Effects of Ultrasonic Disintegration, Hot-Compressed Liquid Water Pre-Treatment, and Steam Explosion on Solvolysis and Digestibility Of Grain Sorghum Stover

Dániel Capári, A. Dallos
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Abstract

One of the most promising renewable energy crops and biomass feedstock for biogas production in Europe is the C4 plant grain sorghum due to its high photosynthetic efficiency. The release of lignocellulosic material and therefore the acceleration of degradation processes of sorghum stalks and leaves can be achieved using mechanical and thermal pretreatments, which assist to hydrolyse the cell walls and speed the solvolysis of biopolymers. This study is focused on hotcompressed liquid water, steam explosion and ultrasonic pre-treatments of grain sorghum stover. The effectiveness of pre-treatments was evaluated by means of soluble chemical oxygen demand, biochemical oxygen demand, and by the biogas and methane productivities. The results show that the pre-treatments disintegrated the lignocellulosic structure, increased and accelerated the biogas and methane production, and increased the mesophilic anaerobic digestion potential of grain sorghum stover. Our laboratory tests demonstrated that the steam exploded grain sorghum stover possess the highest biogas productivity.
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超声崩解、热压缩液态水预处理和蒸汽爆破对高粱秸秆溶解度和消化率的影响
由于其高光合效率,C4植物谷物高粱是欧洲最有前途的可再生能源作物和沼气生产的生物质原料之一。木质纤维素物质的释放,从而加速了高粱秸秆和叶片的降解过程,可以通过机械和热预处理来实现,这有助于水解细胞壁,加速生物聚合物的溶解。对高粱秸秆进行了热压缩液态水、蒸汽爆破和超声波预处理。通过可溶性化学需氧量、生化需氧量、沼气产率和甲烷产率评价预处理效果。结果表明:预处理使高粱秸秆的木质纤维素结构分解,增加和加速了沼气和甲烷的产量,提高了高粱秸秆的中温厌氧消化潜力。我们的实验室试验表明,蒸汽爆破高粱秸秆具有最高的沼气产量。
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