On various modeling approaches to radiative heat transfer in pool fires

Combustion and Flame

Volumn 148, Issue 4, 2007, Pages 263-279

  Jensen, Kirk A ^a   Ripoll, Jean François ^b   Wray, Alan A ^c   Joseph, David ^d   El Hafi, Mouna ^d  

^a SANDIA NATIONAL LABORATORIES   (United States)

^b STANFORD UNIVERSITY   (United States)

^c NASA AMES RESEARCH CENTER   (United States)

^d ECOLE DES MINES D ALBI CARMAUX   (France)

Author keywords

Discrete ordinates; Discrete transfer; Fire; M1 model; Monte Carlo; Radiation; Ray tracing

Indexed keywords

ABSORPTION; COMPUTER SIMULATION; HEAT RADIATION; MONTE CARLO METHODS; RAY TRACING;

DISCRETE ORDINATES; DISCRETE TRANSFER; M1 MODEL;

FIRES;

TRACER;

ABSORPTION; COMPUTER SIMULATION; FIRES; HEAT RADIATION; MONTE CARLO METHODS; RAY TRACING;

ACCURACY; ANISOTROPY; ARTICLE; COMBUSTION; FIRE; GEOMETRY; HEAT TRANSFER; INTERMETHOD COMPARISON; MATHEMATICAL COMPUTING; MATHEMATICAL MODEL; METHODOLOGY; MONTE CARLO METHOD; OPTICAL RESOLUTION; ORDINATION ANALYSIS; PREDICTION; PRIORITY JOURNAL; RADIATION; RADIATION ABSORPTION; STANDARD; TEMPERATURE; THREE DIMENSIONAL IMAGING;

EID: 33846628478     PISSN: 00102180     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.combustflame.2006.09.008     Document Type: Article

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