Catalytic hydrothermal carbonization of wet organic solid waste: A review

Hydrothermal carbonization has gained attention in converting wet organic solid waste into hydrochar with many applications such as solid fuel, energy storage material precursor, fertilizer or soil conditioner. Recently, various catalysts such as organic and inorganic catalysts are employed to guide...

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Veröffentlicht in:The Science of the total environment 2023-05, Vol.873, p.162119-162119, Article 162119
Hauptverfasser: Djandja, Oraléou Sangué, Liew, Rock Keey, Liu, Chang, Liang, Jianhao, Yuan, Haojun, He, Weixin, Feng, Yifei, Lougou, Bachirou Guene, Duan, Pei-Gao, Lu, Xuebin, Kang, Shimin
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Sprache:eng
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Zusammenfassung:Hydrothermal carbonization has gained attention in converting wet organic solid waste into hydrochar with many applications such as solid fuel, energy storage material precursor, fertilizer or soil conditioner. Recently, various catalysts such as organic and inorganic catalysts are employed to guide the properties of the hydrochar. This review presents a summarize and a critical discussion on types of catalysts, process parameters and catalytic mechanisms. The catalytic impact of carboxylic acids is related to their acidity level and the number of carboxylic groups. The catalysis level with strong mineral acids is likely related to the number of hydronium ions liberated from their hydrolysis. The impact of inorganic salts is determined by the Lewis acidity of the cation. The metallic ions in metallic salts may incorporate into the hydrochar and increase the ash of the hydrochar. The selection of catalysts for various applications of hydrochars and the environmental and the techno-economic aspects of the process are also presented. Although some catalysts might enhance the characteristics of hydrochar for various applications, these catalysts may also result in considerable carbon loss, particularly in the case of organic acid catalysts, which may potentially ruin the overall advantage of the process. Overall, depending on the expected application of the hydrochar, the type of catalyst and the amount of catalyst loading requires careful consideration. Some recommendations are made for future investigations to improve laboratory-scale process comprehension and understanding of pathways as well as to encourage widespread industrial adoption. [Display omitted] •Reaction mechanisms and catalytic impacts are discussed.•Catalysts affect features of the process and hydrochar through various mechanisms.•Citric acid and FeCl3 have gained increased attention.•Hydrochar yield, chemical composition, porosity and surface features are affected.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2023.162119