RU2037472C1 - Consortium of bacterium strains bacillus megaterium, bacillus freudeureichii, agrobacterium sp, arthrobacter oxamycetus used for sewage treatment from diethylene glycol and methanol - Google Patents

Abstract

FIELD: industrial sewage treatment. SUBSTANCE: method involves design of bacterial strains Bacillus megaterium 171, Bacillus freudeureichii 124, Agrobacterium sp. 172, Arthrobacter oxamycetis 168 at percent ratio 40:25: 20: 15, respectively, for diethylene glycol decomposition (up to concentration 10 g/dm³) and methanol (up to 5 g/dm³). EFFECT: ecology safety against dangerous toxic compounds utilized by proposed bacterial consortium. 2 tbl

Description

 The invention relates to biotechnology, in particular to the biological treatment of industrial wastewater, and relates to a consortium of bacterial strains, which is intended for the joint destruction of diethylene glycol (DEG) and methanol in high concentrations.

It is known that a consortium of bacteria Agrobacterium sp 172, Bacillus megaterium 171, Bacillus pumilus 123 can utilize up to 10,000 mg / dm ³ DEG from water.

The Methylomonas methanica DS strain is able to completely utilize methanol from water in a mass concentration of up to 10,000 mg / dm ³ . At the same time, the combined presence of DEG and methanol in wastewater in high concentrations makes it impossible to treat this water with activated sludge [1]
According to the known method [2], the combined purification of highly mineralized wastewater from DEG and methanol with a mass concentration of 1000 to 2000 mg / dm ^{3 is} respectively carried out for 40-120 hours by adapted microflora of active or by diluting the runoff with fresh water 70-100 times. In this case, it’s difficult to talk about the effectiveness of treatment, since such a degree of dilution of wastewater makes the xenobiotic content so minimal (30-50 mg / dm ³ ) that it is not difficult for activated sludge from traditional treatment plants, for which 300 mg / dm ³ , methanol up to 30 mg / dm ³ .

The problem remains the treatment of industrial wastewater, in which are present together in large concentrations of DEG (up to 10,000 mg / dm ³ ) and methanol (up to 5,000 mg / dm ³ ). For the effective destruction of deg and methanol contained in high concentrations in wastewater, a consortium of strains with high destructive activity against these xenobiotics was obtained.

The invention consists in the use for the treatment of wastewater containing deg up to 10,000 mg / dm ³ and methanol up to 5,000 mg / dm ³ , a consortium of microorganism strains Bacillus megaterium VKPM (171) B-5168, Bacillus freudenreichi VKPM (124) B-3158, Agrobacterium sp. VKPM (172) B-5163, Arthrobacter oxamicetus VKPM (168) S-918 at a percentage ratio of 40: 25: 20: 15.

 PRI me R 1. Obtaining a consortium.

 Active bacterial strains were originally obtained by the method of accumulative cultures from soil samples taken from the territory of gas fields, where DEG and methanol are used to dry gas. Then, the selection of destructor strains was continued under flowing conditions when the bacteria were immobilized on a synthetic fiber nozzle made on a knitting machine and having the form of "VII" R TU 995990. Active strains of destructive microorganisms obtained by the method of cumulative cultures were introduced into such a setup.

With a gradual increase in the concentration of xenobiotics in the feed water in the bioreactor, selection of highly active strains occurs. When utilizing the maximum concentrations of DEG and methanol, microorganism cultures were isolated, of which the consortium was composed. A consortium of microorganisms uses DEG and methanol as the sole carbon source under flowing conditions, with continuous aeration and immobilization of cells on an inert nozzle with an initial mass content of DEG of 10,000 mg / dm ³ and methanol of 5,000 mg / dm ³ . The consortium is able to grow on a medium containing g / dm ³ : Na ₂ HPO ₄ 0.6; NH ₄ NO ₃ 0.4; KCl 0.02; MnSO ₄ 0.01; MgCl ₂ 0.02; CaCl ₂ 0.01; DEG up to 10000 mg / dm ³ ; methanol up to 5000 mg / dm ³ ; tap water up to 1 dm ³ , pH 6.9-7.2.

 When constructing the consortium for scientific and practical purposes, the vegetative material of the components was taken and mixed into one inoculum. The stability of the consortium is confirmed by seeding on a solid nutrient medium with the counting of different types of colonies.

 The competitiveness of the consortium when it is used in non-sterile environments (in the treatment of real wastewater) is high, because as a result of the strong toxic effects of DEG and methanol (at high concentrations), microorganisms that got into the plant during "accidental" infection under these conditions do not develop.

 PRI me R 2. The use of the consortium.

1. The periodic conditions at ³⁰ ° C on a shaker (150 rev / min) studied the destructive properties of the consortium of microorganisms: Bacillus megaterium VKPM B (171) B-5168, Bacillus freudenreichiï VKPM B (124) B-3158, Agrobacterium sp VKPM (172 ) B-5163, Arthrobacter oxamicctus VKPM (168) S-918 in various percentages. The consortium was composed of initial suspensions of microorganisms containing 10 ^-9 cells per 1 ml of medium.

For the study was taken and the strain of Bacillus pumilus VKPM (123) B-3160, which is part of a consortium of microorganisms that destroy DEG at a concentration of 10,000 mg / DM ³ .

 As can be seen from the table. 1, the strain of Bacillus pumillus does not utilize methanol, and the presence of methanol in the medium inhibits its destructive activity with respect to DEG. Therefore, it is impractical to introduce it into the consortium.

The remaining strains separately destroy a part of the taken xenobiotics. Moreover, the strain of Bacillus megaterium destroys DEG by 40% and Agrobacterium sp by 30%
The strains of Bacillus freudenreichiï and Arthrobacter oxamicetus destroy methanol to a greater extent by 35 and 39%, respectively.

 The study of various ratios of these cultures showed that the highest destructive activity with respect to DEG (utilization 97%) and methanol (utilization 99%) was shown by microorganisms taken in the following percentage ratio: Bacillus megaterium / Bacillus freudenreichiï / Agrobacterium sp./Arthro-bacter oxamicetus as 40: 25: 20: 15.

2. The use of the consortium under flowing conditions was carried out in an eighteen section reactor with a volume of 3.6 dm ³ with a nozzle of synthetic fiber. Purification temperature 20-26 ^{° C,} cleaning time 48 h Model waste water of the following composition, g / dm ^3: Na ₂ HPO _4, 0.6. NH ₄ NO ₃ 0.4; MnSO ₄ 0.01; KCl 0.02; MgCl ₂ 0.02; CaCl ₂ 0.01, deg 10.0, methanol 5.0, tap water up to 1 dm ³ . A consortium of microorganisms was introduced into the apparatus as a percentage of Bacillus megaterium / Bacillus freudenreichiï / Agrobacterium sp / Arthrobacter oxamicetus as 40: 25: 20: 15. A model wastewater was supplied to the installation at the beginning with a very low flow rate; the initial residence time of water in the installation was 120-144 hours.

 With a gradual decrease in the content of xenobiotics at the exit from the structure, the residence time was gradually reduced. After 6 weeks, the bacteria completely adapted to this water composition; a biocenosis with a biofilm thickness of 0.5-1.5 mm was formed on the nozzle. The residence time of water in the installation is 48 hours

The destruction of xenobiotics occurs at 97-99% (according to COD _bihr. ) (Table 2).

With the complete utilization of DEG and methanol from the first sections of the installation, the dominant bacteria were established by microbiological methods. Baciluus megaterium 40 ± 5 Bacillus freudenreichiï 25 ± 3 Agrobacterium sp. 20 ± 5 Arthrobacter oxamycetus 15 ± 2
3. The consortium was used in the treatment of highly concentrated real wastewater generated during gas dehydration at an underground gas storage station. The mass content in water of DEG up to 10 g / dm ³ , methanol up to 5 g / dm ³ , COD 15000-25000 mg / dm ³ .

The daily volume of 20 m ³ of water, residence time 48 h, temperature 20-26 ° ^C. To immobilize bacteria in sewage treatment plants using a packing of synthetic fibers such as "VIA". As nutrients used nitroammophoska at the rate of 0.1 g / DM ³ waste water.

 In the bioreactor introduced the biomass of bacteria-destructors in a percentage ratio of 40: 25: 20: 15. One month after the adaptation of microorganisms, almost complete destruction of xenobiotics was observed (Table 2).

Thus, the proposed consortium allows you to purify wastewater containing DEG up to 10,000 mg / DM ³ and methanol up to 5,000 mg / DM ³ , at 97-99%
The residual amounts of xenobiotics did not exceed the MPC for traditional treatment plants with activated sludge: DEG 20-200 mg / dm ³ , methanol 2-20 mg / dm ³ , i.e. these treated waters can be discharged into the city sewer.

Claims (1)

 Consortium of bacterial strains Bacillus megaterium VKPM (171) B-5168, Bacillus freudeureichii VKPM (124) B-3158, Agrobacterium sp. VKPM (172) B-5163, Arthrobacter oxamicetus VKPM (168) S-918, used for wastewater treatment from diethylene glycol and methanol.

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