Acid-Assisted Organosolv Pre-Treatment and Enzymatic Hydrolysis of <i>Cynara cardunculus</i> L. for Glucose Production
Mattia Gelosia,
Alessandro Bertini,
Marco Barbanera,
Tommaso Giannoni,
Andrea Nicolini,
Franco Cotana,
Gianluca Cavalaglio
Affiliations
Mattia Gelosia
CIRIAF (Inter-University Research Center on Pollution and Environment “Mauro Felli”), Biomass Research Centre, University of Perugia, via G. Duranti 63, 06125 Perugia, Italy
Alessandro Bertini
CIRIAF (Inter-University Research Center on Pollution and Environment “Mauro Felli”), Biomass Research Centre, University of Perugia, via G. Duranti 63, 06125 Perugia, Italy
Marco Barbanera
University of Tuscia, Largo dell’Università, s.n.c., Loc. Riello, 01100 Viterbo, Italy
Tommaso Giannoni
CIRIAF (Inter-University Research Center on Pollution and Environment “Mauro Felli”), Biomass Research Centre, University of Perugia, via G. Duranti 63, 06125 Perugia, Italy
Andrea Nicolini
CIRIAF (Inter-University Research Center on Pollution and Environment “Mauro Felli”), Biomass Research Centre, University of Perugia, via G. Duranti 63, 06125 Perugia, Italy
Franco Cotana
CIRIAF (Inter-University Research Center on Pollution and Environment “Mauro Felli”), Biomass Research Centre, University of Perugia, via G. Duranti 63, 06125 Perugia, Italy
Gianluca Cavalaglio
CIRIAF (Inter-University Research Center on Pollution and Environment “Mauro Felli”), Biomass Research Centre, University of Perugia, via G. Duranti 63, 06125 Perugia, Italy
Lignocellulosic biomass is a non-edible feedstock that can be used in integrated biorefinery for the production of biochemicals and biofuel. Among lignocellulosic biomass, Cynara cardunculus L. (cardoon) is a promising crop thanks to its low water and fertilizer demand. Organosolv is a chemical treatment that uses numerous organic or aqueous solvent mixtures, and a small amount of acid catalyst, in order to solubilize the lignin and hemicellulose fractions, making the cellulose accessible to hydrolytic enzymes. Lignocellulosic residues of cardoon underwent a two-step treatment process to obtain fermentable glucose. In the first step, the milled biomass was subjected to microwave-assisted extraction using an acidified γ-valerolactone (GVL)/water mixture, yielding a solid cellulose pulp. In the second step, the pre-treated material was hydrolyzed by cellulolytic enzymes to glucose. The first step was optimized by means of a two-level full factorial design. The investigated factors were process temperature, acid catalyst concentration, and GVL/water ratio. A glucose production equal to 30.17 g per 100 g of raw material (89% of the maximum theoretical yield) was achieved after conducting the first step at 150 °C using an acidified water solution (1.96% H2SO4w/w).
