. . "H\u00E1jek, Ji\u0159\u00ED" . . "[F524F1E4E136]" . "2"^^ . "RIV/00216305:26210/08:PU75410!RIV10-MSM-26210___" . . "Praha" . "Vond\u00E1l, Ji\u0159\u00ED" . "Stehl\u00EDk, Petr" . . . "Z(MSM0021630502)" . "Krohova 75/2212, 160 00 Praha 6, Czech Republic" . "Numerical and experimental analysis of turbulent swirling diffusion gas flames"@en . . . . . . "computational fluid dynamics, swirling flames, diffusion combustion, natural gas"@en . . "4"^^ . "Numerical and experimental analysis of turbulent swirling diffusion gas flames" . "4"^^ . . "Numerical and experimental analysis of turbulent swirling diffusion gas flames" . "Numerical and experimental analysis of turbulent swirling diffusion gas flames"@en . . "Process Engineering Publisher, Ing. Jan Novosad" . . "The computational prediction of turbulent swirling diffusion flames poses a well known,difficult and challenging problem that has been studied by many researchers. The objective of the present article is to provide an experimental and computational study of swirling diffusion gas flames using a different approach to validation of the predictions. Detailed description of the experiment, the testing facility, measuring procedure and instrumentation is provided. List of adjustable components of the staged gas burner is also given with operation ranges of these parameters. Attention is paid to the way steady state conditions are achieved and identified in the experiments. Obtained measured results are analysed with regard to the propagation of uncertainty. The particular experiment and its settings chosen to be modelled by a CFD approach is described as well. Boundary conditions as well as key sub-models for turbulence and chemistry are specified. Finally 4 numerically successful simulations are reported." . . . . "26210" . . "978-80-02-02051-6" . . "Summaries 4 Pres 2008 and System Engineering" . "The computational prediction of turbulent swirling diffusion flames poses a well known,difficult and challenging problem that has been studied by many researchers. The objective of the present article is to provide an experimental and computational study of swirling diffusion gas flames using a different approach to validation of the predictions. Detailed description of the experiment, the testing facility, measuring procedure and instrumentation is provided. List of adjustable components of the staged gas burner is also given with operation ranges of these parameters. Attention is paid to the way steady state conditions are achieved and identified in the experiments. Obtained measured results are analysed with regard to the propagation of uncertainty. The particular experiment and its settings chosen to be modelled by a CFD approach is described as well. Boundary conditions as well as key sub-models for turbulence and chemistry are specified. Finally 4 numerically successful simulations are reported."@en . "\u0160arlej, Marek" . "383437" . "RIV/00216305:26210/08:PU75410" . "2008-08-24+02:00"^^ .