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Closed vessel combustion modelling by using pressure-time evolution function derived from two- zonal approach (CROSBI ID 183092)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Tomić, Mladen ; Perković, Luka ; Živković, Predrag ; Duić, Neven ; Stefanović, Gordana Closed vessel combustion modelling by using pressure-time evolution function derived from two- zonal approach // Thermal science, 16 (2012), 2; 561-572. doi: 10.2298/TSCI110916014T

Podaci o odgovornosti

Tomić, Mladen ; Perković, Luka ; Živković, Predrag ; Duić, Neven ; Stefanović, Gordana

engleski

Closed vessel combustion modelling by using pressure-time evolution function derived from two- zonal approach

In this paper a new method for burned mass fraction - pressure relation, x-p relation, for two-zone model combustion calculation is developed. The main application of the two-zone model is obtaining laminar burning velocity, SL, by using a pressure history from a closed vessel combustion experiment. The linear x-p relation by Lewis and Von Elbe is still widely used. For linear x-p relation, the end pressure is necessary as input data for the description of the combustion process. In this paper a new x-p relation is presented on the basis of mass and energy conservation during the combustion. In order to correctly represent pressure evolution, the model proposed in this paper needs several input parameters. They were obtained from different sources, like the PREMIX software (with GRIMECH 3.0 mechanism) and GASEQ software, as well as thermodynamic tables. The error analysis is presented in regard to the input parameters. The proposed model is validated against the experiment by Dahoe and Goey, and compared with linear x-p relation from Lewis and Von Elbe. The proposed two zone model shows sufficient accuracy when describing the combustion process in a closed vessel without knowing the end pressure in advance, i.e. both peak pressure and combustion rates can be sufficiently correctly captured.

Combustion bomb; laminar flame speed; methane; two-zone model

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Podaci o izdanju

16 (2)

2012.

561-572

objavljeno

0354-9836

10.2298/TSCI110916014T

Povezanost rada

Strojarstvo

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