Pyrolysis of municipal sewage sludge: challenges, opportunities and new valorization routes for biochar, bio-oil, and pyrolysis gas†

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Vincenzo Pelagalli, Michela Langone, Silvio Matassa, Marco Race, Riccardo Tuffi, Stefano Papirio, Piet N. L. Lens, Marco Lazzazzara, Alessandro Frugis, Luigi Petta and Giovanni Esposito
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Abstract

The efficient management of municipal sewage sludge (MSS) daily produced worldwide by biological wastewater treatment processes is nowadays of utmost importance. Classic treatment/disposal methods are affected by efficiency and/or safety issues. Innovative thermochemical treatments are gaining momentum as promising alternatives. Pyrolysis of MSS can result in the recovery of precious resources, such as nutrients and organic matter, and their conversion into three valuable fractions, i.e. biochar, bio-oil, and pyrolysis gas. These products are employable in innovative biorefinery pathways towards a wide range of value-added materials. In this review, an integrated biorefinery platform for MSS valorization is presented. After a brief introduction on MSS properties and issues related to its management, a deep focus on the influence that the feedstock and pyrolysis conditions have on the product yields and composition was conducted. Innovative valorization routes for biochar, bio-oil and pyrolysis gas were extensively discussed by highlighting challenges, opportunities, advantages and drawbacks. The characteristics required by these products to be efficiently valorized, as well as the main solution for their enhancement, were described. Additionally, economic considerations on MSS pyrolysis derived from full-scale applications conducted at the European and global level were elaborated. Finally, future perspectives about biochar, bio-oil and pyrolysis gas employment in cutting-edge upcycling routes have been reported.

Abstract Image

Abstract Image

城市污水污泥热解:生物炭、生物油和热解气体的挑战、机遇和新的价值化途径
如今,如何有效管理全世界每天通过生物废水处理工艺产生的城市污水污泥(MSS)至关重要。传统的处理/处置方法受到效率和/或安全问题的影响。创新的热化学处理方法作为一种有前途的替代方法,正日益受到重视。热解 MSS 可以回收营养物质和有机物等宝贵资源,并将其转化为三种有价值的馏分,即生物炭、生物油和热解气体。这些产品可用于创新的生物炼制途径,生产出多种增值材料。在本综述中,将介绍一个用于 MSS 价值化的集成生物精炼平台。在简要介绍了 MSS 的特性及其管理相关问题后,深入探讨了原料和热解条件对产品产量和成分的影响。通过强调挑战、机遇、优势和缺点,广泛讨论了生物炭、生物油和热解气体的创新价值化路线。还介绍了这些产品有效增值所需的特征,以及提高这些特征的主要解决方案。此外,还阐述了从欧洲和全球层面开展的大规模应用中得出的 MSS 热解的经济考虑因素。最后,报告了生物炭、生物油和热解气体在最先进的循环利用路线中的应用前景。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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