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Anti-biological-pollution loose nanofiltration composite membrane and preparation method thereof

An anti-biological fouling and composite membrane technology, applied in the field of membrane separation, can solve problems such as pollution and high salt ion interception, achieve excellent separation performance, increase retention rate, and improve hydrophilicity

Active Publication Date: 2020-08-21
TIANJIN POLYTECHNIC UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the current nanofiltration membranes have small pore size and high interception of salt ions, and there are few reports on loose nanofiltration membranes that can screen dye molecules and inorganic salt ions; on the other hand, membrane fouling is the mainstream polyamide composite The main problems in the use of nanofiltration membranes, among which microbial fouling is the most difficult membrane fouling problem to deal with

Method used

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  • Anti-biological-pollution loose nanofiltration composite membrane and preparation method thereof
  • Anti-biological-pollution loose nanofiltration composite membrane and preparation method thereof
  • Anti-biological-pollution loose nanofiltration composite membrane and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] Chitosan graft copolymer Chitin-g-P DMAPS Preparation of:

[0019] 1) dissolving 0.5 g of chitosan with a weight-average molecular weight of 60,000 Da in 50 ml of aqueous acetic acid solution with a concentration of 2.0 wt%, stirring at 60° C. for 30 min, to obtain a chitosan solution;

[0020] 2) Nitrogen gas is introduced, and the final concentration of 0.0182mol / L cerium ammonium nitrate and the final concentration of 0.1792mol / LDMAPS (2-(methacryloyloxy)ethyl]dimethyl-(3-sulfonic acid propyl) Ammonium hydroxide) was added to the chitosan solution obtained in step 1), sealed, heated to 50°C, reacted for 2h, the suspension was taken out, suction filtered, rinsed with distilled water, stirred and then suction filtered, so repeated several times, finally The precipitate was dried in a vacuum oven at 60°C to obtain the chitosan graft copolymer Chitin-g-P DMAPS .

[0021] Experiments have proved that the main chain prepared by other methods is chitosan, and the side ch...

Embodiment 2

[0023] A preparation method of a loose nanofiltration composite membrane for anti-biological fouling, comprising the steps of:

[0024] Soak a polysulfone membrane with a molecular weight cut-off of 30000Da in 2wt% aqueous solution of hyperbranched polyethyleneimine with a number average molecular weight of 600Da for 20min. Sugar graft copolymer (prepared in Example 1) solution for 1h, the solvent of the chitosan graft copolymer solution is 1wt% acetic acid aqueous solution; take it out, put it in an oven at 59°C to dry, and then use 1mol / L The NaOH aqueous solution soaks 2h, takes out, rinses with pure water; Immerses in the water containing cross-linking agent and sulfuric acid, the concentration of described cross-linking agent (adipaldehyde) is 1wt%, and the concentration of described sulfuric acid is 1wt%, at 50 °C for 2 h to obtain a loose nanofiltration composite membrane that resists biofouling.

[0025] The measured flux of the above-mentioned loose nanofiltration co...

Embodiment 3

[0027] A preparation method of a loose nanofiltration composite membrane for anti-biological fouling, comprising the steps of:

[0028] Soak a polyethersulfone membrane with a molecular weight cut-off of 1000Da in 2wt% hyperbranched polyethyleneimine aqueous solution with a number average molecular weight of 300Da for 60min. Chitosan graft copolymer (prepared in Example 1) solution for 2h, the solvent of the chitosan graft copolymer solution is 5wt% acetic acid aqueous solution; take out, be placed in 30 ℃ of baking oven and dry, and use The NaOH aqueous solution of 0.1mol / L soaks 2h, takes out, rinses with pure water; Immerses in the water that contains crosslinking agent (glyoxal) and sulfuric acid, and the concentration of described glyoxal is 0.5wt%, and the concentration of described sulfuric acid is Sulfuric acid 0.5wt%, cross-linked at 90°C for 2 hours, to obtain a loose nanofiltration composite membrane that resists biofouling.

[0029] The measured flux of the loose ...

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Abstract

The invention discloses an anti-biological-pollution loose nanofiltration composite membrane and a preparation method thereof. The preparation method comprises the following steps: soaking a polymer base membrane in a hyperbranched polyethyleneimine aqueous solution, taking out the polymer base membrane, removing redundant liquid drops on the surface of the membrane, and then soaking the membranein a chitosan grafted copolymer solution, wherein the solvent of the chitosan grafted copolymer solution is an acetic acid aqueous solution; taking out and drying the membrane, soaking the membrane with a NaOH aqueous solution, taking out the membrane, and washing the membrane with pure water; and immersing the membrane in water containing a cross-linking agent and sulfuric acid, and cross-linkingto obtain the anti-biological-pollution loose nanofiltration composite membrane. The loose nanofiltration composite membrane provided by the invention is excellent in separation performance, improvesthe retention rate of dyes, and maintains a low desalination rate of divalent salt molecules at the same time. Test results show that the loose nanofiltration composite membrane provided by the invention has a high antibacterial rate on Gram-negative escherichia coli and Gram-positive staphylococcus aureus, and can effectively prevent and treat microbial contamination on the surface of the membrane.

Description

technical field [0001] The invention relates to the field of membrane separation and the printing and dyeing industry, in particular to a loose nanofiltration composite membrane for anti-biological pollution and a preparation method thereof. Background technique [0002] The development of textile and printing and dyeing industries has greatly increased the production and use of various dyes. Printing and dyeing wastewater not only has high salinity, but also has high COD (chemical oxygen demand) value and high chroma, which is difficult to treat and causes double waste of inorganic salts and dyes. Therefore, it is of great significance to realize the effective separation of high-concentration inorganic salts and dyes in printing and dyeing wastewater. As a pressure-driven membrane separation technology whose separation size is between ultrafiltration and reverse osmosis, nanofiltration membrane is widely used in sewage treatment, ultrapure water preparation, seawater desal...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01D69/12B01D61/00B01D67/00C02F1/44C02F103/30
CPCB01D69/12B01D61/027B01D67/0006C02F1/442C02F2103/30B01D2325/36Y02A20/131
Inventor 孟建强翟晓飞贺耀庭尤蒙
Owner TIANJIN POLYTECHNIC UNIV