On the Response of Ultralean Combustion of CH₄/H₂ Blends in a Porous Burner to Fluctuations in Fuel Flow—an Experimental Investigation

Abstract: Fluctuations in the fuel flow rate may occur in practical combustion systems and result in flame destabilization. This is particularly problematic in lean and ultralean modes of burner operation. In this study, the response of a ceramic porous burner to fluctuations in the flow rate of different blends of methane and hydrogen is investigated experimentally. Prior to injection into the porous burner, the fuel blend is premixed with air at equivalence ratios below 0.275. The fuel streams are measured and control… Show more

“…Moreover, the inserted porous medium obstructs the flow at the center zone and guides it towards the inner wall, which enhances the heat transfer to the wall [23]. This allows PMC technology to be applied in some places that need to rely on radiation for heat exchange, such as radiant burners [24] and thermophotovoltaic (TPV) applications [25].…”

Study on Oxy-Methane Flame Stability in a Cylindrical Porous Medium Burner

“…Moreover, the inserted porous medium obstructs the flow at the center zone and guides it towards the inner wall, which enhances the heat transfer to the wall [23]. This allows PMC technology to be applied in some places that need to rely on radiation for heat exchange, such as radiant burners [24] and thermophotovoltaic (TPV) applications [25].…”

Study on Oxy-Methane Flame Stability in a Cylindrical Porous Medium Burner

Properties and mechanisms of low concentration methane catalytic combustion in porous media supported with transition metal oxides

Ethylene combustion performance with varying the N2 content in a porous burner