Catalytic Valorisation of Biomass-Derived Levulinic Acid to Biofuel Additive γ-Valerolactone: Influence of Copper Loading on Silica Support

Reactions Pub Date : 2023-09-05 DOI:10.3390/reactions4030028
Rajender Boddula, Paramasivam Shanmugam, Rajesh K. Srivatsava, Nabila Tabassum, Ramyakrishna Pothu, R. Naik, Aditya Saran, B. Viswanadham, A. B. Radwan, N. Al-Qahtani
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引用次数: 1

Abstract

γ-valerolactone (GVL) is a crucial chemical feedstock used in the production of fuel additives, renewable fuels, and fine chemicals alternative to petroleum-based solvents and chemicals, supporting the transition to sustainable energy solutions. It is promptly acquired by hydrogenating levulinic acid (LA) in a gaseous or liquid phase with a homogeneous or heterogeneous catalyst using a variety of recognized catalytic processes. Herein, this work focuses on the use of silica-supported copper (Cu/SiO2) catalysts for the gas-phase hydrogenation of LA to GVL under mild reaction conditions. The study analyzes how copper loading can affect the catalytic activity of the Cu/SiO2, while the flow rate of LA, time-on-stream, reaction temperature, and LA concentration affect the catalytic efficiency. The SiO2 support’s various Cu loadings are crucial for adjusting the catalytic hydrogenation activity. One of the studied catalysts, a 5 wt% Cu/SiO2 catalyst, demonstrated ~81% GVL selectivity with ~78% LA conversion and demonstrated stability for ~8 h while operating at atmospheric pressure and temperature (265 °C) and 0.5 mL/h of LA flow rate. The ability to activate hydrogen, high amount of acidic sites, and surface area were all discovered to be advantageous for increased GVL selectivity.
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生物质衍生乙酰丙酸对生物燃料添加剂γ-戊内酯的催化增值:铜负载对二氧化硅载体的影响
γ-戊内酯(GVL)是一种重要的化学原料,用于生产燃料添加剂、可再生燃料和精细化学品,以替代石油基溶剂和化学品,支持向可持续能源解决方案的过渡。它是通过使用各种公认的催化过程,用均相或多相催化剂在气相或液相中加氢乙酰丙酸(LA)而迅速获得的。本文主要研究了在温和反应条件下,利用二氧化硅负载铜(Cu/SiO2)催化剂催化LA气相加氢制GVL。研究分析了载铜量对Cu/SiO2催化活性的影响,LA流量、流时间、反应温度和LA浓度对催化效率的影响。SiO2载体的各种Cu负载对调节催化加氢活性至关重要。其中一种催化剂,5 wt% Cu/SiO2催化剂,具有~81%的GVL选择性和~78%的LA转化率,并且在常压、常温(265℃)和0.5 mL/h LA流速下稳定运行~8 h。活化氢的能力、大量的酸性位点和表面积都被发现有利于提高GVL的选择性。
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