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Microspheroidization treatment of macroporous TiO2 to enhance its recycling and prevent membrane fouling of photocatalysis-membrane system

发表时间:2019-03-09
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论文类型:
期刊论文
第一作者:
Li, Xiangcun
通讯作者:
He, GH (reprint author), Linggong Rd 2, Dalian 116024, Peoples R China.
合写作者:
Wu, Xuemei,He, Gaohong,Sun, Jiasi,Xiao, Wu,Tan, Yi
发表时间:
2014-09-01
发表刊物:
CHEMICAL ENGINEERING JOURNAL
收录刊物:
SCIE、EI、Scopus
文献类型:
J
卷号:
251
页面范围:
58-68
ISSN号:
1385-8947
关键字:
Patterned porous titania; Microspherization; Photodegradation; Methylene blue; Membrane fouling
摘要:
Patterned porous (PP)-TiO2/calcium-alginate (CA) microspheres with an average diameter of 3 mm were prepared by immobilizing PP-TiO2 into CA balls to improve their recycling and photoactivity. The microspheres demonstrate higher degradation activity on methylene blue (MB) than Degussa P-25 nanoparticle/CA (P25-TiO2/CA) spheres, freely suspended PP-TiO2, and P25-TiO2 fine particles. Furthermore, the microspheres can be easily recycled. Meanwhile, the energy cost in the recycling of PP-TiO2 is 1.23 x 108 J per gram PP-TiO2. The PP-TiO2/CA microsphere combined polyacrylonitrile (PAN) microfiltration membrane system was established to dispose of the MB wastewater. Compared with the PP-TiO2 catalyst-membrane system, the PP-TiO2/CA microsphere-membrane system can achieve almost 90% degradation ratio of MB. The permeation flux for the combined system is approximately the same as that of the PAN membrane and remains at 90 L/m(2) h. However, the permeation flux decreases to 70 L/m2 h when freely suspended PP-TiO2 is used as photocatalyst. The reason is that with the operation going on, the PP-TiO2 cake layer is formed by a growing number of suspended PP-TiO2 particles depositing on the membrane surface. The deposition induces membrane fouling and inhibits the photocatalysis activity of PP-TiO2 in the solution, whereas PP-TiO2/CA microspheres remain suspended in the solution under gentle stirring. Moreover, the sum of drag force F-D and buoyancy F-b (F-D + F-b = 1.552 x 10(-4) N) imposed on the microsphere was calculated to be comparable with the gravity G (1.566 x 10(-4) N) of the PP-TiO2/CA microsphere. This result further reveals that the microspheres are suspended in the dye solution, thereby preventing membrane fouling. We believe that the microspheroidization of PP-TiO2 and the combined microsphere-membrane system provide a new idea for practical wastewater treatment. (C) 2014 Elsevier B.V. All rights reserved.
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