Biocatalytic Behaviour of Immobilized Rhizopus oryzae Lipase in the 1,3-Selective Ethanolysis of Sunflower Oil to Obtain a Biofuel Similar to Biodiesel
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Author
Luna, Carlos
Verdugo-Escamilla, Cristóbal
Sancho Puebla, Enrique
Luna, Diego
Calero, Juan
Posadillo, Alejandro
Romero, Antonio A.
Bautista, Felipa M.
Publisher
MDPIDate
2014Subject
BiodieselImmobilization
Rhizopus oryzae lipase
Biolipase-R
Amorphous AlPO4/sepiolite
Demineralized sepiolite
Selective transesterification
Monoglyceride
Ecodiesel
Sunflower oil
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Show full item recordAbstract
A new biofuel similar to biodiesel was obtained in the 1,3-selective
transesterification reaction of sunflower oil with ethanol using as biocatalyst a Rhizopus
oryzae lipase (ROL) immobilized on Sepiolite, an inorganic support. The studied lipase
was a low cost powdered enzyme preparation, Biolipase-R, from Biocon-Spain, a
multipurpose additive used in food industry. In this respect, it is developed a study to
optimize the immobilization procedure of these lipases on Sepiolite. Covalent
immobilization was achieved by the development of an inorganic-organic hybrid linker
formed by a functionalized hydrocarbon chain with a pendant benzaldehyde, bonded to the
AlPO4 support surface. Thus, the covalent immobilization of lipases on amorphous
AlPO4/sepiolite (20/80 wt %) support was evaluated by using two different linkers
(p-hydroxybenzaldehyde and benzylamine-terephthalic aldehyde, respectively). Besides,
the catalytic behavior of lipases after physical adsorption on the demineralized sepiolite
was also evaluated. Obtained results indicated that covalent immobilization with the
p-hydroxybenzaldehyde linker gave the best biocatalytic behavior. Thus, this covalently immobilized lipase showed a remarkable stability as well as an excellent capacity of
reutilization (more than five successive reuses) without a significant loss of its initial
catalytic activity. This could allow a more efficient fabrication of biodiesel minimizing the
glycerol waste production