Chemical Looping of Manganese to Synthesize Ammonia at Atmospheric Pressure: Sodium as Promoter
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Issue Date
2020-08-10Article Version
Scholarly/refereed, publisher version
Published Version
https://onlinelibrary.wiley.com/doi/abs/10.1002/ceat.202000154Metadata
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Affordable synthetic ammonia (NH3) enables the production of nearly half of the food we eat and is emerging as a renewable energy carrier. Sodium-promoted chemical looping NH3 synthesis at atmospheric pressure using manganese (Mn) is here demonstrated. The looping process may be advantageous when inexpensive renewable hydrogen from electrolysis is available. Avoiding the high pressure of the Haber-Bosch process by chemical looping using earth-abundant materials may reduce capital cost, facilitate intermittent operation, and allow operation in geographic areas where infrastructure is less sophisticated. At this early stage, the data suggest that 0.28 m3 of a 50 % porosity solid Mn bed may suffice to produce 100 kg NH3 per day by chemical looping, with abundant opportunities for improvement.
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- FEWtures Project [18]
Citation
Wrya Mohammadi Aframehr, Chaoran Huang, Peter H. Pfromm. 2020. Chemical Looping of Manganese to Synthesize Ammonia at Atmospheric Pressure: Sodium as Promoter. Chemical Engineering & Technology 43(10): 2126-2133.
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