Biodiesel production by sulfated mesoporous titania-silica catalysts synthesized by the sol-gel process from less expensive precursors

Abstract

A sulfated titania-silica composite (S-TSC) was obtained through surface modification of mesoporous titania-silica composite synthesized using less expensive precursors; titanium oxychloride and sodium silicate as titania and silica sources respectively. A pre-formed titania sol facilitated the synthesis of a mesoporous composite with a high BET surface area (520 m(2)/g), suitable for surface modification using sulfuric acid to improve its catalytic performance. The materials synthesized via this process were examined by XRD, XRF, FTIR, SEM, TEM, TGA, and N-2 physisorption studies. FTIR analysis showed the vibration band of the Ti-O-Si bond at 943 cm(-1), suggesting the incorporation of titania into silica to form a composite. This vibration band was substantially shifted to 952 cm(-1) after the attachment of the sulfate group. The catalytic activity of a series of as-prepared TSC, S-TSC calcined samples and pure H2SO4 were evaluated for esterification of oleic acid and transesterification of waste oil with methanol to yield methyl esters. It was observed that at these reaction conditions, S-TSC-450 and S-TSC-550 possessed high catalytic activity comparable to that of pure H2SO4 implying that surface modification of the titania-silica composite improves its acidic properties. (C) 2012 Elsevier B.V. All rights reserved.