生物油酯化-加氢提质制备醇酯类燃料

作为清洁可再生的化石燃料取代燃料,生物油的酸性及不稳定性是阻碍其规模化应用的主要障碍之一。该文基于生物油高酮、醛及酸类含量,研究了生物油轻质组分分步酯化加氢(SHE,separated esterification and hydrogenation)、一步酯化加氢(OEH,one step esterification-hydrogenation)及一步酯化加氢后二次加氢(OEH plus,one step esterification-hydrogenation plus second hydrogenation process)的提质过程,考察了钼改性雷尼镍催化剂(Mo-RN,Mo-Ra...

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Published in农业工程学报 Vol. 32; no. 5; pp. 263 - 267
Main Author 常佳敏 徐莹 马隆龙 王铁军 张琦 陈冠益
Format Journal Article
LanguageChinese
Published 天津大学环境学院/内燃机燃烧学国家重点实验室,天津 300072 2016
中国科学院广州能源研究所,中国科学院可再生能源实验室,广州 510640%中国科学院广州能源研究所,中国科学院可再生能源实验室,广州 510640%天津大学环境学院/内燃机燃烧学国家重点实验室,天津,300072
Subjects
一步/分步酯化加氢
加氢
油脂
燃料
饱和醇酯
油脂
saturate alcohol & ester
燃料
加氢
oils and fats
fuels
one step/separate esterification hydrogenation
饱和醇酯
一步/分步酯化加氢
hydrogenation
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ISSN1002-6819
DOI10.11975/j.issn.1002-6819.2016.05.038

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Summary:作为清洁可再生的化石燃料取代燃料,生物油的酸性及不稳定性是阻碍其规模化应用的主要障碍之一。该文基于生物油高酮、醛及酸类含量,研究了生物油轻质组分分步酯化加氢(SHE,separated esterification and hydrogenation)、一步酯化加氢(OEH,one step esterification-hydrogenation)及一步酯化加氢后二次加氢(OEH plus,one step esterification-hydrogenation plus second hydrogenation process)的提质过程,考察了钼改性雷尼镍催化剂(Mo-RN,Mo-Raney Ni)及Ru/C催化剂催化生物油制备醇类燃料的重复使用性能,并研究了酯化-加氢反应过程及反应路径。结果表明,生物油经不同酯化-加氢方法处理后,饱和醇酯含量均显著提高,生物油品质得到改善。其中以OEH plus提质处理后的生物油产物中,饱和醇、酯含量最高,分别达74.21%和9.96%。此外,提质后的生物油p H值及酸量下降最为显著,生物油的p H值由反应前的3.67提高到5.88,酸量由111.52 mg/g降至11.75 mg/g。Mo-RN及Ru/C催化剂在酯化-加氢路径下的重复使用性能良好,催化活性均无明显降低。试验证明利用酯化-加氢提质生物油为生物油精制制备含氧燃料提供有效途径。
Bibliography:11-2047/S
As a clean sustainable substitute for fossil fuel, bio-oil has properties of acidity and instability, which affected its large scale application. Based on its high acid, ketone, aldehyde and phenol content, three processes for the bio oil upgrading were investigated: Separated esterification and hydrogenation(SHE), one step esterification-hydrogenation(OEH), and one step esterification-hydrogenation plus second hydrogenation process(OEH plus). The studies were conducted over Mo modified Raney Ni catalyst(Mo-RN) and Ru/C catalyst with the light fraction of sawdust fast pyrolysis oil as feedstock. The catalysts reuse performance and the reaction pathways of the typical components during the bio-oil upgrading process were also studied. For the SEH process, esterification reaction was conducted without catalysts, and the hydrogenation reaction of the produced esterification bio-oil were carried out over Mo-RN and Ru/C respectively. For the OEH process, methanol and the raw bio-oil were reacted over Mo-RN
ISSN:1002-6819
DOI:10.11975/j.issn.1002-6819.2016.05.038