Oxidative torrefaction and torrefaction-based biorefining of biomass: a critical review

IF 14.4 Q1 ENERGY & FUELS
U. M. A. Devaraja, Chamini Lakshika Wickramarathna Dissanayake, D. Gunarathne, Wei-hsin Chen
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引用次数: 16

Abstract

Torrefaction is a vital pretreatment technology for thermochemical biorefinery applications like pyrolysis, gasification, and liquefaction. Oxidative torrefaction, an economical version of torrefaction, has recently gained much attention in the renewable energy field. Recent literature on inert and oxidative torrefaction was critically reviewed in this work to provide necessary guidance for future research and commercial implementations. The critical performance parameters of torrefaction for thermochemical biorefinery applications, such as solid yield, energy yield, carbon enhancement, higher heating value (HHV) enhancement, and energy-mass co-benefit index (EMCI), were also analyzed. Agricultural waste, woody biomass, and microalgae were considered. The analysis reveals that woody biomass could equally benefit from oxidative or inert torrefaction. In contrast, inert torrefaction was found more suitable for agricultural wastes and microalgae. Using flue gas as the oxidative torrefaction medium and waste biomass as the feedstock could achieve a circular economy, improving the sustainability of oxidative torrefaction for thermochemical biorefineries. The significant challenges in oxidative torrefaction include high ash content in torrefied agricultural waste, the oxidative thermal runaway of fibrous biomass during torrefaction, temperature control, and scale-up in reactors. Some proposed solutions to address these challenges are combined washing and torrefaction pretreatment, balancing oxygen content, temperature, and residence time, depending on the biomass type, and recirculating torrefaction gases.
生物质氧化焙烧和基于焙烧的生物精炼:综述
在热解、气化、液化等热化学生物炼制应用中,焙烧是一项重要的预处理技术。氧化焙烧作为一种经济的焙烧方式,近年来在可再生能源领域受到了广泛的关注。在这项工作中,对惰性和氧化焙烧的最新文献进行了严格的审查,为未来的研究和商业实施提供必要的指导。分析了热化学生物炼制应用中焙烧的关键性能参数,如固体产率、能量产率、碳增强、高热值(HHV)增强和能量质量协同效益指数(EMCI)。考虑了农业废弃物、木质生物质和微藻。分析表明木质生物质可以同样受益于氧化或惰性烘烤。相比之下,惰性焙烧法更适合于农业废弃物和微藻。利用烟气作为氧化焙烧介质,废生物质作为原料,可以实现循环经济,提高热化学生物精炼厂氧化焙烧的可持续性。氧化焙烧技术面临的重大挑战包括:焙烧农业废弃物的高灰分含量、纤维生物质在焙烧过程中的氧化热失控、温度控制以及反应器的放大。针对这些挑战,一些建议的解决方案是将洗涤和焙烧预处理结合起来,根据生物质类型平衡氧含量、温度和停留时间,以及循环焙烧气体。
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来源期刊
CiteScore
22.10
自引率
1.50%
发文量
15
审稿时长
8 weeks
期刊介绍: Biofuel Research Journal (BRJ) is a leading, peer-reviewed academic journal that focuses on high-quality research in the field of biofuels, bioproducts, and biomass-derived materials and technologies. The journal's primary goal is to contribute to the advancement of knowledge and understanding in the areas of sustainable energy solutions, environmental protection, and the circular economy. BRJ accepts various types of articles, including original research papers, review papers, case studies, short communications, and hypotheses. The specific areas covered by the journal include Biofuels and Bioproducts, Biomass Valorization, Biomass-Derived Materials for Energy and Storage Systems, Techno-Economic and Environmental Assessments, Climate Change and Sustainability, and Biofuels and Bioproducts in Circular Economy, among others. BRJ actively encourages interdisciplinary collaborations among researchers, engineers, scientists, policymakers, and industry experts to facilitate the adoption of sustainable energy solutions and promote a greener future. The journal maintains rigorous standards of peer review and editorial integrity to ensure that only impactful and high-quality research is published. Currently, BRJ is indexed by several prominent databases such as Web of Science, CAS Databases, Directory of Open Access Journals, Scimago Journal Rank, Scopus, Google Scholar, Elektronische Zeitschriftenbibliothek EZB, et al.
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