Litcius/Paper detail

LES-CMC of high-altitude relight in an RQL aeronautical combustor

Léo C. C. Mesquita, Epaminondas Mastorakos, Marco Zedda

2022Proceedings of the Combustion Institute19 citationsDOIOpen Access PDF

Abstract

Large-Eddy Simulations with the Conditional Moment Closure sub-grid combustion model and detailed chemistry for kerosene were performed for the ignition process in an Rich-Quench-Lean aviation gas turbine combustor at high-altitude conditions. The simulations used realistic boundary conditions for the flow inlet and spray droplet size distributions and velocity. Due to the large droplets, the Central Recirculation Zone (CRZ) is filled with fuel, mostly in liquid form. The first phase of the ignition process is critical and the results show that the spark kernel must provide enough energy to evaporate the spray and pyrolyse the fuel for the flame to grow and establish in the corner of the combustor. The second phase is characterised by the flame burning the mixture in the scorner and propagating around the Inner Shear Layer. This phase is also critical, as the flame needs the prevaporised fuel and smaller droplets in the corner to sufficiently increase the temperature and be able to propagate inside the CRZ, filled with liquid fuel and cold air. If this propagation inside the CRZ is achieved, phase three is accomplished and the burner is fully ignited. The simulations demonstrate the particular importance of detailed chemistry and proper boundary conditions for flame ignition simulations in high-altitude relight conditions.

Topics & Concepts

CombustorIgnition systemCombustionMechanicsLarge eddy simulationNuclear engineeringMaterials scienceLiquid fuelBoundary layerEnvironmental scienceMeteorologyAerospace engineeringTurbulenceChemistryEngineeringPhysicsOrganic chemistryCombustion and flame dynamicsAdvanced Combustion Engine TechnologiesFire dynamics and safety research