JP2665508B2 - Deodorant and method for producing the same - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a wastewater treatment system and a wastewater treatment system for industrial wastewater. The present invention has been developed to accelerate the development of the ability to decompose malodorous components, to increase the mechanical strength, and to cause swelling and softening. High density of microorganisms, and regeneration by washing with water
The present invention relates to a biological deodorizing agent capable of preventing composting of sludge itself and having excellent performance, and a method for producing the same.

[0002]

2. Description of the Related Art Heretofore, there has been known a method of deodorizing exhaust gas containing odorous components using sludge. For example, JP-A-58-186418 describes a method in which activated sludge slurry is sprayed with a special nozzle and brought into gas-liquid contact with odorous air to deodorize. Also, Japanese Patent Publication No. 57-5206
No. 6 (Japanese Patent Application Laid-Open No. 52-125629) discloses a deodorant obtained by adsorbing and fixing bacterial cells in sludge generated in biological treatment of wastewater to a medium mainly composed of a multi-cavity powdery substance. Is described. Further, this publication, after the sludge and multi腔性powdery substance and nutrient for combined mixed and dried at room temperature standing, heating blower vacuum drying or 30 to 60 ° C., the water content 7-15 % Of deodorants are described.
Further, Japanese Patent Application Laid-Open No. 64-2569 discloses that microorganisms collected by culturing or from nature are dehydrated at a temperature of about 70 ° C. or less, dried in a solid form, and reduced to a water content of 8%.
A method for obtaining an immobilized microorganism adjusted to 5% or less and a reaction method thereof are described.

[0003] Japanese Patent Publication No. 22-22357 discloses a method for producing a deodorant by chemical adsorption, comprising a metal oxide powder as a main component. Furthermore, Japanese Patent Publication No. 57-118 describes a sludge treatment method in which a metal salt or the like is used as a solidifying agent for sludge so as to increase the strength of the dried body and prevent re-sludge formation.

[0004]

The above prior art has the following problems. (1) It was difficult to prepare an immobilized microorganism having sufficient strength, and it could only be used as a powder spray or liquid dispersion method. (2) There is a problem that the primary fermentation of the excess sludge occurs, the sludge becomes close to compost, and a part of useful cells in a low temperature region disappears. (3) It is difficult to adopt a method of using continuously for a long time, and it is a disposable use method. In addition, an exothermic reaction may occur at the beginning of use. (4) Unless water management was sufficient, the storage stability was extremely poor. In addition, the processing efficiency was low and a large site area was required. Furthermore, depending on the place where sludge is collected, dried sludge may swell and soften due to moisture absorption. (5) As described in JP-A-52-125629 described above.
A deodorant is obtained by adsorbing and fixing bacterial cells on a multi-lumen substance.
Therefore, the useful bacteria on the surface of the carrier may be washed out or separated
Can not be regenerated by washing, washing with water, and adsorption of odor components
Subsequent decomposition reaction occurs only on the support surface, and intermediate by-products
The problem that the deodorizing operation cannot be performed for a long time due to accumulation inside
Have.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned points, and when an activated sludge is dried at 70 ° C. or less to produce a filler for biological deodorization, an aqueous solution and / or aqueous solution of a water-soluble polyvalent metal salt is used. By adding and stirring and mixing an aqueous solution of a neutral polyvalent metal oxide, the development of the ability to decompose malodorous components is accelerated,
Increasing the mechanical strength, anti skill softening and swelling when immersed in water, it can be played by further washing with water, and the medium
It is an object of the present invention to provide a deodorant with less accumulation of inter- products and a method for producing the same.

[0006]

In order to achieve the above-mentioned object, the deodorant of the present invention is applied to an activated sludge of a biological wastewater treatment plant to improve the ability of removing a malodorous component and to improve the malodorous component.
For the suppression of the occurrence of an aqueous solution or / and water-soluble polyvalent aqueous polyvalent metal salt of a metal oxide of a water-soluble polyvalent metal salt
And / or 5-100 ppm of polyvalent metal oxide
The activated sludge to which the polyvalent metal salt and / or the polyvalent metal oxide is added and mixed as described above is dried and fixed to form a solid which can be regenerated by washing with water. In addition, the method for producing a deodorant of the present invention comprises the steps of: (a) adding an odorous component to activated sludge of a biological wastewater treatment plant ;
An aqueous solution of a water-soluble polyvalent metal salt or / and an aqueous solution of a water-soluble polyvalent metal oxide are mixed with a polyvalent metal salt and / or a polyvalent metal oxide in order to improve the removal ability and suppress the generation of malodorous components .
Process but stirring and mixing was added to a 5 to 100 ppm, washed with water and dried immobilized at 70 ° C. or less (b) polyvalent metal salt or / and activated sludge by stirring and mixing a polyvalent metal oxide A process of producing a solid material that can be regenerated by the method described above. In the above method, a step of adding a polyvalent metal salt or / and a polyvalent metal oxide, washing the stirred and mixed activated sludge with water, and removing excess polyvalent metal salt or / and / or polyvalent metal oxide is added. By adding a polyvalent metal salt or / and a polyvalent metal oxide and agitating and mixing the activated sludge to oxidize and decompose undecomposed substances,
It is preferable to add a step for improving the releasability.

A water-soluble polyvalent metal salt added to sludge or /
And water-soluble polyvalent metal oxides include Ca, Al, F
A substance containing ions such as e can be used, and as an addition form, an aqueous solution is used, and particularly, an aqueous solution of an aluminum compound such as polyaluminum chloride and aluminum sulfate is preferably used. As the sludge, activated sludge from various wastewater treatment plants can be used. Next, details of the method for producing the deodorant of the present invention will be described. First,
Returned sludge from a sewage treatment plant that has been left at room temperature to remove the supernatant,
A polyvalent metal salt or / and a polyvalent metal oxide previously dissolved in water are added with stirring so that the concentration becomes 5 to 100 ppm, and the mixture is homogeneously mixed. After neutralization of the pH, the mixture is further allowed to stand at room temperature. When the organic matter content of the used sludge is high, the organic matter is decomposed by passing the sludge added with polyvalent metal salt or the like for 1 to 7 days. When the amount of the polyvalent metal salt or the like added to the sludge is large, excess polyvalent metal salt or the like is removed by water washing in which sedimentation of the sludge and disposal of the supernatant are repeated. The sludge after the polyvalent metal salt addition treatment is suction-filtered with a filter paper or the like to obtain a dehydrated cake having a water content of about 85%, and is heated at room temperature to 70 ° C, preferably at room temperature to 50 ° C for 1 hour to
It is air-dried for 3 days to reduce the water content to around 10%.
Dried product is crushed to 5mm or less if necessary, 3-5mm
And sieved with a sieve. After the above dried product was moistened with water, it was packed in a packed tower, and SV (space velocity) = 10 to 400 [hr]
^-1 ] and contact with an odorous gas. When the odorous gas is dry, it is ventilated in a humidified state. The regeneration of the deodorizing ability is performed by washing the dried sludge with water. As a drying method, heated ventilation drying, natural solar drying, vacuum drying, or the like is employed. If the drying temperature exceeds 70 ° C., the immobilized microorganism activity is partially lost, so that the biological deodorizing ability is not exhibited, or even if it is exhibited, it takes a long time to start up. There is a disadvantage that it is low.

FIG. 1 shows an example of an apparatus using a deodorant produced by the method of the present invention. As shown in FIG. 1, a packed layer 16 of a deodorant manufactured according to the present invention is provided in a main body 14 having a malodorous gas inlet 10 at one end and a deodorant gas outlet 12 at the other end. 18 is a perforated plate, 20 is a water tank, and 22 is a regulating valve. Note that a vermiculite layer may be provided instead of the water tank.

[0009]

Embodiments of the present invention will be described below. Example 1 Returned sludge circulated in a public sewage treatment plant employing the activated sludge method was allowed to stand at 4 ° C. for 12 hours to remove the supernatant. To this sludge, add 5 parts of aluminum sulfate previously dissolved in water.
0 ppm with stirring, and add p with NaOH.
After neutralizing H to 7.0, it was left still at 4 ° C. for 12 hours. The sludge added with aluminum sulfate was aerated for 4 days to decompose part of the organic matter. Excess aluminum sulfate was removed by washing twice with repeated settling of the sludge and disposal of the supernatant.
The sludge after the aluminum sulfate addition treatment was suction-filtered with a filter paper to obtain a dehydrated cake having a water content of about 85%, and dried by ventilation at 30 ° C. for 2 days to reduce the water content to about 10%.
The dried product was crushed and sized with a sieve to 3 to 5 mm. After the dried product was moistened with water, it was packed in a packed tower shown in FIG.
It contacted with a bad smell gas at V = 50 [hr ^-1 ].

The malodorous gas was prepared using the apparatus shown in FIG. That is, a hydrogen sulfide (H ₂ S) cylinder 28 and a methyl mercaptan (MM) cylinder 30 are connected to a line 26 at the outlet of the compressor 24, and a sealed container 32 is connected to the line 26. odor liquid accommodating after plugged with appropriately adjusted silicone stopper a thickness a plurality of open bottles 34 filled each, gas property the outlet 36 of the sealed container 32, hydrogen sulfide (H 2 _S) 40~100ppm Methyl mercaptan (MM) 20 to 40 ppm methyl sulfide (DMS) 2 to 10 ppm propionic acid 10 to 20 ppm n-butyric acid 10 to 20 ppm i-valeric acid 5 to 15 ppm n-valeric acid 5 to 15 ppm ammonia 20 to 80 ppm trimethylamine 10 to 20 ppm I made it. 38 is a pressure regulator. The inner diameter of the main body 14 of the packed tower is 60 mm, and the thickness (height) of the packed bed 16.
Was 100 mm, the filling volume was 280 ml, and the dry sludge weight was 160 g. The deodorizer was washed with water three times.
The results of this experiment were as shown in FIG. FIG.
For H ₂ S, MM, and DMS, the relationship between the number of ventilation days and the removal rate is shown. Except for the above components, the removal rates were almost 100%. In addition, during the aeration, ammonia newly generated in the packed tower, DMDS (methyl disulfide)
The relationship between the concentration of azide and the number of days of aeration is also shown.

Comparative Example 1 In Example 1, no aluminum sulfate was added, and
Without drying in the manufacturing process, produce dried sludge,
The same experiment as in Example 1 was performed. Manufacturing conditions and experimental conditions were the same as in Example 1. The results were as shown in FIG. The deodorizer was washed twice with water. 3 and 4 that the addition of aluminum sulfate significantly improves the removal rate of DMS (methyl sulfide), which is difficult to remove among the malodorous components. In addition, it can be seen that the addition of aluminum sulfate significantly reduces the generation of ammonia and DMDS (methyl disulfide). In addition, by adding aluminum sulfate, swelling and softening did not occur when the dried deodorant (filler) was immersed in water, and problems in aeration treatment such as clogging were improved.

[0012]

Since the present invention is configured as described above, it has the following effects. (1) Since the deodorant of the present invention is a dried product obtained by homogeneously mixing excess sludge with an aqueous solution of a water-soluble polyvalent metal salt and / or an aqueous solution of a water-soluble polyvalent metal oxide, Can be maintained at a high filling density, and the exhaust gas can be efficiently deodorized for a long period of time. (2) deodorant of the present invention, in a solid form, which has been prepared by drying at a low temperature, solidification effect of further water-soluble polyvalent metal salt and / or water-soluble polyvalent metal oxides Thereby, it has extremely high strength and can be processed into various shapes.
Therefore, by passing the malodorous exhaust gas through the packed bed filled with the workpiece, the exhaust gas can be efficiently deodorized for a long period of time. (3) deodorant of the present invention, water-soluble polyvalent metal salt or /
In addition, by the action of the water-soluble polyvalent metal oxide, self-decomposition of the sludge itself can be prevented, and generation of harmful substances such as ammonia can be suppressed.

(4) By adding an aqueous solution of a water-soluble polyvalent metal salt or / and an aqueous solution of a water-soluble polyvalent metal oxide and mixing them homogeneously, the ability to decompose malodorous components is exhibited. The removal rate of methyl sulfide (DMS), which is difficult to remove among malodorous components, is improved, the generation of ammonia and methyl disulfide (DMDS) is suppressed, and the moisture and moisture of the dry filler (deodorant) are reduced. No swelling and softening due to contact with water occurs, and problems in aeration treatment such as clogging are improved. (5) In the deodorant of the present invention , both aerobic cells and anaerobic cells are immobilized, and aerobic decomposition and anaerobic decomposition proceed simultaneously, and deodorization can be performed efficiently. (6) In the deodorant of the present invention, the carrier and the cells are uniformly mixed.
And the packing density of the cells inside the carrier is high.
Even if useful bacteria flow out or peel off due to washing with water, etc.
Useful bacteria are replenished from the part. Therefore, deodorization by washing with water
Regeneration of the agent is possible, and deodorization operation is performed continuously for a long period of time
be able to. (7) Intermediate by-products generated by the decomposition of odorous components are carriers
Even if it moves inside, it is broken down by microorganisms,
The accumulation of by-products inside the carrier is reduced, and the
The period can be continued.

[Brief description of the drawings]

FIG. 1 is a schematic explanatory view showing an example of an apparatus using a deodorant produced by the method of the present invention.

FIG. 2 is a schematic explanatory view of an apparatus for preparing an offensive odor gas used in Examples and Comparative Examples.

FIG. 3 is a graph showing results in Comparative Example 1.

FIG. 4 is a graph showing the results in Example 1.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Odor gas inlet 12 Deodorizing gas outlet 14 Main body 16 Packing layer 18 Perforated plate 20 Water tank 22 Adjusting valve 24 Compressor 28 Hydrogen sulfide cylinder 30 Methyl mercaptan cylinder 32 Closed container 34 Open bottle

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Shuichiro Hatakeyama 1-1-1, Kawasaki-cho, Akashi-shi, Hyogo Kawasaki Heavy Industries, Ltd. References JP-A-64-2569 (JP, A) JP-A-5-123527 (JP, A) JP-A-52-125629 (JP, A) JP-A-53-76188 (JP, A)

Claims (4)

(57) [Claims] The activated sludge of a biological wastewater treatment plant has a bad odor.
To improve the ability to remove components and suppress the generation of odorous components
A water-soluble polyvalent metal aqueous solution of a salt or / and water-soluble polyvalent metal aqueous polyvalent metal salt of an oxide or / and polyvalent metal
Add and mix so that the oxide is 5 to 100 ppm ,
A deodorizing agent characterized in that activated sludge to which a polyvalent metal salt and / or a polyvalent metal oxide has been added and mixed is dried and fixed to form a solid which can be regenerated by washing with water. 2. (a) Improving the ability to remove malodorous components and suppressing the generation of malodorous components in activated sludge of a biological wastewater treatment plant.
For control, an aqueous solution of a water-soluble polyvalent metal salt or / and an aqueous solution of a water-soluble polyvalent metal oxide is mixed with a polyvalent metal salt and / or
(B) adding and stirring and mixing a polyvalent metal oxide so as to have a polyvalent metal oxide content of 5 to 100 ppm ; A process for drying and fixing to a solid which can be regenerated by washing with water. 3. A step of adding a polyvalent metal salt and / or a polyvalent metal oxide, washing the stirred and mixed activated sludge with water, and removing a surplus polyvalent metal salt and / or a polyvalent metal oxide. The method for producing a deodorant according to claim 2, characterized in that: 4. An activated sludge, to which a polyvalent metal salt or / and a polyvalent metal oxide has been added, and which has been stirred and mixed, is aerated to remove undecomposed substances.
The process according to claim 2, wherein the deodorizing agent characterized by adding a step of oxidative decomposition.