51 |
Parametric analyses of energy consumption and losses in SWCCSWRO plants utilizing energy recovery devices Farooque AM, Jamaluddin ATM, Al-Reweli AR, Jalaluddin PAM, Al-Marwani SM, Al-Mobayed AA, Qasim AH Desalination, 219(1-3), 137, 2008 |
52 |
Pilot study of inside-out and outside-in hollow fiber UF modules as direct pretreatment of seawater at low temperature for reverse osmosis Xu J, Ruan GL, Gao XL, Pan XH, Su BW, Gao CJ Desalination, 219(1-3), 179, 2008 |
53 |
SWRO process simulator Stover RL Desalination, 221(1-3), 126, 2008 |
54 |
Electrodialytic boron removal from SWRO permeate Turek M, Bandura B, Dydo P Desalination, 223(1-3), 17, 2008 |
55 |
The removal of boron from model solutions and seawater using reverse osmosis membranes Koseoglu H, Kabay N, Yuksel M, Kitis M Desalination, 223(1-3), 126, 2008 |
56 |
Boron removal from seawater using high rejection SWRO membranes -impact of pH, feed concentration, pressure, and cross-flow velocity Koseoglu H, Kabay N, Yuksel M, Sarp S, Arar O, Kitis M Desalination, 227(1-3), 253, 2008 |
57 |
Myth and reality of the hybrid desalination process Kamal I Desalination, 230(1-3), 269, 2008 |
58 |
High pH operation in seawater reverse osmosis permeate: First results from the world's largest SWRO plant in Ashkelon Gorenflo A, Brusilovsky M, Faigon M, Liberman B Desalination, 203(1-3), 82, 2007 |
59 |
Three year operational experience of a spiral-wound SWRO system with a high fouling potential feed water Reverberi F, Gorenflo A Desalination, 203(1-3), 100, 2007 |
60 |
Seawater reverse osmosis with isobaric energy recovery devices Stover RL Desalination, 203(1-3), 168, 2007 |