Direct Synthesis of Calcium Lactate through the Reaction of Glycerol with Calcium Hydroxide Catalyzed by Bimetallic AuCu/SiO2 Nanocatalysts

Catalysts Pub Date : 2024-05-11 DOI:10.3390/catal14050318

Changqing Li, Xinyue Cui, Aili Wang, Hengbo Yin, Yuting Li, Qiao Lin, Junjie Guo

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Abstract

Bimetallic AuCu/SiO2 nanosized catalysts were prepared using the wet chemical reduction technique. From among Au0.1–1.5Cu10/SiO2 catalysts, the Au0.5Cu10/SiO2 catalyst gave the highest yield of calcium lactate of 87% at a glycerol conversion of 96% when the reaction of glycerol with calcium hydroxide at a mole ratio of calcium hydroxide to glycerol of 0.8:1 was conducted under an anaerobic atmosphere at 200 °C for 2 h. The interactions between metallic Au0 and Cu0 nanoparticles facilitate calcium lactate formation. The simulation of glycerol consumption rate with an empirical power-function reaction kinetics equation yielded a reaction activation energy of 44.3 kJ∙mol−1, revealing that the catalytic reaction of glycerol with calcium hydroxide to calcium lactate can be conducted by overcoming a mild energy barrier. The synthesis of calcium lactate through the catalytic reaction of glycerol with calcium hydroxide on a bimetallic AuCu/SiO2 nanosized catalyst under a safe anaerobic atmosphere is an alternative to the conventional calcium lactate production technique through the reaction of expensive lactic acid with calcium hydroxide.

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在双金属 AuCu/SiO2 纳米催化剂催化下通过甘油与氢氧化钙的反应直接合成乳酸钙

采用湿化学还原技术制备了双金属 AuCu/SiO2 纳米催化剂。在 Au0.1-1.5Cu10/SiO2 催化剂中，当甘油与氢氧化钙的摩尔比为 0.8:1 时，在 200 °C 的厌氧气氛下反应 2 小时，Au0.5Cu10/SiO2 催化剂的乳酸钙产率最高，达到 87%，甘油转化率为 96%。用经验幂函数反应动力学方程模拟甘油消耗速率，得出反应活化能为 44.3 kJ∙mol-1，揭示了甘油与氢氧化钙的催化反应可以克服轻微的能量障碍而生成乳酸钙。在安全的厌氧气氛下，通过双金属 AuCu/SiO2 纳米催化剂催化甘油与氢氧化钙反应合成乳酸钙，替代了传统的通过昂贵的乳酸与氢氧化钙反应生产乳酸钙的技术。

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Catalysts

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