Salt-dye separating nanofiltration membrane as well as preparation method and application thereof

A technology of nanofiltration membrane and basement membrane, which is applied in semipermeable membrane separation, chemical instruments and methods, membranes, etc., can solve the problems of general salt permeability, concentration polarization, and small flux, and achieve the realization of salt dyeing Effects of waste water treatment, easy cleaning, and shortened operation time

Active Publication Date: 2017-05-24
NANJING UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Lin Jiuyang et al. used commercial membranes Sepro NF 6 and Sepro NF 2A to separate mixed solutions of different dyes (DR80, DR 23, CR) and salts (NaCl), and found that these commercial membranes had good retention of dyes ( 99.9%), but the penetration capacity of salt is average, and it is easy to cause concentration polarization, which leads to serious water consumption and energy consumption in the process of treatment (Lin, J.Y et.al.J.Memb.Sci.2015)
Wang Zhan et al. used loose nanofiltration membranes to separate salt-stained wastewater, and the interception of methylene blue and Congo red reached 97.3% and 97.1%, which has good dye retention capacity, but the flux in the separation process is small and takes a long time , membrane cleaning and only low concentration dyes were studied (Wang, Z et.al.J.Memb.Sci.2016)

Method used

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  • Salt-dye separating nanofiltration membrane as well as preparation method and application thereof
  • Salt-dye separating nanofiltration membrane as well as preparation method and application thereof
  • Salt-dye separating nanofiltration membrane as well as preparation method and application thereof

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Experimental program
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Effect test

Embodiment 1

[0034] Preparation of nanofiltration membrane M1

[0035] Prepare 0.1wt% BDSA aqueous solution, and add triethylamine to adjust the pH to 10. Then pour the solution onto the surface of the polysulfone (PSF) basement membrane, pour out the solution after immersion for 5 minutes, and let it dry naturally in the air. Configure 0.2wt% TMC organic solution (n-hexane), then pour it on the surface of the above-mentioned membrane and contact with it for 20s to remove excess organic solvent. After natural air drying, the membrane was stored in deionized water.

Embodiment 2

[0037] Preparation of nanofiltration membrane M2

[0038] Prepare 0.2wt% BDSA aqueous solution, and add triethylamine to adjust the pH to 11. Then pour the solution onto the surface of the polyethersulfone (PES) base membrane, pour out the solution after immersion for 3 minutes, and let it dry naturally in the air. Configure 0.1wt% TMC organic solution (n-hexane), then pour it onto the surface of the above-mentioned membrane and contact with it for 30s to remove excess organic solvent. After natural air drying, the membrane was stored in deionized water. Nanofiltration membrane morphology as figure 1 -As shown in (a), there are protrusions on the surface of the membrane, which indicates that there is a polyamide layer formed on the surface of the basement membrane; from the cross-sectional scanning electron microscope figure 1 -(b) It can be clearly seen that there is a relatively thin polyamide selective layer on the surface of the base film.

Embodiment 3

[0040] Preparation of nanofiltration membrane M3

[0041]Prepare 0.5wt% BDSA aqueous solution, and add sodium carbonate to adjust the pH to 11. Then pour the solution onto the surface of the polysulfone (PSF) basement membrane, pour out the solution after immersion for 2 minutes, and let it dry naturally in the air. Configure 0.05wt% TMC organic solution (cyclohexane), then pour it on the surface of the above-mentioned membrane and contact with it for 60s to remove excess organic solvent. After natural air drying, the membrane was stored in deionized water.

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Abstract

The invention discloses a salt-dye separating nanofiltration membrane as well as a preparation method and application thereof. According to the preparation method, an ultrafiltration membrane is used as a basement membrane; 2,2'-benzidinedisulfonic acid is used as a water-phase monomer; trimesoyl chloride is used as an organic-phase monomer to be dissolved in an organic solvent; a polyamide selecting layer is prepared and obtained through a water phase-organic phase interfacial polymerization method. According to the preparation method, the nanofiltration membrane with suitable charge performance and an appropriate membrane aperture is obtained through the regulation of monomer concentration, polymerization time, pH (potential of Hydrogen) and the like; by means of a Donnan effect and aperture sieving action, a dye and an inorganic salt are subjected to separation treatment; while an organic macromolecular dye can be effectively intercepted, ions of the inorganic salt are enabled to pass through to a greater extent; in comparison with a conventional commercial membrane, the water consumption is greatly reduced; the operating time is also obviously shortened. In addition, the nanofiltration membrane prepared by the preparation method has the advantages of being higher in mechanical strength, better in stability and easy to wash, and the like; the treatment of salt-dye wastewater can be effectively realized.

Description

technical field [0001] The invention belongs to the technical field of nanofiltration membrane preparation, and relates to a salt-stained separation nanofiltration membrane, a preparation method and application thereof. Background technique [0002] Industrial wastewater has become the main source of water pollution, especially printing and dyeing wastewater. The data shows that it takes 200-350m to produce 1t of dye 3 Pure water, resulting in a large amount of printing and dyeing wastewater, has caused great harm to the environment. Printing and dyeing wastewater has high salinity (NaCl: 6.0wt%, Na 2 SO 4 : 5.6wt%), high COD, high chroma and other characteristics, the recycling of dyes and salts can not only significantly reduce the preparation of dyes and the waste of salt, but also greatly reduce the pollution and harm of wastewater to the environment, but many printing and dyeing wastewater treatment Processes (such as adsorption, sedimentation, biodegradation, oxida...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01D67/00B01D69/12B01D71/56B01D71/68B01D69/02B01D65/02C02F1/44
CPCB01D61/027B01D65/02B01D69/02B01D69/125B01D71/56B01D71/68B01D2321/04B01D2321/168B01D2325/24C02F1/442C02F2101/308C02F2303/14
Inventor 张轩李猛王连军孙秀云
Owner NANJING UNIV OF SCI & TECH
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