RU2046881C1 - Device for abolishing ecological consequences resulted from oil poured off onto water surface - Google Patents

Abstract

FIELD: environmental protection. SUBSTANCE: reservoirs 1 are used as floating enclosure designated for crude oil soaking up, reprocessing, and decomposing. Elastic reservoirs 1 are connected to one another to form collecting/enclosing structures 4 of predetermined length. Besides, cavities of reservoir 1 are filled additionally with capsules 5 being dissolved during different time. The capsules contain culture medium to promote breeding microorganisms able to devour the crude oil. EFFECT: protected environment. 1 dwg

Description

 The invention relates to ecology and can be used to eliminate environmental consequences from oil spilled on the water surface.

 The widespread use of means of sea transportation of large oil tanks, the expansion of oil production from the bottom of the sea, raises an important problem from the technical, economic and environmental points of view to eliminate the consequences of oil spilled on the water surface.

 Known methods for eliminating the environmental consequences of oil spilled on the water surface through the use of absorbent materials that process with the help of microorganisms and decompose oil.

 Kansai Sange Corporation has created ASSW reagent. Its main component is specially processed rice husk. The carbon-hardened rice husk, sprayed over the surface of the oil slick, “sucks” the emission into itself for half an hour. 1 weight unit of the reagent absorbs five to six units of "oil sludge", turning into a thick mass that can be stolen from the water surface by a simple network. (Does rice husk save from trouble? Izvestia, 1991, N 30).

 The problem of eliminating the oil spill in the Persian Gulf is solved by Tyumen scientists. An economically pure biological product against oil pollution was obtained. However, hundreds of tons of powder are needed to eliminate the consequences. (Scientists are ready to help, Izvestia, 1991, N 31).

 In Sweden, it was decided to introduce special microbes into the soil to clean it from oil products. This operation will be carried out on land with a total area of 5 thousand. It is believed that microbes will clear the soil by the summer of 1990. (Microbes against dirt. True, 1989, No. 342).

 About 60 species of microorganisms that feed on oil have been found in the Caspian Sea and the stratal waters of oil fields in the Northern Caspian. Scientists have proposed methods of accelerated reproduction of these "marine" orderlies, created an installation to put them in suspended animation, to transport over long distances. (Bacteria that feed on oil. Izvestia, 1991, N 43).

 However, the above methods are ineffective and expensive, since they cannot be used to clean large water surfaces from spilled oil, and when using them, their specific consumption is significant (in terms of the treated area).

 The closest technical solution to the proposed is US patent N 4356088.

 However, the known method is ineffective, since it only limits the spread of oil on the water surface and does not solve the issues of its removal.

 The aim of the invention is to increase the efficiency and cost of the process.

 The goal is achieved in that, as floating barriers, containers are used that make different sizes from elastic, elastic, viscous materials, for example rubbers, fill them with volume-distributed micro-containers with air bubbles, honeycomb-shaped micro containers, containing absorbent, processed by microorganisms and decomposing for different times oil materials, while elastic containers are connected to each other in collective barrage structures of a given length and, in addition, the capacitor spaces are additionally filled with capsules with nutrients that dissolve for different times and promote the multiplication of microorganisms that eat oil.

 The use of containers as floating barriers that produce different sizes on elastic, visco-elastic materials, for example rubber, filling them with volumetric micro-containers with air bubbles, ensures buoyancy of tanks and the efficiency of the process.

 Filling containers with volumetric-distributed honeycomb-shaped micro-containers containing absorbent, microorganism-processing and oil-decomposing materials for different periods of time ensures the economy of these materials, and, consequently, the efficiency and cost of the process.

 The connection of elastic containers among themselves in collecting and barrage facilities of a given length ensures the efficiency and cost of the process when cleaning large water spaces from spilled oil.

 Filling the additional cavities of the containers with capsules with nutrients that are soluble for different times and that promote the multiplication of microorganisms that eat oil allows for rationally feeding nutrients, which ensures the efficiency and cost of the process.

 The invention is illustrated in the drawing.

 To eliminate the environmental consequences of oil spilled on the water surface, floating tanks use containers 1 that are made in various sizes (spherical, cube-shaped, sheet-like) from elastic, elastic viscous materials, for example rubber, and filled with volume-distributed micro-containers 2 with air bubbles, honeycomb-shaped micro containers 3, containing materials absorbing, processing with the help of microorganisms and decomposing oil for different periods of time. These materials can be located separately in different containers, or simultaneously together in one container.

 Elastic containers are connected to each other in collecting and protecting structures 4 of a given length and, in addition, the cavity of the containers is additionally filled with capsules 5 with dissolving for different times with nutrients that contribute to the multiplication of microorganisms that eat oil.

 When the device is operating as an oil-decomposing substance, an agent containing the following components, wt.

Oxyethylated
secondary higher
fatty alcohols
(C ₁₀ -C ₂₀ ) 40.0-54.0
Ethoxylated per-
higher fatty
alcohols (C ₁₀ -C ₂₀ ) 5.0-12.0
Oleic acid 14-18.0
Liquid paraffins Else
A mixture of sorbents and ASSW Japanese reagent is used as absorbent oil-collecting materials.

 Sorbents are hollow plastic or carbon microspherical particles ranging in size from 0.01 to 0.4 mm, insoluble in organic and aggressive environments. Upon contact with oil form a jelly-like mass.

 Granular hydrophobic microballoons from renol-formaldehyde resins (plaminol) with a dispersion of 0.1-0.4 mm and microballoons from oligoester acrylates are also used.

 The main component of the ASSW reagent is specially processed rice husk. The carbon-hardened rice husk, sprayed over the surface of the oil slick, “sucks” into itself the emission within half an hour (1 weight unit of the reagent absorbs five to six units of “oil sludge”, turning into a thick mass that can be pulled from the water surface simply network).

 As a biologically active component, Pseudemonas putide-36, a bacterial strain of Havolacteriun Tirrenicum VKPMV-3369, is used.

 Oil-feeding 60 species of microorganisms found in the Caspian Sea and in the stratal waters of oil fields in the Northern Caspian can also be used.

 The bacterial culture of the natural strain Pseudomonas putida 36 is introduced in a mixture with a nutrient with mineral fertilizer nitroammophos.

 In the industrial solution of the issue, the containers can be collected, wrung out and reused.

 The collected processed oil mass is subject to collection and subsequent additional processing to obtain the mass used as fertilizers.

 Compared with the known technical solution, the application of the invention allows to increase efficiency and reduce the cost of the process.

Claims (1)

 DEVICE FOR ELIMINATING ECOLOGICAL CONSEQUENCES FROM OIL SPILLED ON A WATER SURFACE, including a floating barrier consisting of interconnected containers filled with a material that cleans the water surface from oil, characterized in that the containers are made of different sizes from elastic elastic materials, for example rubber micro-containers with air bubbles, honeycomb-shaped micro containers, containing microorganisms that absorb processing and decomposing for different times oil, as well as capsules with nutrients that contribute to the multiplication of microorganisms, soluble at different times.