木质素
催化作用
苯甲醛
有机化学
化学
甘油
解聚
生物炼制
生物燃料
香兰素
原材料
制浆造纸工业
废物管理
工程类
作者
Chi Zhang,Xueru Sheng,Haiyuan Jia,Na Li,Jian Zhang,Bing Wang,Haiqiang Shi,Qingwei Ping,Ning Li
标识
DOI:10.1021/acssuschemeng.5c02247
摘要
This study aims to explore a lignin-based catalyst for the green synthesis of sustainable fuel additive using lignin-derived benzaldehyde and glycerol, byproducts from the paper industry and biodiesel preparation, respectively. This sustainable fuel additive can be refilled into biodiesel to improve the carbon atom economy, promoting resource efficiency and environmental sustainability. Kraft lignin was modified with phosphoric acid and sulfuric acid to prepare solid acid catalysts KL-HP-SO3H. A series of characterization techniques showed that phosphorylation can markedly enhance the specific surface area, while sulfonation can notably increase the acid sites and acid strength. The synergistic physical–chemical effect of phosphorylation and sulfonation collectively enhances the activity of the KL-HP-SO3H catalyst. In addition, ball milling and thermal catalysis were compared and analyzed in this study. The results show that the ball milling technology offers an advantage: it achieves a high product yield within only 15 min. The ball milling process consumes less energy than the hydrothermal reactor (21.3 vs 493.8 kWh·mol–1). From a long-term investment perspective, the ball milling process is economically superior. This study contributes an efficient catalyst strategy to green chemical synthesis while providing multifunctional utilization of lignin.
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