SU1710515A1 - Composition for biochemical elimination of oil pollution from the reservoir surfaces - Google Patents

Abstract

The invention relates to substances for cleaning the surface of sewage storage pools, in particular sludge pits for drilling waste water (MWD), from the spread of petroleum and petroleum products. The purpose of the invention is to intensify the process of aerobic biodegradation in non-aerated reservoirs. The goal is achieved by the fact that the composition additionally contains a hydrophobic powdered adsorbent with a relative density of less than 1 and a bacterial preparation in the following ratio, wt.%: Lipophilic fertilizer- (encapsulated mixture of compounds N and P) 18-61; adsorbent (hydrophobic expanded perlite) 38-80; bacterial drug (strain of oil-decomposing mono-organisms Pseudomonasputida 36) 0.5-2.0. 1 table-xx The invention relates to substances for cleaning the surface of wastewater storage basins, in particular, settling barns for drilling waste water (BSV), from spilled oil and oil products. The closest in technological essence and the achieved result to the proposed activity is Composition for cleaning the surface of water bodies from spilled oil products based on lipophilic fertilizer, which ensures the growth of bacteria prone to the metabolism of oil. The disadvantage of this method is the low rate of oxidation of petroleum products due to the insignificant initial concentration of aerobic bacteria and oxygen deficiency, the main source of which in reservoirs with a calm surface are photosynthesis reactions. If there is a continuous oil film, the surface of the water is impervious to sunlight, the intensity of which limits the rate of oxygen production during photosynthesis. The purpose of the invention is to intensify the process of aerobic biodegradation of oil pollution in non-aerated reservoirs. The goal is achieved. that a lipophilic fertilizer is introduced together with a hydrophobic powdered adsorbent, the relative density of which is less than one, and a bacterial preparation, which is a powdered mixture of mutant oil-decomposing aerobic bacteria. The reservoir is treated with a previously prepared mixture consisting of a lipophilic fertilizer, an adsorbent and a bacterial preparation in the following ratio, wt.%; OSPel > &

Description

Lipophilic fertilizer (encapsulated mixture

compounds N and P) 18-61

Adsorbent (hydrophobic expanded: perlite) 38-80 Bacterial preparation (strain of oil-decomposing bacteria Pseudomonas putlda 36) 0.5-2.0 The proposed composition provides the possibility of biodegradation of film oil in any type of water reservoir, including those where there are no conditions for the development of aerobic processes . Due to the absorption of oil by the adsorbent, the continuous oil on the film is destroyed. As a result, the permeability of the surface of the reservoir to solar radiation increases, which accelerates the production of oxygen through photosynthesis. The access of air oxygen to the surface zone of the biochemical processes of the destruction of petroleum products is improved.

Introduction of a bacterial preparation allows, at the initial stage, to achieve a higher purification rate due to an increase in the concentration of oil-decomposing bacteria. The joint introduction of an adsorbent with lipophilic fertilizer and bacterial preattachment provides the best conditions for the development of biochemical processes in the elimination zone of the surface oil film due to the fact that the lipophilic fertilizer and bacterial preparation are retained by the adsorbent granules in the surface layer of the reservoir. In addition, the adsorbent serves as a material for immobilization of microorganisms.

Lipophilic fertilizer, in particular, of the type INIPOL EAP-22, exhibits increased solubility in the hydrocarbon medium, gives good nutritional properties to the liquidated oil layer, providing the optimum ratio of CNP nutrients, while at a separate application it forms oil-water. In addition, at the beginning of the treatment, the microorganisms are activated in the dry bacterial preparation, their partial immobilization on the surface of the adsorbent, i.e. At the same time, the proposed composition simultaneously prevents loss of powdered components from weathering when applied to the surface.

The change in the composition of the content of lipophilic fertilizer within 1S-61% does not significantly affect the results of the elimination of the oil layer, since the C-N-P ratio in this case practically does not limit the development of biochemical processes. Thus, when the content of the lipophilic fertilizer mixture is less than 18%, the biomass activity sharply decreases with respect to

0 oil due to a decrease in the content of N and P with respect to the carbon of the oil. In particular, when the content of lipophilic fertilizer in the mixture is 15%, the degree of biodegradation of oil by day 28 was

5 only 43%. An increase in the content of lipophilic fertilizer over 61% does not lead to an improvement in the degree of biodegradation and is not practical from an economic point of view.

0 When the content of the adsorbent is less than 38.5%, the degree of elimination of G1 oil decreases due to insufficient binding of hydrocarbons, the aeration regime deteriorates, and the area decreases.

5 active surface for the development and immobilization of biomass. So, when the content of the adsorbent in the mixture is 25%, the degree of biodegradation of oil was 47% for 28 days. When the content of the adsorbent is above 80%, no increase in the degree of biodegradation is observed, and the purification results are not justified from an economic point of view. When the content of the bacterial preparation is less than 0.5%, the rate of biodegradation of petroleum

5 film drops. An increase in the content of the bacterial preparation of more than 2% does not accelerate the processes of destruction due to the fact that this rate is limited by the presence of the required amount of nutrient medium.

0 The pond was cleaned as follows.

Pre-cooked, a mixture containing an adsorbent, lipophilic fertilizer and bacterial preparation in

5, a predetermined ratio of components is applied to the surface of the water containing film oil,

Example 1: A mixture comprising wt.%; Lipophilic fertilizer

0 61.0; adsorbent 38.5; bacterial preparation 0.5. To do this, 2.817 g of hydrophobic expanded perlite (adsorbent) is mixed with 0.075 g of a powdered symbiotic mixture of mutant aerobic bacteria decomposing oil products (bacterial preparation) and 4.425 g of a microemulsion containing an encapsulated mixture of carbon, nitrogen and phosphorus (limphophilic fertilizer). The resulting mixture is introduced into a vessel with water containing AO g.

Claims (1)

Claim Composition for biochemical elimination of oil pollution from the surface of water bodies based on nitrogen-phosphorus-containing lipophilic fertilizer, characterized in that, in order to intensify the process of aerobic biodegradation in non-aerated water bodies, the composition additionally contains a hydrophobic powdery adsorbent with a relative density of less than one, and a bacterial preparation in the following the ratio of components, wt.%: Lipophilic fertilizer (encapsulated mixture of N and P) Adsorbent (hydro- 18-61; phobic expanded swollen perlite) 38-80: Bacterial drug (oil strain decomposing mic roorganism Pseudomonas putida 36) 0.5-2.0. Continue The value of indicators by examples bodyness 2 t to 5 experiments, days Content- Power Content- Power Content- Power oil purification% oil purification% oil purification% g g g h Prel term way 0 40 0 40 0 40 0 7 24 40 22 45 20.5 48.7 14 14 65 11.5 70,2 eleven 70.3 27 10 75 & 77.5 9.5 76.2 28 8 80 6.5 83.7 6.7 83.2 Known method 0 40 0 40 0 40 0 7 34 fifteen 35 12.5 35 10 14 33,2 17 34 fifteen 34 fifteen 27 33 17,2 33.5 16,2 34 fifteen 28 32.8 18 33 17,2 33.5 16.2