使用由蛋壳衍生的K-Sr/CaO和CaO催化剂通过菜籽油酯交换反应生产生物柴油

Biodiesel Production Using K-Sr/CaO and CaO Catalysts Derived from Eggshells by Canola Oil Transesterification.

作者信息

Tavizón-Pozos Jesús Andrés, Cervantes-Cuevas Humberto, Garcia-Camacho Germán Gustavo, Chavez-Esquivel Gerardo, Acosta-Najarro Dwight Roberto

机构信息

Investigadores por México SECIHTI-Área Académica de Química, Departamento de Ciencias Básicas, Universidad Autónoma Metropolitana Azcapotzalco, Avenue San Pablo No. 420, Nueva el Rosario, Azcapotzalco, Ciudad de México 02128, México.

Área Académica de Química, Departamento de Ciencias Básicas, Universidad Autónoma Metropolitana Azcapotzalco, Avenue San Pablo No. 420, Nueva el Rosario, Azcapotzalco, Ciudad de México 02128, México.

出版信息

ACS Omega. 2025 Feb 16;10(7):6827-6838. doi: 10.1021/acsomega.4c09118. eCollection 2025 Feb 25.

DOI:10.1021/acsomega.4c09118

PMID:40028090

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11866205/

Abstract

Eggshell calcination at 900 °C was used to produce CaO, which was afterward impregnated with K and Sr using KNO and SrCl·6HO precursors, diluted in methanol, to improve basicity, stability, and catalytic activity. The CaO doping with K-Sr affected the final catalyst's textural properties, alkalinity, and basic strength due to the K and Sr size and incorporation into the CaO lattice. SEM images with elemental mapping showed a uniform K and Sr distribution for the K-Sr/CaO catalyst. However, carbonization modified the basic strength and the number of catalytic sites. The fresh K-Sr/CaO and CaO catalysts presented 92.5% and 46% biodiesel yields, respectively. In the third reaction cycle, the biodiesel yield dropped to approximately 72% and 21%, respectively. In this sense, the method of doping CaO with K and Sr increased the basic strength and number of basic sites for the K-Sr/CaO catalyst, providing higher resistance to leaching compared to the CaO catalyst. Finally, the enhanced conditions were 7.0 wt % catalyst loading, a 12.5:1 methanol/oil molar ratio, 70 °C, and a 1 h reaction time.

摘要

在900℃下对蛋壳进行煅烧以制备CaO，随后使用KNO₃和SrCl₂·6H₂O前驱体在甲醇中稀释后对CaO进行K和Sr的浸渍，以提高其碱性、稳定性和催化活性。由于K和Sr的尺寸以及它们掺入CaO晶格中，K-Sr对CaO的掺杂影响了最终催化剂的织构性质、碱度和碱强度。带有元素映射的扫描电子显微镜图像显示K-Sr/CaO催化剂中K和Sr分布均匀。然而，碳化改变了碱强度和催化位点的数量。新鲜的K-Sr/CaO和CaO催化剂的生物柴油产率分别为92.5%和46%。在第三个反应循环中，生物柴油产率分别降至约72%和21%。从这个意义上说，用K和Sr掺杂CaO的方法提高了K-Sr/CaO催化剂的碱强度和碱性位点数量，与CaO催化剂相比，具有更高的抗浸出性。最后，优化的条件为催化剂负载量7.0 wt%、甲醇/油摩尔比12.5:1、70℃和反应时间1小时。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/338d/11866205/a94885a46e51/ao4c09118_0001.jpg

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使用由蛋壳衍生的K-Sr/CaO和CaO催化剂通过菜籽油酯交换反应生产生物柴油

Biodiesel Production Using K-Sr/CaO and CaO Catalysts Derived from Eggshells by Canola Oil Transesterification.

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