RU2033240C1 - Method of manufacturing filter cloth for purifying liquid foodstuffs from cesium radionuclides - Google Patents

Abstract

FIELD: chemical engineering. SUBSTANCE: cloth from ion-exchange viscose fibers, containing iron ferrocyanide, is subjected to molding and bonding at an ambient air temperature of 27-30 C and the 77-80% relative humidity. EFFECT: higher durability of cloth. 1 tbl

Description

 The invention relates to the production of non-woven filter materials, in particular to the production of non-woven materials from ion-exchange fibers.

 A known method of manufacturing a non-woven filter material [1] which consists in forming a canvas of two fibrous layers, one of which is made from a mixture of ion-exchange and non-ion-exchange fibers, and the other of non-ion-exchange fibers.

 Mixing of ion-exchange and non-ion-exchange fibers on the one hand worsens the sorption properties of the material, and on the other hand, is caused by the need to improve the hygienic properties of the filter material and the low mechanical strength of the modified anion-exchange cellulose fibers used. The material obtained by this method is unsuitable for the purification of liquid food products from cesium radionuclides.

A known method of producing a sorbent for cleaning liquid products from cesium by treating a porous, including fibrous (wood) carrier with a mixture of solutions of potassium hexacyanoferrate and iron nitrate, followed by washing, drying and molding of granules [2]
A known method of producing sorbents by applying ferrocyanides of transition metals to carriers and the formation of granular material [3]
A disadvantage of the known methods is the inconvenience of their use in the household, since sorbents must be filled in filters of a certain design.

 The objective of the invention was to provide a method for producing filter material in the form of a non-woven canvas, effectively sorbing cesium-137 from liquid food products.

To solve this problem, in contrast to the known method comprising forming a modified material of iron ferrocyanide carrier material is formed as a web of ion-exchange woven fabric comprising ferric ferrocyanide, and then fasten the canvas and needling process is carried out at ambient temperature, 27-30 ^{° C} and relative humidity 77-80%
The technical result of the proposed method consists in the fact that it allows to improve the processability of ion-exchange viscose fibers containing iron ferrocyanide during their processing, thereby eliminating the need for avivazhnogo processing and mixing of these fibers with other types of fibers, due to which the properties of the sorbent are fully preserved and effective sorption is ensured non-woven material of cesium radionuclides from liquid foods.

 PRI me R. By the term “canvas formation” is meant a technological process that includes the following stages: loosening of the fiber, scratching on the carding machines, the formation of the fibrous layer by repeated folding of the fleece. In the present case, a non-woven filter material was prepared as follows. The TsM-KF ion-exchange fiber, which has not undergone an overwhelming treatment at the manufacturing stage, is subjected to loosening on a SchZZ-140-Ш pinch-sizing machine without treatment with surface-active substances (SAW), which enable its further processing, which is caused by the requirements for filter sheets used in the filtration of liquid foods. These requirements exclude the presence in the filtrate of additional chemical compounds, which are surfactants.

The loose pulp is then processed on a Ch-11-200Sh carding machine, and by repeatedly combing the webs on the PP-Sh weaving machine, a fibrous web is obtained, which is fastened by needle-piercing on the IM-1800 needle-punched machine of the AIN-1800M unit with a piercing density of 94 pr / cm ² and a piercing depth of 5 mm. These operations of loosening, scratching and canvas formation is carried out under the following conditions:
Ambient temperature, ^о С 27-30
Relative humidity, 77-80
Compliance with the temperature and humidity conditions ensures the drainage of static electricity generated as a result of friction of the fiber against fiber and fiber against metal, which makes it possible to process the specified chemical fiber. When the temperature and humidity change beyond these limits, the CM-KF fiber becomes highly electrified, it sticks to the metal surfaces of the machines (work rollers and a removable comb of the carding machine, sealing rollers, etc.), brittleness increases, which does not allow forming the canvas. When the temperature and humidity increase beyond the specified limits, the fibers are overmoistened, which causes breakages in the carding on the carding machine and the formed canvas when it is fed into the needle piercing zone.

 The table shows data reflecting the physicomechanical and sorption properties of the obtained material and confirming the solution of the problem posed by the invention.

Claims (1)

METHOD FOR PRODUCING A FILTERING MATERIAL FOR CLEANING LIQUID FOOD PRODUCTS FROM CESIUM RADIONUCLIDES, comprising forming a material from a carrier modified with ferrocyanide, characterized in that the material is formed as a canvas from ion-exchanged viscose fibers containing iron and then ferrocyanide environment 27 30 ^o C and relative humidity 77 80%

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