Catalytic hydrodenitrogenation of primary, secondary, and tertiary C12-alkyl amines over a platinum on zirconia catalyst

Joakim, Kattelus, Leoni-Franziska, Klingelhöfer, Emma, Verkama, Jorge, Velasco, Leonhard, Iser, Marcus, Rose, Reetta, Karinen, Riikka, Puurunen
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Abstract

In this work, the hydrodenitrogenation (HDN) of a primary amine (dodecylamine), a secondary amine (didodecylamine), and a tertiary amine (tridodecylamine) over a Pt/ZrO2 catalyst was compared in a batch reactor. The main product of the amine hydrotreating was dodecane, but significant amounts of secondary amine were also formed as an intermediate during HDN of the primary and the tertiary amine. It was found that the primary amine is the only species for which direct HDN is possible; HDN of the secondary amine thus proceeds through a primary amine intermediate and HDN of the tertiary amine involves formation of secondary amine, which decomposes to primary amine. Consequently, HDN of the tertiary and secondary amines is slower than that of the primary amine. Kinetic modeling indicated that bimolecular condensation reactions of the primary amine, as well as potentially of the primary amine and the secondary amine, have a significant effect on the HDN process. Formation of secondary amine from primary amine increases the initial conversion and nitrogen removal rate but appeared to slow down the overall rate of nitrogen removal. The results thus demonstrate how condensation reactions affect amine HDN, which has implications for catalyst design for HDN of renewable feeds containing aliphatic amines.
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在氧化锆铂催化剂上催化 C12-烷基伯胺、仲胺和叔胺的加氢脱氮反应
本研究比较了间歇反应器中一级胺(十二胺)、二级胺(十二烷基胺)和三级胺(十二烷基三胺)在 Pt/ZrO2 催化剂上的加氢脱氮(HDN)过程。胺加氢处理的主要产物是十二烷,但在伯胺和叔胺的加氢脱硫过程中,作为中间体也形成了大量的仲胺。研究发现,伯胺是唯一一种可以直接进行加氢脱氮的物质;因此,仲胺的加氢脱氮是通过伯胺中间体进行的,而叔胺的加氢脱氮则涉及仲胺的形成,仲胺会分解为伯胺。因此,叔胺和仲胺的 HDN 比伯胺的 HDN 慢。动力学模型表明,伯胺的双分子缩合反应以及伯胺和仲胺的潜在缩合反应对 HDN 过程有重大影响。由伯胺生成的仲胺会提高初始转化率和脱氮率,但似乎会降低整体脱氮率。因此,研究结果证明了缩合反应如何影响胺的加氢脱氮,这对含有脂肪族胺的可再生原料的加氢脱氮催化剂设计具有重要意义。
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