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Effects of Fe<sup>3+</sup> on Hydrothermal Humification of Agricultural Biomass

Xiong‐Xin Peng, Shuang Gai, Zhuqing Liu, Kui Cheng, Fan Yang

2023ChemSusChem19 citationsDOI

Abstract

Abstract Hydrothermal humification technology for the preparation of artificial humic matters provides a new strategy, greatly promoting the natural maturation process. Iron, as a common metal, is widely used in the conversion of waste biomass; however, the influence of Fe 3+ on hydrothermal humification remains unknown. In this study, FeCl 3 is used to catalyze the hydrothermal humification of corn straw, and the influence of Fe 3+ on the hydrothermal humification is explored by a series of characterization techniques. Results show that Fe 3+ as the catalyst can promote the decomposition of corn straw, shorten the reaction time from 24 h to 6 h, and increase the yield from 6.77 % to 14.08 %. However, artificial humic acid (A‐HA) obtained from Fe 3+ ‐catalysis hydrothermal humification contains more unstable carbon and low amount of aromatics, resulting in a significantly decreased stability of the artificial humic acid. These results provide theoretical guidance for regulating the structure and properties of artificial humic acid to meet various maintenance needs.

Topics & Concepts

HumusHydrothermal circulationHumic acidChemistryDecompositionBiomass (ecology)StrawCatalysisYield (engineering)Carbon fibersEnvironmental chemistryChemical engineeringOrganic chemistryInorganic chemistryMaterials scienceEnvironmental scienceAgronomySoil waterSoil scienceBiologyMetallurgyComposite materialEngineeringFertilizerComposite numberThermochemical Biomass Conversion ProcessesSubcritical and Supercritical Water ProcessesComposting and Vermicomposting Techniques
Effects of Fe<sup>3+</sup> on Hydrothermal Humification of Agricultural Biomass | Litcius