| 1 |
Cost and energy requirements of hybrid RO and ED brine concentration systems for salt production
Nayar KG, Fernandes J, McGovern RK, Dominguez KP, McCance A, Al-Anzi BS, Lienhard VJH
Desalination, 456, 97, 2019 |
| 2 |
Cost and energy needs of RO-ED-crystallizer systems for zero brine discharge seawater desalination
Nayar KG, Fernandes J, McGovern RK, Al-Anzi BS, Lienhard JH
Desalination, 457, 115, 2019 |
| 3 |
Comparison of membrane distillation and high-temperature nanofiltration processes for treatment of silica-saturated water
Bush JA, Vanneste J, Cath TY
Journal of Membrane Science, 570, 258, 2019 |
| 4 |
On the merits of using multi-stage and counterflow electrodialysis for reduced energy consumption
Chehayeb KM, Nayar KG, Lienhard JH
Desalination, 439, 1, 2018 |
| 5 |
Split-feed counterflow reverse osmosis for brine concentration
Bouma AT, Lienhard JHV
Desalination, 445, 280, 2018 |
| 6 |
Air gap membrane distillation for hypersaline brine concentration: Operational analysis of a full-scale module New strategies for wetting mitigation
Schwantes R, Bauer L, Chavan K, Duecker D, Felsmann C, Pfafferott J
Desalination, 444, 13, 2018 |
| 7 |
Optimal design and operation of electrodialysis for brackish-water desalination and for high-salinity brine concentration
Chehayeb KM, Farhat DM, Nayar KG, John HL
Desalination, 420, 167, 2017 |
| 8 |
Interlayer-free hybrid carbon-silica membranes for processing brackish to brine salt solutions by pervaporation
Yang H, Elma M, Wang DK, Motuzas J, da Costa JCD
Journal of Membrane Science, 523, 197, 2017 |
| 9 |
Hydrate dissociation induced by depressurization in conjunction with warm brine stimulation in cubic hydrate simulator with silica sand
Feng JC, Wang Y, Li XS
Applied Energy, 174, 181, 2016 |
| 10 |
Concentrating underground brine by FO process: Influence of membrane types and spacer on membrane scaling
Chen G, Wang ZW, Li XM, Song JF, Zhao BL, Phuntsho S, Shon HK, He T
Chemical Engineering Journal, 285, 92, 2016 |
