JP2611427B2 - Light body with microbial layer - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a lightweight body having a microorganism layer. That is,
The present invention relates to a lightweight body having a microbial layer that covers the surface of sewage that emits foul odor and that can extremely effectively treat the odor that generates sewage.

[Prior Art] Conventionally, odorous wastewater (such as toilets, rivers, drains from chemical plants, ponds, lakes, etc.) is masked or removed by the following method.

(1) Dissolve chemicals and fix odor sources.

(2) There is an attempt to spray and mask spices.

(3) Attempts have been made to decompose or remove malodor sources by using a mixture of microorganisms and enzymes.

In such a conventional method, in methods (1) and (3), an amount proportional to the amount of sewage is required to dissolve or mix in sewage, and a good effect is obtained together with chemicals, enzymes, and microorganisms. It is disadvantageous in terms of cost to realize a promising expensive product as a product. In addition, method (2)
The use of chemicals such as fragrances and alcohols is masking only on an ad hoc basis and has no effect after a certain period of time. Furthermore, in the preparation of the method (3) in which the conventional microorganism and enzyme are mixed, it takes a long time to decompose, and it is not possible to quickly remove the offensive odor, and the effect is insufficient.

[Problems to be Solved by the Invention] Accordingly, in the present invention, in order to greatly improve the problems that have not been solved by the conventional technology, that is, cost and temporary effects, these problems are also considered in terms of cost. A microbial layer, which is considered technically expensive and highly advanced, is formed on the surface of the lightweight body so that the overall specific gravity is less than 1, and a bioreactor layer is formed on the surface of the wastewater to be treated. It is an object of the present invention to provide a product which efficiently and effectively treats a bad smell generated from sewage.

[Means for Solving the Problems] The gist of the present invention is that of Bacillus.
Genus, genus Streptococcus, genus Rhizopus, Nitrosomonas
Genus, Nitrobacter, Pseudomonas and Aspergillus
s) For 10 parts by weight of a mixture of microorganisms mixed with bacteria of the genus,
5-5000 parts by weight of glucose, 5-5000 parts by weight of lactose,
1 to 3000 parts by weight of ammonium chloride and water are added at a temperature of 28 to 40.
2 to 50 parts by weight of an organic adhesive and 50 to 2,000 parts by weight of a porous lightweight substance are mixed with 100 parts by weight of an aqueous solution obtained by stirring and reacting for 24 to 60 hours at 20 to 40 ° C. A light body having a microbial layer characterized by having a specific gravity of less than 1 obtained by drying under the conditions described above. And as the microorganism mixture, Bacillus coagulan (Bacillus coagulan)
s) [IAM 1115], Streptococcus lactis (Str
eptococcus lactis) [IFO 12546], Rhizopus oryzae [IAM 6006], Nitrosomonas europaea [IFO 142]
98], Nitrobacter agili
s) [IFO 14297], Pseudomonas nitroreducens [IFO 12694] and Aspergillus niger [IFO 406]
A microbial mixture obtained by mixing the cells of [6] is preferable.

The sewage treatment lightweight body of the present invention is manufactured as follows. That is, the genus Bacillus, the genus Streptococcus, the genus Rhizopus,
A mixture of microorganisms obtained by mixing bacteria of the genus Nitrosomonas, Nitrobacter, Pseudomonas and Aspergillus, glucose, lactose, ammonium chloride and water in a predetermined ratio. And at a temperature of 28-48 ° C, 24
2 to 50 parts by weight of the organic adhesive and 100 parts by weight of the aqueous solution obtained by stirring and reacting
When 50 to 2000 parts by weight are mixed and dried at 20 to 40 ° C., for example, using a vacuum dryer until the final moisture content becomes 5 to 7% by weight, a lightweight body having a microbial layer on the surface is obtained. The light body having the microorganism has a specific gravity of less than 1.

The sewage treatment lightweight body having a microbial layer of the present invention has a structure as shown in FIG. 1 and comprises a mixture of the above-mentioned microorganisms, an enzyme and an organic acid produced by the reaction, and an organic material insoluble in water. The adhesive is fixedly contained in the micropores of the porous lightweight material.

That is, a microbial layer comprising microorganisms + enzymes generated by the reaction + organic acid + organic adhesive insolubilized in water is fixed in the micropores.

Therefore, the light weight body for malodor treatment of the present invention has a specific gravity of less than 1 and floats on the surface of sewage.

And when the odor source is floated on the surface of the sewage, the odor source such as ammonia volatilized from the surface of the sewage is fixed and decomposed.At the same time, it is not necessary to mix and use it in the sewage. As shown in FIG. 2, it floats on the surface of the sewage and is always in a different state from the sewage, so that the odor can be prevented or the mask can be effectively achieved. This effect is considered to be achieved by the following mechanism.

That is, first, the light-weight body of the present invention having a microbial layer floating on the surface of sewage contacts the sewage, whereby the microbial layer partially intersects with water, and the enzymes and organic acids in the microbial layer elute to the surface of the sewage. Very quickly neutralizes and fixes odorous gases and the like that evaporate from the surface of sewage.

Next, the water that has entered the microbial layer comes into contact with the microorganisms, which activates the microorganisms and grows and grows using the coexisting glucose, lactic acid, and ammonium chloride as nutrient sources, and organic acids and enzymes such as lactic acid and citric acid. To produce. Since this product can neutralize and decompose the odor source on the surface of the sewage, the odor can be suppressed for a long period from the beginning.

In addition, the microorganisms used partially decompose organic matter in wastewater,
Some of them deodorize organic substances that are sources of offensive odors. In particular, in the long term, bacteria of the genus Nitrosomonas are ammonia → NO ₂ ,
Nitrobacter can be converted to NO ₂ → NO ₃ , and Pseudomonas can be converted to NO ₃ → N ₂ .

Therefore, in the lightweight body of the present invention, the microorganism layer having a certain composition is used under entrained air and under extremely aerobic conditions. Odor prevention, and effective treatment of odor sources. In other words, it can be said that the composition and the contact reaction conditions were extremely well matched.

Furthermore, the ammonia as malodor, Nitrosomonas Europe et, Nitrobacter-Agirisu, by a combination of Pseudomonas nitro les du sensor, Nitrosomonas Europe et include ammonia → NO ₂ ^-, Nitorobakuta-Agirisu is NO ₂ ^- → NO ₃ ^-, Pseudomonas
Nitro Le Du sensors, NO ₃ ^- → N ₂ and odorless, can be converted harmless gas, the action of these bacteria is strengthened by the presence of additives and oxygen present invention, these conversion The ammonia decomposition became possible in a shorter time than the conventional product.

The microorganisms to be contained in the microorganism layer of the present invention include: (1) Bacillus spp., In particular, Bacillus subtilis [IAM (Institute of Applied
Microbiology; an abbreviated name of a useful strain storage facility; also referred to as abbreviated name hereafter) 1168], but Bacillus natto (B. natt
o) [IFO (Institute for Fermentation Osaka: an abbreviation for the Institute of Fermentation: hereinafter also abbreviated to this abbreviation) 30
09] Bacteria, Bacillus coagulans [IAM
1115], Bacillus macerans [IAM 1
246] may be used in combination.

(2) As the fungus belonging to the genus Streptococcus, any bacterium may be used, but S. faecalis [IAM 1119], Streptococcus sp.
Cremoris (IAM 1150), Streptococcus lactis (IFO 12546) and the like can be used.

In addition, as one kind of fungi belonging to the genus (3) Rhizopus, Rhizopus formosaensis (Rhiz
opus formosansis) [IAM 6250], Rhizopus oryzae [IAM 6006], Rhizopus pseudochinensis [IAM]
6042] can be used.

(4) As the bacteria belonging to the genus Nitrosomonas, Nitrosomonas europaea [N.
O 14298] can be used.

(5) As the bacteria of the genus Nitrobacter, N. agilis [IFO 1429
7] can be used.

(6) Pseudomonas genus bacteria include P. nitrored
ucens) [IFO 12694], P. caryophillis (IFO 12950), Pseudomonas stutzeri (IFO 3773).

As the bacteria belonging to the genus Aspergillus (7), Aspergillus oryzae (E. oryzae)
[IFO 4176], Aspergillus niger [E.niger] [I
FO 4066], Aspergillus usamii (E. usamii) [I
FO 6082] can be used.

(1) Bacillus coagulan
s) [IAM 1115], (2) Streptococcus lactis (Streptococcus lactis)
lactis) [IFO 12546], (3) Rhizopus oryzae [IAM
6006], (4) Nitrosomonas e
uropaea) [IFO 14298], (5) Nitrobacter agili
s) [IFO 14297], (6) Pseudomonas nitroredusense (Pseudomo
nas nitroreducens) [IFO 12694] and (7) Aspergillus niger
A combination of the microorganisms of [IFO 4066] is used.

According to the present invention, there is provided a light-weight body for treating a bad odor source, in which the bacteria of the 7 genera are mixed to promptly decompose and remove the bad odor. That is, a. Lactose is converted to lactic acid by a combination of (1), (2) and (3). Lactic acid is aromatic and has the effect of neutralizing malodor as an organic acid. The production of organic acids by microbial conversion is cost-effective. Also, (1), (2),
The cells of (3) also decompose organic substances that are odor sources.

b. (4), (5), and (6) have the effect of decomposing ammonia, which is an initial odor source, for a long time. That is, (4)
Is ammonia → NO ₂ , (5) is NO ₂ → NO ₃ , (6)
Converts NO ₃ → N ₂ and converts odor, ie, ammonia, to odorless gas.

c. The bacterium of (7) converts sugars into organic acids such as citric acid and contributes to the effect of neutralizing offensive odors. Production by microbial conversion is cost effective because no energy is required.

In addition, the bacteria (1) to (7) produce enzymes such as amylase and protease, and contribute to neutralization and decomposition of malodor sources.

That is, Nitrosomonas europaea
europaea) [IFO 14298], Nitrobacter agilis [IFO 14297], Pseudomonas nitroreduror
educens) [IFO 12694], which contributes to the decomposition of ammonia, which is an odor source, and has a function of removing the odor of ammonia in combination. That is, Nitrosomonas europaea [IFO 142
The bacteria 98], ammonia → NO ₂ ^- to, the bacteria Nitrobacter-Agirisu (Nitrobacter agilis) (IFO 14297] , N
O ₂ ^- → NO ₃ ^- in and bacteria Pseudomonas nitro les du sense (Pseudomonas nitroreducens) [IFO 12694] is, NO ₃ ^- → converted into N _2, it is intended to suppress malodors with ammonia .

And Streptococcus lactis (Streptococ
cus lactis) [IFO 12546], Rhizopus oryzae [IAM 6006], and Aspergillus niger [IFO 4066].
Bacteria convert sugars into organic acids such as lactic acid and citric acid, and enzymes (amylase, protease, lipase, etc.)
And contribute to the decomposition of bad smell.

As described above, the bacteria of (1) to (7) perform their respective functions, so that malodors and malodor sources can be decomposed and dissolved, or partially converted to aromatic substances.

As described above, in the malodor-treated light-weight body of the present invention, these seven genera are mixed to aim at decomposing malodor components in a comprehensively balanced manner. The above-mentioned seven genera fungi decompose malodorous components by performing their respective functions. Further, the odor of the odor source can be masked by the fragrance component having the fragrance generated at the same time.

For 10 parts by weight of this microorganism component, glucose 5 to 50
00 parts by weight, lactose 5-5,000 parts by weight, ammonium chloride 1-
Contains 3000 parts by weight to complete the odor decomposition effect.

Glucose serves as a medium and nutrient source for microorganisms, and is converted into organic acids. If glucose is less than 5 parts by weight, the growth of microorganisms is not effectively promoted. If it exceeds 5000 parts by weight, Aspergillus niger (Aspergillus nige)
r) [IFO 4066] bacteria and Bacillus coagulans (Bac
illus coagulans [IAM 1115], Pseudomonas nitroreducens [IFO 1
2694], the number of bacteria is too large to coexist with other species.

Lactose is a medium and an influence source of the microorganisms of the bacteria (1) to (3), and is converted into lactic acid. In the lightweight body of the present invention, lactose serves as a mask for a bad odor source, a neutralizer and a fragrance generator. is there. If the lactose is less than 5 parts by weight, it does not effectively promote the growth of microorganisms, which is inconvenient. If it exceeds 5000 parts by weight, Bacillus coagulans (1) to (3)
llus coagulans) or Pseudomonas nitroreducens, etc., so that the number of bacteria is too large to coexist with other species.

Ammonium chloride is a nitrogen-based nutrient source when growing and growing microorganisms. The odor control agent of the present invention further contains 1 to 3000 parts by weight of ammonium chloride based on 10 parts by weight of the microorganism component.

If the amount of ammonium chloride is less than 1 part by weight, the growth of microorganisms is not effectively promoted, which is inconvenient. If the amount exceeds 3000 parts by weight, the resolution of malodors is reduced and ammonia odor is caused.

Further, as the water to be used, deionized or distilled water is preferable, and less than 300,000 parts by weight is added to 10 parts by weight of the microorganism component. If the amount exceeds 300,000 parts by weight, it is not possible to decompose or dissolve substances of an odor source such as an odor.

According to the present invention, an organic adhesive such as a water-soluble emulsion and a porous lightweight body are mixed with 100 parts by weight of the aqueous solution obtained by stirring and mixing as described above, and the final water content is 5 to 5.
When dried to 7% by weight, the lightweight body for sewage treatment of the present invention having the above structure is obtained.

The organic adhesive has a role of bonding dry solids of microorganisms, enzymes, and organic acids to the surface of the lightweight body. That is, for example, an acrylic emulsion or a vinyl acetate emulsion is used. The organic adhesive is added in an amount of 2 to 50 parts by weight based on 100 parts by weight of the aqueous solution. If the amount is less than 2 parts by weight, the bonding ability is insufficient. If the amount exceeds 50 parts by weight, the amount is not significant even if the amount is more than 50 parts by weight.

The porous lightweight body has an effect of fixing the microbial layer on the surface and floating on the surface of wastewater due to its lightness. For example, expanded polystyrene beads having a specific gravity of about 0.02 to 0.008 and hard or soft urethane foams are suitable. This lightweight body is contained in a proportion of 50 to 2,000 parts by weight based on 100 parts by weight of the aqueous solution. If it is less than 50 parts by weight, specific gravity is 1
Therefore, the lightweight body of the present invention cannot be floated on water, and the effect of a lightweight suitable for the use of the present invention cannot be obtained. On the other hand, when the amount exceeds 2,000 parts by weight, the amount of microorganisms fixed on the surface is relatively reduced, and the effect of suppressing odor is reduced.

The malodor source-treated light-weight body having a microorganism layer of the present invention is particularly fast-acting and suitable for decomposing malodor components in a short time. Furthermore, it is suitable for other wastewater and wastewater treatment.

Next, the odor-source-treated lightweight body having the microorganism layer of the present invention will be described with reference to specific examples, but the present invention is not limited to the following examples.

[Example] Bacillus coagulans of the genus Bacillus (B. coagulan)
s) 0.2 g of [IAM 1115] bacteria, Streptococcus (Strep
tococcus genus Streptococcus lactis (S.lact
is) 0.2g of [IFO 12546] bacteria, Rhizopus
0.2 g of a bacterium of the genus Rhizopus oryzae (R.oryzae) [IAM 6006], and a bacterium of the genus Nitrobacter (N. agilis) [IFO 14297] of the genus Nitrobacter,
0.7 g of Nitrosomonas (Nitrosomonas) genus Nitrosomonas europaea (IFO 14298)
0.06g, Pseudomonas nitroreducen of the genus Pseudomonas
s) [IFO 12694] 0.07 g of bacteria and Aspergillus (Aspergillus)
gillus) Aspergillus niger [IFO]
4066] is weighed 0.2 g, and glucose 3 g, lactose 5 g,
Mix 1 g of ammonium chloride and 50 g of distilled water, and
After stirring and reacting for 5 hours, 7 g of an acrylic emulsion adhesive and 100 g of styrene foam beads having a specific gravity of 0.04 to 0.008 and a particle size of 0.2 to 0.8 mm were uniformly mixed. Then 30 ° C
To obtain a weighing body having a microbial layer in the form of immobilized powder composed of microorganisms, enzymes and organic acids on the surface. The lightweight body having this microbial layer had a specific gravity of 0.2 to 0.4.

The malodor source-treated lightweight body having the microorganism layer of the present invention was obtained.

[Test Result] The following experiment was performed using the malodor source-treated lightweight body having the microorganism layer of the present invention.

1) Ammonium water having a concentration of 2, 4, 6, and 8 ppm, respectively, was taken into a beaker as a sewage, and the light-weight body of the present invention was floated on the beaker in two layers. The temperature and room temperature of the sewage were 30 ° C. Five minutes later, the Ammonium on the surface was measured with the Kitagawa Ammonium detector tube.
pm.

2) The lightweight body of the present invention is floated on the sewage surface of the toilet in a circulating toilet so that the light-weight body of the present invention is almost in two layers, and after 5 minutes, 2 hours, 6 hours, 24 hours, and 48 hours, respectively. , Sensory and Kitagawa type ammonia detector tube, the odor was measured. In each case, no odor was felt and the ammonia concentration was 0 to 0.
It was about 0.5 ppm, and no odor was generated.

[Effects of the Invention] The light-weight body with a odor source treated with the microorganism layer of the present invention firstly fixes and decomposes the odor such as ammonia volatilized from the surface of the sewage when floating on the surface of the sewage. Useful for odor prevention.

Secondly, it is economically advantageous because the effect of sewage treatment can be obtained only by floating on the surface of sewage without using it mixed with sewage. In addition, even if the sewage is replaced, the effect is maintained.

Third, the odor-treated lightweight body of the present invention, as described above,
Due to the combination of specific microorganisms, the effect of additives and the effect of lifting of the lightweight body, it is possible to stay on the surface of sewage and deodorize the foul odors volatilizing from the surface of sewage in a bioreactor manner. An extremely useful malodor treating body was provided.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing the structure of a lightweight body having a microorganism layer of the present invention. FIG. 2 is a schematic sectional view showing a mode of using a lightweight body having a microorganism layer of the present invention.

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code Agency reference number FI Technical indication location C02F 3/34 B01D 53/34 116A C12N 11/00

Claims (2)

(57) [Claims] 1. A genus of Bacillus, a genus of Streptococcus, and a Rhizopus.
Genus, genus Nitrosomonas, genus Nitrobacter, Pseudomonas
5-10 parts by weight of a mixture of microorganisms obtained by mixing bacteria of the genera Aspergillus and Aspergillus with 5 to 5 glucose.
5000 parts by weight, lactose 5-5000 parts by weight, ammonium chloride 1
To 3000 parts by weight and water at a temperature of 28 to 40 ° C. for 24 to 60 hours with respect to 100 parts by weight of an aqueous solution obtained, 2 to 50 parts by weight of an organic adhesive, 50 to 50 parts by weight of a porous lightweight body A lightweight body having a microbial layer, having a specific gravity of less than 1, obtained by mixing 2000 parts by weight and drying at 20 to 40 ° C. 2. The method according to claim 1, wherein Bacillus coagulans [IAM 1115], Streptococcus lactis [IF]
O 12546], Rhizopus oryzae
[IAM 6006], Nitrosomonas europaea (Nitros
omonas europaea) [IFO 14298], Nitrobacter agilis [IFO 14297], Pseudomonas nitroreduces
ucens) [IFO 12694] and Aspergillus niger (As
pergillus niger) [IFO 4066] A lightweight body having a microbial layer using a mixture of microorganisms in which the cells are mixed.