Developments in forward osmosis and membrane distillation for desalination of waters

被引:73
作者
Ray, Saikat Sinha [1 ]
Chen, Shiao-Shing [1 ]
Sangeetha, Dhanaraj [2 ]
Chang, Hau-Ming [1 ]
Cao Ngoc Dan Thanh [1 ]
Le, Quang Huy [1 ]
Ku, Hong-Ming [3 ]
机构
[1] Natl Taipei Univ Technol, Inst Environm Engn & Management, 1,Sec 3,Zhongxiao E Rd, Taipei 10608, Taiwan
[2] Vellore Inst Technol, Dept Chem, Near Katpadi Rd, Vellore 632014, Tamil Nadu, India
[3] King Mongkuts Univ Technol Thonburi, Chem Engn Practice Sch, Bangkok, Thailand
关键词
Membrane; Desalination; Reverse osmosis; Forward osmosis; Membrane distillation; DIRECT OSMOTIC CONCENTRATION; AMMONIA-CARBON DIOXIDE; HOLLOW-FIBER MEMBRANES; DRAW SOLUTE PERMEATION; MASS-TRANSFER; SEAWATER DESALINATION; REVERSE-OSMOSIS; NANOFIBER MEMBRANES; AIR-GAP; MAGNETIC NANOPARTICLES;
D O I
10.1007/s10311-018-0750-7
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Membrane technology has become a common separation technology over the past decennia. Membranes are used more and more for the productionof drinkablewater from groundwater, surface water andwastewater. Membranes are now competitive versus conventional techniques. Desalination is predominantly used to eradicate the problem of water scarcity. The sustainability of all desalination processes depends mainly on the reduction of energy costs (production cost) and the increase in water recovery. Forward osmosis and membrane distillation are emerging technologiesfor sustainable desalination. Here we review membrane processes of forward osmosis and membrane distillation and the advancements in membrane material and modules. We alsodiscuss the capability of membrane distillation in treating highly concentrated aqueous solutions derived from other desalination processes. Furthermore, the advancements in fabrication of high-performance membrane isreviewed and the performance of different membranes and optimization of membrane distillation process are summarized.
引用
收藏
页码:1247 / 1265
页数:19
相关论文
共 120 条
  • [1] Selection of inorganic-based draw solutions for forward osmosis applications
    Achilli, Andrea
    Cath, Tzahi Y.
    Childress, Amy E.
    [J]. JOURNAL OF MEMBRANE SCIENCE, 2010, 364 (1-2) : 233 - 241
  • [2] The forward osmosis membrane bioreactor: A low fouling alternative to MBR processes
    Achilli, Andrea
    Cath, Tzahi Y.
    Marchand, Eric A.
    Childress, Amy E.
    [J]. DESALINATION, 2009, 239 (1-3) : 10 - 21
  • [3] Commercial PTFE membranes for membrane distillation application: Effect of microstructure and support material
    Adnan, Sharmiza
    Manh Hoang
    Wang, Huanting
    Xie, Zongli
    [J]. DESALINATION, 2012, 284 : 297 - 308
  • [4] Potential of membrane distillation in seawater desalination: Thermal efficiency, sensitivity study and cost estimation
    Al-Obaidani, Sulaiman
    Curcio, Efrem
    Macedonio, Francesca
    Di Profio, Gianluca
    Ai-Hinai, Hilal
    Drioli, Enrico
    [J]. JOURNAL OF MEMBRANE SCIENCE, 2008, 323 (01) : 85 - 98
  • [5] Membrane distillation: A comprehensive review
    Alkhudhiri, Abdullah
    Darwish, Naif
    Hilal, Nidal
    [J]. DESALINATION, 2012, 287 : 2 - 18
  • [6] Membrane-distillation desalination: status and potential
    Alklaibi, AM
    Lior, N
    [J]. DESALINATION, 2005, 171 (02) : 111 - 131
  • [7] Draw solute recovery by metathesis precipitation in forward osmosis desalination
    Alnaizy, Raafat
    Aidan, Ahmed
    Qasim, Muhammad
    [J]. DESALINATION AND WATER TREATMENT, 2013, 51 (28-30) : 5516 - 5525
  • [8] Comparison between Forward Osmosis-Reverse Osmosis and Reverse Osmosis processes for seawater desalination
    Altaee, Ali
    Zaragoza, Guillermo
    van Tonningen, H. Rost
    [J]. DESALINATION, 2014, 336 : 50 - 57
  • [9] An experimentally optimized model for heat and mass transfer in direct contact membrane distillation
    Andrjesdottir, Oloef
    Ong, Chin Lee
    Nabavi, Majid
    Paredes, Stephan
    Khalil, A. S. G.
    Michel, Bruno
    Poulikakos, Dimos
    [J]. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2013, 66 : 855 - 867
  • [10] [Anonymous], 2016, IRRIGA, DOI [DOI 10.15809/irriga.2016v1n01p262-288, DOI 10.15809/IRRIGA.2016V1N01P262-288]