利用废弃咖啡渣制备的活性炭净化受铜污染的生物柴油：吸附性能调控、间歇式和固定床研究

Purification of Biodiesel Polluted by Copper Using an Activated Carbon Prepared from Spent Coffee Grounds: Adsorption Property Tailoring, Batch and Packed-Bed Studies.

作者信息

Cárdenas-Piñeros Daniel Eduardo, Reynel-Ávila Hilda Elizabeth, Díaz-Muñoz Lizbeth Liliana, Bonilla-Petriciolet Adrián, Durán-Valle Carlos Javier, Adame-Pereira Marta

机构信息

Tecnológico Nacional de México-Instituto Tecnológico de Aguascalientes, Aguascalientes 20256, Mexico.

CONAHCYT-Consejo Nacional de Humanidades, Ciencias y Tecnologías, Ciudad de México 03940, Mexico.

出版信息

Molecules. 2025 Jan 22;30(3):483. doi: 10.3390/molecules30030483.

DOI:10.3390/molecules30030483

PMID:39942589

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11820585/

Abstract

Biodiesel produced via oil transesterification often contains metallic impurities, such as copper, which affects its quality and engine performance. This study explores the use of activated carbon prepared from spent coffee grounds to remove copper from biodiesel. Activated carbon samples were prepared via biomass pyrolysis and chemical activation with KOH and HNO. The optimal conditions for copper adsorption were determined using a Taguchi L9 design. Maximum adsorption capacities were 13.4 and 17.3 mg/g at 30 and 40 °C, respectively, in batch adsorbers. In packed-bed columns, the axial dispersion reduced the adsorption efficiency obtaining bed adsorption capacities from 1.9 to 5.1 mg/g under tested experimental conditions. Adsorbent characterization and adsorption modeling indicated that copper removal was driven by multi-cationic interactions, where carboxylic groups from carbon surface acted as key active sites. The new adsorbent outperformed commercial bone char, making it a cost-effective alternative to improve biodiesel production contributing to the energy matrix diversification.

摘要

通过油的酯交换反应生产的生物柴油通常含有金属杂质，如铜，这会影响其质量和发动机性能。本研究探索使用由废弃咖啡渣制备的活性炭从生物柴油中去除铜。活性炭样品通过生物质热解以及用氢氧化钾和硝酸进行化学活化来制备。使用田口L9设计确定了铜吸附的最佳条件。在间歇式吸附器中，在30℃和40℃时最大吸附容量分别为13.4和17.3毫克/克。在填充床柱中，轴向扩散降低了吸附效率，在测试的实验条件下获得的床层吸附容量为1.9至5.1毫克/克。吸附剂表征和吸附建模表明，铜的去除是由多阳离子相互作用驱动的，其中碳表面的羧基作为关键活性位点。这种新型吸附剂性能优于商业骨炭，使其成为一种具有成本效益的替代品，有助于改善生物柴油生产，促进能源矩阵多样化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/121a/11820585/fc1b385f9627/molecules-30-00483-g001.jpg

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Purification of Biodiesel Polluted by Copper Using an Activated Carbon Prepared from Spent Coffee Grounds: Adsorption Property Tailoring, Batch and Packed-Bed Studies.利用废弃咖啡渣制备的活性炭净化受铜污染的生物柴油：吸附性能调控、间歇式和固定床研究

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利用废弃咖啡渣制备的活性炭净化受铜污染的生物柴油：吸附性能调控、间歇式和固定床研究

Purification of Biodiesel Polluted by Copper Using an Activated Carbon Prepared from Spent Coffee Grounds: Adsorption Property Tailoring, Batch and Packed-Bed Studies.

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