固定化四丁基铵氨基酸离子液体作为异相催化剂用于利用小球藻生产生物柴油

IF 5.5 Q1 ENGINEERING, CHEMICAL
Virginia A H G Danarti , Noraini Abd Ghani , Ariyanti Sarwono , Noorhafizah Bt Hasanudin
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引用次数: 0

摘要

离子液体(ILs)是温度低于 100 °C 的熔盐,可用作生物柴油生产的催化剂。然而,迄今为止,由于其实用性问题,将离子液体用作催化剂仍是一个谜。将 ILs 固定在废弃生物质固体载体上可提高其实施的可持续性。本研究的重点是在竹活性炭(BAC)上合成固定化四丁基铵氨基酸离子液体(TBA AAILs),作为从绿藻中提取的脂肪酸酯交换反应的催化剂。通过中和反应合成了四丁基铵与精氨酸、组氨酸和赖氨酸配对的三种 AAILs,并通过湿法浸渍将其固定在竹质活性炭上。之后,以粗壮蘑菇为原料进行微波辅助酯交换反应。TBA AAIL 的浸渍改变了 BAC 的形态、化学成分和表面积。与[TBA][Arg]/BAC 和[TBA][Lys]/BAC 相比,[TBA][His]/BAC 的影响更大,其表面积减少了 35 m2/g,孔体积减少了 0.020 cm3/g,最初 BAC 的表面积为 842 m2/g,孔体积为 0.387 cm3/g。采用 Box-Behnken 方法进行优化后,使用 20 % [TBA][His]/BAC(催化剂用量为 3 %)和 21 gs 甲醇,在 80 °C 下反应 48 分钟,可获得 81.9 % 的最高 FAME 收率,并可重复使用三次。与 TBA AAILs 相比,固定化 TBA AAILs/BAC 可将 IL 的消耗量降低 10 倍,并获得更高的产率,为传统 ILs 催化剂提供了一种可持续的替代品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Immobilized tetrabutylammonium amino acid ionic liquids as heterogeneous catalyst in biodiesel production from Chlorella vulgaris
Ionic liquids (ILs) are molten salts below 100 °C with the ability to be used as a catalyst for biodiesel production. However, to this date, the implementation of ILs as catalysts remains an enigma due to their practicability. Immobilizing ILs onto waste biomass solid support may improve the sustainability of its implementation. This study is focused on synthesizing immobilized tetrabutylammonium amino acid ionic liquids (TBA AAILs) onto bamboo activated carbon (BAC) as catalysts in transesterification of fatty acids extracted from Chlorella vulgaris. Three AAILs, consisting of tetrabutylammonium paired with arginine, histidine, and lysine, were synthesized via neutralization reaction and immobilized onto BAC through wet impregnation method. Thereafter, microwave-assisted transesterification was performed with C. vulgaris as a feedstock. Impregnation of TBA AAILs caused modifications on morphology, chemical composition, and surface area of the BAC. [TBA][His]/BAC had greater impact compared to [TBA][Arg]/BAC and [TBA][Lys]/BAC, where it reduced the surface area up to 35 m2/g and pore volume to 0.020 cm3/g, initially BAC's surface area are 842 m2/g and pore volume of 0.387 cm3/g. Optimization with the Box-Behnken method achieved the highest yield 81.9 % FAME using 20 % [TBA][His]/BAC with 3 % of catalyst dosage and 21 gs of methanol at 80 °C for 48 mins with three times reusability. The immobilized TBA AAILs/BAC reduced IL consumption by 10 times and obtained comparatively higher yield than TBA AAILs, providing a sustainable alternative to conventional ILs catalyst.
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来源期刊
Chemical Engineering Journal Advances
Chemical Engineering Journal Advances Engineering-Industrial and Manufacturing Engineering
CiteScore
8.30
自引率
0.00%
发文量
213
审稿时长
26 days
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