| 响应面法优化联苯聚酰胺中空纤维复合膜制备工艺 |
| 作者:刘宇?, 何本桥?, 李建新 |
| 单位: 天津工业大学中空纤维膜材料与膜过程省部共建国家重点实验室培育基地,天津,300160 |
| 关键词: 响应面方法;聚酰胺;中空纤维;反渗透 |
| 出版年,卷(期):页码: 2011,31(6):19-24 |
|
摘要: |
| 应用响应面法优化3,3’,5,5’-联苯四甲酰氯(BTEC)和间苯二胺(MPDA)界面聚合工艺中各影响因素(水相单体浓度、有机相单体浓度、聚合时间以及水相浸没时间),研究各影响因素及其交互作用对膜分离性能的影响。通过中心组合设计实验,并采用回归分析拟合得到二次方模型。结果发现BTEC浓度、MPDA浓度、聚合时间和水相浸没时间对脱盐率的影响显著性依次降低。BTEC 和MPDA单体浓度的交互作用对膜脱盐率影响最显著,其次是MPDA浓度与聚合时间的交互作用,而BTEC浓度与水相浸没时间的交互作用最弱。最优操作参数:MPDA浓度9.1 g/L、BTEC浓度1.2 g/L、水相浸没时间65 min、聚合时间123 s,预测脱盐率为99.10%,而在此条件下实际值为98.97%,二者十分接近。在此条件下得到致密均一的聚酰胺复合膜。 |
| A novel reverse osmosis hollow fiber membrane was prepared by interfacial polymerization from 3,3',5,5'-biphenyl tetraacyl chloride (BTEC) and m-phenylenediamine (MPDA). A systematic experimental design based on the response surface methodology was used to investigate the effects of preparation factors (MPDA concentration, BTEC concentration, immersion time in aqueous phase and reaction time) on the separation properties of the membrane. A quadratic polynomial equation was obtained by multiple regression analysis. It is found that the order of their effects on the rejection was BTEC concentration > MPDA concentration > reaction time > immersion time in aqueous phase. The interaction effect between MPDA concentration and BTEC concentration on the rejection was most significant and followed by the effect between MPDA concentration and reaction time; nevertheless the interaction effects between reaction time and MPDA concentration was less significant. Furthermore, the optimal reaction conditions were MPDA concentration of 9.1 g/L, BTEC concentration of 1.2 g/L, aqueous immersion time of 65 min and reaction time 123 s. The experimental rejection was 98.97%, close to the predicted rejection (99.10%) by the equation. The morphologies of the membrane obtained under the conditions were uniform and dense, which was responsible for the high separation performance. |
| 刘宇(1984- ),女,辽宁省抚顺市人,在读硕士,从事反渗透复合膜的研究。联系人电话: 022-24528072,hebenqiao@tjpu.edu.cn. |
|
参考文献: |
| [1] 郭豪, 张宇峰, 杜启云,等. 聚酰胺/聚砜纳滤中空纤维复合膜的截留性能. [J]. 膜科学与技术. 2008,28(5):28~32. [2] 蔡邦肖. 聚酰胺复合膜的改性及其选择渗透性. [J]. 膜科学与技术. 2003, 23 (4):25~29. [3] Rao A P, Joshi S V, Trivedi J J, et al, Structure performance correlation of polyamide thin film composite membranes: effect of coating conditions on film formation. [J]. J Membr Sci 2003, 211: 13–24. [4] Liu M H, Yu S C, Tao J, et al, Preparation, structure characteristics and separation properties of thin-film composite polyamide-urethane seawater reverse osmosis membrane. [J]. J Membr Sci 2008, 325: 947–956. [5] Jin Y, Su Z H, Effects of polymerization conditions on hydrophilic groups in aromatic polyamide thin films. [J]. J Membr Sci 2009, 330: 175–179. [6] Ani I, Ismail A F, Noordin M Y, et al, Optimization of cellulose acetate hollow fiber reverse osmosis membrane using Taguchi method. [J]. J Membr Sci 2002, 205: 223–237. [7] Idris A, Kormin F, Noordin M Y, Application of response surface methodology in describing the performance of thin film composite membrane. [J]. Sep Purif Technol 2006, 49: 271–280. [8] Li L, Zhang S B, Zhang X S, et al, Polyamide thin film composite membranes prepared from 3,4',5-biphenyl triacyl chloride, 3,3',5,5'-biphenyl tetraacyl chloride and m-phenylenediamine. [J]. J Membr Sci 2007, 289(1-2): 258-267. [9] Liu Yu, He Ben Q, Li J X, et al, Formation and structural evolution of biphenyl polyamide thin film on hollow fiber membrane during interfacial polymerization. [J]. J Membr Sci,under review. [10] Xu X C, Li J X, Xu N N, et al, Visualization of fouling and diffusion behaviors during hollow fiber microfiltration of oily wastewater by ultrasonic reflectometry and wavelet analysis. [J]. J Membr Sci 2009, 341(1-2): 195-202. [11] Halim S F A, Kamaruddin A H, Fernando W J N. Continuous biosynthesis of biodiesel from waste cooking palm oil in a packed bed reactor: Optimization using response surface methodology (RSM) and mass transfer studies. [J]. Bioresour Technol 2009, 100(2): 710-716. [12] Yuan X, Liu J, Zeng G, Optimization of conversion of waste rapeseed oil with high FFA to biodiesel using response surface methodology. [J]. Renewable Energy 2008, 33(7): 1678-1684. |
|
服务与反馈: |
| 【文章下载】【加入收藏】 |
《膜科学与技术》编辑部 地址:北京市朝阳区北三环东路19号蓝星大厦 邮政编码:100029 电话:010-64426130/64433466 传真:010-80485372邮箱:mkxyjs@163.com
京公网安备11011302000819号