TY - JOUR AB - Triacylglycerols recovery from wet microalgae is a key aspect of biodiesel production, because of the energetic balance gained from avoiding biomass drying. In order to isolate TAG from Nannochloropsis cells, the possibility to concentrate biomass and to recover TAG in a single step by membrane process was studied. Different polymeric membranes were selected and screened on the basis of adsorption test and permeation flux. Results showed that membrane of regenerated cellulose (RC) with nominal molecular weight cutoff of 100 kDa and 30 kDa gave the best performance. Indeed, permeate flux was stable during ultrafiltration experiment in concentration mode and no severe fouling/cake deposition was observed. Both membranes allowed to recover permeates with high content of triacylglicerols. However, a more purity of the triacylglicerols from the other co-products was only obtained with the 30 kDa RC membrane because the retention of the unwanted proteins was in the range of 89%. (C) 2013 Published by Elsevier Ltd. AN - WOS:000321089300025 AU - Giorno, F. AU - Mazzei, R. AU - Giorno, L. DA - Jul DO - 10.1016/j.biortech.2013.04.073 J2 - Bioresource Technol KW - membrane LA - English N1 - 173or PY - 2013 SN - 0960-8524 SP - 172-178 ST - Purification of triacylglycerols for biodiesel production from Nannochloropsis microalgae by membrane technology T2 - Bioresource Technology TI - Purification of triacylglycerols for biodiesel production from Nannochloropsis microalgae by membrane technology UR - ://WOS:000321089300025 VL - 140 ID - 8716 ER -