生物量(生态学)
化学
热解
tar(计算)
生物炼制
废物管理
生物能源
制浆造纸工业
生化工程
生物质气化
生物燃料
营养物
环境化学
环境科学
生物质转化为液体
光合作用
作者
Leoncio Santiago-Martínez,Styliani Avraamidou,Alejandro Ayala-Cortés,Ruth Azike,Santanu Bakshi,Chumki Banik,Ezra Bar-Ziv,Emmanuel Canales,Torren R. Carlson,James A. Dumesic,Jordan Lee Klinger,Jung Min Lee,Fei Long,Armando G. McDonald,Sonali Mohapatra,Rebecca G. Ong,Luisiana Fabiola Palomo González,Xuejun Pan,Nepu Saha,Marco Antonio Sanchez Castillo
出处
期刊:Chemical Reviews
[American Chemical Society]
日期:2026-04-08
卷期号:126 (8): 4511-4591
被引量:3
标识
DOI:10.1021/acs.chemrev.5c00784
摘要
Biomass contains up to 14 essential elements that serve as nutrients for plant growth and development, including photosynthesis and enzyme functionalities. These elements in different chemical forms (e.g., minerals) constitute the inorganic fraction of biomass and can cause operational issues in thermal and biochemical biomass conversion technologies. In biomass gasification and pyrolysis processes, for instance, inorganics can cause fouling, tar formation, and corrosion. In catalytic and biochemical processes, inorganics can poison catalysts, alter biochemical pathways, and modify product yields and selectivity. This review provides an overview of the inorganic content in biomass feedstocks, the critical role inorganics play in plant biochemistry, the effect that inorganics have in various thermochemical and biochemical biomass conversion technologies, and different approaches to remove them from biomass. We provide recommendations for future research, focusing on developing technologies to effectively remove inorganics from biomass, using the inorganics to improve soil quality and for alternative applications, and designing biorefineries to convert demineralized biomass obtained from diverse sources.
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