JP2001334126A - Device for treating discharge from reduction furnace - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable waste gas and waste water which are discharged from a reduction furnace for refining a metal by reductive treatment of an ammonia compound and contain ammonia, ammonia-containing waste water in particular, to be effectively subjected to detoxifying treatment (treatment for removing nitrogen) at a low cost. SOLUTION: Discharge containing waste gas and waste water which is discharged from the reduction furnace and contains ammonia is introduced into a water-sealed vessel 15 via an exhaust pipe 16. Water in the water-sealed vessel 15 is circulated by a circulation system having a circulating water tank 19, a pump for circulation 20 or the like to increase ammonia concentration in water. Water overflowed from the circulating water tank 19 is accommodated in a gasifying separation tank 24 and then is heated to gasify and separate ammonia. Water after gasifying separation of ammonia is subjected to neutralization treatment in a waste water treating device 26. Ammonia separated in the gasifying separation tank 24 is subjected to detoxifying treatment in a waste gas treating device 28.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an effluent treatment apparatus for treating effluent containing ammonia-containing exhaust gas and wastewater discharged from an ammonia compound reduction furnace.

[0002]

2. Description of the Related Art In the refining process of metals such as tungsten and molybdenum, a large amount of aqueous ammonia is used to extract a metal component from each raw ore, and a metal compound containing ammonia (ammonia compound: intermediate product). ) And subjecting it to a reduction heat treatment in a hydrogen gas atmosphere. Then, by reducing the ammonia compound, metals such as tungsten and molybdenum are extracted and purified.

[0003] In the above-mentioned reduction treatment step, a large amount of ammonia is generated as the ammonia compound is reduced. Ammonia (NH ₃ ) generated by this reduction is contained in the exhaust gas and also in water (drainage) generated during the reduction treatment. As described above, a large amount of exhaust gas and wastewater containing ammonia nitrogen is discharged from the ammonia compound reduction furnace.

[0004] Since such exhaust gas and wastewater containing ammonia nitrogen cannot be released or discharged to the atmosphere as they are, they are discharged or discharged after being treated using an exhaust gas treatment device or wastewater treatment device. FIG. 2 shows a configuration example of a conventional apparatus for treating an exhaust gas containing ammonia-containing exhaust gas and waste water discharged from a reduction furnace.

[0005] In FIG. 2, reference numeral 1 denotes a reduction furnace in which the inside of the furnace has a hydrogen atmosphere, and a reduced metal powder 3 is obtained by performing a reduction treatment of an ammonia compound 2 in the reduction furnace 1. . Here, since the reducing gas is contained in the exhaust gas, the reducing furnace 1 is provided with a water ring tank 4 for the purpose of keeping the pressure inside the furnace constant and at the time of escape in the event of an explosion.

A gas (exhaust gas) containing ammonia and hydrogen and water (drainage) containing ammonia are always introduced into the water seal tank 4. Ammonia is dissolved in water, but ammonia gasified by gradually increasing the ammonia concentration and hydrogen are sent to the exhaust gas treatment device 5,
After being washed with water, it is released into the atmosphere. On the other hand, the wastewater (water containing ammonia) overflowing from the water seal tank 4 is sent to the wastewater treatment device 6 and discharged after being neutralized using sulfuric acid or the like.

[0007]

The exhaust gas and wastewater discharged from the production activities of various industries are subject to laws such as the Basic Environment Law, the Air Pollution Control Law, the Water Pollution Control Law, and the ordinance of each local government. Emission standards are strictly set. As a trend in recent years, emission standards for substances causing eutrophication such as nitrogen are becoming stricter, and wastewater containing ammonia nitrogen is no exception.

[0008] Under such circumstances, it is required to perform a detoxification treatment (nitrogen removal treatment) of exhaust gas and wastewater containing ammonia nitrogen. Among them, the exhaust gas containing ammonia can be treated relatively inexpensively and effectively by applying, for example, an ammonia treatment method by catalytic catalytic oxidation. On the other hand, as a treatment method of wastewater containing ammonia, a biological denitrification method, a sulfuric acid absorption method, and the like are known.

However, the biological denitrification method is not suitable for wastewater containing a high concentration of ammonia, and has disadvantages such as requiring a large space for installing a treatment facility. Also, the sulfuric acid absorption method has been applied for a long time, but it is necessary to use a large amount of sulfuric acid,
There are difficulties in treating the produced ammonium sulfate.

SUMMARY OF THE INVENTION The present invention has been made in order to solve such a problem, and makes it possible to inexpensively and effectively detoxify ammonia-containing exhaust gas and wastewater, particularly ammonia-containing wastewater, discharged from an ammonia compound reduction furnace. It is an object of the present invention to provide an apparatus for treating a discharge of a reduction furnace, which is capable of performing a treatment (removal treatment of nitrogen).

[0011]

According to a first aspect of the present invention, there is provided an exhaust treatment apparatus for a reduction furnace, wherein the ammonia discharged from a reduction furnace for reducing an ammonia compound is produced by reducing the ammonia compound. A device for treating an exhaust containing waste gas and waste water, wherein the waste gas is connected to the reduction furnace via a discharge pipe, and the waste gas and waste water containing ammonia are introduced, A circulating system for circulating water contained in the circulating system to increase the concentration of ammonia in the water, a vapor separation tank containing water overflowing from the circulating system, and vaporizing and separating ammonia from the contained water; and Wastewater treatment means for treating water after gasification and separation, and exhaust gas treatment means for treating ammonia separated in the gasification separation tank. It is characterized.

[0012] In the exhaust treatment apparatus for a reduction furnace according to the present invention, the circulating system may include, for example, a circulating water container for storing water overflowing from the water ring container,
It has a pump for circulating water between the water seal container and the circulating water container, and a mechanism for overflowing the water having an increased ammonia concentration from the circulating water container to the vaporization separation tank.

[0013] In the apparatus for treating an effluent of a reduction furnace according to the present invention, the vaporization separation tank preferably has a heating mechanism for selectively vaporizing and separating ammonia from the treated water, as described in claim 3. It is preferable that the exhaust gas treating means has an exhaust gas treating device for performing a combustion treatment of ammonia.

[0014] In the exhaust treatment apparatus for the reduction furnace of the present invention, the water in the water-sealed vessel, which is brought into contact with the exhaust gas containing ammonia and into which similar wastewater is introduced to gradually increase the ammonia concentration, is further circulated. Thus, the ammonia concentration in water is increased, and ammonia is vaporized and separated from such water in a vaporization separation tank. Through these steps, ammonia can be effectively vaporized and separated from water in the water-sealed container.

Further, gaseous ammonia vaporized and separated from water can be treated relatively inexpensively and effectively by the above-described exhaust gas treatment device (for example, a catalytic combustion device for ammonia). Therefore, it is possible to inexpensively and effectively detoxify (exit nitrogen) the waste containing ammonia-containing exhaust gas and waste water discharged from the ammonia compound reduction furnace.

[0016]

Embodiments of the present invention will be described below.

FIG. 1 is a diagram schematically showing the configuration of an embodiment of an apparatus for treating emissions of a reduction furnace according to the present invention. In the figure, reference numeral 11 denotes a reduction furnace for purifying a metal by reducing an ammonia compound. The ammonia compound to be treated in the reduction furnace 11 is not particularly limited, but for example, an ammonia compound of tungsten such as ammonium paratungstate or an ammonia compound of molybdenum such as ammonium dimolybdate for purification purposes. Ammonia compounds containing metals are mentioned.

An ammonia compound 12 as a refining raw material is introduced into the reduction furnace 11 from an inlet 11a side. Reduction furnace 1
1 is supplied with hydrogen gas for reduction from a hydrogen supply system 13. Then, the target metal powder 14 is obtained by reducing the ammonia compound 12 by heat treatment in a hydrogen atmosphere. The metal powder 14 obtained by the reduction treatment is taken out from the outlet 11b.

The above-described reduction treatment (heat treatment) of the ammonia compound 12 produces ammonia gas and aqueous ammonia. These need to be treated as exhaust gas and wastewater. Further, the exhaust gas also contains hydrogen supplied for the purpose of reduction. For this reason, the reduction furnace 11 is provided with a water seal tank 15 for the purpose of keeping the pressure inside the furnace constant and for escape in case of an explosion.
Thus, the atmosphere in the reduction furnace 11 is sealed.

The reduction furnace 11 and the water seal tank 15 are connected to the discharge pipe 1
The exhaust gas containing waste gas and waste water containing ammonia generated by the reduction of the ammonia compound 12 is introduced into the water ring tank 15. Discharge pipe 16
Is inserted into the water 17 in the water-sealed tank 15 so that the ammonia-containing exhaust gas in the effluent comes into contact with the water 17. The ammonia-containing wastewater in the effluent is directly mixed into the water 17 in the water ring tank 15. The water seal tank 15 is provided with a makeup water valve not shown.

Thus, the ammonia in the effluent is water 1
7, and the ammonia concentration in the water 17 gradually increases. In addition, the introduction of the ammonia-containing wastewater gradually increases the amount of water in the water seal tank 15. The increased water 17 is sent from the overflow mechanism 18 to the circulating water tank 19. The water level in the water seal tank 15 is always kept constant by the overflow mechanism 18.

The circulating water tank 19 has a circulating pump 20. Water 17 ′ in the circulating water tank 19 is circulated through the circulating pump 20 and the circulating pipe 21.
Returned within 5. That is, the water seal tank 15, the overflow mechanism 18, the circulating water tank 19, the circulating pump 2
0 and the circulation pipe 21 form a circulation system of the water 17 and 17 ′ in the water seal tank 15 and the circulating water tank 19.

The water circulation tank 15
By circulating the water 17, 17 'in the circulating water tank 19, the ammonia concentration in the water 17, 17' increases. This is important for efficiently performing the vaporization separation of ammonia in the next step. The circulating water tank 19
Has a double structure, in which cooling water or heating hot water can flow outside. The water whose ammonia concentration has been increased in this way is sent from the overflow mechanism 22 attached to the circulating water tank 19 to the vaporization / separation tank 24 as treated water 23.

The vaporization separation tank 24 has a heating mechanism for selectively vaporizing and separating ammonia from the treated water 23. Specifically, a heater 25 is supplied into the treated water 23 contained in the vaporization / separation tank 24. Then, using the heater 25, the treated water 23 is heated to a temperature equal to or higher than the vaporization temperature of ammonia and equal to or lower than the boiling point of water, specifically, a temperature of about 80 ° C. By heating the treated water 23, the treated water 23
The ammonia dissolved therein is selectively vaporized and separated from the treated water 23.

As described above, after the ammonia concentration in the treated water 23 is increased in the circulation system, the ammonia is vaporized and separated from the treated water 23, so that the ammonia can be efficiently gasified and separated. Then, by the separation treatment in the vaporization separation tank 24, the ammonia concentration in the treated water 23 is made equal to or lower than the discharge reference value. The treated water 23 ′ after the ammonia is vaporized and separated in the vaporization separation tank 24 is sent to a wastewater treatment device 26, where it is neutralized and then discharged to a river or sea.

Here, the supply of the treated water 23 ′ from the vaporization separation tank 24 to the wastewater treatment device 26 is performed in the vaporization separation tank 24 by a specific gravity difference due to a temperature difference of the liquid (the treated water 23 before the vaporization separation and the ammonia concentration Using the difference, only the treated water 23 ′ having an ammonia concentration equal to or lower than the discharge standard overflows and is sent to the wastewater treatment device 26.

The ammonia gas separated in the vaporization separation tank 24 is sent to an exhaust gas treatment device 28 via an exhaust pipe 27A. As the exhaust gas treatment device 28, for example, a catalytic combustion type exhaust gas treatment device is used. This is an application of an ammonia treatment method by catalytic catalytic oxidation. In the catalytic combustion type exhaust gas treatment device 28, the ammonia gas is oxidized and decomposed into water and nitrogen and released into the atmosphere. According to such a catalytic combustion type exhaust gas treatment apparatus 28, vaporized ammonia can be efficiently and inexpensively treated.

The exhaust gas treatment device 28 is connected not only to the vaporization separation tank 24 but also to the water seal tank 17 and the circulating water tank 19 via an exhaust pipe 27B. The exhaust gas treatment device 28 further includes an exhaust hood 29A provided on the inlet 11a side of the reduction furnace 11, an exhaust hood 29B provided on the overflow mechanism 18 of the water seal tank 17, and a circulating water tank 19
Exhaust hood 29 provided in the overflow mechanism 22
C are connected to exhaust pipes 27C and 27D, respectively.

The ammonia gas vaporized in the water seal tank 17 and the circulating water tank 19 is sent to an exhaust gas treatment device 28 to be detoxified similarly to the ammonia separated in the vaporization separation tank 24. The same applies to the exhaust gas collected in each exhaust hood 29. Although the exhaust gas sent to the exhaust gas treatment device 28 contains hydrogen,
This hydrogen is also treated by the exhaust gas treatment device 28 at the same time as the ammonia.

In the exhaust treatment apparatus for the reduction furnace according to the above-described embodiment, the water 17 in the water-sealed tank 15 in which the same waste water is introduced and the ammonia concentration gradually rises while contacting with the exhaust gas containing ammonia. Further, the ammonia concentration in the water is increased by circulating using a circulating system including a water seal tank 15, an overflow mechanism 18, a circulating water tank 19, a circulating pump 20, and a circulating pipe 21. Since ammonia is vaporized and separated from the treated water 23 having the increased ammonia concentration, ammonia in water can be efficiently gasified and separated.

The ammonia vaporized and separated from the water can be detoxified relatively efficiently and effectively by using a catalytic combustion type exhaust gas treatment device 28 or the like. In this way, ammonia in wastewater is detoxified using an exhaust gas treatment device after vaporization and separation instead of the conventional wastewater treatment method, so that wastewater containing high concentration of ammonia can be efficiently treated with compact treatment equipment. In addition, it can be effectively treated, and no by-product is generated.

That is, according to the apparatus for treating emissions of a reduction furnace of the above-described embodiment, the ammonia-containing exhaust gas and wastewater discharged from the ammonia compound reduction furnace can be inexpensively and effectively detoxified (removal of nitrogen). Processing).

[0033]

As described above, according to the apparatus for treating effluent of a reduction furnace of the present invention, an effluent containing ammonia-containing exhaust gas and effluent discharged from an ammonia compound reduction furnace can be inexpensively and effectively used. Detoxification treatment (nitrogen removal treatment)
can do.

[Brief description of the drawings]

FIG. 1 is a view schematically showing a configuration of an embodiment of an apparatus for treating waste in a reduction furnace according to the present invention.

FIG. 2 is a diagram schematically illustrating an example of a configuration of a conventional waste treatment apparatus for a reduction furnace.

[Explanation of symbols]

 11 Reduction furnace 15 Water seal tank 17, 17 'Ammonia-containing water 19 Circulating water tank 24 Vaporization / separation tank 26 Wastewater treatment device 28 Exhaust gas treatment device

Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat II (reference) C02F 1/66 530 C02F 1/66 530D 4K050 540Z 4K056 540 F23G 7/06 ZABZ F23G 7/06 ZAB F27B 9/04 F27B 9 / 04 F27D 17/00 104G F27D 17/00 104 C22B 5/12 // C22B 5/12 34/30 34/30 B01D 53/34 131 (72) Inventor Tadashi Ino 8 Shinsugita-cho, Isogo-ku, Yokohama-shi, Kanagawa F-term in the Toshiba Yokohama Office of the Company (reference) 4K050 AA01 BA03 CC06 CG29 DA07 4K056 AA02 BA02 CA04 DB02 DB07

Claims (7)

[Claims] An apparatus for treating an exhaust gas discharged from a reduction furnace for reducing an ammonia compound and containing an ammonia-containing exhaust gas and a waste water generated by the reduction of the ammonia compound, wherein the reduction furnace is provided with a discharge pipe through a discharge pipe. A water-sealed container into which exhaust gas and wastewater containing the ammonia are introduced, a water circulation system that circulates water contained in the water-sealed container to increase the ammonia concentration in the water, and overflows from the circulation system. Separated water is stored, and a vaporization separation tank that vaporizes and separates ammonia from the stored water, a wastewater treatment unit that processes water after the ammonia is vaporized and separated, and ammonia separated in the vaporization separation tank An exhaust gas treatment device for a reduction furnace, comprising: an exhaust gas treatment means for treating. 2. The effluent treatment device for a reduction furnace according to claim 1, wherein the circulating system includes a circulating water container that contains water overflowing from the water-sealed container, the water-sealed container and the circulated water container. And a mechanism for overflowing the water having the increased ammonia concentration from the circulating water container to the vaporization / separation tank. 3. The exhaust treatment apparatus for a reduction furnace according to claim 1, wherein the vaporization separation tank has a heating mechanism for selectively vaporizing and separating ammonia from the water. Furnace effluent treatment equipment. 4. An exhaust gas treatment apparatus according to claim 1, wherein said exhaust gas treatment means performs a combustion treatment on the ammonia separated in said vaporization separation tank. An emission treatment device for a reduction furnace, comprising: 5. The wastewater treatment apparatus for a reduction furnace according to claim 1, wherein the wastewater treatment means neutralizes water after the ammonia is vaporized and separated. An apparatus for treating effluent from a reduction furnace, comprising: an apparatus. 6. The exhaust treatment apparatus for a reduction furnace according to claim 1, wherein the reduction furnace purifies a metal by a reduction treatment of the ammonia compound. Waste treatment equipment of reduction furnace. 7. An apparatus for treating emissions of a reduction furnace according to claim 6, wherein said metal is tungsten or molybdenum.