1. Q. Ge, M. Ling, T.S. Chung, Draw solutions for forward osmosis processes: developments, challenges, and prospects for future, J. Membr. Sci., 442 (2013) 225–237.
  2. M.L. Stone, C. Rae, F.F. Stewart, A.D. Wilson, Switchable polarity solvents as draw solutes for forward osmosis, Desalination, 312 (2013) 124–129.
  3. M. Ahmad, Assessment of Freeing Desalination Technologies, PhD Thesis, Swansea University, 2012.
  4. L. Liu, M. Wang, D. Wang, C. Gao, Current patents of forward osmosis membrane process, Recent Pat. Chem. Eng., 2 (2009) 76–82.
  5. J.R. McCutcheon, M. Elimelech, Influence of concentrative and dilutive internal concentration polarization on flux behavior in forward osmosis, J. Membr. Sci., 284 (2006) 237–247.
  6. T.S. Chung, S. Zhang, K.Y. Wang, J.C. Su, M.M. Ling, Forward osmosis processes: yesterday, today, and tomorrow. Desalination, 287 (2012) 78–81.
  7. R. McGinnis, M. Elimelech, Energy requirements of ammonia-carbon dioxide forward osmosis desalination, Desalination, 207 (2007) 370–382.
  8. T.Y. Cath, A.E. Childress, M. Elimelech, Forward osmosis: principles, applications, and recent developments, J. Membr. Sci., 281 (2006) 70–87.
  9. B. Mi, M. Elimelech, Organic fouling of forward osmosis membranes: fouling reversibility and cleaning without chemical reagents, J. Membr. Sci., 348 (2010) 337–345.
  10. T. Husnain, B. Mi, R. Riffat, Fouling and long-term durability of an integrated forward osmosis and membrane distillation system, Water Sci. Technol., 72 (2015) 2000–2005.
  11. P. Nicoll, Forward Osmosis Is Not to be Ignored. Proc. International Desalination Association (IDA), 2013, pp. 22:4.
  12. D. Li, X. Zhang, G. Simon, H. Wang, Forward osmosis desalination using polymer hydrogels as a draw agent: influence of draw agent, feed solution and membrane on process performance, Water Res., 47 (2013) 209–215.
  13. H. Bai, Z. Liu, D. Sun, Highly water soluble and recovered dextran coated Fe3O4 magnetic nanoparticles for brackish water desalination, Sep. Purif. Technol., 81 (2011) 392–399.
  14. D. Li, X. Zhang, J. Yao, G. Simon, H. Wang, Stimuli-responsive polymer hydrogels as a new class of draw agent for forward osmosis desalination, Chem. Commun., 47 (2011) 1710–1712.
  15. R.L. McGinnis, N.T. Hancock, M.S. Nowosielski-Slepowron, G.D. McGurgan, Pilot demonstration of the NH3/CO2 forward osmosis desalination process on high salinity brines, Desalination, 312 (2013) 67−74.
  16. N. Yip, A. Tiraferri, W. Phillip, J. Schiffman, L. Hoover, Y. Kim, M. Elimelech, Thin-film composite pressure retarded osmosis membranes for sustainable power generation from salinity gradients, Environ. Sci. Technol., 45 (2011) 4360–4369.
  17. A. Achilli, T.Y. Cath, A.E. Childress, Power generation with pressure retarded osmosis: an experimental and theoretical investigation, J. Membr. Sci., 343 (2009) 42–52.
  18. K.L. Lee, R.W. Baker, H.K. Lonsdale, Membranes for power generation by pressure retarded osmosis, J. Membr. Sci., 8(1981) 141–171.
  19. R.W. Holloway, A.E. Childress, K.E. Dennett, T.Y. Cath, Forward osmosis for concentration of anaerobic digester centrate, Water Res., 41 (2007) 4005−4014.
  20. N. Nguyen, S. Chen, H. Yang, N. Hau, Application of forward osmosis on dewatering of high nutrient sludge, Bioresour. Technol., 132 (2013) 224–229.
  21. B. Jiao, A. Cassano, E. Drioli, Recent advances on membrane processes for the concentration of fruit juices: a review, J. Food Eng., 63 (2004) 303–324.
  22. K. Wang, M. Teoh, A. Nugroho, T. Chung, Integrated forward osmosis – membrane distillation (FO–MD) hybrid system for the concentration of protein solutions, Chem. Eng. Sci., 66 (2011) 2421–2430.
  23. Q. Yang, K. Wang, T. Chung, A novel dual-layer forward osmosis membrane for protein enrichment and concentration, Sep. Purif. Technol., 69 (2009) 269–274.
  24. Q. Ge, J. Su, G. Amy, T. Chung, Exploration of polyelectrolytes as draw solutes in forward osmosis processes, Water Res., 46 (2012) 1318–1326.
  25. M. Ling, K. Wang, T. Chung, Highly water-soluble magnetic nanoparticles as novel draw solutes in forward osmosis for water reuse, Ind. Eng. Chem. Res., 49 (2010) 5869–5876.
  26. E. Cornelissen, D. Harmsen, K. de Korte, C. Ruiken, J. Qin, H. Oo, L. Wessels, Membrane fouling and process performance of forward osmosis membranes on activated sludge, J. Membr. Sci., 319 (2008) 158–168.
  27. T.Y. Cath, S. Gormly, E.G. Beaudry, M.T. Flynn, V.D. Adams, A.E. Childress, Membrane contactor processes for wastewater reclamation in space: Part I. Direct osmotic concentration as pretreatment for reverse osmosis, J. Membr. Sci., 257 (2005) 85−98.
  28. K. Lutchmiah, E.R. Cornelissen, D.J.H. Harmsen, J.W. Post, K. Lampi, H. Ramaekers, L.C. Rietveld, K. Roest, Water recovery from sewage using forward osmosis, Water Sci. Technol., 64 (2011) 1443−1449.
  29. S. Phuntsho, H. Shon, S. Hong, S. Lee, S. Vigneswaran, A novel low energy fertilizer driven forward osmosis desalination for direct fertigation: evaluating the performance of fertilizer draw solutions, J. Membr. Sci., 375 (2011) 172–181.
  30. S. Phuntsho, H. Shon, S. Hong, S. Lee, S. Vigneswaran, J. Kandasamy, Fertiliser drawn forward osmosis desalination: the concept, performance and limitations for fertigation, Rev. Environ. Sci. Biotechnol., 11 (2011) 147–168.
  31. H. Zhu, L. Zhang, X. Wen, X. Huang, Feasibility of applying forward osmosis to the simultaneous thickening, digestion, and direct dewatering of waste activated sludge, Bioresour. Technol., 113 (2012) 207–213.
  32. E. Butler, A. Silva, K. Horton, Z. Rom, M. Chwatko, A. Havasov, J. McCutcheon, Point of use water treatment with forward osmosis for emergency relief, Desalination, 312 (2013) 23–30.
  33. S. Zhao, L. Zou, C.Y. Tang, D. Mulcahy, Recent developments in forward osmosis: opportunities and challenges, J. Membr. Sci., 396 (2012) 1−21.
  34. B. Coday, P. Xu, E. Beaudry, J. Herron, K. Lampi, N. Hancock, T. Cath, The sweet spot of forward osmosis: treatment of produced water, drilling wastewater, and other complex and difficult liquid streams, Desalination, 333 (2014) 23–35.
  35. G. Carmignani, S. Sitkiewitz, J.W. Webley, Recovery of Retrograde Soluble Solute for Forward Osmosis Water Treatment, 2012, WO 2012/148864.
  36. C. Martinetti, A. Childress, T. Cath, High recovery of concentrated RO brines using forward osmosis and membrane distillation, J Membr. Sci., 331 (2009) 31–39.
  37. T. Younos, Environmental issues of desalination, J. Contemp. Water Res. Educ., 132 (2005) 11–18.
  38. B. Durham, M. Mierzejewski, Water reuse and zero liquid discharge: a sustainable water resource solution, Water Sci. Technol.: Water Supply, 3 (2003) 97–103.
  39. A. Koppola, M. Bagajewicz, B. Dericks, M. Savelski, On zero water discharge solutions in the process industry, Adv. Environ. Res., 8 (2004) 151–171.
  40. D. Whitlock, G. Daigger, N. McCoy, The Future of Sustainable Water Management: Using a Value Chain Analysis to Achieve a Zero Waste Society, WEFTEC.07, San Diego, California, October 13–17, 2007.
  41. S. Sethi, S. Walker, J. Drewes, P. Xu, Existing and emerging concentrate minimization and disposal practices for membrane systems, Florida Water Resour. J., 58 (2006) 38–48.
  42. J.H. Van’t Hoff, The Role of Osmotic Pressure in the Analogy Between Solutions and Gases, The Modern Theory of Solution, Memoirs by Pfeffer, van’t Hoff, Arrhenius, and Raoult, Edited by H.C. Jones, New York and London, Harper & Brothers Publishers, 1899, pp. 11–42.
  43. H.Y. Ng, W. Tang, W.S. Wong, Performance of forward (direct) osmosis membrane structure and transport phenomenon, Environ. Sci. Technol., 40 (2006) 2408–2413.
  44. T.Y. Cath, A.E. Childress, M. Elimelech, Forward osmosis: principles, applications, and recent developments, J. Membr. Sci., 281 (2006) 70–87.
  45. A.J. Barduhn, Freezing Processes for Water Conversion in the United States, First International Symposium on Water Desalination, Washington D.C., USA, 3–9 October 1965.
  46. O.K. Buros, The ABCs of Desalting, 2nd ed. S.I. International Desalination Association (IDA), Topsfield, Massachusetts, USA, 2000.
  47. K.S. Spiegler, Y.M. El-Sayed, A Desalination Primer, Italy: Balaban Desalination Publications, 1994, ISBN: 0866890343.
  48. S. Phuntsho, S. Vigneswaran, J. Kandasamy, S. Hong, S. Lee, H. Shon, Influence of temperature and temperature difference in the performance of forward osmosis desalination process, J. Membr. Sci., 415–416 (2012) 734–744.
  49. S. Loeb, L. Titelman, E. Korngold, J. Freiman, Effect of porous support fabric on osmosis through a Loeb–Sourirajan type asymmetric membrane, J. Membr. Sci., 129 (1997) 243–249.
  50. G. Mehta, S. Loeb, Performance of permasep B-9 and B-10 membranes in various osmotic regions and at high osmotic pressures, J. Membr. Sci., 4 (1979) 335–349.
  51. J.R. McCutcheon, R.L. McGinnis, M. Elimelech, Desalination by ammonia–carbon dioxide forward osmosis: influence of draw and feed solution concentrations on process performance, J. Membr. Sci., 278 (2006) 114–123.
  52. G.T. Gray, J.R. McCutcheon, M. Elimelech, Internal concentration polarization in forward osmosis: role of membrane orientation, Desalination, 197 (2006) 1–8.
  53. J.R. McCutcheon, M. Elimelech, Modeling water flux in forward osmosis: implications for improved membrane design, AIChE J., 53 (2007) 1736–1744.
  54. S. Low, Preliminary studies of seawater desalination using forward osmosis, Desal. Wat. Treat., 7 (2009) 41–46.