| Effect of nanofiltration membrane materials on the retention properties of organics in high salinity system |
| Authors: Sun Baohong, Da Xiaowei, Fan Yiqun |
| Units: State Key Laboratory of Materials - Oriented Chemical Engineering, College of Chemistry and Chemical Engineering, Nanjing Tech University, Nanjing 210009, China |
| KeyWords: nanofiltration; high salinity system; retention properties |
| ClassificationCode:TQ028.8 |
| year,volume(issue):pagination: 2015,35(2):14-19 |
|
Abstract: |
| In order to obtain the law of nanofiltration membrane materials influence on the organic retention in high salinity system, the retention of organics was investigated by organic nanofiltration membrane and ceramic nanofiltration membrane with similar molecular weight cut-off(MWCO). The effects of running time, salt concentration, transmembrane pressure(TMP), organic concentration on retention of organics were discussed. The results indicated that the membrane retention properties could achieve stability after 30 minutes. The permeate flux and retention properties of organics gradually reduced with the increase of salt concentration, and retention properties of ceramic membrane was better than that of organic membrane. The organic concentration and TMP had a weak effect on retention properties of the membranes. Therefore, ceramic nanofiltration membrane has higher permeate flux and organic retention in high salinity system compared to organic nanofiltration membrane. |
|
Funds: |
| 国家“863”计划课题(2012AA03A606)、教育部创新团队发展计划(IRT13070)、江苏省高校自然科学研究项目(12KJA530001) |
|
AuthorIntro: |
| 孙宝红(1989-),女,安徽滁州市人,硕士,研究方向为膜分离. |
|
Reference: |
|
[1]Lefebvre O, Moletta R. Treatment of organic pollution in industrial saline wastewater: a literature review[J]. Water Research, 2006, 40(20): 3671-3682. [2]Kapdan I K, Erten B. Anaerobic treatment of saline wastewater by Halanaerobium lacusrosei[J]. Process Biochemistry, 2007, 42(3): 449-453. [3]Koyuncu I. Reactive dye removal in dye/salt mixtures by nanofiltration membranes containing vinylsulphone dyes: effects of feed concentration and cross flow velocity[J]. Desalination, 2002, 143(3): 243-253. [4]Tang C, Chen V. Nanofiltration of textile wastewater for water reuse[J]. Desalination, 2002, 143(1): 11-20. [5]Fujioka T, Khan S J, McDonald J A, et al. Effects of membrane fouling on N-nitrosamine rejection by nanofiltration and reverse osmosis membranes[J]. Journal of Membrane Science, 2013, 427(1): 311-319. [6]Van Gestel T, Kruidhof H, Blank D H A, et al. ZrO2 and TiO2 membranes for nanofiltration and pervaporation Part 1. Preparation and characterization of a corrosion-resistant ZrO2 nanofiltration membrane with a MWCO < 300[J]. Journal of Membrane Science, 2006, 284(1): 128-136. [7]Bargeman G, Vollenbroek J M, Straatsma J, et al. Nanofiltration of multi-component feeds. Interactions between neutral and charged components and their effect on retention[J]. Journal of Membrane Science, 2005, 247(1): 11-20. [8]Bouranene S, Szymczyk A, Fievet P, et al. Influence of inorganic electrolytes on the retention of polyethyleneglycol by a nanofiltration ceramic membrane[J]. Journal of membrane science, 2007, 290(1): 216-221. [9]Luo J Q, Wan Y H. Effects of pH and salt on nanofiltration-a critical review[J]. Journal of Membrane Science, 2013, 438(1): 18-28. [10]Bouranene S, Szymczyk A, Fievet P, et al. Effect of salts on the retention of polyethyleneglycol by a nanofiltration ceramic membrane[J]. Desalination, 2009, 240(1): 94-98. [11]Escoda A, Fievet P, Lakard S, et al. Influence of salts on the rejection of polyethyleneglycol by an NF organic membrane: pore swelling and salting-out effects[J]. Journal of Membrane Science, 2010, 347(1): 174-182. |
|
Service: |
| 【Download】【Collect】 |
《膜科学与技术》编辑部 Address: Bluestar building, 19 east beisanhuan road, chaoyang district, Beijing; 100029 Postal code; Telephone:010-80492417/010-80485372; Fax:010-80485372 ; Email:mkxyjs@163.com
京公网安备11011302000819号