Sorbent-enhanced methane reforming over a Ni-Ca-based, bifunctional catalyst sorbent

ACS Catalysis

Volumn 2, Issue 8, 2012, Pages 1635-1646

  Broda, Marcin ^a   Kierzkowska, Agnieszka M ^a   Baudouin, David ^a   Imtiaz, Qasim ^a   Copéret, Christophe ^a   Müller, Christoph R ^a  

^a ETH ZURICH   (Switzerland)

Author keywords

bifunctional catalyst; calcium oxide; CO 2capture; hydrogen; nickel catalyst; sorbent enhanced steam methane reforming

Indexed keywords

ABSORPTION CAPACITY; BI-FUNCTIONAL CATALYSTS; BIFUNCTIONAL MATERIALS; CA-FREE; CALCINED HYDROTALCITE; COPRECIPITATION TECHNIQUE; DECAY RATE; EFFLUENT STREAMS; HIGH DISPERSION; HIGH-PURITY; INERT COMPONENTS; METHANE REFORMING; MIXED OXIDE; MOLE FRACTION; NATURALLY OCCURRING; NICKEL CATALYST; REFORMING CATALYST; SURFACE AREA; TEMPERATURE-PROGRAMMED REDUCTION; THERMALLY STABLE; THERMODYNAMIC EQUILIBRIA;

ALUMINUM; CALCINATION; CALCIUM; CATALYSTS; CHEMISORPTION; DISPERSIONS; HYDROGEN; LIME; LIMESTONE; NICKEL; PHYSISORPTION; SORBENTS; STEAM REFORMING; TRANSMISSION ELECTRON MICROSCOPY; X RAY DIFFRACTION;

CARBON DIOXIDE;

EID: 84864590142     PISSN: 21555435     EISSN: None     Source Type: Journal    
DOI: 10.1021/cs300247g     Document Type: Article

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