4.8 Article

Surface chemical promotion of Ca oxide catalysts in biodiesel production reaction by the addition of monoglycerides, diglycerides and glycerol

Journal

JOURNAL OF CATALYSIS
Volume 276, Issue 2, Pages 229-236

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcat.2010.09.016

Keywords

Biodiesel; CaO; Ca glyceroxides; DRIFT spectroscopy; Promotion

Funding

  1. Spanish Ministerio de Ciencia e Innovacion [ENE2009-12743-C04-01]
  2. Consejeria de Educacion of the Autonomous Government of Madrid

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Recently we have found that forming a slurry by mixing Ca oxide with biodiesel (approximately 10-15 g of biodiesel per gram of Ca oxide) results both in protection against poisoning by atmospheric CO2 and H2O and when the slurry is used as a catalyst in a remarkable increase in reaction rate [M Lopez Granados et al Energy Fuel 23 (2009) 2259-2263] By conducting catalytic tests and DRIFT studies with either sunflower oil or model compounds revealed that the presence of minute amounts of monoglycerides (MG) and/or diglycerides (DG) in the biodiesel were the reason for the reaction rate promotion To observe this effect the Ca oxide-biodiesel slurry must be pretreated with methanol for a few minutes before proceeding with the transesterification reaction The DRIFT studies demonstrated that the transesterification of MG and DG during the pretreatment with methanol results in the releasing of glycerol which then reacts with the catalyst surface resulting in the formation of very active surface Ca glyceroxide species In view of this information It was also demonstrated that the two-step procedure of mixing biodiesel with the catalyst and then carrying out methanol pretreatment could be substituted with pretreatment of the Ca oxide with methanol containing a few milligrams of glycerol per gram of Ca oxide before proceeding with the reaction In this latter case the slurry was not required The DRIFT studies demonstrated that this simpler pretreatment also resulted in the formation of very active surface Ca glyceroxide species (C) 2010 Elsevier Inc All rights reserved

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