Journal
NEW JOURNAL OF CHEMISTRY
Volume 45, Issue 18, Pages 7967-7976Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1nj00443c
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Funding
- Natural Science Foundation of Shanxi Province [201801D121056]
- Key Research and Development Project of Shanxi Province [201803D421011]
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Binary Mn-Ga metal oxides were prepared and combined with SAPO-34 to study their catalytic performance for syngas conversion. The co-precipitated Mn-Ga oxide sample exhibited higher activity and light olefins selectivity. Among the precipitants, MG-AH showed the highest CO conversion and light olefins space-time yield.
Because metal oxides play an important role in the adsorption and activation of CO and H-2, binary Mn-Ga metal oxides were prepared and combined with SAPO-34 to study its catalytic performance for syngas conversion into light olefins. The effects of preparation method and precipitant on the Mn-Ga oxides were investigated. The co-precipitated Mn-Ga oxide sample exhibits a higher activity and light olefins selectivity than impregnated Ga/MnOx and Mn/Ga2O3, or the powder mixed MG-(PM), or the solution precursor mixed MG-(SM) samples. For the precipitants, viz., ammonia hydroxide (AH), sodium hydroxide (SH), oxalic acid (OA) and sodium carbonate (SC), the prepared MG-AH and MG-SH oxides exhibit an amorphous structure, strong interaction between the Mn and Ga species and a high concentration of oxygen vacancies. Furthermore, MG-AH possesses the largest amount of desorbed CO and moderate H-2 dissociation. Thus, the MG-AH combined with SAPO-34 exhibits the highest CO conversion of 19.5% and the light olefins space-time yield of 116.1 mL h(-1) g(-1) with a stable activity in a reaction time of 50 h.
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