Abstract
This study investigated how various H2 concentrations of fuel mixed with a ceramic granular bed (CGB) affect the propagation characteristics of a premixed C3H8/air flame. The results showed that at low firing rates (Γ < 1.5 kJ/s), as Γ increased, adding H2 exerted little effect on the flame temperature and absolute flame front velocity (Sab); however, at high Γ (Γ > 1.5 kJ/s), as Γ increased, adding H2 caused a significant decrease in the flame temperature and a substantial increase in Sab. Thus, heat transfer was not obvious, and the flame reaction zone was relatively broad. Although adding H2 moved the flame reaction zone upstream, the heat transfer mechanism reduced the effect that resulted from adding H2 under low Γ conditions. Because of the characteristics of H2, the flame reaction zones moved upstream, causing the flame thickness and heat loss to increase. Adding H2 decreased the flame temperature and increased Sab.
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