机译:通过磷酸钾和镁改性生物炭修正的香蒲嗜热厌氧消化增强的生物甲烷生产。
Department of Natural Resources and Environmental Design North Carolina Agricultural and Technical State University 1601 East Market Street Greensboro NC 27411 USA;
Department of Natural Resources and Environmental Design North Carolina Agricultural and Technical State University 1601 East Market Street Greensboro NC 27411 USA;
Department of Natural Resources and Environmental Design North Carolina Agricultural and Technical State University 1601 East Market Street Greensboro NC 27411 USA;
Department of Natural Resources and Environmental Design North Carolina Agricultural and Technical State University 1601 East Market Street Greensboro NC 27411 USA;
Department of Natural Resources and Environmental Design North Carolina Agricultural and Technical State University 1601 East Market Street Greensboro NC 27411 USA;
Department of Natural Resources and Environmental Design North Carolina Agricultural and Technical State University 1601 East Market Street Greensboro NC 27411 USA;
Anaerobic digestion; Potassium phosphate biochar; Mg-doped biochar; Particle size; Typha;
机译:嗜热两级厌氧消化池经过为期一年的半连续操作,并改良了生物炭,以提高生物甲烷的产生
机译:香蒲的厌氧厌氧消化和消化液的水热碳化,以共同生产生物甲烷和水焦
机译:玉米秸秆和牛粪的两阶段高温厌氧消化,以提高生物甲烷的产生
机译:含酒精生物液体促进的污水污泥和CO_2的共同发酵:在两阶段厌氧消化过程中提高生物甲烷的产生
机译:生物炭作为添加剂增强厌氧消化中的生物甲烷电位的应用
机译:通过内源性纤维素分解酶原位厌氧消化处理提高了木质纤维素青贮饲料草的生物甲烷生产率和产量
机译:通过玉米秸秆生物炭加强初级污泥的厌氧消化的优质培养基生产