“…Furthermore, due to the great heat capacity of water vapor, it absorbs more heat and reduce the pressure in a constant volume chamber. The increase of RH can mitigate the possibility and intensity of explosion [55][56] [57]. On the focus of this study is the influence by various humidity on the explosion pressure.…”
“…Furthermore, due to the great heat capacity of water vapor, it absorbs more heat and reduce the pressure in a constant volume chamber. The increase of RH can mitigate the possibility and intensity of explosion [55][56] [57]. On the focus of this study is the influence by various humidity on the explosion pressure.…”
“…It is based upon the behaviour observed in experimental tests examining the mitigation of gas explosion with deluge water-spray systems [30,31]. One or more nonoverlapping water-spray regions are defined.…”
“…The heat transfer mechanisms between a methane-air flame front and a water spray or mist have been fully described by Parra et al [4]. Besides the flame extinction mechanisms [5,2,6] and the mitigation effects of the spray [7][8][9][10][11][12][13] are characterized for methane-or propane-air flame. The fine analysis of the above topics is very limited in the literature and some discrepancies are observed between the experimental data and numerical results.…”
Section: Lumped Parameter Analysis: Hydrogen Combustion Under Liquid mentioning
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