Development KCl/CaO as a catalyst for biodiesel production by tri-component coupling transesterification

摘要

In this research, the optimized experimental conditions to obtain CaO supported KCl (KCl/CaO) as an efficient heterogeneous basic catalyst to produce no-glycerol biodiesel using tri-component (canola oil, dimethyl carbonate [DMC], and methanol) coupling transesterification was established. The solid base catalyst was prepared by wet impregnation of CaO in KCl solution and calcination subsequently, which greatly improved the reaction efficiency with high biodiesel yield of 96.4% at only 2 h. The KCl/CaO was characterized by techniques, such as BET surface area, XRD, CO2-TPD, and SEM. Then, it was observed that the KCl introduced not only differed from CaO particles in the surface area and number of basic sites but also changed its base strength significantly. To obtain an improvement in conversion of canola oil, the influence on the catalytic performance of several kinetic parameters, such as mass ratio of catalyst to oil, reaction time, and molar ratio of methanol/oil/DMC were evaluated separately.