Industrial pretreatment of lignocellulosic biomass: A review of the early and recent efforts to scale-up pretreatment systems and the current challenges

IF 5.8 2区 生物学 Q1 AGRICULTURAL ENGINEERING Biomass & Bioenergy Pub Date : 2024-10-13 DOI:10.1016/j.biombioe.2024.107426
Marcelo B.W. Saad , Adilson R. Gonçalves
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Abstract

Renewable alternatives to fossil fuels are now a worldwide effort, and biofuels can play an essential role in a sustainable energy matrix. The great potential of lignocellulosic biomass as feedstock for bioethanol production has been underexplored due to technological barriers and the costs involved. However, a new chapter in this history has been written recently after eight different biomass-to-ethanol processes achieved the industrial scale, leading bioethanol technologies to a new step of maturity due to challenges faced and lessons learned. The pretreatment of biomass has been recognized as the most complex step in the cellulosic ethanol production processes and the reason for the failure of some industrial initiatives. Pretreatment represents an essential process to prepare lignocellulosic material for subsequent hydrolysis and fermentation, and this review aims to describe the early and recent efforts to scale-up pretreatment systems and the current challenges of pretreatment operations. Since the early 2010s, a global running for cellulosic ethanol resulted in eight industrial facilities around the world; agricultural residues like corn stover, corn cob, wheat straw, sugarcane bagasse, and sugarcane straw were used by POET-DSM, Raízen, Beta Renewables, GranBio, Abengoa, DuPont, Clariant, and Longlive Bio-tech as feedstock for bioethanol production. Pretreatment technologies, including diluted acid, steam explosion, dilute ammonia, and mechanical refining, were then experienced industrially through batch or continuous systems performed in one or two conversion stages. The pretreatment systems employed by each cellulosic biorefinery are analyzed in this review, and the process conditions and strategies applied are discussed based on public information available. Furthermore, a historical background of the early developments of acid hydrolysis of cellulose and the transition to the modern pretreatment concept is provided. Typical batch reactors employed during the 1900s were replaced by continuous reactors aiming for high productivity. An overview of digesting systems used by the pulp and paper industry is explored, which were initially developed for pulping and recently adapted to perform biomass pretreatment. Special attention is paid to describing vertical and horizontal continuous digesters and mechanical disc refiners, the leading equipment used in industrial pretreatment systems. Additionally, current pretreatment challenges are discussed based on pilot and industrial experience. Biorefineries faced low throughput capacity due to unstable operation and high wear damage to equipment caused by mineral impurities. The impact of feedstock quality and preconditioning processes on pretreatment operation is also reviewed. Feedstock collection, storage, and cleaning have been considered critical operations for a successful pretreatment process; best practices from the non-wood pulping industry are analyzed, providing an important reference for biorefineries. Challenges related to pretreatment uptime, throughput, and yield are considered, and the control of residence time in horizontal continuous reactors is discussed. Finally, recent biorefinery experiences resulted in significant progress for industrial pretreatment's learning curve; this review contributes to consolidating the knowledge generated by these pioneer initiatives while this unique technology continues to evolve.
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木质纤维素生物质的工业预处理:回顾扩大预处理系统规模的早期和近期努力以及当前挑战
目前,全世界都在努力用可再生的方式替代化石燃料,而生物燃料可以在可持续能源组合中发挥重要作用。由于技术障碍和成本问题,木质纤维素生物质作为生物乙醇生产原料的巨大潜力一直未得到充分发掘。然而,最近在八种不同的生物质制乙醇工艺达到工业化规模后,这一历史写下了新的篇章,由于面临的挑战和吸取的经验教训,生物乙醇技术迈向了成熟的新台阶。生物质预处理被认为是纤维素乙醇生产工艺中最复杂的步骤,也是一些工业项目失败的原因。预处理是为后续水解和发酵准备木质纤维素材料的重要过程,本综述旨在介绍早期和近期在扩大预处理系统规模方面所做的努力,以及当前预处理操作所面临的挑战。自 2010 年代初以来,全球范围内对纤维素乙醇的争夺导致在世界各地建立了八家工业设施;POET-DSM、Raízen、Beta Renewables、GranBio、Abengoa、杜邦、科莱恩和 Longlive Bio-tech 将玉米秸秆、玉米芯、小麦秸秆、甘蔗渣和甘蔗秸秆等农业残留物用作生物乙醇生产的原料。预处理技术包括稀酸、汽爆、稀氨和机械精炼,然后通过批量或连续系统在一个或两个转化阶段进行工业化体验。本综述分析了各纤维素生物精炼厂采用的预处理系统,并根据公开信息讨论了所采用的工艺条件和策略。此外,还介绍了纤维素酸水解的早期发展以及向现代预处理概念过渡的历史背景。20 世纪使用的典型间歇式反应器被以高生产率为目标的连续式反应器所取代。书中概述了纸浆和造纸工业所使用的消化系统,这些系统最初是为制浆而开发的,最近才被改造用于生物质预处理。其中特别介绍了立式和卧式连续消化器以及机械圆盘磨浆机,它们是工业预处理系统中使用的主要设备。此外,还根据试验和工业经验讨论了当前预处理所面临的挑战。由于运行不稳定以及矿物杂质对设备造成的高磨损,生物精炼厂面临着生产能力低的问题。此外,还探讨了原料质量和预处理工艺对预处理操作的影响。原料收集、储存和清洁被认为是预处理工艺成功的关键操作;分析了非木材制浆行业的最佳实践,为生物炼油厂提供了重要参考。还考虑了与预处理正常运行时间、吞吐量和产量有关的挑战,并讨论了水平连续反应器中停留时间的控制。最后,最近的生物炼制经验使工业预处理的学习曲线取得了重大进展;在这一独特技术不断发展的同时,本综述有助于巩固这些先驱举措所产生的知识。
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来源期刊
Biomass & Bioenergy
Biomass & Bioenergy 工程技术-能源与燃料
CiteScore
11.50
自引率
3.30%
发文量
258
审稿时长
60 days
期刊介绍: Biomass & Bioenergy is an international journal publishing original research papers and short communications, review articles and case studies on biological resources, chemical and biological processes, and biomass products for new renewable sources of energy and materials. The scope of the journal extends to the environmental, management and economic aspects of biomass and bioenergy. Key areas covered by the journal: • Biomass: sources, energy crop production processes, genetic improvements, composition. Please note that research on these biomass subjects must be linked directly to bioenergy generation. • Biological Residues: residues/rests from agricultural production, forestry and plantations (palm, sugar etc), processing industries, and municipal sources (MSW). Papers on the use of biomass residues through innovative processes/technological novelty and/or consideration of feedstock/system sustainability (or unsustainability) are welcomed. However waste treatment processes and pollution control or mitigation which are only tangentially related to bioenergy are not in the scope of the journal, as they are more suited to publications in the environmental arena. Papers that describe conventional waste streams (ie well described in existing literature) that do not empirically address ''new'' added value from the process are not suitable for submission to the journal. • Bioenergy Processes: fermentations, thermochemical conversions, liquid and gaseous fuels, and petrochemical substitutes • Bioenergy Utilization: direct combustion, gasification, electricity production, chemical processes, and by-product remediation • Biomass and the Environment: carbon cycle, the net energy efficiency of bioenergy systems, assessment of sustainability, and biodiversity issues.
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