机译:屈服水热碳化和污水消化厌氧消化:水热处理时间对脱水性和生物甲烷生产的影响
Department of Civil Environmental and Mechanical Engineering University of Trento Via Mesiano 77 38123 Trento Italy Public Works Department Faculty of Engineering Ain Shams University 1 ElSarayat St. Abassia Cairo Egypt;
Department of Civil Environmental and Mechanical Engineering University of Trento Via Mesiano 77 38123 Trento Italy;
Public Works Department Faculty of Engineering Ain Shams University 1 ElSarayat St. Abassia Cairo Egypt Egypt Solid Waste Management Center of Excellence Ain Shams University 1 ElSarayat St. Abassia Cairo Egypt;
Public Works Department Faculty of Engineering Ain Shams University 1 ElSarayat St. Abassia Cairo Egypt;
Department of Civil Environmental and Mechanical Engineering University of Trento Via Mesiano 77 38123 Trento Italy;
Hydrothermal carbonization; Sewage digestate; Sludge dewaterability; Biochemical methane potential; Sludge management;
机译:消化温度和有机负荷率对污泥水热炭化工艺液连续厌氧处理的影响
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:污水污泥的水热碳化与厌氧消化耦合:污泥管理和能源回收的综合方法
机译:酸性洗涤剂纤维在水热预处理污泥对厌氧消化过程中的影响
机译:多种废物流厌氧消化液水热碳化的整体模型。
机译:综合厌氧消化和水热碳化生物能源生产的评价。
机译:通过水热碳化优化厌氧消化液中养分和碳的回收以及工艺参数影响的研究