Auteur(s): Saidani Hafedh, Ben Amar Nihel, Palmeri J., Deratani Andre
(Article) Publié: Langmuir, vol. 26 p.2574-2583 (2010)
Ref HAL: hal-00439696_v1
PMID 19810684
DOI: 10.1021/la9028723
WoS: 000274342200059
Exporter : BibTex | endNote
35 Citations
Résumé:
The thin active layer (TAL) of seven nanofiltration (NF) membranes was studied using differential scanning calorimetry, and the membranes were classified into two groups according to the polymer physical state (amorphous or semicrystalline). NF membrane performance in terms of permeate volume flux density and rejection OF neutral solutes was investigated in temperature cycles. The modeling of rejection using a hindered transport theory showed irreversible and opposite pore size changes for the two groups of NF membranes when the maximum operating temperature of the cycle exceeded the glass-transition temperature of the TAL. A mechanism of pore deformation is proposed to explain the variation of the solute transport properties as a function of the temperature and the polymer physical state in the TAL.