| 不对称炭膜的制备及结构性能研究 |
| 作者:陈永明,丁玲华,金鑫,李琳,王同华 |
| 单位: 大连理工大学 化工学院 精细化工国家重点实验室 炭材料研究室 膜科学与技术研究开发中心, 大连 116024 |
| 关键词: 相转化;不对称炭膜;结构;性能;气体分离 |
| 出版年,卷(期):页码: 2014,34(4):45-49 |
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摘要: |
| 以Kapton型聚酰胺酸(PAA)为前驱体,以N,N-二甲基乙酰胺(DMAc)为溶剂和凝胶浴添加剂,分别以水、乙醇、正丙醇、正丁醇为凝胶介质,采用干湿相转化法制备不对称聚酰亚胺膜,经高温炭化制备不对称炭膜。探讨了相转化制膜工艺如铸膜液浓度、蒸发时间、凝胶介质及炭化温度等因素对不对称炭膜微结构和气体分离性能的影响。并采用SEM、XRD等手段对不对称炭膜的表面形态及微结构进行表征。研究表明,采用相转化的方法成功地制备了具有不对称结构的炭膜。相转化制膜工艺、炭化工艺对所制备不对称炭膜的结构及气体分离性能有较大的影响。控制适宜的铸膜液浓度、预蒸发时间有利于制备具有高通量、高分离选择性的不对称炭膜;提高炭化温度可以改变其微观结构,使炭膜的有序度和致密度增加,进而对膜的气体分离性能产生影响;SEM分析表明所制备的不对称炭膜表面致密无缺陷,且具有明显的致密皮层和多孔支撑层结构;XRD显示制备 的不对称炭膜的微结构为乱层炭结构 |
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The asymmetric carbon membranes were prepared by the dry/wet phase inversion methods and then carbonization using PAA as the precursor, DMAc as the solvent and additive. The effects of the preparation technology parameters of phase inversion and carbonization on the microstructure and gas separation performance of asymmetric carbon membranes were investigated by SEM, XRD and variable volume- constant pressure method. The results showed that the preparation technology parameters of phase inversion and carbonization greatly affect the microstructure and gas separation performance of asymmetric carbon membranes. Controlling the proper concentration of casting solution and pre-evaporation time is beneficial to preparing the asymmetric carbon membranes with the high gas permeation flux and high selectivity. The microstructure of carbon membrane can be improved with the enhancement of carbonization temperature, which affects the gas separation performance of asymmetric carbon membrane. The SEM images indicate that the asymmetric carbon membrane is composed of the surface compact layer and porous support. Its surface is compact and free of defect. The microstructure of asymmetric carbon membranes is the disordered carbon structure according to XRD. |
| 陈永明(1987-),男,山东枣庄,硕士生,从事炭膜材料的研究 |
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参考文献: |
| [1] 宋成文, 王同华, 邱介山, 等. 炭膜制备技术的研究进展 [J]. 化工进展 2003,22(9):961~964. [2] 梁长海, 李德福, 郭树才. 炭膜气体分离性能研究 [J]. 炭素,1996 (4):29~36. [3] 李战胜, 李恕广, 江成璋. 浸进入凝胶法聚合物膜形成机理的研究现状 [J]. 膜科学与技术,2002,22(2):29~36. [4] 俞三传, 高从堦. 浸入沉淀相转化法制膜 [J]. 膜科学与技术,2000,20(5):36~41. [5] 陈勇, 王从厚, 吴鸣. 气体膜分离技术与应用 [M]. 北京:化学工业出版社,2004. [6] 左丹英, 曾友国. 浸没凝胶相转化制备聚合物膜的孔结构及其形成机理 [J]. 高分子通报,2008.4(12):29~34. [7] Kim Y K, Park H B, Lee Y M. Carbon molecular sieve membranes derived from metal-substituted sulfonated polyimide and their gas separation properties [J]. Journal of Membrane Science, 2003,226(1-2):145~158. [8] Steel K M, Koros W J. Investigation of porosity of carbon materials and related effects on gas separation properties [J]. Carbon, 2003, 41(2):253~-266. [9] Nozoumu T, Hiroshi S, Yusei H, et al. Gas permeation perperties of asymmetric carbon hollow fiber membranes perpared from asymmetric polyimide hollow fiber [J]. Journal of Membrane Science,1999,160(2):179~186. [10] Jones C W, Koros W J. Carbon molecular sieve gas separation membranes-I. Preparation and characterization based on polyimide precursors Original Research Article [J]. Carbon,1994,32(8):1419~1425. [11] Jones C W, Koros W J. Carbon molecular sieve gas se-paration membranes-.Regenerationfollowingorganic expos-ure Original Research Article [J].Carbon,1994,32(8):1427~1432. [12] Ogawa M, Nakano Y. Gas permeation through carbonized hollow fiber membranes prepared by gel modification of polyamic acid Original Research Article [J]. Journal of Membrane Science,1999,162(1-2):189~198. [13] Jansen J C, Buonomenna M G, Figoli A, Ultra-thin asymmetric gas separation membranes of modified PEEK prepared by the dry–wet phase inversion technique Original Research Article[J]. Desalination,2006,193(1-3):58~65. [14] 徐强强, 张鹏霞, 孙本惠. 凝胶介质对聚酰亚胺膜凝胶速率及膜断面结构的影响[J]. 膜科学与技术,2006,29(3):11~14. [15] 宋成文, 王同华. 炭化条件对聚丙烯腈炭膜性能的影响 [J]. 炭素技术,2009,28(2):5~8. [16] 刘庆岭. 功能炭膜的设计、制备及其气体分离性能:[学位论文].大连:大连理工大学,2008.15~18. |
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