| 1 - 2 |
Forward osmosis: A technology platform here to stay
McCutcheon JR |
| 3 - 11 |
Osmotically assisted reverse osmosis for high salinity brine treatment
Bartholomew TV, Mey L, Arena JT, Siefert NS, Mauter MS |
| 12 - 22 |
Ion exchange resin blended membrane: Enhanced water transfer and retained salt rejection for forward osmosis
Zuo HR, Lu H, Cao GP, Wang M, Wang YY, Liu JM |
| 23 - 31 |
Forward osmosis using draw solutions manifesting liquid-liquid phase separation
Darvishmanesh S, Pethica BA, Sundaresan S |
| 32 - 39 |
Finding better draw solutes for osmotic heat engines: Understanding transport of ions during pressure retarded osmosis
Gong H, Anastasio DD, Wang KJ, McCutcheon JR |
| 40 - 46 |
Application of poly (4-styrenesulfonic acid-co-maleic acid) sodium salt as novel draw solute in forward osmosis for dye-containing wastewater treatment
Huang JQ, Long QW, Xiong S, Shen L, Wang Y |
| 47 - 60 |
Origin of structural parameter inconsistency in forward osmosis models: A pore-scale CFD study
Kang PK, Lee W, Lee S, Kim AS |
| 61 - 71 |
Analysis of enhancing water flux and reducing reverse solute flux in pressure assisted forward osmosis process
Kim B, Gwak G, Hong S |
| 72 - 78 |
Evaluation of a natural polymer-based cationic polyelectrolyte as a draw solute in forward osmosis
Laohaprapanon S, Fu YJ, Hu CC, You SJ, Tsai HA, Hung WS, Lee KR, Lai JY |
| 79 - 88 |
Dewatering of activated sludge by forward osmosis (FO) with ultrasound for fouling control
Lee S, Shon HK, Hong S |
| 89 - 98 |
Understanding the possible underlying mechanisms for low fouling tendency of the forward osmosis and pressure assisted osmosis processes
Lotfi F, Chekli L, Phuntsho S, Hong S, Choi JY, Shon HK |
| 99 - 109 |
Layered double hydroxide nanoparticle modified forward osmosis membranes via polydopamine immobilization with significantly enhanced chlorine and fouling resistance
Lu P, Liang S, Zhou TT, Xue TS, Mei XY, Wang Q |
| 110 - 126 |
Understanding mass transfer through asymmetric membranes during forward osmosis: A historical perspective and critical review on measuring structural parameter with semi-empirical models and characterization approaches
Manickam SS, McCutcheon JR |
| 127 - 134 |
A hybrid dead-end/cross-flow forward osmosis system for evaluating osmotic flux performance at high recovery of produced water
Chowdhury MR, Ren J, Reimund K, McCutcheon JR |
| 135 - 148 |
Identification of the type of foulants and investigation of the membrane cleaning methods for PRO processes in osmotic power application
Abbasi-Garravand E, Mulligan CN, Laflamme CB, Clairet G |
| 149 - 159 |
Polyvinyl chloride and layered double hydroxide composite as a novel substrate material for the forward osmosis membrane
Pardeshi PM, Mungray AK, Mungray AA |
| 160 - 168 |
Thin film nanocomposite membranes based on imologite nanotubes blended substrates for forward osmosis desalination
Pan YH, Zhao QY, Gu L, Wu QY |
| 169 - 178 |
A closed-loop forward osmosis-nanofiltration hybrid system: Understanding process implications through full-scale simulation
Phuntsho S, Kim JE, Hong S, Ghaffour N, Leiknes T, Choi JY, Shon HK |
| 179 - 189 |
Impact of nanoparticles surface characteristics on pore structure and performance of forward osmosis membranes
Rastgar M, Shakeri A, Bozorg A, Salehi H, Saadattalab V |
| 190 - 201 |
Middle support layer formation and structure in relation to performance of three-tier thin film composite forward osmosis membrane
Tian EL, Wang XZ, Zhao YT, Ren YW |
