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机译:对消化液进行水热后处理,以使微藻厌氧消化的甲烷产量最大化
The Research and Technology Center for Renewable Products and Energy, King Mongkut’s University of Technology North Bangkok;
Anaerobic technologies and bioprocess control Group, Energy, Mining and Environment Portfolio, National Research Council Canada;
Anaerobic technologies and bioprocess control Group, Energy, Mining and Environment Portfolio, National Research Council Canada;
Anaerobic technologies and bioprocess control Group, Energy, Mining and Environment Portfolio, National Research Council Canada;
The Research and Technology Center for Renewable Products and Energy, King Mongkut’s University of Technology North Bangkok,Department of Chemical Engineering, Faculty of Engineering, King Mongkut’s University of Technology North Bangkok;
Anaerobic technologies and bioprocess control Group, Energy, Mining and Environment Portfolio, National Research Council Canada;
Microalgae; Scenedesmus; Solubilization; Wet oxidation; Hydrothermal carbonization; Biomethane; Anaerobic digestion;
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
机译:丝状微藻作为具有增强甲烷生产和消化脱水性的有利的植物,在猪粪的厌氧共消化中
机译:碳阴性生物甲烷燃料生产:将厌氧消化与藻类辅助沼气纯化和消解水热碳化
机译:具有复合有机基材的厌氧共同消化动物粪便的实验和预测的甲烷产量
机译:城市固体废物有机部分的高固体厌氧消化技术发展水平,佛罗里达州的展望,并提高木质纤维素废物的甲烷产量
机译:污泥接种物和有机原料对厌氧消化过程中活性微生物群落和甲烷产量的影响
机译:非无菌固体消化的真菌预处理以提高甲烷产量和厌氧消化的可持续性