能源环境保护2024,Vol.38Issue(2):114-122,9.DOI:10.20078/j.eep.20240208
反应温度对Mo/Al2O3催化碱木质素生物油加氢脱氧影响研究
Effect of reaction temperature on Mo/Al2O3 catalytic hydrodeoxygenation of alkali lignin bio-oils
摘要
Abstract
Alkali lignin,an important source of industrial lignin,can be used for producing aromatic com-ponents in biofuels while retaining its aromatic ring structure through hydrothermal liquefaction technology.The temperature during the reaction process significantly influences the bio-oil yield and composition.This study investigates the impact of reaction temperature on the oil yield and aromatics yield in the preparation of bio-oil through hydrothermal liquefaction of alkali lignin catalyzed by Mo/Al2O3.The study's findings re-vealed that the oil yield initially increased and then decreased with increasing temperature,reaching its highest value at 280 ℃.As the temperature increased,the O/C ratio of the bio-oil continuously decreased to a minimum of 0.22.In contrast,the H/C ratio steadily increased to a maximum of 1.14.Additionally,the high calorific value steadily increased to a maximum of 30.41 MJ/kg.These results indicated that higher temperatures contributed to improving the fuel properties of the bio-oil.However,increasing the temperature was not conducive to the enrichment of aromatic components in the bio-oil.The higher the temperature,the lower the relative content of aromatic compounds and the higher the content of phenolic compounds in the bio-oil.The study observed that the relative content of aromatics reached its peak value of 34.1%at 260 ℃ when 15%Mo/Al2O3 was added as a catalyst.At this temperature,the selectivity to toluene in the aromatics product was as high as 97.7%,indicating the optimal enrichment of aromatics.In summary,the study dem-onstrates that the temperature during the hydrothermal liquefaction process of alkali lignin affects both the bio-oil yield and composition.While higher temperatures enhance the oil yield and fuel properties of the bio-oil,they also reduce the relative content of aromatic compounds.The addition of Mo/Al2O3 as a catalyst at an appropriate temperature can promote the enrichment of aromatics,where toluene is the dominant product.关键词
碱木质素/水热液化/生物油/芳香烃/加氢脱氧/反应温度Key words
Alkali lignin/Hydrothermal liquefaction/Bio-oil/Aromatic hydrocarbons/Hydrodeoxy-genation/Reaction temperature分类
资源环境引用本文复制引用
曹鹤,杨天华,李秉硕,张海军,佟瑶..反应温度对Mo/Al2O3催化碱木质素生物油加氢脱氧影响研究[J].能源环境保护,2024,38(2):114-122,9.基金项目
国家自然科学基金资助项目(52176195) (52176195)
辽宁省"兴辽英才计划"资助项目(XLYC200512) (XLYC200512)
