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Yining Zhang, Yuecheng Zhang, Cheng Feng, Chuanjiang Qiu, Yanlong Wen, Jiquan Zhao (2009)
Amination of ethanol to acetonitrile over Ni-doped Co/γ-Al2O3 catalystCatalysis Communications, 10
Cheng Feng, Yuecheng Zhang, Yining Zhang, Yanlong Wen, Jiquan Zhao (2011)
Study on Alumina-Supported Cobalt–Nickel Oxide Catalyst for Synthesis of Acetonitrile from EthanolCatalysis Letters, 141
Y. Hu, Jinpeng Cao, Jun Deng, Baoyu Cui, Mingwei Tan, Junfei Li, Hong-sheng Zhang (2012)
Synthesis of acetonitrile from ethanol via reductive amination over Cu/γ-Al2O3Reaction Kinetics, Mechanisms and Catalysis, 106
Di Zhang, Yuecheng Zhang, Yanlong Wen, K. Hou, Jiquan Zhao (2011)
Intrinsic kinetics for the synthesis of acetonitrile from ethanol and ammonia over Co–Ni/γ–Al2O3 catalystChemical Engineering Research & Design, 89
E. Golosman (2001)
Main Features of the Synthesis and Formation of Cement-Containing Catalysts for Various Processes of Organic, Inorganic, and Environmental CatalysisKinetics and Catalysis, 42
Experiments on direct synthesis of acetonitrile from ethanol, ammonia, and hydrogen at 513–573 K in the presence of new Cu-, Cu–Zn–(Zr)-, and Cu–Mg-containing composite catalysts prepared using calcium aluminates (Talyum, technical-grade calcium aluminate) were performed The following results were reached: ethanol conversion 96.0–99.0%, selectivity with respect to acetonitrile 99.0%, and acetonitrile output exceeding the reported level by a factor of 1.2–1.4. The new technology can be implemented in industry.
Russian Journal of Applied Chemistry – Springer Journals
Published: Jun 15, 2016
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