两性氧化物超微过滤及纳米过滤陶瓷膜的过滤性能与材料性能之间的关系(英文)
RELATION BETWEEN MATERIAL PROPERTIES AND FILTRATION PERFORMANCES APPLICATION TO UF AND NF CERAMIC MEMBRANES PREPARED WITH AMPHOTERIC OXIDES
摘要
各类陶瓷膜在电解质溶液中的过滤性能试验表明:各种盐分的滤出率取决于溶液的pH值、盐的种类及其浓度。在过滤过程中,脉动电势与盐滤出率存在相关性,脉动电势是影响过滤材料表面电荷特性的相关参数。
The filtration tests of electrolytic solutions performed with different ceramic membranes show the salt rejection depends on the pH,the salt nature and concentration. Simple correlation between streaming potential and rejection rates exits and confirms the streaming potential is a relevant parameter to characterize the surface charge of the filtering material during the filtration process.
出处
《陶瓷学报》
CAS
2005年第1期29-34,共6页
Journal of Ceramics
参考文献11
-
1T. Tsuru, Hirohiko Takezoe. Masashi Asaeda. Ion separation by porous silica zirconia nanofiltration membranes. AichE J,44(1998):765-768.
-
2A. E. Yaroshchuck. Rejection mechanisms of nanofiltration membranes. Membrane Technology, No. 100:pp 9-12.
-
3T. Tsuru, M. Urairi, S. Nakao, S. Kimura. Reverse osmosis of single and mixed electrolytes with charged membranes:experiment and analysis. J. Chem. Eng. Japan. 24 (1991):518.
-
4T. Tsuru, T. Shutou, S.I. Nakao, S. Kimura. Peptide and amino acid separations by nanofiltration membranes. Sep. Sci. Technol,29 (1994) :971.
-
5A. Larbot, S. Alami-Younssi, M. Persin, J. Sarrazin, L. Cot Preparation of a g-alumina nanofiltration membrane. J. Membr. Sci,97 (1994): 167.
-
6S. Condom, S. Chemlal, W. Chu, M. Persin, A. Larbot. Correlation between selectivity and surface charge in cobalt spinel ultrafiltration membrane. Sep. Pur Technology, 25 (2001) :545.
-
7Y. Elmarraki, M.Persin, J. Sarrazin, M. Cretin, A. Larbot. Filtration of electrolyte solutions with new TiO2ZAl2O4 ultrafiltration membrane in relation with the electric surface properties. Sep. Pur Technology, 25 (2001) 493.
-
8H. Grib, M. Persin, C. Gavach, D.L. Piron, J. Sandeaux, N.Mameri. Amino acid retention with γ alumina nanofiltration membrane. J. Membr. Sci, 172 (2001) :9.
-
9J. Palmeri, P. Blanc, A. Larbot, P. David. Theory of pressure driven transport of neutral solutes and ions in porous ceramic nanofiltration membranes.J. Membr. Sci, 160 (1999): 141-170.
-
10M. Nystrom, A Pihlajamaki, N. Ehsani. Characterization of ultrafiltration membrane by simultaneous streaming potential and flux measurements. J. Membr. Sci,87 (1994): 245.
-
1赵扬,席莹本,许莉.纳米过滤技术及其在我国的发展与展望[J].流体机械,2003,31(5):25-28. 被引量:2
-
2宋玉春.纳米技术点亮化学工业未来[J].化工文摘,2004(2):46-48. 被引量:1
-
3纳米过滤膜产品率先在发达国家崭露头角[J].化纤与纺织技术,2013,42(4):51-51.
-
4Reiner Kordt.用纳米织成过滤网[J].现代制造,2007(18):46-47.
-
5在纳米过滤软水过程中运行条件对CaSO4垢形成的影响[J].水处理信息报导,2001(5):42-42.
-
6高登山.冷凝水回收处理技术[J].河南化工,2008,25(11):27-30. 被引量:9
-
7宋玉春.化学工业的纳米时代[J].流程工业,2004(8):12-15.
-
8陶圣如.美开发成功新的海水淡化膜元件[J].浙江化工,2005,36(2):37-37.
-
9严希康,俞峰伟.纳米过滤膜的应用[J].中国医药工业杂志,1997,28(6):280-285. 被引量:17
-
10李建生,郭英凯,吴静,董广前,宋海燕.固体酸催化合成3-甲氧基-4-羟基苯乙醇酸[J].精细与专用化学品,2006,14(13):16-18. 被引量:3