| 1 - 1 |
Nanofiltration membranes
Mohammad AW |
| 2 - 17 |
Removal of heavy metal ions by nanofiltration
Al-Rashdi BAM, Johnson DJ, Hilal N |
| 18 - 26 |
Comparative study of NF and RO membranes in the treatment of produced water-Part I: Assessing water quality
Alzahrani S, Mohammad AW, Hilal N, Abdullah P, Jaafar O |
| 27 - 32 |
Comparative study of NF and RO membranes in the treatment of produced water II: Toxicity removal efficiency
Alzahrani S, Mohammad AW, Hilal N, Abdullah P, Jaafar O |
| 33 - 36 |
Application of nanofiltration for reuse of municipal wastewater and quality analysis of product water
Bunani S, Yorukoglu E, Sert G, Yuksel U, Yuksel M, Kabay N |
| 37 - 45 |
Prediction of single salt rejection by NF membranes: An experimental methodology to assess physical parameters from membrane and streaming potentials
Deon S, Escoda A, Fievet P, Salut R |
| 46 - 60 |
Transmission of p-anisic acid through nanofiltration and goat membranes
Gandhi PJ, Murthy ZVP |
| 61 - 69 |
Crossed mixture-process design approach to model nanofiltration rejection for non-dilute multi-ionic solutions in a given range of solution compositions
Gozalvez-Zafrilla JM, Santafe-Moros A, Garcia-Diaz JC |
| 70 - 75 |
Application of the Spiegler-Kedem-Kachalsky model to the removal of 4-chlorophenol by different nanofiltration membranes
Hidalgo AM, Leon G, Gomez M, Murcia MD, Gomez E, Gomez JL |
| 76 - 82 |
Nanofiltration of partial oxidation products and copper from catalyzed wet peroxidation of phenol
Inchaurrondo N, Haure P, Font J |
| 83 - 90 |
Permeation of organic solutes in water-ethanol mixtures with nanofiltration membranes
Labanda J, Sabate J, Llorens J |
| 91 - 99 |
Desalination of effluents with highly concentrated salt by nanofiltration: From laboratory to pilot-plant
Luo JQ, Wan YH |
| 100 - 106 |
Investigation of the dielectric properties of nanofiltration membranes
Oatley DL, Llenas L, Aljohani NHM, Williams PM, Martinez-Llado X, Rovira M, de Pablo J |
| 107 - 114 |
Optimization of TiO2 modified poly(vinyl alcohol) thin film composite nanofiltration membranes using Taguchi method
Pourjafar S, Jahanshahi M, Rahimpour A |
| 115 - 123 |
Study on the behavior of nanofiltration membranes using for chromium(III) recovery from salt mixture solution
Religa P, Kowalik-Klimczak A, Gierycz P |
| 124 - 134 |
Influence of low and high molecular weight compounds on the permeate flux decline in nanofiltration of red grape must
Salgado C, Palacio L, Carmona FJ, Hernandez A, Pradanos P |
| 135 - 141 |
Preparation and characterization of PPEES/chitosan composite nanofiltration membrane
Shenvi SS, Rashid SA, Ismail AF, Kassim MA, Isloor AM |
| 142 - 148 |
Threshold flux measurements of a nanofiltration membrane module by critical flux data conversion
Stoller M, Bravi M, Chianese A |
| 149 - 155 |
Fouling of nanofiltration membrane: Effects of NOM molecular weight and microcystins
Teixeira MR, Sousa VS |
| 156 - 163 |
Effect of amine salt surfactants on the performance of thin film composite poly(piperazine-amide) nanofiltration membranes
Xiang J, Xie ZL, Hoang M, Zhang KS |
| 164 - 172 |
Thin-film composite nanofiltration membranes with improved acid stability prepared from naphthalene-1,3,6-trisulfonylchloride (NTSC) and trimesoyl chloride (TMC)
Yu SC, Zhou Q, Shuai S, Yao GH, Ma M, Gao CJ |
