CS265200B1 - Sorption nonwoven fabric - Google Patents

Abstract

The sorbent nonwoven fabric consists by weight of 5 to 30% mineral and/or synthetic fibers, 20 to 60% hydrated antimony oxide and/or nickel or copper hexacyanoferrate, 2 to 10% acrylate polyelectrolyte or acrylate thickener and 20 to 40% acrylate or styrene acrylate binder, which binds the fibers to each other and binds a selectively acting sorbent on their surface.

Description

The present invention relates to a sorption nonwoven fabric which is intended to remove radioactive cesium from a gaseous or liquid medium, for example in the power industry in the treatment of waste water and gaseous media.

A filter-sorption nonwoven fabric, protected by CS AO No. 237 389, is known. It consists of 4 to 60 S anionic or cationic ion exchanger in which at least 80% of the particles have a particle size of less than or equal to 40 µm, 10 to 30% of chemical fibers , from 2 to 10% acrylic polyelectrolyte or acrylic dye and from 20 to 40% acrylic or styrene acrylate binder.

CS AO No. 238 199 protects a sorption nonwoven fabric consisting of 5 to 30% chemical fibers, 20 to 60% powdered activated carbon, 2 to 10 Ϊ acrylate polyelectrolyte or acrylic densities, and 20 to 40 i acrylate or styrene acrylate binders which it binds the chemical fibers with each other and binds powdered activated carbon on their surface, with at least 87% of the activated powdered coal particles having a size of less than or equal to 40 µm.

The sorbent composition of CS AO No. 241,613 consists of two components, one of which is a non-woven fabric of synthetic fibers, preferably polyester, and the other component is a powdered material with a high surface activity relative to organic substances. The pulverulent composition comprises from 4 to 60% of the expanded perlite powder with a hydrophobised surface and from 4 to 60% of the activated carbon powder. The particulate matter is predominantly smaller in size than 40 and is fixed to the surface of the fibers of the nonwoven by a synthetic binder.

The sorbent nonwoven fabric of CS AO No. 251 006 consists of 5 to 30% by weight of chemical fibers, 20 to 60% powdered expanded perlite with a hydrophobised surface, 2 to 10% acrylic polyelectrolyte or acrylic dens and 20 to 40% acrylic or styrene acrylate binder, which binds the chemical fibers with each other and on their surface binds the powdered expanded perlite with a hydrophobized surface, wherein at least 80% of the particles of the powdered expanded perlite have a size of 40 µm or less.

In the present inventions, the sorption ability of various sorbents is used, which have the disadvantage of being polyfunctional. They remove a wide range of substances from the media.

Furthermore, some organic compounds are known, for example hexacyanoferrates, hexacyanoferrates, molybdophosphates of heavy metal tungstates which are capable of absorbing only some ions and molecules. These substances deposited on pearl cellulose use, for example, the invention protected by CS AO No. 228 489, a method for removing radioactive substances. The disadvantage of this method of radioactive material removal is insufficient mechanical and chemical resistance of the bead cellulose.

It is an object of the present invention to overcome the drawbacks of the known solutions and to provide a mechanically and chemically resistant filter-sorption formation carrying highly selective sorbents.

The disadvantages of the known solutions are eliminated by a sorptive nonwoven fabric consisting of 5 to 30% by weight of mineral and / or synthetic fibers, 2 to 10% of acrylate polyelectrolyte or acrylic dye and 20 to 40% of acrylate or styrene acrylate binder which binds the fibers to each other and on their surface selective sorbents according to the invention, further comprising 20 to 60% hydrated antimony trioxide and / or nickel or copper (II) ferrocyanide.

An advantage of the absorbent nonwoven fabric of the present invention is that it solves in a novel manner the structure of the absorbent fabric in which the selective sorbent is uniformly applied and fixed in a fiber skeleton from which any filter-sorption units can be formed as desired.

Examples:

Example 1

The sorbent nonwoven fabric for selective sorption of cesium consists of a glass nonwoven mat of 80 gm, styrene acrylate binder of 50 gm, acrylic-2-2 polyelectrolyte of 8 gm, and ammonia of 112 gm. The total weight per unit area of the sorbent nonwoven fabric is 250 gm

Example 2

The sorptive nonwoven fabric consists of a fiber fleece of polyester staple fiber with a fiber fineness of 11 dtex and 4.4 dtex in a ratio of 60/40 with a fiber length of 38 to 120 mm. The basis weight of the web ~ 2 is 42 g.m. The fleece is reinforced by double-sided spraying of acrylic binder in quantities

-2 -2 38 g.m, the total basis weight of the pre-reinforced fleece is 80 g.m. Furthermore, non-woven fabric

-2-2 -2 contains 42 gm of acrylate binder, 8 gm of acrylate polyelectrolyte and 100 gm of nickel ferrocyanide hexa-2. The total basis weight of the nonwoven fabric is 230 g.m.

Example 3

The sorbent nonwoven fabric of Example 1, except that the antimony dioxide is replaced with copper (II) hexacyanoferrate.

Example 4

The absorbent nonwoven fabric of Example 2, except that the nickel hexacyanoferrate (II) is replaced by copper (II) hexacyanoferrate.

Claims (1)

SUBJECT OF THE INVENTION Sorption non-woven fabric intended primarily for the removal of radioactive cesium from a gaseous or liquid medium, containing by weight 5 to 30% of synthetic and / or mineral fibers, 2 to 10% of acrylic polyelectrolyte or acrylic dips and 20 to 40% of acrylic or styrene acrylate binder A selective sorbent binds to and between them and further comprises 20 to 60% hydrated antimony trioxide and / or nickel (II) hexacyanoferrate and / or copper (II) hexacyanoferrate.