RU2469787C2 - Sorbing composite material - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: material includes two external layers, consisting of polyester fibres and biocomponent polyester fibres, and intermediate layer, consisting of polypropylene fibres. Volume density of external layers constitute 8-20 kg/m³, fibre diameter is 20-30 mcm, volume density of intermediate layer constitutes 45-60 kg/m³, fibre diameter 5-18 mcm. Layers are thermally fastened together.

EFFECT: increase of capacity in oil and oil products, buoyancy and retaining capacity.

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Description

The invention relates to sorbents of oil and oil products and can be used in the cleaning of oil spills and oil products, both water and solid surfaces, both to remove emergency spills, and as a preventive measure. The specified material can be used at all facilities associated with the production and transportation (including underwater pipelines) of oil.

Oil spills are currently a serious problem, as oil is a highly toxic compound for living organisms. Given the increasing volumes of oil production, including during the development of the shelf, this problem is especially acute, and the improvement of sorption purification methods as the most effective in the series of physicochemical methods is an urgent task.

Known sorbent material (RU No. 2210644, 2003), having two layers: polypropylene and hollow siliconized polyester fibers. The disadvantage of this material is the bilayer of the material, as well as

the need for additional siliconization of the fibers to make the sorbent buoyant. The manufacturing process of these siliconized fibers is complex.

Closer to the invention is a sorbent material for removing contamination with oil products (RU No. 2182939, 2002). This material has two outer fibrous layers containing polypropylene fibers and an intermediate fibrous layer bonded to these layers containing polypropylene or polyester fibers and having a density lower than the density of the outer fibrous layers. The fibers of the outer and intermediate fibrous layers and all layers are thermally bonded to each other, each of the fibrous layers additionally contains bicomponent polyester fibers, and the content of bicomponent fibers in each of the outer fibrous layers is higher than the content of these fibers in the intermediate fibrous layer.

The disadvantage of this material is the low bulk density of the outer fibrous layers (0.35-0.40 g / m ³ ) and the intermediate fibrous layer (0.20-0.24 g / m ³ ) and, as a consequence, significant friability. At the indicated density, the absorption of petroleum products by this structure occurs mainly due to the large size of the interfiber spaces. In this case, the absorbed substance cannot be retained in the sorbent only due to adhesion on the fibers, and when the material is removed from the spill site, most of the oil product flows out under the action of its own gravity starting from the first minute. The above leads to deteriorated sorption capacities with respect to oil and oil products, presumably not exceeding the value of 12-15 g of pollutant per 1 g of sorbent. In addition, at the indicated bulk density parameters, the material is loose, which will complicate its ability to restore the structure and, consequently, spin recovery - presumably no more than two cycles. As a result, the material should have deteriorated sorption capacities with respect to oil and oil products, presumably not exceeding 12-15 g of pollutant per 1 g of sorbent. The disadvantages of the invention should also include the need to vary the surface density of the layers in a very narrow range (for example, 0.24 g / m ³ ; 0.22 g / m ³ ; 0.35 g / m ³ ; 0.4 g / m ³ ) if necessary, to collect fractions of petroleum products - medium, light and heavy - which is a very difficult factor, especially in the production of material on an industrial scale.

The objective of the invention is to obtain an effective universal material for the collection of emergency oil spills that meets all the requirements for oil sorbents: high capacitive characteristics for oil and oil products, buoyancy, good holding capacity and the possibility of reuse.

The problem is achieved by the described sorbent composite material for removing oil and oil products, including two outer layers consisting of polyester fibers and bicomponent polyester fibers, and an intermediate layer consisting of polypropylene fibers, and the bulk density of the outer layers is 8-20 kg / m ³ , the diameter of the fibers is 20-30 microns, the bulk density of the intermediate layer is 45-60 kg / m ³ , the diameter of the fibers is 5-18 microns and all layers are thermally bonded to each other.

The technical result consists in increasing the efficiency of the sorbent, in particular in increasing its capacitive characteristics for oil and oil products (sorption capacity is not less than 25 g / g sorbent), buoyancy (not less than one day), holding ability (not less than 5 minutes), multiple use (at least 5 regeneration cycles with extraction of at least 90% of the sorbate in the first cycle).

The outer layers of the described sorbent have higher capacitive characteristics with respect to oil and oil products than the intermediate fibrous layer. The function of the polypropylene component is that the fibers hydrophobic in chemical nature give the necessary buoyancy to the whole structure. The sorbing and retention capabilities of nonwoven materials are more dependent on the surface area of the fibers and the pore diameter of the interfiber space. Therefore, to give the sorbent high capacitive characteristics, the fibers of the outer layers with a diameter of 20-30 μm based on hollow spirally twisted polyester fibers in combination with bicomponent polyester fibers are formed into a canvas with a bulk density of 8-20 kg / m ³ . The intermediate hydrophobic layer is a randomly laid polypropylene fiber with a diameter of 5-18 μm, the bulk density of the layer is 45-60 kg / m ³ . Thus, the pore sizes of the outer layers significantly exceed the pores of the intermediate layer.

By the term “bicomponent fiber” is meant a fiber of the “core-sheath” type in which the “core” is made of a polyester polymer and the “sheath” is polyethylene. Moreover, the melting temperature of the "shell" is lower than that of the "core".

Polyester fibers are formed from melts of various polymers, in particular from a melt of polyethylene terephthalate, polybutylene terephthalate, polycarbonate, polyacrylate and others.

A material with a given density contains in its structure pores (interfiber space) of an optimal size, which allows the sorbent not only to saturate for a minimum short time and to retain the absorbed substance, but also to "give" about 90% of the oil or oil product during extraction. An additional advantage contributing to an increase in the sorption of the pollutant is the use of hollow fibers of the outer layer. The vertical laying of the fibers of the outer layer, each of which is a small spring, gives the material an improved volume recovery during the recovery of the material by extraction. The material seeks to restore its shape, directing efforts directly in the direction of pressure, thereby providing excellent material recoverability. The lower bulk density of the outer layers is 8-20 kg / m ³ compared with the inner layer 45-60 kg / m ³ allows you to quickly sorb the oil-water emulsion, from which further hydrocarbons are more selectively absorbed and retained by the inner layer.

The application scheme of the invention is as follows: to extract petroleum hydrocarbons from aqueous media, the sorbent web is laid on the surface of an oil film, a film of oil products, or a water-organic emulsion. As a result of the excitement of the aqueous medium, the sorbent is immersed in the thickness of the emulsion, where selective adsorption of oil from the mixed medium on polymer fibers takes place. Moreover, the intermediate layer of hydrophobic oleophilic polypropylene fibers does not allow the material to sink to the bottom and also participates in the adsorption process. During the elimination of oil films from the surface of water in stagnant ponds, the sorbent bed is spread on the surface of the oil slick. Since the layers of the material differ in hydrophobic-hydrophilic properties, the outer layer of polyester fibers is immersed in water, and oil sorption occurs on oleophilic hydrophobic polypropylene fibers. The material is a universal sorbent that allows you to collect hydrocarbons of light, medium and heavy fractions of oil, as well as oil products.

The sorbent has high capacitive characteristics: the material allows you to collect oil and oil products from solid surfaces or from the surface of water areas in an amount exceeding at least 25 times its own weight, and retain the substance when removing material from the spill.

The described sorbent having the indicated characteristics has not only high oil intensity, but also the possibility of repeated use in the extraction regeneration. This material is wear-resistant, which allows you to squeeze it repeatedly, extracting oil for further use, and use the sorbent repeatedly.

The examples given illustrate but do not limit this method.

Example 1

To collect thin films of oil and oil products from a water surface, a material is used in which the outer layers containing hollow polyester fibers formed from a melt of polyethylene terephthalate, together with bicomponent fibers, have a bulk density of 20 kg / m ³ and a fiber diameter of 20 μm, and the inner ( intermediate) layer of polypropylene fibers has a density of 45 kg / m ³ , a fiber diameter of 5 μm. The specified material is placed on a site of contaminated water. The sorbent having these characteristics has a sorption capacity of 25 g of oil (density 823 kg / m ³ ) per 1 g of sorbent, buoyancy for at least 24 hours, retention time of the sorbate for at least 10 minutes when removing the sorbent with the sorbate from the surface of the water area, regeneration by extraction with at least 5 cycles.

Example 2

To collect oil and oil products from a solid surface, a material is used in which the outer layers containing hollow polyester fibers molded from polycarbonate melt, together with bicomponent fibers, have a bulk density of 8 kg / m ³ and a fiber diameter of 30 μm, and the inner layer of polypropylene fibers has a density of 60 kg / m ³ , a fiber diameter of 18 microns. The specified material is placed on a site of contaminated water. The sorbent having these characteristics has a sorption capacity of 30 g of oil (density 823 kg / m ³ ) per 1 g of sorbent, the retention time of the sorbate for at least 10 minutes when removing the sorbent with the sorbate from the surface of the water area, regeneration by extraction for at least 7 cycles.

The use of other polyester fibers leads to similar results.

Materials with a specified range of layer surface density and fiber diameter are capable of rapid sorption of oil and oil products. The use of materials with a higher density complicates the sorption process, as a result of which the sorption capacity of the sorbent will be reduced and squeezing during regeneration of the sorbent will be difficult, and a decrease in surface density compared to that indicated will lead to a deterioration in the retention capacity of the sorbent with respect to oil and oil products.

Thus, the described sorbent material has high capacitive characteristics, in particular, it allows to collect oil and oil products from solid surfaces or from the surface of water areas in an amount exceeding at least 25 times its own weight, to keep the sorbate for a long time when removing it from the spill. The specified material can be used repeatedly, which leads to an increase in the efficiency of its use. Having a high affinity for oil and oil products, the sorbent is able to absorb oil films of various thicknesses, as well as selectively extract oil from water-organic emulsions. One of the areas of application of the sorbent is also the extraction of oil and oil products from mixed media as a filter material in the treatment of ballast water of ships, wastewater, etc. A feature of the material is the possibility of its use in underwater conditions.

Claims (1)

The sorbent composite material for removing oil and oil products, including two outer layers consisting of polyester fibers and bicomponent polyester fibers, and an intermediate layer consisting of polypropylene fibers, the bulk density of the outer layers being 8-20 kg / m ³ , fiber diameter 20- 30 μm, the bulk density of the intermediate layer is 45-60 kg / m ³ , the diameter of the fibers is 5-18 μm, and all layers are thermally bonded to each other.