Combustion regimes in turbulent non-premixed flames for space propulsion

Abstract: Direct numerical simulations of non-premixed fuel-rich methane-oxygen flames at 20 bar are conducted to investigate the turbulent mixing burning of gaseous propellants in rocket engines. The reacting flow is simulated using the EBI-DNS solver, within the OpenFOAM frame. The transport of species is resolved with finite rate chemistry, using a complex skeletal mechanism that entails 21 species. Two different flames at low and high Reynolds numbers are considered to study the sensitivity of the flame dynamics to … Show more

“…In diffusion flames, combustion may take place in non-premixed or premixed conditions, depending on the local conditions. This is particularly relevant in space propulsion applications, where the high reactivity of the propellants increases the viability of combustion in locally premixed conditions [98]. In LESs, the actual local conditions may be evaluated using the filtered flame index:…”

Subgrid Turbulent Flux Models for Large Eddy Simulations of Diffusion Flames in Space Propulsion

“…In diffusion flames, combustion may take place in non-premixed or premixed conditions, depending on the local conditions. This is particularly relevant in space propulsion applications, where the high reactivity of the propellants increases the viability of combustion in locally premixed conditions [98]. In LESs, the actual local conditions may be evaluated using the filtered flame index:…”

Subgrid Turbulent Flux Models for Large Eddy Simulations of Diffusion Flames in Space Propulsion