Change of the performance properties of nanofiltration cellulose acetate membranes by surface adsorption of polyelectrolyte multilayers

详细信息    查看全文

• 作者：Lajimi ; Ramzi Hadj ; Abdallah ; Abdelhamid Ben ; Ferjani ; Ezdine ; Roudesli ; Mohamed Sadok ; Deratani ; André
• 关键词：Nanofiltration ; Cellulose acetate ; Polyelectrolyte multilayers ; Composite membranes ; Salt rejection
• 刊名：Desalination
• 出版年：2004
• 出版时间：March 10, 2004
• 年：2004
• 卷：163
• 期：1-3
• 页码：193-202
• 全文大小：1.24 M

文摘

Surface modification of nanofiltration cellulose acetate (CA) membranes was carried out by alternating layer-bylayer deposition of acidic chitosan (CHI) and sodium alginate (ALG) as the cationic and anionic polyelectrolyte, respectively. The supporting CA membranes were obtained by a phase separation process from acetone/formamide ( wt/wt) casting solutions using a 20 wt % polymer concentration. The pore size of the CA substrates monitored by the annealing temperature was determined from the retention values of rigid neutral solutes using the computer simulation program NanoFlux. The influence of the ultrathin multilayered polyelectrolyte surface structure on the permeability performances (water flux and ion rejection) was studied for a series of composite membranes obtained by varying the total number (up to 35) of the adsorbed polyelectrolyte layer pairs. SEM and permeation measurements showed that the modification mainly took place on the substrate surface so that the hydraulic permeability was only little affected by the polyelectrolyte multilayers. The permeation rate of dilute to moderate concentrated NaCl and MgSO₄ solutions was found to be higher than that of pure water for some composite membranes. By comparison with the bare support, the rejection of monovalent salt decreased by increasing the number of adsorbed ALG/CHI layer pairs whereas that of divalent salt remained constant.