RU2036719C1 - Adsorbent for cleaning surface of water and soil from oil and oil products - Google Patents

Abstract

FIELD: collection of oil from water and soil surfaces. SUBSTANCE: sorbent has cellulose carrier in form of technical wool, cotton cloth, and organic substances impregnating carrier are in form of aliphatic acids with alkyl chains C₁₀-C₂₃ or atactic polypropylene with the following amount of components, mas.%: organic substance 0.1-7.0; carrier 93.0-99.9. Composition ensures increase of sorption activity of adsorbent with respect to oil and oil products up to 25-34 g/g. EFFECT: higher efficiency. 1 tbl

Description

 The invention relates to sorbents and can be used to collect oil, oils, fuel oil, fuels and hydrocarbons in order to clean the surface of water and earth.

 A known composition of the sorbent for cleaning the surface of water and soil, containing cellulosic material treated with various organic substances. These sorbents have a hydrocarbon capacity of 4-20 g / g.

 The purpose of the invention is the increase in the sorption capacity of the adsorbent in relation to oil and oil products.

The goal is achieved in that the composition of the adsorbent contains technical cotton wool, cotton fabric as a cellulose carrier, and aliphatic acids with an alkyl chain length of C ₁₀ -C ₂₃ or atactic polypropylene (APP) in the following ratio of components, wt.

Organic matter 0.1-7.0
Media 93.0-99.9
A positive effect of the composition of the adsorbent for removing oil and oil products from the surface of water and earth is achieved only at concentrations of: organic (adsorbing) substances of 0.1-7.0 wt. carriers (porous materials) 93.0-99.9 wt.

To solve this problem, technical veil and cotton sheet fabric waste from the textile industry were used as a carrier, and C ₁₀ -C ₁₆ , C ₁₇ -C ₂₀ , C ₁₈ -C ₂₃ and APP fractions of alkylcarboxylic synthetic fatty acids as organic adsorbents waste from the production of isotactic polypropylene. Characteristics of the sorption ability of adsorbents for oil and oil products are determined by the gravimetric method. Evidence of the achievement of the objective of the invention is to increase the adsorption capacity of the compositions in the range of concentration of organic substances of 0.1-7.0 wt. at room temperature. The dependence of sorption characteristics on the composition and concentration of adsorbents is given in the table and examples. The compositions of the adsorbents for cleaning the surface of the water from oil and oil products are obtained as follows.

PRI me R 1. From technical cotton wool or textile industry waste (rags), a mat (carrier) is prepared in the form of a sheet 2-5 mm thick, 50x100 mm in size and its mass is determined. Mat is immersed in a solution of pentane containing 0.5-20 wt. alkyl carboxylic acids With ₁₀ -C ₂₃ or APP and incubated for 20-60 minutes at room temperature. After this, the mat is removed from the solution, in suspension, pentane is evaporated from it to a constant weight in a stream of air at room temperature. The weight difference determines the mass of the active (adsorbing) substance contained in the mat (carrier). 2 liters of water are poured into a container with a diameter of 250-300 mm, oil or oil, or diesel fuel, or hydrocarbon is slowly dripped into the water, waiting for each drop to spread over the surface of the water. After the formation of a continuous thin layer of liquid on the surface of the water, the oil (oil) layer is absorbed (collected) by the entire surface of the mat, dragging (rolling) it over the surface of the water. After cleaning the surface of the water, oil (oil) is again applied to it and the procedure for absorbing the oil (oil) layer from the surface of the water or solid is repeated until the adsorbent is completely saturated (constant weight). The difference in weight determines the mass of adsorbed liquid.

 All adsorbents shown in the table were obtained and tested for sorption ability to oil (oil) from the surface of water and a solid according to the above method.

As can be seen from the table, the proposed adsorbents based on alkyl carboxylic acids With ₁₀ -C ₂₃ or APP, deposited on asbestos or technical cotton, or cotton fabric, surpass adsorbents by the known method in their ability to sorb oil from the water surface by 10-15 wt.

 For the proposed adsorbents, the sorption capacity for oil is 17.5-37.9 g / g, and for oil 23.5-35.6 g / g.

The technology for preparing adsorbents is simple and does not involve the use of heating and vacuum equipment. Adsorbents after regeneration can be used repeatedly. Oil and oil products are easily squeezed out of adsorbents under the action of centrifugal forces or pressure. Adsorbents impregnated with oil and oil products can be used as fuel, for example, in marine vessels or in ground-based heating plants. Alkylcarboxylic acids and polypropylene (polyolefin) are similar in nature to petroleum. The adhesive interaction of active substances with a solid carrier is higher than the surface oil-water interaction; therefore, the proposed adsorbents are characterized by high selective sorption ability to oil (oil) on the water surface. Adsorbents do not absorb water, active substances (C ₁₀ -C ₂₃ alkylcarboxylic acids and polypropylene) do not dissolve in water.

PRI me R 2. Mat from technical wool 2 mm thick, 50x50 mm in size, weighed, m 0.5217 g, immersed in a 5% solution of pentane containing alkylcarboxylic acid with a chain length of C ₁₈ -C ₂₃ and incubated 20 min, removed from the solution, in suspension, pentane is evaporated to a constant mat weight, m 0.5477 g. Mat containing 95 wt. cotton wool and 5% alkylcarboxylic acid with a chain length of C ₁₈ -C ₂₃ are placed in a container filled with water with an oil film. The mass of oil that has gone onto the film is 20 g. The mat is driven along the surface of the film with tweezers until it is completely saturated with oil. Then the mat is weighed, m 19.28 g, and the amount of absorbed oil is calculated. Unabsorbed oil is separated from the water and weighed, m 1.23. Thus, a series of experiments is carried out, the adsorbent capacity is calculated and the average is entered in the table. Similarly, all other results are obtained.

 The data obtained show the high efficiency of the proposed sorbent in relation to oil products at its 100% hydrophobicity.

Claims (1)

ADSORBENT FOR CLEANING THE WATER AND SOIL SURFACE FROM OIL AND OIL PRODUCTS, consisting of organic matter and cellulosic carrier material, characterized in that, in order to increase sorption capacity, it contains technical cotton or cotton fabric as a carrier, and aliphatic as organic substances carboxylic acids with an alkyl chain length of C _{1 0} C _{2 3} or atactic polypropylene in the following ratio of components, wt. Organic matter 0.1 7.0
Media 93.0 99.9

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