H.J. Zwijnenberg scite author profile

The separation of different vegetable oil/solvent mixtures with two types of nanofiltration membranes was studied. One type had a PEBAX [poly(amide-b-ether) copolymer] top layer, and the other had a cellulose-type top layer. These membranes were stable in acetone, ethanol, 2-propanol, and hexane, all important to the oleochemical industry. Permeabilities were highest for acetone, ±140 L/m 2 · h · MPa, and lowest for hexane, which had negligible flux at 2 MPa. Permeabilities decreased with increasing triglyceride or free fatty acid (FFA) concentration. Rejection of triglycerides was constant over the concentration range tested, about 80-95% ± 5%, depending on the type of membrane used. These properties make membranes applicable for separating triglycerides from acetone by enhancing acetone recovery. Deacidification of triglycerides and FFA mixtures was possible (e.g., fatty acids were retained less than triglycerides). The permeate consisted almost entirely of fatty acids in acetone, and only small traces of triglycerides were found. This makes it feasible to selectively remove the fatty acids and reduce loss of triglycerides normally associated with deacidification.Paper no. J8866 in JAOCS 76, 83-87 (January 1999). FIG. 2. Permeability of acetone and 2-propanol (IPA) and rejection of free fatty acids (FFA) in acetone for the PEBAX (Batch 1) membrane vs. pressure, measured at 20°C. Permeability (L/m 2 • h • bar) Pressure (MPa) Rejection (%)

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Solar driven membrane pervaporation for desalination processes

Zwijnenberg

Koops

Weßling

2005

Journal of Membrane Science

103

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H.J. Zwijnenberg

Native protein recovery from potato fruit juice by ultrafiltration

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Acetone‐stable nanofiltration membranes in deacidifying vegetable oil

Solar driven membrane pervaporation for desalination processes

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