RU2661767C9 - Method for treating wastewater from the oil refining and petrochemical production from sulfides - Google Patents

Abstract

FIELD: microbiology.

SUBSTANCE: invention relates to industrial and environmental microbiology. Method for purifying wastewater from sulfides involves the introduction of immobilized cells of the bacterium strain Ochrobactrum haematophilum VKPM V-11719 into the treated wastewater. At the same time, the destruction of sulfides is carried out at the concentration of petroleum products in the treated effluents of not more than 493 mg/dm³.

EFFECT: invention allows to reduce the content of sulphides in the treated wastewater.

1 cl, 2 dwg, 2 ex, 3 tbl

Description

The invention relates to methods for neutralizing or reducing the harmfulness of chemical poisonous substances by chemically altering them by biological methods, i.e. methods using enzymes or microorganisms.

There are various strains of microorganisms capable of decomposing organic compounds [RF patent No. 2064017, RU 2157842 C1, RU 2157839 C1, RU 2142997 C1, 2127310 C1], which offers a strain of the bacterium Burkholderia caryophylli Jap-3, with high oil-oxidizing activity against polycondensed aromatic hydrocarbons.

A known method of purification of concentrated wastewater containing aromatic hydrocarbons and their derivatives, peroxides and aldehydes by aerobic treatment with bacterial strains Pseudomonas sp. VKPV-3893 and Rhodococcus sp. VKLMV-3892 [RF patent No. 2048454 A1, SU 981247, RU 1686799 C1, RU 2084404 C1, RU 833551, WO 0132561].

A known bacterial strain Pseudomonas putida VKM B-2380D producing surfactants for the degradation of polycyclic aromatic hydrocarbons and oil hydrocarbons. The invention relates to the field of biotechnology, in particular to the cleaning of environmental objects from contamination with polycyclic aromatic hydrocarbons and oil hydrocarbons [RF patent No. 2344170].

A significant drawback of the above methods is the inability to use for the treatment of industrial wastewater with a high content of a specific target pollutant, in particular sulfides.

The objective of the invention is to develop a method for treating industrial wastewater from the target pollutant - sulfides.

The problem is solved as follows.

The advantage of the strain-destroyer Ochrobactrum haematophilum VKPM B-11719 (All-Russian Collection of Industrial Microorganisms (VKPM), FSUE GosNIIgenetika, deposited on February 09, 2015) is its ability to grow on depleted synthetic nutrient media and a high degree of sulfide degradation in petroleum wastewater. The invention improves the efficiency of the destruction of sulfides. Complete cleaning of the pollutant takes 48 hours.

Taxonomic characteristic:

Kingdom: Bacteria

Type: Proteobacteria

Class: Alpha Proteobacteria

Order: Rhizobiales

Family: Brucellaceae

Genus: Ochrobactrum

Species: Ochrobactrum haematophilum

Morphological characteristic: short rods, as they age, shortening to cocci, single or in clusters surrounded by mucus, 1.2-1.3 + 0.5 microns. Movable, have 2-3 flagella.

Cultural characteristic: colonies are colorless, round, smooth, shiny, opaque, convex or mucoid.

Biochemical characteristic: gram-negative, aerobic, catalase-positive, oxide-positive, non-spore-forming bacterium.

Ecology: able to tolerate a concentration of NaCl of not more than 2.5-3% and a pH environment in the range of 4.6-8.6. Maximum growth is observed at pH 6.8-72. Growth in the temperature range of 10-42 ° C, optimal temperature 26-28 ° C.

Pathogenicity: not pathogenic.

An accumulative culture of bacteria was obtained from soil suspensions, which were prepared from soil samples according to table 1. For this, a sample weighing 1.0-1.5 g was placed in a flask with 50 cm ^{3 of a} 0.1 M sodium chloride solution and placed in a thermostated shaker on 24 hours at a temperature of 27 ° C and a rotation speed of 170-180 rpm for cultivation.

After 24 hours, the growth of bacteria was visually assessed (in the presence of bacteria, a growth in the form of a concentric rim is detected on the inner surface of the flask).

In order to obtain bacteria-destructors, 1 cm aliquots were taken from the initial soil suspensions and placed in an aqueous mineral medium containing the target pollutant, which made it possible to isolate only those species that can survive in the presence of the target pollutant. The composition of the mineral medium is presented in table 2.

After culturing for 24 hours in a liquid mineral medium with the addition of a pollutant, the bacteria growth was again visually assessed and the resulting culture was transferred to a solid mineral medium of the same composition as liquid, but with the addition of (2% vol.) Agar.

As a result of incubation for 48-72 hours, depending on the growth rate of bacteria on a solid nutrient medium, colony growth was detected.

During preliminary tests, the destructive ability of the isolated microorganisms was assessed using model mixtures prepared with the corresponding concentration of the target pollutant in similar technological effluents.

In flasks with a volume of 500 cm ³ were placed 200 cm of treated effluents containing various impurities. There was added 50 cm ³ daily bacterial suspension of the corresponding isolate. To ensure aeration, air was supplied to the aqueous medium at a rate of 0.04 l / min. The process was carried out at a temperature of 27 ° C and a rotation speed of 120 rpm (these parameters are optimal for maintaining the viability of microorganisms). For the reliability of the results of the experiment, the experiments were duplicated twice, using a carrier (experiment No. 1) and without a carrier (experiment No. 2).

Bacterial cells were immobilized on petroleum coke (65-70 g of coke were loaded into each flask), which was preliminarily calcined at a temperature of 250-300 ° C to exclude the possibility of the development of extraneous microflora. Immobilization was carried out during the day under conditions of constant mixing of coke with a bacterial suspension at 27 ° C and 100-120 rpm.

Example 1. Wastewater treatment processes of primary oil refining conditions of immobilized bacterial cells on a solid carrier in the form of coke (experiment No. 1) and in conditions of non-immobilized cells. The concentration of the bacterial suspension of Ochrobactrum haematophilum VKPM B-11719 was 10 ⁶ cells / cm ³ , the contaminant content was more than 1500 mg / dm ³ .

The results of the experiments are presented in figure 1.

As can be seen in figure 1, a decrease in sulfide content occurs both in conditions of immobilization of bacterial cells, and without it. However, in the first embodiment, there is an obvious decrease in the content of the target pollutant from almost 500 to 55 mg / dm ³ . Non-immobilized cells cannot independently capture oil product molecules, therefore, the destruction process is difficult in this case.

Example 2. The destructive ability of the strain Ochrobactrum haematophilum VKPM B-11719 at various temperatures.

For effective destruction of sulfides by the strain Ochrobactrum haematophilum VKPM B-11719, an experiment was conducted to select the optimal temperature at which the conversion of the target pollutant would be maximum. The results of the experiment are presented in figure 2.

As can be seen from figure 2, the maximum destruction of the pollutant at a concentration of 400 g / dm ^{3 in the} effluent was observed at a temperature of 27 ° C.

According to the data presented in table 3, the content of sulfides in wastewater after biological treatment under conditions of immobilization of bacterial cells of Ochrobactrum haematophilum VKPM B-11719 decreased by 88% by mass, whereas in the absence of immobilization this indicator amounted to 54% of the mass. Based on the results obtained, it is recommended to carry out biological treatment of sulfide-containing effluents in the conditions of immobilized bacterial cells of Ochrobactrum haematophilum VKPM B-11719.

Claims (1)

The method of purification of wastewater from oil refining and petrochemical industries from sulfides, characterized in that the destruction of sulfides is carried out using immobilized cells of the strain Ochrobactrum haematophilum VKPM B-11719 at a sulfide concentration of not more than 493 mg / dm ³ .

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