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- Zhang, Qingde, et al. Show all 9 Authors
- Fuel processing technology 2017 v.167 pp. 69-77
- X-ray diffraction; aluminum; carbon; carbon dioxide; catalysts; catalytic activity; copper; coprecipitation; crystals; energy-dispersive X-ray analysis; hydrolysis; methanol; mixing; scanning electron microscopy; surface area; synthesis gas; temperature; urea; zinc oxide
- ... The Cu/ZnO catalyst prepared by urea hydrolysis method was investigated for low-temperature methanol synthesis from syngas containing CO2. Concurrently, the activity of the conventional Cu/ZnO catalyst prepared by co-precipitation method was also compared. The effects of precipitation temperature, urea content, stirring speed and the introduction of Al on the catalytic performance of Cu/ZnO were d ...