Pervaporation is the ideal membrane separation process to be coupled with photocatalysis for the green synthesis of vanillin from ferulic acid. In fact the operative conditions of the two processes are absolutely congruent and the integration is straightforward even operating with separate equipments. The utilization of a highly selective membrane allows the continuous recovery of vanillin by pervaporation from the reacting solution, so that its oxidative degradation is largely avoided and the yield is substantially enhanced. The effects of the main parameters are analyzed resorting to a mathematical model, which is validated by a comparison with the experimental data. In particular it is demonstrated that an optimal value of the ratio of the rate of pervaporation to the rate of reaction maximizes the ‘‘intensification’’ of the process. Other benefits of the integrated process, such as the complete retention of the photocatalytic powder in the reacting solution and high degree of purification of the product are presented and discussed.
G. Camera-Roda, V. Augugliaro, A. Cardillo, V. Loddo, G. Palmisano, L. Palmisano (2013). A pervaporation photocatalytic reactor for the green synthesis of vanillin. CHEMICAL ENGINEERING JOURNAL, 224, 136-143 [10.1016/j.cej.2012.10.037].
A pervaporation photocatalytic reactor for the green synthesis of vanillin
CAMERA RODA, GIOVANNI;CARDILLO, ANTONIO GAETANO;
2013
Abstract
Pervaporation is the ideal membrane separation process to be coupled with photocatalysis for the green synthesis of vanillin from ferulic acid. In fact the operative conditions of the two processes are absolutely congruent and the integration is straightforward even operating with separate equipments. The utilization of a highly selective membrane allows the continuous recovery of vanillin by pervaporation from the reacting solution, so that its oxidative degradation is largely avoided and the yield is substantially enhanced. The effects of the main parameters are analyzed resorting to a mathematical model, which is validated by a comparison with the experimental data. In particular it is demonstrated that an optimal value of the ratio of the rate of pervaporation to the rate of reaction maximizes the ‘‘intensification’’ of the process. Other benefits of the integrated process, such as the complete retention of the photocatalytic powder in the reacting solution and high degree of purification of the product are presented and discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.