Chemically and physically robust, commercially-viable iron-based composite oxygen carriers sustainable over 3000 redox cycles at high temperatures for chemical looping applications

Energy and Environmental Science

Volumn 10, Issue 11, 2017, Pages 2318-2323

  Chung, Cheng ^a   Qin, Lang ^a   Shah, Vedant ^a   Fan, Liang Shih ^a  

^a Ohio State University   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

IONIZATION OF GASES; OXYGEN; PILOT PLANTS;

ATTRITION RESISTANCES; CHEMICAL-LOOPING PROCESS; COMMERCIAL IMPLEMENTATION; HIGH TEMPERATURE; HIGH-PRESSURE AND TEMPERATURES; IRON BASED COMPOSITE; MORPHOLOGICAL CHANGES; PHYSICAL STABILITY;

CHEMICAL STABILITY;

ALUMINUM; CHEMICAL REACTION; COMPOSITE; HIGH PRESSURE; HIGH TEMPERATURE; IRON; OXYGEN; PRESSURE EFFECT; REDOX CONDITIONS; TEMPERATURE EFFECT;

EID: 85033725405     PISSN: 17545692     EISSN: 17545706     Source Type: Journal    
DOI: 10.1039/c7ee02657a     Document Type: Article

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