A. A. Yushkin, A. V. Balynin, A. P. Nebesskaya, M. N. Efimov, D. S. Bakhtin, S. A. Baskakov, A. Yu. Kanatieva
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引用次数: 0
摘要
由掺杂氧化石墨烯(GO)颗粒的聚丙烯腈(PAN)、红外辐射热解的PAN (IR-PAN-a)和纳米金刚石(ND)制备膜。对所得膜的孔结构进行了研究。结果表明,碳质组分的加入使膜的平均孔径从17 nm略微减小到12 ~ 15 nm,从而使膜的透水性从158 kg/(m2 h atm)降低到80.9 ~ 119.9 kg/(m2 h atm)。颗粒添加剂的掺杂导致了表面亲水性:水的接触角从65°降低到48°-55°,与PAN膜相比,原油溶液在甲苯中的流动方便了2-3倍。然而,氧化石墨烯或IR-PAN-a的加入显著增加了不可逆膜污染。另一方面,纳米金刚石的加入不仅减少了膜的整体污染,使进料混合物的渗透率从4.93 kg/(m2 h atm)提高到8.47 kg/(m2 h atm),而且可以回收96%以上的纯甲苯通量。掺钕膜在过滤10 g/L的甲苯油溶液时的截留率为85 ~ 89%。
Fabrication of Ultrafiltration Membranes from PAN Composites and Hydrophilic Particles for Isolation of Heavy Oil Components
Membranes have been fabricated from polyacrylonitrile (PAN) doped with graphene oxide (GO) particles, PAN pyrolyzed by IR irradiation (IR-PAN-a), and nanodiamonds (ND). The pore structure of the resulting membranes has been studied. It has been shown that the addition of carbonaceous components slightly reduces the average pore size of the membranes from 17 to 12–15 nm, thereby leading to a decrease in the water permeability of membranes from 158 to 80.9–119.9 kg/(m2 h atm). Doping with particulate additives led to surface hydrophilization: the contact angle of water decreased from 65° to 48°–55°, facilitating the flow of crude oil solutions in toluene by a factor of 2–3 compared to the PAN membrane. However, the addition of GO or IR-PAN-a promoted a significant increase in irreversible membrane fouling. On the other hand, the addition of nanodiamonds not only reduced the overall fouling of the membrane and increased the permeability of the feed mixture from 4.93 to 8.47 kg/(m2 h atm), but also made it possible to recover more than 96% of the pure toluene flux. The rejection ratio of ND-doped membranes during the filtration of 10 g/L oil solutions in toluene was 85–89%.
期刊介绍:
The journal Membranes and Membrane Technologies publishes original research articles and reviews devoted to scientific research and technological advancements in the field of membranes and membrane technologies, including the following main topics:novel membrane materials and creation of highly efficient polymeric and inorganic membranes;hybrid membranes, nanocomposites, and nanostructured membranes;aqueous and nonaqueous filtration processes (micro-, ultra-, and nanofiltration; reverse osmosis);gas separation;electromembrane processes and fuel cells;membrane pervaporation and membrane distillation;membrane catalysis and membrane reactors;water desalination and wastewater treatment;hybrid membrane processes;membrane sensors;membrane extraction and membrane emulsification;mathematical simulation of porous structures and membrane separation processes;membrane characterization;membrane technologies in industry (energy, mineral extraction, pharmaceutics and medicine, chemistry and petroleum chemistry, food industry, and others);membranes and protection of environment (“green chemistry”).The journal has been published in Russian already for several years, English translations of the content used to be integrated in the journal Petroleum Chemistry. This journal is a split off with additional topics.
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