Alternatives study of pretreatment and hydrolysis of sugar cane bagasse and straw for cellulosic ethanol

After the oil crises occurred in the last century, many countries have been to develop new fuels to reduce dependence on this natural resource. Brazil was one of them and created the National Alcohol Program (Pro-álcool) to promote the production of ethanol. Today, more than 80% of the national vehicles run on ethanol or with a mixture of gasoline and ethanol. To supply the growing demand for ethanol, without it to affect the food production farmland, sources of lignocellulosic materials can be used in order to take advantage of the cellulosic fraction for production of fermentable sugar. This work had objective to evaluate the effect of pretreatment technologies of sugarcane byproducts (bagasse and straw), followed or not by a stage of delignification, on the cellulose enzymatic conversion of each biomass. The lignocellulosic materials were pretreated by steam explosion (bagasse), vapor impregnation (straw) and ultrasound (bagasse and straw). The steam explosion pretreatment was carried out in 5 m3 industrial reactor under the condition of 200 °C for 7 min, from Usinas de Açúcar, Álcool e Biodiesel Vale do Rosário. The steam impregnation pretreatment was carried out in 20 L reactor under conditions of 180, 185, 190, 195 °C for 10 min and 190 °C for 15 min. The ultrasound pretreatment was performed in the ultrasonic bath at 55 °C for 40 min and 40 kHz/120W radiation. The pretreated materials were deslignified on condition of 1% (w/v) NaOH, 100 °C for 1 h, using different sizes of reactors due to amount of biomass available. For the steam exploded bagasse, one stage of organosolv delignification was also tested varying the conditions in a L18 Taguchi matrix. The enzymatic hydrolysis tests were performed using Celluclast 1.5L (15 FPU/g of material) and ?-Glucosidase (10 IU/g of material). From three pretreatment techniques evaluated (steam explosion, steam impregnation and ultrasonic), only the vapor-based methods were efficient in the breakdown of the constituents of sugarcane byproducts. These methods were able to remove most of the hemicellulose (above 70%) and a part of the lignin (<40%), increasing the cellulose digestibility by cellulolytic enzymes (conversion 66-68%). The ultrasound pretreatment increases the recalcitrance of lignocellulosic materials both for the caustic soda and for cellulases. Therefore, this pretreatment method is not indicated, within the conditions range assessed, for a conversion process of sugarcane byproducts to fermentable sugars. The delignification stage with caustic soda was essential to increase the digestibility of lignocellulosic materials pretreated by steam explosion or ultrasound. However, for the straw pretreated hydrothermically, the alkaline extraction did not cause a positive effect on the enzymatic conversion of cellulose. Overall, it was observed that sugarcane bagasse has a slightly higher potential for conversion to fermentable sugars in relation to sugarcane straw. (AU)