In-situ catalytic synergistic interaction between self-contained K and added Ni in biomass fast/slow pyrolysis

In-situ catalytic synergistic interaction between self-contained K and added Ni in biomass fast/slow pyrolysis

Interaction between AAEMs and added metals in biomass has been reflected in the form of "auxiliary agents", ignoring the influence of self-contained AAEMs and the migration and transformation of biomass on the added transition metals. The fast/slow pyrolysis experiments of biomass containi...

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Bibliographic Details
Published in:Renewable energy Vol. 222; p. 119889
Main Authors: Feng, Dongdong, Shang, Qi, Song, Yidan, Wang, Youxin, Cheng, Zhenyu, Zhao, Yijun, Sun, Shaozeng
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2024
Subjects:
Biomass pyrolysis
Nickel
Potassium
Synergistic interaction
Nickel
Synergistic interaction
Potassium
Biomass pyrolysis
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Summary:Interaction between AAEMs and added metals in biomass has been reflected in the form of "auxiliary agents", ignoring the influence of self-contained AAEMs and the migration and transformation of biomass on the added transition metals. The fast/slow pyrolysis experiments of biomass containing Ni and K were conducted in the fixed bed reactor, and the interaction mechanism between self-contained K and added Ni was simulated using DFT. The results show that Ni is mainly distributed on the surface of the solid carbon matrix through adsorption and aggregated into nickel crystal particles. K accumulates inside the carbon matrix as C–K or C–O–K. K enhances the catalytic activity of Ni by enhancing the binding ability of Ni and biochar (increased to 354.89 kJ/mol), electron inversion and deficient oxygen. This study provides new insights into the design of biomass catalysts and the utilization of biomass energy. [Display omitted]
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2023.119889