Zirā̒at va Fanāvarī-i Za̒farān (Sep 2017)
Green fuel production from saffron waste by dilute acid hydrolysis
Abstract
In this study, the dilute acid Hydrolysis of saffron waste as a lignocellulose biomass for fermentable sugar production as a green fuel is investigated. Saffron plant waste was collected, washed with distilled water, dried by being exposed to air and sunlight, milled by a disk mill up to 50 micrometers and kept in plastic at room temperature. The prepared biomass was heated in a specified acidic solution for a predetermined time period in the autoclave. The influences of 3 major parameters including temperature, acid concentration and time on the produced fermentable sugar is investigated by the response surface method. According to previous studies, the levels for pretreatment were: temperature (116, 124, 132, and 140oC), process time (20, 30, 40, and 50 minute and sulfuric acid concentration (0, 1, 2, and 3%). To determine the type and quantity of products, the filtered solution was analyzed by HPLC and the results (glucose, xylose and furfural) were modeled by a quadratic equation. This model showed that glucose concentration was influenced by the quadratic power of acid concentration and time while xylose concentration was influenced by time and furfural depends on time alone. It may be concluded that high acid concentration, low temperature and medium time could produce maximum products (glucose and xylose) with minimum inhibitor (furfural).
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