JP2000239190A - Organic halogen compound trap and waste liquid treatment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To treat waste liquid containing at least one of organic halogen compounds with a small-scale treatment equipment, and therefore to reduce workload for treating the waste liquid containing at least one of the organic halogen compounds and to make it easy to treat the waste liquid. SOLUTION: This trap 4 for organic halogen compounds treats organic halogen compounds while waste liquid containing at least one of organic halogen compounds is passed through the trap and is filled with a halogen adsorbent 5 for the selective mineralization of halogen elements X in molecules of the organic halogen compounds and adsorbing/retaining the mineralized halogen elements. In a treatment channel for the waste liquid containing at least one of organic halogen compounds, the trap 4 for organic halogen compounds is placed so as for the waste liquid to pass through the halogen adsorbent 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a waste liquid containing freon, polychlorinated biphenyls, dioxins, and other organic polluting organic halogen compounds, a nuclear medicine medical facility such as a nuclear facility or a hospital, a radiochemical research facility, and the like. TECHNICAL FIELD The present invention relates to an organic halogen compound trap applied to the treatment of a radioactive waste liquid containing an organic halogen compound discharged from a wastewater treatment apparatus and a waste liquid treatment apparatus using the same.

[0002]

2. Description of the Related Art For example, in the field of nuclear medicine, as a treatment for administration of radioisotope (RI) for medical treatment of thyroid cancer and the like,
A radioisotope such as iodine-131 (I-131) is administered to the patient as RI. The patient receiving the radioisotope excretes excrement containing the radioisotope, and the excretion is diluted and discharged as radioactive waste from a medical institution. This radioactive waste liquid is a radioactive contaminant containing a radioisotope such as I-131 and cannot be discharged to a public sewer or the like as it is.

[0003] At present, the legal standards for such waste liquid containing RI are managed based on the concentration determined for each RI. Therefore, in order to conform to the concentration standard in wastewater where discharge of radioactive waste liquid is permitted, radioactive waste liquid is stored for a long time in a storage tank, and after the radioactivity level is attenuated through RI attenuation, radioactive waste is A treatment method of diluting the waste liquid and discharging it is employed.

[0004]

However, in the above-mentioned conventional waste liquid treatment means, R is not changed until RI is attenuated.
Since the waste liquid containing I must be stored in the storage tank and wait for attenuation, a large storage tank is required, and the RI wastewater treatment equipment becomes large. Further, since the radioactive liquid waste is diluted with a large amount of water and discharged, a large amount of dilution water is required for the treatment of the radioactive liquid waste, and the treatment equipment also becomes large in this respect. In addition, since the absolute amount of RI discharged cannot be reduced, pollution of the natural environment by the discharged water becomes a problem.

[0005] Such a problem is not limited to the field of nuclear medicine, but is not limited to radiochemical research facilities and nuclear facilities.
This is an issue common to RI wastewater treatment including RI such as -131 and general public sewage treatment facilities. The present invention has been made in view of the above-described problems in treating waste liquid containing an organic halogen compound, and has made it possible to treat a waste liquid containing an organic halogen compound with a small-scale treatment facility. The purpose of the present invention is to reduce the burden of the wastewater treatment and facilitate the waste liquid treatment.

[0006]

According to the present invention, in order to achieve the above object, a waste liquid containing a halogen element X contained in an organic halogen compound is selectively mineralized with the halogen element X, and the mineralization is performed. By passing the halogen element through the halogen adsorbent 5 that adsorbs and holds the halogen element, the halogen element X in the organic halogen compound contained in the waste liquid is mineralized, and the inorganic element is adsorbed by the halogen adsorbent 5 and removed from the waste liquid.
Such a waste liquid is easily and reliably purified.

The organic halogen compound trap according to the present invention passes through a waste liquid containing an organic halogen compound and treats the waste liquid. A halogen adsorbent 5 for selectively mineralizing the element X and adsorbing and holding the mineralized halogen element is filled.

Further, a halogen adsorbent 5 for selectively mineralizing the halogen element X in the molecule of the organic halogen compound and adsorbing and holding the mineralized halogen element is provided in the container together with an adsorption agent for adsorbing the mineralized halogen compound. Preferably, agent 6 is filled. For example, the organic halogen compound trapped by this organic halogen compound trap is
It is a radioactive organic iodine compound, and such a radioactive organic iodine compound is contained in excretions and the like excreted from a patient who has been administered radioactive iodine in a nuclear medicine clinic.

The halogen adsorbent 5 used in the organic halogen compound trap contains a halogen element having a higher chemical reactivity than the halogen element in the organic halogen compound in a porous carrier made of an organic material and an inorganic material, and impregnated with the halogen element. And stabilized. For example, when the organic halogen compound is an organic bromine compound, the halogen element having a higher chemical reactivity than the halogen element in the organic halogen compound is elemental chlorine. For example, when the organic halogen compound is an organic iodine compound, the halogen element having a higher chemical reactivity than the halogen element in the organic halogen compound is elemental bromine. A halogen adsorbent 5 is obtained by impregnating and impregnating a carrier made of zeolite, activated carbon, or another porous substance with a halogen element having a higher chemical reactivity than the halogen element in these organic halogen compounds.

[0010] The halogen adsorbent 5 is filled in a container-shaped radiation shield 7 for shielding radiation, and the adsorbed radioactive organic compound is shielded. By using such an organic halogen compound trap 4, it is possible to configure an apparatus for treating a waste liquid containing an organic halogen compound. For example, the waste liquid containing an organic halogen compound is disposed in a treatment water passage, and the waste liquid is passed through a halogen adsorbent 5 of an organic halogen compound trap 4 to inorganicize and adsorb the organic halogen compound in the waste liquid. For example, when the waste liquid contains a large amount of an organic substance other than the radioactive organic halogen compound, such as a waste liquid containing excreta excreted from a patient in a nuclear medicine medical facility, a step before passing the waste liquid to the organic halogen compound trap 4 As treatment, purification tanks 1 and 2 for biologically decomposing and treating organic matter in waste liquid are provided.

As another example of the apparatus for treating a waste liquid, a halogen element X in a molecule of an organic halogen compound contained in a waste liquid is supplied to a waste liquid treatment channel in a waste liquid treatment channel containing an organic halogen compound. A decomposing agent injecting section 11 for selectively injecting a halogen decomposing agent to be mineralized, and a decomposing agent injecting section 11 are disposed on the downstream side of the flow of the wastewater treatment channel to adsorb and hold the mineralized halogen element. A waste liquid treatment apparatus provided with an organic halogen compound trap 4 filled with a halogen adsorbent 5 can also be used. In this treatment apparatus, the organic halogen compound in the waste liquid is preliminarily mineralized by the halogen decomposing agent injected into the waste water treatment channel, and the inorganic compound is adsorbed by the halogen adsorbent 5.

Here, as the halogen decomposing agent, a solution containing a halogen element having a higher chemical reactivity than the halogen element in the organic halogen compound is used. Further, the halogen adsorbent 5 is made of a porous organic material or an inorganic material having a function of adsorbing the mineralized halogen element contained in the waste liquid, and the porous organic material or the inorganic material is not necessarily organic. It is not necessary to impregnate in advance a substance that makes the organic halogen compound in the waste liquid inorganic, such as a halogen element having higher chemical reactivity than the halogen element in the halogen compound. Of course, such a substance can be impregnated in advance.

[0013]

Embodiments of the present invention will now be described in detail with reference to the drawings.
FIG. 1 shows a flow sheet of a waste liquid treatment apparatus using an organic halogen compound trap 4 according to the present invention.

For example, in a nuclear medicine medical facility or the like, I-
The excrement containing the radioisotope excreted from the patient to which the radioisotope such as 131 is administered is drained. High-level wastewater and low-level wastewater containing such radioactive organic halogen compounds are sent to the combined treatment septic tanks 1 and 2, where biological substances are decomposed and purified biologically. Here, organic substances contained in human waste and the like can be decomposed.
Radioactive organic halogen compounds such as 131 are hardly decomposed.

The wastewater from which organic matter has been biologically decomposed and purified in the combined treatment septic tanks 1 and 2 is sent to a pH adjusting tank 3 where the pH suitable for the halogen adsorbent 5 is adjusted.
The wastewater whose pH has been adjusted is sent to the organic halogen compound trap 4. This organic halogen compound trap 4
A container-shaped radiation shield 7 made of lead or the like is selectively filled with a halogen adsorbent 5 for selectively mineralizing the halogen element X in the organic halogen compound and adsorbing and holding the mineralized halogen element and an adsorbent 6 made of activated carbon or the like. It was done.

The halogen adsorbent 5 is used to decompose and remove an organic halogen compound, for example, by using a halogen substitution reaction with a halogen element having a higher chemical reactivity than an organic compound halogen element to remove the halogen element in the organic compound. Exchange. For example, when the organic halogen compound to be treated is an organic chlorine compound, elemental fluorine is used as the halogen element having a higher chemical reactivity than that when the organic halogen compound to be treated is an organic bromine compound. Elemental chlorine is used as the halogen element, and when the organic halogen compound to be treated is an organic iodine compound, elemental bromine is used as the halogen element having a higher chemical reactivity. Further, for example, in order to decompose and remove the organic halogen compound, the nascent hydrogen is reacted with the mineralization treatment of the halogen element in the organic compound to decompose and remove the organic halogen compound.

The halogen adsorbent 5 stably contains the above-described elemental halogen while maintaining its chemical activity on a carrier such as zeolite, activated carbon, and other porous organic and inorganic materials. It is impregnated.
Generally, elemental fluorine and elemental chlorine have too high a chemical activity, so that it is difficult to stably retain the elemental fluorine and the elemental chlorine in the material. In contrast,
Halogen adsorbent 5 containing perbromine (Br ₃ ) ions in a carrier made of zeolite, activated carbon, or another porous substance can be selectively passed through a waste liquid containing an organic iodine compound. It has the function of mineralizing iodine. The halogen adsorbent 5 mineralizes iodine in the organic iodine compound, and adsorbs and holds the mineralized iodine.

FIG. 2 is a view schematically showing a halogen substitution reaction of the above-mentioned organic iodine compound of the halogen adsorbent 5 with bromine. A carrier made of zeolite, activated carbon or other porous organic or inorganic materials is
r ₃ ) When the organic iodine compound comes into contact with the halogen adsorbent 5 containing and impregnated with ions, a halogen substitution reaction occurs on the surface of the halogen adsorbent 5. Along with this substitution reaction, the bond between carbon and iodine in an organic form can be converted into elemental or ionic iodine in an inorganic form, whereby the organic halogen compound is decomposed. In the case of an organic halogen compound, this reaction can be shown by the following chemical formula. The _{C m H n X + Br 3} -AC → C m H n Br + XBr 2 -AC reaction, the halogen element represented by X is converted to inorganic form from organic forms. The halogen compound converted into the inorganic form is adsorbed and removed by the halogen adsorbent 5 and the adsorbent 6 made of activated carbon.

In the decomposition of the organic halogen compound, a decomposition reaction is caused by using a material containing and impregnated with the element to be substituted according to the halogen element compound to be decomposed and removed. An organic chlorine compound can be applied to the above formula by using elemental fluorine.
In the case of an organic bromine compound, the use of elemental chlorine can also be applied to the above formula.

The halogen adsorbent 5 can also utilize the adsorptive properties inherent in a carrier such as zeolite or activated carbon or a porous organic or inorganic material containing and impregnated with the element to be replaced with halogen. By passing the waste liquid through the organic halogen compound trap 4, the halogen compounds are gradually accumulated in the halogen adsorbents 5 and 6. Therefore, the organic halogen compound trap 4 needs to be replaced periodically, and the used organic halogen compound trap 4 contaminated with the radioisotope must be treated as radioactive waste.

In the example shown in FIG. 1, the organic halogen compound traps 4 are arranged in two stages, and the organic halogen compound traps 4 in the preceding stage, which are particularly susceptible to contamination, are arranged in two lines as shown by the flow indicated by the solid line and the broken line. And can be used alternately. As shown in FIG. 1, the radioactive waste liquid from which the radioactive organic halogen compound has been removed by passing through the organic halogen compound traps 4, 4,.
Where the pH is adjusted again by the pH adjuster.

The radioactive waste liquid whose pH has been adjusted in the distribution tank 8 is sent to a storage tank 9 where it is stored. In the waste liquid treatment apparatus according to the present invention, as described above, since the radioactive organic halogen compound contained in the radioactive waste liquid is removed from the radioactive waste liquid by passing through the organic halogen compound trap 4, the storage period in the storage tank 9 is: It is much shorter than conventional waste liquid treatment equipment. Rather, if the removal of the radioactive organic halogen compound in the organic halogen compound trap 4 is almost complete, the storage of the radioactive waste liquid in the storage tank 9 becomes unnecessary.

Further, the radioactive waste liquid stored in the storage tank 9 is sent to a dilution tank 10 and diluted with dilution water, and adjusted as wastewater in which the concentrations of radioactive substances, halogen compounds, BOD, etc. satisfy a required standard value. Is released. The above waste liquid treatment apparatus is an example in which the present invention is applied to the treatment of radioactive waste liquid containing excrement excreted from a patient to whom a medical radioisotope has been administered in a nuclear medicine clinic. The waste liquid treatment technology according to the present invention can be applied not only to the treatment of radioactive waste liquid in such nuclear medicine medical facilities, but also to the treatment of waste liquid containing radioactive organic halogen compounds discarded from radiochemical research facilities, nuclear facilities, and the like. . Since radioactive waste liquid discarded from such radiochemical research facilities and nuclear facilities does not contain organic matter such as human waste, the wastewater is pre-treated by the decomposition of biological organic matter by the combined treatment septic tanks 1 and 2. Is unnecessary.

For example, in the treatment of a waste liquid discarded from a radiochemical research facility, a nuclear facility, or the like, a silane bond (Si-H bond) having a function of releasing nascent hydrogen during the mineralization of a halogen element in an organic halogen compound. The halogen adsorbent 5 containing and impregnating the above-mentioned carrier with the polysilane compound having the formula (1) has a function of decomposing and removing the organic halogen compound. The polysilane compound having this silane bond (Si-H bond) has a three-dimensional structure in which the polysilane skeleton is crosslinked as shown in Chemical formula 1.

[0025]

Embedded image

The decomposition of the organic halogen compound by the polysilane compound is caused by the fact that the Si—H bond existing in these structures is present in the polysilane skeleton, and the Si—H bond existing in the polysilane skeleton is easily converted. It causes homo-cleavage, generates silyl radicals as shown in Chemical formula 2, and causes a halogen abstraction reaction of the organic halogen compound.

[0027]

Embedded image

This reaction can be used to decompose and remove not only organic halogen compounds but also freon, polychlorinated biphenyls, dioxins, and other environmentally polluting organic halogen substances. By mixing a material for decomposing and removing an organic halogen compound by a halogen substitution reaction and a material for decomposing and removing an organic halogen compound of an organic polysilane compound having a silane bond, a material having a function of decomposing and removing a wide range of organic halogens can be obtained. In order to treat such a non-radioactive organic halogen compound, storage for attenuation is not required, and the storage tank 9 is not essential.

FIG. 6 shows another example of the waste liquid treatment apparatus. 1 are denoted by the same reference numerals. In this waste liquid treatment apparatus, a halogen decomposer that selectively mineralizes the halogen element X in the molecule of the organic halogen compound contained in the waste liquid is injected into the waste liquid treatment water path containing the organic halogen compound. A decomposing agent injection section 11 is provided. An organic halogen compound trap 4 filled with a halogen adsorbent 5 for adsorbing and holding a mineralized halogen element is disposed on the downstream side of the flow of the waste water treatment channel with respect to the decomposition agent injection section 11.

In this treatment apparatus, the organic halogen compound in the waste liquid is preliminarily mineralized by the halogen decomposing agent injected into the waste water treatment channel, and the halogenated halogen compound is adsorbed by the halogen adsorbent 5. . Here, as the halogen decomposing agent, a solution containing a halogen element having a higher chemical reactivity than a halogen element in an organic halogen compound, such as perbromic acid, is used.

The halogen adsorbent 5 is made of a porous organic or inorganic material having a function of adsorbing a mineralized halogen element contained in the waste liquid. It is not always necessary to previously impregnate a substance such as bromic acid that mineralizes the organic halogen compound in the waste liquid. Of course, it is also possible to previously impregnate an element that makes the organic halogen compound in the waste liquid inorganic, such as perbromic acid.

[0032]

Embodiments of the present invention will be described below with reference to the drawings. Example 1 FIG. 3 shows that iodobutane (C ₄ H ₉ −) was added to a material in which activated carbon was impregnated with perbromine (Br ₃ ) ions.
4 is a chart of a gas chromatograph when I) and iodohexane (C ₆ H ₁₃ -I) are reacted. The result is that the organic iodine compound is converted into the organic bromine compound by the halogen substitution reaction as described above, and the iodine is decomposed and removed by being adsorbed and retained in the activated carbon as an inorganic form.

(Example 2) FIG. 4 shows radioactive organic iodine (I) using activated carbon and an ion exchange resin as comparison objects.
-131) The following shows the characteristics obtained by decomposing and removing compounds by passing water through a column. From this result, it is found that the material retaining perbromide ions has the ability to decompose the organic iodine compound and has an excellent ability to decompose and remove compared to other comparative materials. These can be applied to a method for decomposing and removing radioactive organic iodine compounds discharged from nuclear medicine medical facilities such as nuclear facilities and hospitals.

Example 3 FIG. 5 shows the decomposition removal rate of an organic iodine compound by a polysilane compound. The results clearly show that the halogen extraction reaction described above
Organic iodine is decomposed and removed. This applies to other organohalogen compounds, such as freon, polychlorinated biphenyls, dioxins, sources of environmentally polluting organohalogen compounds from factories, etc., or nuclear medicine practice at nuclear facilities and hospitals. It has a function to decompose and remove radioactive organic halogen compounds emitted from facilities and radiochemical research facilities.

[0035]

In the organic halogen compound trap and the waste liquid treatment apparatus using the same according to the present invention, the halogen element X in the molecule of the organic halogen compound is converted into the elemental X ⁰ from the C—X organic bond form of carbon and halogen. or ion-shaped X ^- can be converted to inorganic form. Therefore, by demineralizing the halogen element in the target organic halogen compound, a decomposition removal method utilizing a general reaction can be used. Thereby, for example, when the organic halogen compound to be treated is a radioactive organic halogen compound, the storage through the attenuation in the radioactive organic halogen compound contained in the waste liquid in the storage tank 9 or the like becomes unnecessary, and the volume of the storage tank 9 is reduced. Or the storage tank 9 can be dispensed with. Therefore, the size of the waste liquid treatment device can be reduced.
Moreover, the absolute discharge flow rate of the radioactive waste liquid containing the radioactive organic halogen compound can be greatly reduced, and the influence on the environment can be almost eliminated.

Further, as a material for decomposing and removing organic halogen compounds contained in the waste liquid, zeolite, activated carbon,
By using an organic halogen compound trap 4 filled with a halogen adsorbent 5 containing and impregnating an organic / inorganic porous carrier with a decomposition element of an organic halogen compound, effective decomposition of the organic halogen compound can be achieved. Removal is possible. In addition, when the organic halogen compound accumulates in the halogen adsorbent 5, the replacement and treatment thereof become easy, and a waste liquid treatment apparatus that can be safely and easily operated in terms of maintenance can be obtained.

[Brief description of the drawings]

FIG. 1 is a flow sheet showing an example of a waste liquid treatment apparatus using the organic halogen compound trap of the present invention.

FIG. 2 is an explanatory view showing the principle of a halogen substitution reaction in the organic halogen compound trap of the present invention.

FIG. 3 is an explanatory diagram showing decomposition characteristics of an organic iodine compound by a halogen substitution reaction according to the present invention.

FIG. 4 shows a radioactive organic iodine (I-131) according to the present invention.
FIG. 4 is an explanatory diagram showing the decomposition characteristics of the.

FIG. 5 is an explanatory diagram showing a decomposition characteristic of an organic iodine compound by a polysilane compound according to the present invention.

FIG. 6 is a flow sheet showing another example of the waste liquid treatment apparatus according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Merger treatment septic tank 2 Merger treatment septic tank 3 pH adjustment tank 4 Organic halogen compound trap 5 Halogen adsorbent 6 Adsorbent 7 Radiation shield 8 Distribution tank 9 Storage tank 10 Dilution tank

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) G21F 9/12 501 G21F 9/12 501J (72) Inventor Kanji Kasagi 54 Sawara Shogoin Kawaramachi, Kyoto, Kyoto, Kyoto On campus (72) Inventor Shoichi Miyamoto 1-7-12 Yushima, Bunkyo-ku, Tokyo Inside Chiyoda Technol Co., Ltd. (72) Inventor Masami Kintaka 1-7-112 Yushima, Bunshima-ku, Tokyo Chiyoda Technol Co., Ltd. (72) Inventor Katsuyoshi Tadenuma, 1044 Nitta, Horimachi, Mito-shi, Ibaraki Pref. (72) Inventor Yoshio Hasegawa 1044, Nitta, Horicho, Mito-shi, Mito, Ibaraki Pref. F term (reference) 2E191 BA12 BA13 BB10 BC01 4D024 AA04 AB11 BA01 BB08 BC01 CA01 DA02 4D038 AA08 AB06 AB14 AB39 BA04 BB06 BB20 4H006 AA02 AA04 AB99 AD17 AD30

Claims (14)

[Claims] Claims: 1. An organic halogen compound trap that passes and treats a waste liquid containing an organic halogen compound, selectively stores a halogen element X in a molecule of the organic halogen compound in a container through which the waste liquid containing the organic halogen compound passes. An organic halogen compound trap filled with a halogen adsorbent (5) for adsorbing and holding a mineralized halogen element. 2. A container comprising a halogen adsorbent (5) for selectively mineralizing a halogen element X in a molecule of an organic halogen compound and adsorbing and holding the mineralized halogen element in a container.
An organic halogen compound trap filled with an adsorbent (6) for adsorbing a mineralized halogen compound. 3. An organic halogen compound trap in a waste liquid according to claim 1, wherein the organic halogen compound is a radioactive iodine compound. 4. The organic halogenated compound according to claim 3, wherein the organic halogenated compound is a radioactive organic iodine compound in a waste liquid containing excretions excreted from a patient to whom the radioactive iodine compound has been administered in a nuclear medicine clinic. Organic halogen compound trap. 5. A halogen adsorbent (5) containing a halogen element having a higher chemical reactivity than a halogen element in an organic halogen compound in a porous organic or inorganic carrier and stabilizing the carrier by impregnating the halogen element. The organic halogen compound trap according to any one of claims 1 to 4, wherein the organic halogen compound trap is used. 6. The organic halogen according to claim 5, wherein when the organic halogen compound is an organic bromine compound, the halogen element having a higher chemical reactivity than the halogen element in the organic halogen compound is elemental chlorine. Compound trap. 7. The organic compound according to claim 5, wherein when the organic halogen compound is a radioactive organic iodine compound, the halogen element having a higher chemical reactivity than the halogen element in the organic halogen compound is elemental bromine. Halogen compound trap. 8. The carrier impregnated with and impregnated with a halogen element having a higher chemical reactivity than the halogen element in the organic halogen compound is zeolite, activated carbon or another porous substance. 8. The organic halogen compound trap according to any of 7. 9. The organic halogen compound trap according to claim 1, wherein the container filled with the halogen adsorbent (5) is a radiation shield (7) for shielding radiation. 10. A waste liquid containing an organic halogen compound is passed through a halogen adsorbent (5) in a treatment channel for a waste liquid containing an organic halogen compound, using the organic halogen compound trap (4) according to any one of claims 1 to 9. Waste water treatment apparatus, wherein the organic halogen compound trap (4) is arranged as described above. 11. A purification tank (1), (2) for biologically decomposing and treating organic substances in a waste liquid as a pre-stage treatment for passing the waste liquid to an organic halogen compound trap (4). The waste liquid treatment apparatus according to claim 10. 12. A decomposition method for injecting a halogen decomposer for selectively mineralizing a halogen element X in a molecule of an organic halogen compound contained in a waste liquid into a water treatment path for a waste liquid containing an organic halogen compound. Injection part (1
1) and an organic halogen compound trap which is disposed on the downstream side of the flow of the waste water treatment channel with respect to the decomposition agent injection section (11) and is filled with a halogen adsorbent (5) for adsorbing and holding an inorganic mineralized halogen element. (4) A waste liquid treatment apparatus characterized by having: 13. The waste liquid treatment apparatus according to claim 12, wherein the halogen decomposing agent is a solution containing a halogen element having a higher chemical reactivity than the halogen element in the organic halogen compound. 14. The halogen adsorbent (5) is a carrier made of a porous organic or inorganic material having a function of adsorbing a mineralized halogen element contained in a waste liquid. 14. The waste liquid treatment apparatus according to 12 or 13.