Catalytic pyrolysis of torrefied biomass with molecular sieve catalysts to produce hydrocarbon rich biocrude

IF 2.1 4区 环境科学与生态学 Q3 ENGINEERING, CHEMICAL Environmental Progress & Sustainable Energy Pub Date : 2024-06-09 DOI:10.1002/ep.14446
Ranjita Singh, Sivasankar Kakku, Khushee Shah, Xiaolei Zhang, Abhishek Sharma, Nandana Chakinala, Anand G. Chakinala
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Abstract

The downstream processing of biocrudes obtained from direct biomass pyrolysis poses significant challenges due to stability issues, necessitating costly upgrading for further coprocessing with refinery feeds. This study examines the impact of torrefaction pretreatment on pyrolysis product distribution and biocrude composition using sawdust (SD) and groundnut shell (GS) feeds. Torrefaction was conducted at varying temperatures (200, 250 and 300°C) for 30 min under different reactor conditions. Increasing the severity of torrefaction resulted in decreased biocrude yields with reduced water content and gas formation, particularly evident with GS. A torrefaction temperature of 250°C and 30 min of pretreatment yielded higher phenolics and hydrocarbons. This increase in phenolics can be attributed to lignin enrichment during torrefaction, which, in the presence of a catalyst, undergoes deoxygenation leading to hydrocarbon formation. The influence of feed particle size, whether in powder or pellet form, on biocrude yield and composition was found to be minimal. Catalytic pyrolysis of SD using molecular sieve catalysts yielded the highest hydrocarbon (42%) and aromatic content (44%) at catalyst to biomass ratios of 1:1 and 2:3. The combination of torrefaction and pyrolysis was shown to enhance the quality of biocrude by increasing its hydrocarbon content, but at the expense of lower liquid yields. Experimental observations were supported by statistical analysis tools such as principal component analysis, which assessed pyrolysis product yields and composition.

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利用分子筛催化剂催化热解焦化生物质以生产富含碳氢化合物的生物原油
由于生物质直接热解产生的生物原油存在稳定性问题,其下游加工过程面临巨大挑战,因此必须进行成本高昂的升级,以便与炼油厂原料进行进一步的共处理。本研究使用锯屑(SD)和花生壳(GS)为原料,考察了热解预处理对热解产物分布和生物原油成分的影响。在不同的反应器条件下,在不同的温度(200、250 和 300°C)下进行了 30 分钟的预热。增加热干化的程度会导致生物原油产量下降,含水量和气体形成减少,这一点在 GS 中尤为明显。250°C 的预处理温度和 30 分钟的预处理可产生更高的酚类和碳氢化合物。酚类物质的增加可归因于在高温分解过程中木质素的富集,在催化剂的作用下,木质素发生脱氧反应,从而形成碳氢化合物。无论是粉末还是颗粒形式的原料粒度,对生物原油产量和成分的影响都很小。使用分子筛催化剂对 SD 进行催化热解,在催化剂与生物质的比例为 1:1 和 2:3 时,碳氢化合物(42%)和芳烃含量(44%)最高。研究表明,将热解和高温分解结合起来可提高生物原油的碳氢化合物含量,从而提高生物原油的质量,但其代价是液体产量较低。主成分分析等统计分析工具评估了热解产品的产量和成分,为实验观察提供了支持。
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来源期刊
Environmental Progress & Sustainable Energy
Environmental Progress & Sustainable Energy 环境科学-工程:化工
CiteScore
5.00
自引率
3.60%
发文量
231
审稿时长
4.3 months
期刊介绍: Environmental Progress , a quarterly publication of the American Institute of Chemical Engineers, reports on critical issues like remediation and treatment of solid or aqueous wastes, air pollution, sustainability, and sustainable energy. Each issue helps chemical engineers (and those in related fields) stay on top of technological advances in all areas associated with the environment through feature articles, updates, book and software reviews, and editorials.
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