CZ303268B6 - Filtration and/or sorption element - Google Patents

Abstract

In the present invention, there is disclosed a filtration and/or sorption element containing carbonaceous sorbent that is dispersed in interfiber spaces of a bulk fabric performed from intimate fibrous mixture of staple base fibers (1) and bicomponent fibers (2) by means of which said staple base fibers (1) of the bulk fabric are interconnected and maintained in determined position wherein said bicomponent fibers (2) at least partially fix some particles of the carbonaceous sorbent, wherein the bulk fabric is closed in a package (4) comprising a nanofiber layer (42) arranged between two layers (41) of a protective fabric.

Description

Filter and / or sorbent member

Technical field

The invention relates to a filter and / or sorbent member comprising a carbon sorbent.

BACKGROUND OF THE INVENTION ¹⁰

Carbon sorbents are used for liquidation of oil accidents from the water surface and both loose carbon sorbent to the surface and carbon sorbent stored in sorption sleeves or sorption plates made of geotextiles are used. The fine structure gives the carbon sorbent a large specific surface area and the associated adsorption properties used in adsorption columns for the purification of gases and contaminated waters, in the protection of process pits and water reservoirs against the penetration of oils, fuels and other hydrocarbons, to anchor hazardous substances, to remove hydrocarbons and their derivatives and other similar purposes.

The disadvantage is particularly difficult handling of the carbon sorbent, since the filled bags, sleeves and other formations do not have dimensional stability, since the finely divided sorbent behaves like a liquid. In addition, due to mechanical action, the carbon sorbent disintegrates in rental particles that cannot be retained by conventional packaging material so that they do not permeate and contaminate everything around them permanently. The object of the invention is to reduce or eliminate the shortcomings of the prior art,

SUMMARY OF THE INVENTION

This object is achieved by a filtering and / or sorption element according to the invention, characterized in that the carbonaceous sorbent is dispersed in the inter-fiber spaces of the bulk fabric formed of an intimate fiber blend of staple base fibers and bicomponent fibers to which the staple base fibers of the bulk fabric are interconnected. and some carbonaceous sorbent particles are partially fixed by the bicomponent fibers, and the bulky fabric is enclosed in a package containing a layer of nanofibres arranged between two layers of protective fabric. The coating containing the nanofibrous layer prevents the carbon sorbent bent particles from penetrating out of the package, so that the surrounding of the filter and / or sorption member is not soiled during handling, but at the same time permits access of the liquid or gaseous substance to be cleaned. Placing the carbonaceous sorbent into the inter-fibrous spaces of the bulk fabric and at least partial fixation thereof to the bicomponent fibers of such a fabric ensures uniform distribution of the carbonaceous sorbent throughout the fabric's lifetime and hence a uniform efficiency of the filter and / or sorbent member of the invention.

Preferably, the carbon sorbent comprises a carbon composite, which is preferably a synthetic carbon black having a specific surface area of 20 to 1500 m ² / g.

The amount of carbon sorbent and / or carbon composite and / or synthetic carbon black is up to 50% by volume of the bulk fabric. At this volume, the properties of the bulky fabric are retained and the properties of the carbon sorbent, carbon composite or synthetic carbon black are well applicable.

The bulk fabric of the filter and / or sorbent member of the invention may be formed by aerodynamic forming from a blend of base and bicomponent fibers, or by carding the blend of base and bicomponent fibers followed by crosswise web layering and hot air bonding, or carding the blend of base and bicomponent fibers followed by perpendicular fiber webs and hot air bonding.

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The protective fabric is preferably a bi-component spun bond. This will enable to achieve high mechanical properties of the nanofiber coating and at the same time simplify the possibilities of joining the coating by heat and pressure.

Overview of the drawings

Examples of embodiments of the filter and / or sorption member according to the invention are schematically shown in the attached drawing, where FIG. 1 is a cross-sectional view of a bulky fabric filter and / or sorption member formed by the perpendicular laying of a fibrous web. Giant. 2 is a cross-sectional view of a bulky fabric filter and / or sorption member formed by aerodynamic molding of a blend of base and bicomponent fibers; and FIG. 3 is a view of a base fiber and a bicomponent fiber.

DETAILED DESCRIPTION OF THE INVENTION

The base material for producing the filter and / or sorbent member of the invention is a bulky fabric consisting of staple base fibers 1, for example polypropylene, and bicomponent fibers 2, having a polypropylene core 2f and a polyethylene sheath 22. Melting temperature of the polyethylene sheath 22 bicomponent fibers 2 is lower (120 ° C) than the melting point of the core 21 and the melting point of the polypropylene core fibers 1 (165 ° C). The ratio of the base fibers I and the bicomponent fibers 2 in the bulk fabric composition ranges from 80: 20 to 50: 50, but theoretically, only the bicomponent fibers 2 can be used. The greater the content of bicomponent fibers 2 in the blend, the better the fiber bulky fabric. Fibers of other materials may be used in the bulky fabric, but it is necessary to maintain a lower melting point of the sheath 22 of the bicomponent fibers 2 than the melting point of the core 2f of the bicomponent fibers 2 and the melting point of the base fibers. first thoroughly mixed, usually in a carding machine, into a very uniform, so-called intimate mixture of fibers. Subsequently, the position of the fibers is fixed by melting the sheath 22 of the bicomponent fibers and the subsequent joining of the bicomponent fiber 2 with the surrounding base fibers L The fiber content in the total volume of the bulk fabric is from 1 to 5% by volume. spaces.

The carbon sorbent according to the invention is formed by a carbon composite, which are carbon particles aggregated to form chains or clusters, with symmetrical carbon black being a preferred representative of the carbonaceous composites 3.

Generally, the most important property of synthetic carbon black is the size of their primary particles and the associated surface area. The primary particles have a spherical shape and their size ranges from 2 to 100 nm, the smaller the primary particles, the larger their surface area, which is from 20 to 1500 m ² / g. Another important characteristic of the carbon black is its structure and aggregate size. The size and complexity of the aggregate structure is determined by the number of spherical primary carbon black particles that cluster during the manufacturing process into branched chains with many secondary spaces in the aggregate.

The carbonaceous sorbent or carbonaceous composite or synthetic carbon black particles 3 are conveyed to the bulk fiber interfaces by any of the known methods, for example by shaking the carbonaceous sorbent or carbonaceous composite or synthetic carbon black 3 deposited on the bulk fabric surface, serves to apply a powdered thermoplastic binder or particles are introduced into the bulk fabric in its manufacture by aerodynamically forming a mixture of base fibers 1 and bicomponent fibers 2, in which hot air passes through the bulk fabric and melts the sheaths of bicomponent fibers 2, introducing particles into the air carbon sorbent or carbon composite or synthetic carbon black 3 by hot air, which are introduced into the inter-fibrous space of the bulky fabric. Particles of carbon sorbent or carbon com

C.7. 303268 B6 of ingested or synthetic carbon black 3 are introduced into the inter-fiber spaces of the bulk fabric in amounts up to 50% by volume. Although it is not excluded to introduce a larger amount of carbon sorbent or carbon composite or synthetic carbon black 3, the filtering and / or sorbent member with increasing amounts of carbon sorbent or carbon composite or synthetic carbon black 3 loses the character of the fabric. If the bulky fabric or web to be formed is heated above the melting point of the sheath 22 of the bicomponent fibers 2 when or after the introduction of the carbon sorbent particles or carbon composite 3 or the synthetic carbon black 3, at least some of these particles are fixed to the bicomponent The other particles of the carbon sorbent or carbon composite or synthetic carbon black 3 are deposited in the inter-fiber spaces of the bulk fabric.

The bulky fabric containing the particles of carbon sorbent or carbon composite or synthetic carbon black 3 is then cut into pieces of the desired size, which are overlaid on all sides by a cover 4 comprising a layer of nanofibres 42 arranged between two protective layers

41 is preferably a bicomponent spun bond and which provides mechanical properties to the package. The wrapping 4 is joined at the edges of the article, for example by welding or gluing. The nanofibrous layer 42 inside the casing prevents the carbon sorbent particles or carbon composite or synthetic carbon black 3 from penetrating out of the casing 4 so that the surrounding of the filter and / or sorption member is not stained during handling while allowing the cleaned gaseous or liquid substance to enter they pass through a bulky fabric containing carbon sorbent or carbon composite particles or synthetic carbon black 3.

The bulk fabric of the filter and / or sorbent member may be formed by carding the blend of base and bicomponent fibers in addition to aerodynamic forming, but also by carding the blend of base and bicomponent fibers followed by transverse web laying and hot-air bonding. web and hot-air bonding as shown in FIG. 1.

Industrial applicability

The filter and / or sorption element according to the invention can be used, for example, as a surface filter for air-conditioning units or as a filter element for personal protection, whether in protective masks or masks, or as a sorption element for trapping hazardous or undesirable substances from water. air.

Claims (8)

A filter and / or sorbent member comprising a carbon sorbent, characterized in that the carbon sorbent is dispersed in the inter-fibrous spaces of the bulky fabric formed from an intimate 45 fiber blends of staple base fibers (1) and bicomponent fibers (2) through which the staple base fibers (1) of the bulk fabric are interconnected and held in position, and some carbon sorbent particles are partially fixed by the bicomponent fibers (2), the fabric is enclosed in a package (4) comprising a layer (42) of nanofibres arranged between two layers (41) of the protective fabric. Filter and / or sorbent member according to claim 1, characterized in that the carbonaceous sorbent is a carbonaceous composite. Filter and / or sorbent element according to claim 2, characterized in that it is carbonaceous The composite is composed of synthetic carbon black and has a specific surface area of 20 to 1500 m ² / g. -3GB 303268 B6 Filter and / or sorbent member according to any one of claims 1 to 3, characterized in that the amount of carbonaceous sorbent or carbonaceous composite or synthetic carbon black is up to 50% by volume of the bulk fabric. Filter and / or sorbent member according to any one of claims 1 to 4, characterized in that the bulk fabric is formed by aerodynamically forming a blend of the base and bicomponent fibers. io Filter and / or sorbent member according to any one of claims 1 to 4, characterized in that the bulky fabric is formed by carding a blend of the base and bicomponent fibers, followed by crosswise laying of the web and hot-air bonding. Filter and / or sorbent member according to any one of claims 1 to 4, characterized in that the bulky fabric is formed by carding a mixture of base and bicomponent fibers followed by perpendicular laying of the web and hot-air bonding. Filter and / or sorption element according to any one of the preceding claims, characterized in that the protective fabric (41) of the cover (4) is formed by a bicomponent spun bond,