and after the thermometer display reaches 110 ° C., the mixture is reacted for about 30 minutes.

  Next, the burner is stopped and left until the pressure gauge is lowered. When the pressure gauge is stabilized, the final residual pressure is completely discharged by the exhaust valve and assimilated with the atmospheric pressure.

  Next, the mixer is stopped, the discharge valve is opened, the solid product and its aqueous solution are discharged, and these are recovered.

  Next, the recovered product is cooled and solid-liquid separated by precipitation separation to obtain a solid product and an aqueous solution thereof. Here, 130 parts by weight of an aqueous solution and 20 parts by weight of a solid product could be obtained.

  The recovered aqueous solution contained calcium polysulfide and was a yellow-green pH 10 liquid with a liquid specific gravity of 1.2 g / cc.

  Further, when incineration fly ash pH 13.5 was used as a raw material, a brown pH 11 liquid containing calcium polysulfide and having a liquid specific gravity of 1.15 g / cc was obtained.

  In addition, the production | generation method of the polysulfide using the said alkali ash as a raw material and its aqueous solution is also a production method of a polysulfide aqueous solution, and if the waste material containing asbestos is added to a raw material, the asbestos shown in the said FIG. If a solid material pretreated with an aqueous polysulfide solution is added to the raw material, the asbestos treatment system (pharmaceutical production method) shown in FIG. 2 is obtained.

Explanatory drawing which shows the processing system of asbestos. Explanatory drawing which shows the processing system of asbestos.

Claims (6)

  A solid product containing polysulfide in which waste material containing asbestos, alkali metal, sulfur and water or water vapor are heated and reacted and then solid-liquid separation is performed to ion-bond alkali metal and sulfur; An asbestos treatment system that is separated into its aqueous solution.   The waste material containing asbestos is immersed in an aqueous solution of polysulfide in which an alkali metal body and sulfur are ion-bonded, and then the alkali metal body, sulfur and water or water vapor are mixed and heated to react, and then solid-liquid An asbestos treatment system characterized in that it is separated into a solid product containing a polysulfide obtained by ion-bonding alkali metal and sulfur and an aqueous solution thereof.   The asbestos treatment system according to claim 2, wherein the aqueous solution obtained by the solid-liquid separation is recycled as the polysulfide aqueous solution.   An asbestos-containing waste material, an alkali metal body, sulfur and water or water vapor are heated and reacted, followed by solid-liquid separation and a polysulfide-containing drug in which the alkali metal body and sulfur are ion-bonded, and an aqueous solution thereof. The manufacturing method of the chemical | medical agent containing a polysulfide characterized by separating into 2 parts.   The waste material containing asbestos is immersed in an aqueous solution of polysulfide in which an alkali metal body and sulfur are ion-bonded, and then the alkali metal body, sulfur and water or water vapor are mixed and heated to react, and then solid-liquid A method for producing a polysulfide-containing drug, characterized by separating the drug into a polysulfide-containing drug obtained by ion-bonding alkali metal and sulfur and an aqueous solution thereof.   6. The method for producing a polysulfide-containing drug according to claim 5, wherein the aqueous solution obtained by the solid-liquid separation is recycled as the polysulfide aqueous solution.

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