JP2001137888A - Method for treating organic waste water - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for treating organic waste water which is capable of effectively causing the methane fermentation of waste water and effectively recovering various compds as resources. SOLUTION: This method for treating the organic waste water consists in removing an ammonia component included in the organic waste water by ammonia stripping preferably in the fore stage of the methane fermentation.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for treating organic wastewater widely including human waste, septic tank sludge, sewage sludge, livestock manure and the like, and more particularly, to a method for effectively methane fermenting wastewater. The present invention relates to a method for treating organic waste, which can effectively recover various compounds as resources.

[0002]

2. Description of the Related Art In the treatment of organic wastewater, BOD components, COD components, nitrogen compounds, phosphorus compounds, and the like are removed. Conventionally, with regard to organic wastewater containing hardly decomposable organic substances and high-concentration nitrogen, nitrification, which is activated sludge treatment by microorganisms (activated sludge method), is first applied to BOD components and nitrogen compounds for the main purpose of sanitary treatment and water quality conservation. A denitrification treatment is performed. Next, the wastewater from which BOD components and nitrogen compounds have been removed is subjected to advanced treatment to obtain C
The OD component phosphorus compound and chromaticity are removed (see FIG. 3).

[0003] On the other hand, recently, recycling has been performed in various kinds of waste treatment. In organic wastewater treatment, instead of simply detoxifying and discarding the waste, it is necessary to collect it as an energy source, or as a recycled product. Collection and recycling are being promoted. Here, with respect to carbon compounds, for example, methane fermentation or composting enables energy recovery and recycling of recycled products. However, nitrogen contained in high concentrations is removed as harmless nitrogen gas by biological treatment, but has not been recovered as a resource. For this reason, there has been a demand for the development of a treatment system capable of recovering nitrogen compounds contained in wastewater at a high concentration as resources (such as nitrogen fertilizer).

FIG. 3 shows an outline of an organic wastewater treatment using a conventional nitrification denitrification treatment. In the nitrification denitrification treatment 10, an apparatus in which a denitrification tank 8 is provided at the front stage and a nitrification tank 9 is provided at the rear stage for the flow of the organic wastewater is used. Here, the nitrification denitrification treatment decomposes pollutants in wastewater by the action of microorganisms. Organic wastewater to be treated includes:
It contains a BOD component as a carbon source, a nitrogen component (TN) containing ammonia and organic nitrogen, and the like. In the nitrification and denitrification treatment having such a configuration, ammonia in the wastewater is not treated in the denitrification tank 8 in the preceding stage, and thus is carried to the nitrification tank 9 as it is. Then, in the nitrification tank 9, as shown in the following equation (1), it reacts with oxygen in the air introduced from the supply pipe 11 to generate NOx (x = 2 or 3).

[0005] ^{_{NH 4 + + 3 / 2O 2}} → NO 2 - + 2H + + H 2 O ··· (1) NO 2 - + 1 / 2O 2 → NO 3 NOx generated in the nitrification tank 9 disposed downstream -N is sent to the denitrification tank 8 at the preceding stage by the return pipe 12. Then, in the denitrification tank 8, utilizing the hydrogen contained in the BOD component in the activated sludge, it is decomposed according to the following formula (2) to render it harmless.

2NO ₂ ⁻ +3 (H ₂ ) → N ₂ + 2OH ⁻ + 2H ₂ O (2) 2NO ₃ ⁻ + 5 (H ₂ ) → N ₂ + 2OH ⁻ + 4H ₂ O

However, in the conventional organic wastewater treatment using such nitrification and denitrification treatment, nitrogen is released into the atmosphere as nitrogen gas (N ₂ ). Therefore, in this method, nitrogen is not recycled. I didn't consider it at all. For this reason, a technology and a system for recovering nitrogen compounds in the form of ammonia which can be used as a fertilizer have been desired.

[0008]

DISCLOSURE OF THE INVENTION In view of the above problems, the present inventors have developed a method for treating organic wastewater, in which mainly nitrogen compounds contained in the wastewater are recovered so as to be used as resources. In order to develop, we studied diligently. As a result, the present inventors have found that such a problem can be solved by performing ammonia stripping before the usual biological treatment and recovering nitrogen contained in a high concentration as ammonia. The present invention has been completed from such a viewpoint.

[0009]

That is, the present invention relates to a method for treating wastewater containing methane fermentation, comprising removing ammonia components contained in organic wastewater by ammonia stripping. Is provided. Here, before the methane fermentation,
It is preferable to perform the ammonia stripping,
Further, methane gas generated by methane fermentation is preferably used as a heat source for ammonia stripping via a boiler. And the residue of methane fermentation can be composted. Also, the present invention
Another object of the present invention is to provide a method for converting ammonia recovered by the ammonia stripping treatment into nitrogen gas by a catalytic reaction treatment. In the present invention, an embodiment in which activated sludge treatment or advanced treatment is performed after the ammonia stripping and the methane fermentation is preferred.

The present invention is applicable to organic wastewater containing high concentration of nitrogen such as night soil, septic tank sludge, livestock manure and the like. According to the present invention, the nitrification denitrification process that has been removed as a N ₂ gas, that can be recovered as NH ₃ by the ammonia stripping, it is possible to effectively utilize the resources. Further, according to the aspect in which methane gas generated in methane fermentation is used as a heat source for ammonia stripping, the entire system can be efficiently treated according to the characteristics of organic wastewater, and energy can be used without waste. . And by composting the residue of methane fermentation (composting),
Effective utilization as resources can be achieved.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, specific embodiments of a method for treating organic waste according to the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 schematically shows an embodiment (No. 1), and FIG. 2 schematically shows an embodiment (No. 2).

Embodiment (1) In the nitrification and denitrification treatment in a conventional wastewater treatment system, nitrogen, BOD components, etc. are treated together. Combine three separate devices. That is, treatment is performed in the order of ammonia stripping (recovering nitrogen content), methane fermentation (recovering carbon content), and activated sludge (removing residual BOD components). In the present embodiment, the ammonia stripping is performed before the methane fermentation. The mere concentration of wastewater cannot achieve the purpose of ammonia resource recovery.
An ammonia stripping process is performed to recover ammonia. In ammonia stripping, nitrogen compounds are recovered in the form of ammonia. Ammonia recovery is usually recovered as 10-20% ammonia water,
The recovered ammonia can be used as a neutralizing agent or mixed with sulfuric acid to be used as a fertilizer component such as ammonium sulfate. At this time,
The use of waste sulfuric acid generated from a chemical plant such as a caprolactam production process, a hydrocyanic acid production process, a methacrylic acid ester production process, a titanium oxide production waste liquid, and the like is also conceivable. That is, by reacting the recovered ammonia with the waste sulfuric acid generated in the chemical plant, it is possible to produce ammonium sulfate, which is a valuable resource.

Here, the ammonia stripping treatment can be carried out, for example, by a distillation column as shown in FIG. In this distillation column (ammonia stripper), high-temperature steam is passed through a plurality of stages 20 in a shelf shape from below, and is brought into contact with organic wastewater (stock solution) introduced from above. By this contact, wastewater is recovered from the lower part of the tower, and water vapor containing ammonia can be recovered from the upper part. By condensing this water vapor, ammonia water is obtained.
Ammonia stripping itself can also be used for treating inorganic wastewater, such as wastewater from power equipment and industrial wastewater. In the present invention, ammonia stripping is used in the process of treating organic nitrogen-containing wastewater such as human waste, sewage, and livestock manure.

The wastewater that has passed through the above-mentioned ammonia stripping 1 flows to the waste liquid side, and contains carbon. Therefore, in order to treat the carbon contained in the wastewater, the methane fermentation treatment 2
I do. Here, the main component of the fermentation gas in FIG. 1 is methane.

According to such methane gas fermentation, C
(Carbon) can be recovered, but in some cases B
Does not meet the OD component discharge standard (processing standard). Therefore, in this embodiment, in order to further remove the BOD component, an activated sludge treatment that only performs aeration treatment is performed, and the BOD is decomposed into carbon dioxide and hydrogen gas by the following equation (3).

BOD + O ₂ → CO ₂ + H ₂ (3) As described above, the activated sludge treatment in the present embodiment does not need to be a two-tank type nitrification denitrification treatment, and only BOD is treated. Simple facilities are good.

In this embodiment, usually, methane fermentation 2 is performed after ammonia stripping 1. This is because in the methane fermentation treatment 2, ammonia serves as an inhibitor of methane generation, and the methane fermentation itself may be stopped by ammonia inhibition. Therefore, by performing methane fermentation treatment after ammonia stripping, methane recovery efficiency is improved and operation can be stabilized.

In the ammonia stripping 1,
The higher the temperature, the better the ammonia recovery efficiency. On the other hand, the fermentation gas generated in the methane fermentation process 2 can be used as a heat source. Therefore, it is preferable that the fermentation gas is sent to the ammonia stripping 1 via the boiler heating 7, so that the heat energy can be effectively used as a whole system.

Embodiment (Part 2) The above embodiment (Part 1) is effective when the ammonia recovered by ammonia stripping 1 is used as it is as a resource. The present embodiment is a method for treating organic wastewater in which ammonia recovered by the ammonia stripping process is converted into nitrogen gas by a catalytic reaction process. In the present embodiment, as shown in FIG. 2, the recovered ammonia is converted to nitrogen gas by using a catalytic reaction 13. That is, the main object of the present invention is to recover nitrogen, and there are places where it is difficult to recover in the form of ammonia depending on the environment around the equipment. Therefore, according to the present embodiment, the recovered ammonia can be treated with a catalyst and released into the atmosphere as harmless nitrogen gas, and irritating ammonia is not discharged.

In addition, according to the present embodiment, methane gas can be recovered by methane fermentation. Conventionally, when biological treatment was performed, nitrogen was mixed. However, since nitrogen was recovered first, It is effective in terms of operation and work efficiency in processing. As a catalyst for decomposing ammonia into nitrogen used here, for example, a titanium oxide-based catalyst or the like can be mentioned. Furthermore, in the present invention, after ammonia stripping, methane fermentation is omitted and activated sludge treatment (BO)
D removal) embodiment is also feasible.

[0021]

As described above, according to the treatment method of the present invention, in the treatment of organic wastewater containing a nitrogen compound, ammonia can be recovered as it is, and on the other hand, resources can be efficiently used in terms of energy. Can be used effectively. In addition, the inconvenience of handling the decomposition treatment by the nitrification denitrification treatment is solved, and the operational complexity of the treatment system can be avoided. Furthermore, since nitrogen and carbon are separately recovered from the organic wastewater, resources can be efficiently recovered, and waste can be advantageously treated with less waste in terms of energy.

[Brief description of the drawings]

FIG. 1 is a diagram schematically showing a process of an embodiment (part 1) of the present invention.

FIG. 2 is a diagram schematically showing a process of an embodiment (part 2) of the present invention.

FIG. 3 is a diagram schematically showing a process of treating organic wastewater which has been conventionally used.

FIG. 4 is a configuration diagram schematically showing an ammonia stripper that can be used in the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Ammonia stripping 2 Methane fermentation treatment 3 Activated sludge treatment 4 Advanced treatment 6 Composting 7 Boiler heating 8 Denitrification tank 9 Nitrification tank 10 Nitrification and denitrification treatment 11 Oxygen supply pipe 12 Return pipe 20 Shelf 21 Liquid drop 22 Shelf Support part 23 Inlet wear 24 Outlet wear 25 Gas-liquid contact part

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) C02F 1/70 C02F 1/70 Z 4H061 11/04 11/04 A C05C 3/00 C05C 3/00 (72 ) Inventor Kazuhiko Fujise 12 Nishikicho, Naka-ku, Yokohama-shi, Kanagawa Prefecture Inside Mitsubishi Heavy Industries, Ltd.Yokohama Works (72) Inventor Hiroshi Mizutani 12-nishikicho, Naka-ku, Yokohama-shi, Kanagawa Prefecture Mitsubishi Heavy Industries, Ltd. ) 4D037 AA11 AB12 BA23 BB02 BB05 BB06 CA07 CA09 4D038 AA08 AB29 BA04 BA06 BB01 BB02 BB03 BB15 BB19 4D040 AA01 AA12 4D050 AA14 AA15 AA16 AB35 BC06 BD06 BD08 CA01 CA02 CA17 4A02 BA11 A12A01 A02A14A02 GG48 GG50

Claims (8)

[Claims] 1. A method for treating wastewater containing methane fermentation, comprising removing ammonia components contained in organic wastewater by ammonia stripping. 2. The method for treating organic wastewater according to claim 1, wherein the ammonia stripping is performed before the methane fermentation. 3. The method for treating organic wastewater according to claim 1, wherein methane gas generated by methane fermentation is used as a heat source for ammonia stripping via a boiler. 4. The method for treating organic wastewater according to claim 1, wherein the residue of the methane fermentation is composted. 5. The method for treating organic wastewater according to claim 1, wherein the ammonia recovered by the ammonia stripping treatment is converted into nitrogen gas by a catalytic reaction treatment. 6. The organic wastewater according to any one of claims 1 to 5, wherein the ammonia recovered by the ammonia stripping treatment is reacted with waste sulfuric acid generated in a chemical plant to produce ammonium sulfate as a valuable material. Processing method. 7. The method for treating organic wastewater according to claim 1, wherein an activated sludge treatment is performed after the ammonia stripping and the methane fermentation. 8. The method for treating organic wastewater according to claim 1, wherein advanced treatment is performed after the ammonia stripping and the methane fermentation.