| Preparation of PVA-PAA/PTFE composite membrane and it’s application in concentrating landfill leachate during MD |
| Authors: LI Zhixia, XIE Songchen, JIN Dunshang, SONG Xvfeng,PENG Yuelian |
| Units: Faculty of Environment and Life, Beijing University of Technology, Beijing 100124, China |
| KeyWords: Janus composite membrane; DCMD; anti-fouling; landfill leachate |
| ClassificationCode:TQ 028 |
| year,volume(issue):pagination: 2022,42(4):96-104 |
|
Abstract: |
| Membrane distillation (MD) is expected to play a role in the concentration of brine due to little influence by concentration polarization, but it faces the problems of membrane fouling and wetting in actual operation. In this study, a Janus composite membrane was prepared by spin coating a hydrophilic skin layer on a commercial hydrophobic polytetrafluoroethylene (PTFE) membrane. The skin layer was made of polyvinyl alcohol (PVA) and polyacrylic acid (PAA) through high-temperature dehydration condensation. It was stable in hot water and had good anti-fouling ability. The Janus composite membrane had asymmetric wettability. The coating was hydrophilic in the air, water contact angle was 59.1° and oil repellent underwater. The organic fouling and inorganic scaling processes were investigated using 500 mg/L humic acid (HA), 14.7 mM calcium sulfate (CaSO4), and sodium chloride (NaCl) as feed solutions. The Janus membrane was used in concentrating actual landfill. When the concentration factor was three, a stable flux of 17.6 kg/m2·h, and the permeate conductivity of 3 μS/cm could be got, indicating that the prepared Janus composite membrane had application potential in the process of landfill leachate treatment. |
|
Funds: |
| 国家自然科学基金项目(21878005) |
|
AuthorIntro: |
| 李志霞(1995-),女,内蒙古乌兰察布人,硕士研究生,主要从事膜材料改性和膜制备研究 |
|
Reference: |
|
[1]Wang Z, Lin S. Membrane fouling and wetting in membrane distillation and their mitigation by novel membranes with special wettability[J]. Water Research, 2017, 112: 38-47. [2]Horseman T, Yin Y, Christie K S, et al. Wetting, Scaling, and Fouling in Membrane Distillation: State-of-the-Art Insights on Fundamental Mechanisms and Mitigation Strategies[J]. ACS ES And T Engineering, 2021, 1(1): 117-140. [3]Wang K, Hou D, Wang J, et al. Hydrophilic surface coating on hydrophobic PTFE membrane for robust anti-oil-fouling membrane distillation[J]. Applied Surface Science, 2018, 450: 57-65. [4]Song H M, Chen C, Shui X X, et al. Asymmetric Janus membranes based on in situ mussel-inspired chemistry for efficient oil/water separation[J]. Journal of Membrane Science, 2019, 573: 126–34. [5]任静, 刘状, 郭淑娟,等. 亲水/疏水复合膜强化膜蒸馏深度处理工业废水的研究进展[J]. 化工进展, 2021, 40(11): 11. [6]Zhu Z G, Zhong L L, Chen X M, et al. Monolithic and self-roughened Janus fibrous membrane with superhydrophilic/omniphobic surface for robust antifouling and antiwetting membrane distillation[J]. Journal of Membrane Science, 2020, 615. [7]Han M Y, Dong T, Hou D Y, et al. Carbon nanotube based Janus composite membrane of oil fouling resistance for direct contact membrane distillation[J], Journal of Membrane Science. 2020, 607: 0376-7388. [8]Li X Y, Zhang W F, Qu R X, et al. Asymmetric superwetting configuration of Janus membranes based on thiol–ene clickable silane nanospheres enabling on-demand and energy-efficient oil–water remediation[J]. Journal of Materials Chemistry A, 2019, 7: 10047-10057. [9]Wan Z J, Wan Y, Liu G J. Rapid and Efficient Separation of Oil from Oil-in-Water Emulsions Using a Janus Cotton Fabric[J]. Angewandte Chemie International Edition, 2016, 128(4): 1313–1316. [10]Liu Y F, Xiao T H, Bao C H, et al. Fabrication of Novel Janus Membrane by Nonsolvent Thermally Induced Phase Separation (NTIPS) for Enhanced Performance in Membrane Distillation[J]. Journal of Membrane Science, 2018, 563. [11]Shi J Y, Dang Y, Qu D, et al. Effective treatment of reverse osmosis concentrate from incineration leachate using direct contact membrane distillation coupled with a NaOH/PAM pre-treatment process [J]. Chemosphere, 2019, 220: 195-203. [12]夏俊方. TSMM处理渗滤液纳滤浓缩液影响因素及效果验证[J]. 广东化工, 2019, 46(15):5. [13]Li Y, Zhu Z G, Yu J Y, et al. Carbon Nanotubes Enhanced Fluorinated Polyurethane Macroporous Membranes for Waterproof and Breathable Application[J]. ACS Applied Materials & Interfaces, 2015, 7(24): 13538-13546. [14]Wang Z, Hou D, Lin S. Composite Membrane with Underwater-Oleophobic Surface for Anti-Oil-Fouling Membrane Distillation[J]. Environmental Science and Technology, 2016, 50(7):3866-3874. [15]Yun C W, Tijing L D, Park M J, et al. Electrospun dual-layer nonwoven membrane for desalination by air gap membrane distillation[J]. Desalination, 2017, 403: 187-198. [16]Meng S, Yun Y, Mansouri J, et al. Fouling and crystallisation behaviour of superhydrophobic nano-composite PVDF membranes in direct contact membrane distillation[J]. Journal of Membrane Science, 2014, 463(8): 102-112. [17]Srisurichan S, Jiraratananon R, Fane A G. Humic acid fouling in the membrane distillation process[J]. Desalination, 2005, 174(1): 63-72. [18]Yan Z S, Qu F S, Liang H, et al. Effect of biopolymers and humic substances on gypsum scaling and membrane wetting during membrane distillation[J]. Journal of Membrane Science, 2020, 617: 118638. [19]Xie S C, Li Z X, Wong N H, et al. Gypsum scaling mechanisms on hydrophobic membranes and its mitigation strategies in membrane distillation[J]. Journal of Membrane Science, 2022, 648: 120297. |
|
Service: |
| 【Download】【Collect】 |
《膜科学与技术》编辑部 Address: Bluestar building, 19 east beisanhuan road, chaoyang district, Beijing; 100029 Postal code; Telephone:010-80492417/010-80485372; Fax:010-80485372 ; Email:mkxyjs@163.com
京公网安备11011302000819号