Palladium supported over carbon nanotubes catalytic system for green diesel production

IF 3.9 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Carbon Trends Pub Date : 2025-09-24 DOI:10.1016/j.cartre.2025.100576

Stefano Savino , Elena Ghedini , Andrea L. Aloia , Antonio Monopoli , Francesco Taddeo , Tommaso Castiglia , Angelo Nacci , Stanislav Yakushkin , Blaž Likozar , Michele Casiello , Lucia D'Accolti

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Abstract

Addressing the urgent need for sustainable biofuels, for the first time in the literature a palladium catalyst supported on multi-walled carbon nanotubes (Pd@MWCNTs) was used for promoting deoxygenation (DO) of fatty acids and triglycerides to produce green diesel. Reaction was conducted in water as a green solvent under relatively mild conditions (250°C, 16 bar H₂). The catalyst was prepared modifying known procedures, using oxidative pretreatment of nanotubes, and characterized by FTIR, SEM-EDX, BET, NH₃-TPD, XPS, physi- and chemisorption techniques. Catalytic performances of Pd@MWCNTs were compared with those of commercial Pd/C and different reactivity was explained on the base of chemical and morphologic features. Pd@MWCNTs gave a complete conversion (100%) of soybean oil under the operative conditions and proved to be always more selective (>90%) than Pd/C in giving decarbonylation products (alkanes C15 and C17). The catalyst resilience was evident in aqueous-phase reactions, where it maintained 86% conversion upon reuse, while Pd/C deactivated rapidly. Finally, industrial relevance was demonstrated extending the protocol to unrefined feedstocks such as olein residues and sewage scum, achieving 50–95% alkane yields.

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碳纳米管催化系统支持钯的绿色柴油生产

为了解决对可持续生物燃料的迫切需求，在文献中首次使用了多壁碳纳米管负载的钯催化剂（Pd@MWCNTs）来促进脂肪酸和甘油三酯的脱氧（DO）以生产绿色柴油。在相对温和的条件下（250°C, 16 bar H2），以水为绿色溶剂进行反应。该催化剂采用纳米管氧化预处理方法，通过FTIR、SEM-EDX、BET、NH3-TPD、XPS、物理和化学吸附等技术对催化剂进行了表征。将Pd@MWCNTs与商品Pd/C的催化性能进行了比较，并从化学和形态特征上解释了不同的反应活性。Pd@MWCNTs给出了操作条件下大豆油的完全转化率（100%），并证明在得到脱羰产物（烷烃C15和C17）时总是比Pd/C更具选择性（>90%）。在水相反应中，催化剂的弹性很明显，在重复使用时保持86%的转化率，而Pd/C迅速失活。最后，证明了工业相关性，将该协议扩展到未精炼的原料，如油残和污水浮渣，达到50-95%的烷烃收率。

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