1. Influence of Y on the performance of Mg-Al-Y catalysts via hydrotalcite-like precursors for the synthesis of diethyl carbonate from ethyl carbamate and ethanol
- Author
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Wei Wei, Shanfang Liu, Dengfeng Wang, Xuelan Zhang, and Diangen Zhou
- Subjects
Hydrotalcite ,010405 organic chemistry ,General Chemical Engineering ,Thermal decomposition ,Inorganic chemistry ,Diethyl carbonate ,Energy Engineering and Power Technology ,010402 general chemistry ,01 natural sciences ,0104 chemical sciences ,Catalysis ,chemistry.chemical_compound ,Fuel Technology ,chemistry ,Yield (chemistry) ,Mixed oxide ,Ethyl carbamate ,Reactivity (chemistry) ,Nuclear chemistry - Abstract
A series of Mg-Al-Y mixed oxides (CHT-Y) with different Y 3 + :(Al 3 + + Y 3 + ) atomic ratios were obtained by thermal decomposition of Y-containing hydrotalcite-like compounds. Then, they were characterized using XRD, TGA, XPS, SEM, ICP, CO 2 -TPD and N 2 adsorption-desorption measurement. Meanwhile, all the mixed oxide catalysts were evaluated for the synthesis of diethyl carbonate (DEC) from ethyl carbamate (EC) and ethanol. The results showed that the texture, structure, basic property as well as catalytic activity of CHT-Y were closely associated with the content of Y in the catalyst. Importantly, the role of basic sites was studied in overall reaction and in every comprising reaction path identified in this research. It was found that the reaction of EC and ethanol could be improved by the moderate and strong basic sites of catalyst, while the side-reactions towards undesired products were strongly catalyzed over the catalyst with high basic strength. As a result, the best result was achieved over the catalyst with Y 3 + :(Al 3 + + Y 3 + ) = 0.3. Under the optimal reaction conditions, the yield of EC reached 63.8% with a high DEC selectivity of 81.6%. Furthermore, the reusability test and catalyst characterization indicated that CHT-Y catalyst was heterogeneous and could be reused at least fourth time without obvious loss of reactivity.
- Published
- 2017
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