JP2003310791A - Hydrothermal oxidation decomposing processing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hydrothermal oxidation decomposing method which enables the complete treatment of an organic harmful substance such as a PCB-containing substance, e.g. an insulating oil of a transformer or the like. <P>SOLUTION: This hydrothermal oxidation decomposing processing method is equipped with a cylindrical batch type reactor 11, water (H<SB>2</SB>O) 12, a hydrogen peroxide water (oxidizing agent) 13, sodium hydroxide (NaOH) 14, pressurizing pumps 12a to 15a, a stirring means 16 and a stirring blade 17 which stir the inside of the reactor 11, and a throw-in port 18 from which a harmful substance is thrown in. In this case, the pressurizing pumps 12a to 15a pressurize a liquid or slurry-like article 15 to be processed in the reactor 11. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydrothermal oxidative decomposition method for completely treating organic harmful substances such as PCB-containing substances such as insulating oil of transformers and the like.

[0002]

BACKGROUND ART In recent years, PCB (Polychlorinated biph)
Since enyl, polychlorinated biphenyl: a generic term for chlorinated isomers of biphenyl) is highly toxic, its production and import are prohibited. Although this PCB was first manufactured in Japan around 1954, its adverse effects on the living body and environment became clear as a result of the Kanemi Yusho incident.
In the past year, there was a history of instructions to discontinue production and collection (duty of storage) due to administrative guidance.

PCB has 1 to 1 chlorine in the biphenyl skeleton.
It has 0 substitutions, and theoretically there are 209 kinds of isomers depending on the number and position of the substituted chlorine.
About 100 or more isomers have been confirmed in CB products. In addition, the physical and chemical properties among these isomers, the in vivo stability, and the environmental dynamics are so diverse that the chemical analysis of PCB and the mode of environmental pollution are complicated at present. Further, PCB is one of the persistent organic pollutants, is not easily decomposed in the environment, is fat-soluble, has a high bioconcentration rate, and is semi-volatile, and is capable of being transferred through the atmosphere. In addition, it has been reported that it widely remains in the environment such as water and living things. As a result, since PCB is extremely stable in the body, it accumulates in the body and causes chronic poisoning (skin disorders, liver disorders, etc.), carcinogenicity, reproduction and reproduction.
Developmental toxicity is noted.

Since PCB has been widely used as an insulating oil for transformers and capacitors, it is necessary to treat the PCB.
A hydrothermal oxidative decomposition technique for detoxifying CB has been proposed (JP-A-11-253795).

However, in the hydrothermal oxidative decomposition technique, it is necessary to miniaturize the substance to be decomposed in order to supply it to the inside of the high-pressure tank. However, there is a problem that it is difficult to form a slurry.

[0006] Further, in the case of supplying the finely-divided product or the slurry product with a high-pressure pump, the equipment becomes large in size, and it is desired to carry out the treatment with simple equipment.

On the other hand, PCBs of organic halides are strict in terms of the toxicity of the hydrothermal decomposition treatment liquid from the viewpoint of toxicity, and are required to have a high decomposition rate (undecomposed rate of 10 ⁻⁶ to 10 ⁻⁷ ).

In view of the above problems, the present invention provides a hydrothermal oxidative decomposition method capable of completely decomposing with a simple facility in a hydrothermal oxidative decomposition apparatus for treating harmful substances such as PCB from a transformer or the like. Is an issue.

[0009]

The first invention for solving the above-mentioned problems is a hydrothermal oxidative decomposition treatment method for completely detoxifying harmful substances in the presence of sodium carbonate or potassium carbonate under a subcritical condition. The decomposition temperature is 30
The hydrothermal oxidative decomposition method is characterized in that the oxidative decomposition treatment is carried out in a batch reaction treatment tank under conditions of 0 to 390 ° C. and a pressure of 22 to 30 MPa.

According to the above invention, the substance to be decomposed is not limited to liquid or slurry-like harmful substances,
Even a solid substance or a coarsely pulverized substance can be completely decomposed.

A second invention is the same as the first invention, wherein sodium carbonate (Na ₂
CO ₃ ) in the presence of sodium chloride (NaC) by dehalogenation reaction and oxidative decomposition reaction of the organic halide.
l), a hydrothermal oxidative decomposition method characterized in that a toxic substance is oxidatively decomposed by using a batch type hydrothermal oxidative decomposition device for decomposing it into carbon dioxide (CO ₂ ).

According to the above invention, the reaction under heating and pressurization
Sodium carbonate (Na ₂CO₃)The presence of
Below, dehalogenation reaction and oxidation of organic halides
Sodium chloride (NaCl) and carbon dioxide
(CO₂) Etc. using a hydrothermal oxidation decomposition device
This makes it possible to completely decompose harmful substances.

A third invention is the hydrothermal oxidative decomposition method according to the first invention, wherein the harmful substance is an organic halide-containing material or an organic halide.

According to the above invention, the organic halide is completely decomposed.

A fourth invention is a hydrothermal oxidative decomposition method according to the first invention, wherein the organic halide is PCB.

According to the above invention, the PCB is completely decomposed.

A fifth aspect of the present invention is a tubular batch reactor, and a supply pump for supplying water (H ₂ O), an oxidizing agent, sodium hydroxide or potassium hydroxide into the reactor. A batch-type hydrothermal oxidative decomposition treatment apparatus comprising a stirring means for stirring the inside of the reactor and a charging port for charging a harmful substance therein.

According to the above invention, the object of decomposition treatment is not limited to liquid or slurry harmful substances,
Even a solid substance or a coarsely pulverized substance can be completely decomposed.

A sixth aspect of the invention is the batch type hydrothermal oxidative decomposition treatment apparatus according to the fifth aspect of the invention, characterized in that a charging basket for charging a harmful substance is provided in the reactor.

According to the above-mentioned invention, even when an iron core such as a transformer or a cut product such as a coil crushed product is put in, the metallic treatment residue remains in the basket. Will be easier.

[0021]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below, but the present invention is not limited to these embodiments.

The hydrothermal oxidative decomposition method of the present embodiment is a hydrothermal oxidative decomposition method for completely detoxifying harmful substances in the presence of sodium carbonate or potassium carbonate under a subcritical condition, and the decomposition treatment temperature is Is 300 to 390 ° C. and the pressure is 22 to 30 MPa, and the oxidative decomposition treatment is carried out in a batch reaction treatment tank.

In the present embodiment, PCB which is an organic halide as a harmful substance will be described below as an example, but the present invention is not limited to this.

Here, the apparatus for the oxidative decomposition treatment is sodium carbonate (Na) in a heated and pressurized reactor.
_In the presence of ₂ CO ₃ ), a hydrothermal oxidative decomposition apparatus is used that decomposes an organic halide (PCB) into sodium chloride (NaCl), carbon dioxide (CO ₂ ) and the like by dehalogenation reaction and oxidative decomposition reaction.

An example of the hydrothermal oxidative decomposition treatment apparatus is shown in FIG. As shown in FIG. 1, the hydrothermal oxidative decomposition treatment apparatus according to the present embodiment includes a cylindrical batch reactor 11, water (H ₂ O) 12, hydrogen peroxide solution (oxidizing agent). ) 1
3, pressure pumps 12a to 15a for pressurizing the sodium hydroxide (NaOH) 14 and the liquid or slurry-like treated material 15 into the reactor 11, a stirring means 16 and a stirring blade 17 for stirring the inside of the reactor 11. A charging port 18 for charging a harmful substance therein is provided. The treated liquid 20 after treatment is transferred to a drainage tank 21 for drainage treatment, and a treatment residue 22 is appropriately extracted from the bottom of the reactor 11.

Here, the hydrothermal decomposition reaction of PCB in the reactor 11 will be described. First, at the start of the reaction, oil, an organic solvent or the like is oxidized by an oxidant (hydrogen peroxide solution is used in this embodiment) supplied from the oxidant supply source into the primary reactor 122 to generate carbon dioxide (CO ₂ ). To generate.
This oxidation reaction is an exothermic reaction, whereby the temperature in the system rises and the pressure rises accordingly.

In the present embodiment, the temperature and pressure inside the primary reactor 11 are, for example, 350 to 390 ° C. and 22 to 3 respectively.
By reacting for a desired time in a subcritical state maintained at about 0 MPa, harmful substances such as PCB are decomposed.

The CO ₂ produced as described above reacts with sodium hydroxide supplied with the PCB in the primary reactor 122 to produce sodium carbonate (Na ₂ CO ₃ ). 2NaOH + CO ₂ → Na ₂ CO ₃ + H ₂ O (A) Next, Na ₂ CO produced by the reaction of the above (A)
₃ reacts with PCB, desalting and oxidatively decomposing PCB. C ₁₂ H ₆ Cl ₄ + 12.5O ₂ + 2Na ₂ CO ₃ → 4NaCl + 3H ₂ O + 14CO ₂ (B) In the case of the above-mentioned PCB having a chlorine number of 4, the same reaction is obtained for other chlorine numbers. Occurs, PCB is H ₂
It is decomposed into O, CO ₂ , and NaCl. The CO ₂ generated by the above reaction (B) is further converted into N ₂ by the above reaction (A).
Na ₂ CO that reacts with aOH and is required for the reaction of (B)
_Will generate ₃ . By the way, the above (B) PC
In the B decomposition reaction, sodium carbonate (Na ₂ C
O ₃ ) acts not only as a reaction agent but also as a catalyst for promoting the decomposition reaction of (B). Further, it has been found that the decomposition reaction of the above (B) is promoted in an alkaline atmosphere (for example, pH 10 or higher).

According to the above hot water decomposition apparatus 10, the reactor 1
1, the current PCB emission standard value (3 pp
b) It is decomposed to below 0.5 ppb so that it can be completely decomposed. As a result, the PCB-containing article can be completely processed, and the PCB can be completely extinguished.

The harmful substances in the present invention include, for example, insulating oils used in transformers and capacitors, such as PCB and PC.
Examples thereof include paints containing B and PCB contaminants, but are not limited thereto.

Further, since the PCB contaminants can be introduced through the inlet, the object to be decomposed is not limited to liquid or slurry-like harmful substances, and even solid substances or coarsely pulverized substances can be completely removed. Can be disassembled.

In addition, since the object to be treated can be charged from the charging port 18 at room temperature and atmospheric pressure, the supply equipment for supplying the high pressure (22 MPa or more) into the reactor becomes unnecessary.

Further, fibrous organic substances and the like which are difficult to cut and finely cut are not slurried, so that a slurry facility is unnecessary and a pretreatment time is also unnecessary.

Further, since the apparatus configuration is simple, this equipment is installed on a gantry or the like, and each gantry is transported by the transport means,
It is also possible to move to the hazardous substance treatment site and treat it at the site where the hazardous substances are stored.

In particular, when a large amount of treatment is performed on contaminated soil or the like, an antifouling facility for transporting the contaminated soil is required, but if it is a portable treatment device, the treatment device will be contaminated. It can be transported to the site for quick processing, and secondary contamination can be prevented.

[Second Embodiment] FIG. 2 shows another example of the hydrothermal oxidative decomposition treatment apparatus. As shown in FIG. 2, in the hydrothermal oxidative decomposition treatment apparatus according to the present embodiment, in the equipment of the first embodiment, a net 31 is provided inside the reactor 11, and a basket 32 is provided on the net 31. Is provided, and a crushed substance of a harmful substance is put into the basket 32.
As a result, even when an iron core such as a transformer or a cut product such as a coil crushed product is put in, the metallic treatment residue remains in the basket 32. This facilitates the treatment of the residue.

[0037]

As described above, according to the present invention, there is provided a hydrothermal oxidative decomposition treatment method for completely detoxifying harmful substances in the presence of sodium carbonate or potassium carbonate under a subcritical condition. Decomposition temperature is 300-390
Since the oxidative decomposition treatment is carried out in a batch-type reaction treatment tank at a temperature of 22 ° C. and a pressure of 22 to 30 MPa, the decomposition treatment target is not limited to liquid or slurry-like harmful substances, but solid substances or coarsely pulverized substances. But it can be completely decomposed.

[Brief description of drawings]

FIG. 1 is a schematic diagram of a hydrothermal oxidative decomposition apparatus according to a first embodiment.

FIG. 2 is a schematic diagram of a hydrothermal oxidative decomposition apparatus according to a second embodiment.

[Explanation of symbols]

11 Batch type reactor 12 Water (H ₂ O) 13 Hydrogen peroxide water (oxidizer) 14 Sodium hydroxide (NaOH) 15 Liquid or slurry-like treated material 16 Stirring means 17 Stirring blade 18 Input port 20 Treatment liquid 21 Drainage tank 22 Treatment residue 31 Net 32 Basket

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) C07B 37/06 C07B 37/06 C07C 25/18 C07C 25/18 (72) Inventor Masahiko Nagai Nagasaki City, Nagasaki Prefecture 5-717-1, Fukahori-machi Sanryo Heavy Industries Co., Ltd. Nagasaki Research Institute (72) Inventor Nobuyuki Ikeda 5-717-1, Fukahori-cho Nagasaki City, Nagasaki Sanryo Heavy Industry Co., Ltd. (72) Inventor Keiki Yamaguchi 1-1 No. 1 Atsunoura-machi, Nagasaki-shi, Nagasaki Mitsubishi Heavy Industries, Ltd. Nagasaki Shipyard F term (reference) 2E191 BA13 BC01 BD11 4H006 AA05 AC13 AC26 BB31 BC10 BC11 BE10 BE12 BE32 BE60 EA22

Claims (6)

[Claims] 1. A hydrothermal oxidative decomposition treatment method for completely detoxifying harmful substances in the presence of sodium carbonate or potassium carbonate under a subcritical state, wherein the decomposition treatment temperature is 300 to 390 ° C., and the pressure is 22 to Three
A hydrothermal oxidative decomposition method characterized by performing an oxidative decomposition treatment in a batch-type reaction treatment tank under a condition of 0 MPa. 2. The method according to claim 1, wherein sodium carbonate (N
a ₂ CO ₃ ) in the presence of sodium chloride (Na
Cl), carbon dioxide (CO ₂ ) and the like are used in a batch type hydrothermal oxidative decomposition apparatus to oxidize and decompose harmful substances. 3. The hydrothermal oxidative decomposition method according to claim 1, wherein the harmful substance is an organic halide-containing material or an organic halide. 4. The hydrothermal oxidative decomposition method according to claim 1, wherein the organic halide is PCB. 5. A cylindrical batch reactor, a supply pump for supplying water (H ₂ O), an oxidizing agent, sodium hydroxide or potassium hydroxide into the reactor, and a reactor inside the reactor. A batch type hydrothermal oxidative decomposition treatment apparatus comprising a stirring means for stirring and a charging port for charging a harmful substance therein. 6. The batch type hydrothermal oxidative decomposition treatment apparatus according to claim 5, further comprising a charging basket for charging a harmful substance into the reactor.