JP5990717B1 - Cyanogen-containing wastewater treatment agent and cyanide-containing wastewater treatment method using the same - Google Patents

Abstract

[PROBLEMS] To reduce cyanide wastewater containing cyanide, particularly cyanide-containing wastewater containing coexisting compounds such as thiocyanate ion and ammonium ion as much as possible. It is an object of the present invention to provide a treatment agent for cyanide-containing wastewater that can remove water and a method for treating cyanide-containing wastewater using the same. The above-mentioned problems are solved by a cyanide-containing wastewater treatment agent characterized by being an aqueous solution containing N-chlorosulfamate and / or N-bromosulfamate. [Selection figure] None

Description

The present invention relates to a cyanide-containing wastewater treatment agent capable of removing cyanide in wastewater safely by a simple operation while suppressing the amount of chemical addition as much as possible, and a method for treating cyanide-containing wastewater using the same.
In the present invention, all cyan contained in the wastewater in various forms, particularly cyanide ions, can be treated with a simple operation.

Cyan has a strong negative impact on ecosystems, and cyanide-containing wastewater (also referred to as “cyan wastewater”) cannot be released directly into nature. For cyanide, drainage standards are established based on the Water Pollution Control Law, and cyan removal processing is performed to satisfy this standard (1 mg / L or less), and wastewater cannot be discharged unless it is detoxified wastewater. ing. Further, depending on the region, an additional drainage standard that is lower than the above-mentioned drainage standard value is set by regulations.
Cyan is present in the wastewater in three forms of a hardly-decomposable cyanide complex, an easily-decomposable cyanide complex, and a cyanide ion, although there are some contents due to the origin of the wastewater.

Various methods have been proposed and put to practical use for removing cyan from waste water containing cyan, and all have their advantages and disadvantages, and are used properly according to the state of waste water.
For example, (1) alkaline chlorine method in which cyanide-containing wastewater is adjusted to alkalinity and then injected with chlorine to oxidatively decompose cyanide. (2) cyanide is oxidized and decomposed into nitrogen gas and bicarbonate with strong ozone oxidizing power. (3) Oxidation decomposition method such as electrolytic oxidation method (electrolysis method) in which cyanide is electrolyzed by using an insoluble electrode and an oxidation reaction (electrolysis method) is performed; As a feed compound, for example, ferrous sulfate is added to form a poorly soluble ferri / ferrocyanide, and the bitumen method in which this is precipitated and removed, (5) zinc chloride and a reducing agent are added, and the insoluble produced (7) Insoluble complex methods such as zinc white method for precipitating and removing complex and (6) reducing copper salt method for adding and removing divalent copper salt and reducing agent and precipitating and removing generated insoluble complex; Acclimatized microorganisms (cyanolytic bacteria A biological treatment method for decomposing cyanide; (8) a thermal hydrolysis method in which cyanide-containing wastewater is kept at a high temperature to hydrolyze cyanide compounds into ammonia and formic acid, and coexisting heavy metals are precipitated as simple substances or oxides; 9) In addition to the decomposition of cyanide, there are hydrothermal reactions such as a wet oxidation method that also oxidizes and decomposes organic pollutants.

Further, the applicant of the present invention has proposed the following method for treating cyanide-containing wastewater.
(A) A manganese compound that is soluble in hypochlorite and water and capable of forming manganese ions in water is added to the cyanide-containing wastewater, and the generated water-insoluble manganese salt is removed from the wastewater. Cyanide-containing wastewater treatment method for removing cyan in the interior (see Japanese Patent No. 4106415: Patent Document 1)
(B) After adding the amount of formaldehyde corresponding to 1.4 mol or more of the amount of cyanide compound to the cyanide compound-containing wastewater, the first stage reaction is carried out, and then a substantially effective reaction amount of hydrogen peroxide is added. A method for treating cyanide-containing wastewater in which a second-stage reaction is carried out at a pH of 7.0 or more by adding 3.0 mol or more of the amount of cyanide contained (see JP-A No. 02-35991: Patent Document 2)

However, the above-described prior art requires complicated steps and operations, and accordingly, a plurality of reaction vessels may be required. In addition, depending on the type of waste water, such as waste water containing thiocyanate ions or ammonium ions, the effect of removing cyan is not sufficient, and the cyan concentration of the waste water after treatment cannot be set to the drainage standard (1 mg / L or less). In some cases, the treated wastewater cannot be discharged directly into sewage.
Moreover, the drainage standard of hydrogen ion concentration (pH) is defined as 5.0 to 9.0 in the sea area and 5.8 to 8.6 outside the sea area based on the Water Pollution Control Law. In the above prior art, when the pH of wastewater is adjusted to acidic or alkaline, neutralization treatment is required to adjust not only the cyanide concentration of wastewater but also the pH within the drainage standard range before discharging into sewage etc. Sometimes it becomes.

Japanese Patent No. 4106415 JP 02-35991 A

For example, in the method (A) of Patent Document 1 described above, if an excessive amount of drug is added to cyanide-containing wastewater, the cyan concentration can be reduced to a specified value or less, but the drug addition amount is suppressed as much as possible. There is a demand for safer cyan processing.
Therefore, the present invention is a wastewater containing cyanide, particularly cyanide-containing wastewater containing coexisting compounds such as thiocyanate ion and ammonium ion, and the amount of chemical addition is suppressed as much as possible, and wastewater can be safely and easily operated. It is an object of the present invention to provide a cyanide-containing wastewater treatment agent capable of removing cyanide therein and a method for treating cyanide-containing wastewater using the same.

  The inventors of the present invention have made extensive studies to solve the above problems, and as a result, N-chlorosulfamate and / or N-bromosulfamate is present in cyanide-containing wastewater containing coexisting substances. As a result, the present inventors have unexpectedly found the fact that cyanide in wastewater can be safely removed with a simple operation while suppressing the amount of drug added as much as possible, and completed the present invention.

  Thus, according to the present invention, there is provided a treating agent for wastewater containing cyanide, which is an aqueous solution containing N-chlorosulfamate and / or N-bromosulfamate.

  Further, according to the present invention, the cyanide-containing wastewater is characterized in that the cyanide-containing wastewater treatment agent is present in the cyanide-containing wastewater, and cyanide in the wastewater is decomposed to remove cyan from the wastewater. A processing method is provided.

According to the present invention, cyanide-containing wastewater, particularly cyanide-containing wastewater in which coexisting compounds such as thiocyanate ions and ammonium ions are present, the amount of chemicals to be added is suppressed as much as possible, and wastewater can be safely and easily operated. It is possible to provide a cyanide-containing wastewater treatment agent capable of removing cyanide therein and a method for treating cyanide-containing wastewater using the same.
That is, according to the present invention, all cyan, particularly cyanide ions, contained in the wastewater in various forms can be treated with a simple operation while suppressing the amount of drug addition as much as possible.
Therefore, even if the wastewater treated by the method of the present invention is released into nature as it is, the influence on the environment can be very small, and therefore the method of the present invention is extremely useful industrially.

  The cyanide-containing wastewater treatment agent of the present invention is used when N-chlorosulfamate and N-bromosulfamate are reaction products of sulfamic acid and hypochlorous acid and / or hypobromous acid. The above effects are further exhibited.

Moreover, the treatment method of the cyanate-containing wastewater of the present invention is as follows:
(1) The cyanide-containing wastewater treatment agent has a total effective halogen concentration of 0.2 mole equivalent or more of N-chlorosulfamate and N-bromosulfamate relative to the cyan content in the cyan-containing wastewater. To exist,
(2) The cyanide-containing wastewater is a wastewater containing one or more coexisting substances selected from thiocyanic acid and salts thereof and ammonium ions, and (3) the wastewater whose cyanide-containing wastewater is adjusted to pH 6-11 In the case where any one of the above is satisfied, the above effect is more exhibited.

(A) Cyan-containing wastewater treatment agent The cyanide-containing wastewater treatment agent of the present invention is an aqueous solution containing N-chlorosulfamate and / or N-bromosulfamate.

N-chlorosulfamate and N-bromosulfamate, which are the active ingredients of the cyan treatment of the cyanide-containing wastewater treatment agent of the present invention, are known methods such as JP-T-2003-503323 and JP-A-2006-022097. No. 11, Special Table No. 11-506139, Special Table 2001-501869, Special Table 2003-507326, and Japanese Patent Application Laid-Open No. 2014-101251.
In the present invention, a reaction product of sulfamic acid and hypochlorous acid and / or hypobromite can be preferably used.

The form of the cyanide-containing wastewater treatment agent of the present invention is an aqueous solution, and the active ingredient concentration as the cyanide-containing wastewater treatment agent, that is, the total effective halogen concentration of N-chlorosulfamate and N-bromosulfamate is, 0.5 mg / L or more.
When a high concentration cyanide-containing wastewater treatment agent is used, it may be appropriately diluted with water such as industrial water at the time of use. Further, when the active ingredient is reacted and produced on the spot, the aqueous solution concentration of each compound before the reaction may be appropriately set so that the concentration after the reaction matches the processing conditions.
In addition, the pH of the treatment agent for cyanide-containing wastewater of the present invention is preferably 12 or more, but this is not limited to the case where an active ingredient is reacted and produced on the spot, and the acidity of sulfamic acid and its salt is neutralized. Any alkali amount that can be used is acceptable.

(Cyanide wastewater)
Cyan-containing wastewater to be treated in the present invention includes metal cyanide, cyanide ion, cyanide complex, and cyano complex ion discharged from steel factories, chemical factories, plating factories, coke factories, metal surface treatment factories, etc. And the like, cyan-containing wastewater discharged in a treatment process of radioactively contaminated water, and cyan-containing wastewater discharged from a soil treatment apparatus. In particular, the method for treating cyanide-containing wastewater according to the present invention is suitable for treating cyanide-containing wastewater having a strong buffering action, such as coke oven wastewater, that is, cyanide-containing wastewater containing thiocyanic acid and salts thereof and ammonium ions.

  Cyanide-containing wastewater contains a variety of coexisting substances, such as sulfide ions, sulfite ions, nitrite ions, thiosulfate ions, hydrazine, which are considered to react easily with oxidants and aerobic treatment. Difficulties such as cyanide ions, thiocyanate ions, ammonium ions, organic substances (formaldehyde, amino acids, proteins, microorganisms) that can be reacted only with reducing substances such as ferrous iron and oxidants with a certain level of oxidizing power Contains degradable substances.

Although these substances and ions are considered to react with an oxidizing agent having a strong oxidizing power, N-chlorosulfamate and N-bromosulfamate which are active ingredients for cyanation treatment of the cyanide-containing wastewater treatment agent of the present invention Is considered to preferentially react only with easily oxidized substances such as cyanide ions (also referred to as “free cyan” or “free cyan”), and is a stabilized halogenated oxidizer. Also called.
In addition, the active ingredient of the cyanide-containing wastewater treatment agent of the present invention reacts preferentially with cyanide ions as a stabilizing halogen-based oxidant to exert the effect of the present invention and increase the ORP (redox potential). In addition, it can be expected that a large amount of halogen remains in the cyanate-containing wastewater, which causes corrosion of the pipe base material in the apparatus and reduction of the risk of salt precipitation.

  Therefore, the cyanide-containing wastewater treatment agent of the present invention can also be suitably used for treating cyanide-containing wastewater containing one or more coexisting substances selected from thiocyanic acid and salts thereof and ammonium ions.

The cyan-containing wastewater may have a pH of 6 or more, preferably pH 6-11, more preferably pH 6-9, in terms of cyan removal effect.
If the cyan-containing wastewater is less than pH 6, harmful hydrogen cyanide gas may be diffused. On the other hand, when the cyan-containing wastewater exceeds pH 11, there is a problem that the cost of the alkali chemicals increases. When the pH exceeds 9, the pH needs to be adjusted because it exceeds the wastewater standard.
Cyanide-containing wastewater to be treated is usually in such a neutral to alkaline range, but if it is outside this range, an acid or alkali that does not hinder the effects of the present invention, such as sulfuric acid or sodium hydroxide, is added. What is necessary is just to add pH to process wastewater and to adjust pH.

(B) Cyanogen-containing wastewater treatment method The cyanide-containing wastewater treatment method of the present invention comprises the cyanogen-containing wastewater treatment agent of the present invention present in cyanide-containing wastewater, and the cyanide in the wastewater is decomposed to produce the wastewater. It is characterized by removing cyan from the image.

  The inventors of the present invention describe that “degradation of cyanide in wastewater” means that cyanide is oxidized by the added N-chlorosulfamate and / or N-bromosulfamate, and the produced cyanic acid is hydrolyzed. This is thought to be due to the production of ammonium bicarbonate by decomposition.

  The method for treating cyan-containing wastewater according to the present invention is not particularly limited as long as N-chlorosulfamate and / or N-bromosulfamate is present in the cyan-containing wastewater. For example, an alkaline agent and a stability selected from amino acids such as glycine, α-alanine, sodium glutamate, sodium aspartate, methionine and lysine hydrochloride, amides such as sulfamic acid, succinimide, caprolactam, maleimide, and taurine An aqueous solution containing an agent and an aqueous solution containing hypochlorous acid and / or hypobromite simultaneously or separately, an aqueous solution containing an alkaline agent, sulfamic acid and sodium bromide, Examples thereof include a method of adding the aqueous solution containing chlorous acid simultaneously or separately.

(Sulfamic acid)
The sulfamic acid used in the present invention can be obtained by dissolving a compound capable of producing sulfamic acid in water and reacting with hypochlorous acid and hypobromous acid in water. For example, alkali metal salts of sulfamic acid such as sodium sulfamate and potassium sulfamate; methyl sulfamic acid, sodium methyl sulfamate, potassium methyl sulfamate, ammonium methyl sulfamate, phenyl sulfamic acid, sodium phenyl sulfamate, potassium phenyl sulfamate And organic sulfamic acid such as ammonium phenylsulfamate or a salt thereof. In particular, sodium sulfamate and potassium sulfamate are industrially easily available and are preferably used in the present invention.

(Hypochlorous acid and hypobromous acid)
Hypochlorous acid and hypochlorous acid used in the present invention can be obtained by dissolving in water a compound capable of reacting with sulfamic acid by producing hypochlorous acid and hypobromite in water, respectively. . For example, sodium hypochlorite, potassium hypochlorite, calcium hypochlorite, magnesium hypochlorite, sodium hypobromite, potassium hypobromite, calcium hypobromite, magnesium hypobromite, etc. And alkali metal salts and alkaline earth metal salts of hypochlorous acid and hypobromite. In particular, sodium hypochlorite, potassium hypochlorite, sodium hypobromite, and potassium hypobromite are industrially easily available and are preferably used in the present invention. Moreover, the hypochlorite obtained by electrolyzing salt solution and seawater with an electrolytic cell may be sufficient.

(Alkaline agent)
The alkaline agent used in the present invention neutralizes the acidity of sulfamic acid and its salt, makes the pH of the aqueous solution alkaline, and is a reaction product of hypohalous acid and sulfamic acid. It has a function that contributes to the stability of the aqueous solution of mart or N-bromosulfamate. The alkaline agent is not particularly limited as long as it is a compound that can exhibit such a function, and examples thereof include sodium hydroxide, potassium hydroxide, lithium hydroxide, magnesium hydroxide, calcium hydroxide, sodium carbonate, and potassium carbonate. Can be mentioned. In particular, sodium hydroxide and potassium hydroxide are industrially easily available and are preferably used in the present invention.

  The amount of N-chlorosulfamate and / or N-bromosulfamate added to the treatment agent for cyanide-containing wastewater of the present invention (the amount present in the cyanide-containing wastewater) is the kind of cyan contained in the cyanide-containing wastewater. In addition to the concentration thereof, it is affected by the type and concentration of other metal ions contained in the cyan-containing wastewater, and therefore the amount of these added may be determined appropriately according to the conditions. Specifically, the cyan concentration of the cyan-containing wastewater before the treatment is measured in advance, and the addition amount of each additive may be determined based on the measured value.

The amount of the cyan-containing wastewater treatment agent of the present invention added varies depending on the cyan content contained in the target cyan-containing waste water, but the cyan-containing waste water contains N-chlorosulfuric acid relative to the cyan content therein. It is preferable that the effective halogen concentration of the total amount of famate and N-bromosulfamate be 0.2 mole equivalent or more. More preferably, the effective halogen concentration is 1 molar equivalent or more with respect to the cyan content in the cyan-containing wastewater.
If the effective halogen concentration is less than 0.2 molar equivalent, the reaction with cyanide ions does not occur sufficiently, and the effect of removing cyan may be insufficient. In addition, there is no particular upper limit on the amount of cyanide-containing wastewater treatment agent added, but if it is about 10 molar equivalents, a sufficient cyan removal effect can be obtained.

  The cyan content in the cyan-containing wastewater to be treated in the present invention is not particularly limited, but the above-mentioned cyan-containing wastewater is generally about 2 to 500 mg / L in terms of the total cyan concentration. In the case of treating such cyanide-containing wastewater, the alkali agent is 0.6 to 2000 mg / L, preferably 1 to 600 mg / L, and the sulfamic acid compound is 0.05 to 1000 mg / L with respect to the cyanide-containing wastewater. And preferably 0.08 to 300 mg / L, hypochlorite and hypobromite in a total amount of 3 to 10000 mg / L, preferably 5 to 3000 mg / L, if added to cyanide-containing wastewater. Good.

(Cyanide wastewater)
The cyanide-containing wastewater to be treated is as described in (A) Treatment agent for cyanide-containing wastewater, and is a wastewater containing one or more coexisting substances selected from thiocyanic acid and its salts and ammonium ions. preferable.
Moreover, it is preferable that the cyan-containing waste water to be treated has a pH of 6 to 11, and when it is outside this range, it is preferably a waste liquid adjusted with an acid or an alkali.

(Stirring)
It is preferable to stir the mixed solution from the viewpoint of the effect of removing cyan at the time of adding each of the above compounds and at the time of reaction between these added compounds and cyan. This stirring is preferably performed every time each compound is added.
In order to promote the reaction during stirring, the mixed solution is preferably in a state of being warmed to some extent so that the added compound is not decomposed, and the liquid temperature is about 20 to 60 ° C.
Furthermore, the time required for the reaction during stirring varies depending on the amount of cyanide-containing wastewater, the type and concentration of cyanide, the form of the treatment apparatus and the scale thereof, and so on, so that cyan and the added compound are in sufficient contact. Just decide. Usually, stirring time should just be 10 minutes or more, and it is more preferable to set it as 20-60 minutes.

(Processing and precipitation separation)
For a series of operations such as addition of compound, stirring and mixing, sedimentation separation, removal of water-insoluble salt, known apparatuses such as an additive tank, a reaction treatment tank, a thickener and a turbidity sedimentation basin can be used. The device may be diverted.
In the method for treating cyanide-containing wastewater of the present invention, known agents such as a rust inhibitor, a corrosion inhibitor, a scale dispersant, and a slime control agent may be used in combination as long as the effects of the present invention are not impaired.
Further, in the sedimentation separation, a surfactant or a flocculant may be added as long as the effects of the present invention are not impaired.
Here, in the present invention, “water-insoluble” means that the compound (salt) has a solubility of 1 g or less with respect to 100 g of water at 20 ° C., and the compound can be separated from the liquid phase by sedimentation separation or filtration. It means that there is.

Through the above treatment, wastewater containing cyanide, especially cyanide-containing wastewater containing coexisting compounds such as thiocyanate ions and ammonium ions, can be used safely and easily by simple operation. The cyan concentration before treatment (total cyan content (mg / L)) can be remarkably reduced below the wastewater standard value, and the treated wastewater can be treated directly as sewage without neutralization. Can be discharged or reused.
In the method of the present invention, when the treated wastewater is discharged as it is, it is sufficient to add an amount of a compound necessary for lowering the total cyan concentration below the wastewater standard value, but the treated wastewater is diluted with other wastewater. In the case of discharge, the compound may be added so that the waste water after dilution is less than the above waste water reference value.
Usually, in a factory or the like, the treated wastewater is often diluted with other wastewater and discharged, and it is preferable to control the amount of each active ingredient added in consideration of the cost effect.
Therefore, when the total cyan density after processing does not become 1 mg / L or less, it is understood that the processing is also included in the present invention when it becomes approximately 5 mg / L or less.

  The present invention will be specifically described with reference to test examples, but the present invention is not limited to these test examples.

In Test Example 1 below, synthetic water (pH 8.2) prepared to have the water quality shown in Table 1 was mixed with free cyanide (F-CN), thiocyanate ion (SCN ⁻ ), and ammonium ion (NH ₄ ⁺ ). Was used so as to have a content shown in Table 3.
The above synthetic cyanide-containing wastewater was prepared using potassium ferrocyanide aqueous solution, potassium cyanide aqueous solution, potassium thiocyanate aqueous solution, calcium chloride dihydrate aqueous solution, sodium chloride aqueous solution, sodium sulfate aqueous solution, ammonium chloride aqueous solution and sodium hydrogen carbonate aqueous solution. .

  In Test Example 2 below, cyan-containing wastewater B (pH 8.6) having the water quality shown in Table 2 collected from the coke oven wastewater line at Sakai Works was used.

(Formulation Example 1: Preparation of N-chlorosulfamate)
48.8 g of pure water, 23.8 g of sulfamic acid, 47.0 g of 48% sodium hydroxide aqueous solution and 130.5 g of 10.6% sodium hypochlorite aqueous solution were added to a 500 mL beaker and stirred. Thus, an N-chlorosulfamate aqueous solution (effective chlorine concentration 5.5%) was obtained.

(Formulation Example 2: Preparation of N-bromosulfamate)
172 g of 10.6% sodium hypochlorite aqueous solution, 35 g of 48% sodium hydroxide aqueous solution and 40 g of sodium bromide were added to a beaker with a capacity of 500 mL, respectively, and stirred in a water bath at 50 ° C. for 2 hours for yellow transparent An aqueous solution was obtained. Separately, 64.0 g of pure water, 31.2 g of sulfamic acid, and 27 g of 48% sodium hydroxide aqueous solution were added to a 200 mL beaker and stirred to obtain a transparent aqueous solution. The yellow transparent aqueous solution and the transparent aqueous solution described above were mixed at room temperature to obtain an N-bromosulfamate aqueous solution (effective bromine concentration 10.2%).

(Test Example 1)
Dispense 100 mL of cyanide-containing wastewater A into a beaker with a capacity of 100 mL, so that the concentration shown in Table 3 is reached, sodium N-chlorosulfamate, sodium N-bromosulfamate, sodium hypochlorite and hypobromite One water selected from sodium was added to obtain test water.
In some test waters, an aqueous sulfuric acid solution or an aqueous sodium hydroxide solution was added to adjust the pH of the test water to the values shown in Table 3.
Next, the obtained test water was stirred for 15 minutes at a rotational speed of 250 rpm using a stirrer (manufactured by AS ONE, magnetic stirrer, model: RS-4AR, stirrer: plain, longest side 30 mm).
Next, the total cyan concentration (T-CN) in the test water (treatment liquid) was measured by the picric acid method using a total cyan tester (manufactured by Kyoritsu Riken Co., Ltd., model: WA-CNT). The effect of removing cyanide in the test water was evaluated.
In this test, a blank test (Comparative Example 4) in which no drug was added was simultaneously performed.
The obtained results are shown in Table 3 together with the additive compound, its addition amount, and the pH of the test water.

The following can be seen from the test results in Table 3.
-When treated with the cyanide-containing wastewater treatment agent of the present invention, it has a sufficient cyan removal effect (Examples 1 to 11).
Even when cyanide-containing wastewater containing coexisting substances (SCN ⁻ , NH ₄ ⁺ ) is treated with the treatment agent for cyanide-containing wastewater of the present invention, it has a sufficient cyan removal effect (Examples 8 to 10).
・ When cyanide-containing wastewater containing coexisting substances (SCN ⁻ , NH ₄ ⁺ ) is treated with a cyanide-containing wastewater treatment agent containing sodium hypochlorite or sodium hypobromite, sufficient cyan removal is achieved. No effect is obtained (Comparative Examples 1 to 3)
· Coexisting materials (SCN ^-) a cyan-containing waste water comprising, when treated with cyanogen-containing wastewater treating agent containing sodium hypobromite, sufficient cyan even with excess sodium hypobromite Removal effect cannot be obtained (Comparative Example 2)

(Test Example 2)
Dispense 100 mL of cyanide-containing wastewater B into a 100 mL beaker, and add 1 type selected from sodium N-chlorosulfamate and sodium hypochlorite so that the concentrations shown in Table 4 are added. Got water.
In some test waters, an aqueous sulfuric acid solution or an aqueous sodium hydroxide solution was added to adjust the pH of the test water to the values shown in Table 4.
Next, the obtained test water was stirred for 15 minutes at a rotational speed of 250 rpm using a stirrer (manufactured by AS ONE, magnetic stirrer, model: RS-4AR, stirrer: plain, longest side 30 mm).
Subsequently, the total cyan density | concentration (T-CN) in test water (treatment liquid) was measured based on JISK0102, and the removal effect of the cyanide compound in each test water was evaluated.
In this test, a blank test (Comparative Example 6) in which no drug was added was simultaneously performed.
The obtained results are shown in Table 4 together with the additive compound, its addition amount, and the pH of the test water.

The following can be understood from the test results in Table 4.
-When treated with the cyanide-containing wastewater treatment agent of the present invention, it has a sufficient cyan removal effect (Examples 12 to 13).
· Coexisting materials (SCN ^-, NH ₄ ⁺⁾ cyan-containing waste water comprising, when treated with cyanogen-containing wastewater treating agent containing sodium hypochlorite is not sufficient effect of cyanide removal are obtained (Comparative Example 5)

Claims (6)

  A treating agent for cyanide-containing wastewater, which is an aqueous solution containing N-chlorosulfamate and / or N-bromosulfamate.   The treatment agent for cyanogen-containing wastewater according to claim 1, wherein the N-chlorosulfamate and N-bromosulfamate are reaction products of sulfamic acid and hypochlorous acid and / or hypobromite. .   The treatment agent for cyanide-containing wastewater according to claim 1 or 2, wherein cyanide-containing wastewater treatment agent is present in cyanide-containing wastewater, and cyanide in the wastewater is decomposed to remove cyan from the wastewater. Method.   The total effective halogen concentration of N-chlorosulfamate and N-bromosulfamate is 0.2 molar equivalent or more with respect to the cyan content in the cyan-containing waste water. The processing method of the cyanate containing wastewater of Claim 3 made to exist in this way.   The method for treating cyanide-containing wastewater according to claim 3 or 4, wherein the cyanine-containing wastewater is wastewater containing one or more coexisting substances selected from thiocyanic acid and salts thereof and ammonium ions.   The method for treating cyanide-containing wastewater according to any one of claims 3 to 5, wherein the cyanine-containing wastewater is wastewater adjusted to pH 6-11.