Recent advances in waste-based and natural zeolitic catalytic materials for biodiesel production

D. Marinković, S. Pavlović
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Abstract

Considering the current world crisis and definite future energy challenges, biomass-to-fuel transformation is increasingly becoming important both to the policy makers and to the industry. In this perspective, the valorisation of oils and fats via transesterification/esterification reaction is an attractive method for producing biodiesel with qualities suitable for diesel engines. The recent interest indicated a significant shift to industrial waste valorisation as another approach for achieving process eco-efficiency. In this respect, the use of zeolite-based catalysts for the production of biofuels is reviewed here, with a special emphasis on the utilization of waste raw materials following the principles of green chemistry and sustainable development. Zeolites are interesting due to their outstanding catalytic properties, including the presence of intrinsic acid sites, simple loading of base sites, shape-selectivity, and high thermal stability. Neat zeolites or modified by the loading of active species are classified into several groups following their origin. For each group, the most relevant recent results reported in the literature are reviewed together with some critical considerations on the catalyst effectiveness, stability, reusability, and economy of synthesis. As an important part required for understanding and optimization of the biodiesel production process, the mechanisms of the reaction were discussed in detail. Finally, key perspective directions for further research studies were carefully identified and elaborated.
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生物柴油用废物基和天然沸石催化材料的研究进展
考虑到当前的世界危机和未来明确的能源挑战,生物质燃料转型对政策制定者和行业都变得越来越重要。从这个角度来看,通过酯交换/酯化反应使油脂增值是生产适合柴油发动机的生物柴油的一种有吸引力的方法。最近的兴趣表明,工业废物增值作为实现过程生态效率的另一种方法的重大转变。在这方面,本文综述了沸石基催化剂在生物燃料生产中的应用,特别强调了按照绿色化学和可持续发展原则利用废旧原料。沸石具有优异的催化性能,包括固有酸位的存在、简单的碱位负载、形状选择性和高热稳定性。纯沸石或经活性物质负载改性的沸石按其来源可分为几类。对于每一组,最相关的最近的结果在文献报道中进行了回顾,并在催化剂的有效性,稳定性,可重用性和经济合成的一些关键考虑因素。作为了解和优化生物柴油生产工艺的重要组成部分,对该反应的机理进行了详细的探讨。最后,对进一步研究的关键视角方向进行了仔细的确定和阐述。
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