Newsroom

Newsroom

Research News

  • Scientists Develop New Acid-resistant Membranes

    Recently, a research group led by Prof. WAN Yinhua from the Institute of Process Engineering (IPE) of the Chinese Academy of Sciences developed a novel highly permeable acid-resistant nanofiltration (NF) membrane for efficient acidic wastewater treatment.

    The study was published in Chemical Engineering Journal on August 14 (DOI:10.1016/j.cej.2021.131791).

    NF is an energy-saving and environmental-friendly separation technology for treating industrial wastewater. However, most commercially available polyamide NF membranes exhibit low stability in strongly acid solutions due to hydrolysis of the amide linkage.

    The researchers prepared an acid-resistant NF membrane with tunable separation layer properties based on a simple surface activation assisted multi-step interfacial polymerization (IP) process.

    In the strategy, a novel and low-cost aqueous monomer (3-aminobenzenesulfonamide, ABSA) was used to react with trimesoyl chloride (TMC) to prepare a poly(amide-sulfonamide) (PASA) intermediate layer, followed by the surface activation, and finally a defective-free PASA top layer was constructed on the interlayer.

    The stable sulfonamide structure of ABSA effectively prevents the direct attack of acid. Importantly, with the increase of stacked PASA layers the membrane showed better continuity and higher selectivity, mainly because the higher amount of monomers could effectively accelerate the IP process and inhibit the excessive reaction between ABSA and TMC.

    Interestingly, due to the hydrolysis of the nascent PASA layer during surface activation process, the activated PASA intermediate layer showed increased surface hydrophilicity, smoothness and electronegativity, which can promote the subsequent IP reactions to form a defect-free separation layer with higher permeability (12.4 Lm-2h-1bar-1) and salt rejections (>95% for Na2SO4).

    In addition, benefiting from the strong size exclusion effect, the membrane also exhibited desirable dye rejection under acidic conditions as well as acceptable decolorization efficiency of the real resin elution wastewater.

    Moreover, this PASA membrane also showed excellent acid resistance as well as satisfactory antifouling performance and long-term stability.

    This work provides a low-cost strategy to increase the permeability and antifouling ability of the acid-resistant NF membrane, and it is promising to apply for acidic wastewater treatment in textile and food processing industries.” said Prof. LUO Jianquan from IPE, the corresponding author of the study.

    Schematic mechanism of preparation of acid-resistant nanofiltration membrane and its superior separation performance (Image by CAO yang)


    Media Contact:
    LI Xiangyu
    Public Information Officer
    Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, P. R. China.
    E-mail: 
    xiangyuli@ipe.ac.cn
    Tel: 86-10-82544826 

    附件下载

    Recommended Articles
    Summer Science Show
    Summer Science Show
    May 24,2024
    On May 18, many parents and their children visited the institute to engage in the Summer Science Show. This included exploring key laboratories, participating in interactive science classes, conducting hands-on science experiments, and visiting th...
    Researchers Develop a Novel Dry-powder Inhaled Vaccine Platform
    Dec 14,2023
    Researchers from IPE have proposed a new nanomicro composite delivery concept and developed a single-dose dry powder inhalable vaccine platform with a nanomicro composite multilevel structure against the future emerging and epidemic infectious dis...

    CONTACT US

    • CONTACT US 86-10-82544817
    • CONTACT US 62551257
    • CONTACT US ghb@ipe.ac.cn
    • CONTACT US Institute of Process Engineering,Chinese Academy of Sciences,1 North 2nd Street, Zhongguancun, Haidian District, Beijing 100190, PR China