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Evaluation of the operating parameters for the separation of xylitol from a mixed sugar solution by using a polyethersulfone nanofiltration membrane Faneer KA, Rohani R, Mohammad AW, Ba-Abbad MM Korean Journal of Chemical Engineering, 34(11), 2944, 2017 |
102 |
Preparation of mesh-reinforced cellulose acetate forward osmosis membrane with very low surface roughness Mirkhalili SM, Mousavi SA, Abadi ARS, Sadeghi M Korean Journal of Chemical Engineering, 34(12), 3170, 2017 |
103 |
Dual-layered nanocomposite substrate membrane based on polysulfone/graphene oxide for mitigating internal concentration polarization in forward osmosis Lim S, Park MJ, Phuntsho S, Tijing LD, Nisola GM, Shim WG, Chung WJ, Shon HK Polymer, 110, 36, 2017 |
104 |
A predictive model of separations in dead-end filtration with ultrathin membranes Smith KJP, May M, Baltus R, McGrath JL Separation and Purification Technology, 189, 40, 2017 |
105 |
On the polarization loss induced by thermal expansion in solid oxide fuel cells Niu YH, Lv WQ, Wen KC, Shi XY, Luo RP, He WD Solid State Ionics, 311, 63, 2017 |
106 |
Concentrating Membrane Proteins Using Ultrafiltration Without Concentrating Detergents Feroz H, Vandervelden C, Ikwuagwu B, Ferlez B, Baker CS, Lugar DJ, Grzelakowski M, Golbeck JH, Zydney AL, Kumar M Biotechnology and Bioengineering, 113(10), 2122, 2016 |
107 |
Ultrafiltration of Highly Concentrated Antibody Solutions: Experiments and Modeling for the Effects of Module and Buffer Conditions Binabaji E, Ma JF, Rao S, Zydney AL Biotechnology Progress, 32(3), 692, 2016 |
108 |
Effect of operating conditions on biofouling in reverse osmosis membrane processes: Bacterial adhesion, biofilm formation, and permeate flux decrease Saeki D, Karkhanechi H, Matsuura H, Matsuyama H Desalination, 378, 74, 2016 |
109 |
Concentration polarization effect and preferable membrane configuration at pressure-retarded osmosis operation Nguyen TPN, Jun BM, Park HG, Han SW, Kim YK, Lee HK, Kwon YN Desalination, 389, 58, 2016 |
110 |
Computational fluid dynamics (CFD) based modelling of osmotic energy generation using pressure retarded osmosis (PRO) Wang Y, He W, Zhu H Desalination, 389, 98, 2016 |