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Preparation method of anti-static high wear-resistant composite filter material

A composite filter material and anti-static technology, which is applied in separation methods, chemical instruments and methods, filtration separation, etc., can solve the problems of high cost and first filter material pore size, and achieve improved wear resistance, uniformity, and antistatic good effect

Active Publication Date: 2019-07-12
YANCHENG INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the method can significantly improve the antistatic and heat resistance of the filter material, the filter material has a uniform pore size, which is not suitable for purifying flue gas in a flue gas environment with many mixed particle sizes, and the cost is high

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] A method for preparing an antistatic and highly wear-resistant composite filter material, comprising the following steps:

[0021] Step 1. Use steel fibers with different wire diameters as warps and polyethylene fibers with different wire diameters as wefts, and use a fiber felt machine to process them into fiber mats. The particle size of steel fibers decreases sequentially from top to bottom, and that of polyethylene fibers The particle size decreases from left to right, 304 stainless steel fiber, the fiber diameter is 20-40μm;

[0022] Step 2: Dissolve activated carbon particles in an organic solvent, cut them with a high-speed shear for 5 minutes, then add nano-aluminum and castor oil, disperse under the action of ultrasound, and then add straw powder to form a uniform spinning solution. Spinning technology to prepare modified straw fibers; the solvent is polytetrafluoroethylene solution, the weight ratio of activated carbon particles, nano-aluminum, and straw powde...

Embodiment 2

[0026] A method for preparing an antistatic and highly wear-resistant composite filter material, comprising the following steps:

[0027] Step 1. Use steel fibers with different wire diameters as warps and polyethylene fibers with different wire diameters as wefts, and use a fiber felt machine to process them into fiber mats. The particle size of steel fibers decreases sequentially from top to bottom, and that of polyethylene fibers The particle size decreases from left to right;

[0028] Step 2: Dissolve the activated carbon particles in the polytetrafluoroethylene solution, cut with a high-speed shear for 5-8 minutes, then add nano-aluminum and castor oil, disperse under the action of ultrasound, and then add straw powder to form a uniform spinning Silk solution, using electrospinning technology to prepare modified straw fibers; the solvent is, the weight ratio of activated carbon particles, nano-aluminum, and straw powder is 15:3:35, the voltage of electrospinning is 20kv, ...

Embodiment 3

[0035] A method for preparing an antistatic and highly wear-resistant composite filter material, comprising the following steps:

[0036] Step 1. Use steel fibers with different wire diameters as warps and polyethylene fibers with different wire diameters as wefts, and use a fiber felt machine to process them into fiber mats. The particle size of steel fibers decreases sequentially from top to bottom, and that of polyethylene fibers The particle size decreases from left to right;

[0037] Step 2: Dissolve the activated carbon particles in the polytetrafluoroethylene solution, cut it with a high-speed shear machine for 8 minutes, then add nano-aluminum and castor oil, and disperse under the action of ultrasound, then add straw powder to form a uniform spinning solution , using electrospinning technology to prepare modified straw fibers; the voltage of electrospinning is 22kv, and the liquid feeding speed is 12μl; the weight ratio of the activated carbon particles, nano-aluminum...

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Abstract

The invention discloses a preparation method of an anti-static high wear-resistant composite filter material. The preparation method comprises the following steps: S1, processing a fiber felt by usinga fiber cloth felt machine and taking steel fibers with different wire diameters as warps and polyethylene fibers with different wire diameters as wefts; S2, dissolving activated carbon particles inan organic solvent, shearing the activated carbon particles by a high speed shearing machine for 5-8 min, then adding nano aluminum and castor oil, dispersing the mixture under the ultrasonic action,then adding a straw powder to form a uniform spinning solution, and preparing modified straw fibers by means of an electrospinning technique; and S3, weaving the modified straw fibers to the fiber felt by taking the fiber felt as a base material, then immersing the fiber felt to a finishing agent to be finished for 24-48 hours at 20-30 DEG C, and drying the fiber felt to obtain the composite filter material. The preparation method is simple and feasible. The obtained composite filter material is prepared by modifying raw materials wide in source, has a high anti-static capability and a goodventilating property, and is not only suitable for daily anti-haze products, but also suitable for flue gas purification.

Description

technical field [0001] The invention belongs to the field of flue gas filtration, and in particular relates to a preparation method of an antistatic and highly wear-resistant composite filter material. Background technique [0002] Environmental pollution brought about by rapid economic development is becoming more and more serious, which directly affects people's quality of life. As the country has become more and more strict on environmental protection, people have paid more and more attention to the comprehensive treatment technology of industrial smoke and dust pollution. Due to the advantages of high filtration efficiency and long service life, bag dust removal technology is more and more widely used in the field of industrial smoke and dust control. The filter material is a key component of the bag filter, and its performance determines the stability of the entire system. Therefore, the research and development of a filter material with antistatic and high temperatur...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01D39/18D01F2/00D01F1/10D06M13/224D06M15/53D06M13/188D06M13/148D06M101/06
CPCB01D39/18B01D2239/10D01F1/10D01F2/00D06M13/148D06M13/188D06M13/224D06M15/53D06M2101/06
Inventor 谢燕方曼姜雨淋杨文平朱裕平纪耀康彦琳沈雪婷高大伟王春霞祁珍明王丽丽钱玉贝新宇东汤春牛力恒章学如朱河山
Owner YANCHENG INST OF TECH