TY - JOUR

T1 - Structural development of asymmetric cellulose acetate microfiltration membranes prepared by a single-layer dry-casting method

AU - Sossna, Melanie

AU - Hollas, Markus

AU - Schaper, Jörg

AU - Scheper, Thomas

PY - 2006/11/24

Y1 - 2006/11/24

N2 - Asymmetric membrane structures provide greater permeability due to reduced flow resistance and more efficient separation. The aim of this study was to produce a cellulose acetate (CA) microfiltration membrane with an asymmetric structure that combines a prefilter layer and selective layer in one membrane and, secondarily, to investigate how the new CA-based solvent system for manufacturing membranes affects membrane morphology. Asymmetric CA microfiltration membranes were prepared by a single-layer dry-casting process using a pseudo-ternary mixture of CA, methyl formate (MF), 2-propanol and water. The resulting membranes consisted of two isotropic regions with almost uniform pore size covered by a protective skin. Unlike other asymmetric membranes, the selective layer of these developed CA microfiltration membranes faced the solid-liquid interface, while the upper region facing the liquid-gas interface exhibited larger pore sizes. The top layer acted like a prefilter, and the denser bottom layer like a selective layer. Structural studies of the membranes were conducted by scanning electron microscopy. The membrane structures identified are discussed in detail and a theory about the events taking place in the casting solution during membrane formation.

AB - Asymmetric membrane structures provide greater permeability due to reduced flow resistance and more efficient separation. The aim of this study was to produce a cellulose acetate (CA) microfiltration membrane with an asymmetric structure that combines a prefilter layer and selective layer in one membrane and, secondarily, to investigate how the new CA-based solvent system for manufacturing membranes affects membrane morphology. Asymmetric CA microfiltration membranes were prepared by a single-layer dry-casting process using a pseudo-ternary mixture of CA, methyl formate (MF), 2-propanol and water. The resulting membranes consisted of two isotropic regions with almost uniform pore size covered by a protective skin. Unlike other asymmetric membranes, the selective layer of these developed CA microfiltration membranes faced the solid-liquid interface, while the upper region facing the liquid-gas interface exhibited larger pore sizes. The top layer acted like a prefilter, and the denser bottom layer like a selective layer. Structural studies of the membranes were conducted by scanning electron microscopy. The membrane structures identified are discussed in detail and a theory about the events taking place in the casting solution during membrane formation.

KW - Cellulose acetate

KW - Dry-casting process

KW - Membrane morphology

KW - Microfiltration

KW - Morphological studies

UR - http://www.scopus.com/inward/record.url?scp=33846785584&partnerID=8YFLogxK

U2 - 10.1016/j.memsci.2006.11.024

DO - 10.1016/j.memsci.2006.11.024

M3 - Article

AN - SCOPUS:33846785584

VL - 289

SP - 7

EP - 14

JO - Journal of membrane science

JF - Journal of membrane science

SN - 0376-7388

IS - 1-2

ER -