Forward osmosis: Principles, applications, and recent developments
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[1] Tzahi Y Cath,et al. Forward osmosis for concentration of anaerobic digester centrate. , 2007, Water research.
[2] H. Lazarides,et al. On the direct osmotic concentration of liquid foods: Part II. Development of a generalized model , 2007 .
[3] Konstantinos Petrotos,et al. On the direct osmotic concentration of liquid foods. Part I: Impact of process parameters on process performance , 2007 .
[4] Sudhakar M. Rao. Reverse osmosis , 2007 .
[5] J. McCutcheon,et al. Internal concentration polarization in forward osmosis: role of membrane orientation , 2006 .
[6] Robert L McGinnis,et al. Desalination by ammonia–carbon dioxide forward osmosis: Influence of draw and feed solution concentrations on process performance , 2006 .
[7] F. Theeuwes,et al. Principles of the design and operation of generic osmotic pumps for the delivery of semisolid or liquid drug formulations , 1976, Annals of Biomedical Engineering.
[8] Tzahi Y. Cath,et al. Membrane contactor processes for wastewater reclamation in space: II. Combined direct osmosis, osmotic distillation, and membrane distillation for treatment of metabolic wastewater , 2005 .
[9] Michael Flynn,et al. Membrane contactor processes for wastewater reclamation in space Part I. Direct osmotic concentration as pretreatment for reverse osmosis , 2005 .
[10] Sherwin Gormly,et al. Progress in the Development of Direct Osmotic Concentration Wastewater Recovery Process for Advanced Life Support Systems , 2005 .
[11] Raphael Semiat,et al. Backwash of RO spiral wound membranes , 2005 .
[12] Menachem Elimelech,et al. A novel ammonia-carbon dioxide forward (direct) osmosis desalination process , 2005 .
[13] E. Singer. New technologies deliver in treating neurological diseases , 2004, Nature Medicine.
[14] E. Drioli,et al. Recent advances on membrane processes for the concentration of fruit juices: a review , 2004 .
[15] L. Lin,et al. A water-powered micro drug delivery system , 2004, Journal of Microelectromechanical Systems.
[16] Markku J. Lampinen,et al. On the non-linearity of osmotic flow , 2004 .
[17] Rolf Jarle Aaberg,et al. Osmotic power: A new and powerful renewable energy source? , 2003 .
[18] S. Loeb. Large-scale power production by pressure-retarded osmosis, using river water and sea water passing through spiral modules , 2002 .
[19] Shyam S. Sablani,et al. Concentration polarization in ultrafiltration and reverse osmosis: a critical review , 2001 .
[20] Sidney Loeb,et al. One hundred and thirty benign and renewable megawatts from Great Salt lake? The possibilities of hydroelectric power by pressure-retarded osmosis , 2001 .
[21] H. Lazarides,et al. Osmotic concentration of liquid foods , 2001 .
[22] Marco Dalla Rosa,et al. Osmotic treatments (OT) and problems related to the solution management , 2001 .
[23] R. Baker. Membrane Technology and Applications , 1999 .
[24] Rainer Stegmann,et al. Sardinia 99, Seventh International Waste Management and Landfill Symposium, 4-8 October, S. Margherita di Pula, Cagliari, Sardinia, Italy. Proceedings, Vol. I-V , 1999 .
[25] Markku J. Lampinen,et al. Thermodynamic optimizing of pressure-retarded osmosis power generation systems , 1999 .
[26] K. Petrotos,et al. Direct osmotic concentration of tomato juice in tubular membrane – module configuration. II. The effect of using clarified tomato juice on the process performance , 1999 .
[27] S. Loeb. Energy production at the Dead Sea by pressure-retarded osmosis: challenge or chimera? , 1998 .
[28] K. Petrotos,et al. A study of the direct osmotic concentration of tomato juice in tubular membrane – module configuration. I. The effect of certain basic process parameters on the process performance , 1998 .
[29] Michael Flynn,et al. An Evaluation of Potential Mars Transit Vehicle Water Treatment Systems , 1998 .
[30] Menachem Elimelech,et al. A novel approach for modeling concentration polarization in crossflow membrane filtration based on the equivalence of osmotic pressure model and filtration theory , 1998 .
[31] S. Loeb,et al. Effect of porous support fabric on osmosis through a Loeb-Sourirajan type asymmetric membrane , 1997 .
[32] Edward Beaudry,et al. DIRECT OSMOSIS FOR CONCENTRATING WASTEWATER , 1997 .
[33] Menachem Elimelech,et al. Theory of concentration polarization in crossflow filtration , 1995 .
[34] Keith Lampi,et al. Composition and Sensory Characterization of Red Raspberry Juice Concentrated by Direct-Osmosis or Evaporation , 1993 .
[35] H. Girault. Basic principles of membrane technology , 1992 .
[36] Takeo Honda,et al. Comparative mechanical efficiency of several plant configurations using a pressure-retarded osmosis energy converter , 1990 .
[37] E. Beaudry,et al. Membrane technology for direct-osmosis concentration of fruit juices , 1990 .
[38] G. D. Mehta,et al. Further results on the performance of present-day osmotic membranes in various osmotic regions , 1982 .
[39] H. Masuda,et al. Osmo-power. Theory and performance of an osmo-power pilot plant , 1981 .
[40] A. Haute,et al. The use of direct osmosis tests as complementary experiments to determine the water and salt permeabilities of reinforced cellulose acetate membranes , 1978 .
[41] S. Loeb,et al. Internal polarization in the porous substructure of a semipermeable membrane under pressure-retarded osmosis , 1978 .
[42] S. Loeb,et al. Performance of permasep B-9 and B-10 membranes in various osmotic regions and at high osmotic pressures , 1978 .
[43] Dana Karl Anderson. Concentration of Dilute Industrial Wastes by Direct Osmosis , 1977 .
[44] C. D. Moody,et al. Forward osmosis extractors , 1976 .
[45] C. D. Moody,et al. Drinking water from sea water by forward osmosis , 1976 .
[46] Sidney Loeb,et al. Production of energy from concentrated brines by pressure-retarded osmosis , 1976 .
[47] S. Loeb,et al. Production of energy from concentrated brines by pressure-retarded osmosis : II. Experimental results and projected energy costs , 1976 .
[48] R. S. Norman,et al. Osmotic power plants. , 1975, Science.
[49] Richard E. Kravath,et al. Desalination of sea water by direct osmosis , 1975 .
[50] S. Loeb,et al. Countercurrent flow osmotic processes for the production of solutions having a high osmotic pressure , 1973 .