A Comprehensive Review of Syngas Production, Fuel Properties, and Operational Parameters for Biomass Conversion

IF 3 4区 工程技术 Q3 ENERGY & FUELS Energies Pub Date : 2024-07-24 DOI:10.3390/en17153646
S. Khlifi, Victor Pozzobon, M. Lajili
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Abstract

This study aims to provide an overview of the growing need for renewable energy conversion and aligns with the broader context of environmentally friendly energy, specifically through producing syngas from biomass. Unlike natural gas, which is mainly composed of methane, syngas contains a mixture of combustible CO, H2, and CnHm. Therefore, optimizing its production requires a thorough examination of various operational parameters such as the gasifying agent, the equivalence ratio, the biofuel type, and the state, particularly in densified forms like pellets or briquettes. As new biomass sources are continually discovered and tested, operational parameters are also constantly evaluated, and new techniques are continuously developed. Indeed, these techniques include different gasifier types and the use or non-use of catalysts during biofuel conversion. The present study focuses on these critical aspects to examine their effect on the efficiency of syngas production. It is worth mentioning that syngas is the primary gaseous product from gasification. Moreover, it is essential to note that the pyrolysis process (prior to gasification) can produce, in addition to tar and char, a mixture of gases. The common feature among these gases is their versatility in energy generation, heat production, and chemical synthesis. The analysis encompasses the resulting gas features, including the yield and composition, mainly through the hydrogen-to-carbon monoxide ratio and the carbon monoxide-to-carbon dioxide ratio, as well as the lower heating value and considerations of the tar yield.
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生物质转化过程中合成气生产、燃料特性和运行参数的全面回顾
本研究旨在概述日益增长的可再生能源转换需求,并与更广泛的环境友好型能源相一致,特别是从生物质中生产合成气。与主要由甲烷组成的天然气不同,合成气含有可燃 CO、H2 和 CnHm 的混合物。因此,要优化合成气的生产,需要对各种操作参数进行彻底检查,如气化剂、等量比、生物燃料类型和状态,尤其是颗粒或压块等致密形式。随着新生物质来源的不断发现和测试,操作参数也在不断评估,新技术也在不断开发。事实上,这些技术包括不同类型的气化炉,以及在生物燃料转化过程中使用或不使用催化剂。本研究将重点放在这些关键方面,研究它们对合成气生产效率的影响。值得一提的是,合成气是气化产生的主要气体产品。此外,必须指出的是,热解过程(气化之前)除了焦油和焦炭之外,还会产生混合气体。这些气体的共同特点是在能源生产、制热和化学合成方面的多功能性。分析包括所产生气体的特征,包括产量和成分,主要通过氢与一氧化碳的比率和一氧化碳与二氧化碳的比率,以及较低的热值和焦油产量的考虑。
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来源期刊
Energies
Energies ENERGY & FUELS-
CiteScore
6.20
自引率
21.90%
发文量
8045
审稿时长
1.9 months
期刊介绍: Energies (ISSN 1996-1073) is an open access journal of related scientific research, technology development and policy and management studies. It publishes reviews, regular research papers, and communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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