Manufacturing method for fibrous membrane for oil-water separation

An oil-water separation and manufacturing method technology, applied in the field of fiber membrane manufacturing, can solve the problems of low elongation at break, poor environmental adaptability, and poor low temperature resistance of fiber membranes, and achieves increased elongation at break, improved mechanical properties, Good oil affinity

Active Publication Date: 2015-01-28
TIANJIN POLYTECHNIC UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Based on the above characteristics, electrospun polymer fiber membranes containing styrene structural units have been applied in the field of oil-water separation, but the fluffy three-dimensional structure of polymer fiber membranes containing styrene structural units makes there are very few overlapping points between different fibers , when the fiber membrane is stressed as a whole, the fiber is prone to slip, and the strength is extremely low. The fiber after slipping is also stressed and bears the load, resulting in a small elongation at break of the fiber membrane. In addition, the polymer containing styrene structural units is more rigid strong, resulting in extremely brittle fiber membranes at low temperatures, poor low temperature resistance, and poor environmental adaptability in practical applications

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Measure 150ml of styrene, put it in a suitable beaker, weigh 0.6765g of benzoyl peroxide, and add it to the above beaker, start magnetic stirring until the benzoyl peroxide is completely dissolved in styrene , after that, measure 450ml of deionized water, place it in another suitable beaker, weigh 2.25g of polyvinyl alcohol, and add it to the above-mentioned another beaker, heat up to 85°C and start magnetic stirring until Polyvinyl alcohol is completely soluble in water, stop heating and stirring, lower the temperature of polyvinyl alcohol aqueous solution to room temperature, then move the solution formed by styrene and benzoyl peroxide to the polymerization kettle, then add deionized water and polyethylene Pour the solution formed by the alcohol into the polymerization kettle, and stir and disperse for 10 minutes. The stirring speed is 500 rpm. At this time, the stirring speed is set to 500 rpm. Heating system in kettle, raise the temperature to 85°C, after 3 hours o...

Embodiment 2

[0032]Measure 119.92ml of styrene, put it in a suitable beaker, measure 30.08ml of n-butyl acrylate, and add it to the above beaker, weigh 0.6761g of benzoyl peroxide, and add it to the above In the beaker, start magnetic stirring until benzoyl peroxide is completely dissolved in the monomer, after that, measure 450ml deionized water, place it in another suitable beaker, weigh 2.25g polyvinyl alcohol, and Add it into another beaker mentioned above, raise the temperature to 85°C and start magnetic stirring until the polyvinyl alcohol is completely dissolved in water, stop heating and stirring, lower the temperature of the polyvinyl alcohol aqueous solution to room temperature, and then add the monomer and benzene peroxide The solution formed by formyl was moved to the polymerization kettle, and then the solution formed by deionized water and polyvinyl alcohol was poured into the polymerization kettle, and stirred and dispersed for 10 minutes. The stirring speed was 500 rpm. At t...

Embodiment 3

[0035] Measure 104.89ml of styrene, put it in a suitable beaker, measure 45.11ml of n-butyl acrylate, and add it to the above beaker, weigh 0.6757g of benzoyl peroxide, and add it to the above In the beaker, start magnetic stirring until benzoyl peroxide is completely dissolved in the monomer, after that, measure 450ml deionized water, place it in another suitable beaker, weigh 2.25g polyvinyl alcohol, and Add it into another beaker mentioned above, raise the temperature to 85°C and start magnetic stirring until the polyvinyl alcohol is completely dissolved in water, stop heating and stirring, lower the temperature of the polyvinyl alcohol aqueous solution to room temperature, and then add the monomer and benzene peroxide The solution formed by formyl was moved to the polymerization kettle, and then the solution formed by deionized water and polyvinyl alcohol was poured into the polymerization kettle, and stirred and dispersed for 10 minutes. The stirring speed was 500 rpm. At ...

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Abstract

The invention discloses a manufacturing method for a fibrous membrane of an extremely hydrophobic organic macromolecule chemical compound with an oil-water separation function in the technical field of fibrous membrane manufacturing. The manufacturing method comprises the following steps: synthetizing a copolymer with excellent electrostatic spinnability by regulating the compounding ratio of a monomer and controlling the condition of a suspension polymerization technology and by adjusting and controlling the compositions of a solution, processing parameters and the temperature and humidity conditions of environment, and spinning a copolymer solution into the fibrous membrane with the advantages of uniform and small bore diameters, high porosity, large flux and extremely hydrophobic and oleophylic properties by using an electrostatic spinning technique. The obtained fibrous membrane has the advantages that the specific surface area is large, the patterns are large, the stacking structure is proper, and the fibrous membrane is in a three-dimensional bore channel structure. Compared with an existing polymer-based oil-water separation member, the fibrous membrane has the advantages that the bore channel structure is more reasonable, the separation capacity is stronger, the separation efficiency is higher, the anti-pollution capacity is stronger, the membrane bores are not easy to block, the oil-water selectivity is stronger, the mechanical strength is higher, the flexibility and the temperature resistance are better, the preparation process is shorter, the consumed energy is little, the filtering rate is higher, and the cost is lower, so that the fibrous membrane can better satisfy the requirements of industrial practicality.

Description

technical field [0001] The invention relates to a method for manufacturing a fiber membrane, in particular to a method for manufacturing an extremely hydrophobic organic polymer fiber membrane with an oil-water separation function. The manufacturing method utilizes suspension polymerization and electrospinning technologies. Background technique [0002] The rapid development of industry has led to an increasing use of oil products. However, due to the lag in the development of environmental protection awareness and the lack of supervision, a large amount of oily wastewater has entered natural waters, causing serious pollution and irreversible harm to the ecological environment. Oily wastewater comes from a wide range of sources, including lubricating oil and mechanical oil pollution during mechanical processing, oil production fluid and produced water produced in oil and gas exploitation, and ground oil and waste oil in oil fields, refineries, ships or other industrial sites,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): D04H1/728D01D1/02D01D5/00D01F1/10B01D17/022
CPCD01D1/02D01D5/0007D01F1/10D04H1/728
Inventor 徐乃库宁丽群莫锦鹏李丹
Owner TIANJIN POLYTECHNIC UNIV
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