The effect of mechanical pretreatment on the anaerobic digestion of Hybrid Pennisetum.

Flow diagram of mechanical pretreatment and anaerobic digestion of Hybrid pennisetum. • Effects of particle size reductions on digestion of Hybrid pennistum was studied. • Changes were observed in chemical composition and CH 4 yield of different particles. • The highest methane yield 291.9 ± 4.7 mL/g VS was obtained in a size below 0.380 mm. • Excessive size reduction didn't improve CH 4 yield but enhanced the AD efficiency. This study investigated the effect of particle size on the performance of anaerobic digestion of Hybrid Pennisetum. Hybrid Pennisetum was ground and sieved to provide different particle sizes between 0.180 and 1.000 mm. Characterization of the different particle sizes suggested that the composition of ground Hybrid Pennisetum altered-carbohydrate content decreased and lignin content increased with a decrease in particle size. The highest specific methane yield was 291.9 ± 4.7 mL CH 4 ·g−1 VS at a particle size of 0.250–0.380 mm and this value plateaued as the particle size was reduced to below 0.250 mm. Excessive size reduction did not improve the methane yield but did result in a reduction of digestion time by 28.6–35.7%. The net energy output from the process was calculated at 300 kWh/t VS. Therefore, grinding was proved to enhance the anaerobic fermentation efficiency and energy output of Hybrid Pennisetum. [ABSTRACT FROM AUTHOR]