High-temperature solar methane dissociation in a multitubular cavity-type reactor in the temperature range 1823-2073 K

Energy and Fuels

Volumn 23, Issue 5, 2009, Pages 2666-2674

  Rodat, Sylvain ^a   Abanades, Stephane ^a   Flamant, Gilles ^a  

^a Centre National de la Recherche Scientifique   (France)

Author keywords

[No Author keywords available]

Indexed keywords

CARBON MASS BALANCE; CAVITY RECEIVER; CO-PRODUCTION; CONCENTRATED SOLAR RADIATION; EFFECTS OF TEMPERATURE; GAS FLOWS; HIGH TEMPERATURE; METHANE CONCENTRATIONS; METHANE CRACKING; QUARTZ WINDOWS; REACTION ZONES; REACTOR EFFICIENCY; RESIDENCE TIME; SOLAR REACTORS; SOLAR-TO-HYDROGEN; SOLID CARBON; TEMPERATURE RANGE; THERMAL DISSOCIATION; THERMAL EFFICIENCY; THERMOCHEMICAL CONVERSION; TWO-STEP MECHANISMS;

ACETYLENE; CARBON BLACK; DISSOCIATION; GAS INDUSTRY; GRAPHITE; HYDROGEN; LIGHTING; METHANATION; METHANE; OXIDE MINERALS; QUARTZ; SUN; THERMAL EFFECTS;

SOLAR POWER GENERATION;

EID: 66149178799     PISSN: 08870624     EISSN: None     Source Type: Journal    
DOI: 10.1021/ef900037v     Document Type: Article

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