纤维素
水热碳化
热液循环
碳纤维
材料科学
化学工程
生物炼制
环境压力
碳化
化学
复合材料
原材料
复合数
有机化学
热力学
工程类
物理
扫描电子显微镜
作者
Shijie Yu,Xinyue Dong,Peng Zhao,Zhicheng Luo,Zhuohua Sun,Xiaoxiao Yang,Qinghai Li,Lei Wang,Yanguo Zhang,Hui Zhou
标识
DOI:10.1038/s41467-022-31352-x
摘要
The temperature and pressure of the hydrothermal process occurring in a batch reactor are typically coupled. Herein, we develop a decoupled temperature and pressure hydrothermal system that can heat the cellulose at a constant pressure, thus lowering the degradation temperature of cellulose significantly and enabling the fast production of carbon sub-micron spheres. Carbon sub-micron spheres can be produced without any isothermal time, much faster compared to the conventional hydrothermal process. High-pressure water can help to cleave the hydrogen bonds in cellulose and facilitate dehydration reactions, thus promoting cellulose carbonization at low temperatures. A life cycle assessment based on a conceptual biorefinery design reveals that this technology leads to a substantial reduction in carbon emissions when hydrochar replacing fuel or used for soil amendment. Overall, the decoupled temperature and pressure hydrothermal treatment in this study provides a promising method to produce sustainable carbon materials from cellulose with a carbon-negative effect.
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