RU2703628C2 - Method for utilization of oil-containing water as method for increasing environmental safety - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to complex treatment of oil-containing water and can be used in industries where formation of flushing, storm and process contaminated water, containing oil products along with other dissolved and mechanical impurities in order to reduce negative impact on environment. Method involves linear-complex treatment of contaminated water by recuperation in a high-speed gravity separator under vacuum and a filter unit with polymer materials treated with chemicals for recycling emulsified and partially dissolved petroleum products. After recuperation, photochemical decomposition is carried out in a reactor under ultraviolet irradiation followed by desalination of water.

EFFECT: method provides decontamination of oily waters during a short period of time which is acceptable for technical use, for the purpose of recycling and improving environmental safety, as well as rational use of water resources, even in areas requiring especially pure fresh water.

1 cl, 1 dwg, 1 tbl

Description

The invention relates to ecology, namely to combined methods for the utilization of oily waters and consists in a linearly integrated integration of methods and technical means for the treatment of oily waters and can be used in shipbuilding, engineering, petrochemical and oil refining industries, as well as in construction, transport, energy and other industries where the formation of flushing, storm and technological polluted waters containing oil products, along with other dissolved and mechanical impurities in order to reduce the negative impact on the environment.

Currently, a large number of technological schemes have been developed that provide a fairly effective treatment of water from oil products.

(RU 2359919, RU 2344999, RU 2092448).

The toughening of environmental protection requirements has led to the creation of more advanced cleaning methods and to the creation of multi-stage cleaning schemes (RU 24193, RU 2156740, RU 113263, RU 141342).

Known methods for the treatment of aqueous media containing organic impurities using ultraviolet radiation (US Pat. RU 2142915, - 1999, RU 113263, 2010).

No analogues have been comprehensively used for the utilization of oily water for recovery with photochemical destruction and desalination, in order to achieve neutralization, have not been identified.

The closest analogue is a method for the disposal of oily water, which includes linear-complex treatment in a PePeMatic separation plant of the Swedish company Salen and Vikander, which includes stepwise water treatment, according to which the oily water is first fed to a gravity-type separator (first stage), in which The separation of oil particles occurs due to the difference in the density of water and the oil product, while the pump is installed after the separator, so that the gravity separator works under vacuum. Then partially purified water is fed into the filter (second stage) containing granular polymeric material, and particles of oil are retained on the surface of the filter material with the release of cleaner water. (Means for cleaning liquids on ships. Handbook edited by I.A. Ivanov. - L., Shipbuilding. - 1984, description of the PePeMatik separation plant of the Swedish company Salen and Vikander)

The objective of the invention is to develop a method for the utilization of oily water in order to reduce the negative impact on the environment and the rational use of natural water resources.

The technical result consists in the neutralization of oily waters.

The technical result is achieved by the fact that in the method of utilization of oily water, including linear-integrated water treatment by means of recovery in a high-speed gravity-type separator under vacuum and a filter unit with polymer materials, when processing water in the filter unit, processed polymer material is used to utilize emulsified and partially dissolved petroleum products, and after recovery, photochemical destruction in the reactor is carried out under the influence of ultraviolet radiation oia followed by desalination of water.

The technical result is also achieved by the fact that for processing the polymeric material in the filtering unit, chemicals are used (surfactants - surfactants, additives) to influence the kinetics of phase transitions of the interaction of petroleum products and polymeric materials.

A feature of the method is that, unlike most existing systems for the disposal of oily water, the proposed technical solution allows for neutralization and makes it possible to operate industrial and transport facilities not only in the “zero discharge” mode, but also with the most rational use of natural water resources and is characterized by the fact that for the first time for the utilization of oily water, recovery with photochemical destruction is complexly used, followed by desalination.

This technical solution is especially relevant at the current level of anthropogenic impact on the environment.

The drawing shows schematically a system for implementing the method of disposal of oily water, which consists of two processing units:

- I node containing a high-speed centrifugal separator 1 and a filter unit 2, equipped with polymeric materials,

- II node containing a photochemical destruction reactor UFO 3 with desalination unit 4.

The method of disposal of oily water is as follows. Oil-containing water is supplied to unit I to remove coarse impurities and oil products by gravity in a high-speed separator, in which the separation of oil particles occurs due to the difference in the density of water and oil product. To improve the quality of processing and eliminate the dispersing effect of the feed pump on the oil particles, the separator is designed to operate under vacuum, with the installation of the feed pump after the separator. Disposal of emulsified and partially dissolved petroleum products occurs through the filter block polymer materials processed in various ways. It is possible to influence the kinetics of phase transitions of the interaction of petroleum products and polymeric materials with chemical substances (surfactants - surfactants, additives, etc.). In the photochemical reactor of unit II, under the action of ultraviolet radiation, photochemical destruction of organic compounds occurs, because as a result of this intervention, the radius of the core and the thickness of the adsorption-solvation shell of a complex structural unit, which is an element of the oil disperse system, change. With the aim of the most rational use of water resources and the disposal of oily water in node II, desalination is carried out using various methods (distillation, reverse osmosis, frequency resonance).

To test the claimed method, oil-containing waters from the water transport facilities of the Amur Shipping Company were used.

The results of the intermediate stage of the pilot verification of the proposed method for the disposal of oily waters are presented in the table.

Data of chemical analytical control. table

No floating impurities and film were detected in the samples.

An analysis of the results of a laboratory study confirms the achievement of the neutralization of oily water using the claimed method, because a significant reduction in the mass of harmful substances occurs already at an intermediate stage of processing.

The results of the pilot treatment of oily water confirmed the possibility of the most rational use of water resources even in areas requiring the availability of highly pure fresh water, for example, for use as additional boiler water in steam production both in industry and in transport (water transport).

Claims (2)

1. A method for the utilization of oily water, including linear-integrated water treatment through recovery in a high-speed gravity-type separator under vacuum and a filter block with polymer material, characterized in that when treating the water in the filter block, polymer material treated with chemical substances is used to dispose of emulsified and partially dissolved oil products, and after recovery, photochemical destruction in the reactor is carried out under the influence of ultraviolet radiation I followed by desalination of water. 2. The method according to claim 1, characterized in that for processing the polymeric material of the filtering block, chemicals such as surface-active substances (surfactants), additives for influencing the kinetics of phase transitions of the interaction of petroleum products and polymeric materials are used.

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