Numerical and experimental analysis of the effect of adding water electrolysis products on the laminar burning velocity and stability of lean premixed methane/air flames at sub-atmospheric pressures

This paper presents a study of CH₄/Air/H₂/O₂ premixed laminar flames using a ratio of H₂/O₂ equal to 2/1. This gas mixture represents the products of the electrolysis of water. To date, only numerical analysis has been carried out on these kinds of blends and using H₂/O₂ percentages of only up to 10% by volume. Furthermore, there have been no reports of experimental analysis or possible flame instabilities associated with the enrichment of the mix with H₂/O₂. In this study, the effect of adding water electrolysis products on the laminar burning velocity and stability of lean premixed methane/air flames is studied for different percentages of H₂/O₂ (10 and 25) in the lean combustion regime, which is relevant for most engineering applications. The results show that a higher addition of H₂/O₂ to methane increases the laminar burning velocity. In particular, at Φ = 0.75, intrinsic instabilities are observed for mixtures with 25% of H₂/O₂ in methane. With the addition of H₂/O₂, the laminar flame thickness decreases and the growth rate increases. Hence, the addition of H₂/O₂ to a premixed natural gas flame enhances the hydrodynamic instabilities.